diff options
author | nbd <nbd@3c298f89-4303-0410-b956-a3cf2f4a3e73> | 2006-01-10 19:43:00 +0000 |
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committer | nbd <nbd@3c298f89-4303-0410-b956-a3cf2f4a3e73> | 2006-01-10 19:43:00 +0000 |
commit | dab3ca1324288a1abeb32590e1caec8848efe3e0 (patch) | |
tree | 4f317d291370cf0af876f446896c66a3a503be97 /target/linux/ar7-2.4/patches | |
parent | 2768e44f00ff513e9cc3e46a2c7cd91d1920c133 (diff) |
large target/linux cleanup
git-svn-id: svn://svn.openwrt.org/openwrt/trunk/openwrt@2877 3c298f89-4303-0410-b956-a3cf2f4a3e73
Diffstat (limited to 'target/linux/ar7-2.4/patches')
-rw-r--r-- | target/linux/ar7-2.4/patches/000-ar7_support.patch | 9549 | ||||
-rw-r--r-- | target/linux/ar7-2.4/patches/001-flash_map.patch | 307 | ||||
-rw-r--r-- | target/linux/ar7-2.4/patches/002-led_driver.patch | 1915 | ||||
-rw-r--r-- | target/linux/ar7-2.4/patches/003-net_driver_cpmac.patch | 13341 | ||||
-rw-r--r-- | target/linux/ar7-2.4/patches/004-atm_driver.patch | 27232 | ||||
-rw-r--r-- | target/linux/ar7-2.4/patches/005-wdt_driver.patch | 392 | ||||
-rw-r--r-- | target/linux/ar7-2.4/patches/006-sched_use_tsc.patch | 84 |
7 files changed, 52820 insertions, 0 deletions
diff --git a/target/linux/ar7-2.4/patches/000-ar7_support.patch b/target/linux/ar7-2.4/patches/000-ar7_support.patch new file mode 100644 index 0000000000..0c9c0d3028 --- /dev/null +++ b/target/linux/ar7-2.4/patches/000-ar7_support.patch @@ -0,0 +1,9549 @@ +diff -urN linux.old/arch/mips/Makefile linux.dev/arch/mips/Makefile +--- linux.old/arch/mips/Makefile 2005-10-21 16:43:16.316951500 +0200 ++++ linux.dev/arch/mips/Makefile 2005-11-10 01:10:45.775570250 +0100 +@@ -369,6 +369,16 @@ + endif + + # ++# Texas Instruments AR7 ++# ++ ++ifdef CONFIG_AR7 ++LIBS += arch/mips/ar7/ar7.o ++SUBDIRS += arch/mips/ar7 ++LOADADDR += 0x94020000 ++endif ++ ++# + # DECstation family + # + ifdef CONFIG_DECSTATION +diff -urN linux.old/arch/mips/ar7/Makefile linux.dev/arch/mips/ar7/Makefile +--- linux.old/arch/mips/ar7/Makefile 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/arch/mips/ar7/Makefile 2005-11-10 01:13:51.443173750 +0100 +@@ -0,0 +1,14 @@ ++.S.s: ++ $(CPP) $(AFLAGS) $< -o $*.s ++ ++.S.o: ++ $(CC) $(AFLAGS) -c $< -o $*.o ++ ++EXTRA_CFLAGS := -I$(TOPDIR)/include/asm/ar7 -DLITTLE_ENDIAN -D_LINK_KSEG0_ ++O_TARGET := ar7.o ++ ++obj-y := tnetd73xx_misc.o misc.o ++export-objs := misc.o irq.o init.o ++obj-y += setup.o irq.o int-handler.o reset.o init.o psp_env.o memory.o promlib.o cmdline.o ++ ++include $(TOPDIR)/Rules.make +diff -urN linux.old/arch/mips/ar7/cmdline.c linux.dev/arch/mips/ar7/cmdline.c +--- linux.old/arch/mips/ar7/cmdline.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/arch/mips/ar7/cmdline.c 2005-11-10 01:14:16.372731750 +0100 +@@ -0,0 +1,88 @@ ++/* ++ * Carsten Langgaard, carstenl@mips.com ++ * Copyright (C) 1999,2000 MIPS Technologies, Inc. All rights reserved. ++ * ++ * This program is free software; you can distribute it and/or modify it ++ * under the terms of the GNU General Public License (Version 2) as ++ * published by the Free Software Foundation. ++ * ++ * This program is distributed in the hope it will be useful, but WITHOUT ++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or ++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License ++ * for more details. ++ * ++ * You should have received a copy of the GNU General Public License along ++ * with this program; if not, write to the Free Software Foundation, Inc., ++ * 59 Temple Place - Suite 330, Boston MA 02111-1307, USA. ++ * ++ * Kernel command line creation using the prom monitor (YAMON) argc/argv. ++ */ ++#include <linux/init.h> ++#include <linux/string.h> ++ ++#include <asm/bootinfo.h> ++ ++extern int prom_argc; ++extern int *_prom_argv; ++ ++/* ++ * YAMON (32-bit PROM) pass arguments and environment as 32-bit pointer. ++ * This macro take care of sign extension. ++ */ ++#define prom_argv(index) ((char *)(((int *)(int)_prom_argv)[(index)])) ++ ++char arcs_cmdline[CL_SIZE]; ++#ifdef CONFIG_CMDLINE_BOOL ++char __initdata cfg_cmdline[] = CONFIG_CMDLINE; ++#endif ++ ++char * __init prom_getcmdline(void) ++{ ++ return &(arcs_cmdline[0]); ++} ++ ++ ++void __init prom_init_cmdline(void) ++{ ++ char *cp, *end; ++ int actr; ++ char *env_cmdline = prom_getenv("kernel_args"); ++ size_t len; ++ ++ actr = 1; /* Always ignore argv[0] */ ++ ++ cp = end = &(arcs_cmdline[0]); ++ end += sizeof(arcs_cmdline); ++ ++ if (env_cmdline) { ++ len = strlen(env_cmdline); ++ if (len > end - cp - 1) ++ len = end - cp - 1; ++ strncpy(cp, env_cmdline, len); ++ cp += len; ++ *cp++ = ' '; ++ } ++#ifdef CONFIG_CMDLINE_BOOL ++ else { ++ len = strlen(cfg_cmdline); ++ if (len > end - cp - 1) ++ len = end - cp - 1; ++ strncpy(cp, cfg_cmdline, len); ++ cp += len; ++ *cp++ = ' '; ++ } ++#endif ++ ++ while(actr < prom_argc) { ++ len = strlen(prom_argv(actr)); ++ if (len > end - cp - 1) ++ break; ++ strncpy(cp, prom_argv(actr), len); ++ cp += len; ++ *cp++ = ' '; ++ actr++; ++ } ++ if (cp != &(arcs_cmdline[0])) /* get rid of trailing space */ ++ --cp; ++ *cp = '\0'; ++} +diff -urN linux.old/arch/mips/ar7/init.c linux.dev/arch/mips/ar7/init.c +--- linux.old/arch/mips/ar7/init.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/arch/mips/ar7/init.c 2005-11-10 01:10:45.795571500 +0100 +@@ -0,0 +1,199 @@ ++/* ++ * Carsten Langgaard, carstenl@mips.com ++ * Copyright (C) 1999,2000 MIPS Technologies, Inc. All rights reserved. ++ * ++ * This program is free software; you can distribute it and/or modify it ++ * under the terms of the GNU General Public License (Version 2) as ++ * published by the Free Software Foundation. ++ * ++ * This program is distributed in the hope it will be useful, but WITHOUT ++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or ++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License ++ * for more details. ++ * ++ * You should have received a copy of the GNU General Public License along ++ * with this program; if not, write to the Free Software Foundation, Inc., ++ * 59 Temple Place - Suite 330, Boston MA 02111-1307, USA. ++ * ++ * PROM library initialisation code. ++ */ ++#include <linux/config.h> ++#include <linux/init.h> ++#include <linux/string.h> ++#include <linux/kernel.h> ++#include <linux/module.h> ++ ++#include <asm/io.h> ++#include <asm/mips-boards/prom.h> ++#include <asm/mips-boards/generic.h> ++ ++#include <asm/ar7/adam2_env.h> ++ ++int prom_argc; ++int *_prom_argv, *_prom_envp; ++ ++/* max # of Adam2 environment variables */ ++#define MAX_ENV_ENTRY 80 ++ ++static t_env_var local_envp[MAX_ENV_ENTRY]; ++static int env_type = 0; ++int init_debug = 0; ++ ++unsigned int max_env_entry; ++ ++extern char *prom_psp_getenv(char *envname); ++ ++static inline char *prom_adam2_getenv(char *envname) ++{ ++ /* ++ * Return a pointer to the given environment variable. ++ * In 64-bit mode: we're using 64-bit pointers, but all pointers ++ * in the PROM structures are only 32-bit, so we need some ++ * workarounds, if we are running in 64-bit mode. ++ */ ++ int i; ++ t_env_var *env = (t_env_var *) local_envp; ++ ++ if (strcmp("bootloader", envname) == 0) ++ return "Adam2"; ++ ++ i = strlen(envname); ++ while (env->name) { ++ if(strncmp(envname, env->name, i) == 0) { ++ return(env->val); ++ } ++ env++; ++ } ++ ++ return NULL; ++} ++ ++/* XXX "bootloader" won't be returned. ++ * Better make it an element of local_envp */ ++static inline t_env_var * ++prom_adam2_iterenv(t_env_var *env) { ++ if (!env) ++ env = local_envp; ++ else ++ env++; ++ if (env - local_envp > MAX_ENV_ENTRY || !env->name) ++ return 0; ++ return env; ++} ++ ++char *prom_getenv(char *envname) ++{ ++ if (env_type == 1) ++ return prom_psp_getenv(envname); ++ else ++ return prom_adam2_getenv(envname); ++} ++ ++t_env_var * ++prom_iterenv(t_env_var *last) ++{ ++ if (env_type == 1) ++ return 0; /* not yet implemented */ ++ return prom_adam2_iterenv(last); ++} ++ ++static inline unsigned char str2hexnum(unsigned char c) ++{ ++ if (c >= '0' && c <= '9') ++ return c - '0'; ++ if (c >= 'a' && c <= 'f') ++ return c - 'a' + 10; ++ return 0; /* foo */ ++} ++ ++static inline void str2eaddr(unsigned char *ea, unsigned char *str) ++{ ++ int i; ++ ++ for (i = 0; i < 6; i++) { ++ unsigned char num; ++ ++ if((*str == '.') || (*str == ':')) ++ str++; ++ num = str2hexnum(*str++) << 4; ++ num |= (str2hexnum(*str++)); ++ ea[i] = num; ++ } ++} ++ ++int get_ethernet_addr(char *ethernet_addr) ++{ ++ char *ethaddr_str; ++ ++ ethaddr_str = prom_getenv("ethaddr"); ++ if (!ethaddr_str) { ++ printk("ethaddr not set in boot prom\n"); ++ return -1; ++ } ++ str2eaddr(ethernet_addr, ethaddr_str); ++ ++ if (init_debug > 1) { ++ int i; ++ printk("get_ethernet_addr: "); ++ for (i=0; i<5; i++) ++ printk("%02x:", (unsigned char)*(ethernet_addr+i)); ++ printk("%02x\n", *(ethernet_addr+i)); ++ } ++ ++ return 0; ++} ++ ++struct psbl_rec { ++ unsigned int psbl_size; ++ unsigned int env_base; ++ unsigned int env_size; ++ unsigned int ffs_base; ++ unsigned int ffs_size; ++}; ++ ++static const char psp_env_version[] = "TIENV0.8"; ++ ++int __init prom_init(int argc, char **argv, char **envp) ++{ ++ int i; ++ ++ t_env_var *env = (t_env_var *) envp; ++ struct psbl_rec *psbl = (struct psbl_rec *)(KSEG1ADDR(0x94000300)); ++ void *psp_env = (void *)KSEG1ADDR(psbl->env_base); ++ ++ prom_argc = argc; ++ _prom_argv = (int *)argv; ++ _prom_envp = (int *)envp; ++ ++ if(strcmp(psp_env, psp_env_version) == 0) { ++ /* PSPBOOT */ ++ ++ env_type = 1; ++ _prom_envp = psp_env; ++ max_env_entry = (psbl->env_size / 16) - 1; ++ } else { ++ /* Copy what we need locally so we are not dependent on ++ * bootloader RAM. In Adam2, the environment parameters ++ * are in flash but the table that references them is in ++ * RAM ++ */ ++ ++ for(i=0; i < MAX_ENV_ENTRY; i++, env++) { ++ if (env->name) { ++ local_envp[i].name = env->name; ++ local_envp[i].val = env->val; ++ } else { ++ local_envp[i].name = NULL; ++ local_envp[i].val = NULL; ++ } ++ } ++ } ++ ++ set_io_port_base(0); ++ ++ prom_printf("\nLINUX started...\n"); ++ prom_init_cmdline(); ++ prom_meminit(); ++ ++ return 0; ++} +diff -urN linux.old/arch/mips/ar7/int-handler.S linux.dev/arch/mips/ar7/int-handler.S +--- linux.old/arch/mips/ar7/int-handler.S 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/arch/mips/ar7/int-handler.S 2005-11-10 01:12:43.938955000 +0100 +@@ -0,0 +1,63 @@ ++/* ++ * Copyright 2004 PMC-Sierra Inc. ++ * Author: Manish Lachwani (lachwani@pmc-sierra.com) ++ * Adaption for AR7: Enrik Berkhan <enrik@akk.org> ++ * ++ * First-level interrupt dispatcher for the TI AR7 ++ * ++ * This program is free software; you can redistribute it and/or modify it ++ * under the terms of the GNU General Public License as published by the ++ * Free Software Foundation; either version 2 of the License, or (at your ++ * option) any later version. ++ */ ++#define __ASSEMBLY__ ++#include <linux/config.h> ++#include <asm/asm.h> ++#include <asm/mipsregs.h> ++#include <asm/addrspace.h> ++#include <asm/regdef.h> ++#include <asm/stackframe.h> ++ ++/* ++ * First level interrupt dispatcher for TI AR7 based boards ++ */ ++ ++ .align 5 ++ NESTED(ar7IRQ, PT_SIZE, sp) ++ SAVE_ALL ++ CLI ++ .set at ++ ++ mfc0 t0, CP0_CAUSE ++ mfc0 t2, CP0_STATUS ++ ++ and t0, t2 ++ ++ andi t1, t0, STATUSF_IP2 /* hw0 hardware interrupt */ ++ bnez t1, ll_hw0_irq ++ ++ andi t1, t0, STATUSF_IP7 /* R4k CPU timer */ ++ bnez t1, ll_timer_irq ++ ++ .set reorder ++ ++ /* wrong alarm or masked ... */ ++ j spurious_interrupt ++ nop ++ END(ar7IRQ) ++ ++ .align 5 ++ ++ll_hw0_irq: ++ li a0, 2 ++ move a1, sp ++ jal do_IRQ ++ j ret_from_irq ++ ++ll_timer_irq: ++ li a0, 7 ++ move a1, sp ++ jal do_IRQ ++ j ret_from_irq ++ ++ +diff -urN linux.old/arch/mips/ar7/irq.c linux.dev/arch/mips/ar7/irq.c +--- linux.old/arch/mips/ar7/irq.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/arch/mips/ar7/irq.c 2005-11-10 01:12:43.938955000 +0100 +@@ -0,0 +1,427 @@ ++/* ++ * Nitin Dhingra, iamnd@ti.com ++ * Copyright (C) 2002 Texas Instruments, Inc. All rights reserved. ++ * ++ * ######################################################################## ++ * ++ * This program is free software; you can distribute it and/or modify it ++ * under the terms of the GNU General Public License (Version 2) as ++ * published by the Free Software Foundation. ++ * ++ * This program is distributed in the hope it will be useful, but WITHOUT ++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or ++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License ++ * for more details. ++ * ++ * You should have received a copy of the GNU General Public License along ++ * with this program; if not, write to the Free Software Foundation, Inc., ++ * 59 Temple Place - Suite 330, Boston MA 02111-1307, USA. ++ * ++ * ######################################################################## ++ * ++ * Routines for generic manipulation of the interrupts found on the Texas ++ * Instruments avalanche board ++ * ++ */ ++ ++#include <linux/init.h> ++#include <linux/interrupt.h> ++ ++#include <asm/irq.h> ++#include <asm/mipsregs.h> ++#include <asm/ar7/ar7.h> ++#include <asm/ar7/avalanche_intc.h> ++ ++#define shutdown_avalanche_irq disable_avalanche_irq ++#define mask_and_ack_avalanche_irq disable_avalanche_irq ++ ++static unsigned int startup_avalanche_irq(unsigned int irq); ++static void end_avalanche_irq(unsigned int irq); ++void enable_avalanche_irq(unsigned int irq_nr); ++void disable_avalanche_irq(unsigned int irq_nr); ++void ar7_hw0_interrupt(int interrupt, void *dev, struct pt_regs *regs); ++ ++static struct hw_interrupt_type avalanche_irq_type = { ++ "AR7", ++ startup_avalanche_irq, ++ shutdown_avalanche_irq, ++ enable_avalanche_irq, ++ disable_avalanche_irq, ++ mask_and_ack_avalanche_irq, ++ end_avalanche_irq, ++ NULL ++}; ++ ++static int ar7_irq_base; ++ ++static struct irqaction ar7_hw0_action = { ++ ar7_hw0_interrupt, 0, 0, "AR7 on hw0", NULL, NULL ++}; ++ ++struct avalanche_ictrl_regs *avalanche_hw0_icregs; /* Interrupt control regs (primary) */ ++struct avalanche_exctrl_regs *avalanche_hw0_ecregs; /* Exception control regs (secondary) */ ++struct avalanche_ipace_regs *avalanche_hw0_ipaceregs; ++struct avalanche_channel_int_number *avalanche_hw0_chregs; /* Channel control registers */ ++ ++/* ++ This remaps interrupts to exist on other channels than the default ++ channels. essentially we can use the line # as the index for this ++ array ++ */ ++ ++static unsigned long line_to_channel[AVINTNUM(AVALANCHE_INT_END_PRIMARY)]; ++unsigned long uni_secondary_interrupt = 0; ++ ++static void end_avalanche_irq(unsigned int irq) ++{ ++ if (!(irq_desc[irq].status & (IRQ_DISABLED|IRQ_INPROGRESS))) ++ enable_avalanche_irq(irq); ++} ++ ++void disable_avalanche_irq(unsigned int irq_nr) ++{ ++ unsigned long flags; ++ unsigned long chan_nr=0; ++ ++ save_and_cli(flags); ++ ++ /* irq_nr represents the line number for the interrupt. We must ++ * disable the channel number associated with that line number. ++ */ ++ ++ if(irq_nr > AVALANCHE_INT_END_PRIMARY_REG2) ++ chan_nr = AVINTNUM(irq_nr); /*CHECK THIS ALSO*/ ++ else ++ chan_nr = line_to_channel[AVINTNUM(irq_nr)];/* WE NEED A LINE TO CHANNEL MAPPING FUNCTION HERE*/ ++ ++ /* disable the interrupt channel bit */ ++ ++ /* primary interrupt #'s 0-31 */ ++ ++ if(chan_nr <= AVINTNUM(AVALANCHE_INT_END_PRIMARY_REG1)) ++ avalanche_hw0_icregs->intecr1 = (1 << chan_nr); ++ ++ /* primary interrupt #'s 32-39 */ ++ ++ else if ((chan_nr <= AVINTNUM(AVALANCHE_INT_END_PRIMARY_REG2)) && ++ (chan_nr > AVINTNUM(AVALANCHE_INT_END_PRIMARY_REG1))) ++ avalanche_hw0_icregs->intecr2 = (1 << (chan_nr - AVINTNUM(AVALANCHE_INT_END_SECONDARY))); ++ ++ else /* secondary interrupt #'s 0-31 */ ++ avalanche_hw0_ecregs->exiecr = (1 << (chan_nr - AVINTNUM(AVALANCHE_INT_END_PRIMARY))); ++ ++ restore_flags(flags); ++} ++ ++void enable_avalanche_irq(unsigned int irq_nr) ++{ ++ unsigned long flags; ++ unsigned long chan_nr=0; ++ ++ save_and_cli(flags); ++ ++ /* irq_nr represents the line number for the interrupt. We must ++ * disable the channel number associated with that line number. ++ */ ++ ++ if(irq_nr > AVALANCHE_INT_END_PRIMARY_REG2) ++ chan_nr = AVINTNUM(irq_nr); ++ else ++ chan_nr = line_to_channel[AVINTNUM(irq_nr)]; ++ ++ /* enable the interrupt channel bit */ ++ ++ /* primary interrupt #'s 0-31 */ ++ if(chan_nr <= AVINTNUM(AVALANCHE_INT_END_PRIMARY_REG1)) ++ avalanche_hw0_icregs->intesr1 = (1 << chan_nr); ++ ++ /* primary interrupt #'s 32 throuth 39 */ ++ else if ((chan_nr <= AVINTNUM(AVALANCHE_INT_END_PRIMARY_REG2)) && ++ (chan_nr > AVINTNUM(AVALANCHE_INT_END_PRIMARY_REG1))) ++ avalanche_hw0_icregs->intesr2 = (1 << (chan_nr - AVINTNUM(AVALANCHE_INT_END_SECONDARY))); ++ ++ else /* secondary interrupt #'s 0-31 */ ++ avalanche_hw0_ecregs->exiesr = (1 << (chan_nr - AVINTNUM(AVALANCHE_INT_END_PRIMARY))); ++ ++ restore_flags(flags); ++} ++ ++static unsigned int startup_avalanche_irq(unsigned int irq) ++{ ++ enable_avalanche_irq(irq); ++ return 0; /* never anything pending */ ++} ++ ++void __init ar7_irq_init(int base) ++{ ++ int i; ++ ++ avalanche_hw0_icregs = (struct avalanche_ictrl_regs *)AVALANCHE_ICTRL_REGS_BASE; ++ avalanche_hw0_ecregs = (struct avalanche_exctrl_regs *)AVALANCHE_ECTRL_REGS_BASE; ++ avalanche_hw0_ipaceregs = (struct avalanche_ipace_regs *)AVALANCHE_IPACE_REGS_BASE; ++ avalanche_hw0_chregs = (struct avalanche_channel_int_number *)AVALANCHE_CHCTRL_REGS_BASE; ++ ++ /* Disable interrupts and clear pending ++ */ ++ ++ avalanche_hw0_icregs->intecr1 = 0xffffffff; /* disable interrupts 0:31 */ ++ avalanche_hw0_icregs->intcr1 = 0xffffffff; /* clear interrupts 0:31 */ ++ avalanche_hw0_icregs->intecr2 = 0xff; /* disable interrupts 32:39 */ ++ avalanche_hw0_icregs->intcr2 = 0xff; /* clear interrupts 32:39 */ ++ avalanche_hw0_ecregs->exiecr = 0xffffffff; /* disable secondary interrupts 0:31 */ ++ avalanche_hw0_ecregs->excr = 0xffffffff; /* clear secondary interrupts 0:31 */ ++ ++ ++ // avalanche_hw0_ipaceregs->ipacep = (2*get_avalanche_vbus_freq()/1000000)*4; ++ /* hack for speeding up the pacing. */ ++ printk("the pacing pre-scalar has been set as 600.\n"); ++ avalanche_hw0_ipaceregs->ipacep = 600; ++ /* Channel to line mapping, Line to Channel mapping */ ++ ++ for(i = 0; i < 40; i++) ++ avalanche_int_set(i,i); ++ ++ ar7_irq_base = base; ++ for (i = base; i <= base+40; i++) ++ { ++ irq_desc[i].status = IRQ_DISABLED; ++ irq_desc[i].action = 0; ++ irq_desc[i].depth = 1; ++ irq_desc[i].handler = &avalanche_irq_type; ++ } ++ ++ setup_irq(2, &ar7_hw0_action); ++ set_c0_status(IE_IRQ0); ++ ++ return; ++} ++ ++void ar7_hw0_interrupt(int interrupt, void *dev, struct pt_regs *regs) ++{ ++ int irq; ++ unsigned long int_line_number, status; ++ int i, chan_nr = 0; ++ ++ int_line_number = ((avalanche_hw0_icregs->pintir >> 16) & 0x3F); ++ chan_nr = ((avalanche_hw0_icregs->pintir) & 0x3F); ++ ++ if(chan_nr < 32) /* primary 0-31 */ ++ { ++ if( chan_nr != uni_secondary_interrupt) ++ avalanche_hw0_icregs->intcr1 = (1<<chan_nr); ++ ++ } ++ ++ if((chan_nr < 40) && (chan_nr > 31)) /* primary 32-39 */ ++ { ++ avalanche_hw0_icregs->intcr2 = (1<<(chan_nr-32)); ++ } ++ ++ ++ /* If the Priority Interrupt Index Register returns 40 then no ++ * interrupts are pending ++ */ ++ ++ if(chan_nr == 40) ++ return; ++ ++ if(chan_nr == uni_secondary_interrupt) /* secondary 0-31 */ ++ { ++ status = avalanche_hw0_ecregs->exsr; ++ for(i=0; i < 32; i++) ++ { ++ if (status & 1<<i) ++ { ++ /* clear secondary interrupt */ ++ avalanche_hw0_ecregs->excr = 1 << i; ++ break; ++ } ++ } ++ irq = i+40; ++ ++ /* clear the universal secondary interrupt */ ++ avalanche_hw0_icregs->intcr1 = 1 << uni_secondary_interrupt; ++ ++ } ++ else ++ irq = chan_nr; ++ ++ do_IRQ(irq + ar7_irq_base, regs); ++ return; ++} ++ ++void avalanche_int_set(int channel, int line) ++{ ++ switch(channel) ++ { ++ case(0): ++ avalanche_hw0_chregs->cintnr0 = line; ++ break; ++ case(1): ++ avalanche_hw0_chregs->cintnr1 = line; ++ break; ++ case(2): ++ avalanche_hw0_chregs->cintnr2 = line; ++ break; ++ case(3): ++ avalanche_hw0_chregs->cintnr3 = line; ++ break; ++ case(4): ++ avalanche_hw0_chregs->cintnr4 = line; ++ break; ++ case(5): ++ avalanche_hw0_chregs->cintnr5 = line; ++ break; ++ case(6): ++ avalanche_hw0_chregs->cintnr6 = line; ++ break; ++ case(7): ++ avalanche_hw0_chregs->cintnr7 = line; ++ break; ++ case(8): ++ avalanche_hw0_chregs->cintnr8 = line; ++ break; ++ case(9): ++ avalanche_hw0_chregs->cintnr9 = line; ++ break; ++ case(10): ++ avalanche_hw0_chregs->cintnr10 = line; ++ break; ++ case(11): ++ avalanche_hw0_chregs->cintnr11 = line; ++ break; ++ case(12): ++ avalanche_hw0_chregs->cintnr12 = line; ++ break; ++ case(13): ++ avalanche_hw0_chregs->cintnr13 = line; ++ break; ++ case(14): ++ avalanche_hw0_chregs->cintnr14 = line; ++ break; ++ case(15): ++ avalanche_hw0_chregs->cintnr15 = line; ++ break; ++ case(16): ++ avalanche_hw0_chregs->cintnr16 = line; ++ break; ++ case(17): ++ avalanche_hw0_chregs->cintnr17 = line; ++ break; ++ case(18): ++ avalanche_hw0_chregs->cintnr18 = line; ++ break; ++ case(19): ++ avalanche_hw0_chregs->cintnr19 = line; ++ break; ++ case(20): ++ avalanche_hw0_chregs->cintnr20 = line; ++ break; ++ case(21): ++ avalanche_hw0_chregs->cintnr21 = line; ++ break; ++ case(22): ++ avalanche_hw0_chregs->cintnr22 = line; ++ break; ++ case(23): ++ avalanche_hw0_chregs->cintnr23 = line; ++ break; ++ case(24): ++ avalanche_hw0_chregs->cintnr24 = line; ++ break; ++ case(25): ++ avalanche_hw0_chregs->cintnr25 = line; ++ break; ++ case(26): ++ avalanche_hw0_chregs->cintnr26 = line; ++ break; ++ case(27): ++ avalanche_hw0_chregs->cintnr27 = line; ++ break; ++ case(28): ++ avalanche_hw0_chregs->cintnr28 = line; ++ break; ++ case(29): ++ avalanche_hw0_chregs->cintnr29 = line; ++ break; ++ case(30): ++ avalanche_hw0_chregs->cintnr30 = line; ++ break; ++ case(31): ++ avalanche_hw0_chregs->cintnr31 = line; ++ break; ++ case(32): ++ avalanche_hw0_chregs->cintnr32 = line; ++ break; ++ case(33): ++ avalanche_hw0_chregs->cintnr33 = line; ++ break; ++ case(34): ++ avalanche_hw0_chregs->cintnr34 = line; ++ break; ++ case(35): ++ avalanche_hw0_chregs->cintnr35 = line; ++ break; ++ case(36): ++ avalanche_hw0_chregs->cintnr36 = line; ++ break; ++ case(37): ++ avalanche_hw0_chregs->cintnr37 = line; ++ break; ++ case(38): ++ avalanche_hw0_chregs->cintnr38 = line; ++ break; ++ case(39): ++ avalanche_hw0_chregs->cintnr39 = line; ++ break; ++ default: ++ printk("Error: Unknown Avalanche interrupt channel\n"); ++ } ++ ++ line_to_channel[line] = channel; /* Suraj check */ ++ ++ if (channel == UNIFIED_SECONDARY_INTERRUPT) ++ uni_secondary_interrupt = line; ++ ++} ++ ++ ++#define AVALANCHE_MAX_PACING_BLK 3 ++#define AVALANCHE_PACING_LOW_VAL 2 ++#define AVALANCHE_PACING_HIGH_VAL 63 ++ ++int avalanche_request_pacing(int irq_nr, unsigned int blk_num, ++ unsigned int pace_value) ++{ ++ unsigned int blk_offset; ++ unsigned long flags; ++ ++ if(irq_nr < MIPS_EXCEPTION_OFFSET && ++ irq_nr >= AVALANCHE_INT_END_PRIMARY) ++ return (0); ++ ++ if(blk_num > AVALANCHE_MAX_PACING_BLK) ++ return(-1); ++ ++ if(pace_value > AVALANCHE_PACING_HIGH_VAL && ++ pace_value < AVALANCHE_PACING_LOW_VAL) ++ return(-1); ++ ++ blk_offset = blk_num*8; ++ ++ save_and_cli(flags); ++ ++ /* disable the interrupt pacing, if enabled previously */ ++ avalanche_hw0_ipaceregs->ipacemax &= ~(0xff << blk_offset); ++ ++ /* clear the pacing map */ ++ avalanche_hw0_ipaceregs->ipacemap &= ~(0xff << blk_offset); ++ ++ /* setup the new values */ ++ avalanche_hw0_ipaceregs->ipacemap |= ((AVINTNUM(irq_nr)) << blk_offset); ++ avalanche_hw0_ipaceregs->ipacemax |= ((0x80 | pace_value) << blk_offset); ++ ++ restore_flags(flags); ++ ++ return(0); ++} +diff -urN linux.old/arch/mips/ar7/memory.c linux.dev/arch/mips/ar7/memory.c +--- linux.old/arch/mips/ar7/memory.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/arch/mips/ar7/memory.c 2005-11-10 01:14:16.372731750 +0100 +@@ -0,0 +1,103 @@ ++/* ++ * Carsten Langgaard, carstenl@mips.com ++ * Copyright (C) 1999,2000 MIPS Technologies, Inc. All rights reserved. ++ * ++ * ######################################################################## ++ * ++ * This program is free software; you can distribute it and/or modify it ++ * under the terms of the GNU General Public License (Version 2) as ++ * published by the Free Software Foundation. ++ * ++ * This program is distributed in the hope it will be useful, but WITHOUT ++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or ++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License ++ * for more details. ++ * ++ * You should have received a copy of the GNU General Public License along ++ * with this program; if not, write to the Free Software Foundation, Inc., ++ * 59 Temple Place - Suite 330, Boston MA 02111-1307, USA. ++ * ++ * ######################################################################## ++ * ++ */ ++ ++#include <linux/config.h> ++#include <linux/init.h> ++#include <linux/mm.h> ++#include <linux/bootmem.h> ++ ++#include <asm/bootinfo.h> ++#include <asm/page.h> ++#include <asm/mips-boards/prom.h> ++ ++extern char _ftext; ++extern int preserve_adam2; ++ ++void __init prom_meminit(void) ++{ ++ char *memsize_str; ++ unsigned long memsize, adam2size; ++ ++ /* assume block before kernel is used by bootloader */ ++ adam2size = __pa(&_ftext) - PHYS_OFFSET; ++ ++ memsize_str = prom_getenv("memsize"); ++ if (!memsize_str) { ++ memsize = 0x02000000; ++ } else { ++ memsize = simple_strtol(memsize_str, NULL, 0); ++ } ++ ++#if 0 ++ add_memory_region(0x00000000, PHYS_OFFSET, BOOT_MEM_RESERVED); ++#endif ++ add_memory_region(PHYS_OFFSET, adam2size, BOOT_MEM_ROM_DATA); ++ add_memory_region(PHYS_OFFSET+adam2size, memsize-adam2size, ++ BOOT_MEM_RAM); ++} ++ ++unsigned long __init prom_free_prom_memory (void) ++{ ++ int i; ++ unsigned long freed = 0; ++ unsigned long addr; ++ ++ if (preserve_adam2) { ++ char *firstfree_str = prom_getenv("firstfreeaddress"); ++ unsigned long firstfree = 0; ++ ++ if (firstfree_str) ++ firstfree = simple_strtol(firstfree_str, NULL, 0); ++ ++ if (firstfree && firstfree < (unsigned long)&_ftext) { ++ printk("Preserving ADAM2 memory.\n"); ++ } else if (firstfree) { ++ printk("Can't preserve ADAM2 memory, " ++ "firstfreeaddress = %08lx.\n", firstfree); ++ preserve_adam2 = 0; ++ } else { ++ printk("Can't preserve ADAM2 memory, " ++ "firstfreeaddress unknown!\n"); ++ preserve_adam2 = 0; ++ } ++ } ++ ++ if (!preserve_adam2) { ++ for (i = 0; i < boot_mem_map.nr_map; i++) { ++ if (boot_mem_map.map[i].type != BOOT_MEM_ROM_DATA) ++ continue; ++ ++ addr = boot_mem_map.map[i].addr; ++ while (addr < boot_mem_map.map[i].addr ++ + boot_mem_map.map[i].size) { ++ ClearPageReserved(virt_to_page(__va(addr))); ++ set_page_count(virt_to_page(__va(addr)), 1); ++ free_page((unsigned long)__va(addr)); ++ addr += PAGE_SIZE; ++ freed += PAGE_SIZE; ++ } ++ } ++ printk("Freeing prom memory: %ldkb freed\n", freed >> 10); ++ } ++ return freed >> PAGE_SHIFT; ++} +diff -urN linux.old/arch/mips/ar7/misc.c linux.dev/arch/mips/ar7/misc.c +--- linux.old/arch/mips/ar7/misc.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/arch/mips/ar7/misc.c 2005-11-10 01:12:43.946955500 +0100 +@@ -0,0 +1,322 @@ ++#include <asm/ar7/sangam.h> ++#include <asm/ar7/avalanche_misc.h> ++#include <linux/module.h> ++#include <linux/spinlock.h> ++ ++#define TRUE 1 ++ ++static unsigned int avalanche_vbus_freq; ++ ++REMOTE_VLYNQ_DEV_RESET_CTRL_FN p_remote_vlynq_dev_reset_ctrl = NULL; ++ ++/***************************************************************************** ++ * Reset Control Module. ++ *****************************************************************************/ ++void avalanche_reset_ctrl(unsigned int module_reset_bit, ++ AVALANCHE_RESET_CTRL_T reset_ctrl) ++{ ++ volatile unsigned int *reset_reg = (unsigned int*) AVALANCHE_RST_CTRL_PRCR; ++ ++ if(module_reset_bit >= 32 && module_reset_bit < 64) ++ return; ++ ++ if(module_reset_bit >= 64) ++ { ++ if(p_remote_vlynq_dev_reset_ctrl) { ++ p_remote_vlynq_dev_reset_ctrl(module_reset_bit - 64, reset_ctrl); ++ return; ++ } ++ else ++ return; ++ } ++ ++ if(reset_ctrl == OUT_OF_RESET) ++ *reset_reg |= 1 << module_reset_bit; ++ else ++ *reset_reg &= ~(1 << module_reset_bit); ++ return; ++} ++ ++AVALANCHE_RESET_CTRL_T avalanche_get_reset_status(unsigned int module_reset_bit) ++{ ++ volatile unsigned int *reset_reg = (unsigned int*) AVALANCHE_RST_CTRL_PRCR; ++ ++ return (((*reset_reg) & (1 << module_reset_bit)) ? OUT_OF_RESET : IN_RESET ); ++} ++ ++void avalanche_sys_reset(AVALANCHE_SYS_RST_MODE_T mode) ++{ ++ volatile unsigned int *sw_reset_reg = (unsigned int*) AVALANCHE_RST_CTRL_SWRCR; ++ *sw_reset_reg = mode; ++} ++ ++#define AVALANCHE_RST_CTRL_RSR_MASK 0x3 ++ ++AVALANCHE_SYS_RESET_STATUS_T avalanche_get_sys_last_reset_status() ++{ ++ volatile unsigned int *sys_reset_status = (unsigned int*) AVALANCHE_RST_CTRL_RSR; ++ ++ return ( (AVALANCHE_SYS_RESET_STATUS_T) (*sys_reset_status & AVALANCHE_RST_CTRL_RSR_MASK) ); ++} ++ ++ ++/***************************************************************************** ++ * Power Control Module ++ *****************************************************************************/ ++#define AVALANCHE_GLOBAL_POWER_DOWN_MASK 0x3FFFFFFF /* bit 31, 30 masked */ ++#define AVALANCHE_GLOBAL_POWER_DOWN_BIT 30 /* shift to bit 30, 31 */ ++ ++ ++void avalanche_power_ctrl(unsigned int module_power_bit, AVALANCHE_POWER_CTRL_T power_ctrl) ++{ ++ volatile unsigned int *power_reg = (unsigned int*)AVALANCHE_POWER_CTRL_PDCR; ++ ++ if (power_ctrl == POWER_CTRL_POWER_DOWN) ++ /* power down the module */ ++ *power_reg |= (1 << module_power_bit); ++ else ++ /* power on the module */ ++ *power_reg &= (~(1 << module_power_bit)); ++} ++ ++AVALANCHE_POWER_CTRL_T avalanche_get_power_status(unsigned int module_power_bit) ++{ ++ volatile unsigned int *power_status_reg = (unsigned int*)AVALANCHE_POWER_CTRL_PDCR; ++ ++ return (((*power_status_reg) & (1 << module_power_bit)) ? POWER_CTRL_POWER_DOWN : POWER_CTRL_POWER_UP); ++} ++ ++void avalanche_set_global_power_mode(AVALANCHE_SYS_POWER_MODE_T power_mode) ++{ ++ volatile unsigned int *power_status_reg = (unsigned int*)AVALANCHE_POWER_CTRL_PDCR; ++ ++ *power_status_reg &= AVALANCHE_GLOBAL_POWER_DOWN_MASK; ++ *power_status_reg |= ( power_mode << AVALANCHE_GLOBAL_POWER_DOWN_BIT); ++} ++ ++AVALANCHE_SYS_POWER_MODE_T avalanche_get_global_power_mode(void) ++{ ++ volatile unsigned int *power_status_reg = (unsigned int*)AVALANCHE_POWER_CTRL_PDCR; ++ ++ return((AVALANCHE_SYS_POWER_MODE_T) (((*power_status_reg) & (~AVALANCHE_GLOBAL_POWER_DOWN_MASK)) ++ >> AVALANCHE_GLOBAL_POWER_DOWN_BIT)); ++} ++ ++/***************************************************************************** ++ * GPIO Control ++ *****************************************************************************/ ++ ++/**************************************************************************** ++ * FUNCTION: avalanche_gpio_init ++ ***************************************************************************/ ++void avalanche_gpio_init(void) ++{ ++ spinlock_t closeLock; ++ unsigned int closeFlag; ++ volatile unsigned int *reset_reg = (unsigned int*) AVALANCHE_RST_CTRL_PRCR; ++ spin_lock_irqsave(&closeLock, closeFlag); ++ *reset_reg |= (1 << AVALANCHE_GPIO_RESET_BIT); ++ spin_unlock_irqrestore(&closeLock, closeFlag); ++} ++ ++/**************************************************************************** ++ * FUNCTION: avalanche_gpio_ctrl ++ ***************************************************************************/ ++int avalanche_gpio_ctrl(unsigned int gpio_pin, ++ AVALANCHE_GPIO_PIN_MODE_T pin_mode, ++ AVALANCHE_GPIO_PIN_DIRECTION_T pin_direction) ++{ ++ spinlock_t closeLock; ++ unsigned int closeFlag; ++ volatile unsigned int *gpio_ctrl = (unsigned int*)AVALANCHE_GPIO_ENBL; ++ ++ if(gpio_pin >= 32) ++ return(-1); ++ ++ spin_lock_irqsave(&closeLock, closeFlag); ++ ++ if(pin_mode == GPIO_PIN) ++ { ++ *gpio_ctrl |= (1 << gpio_pin); ++ ++ gpio_ctrl = (unsigned int*)AVALANCHE_GPIO_DIR; ++ ++ if(pin_direction == GPIO_INPUT_PIN) ++ *gpio_ctrl |= (1 << gpio_pin); ++ else ++ *gpio_ctrl &= ~(1 << gpio_pin); ++ } ++ else /* FUNCTIONAL PIN */ ++ { ++ *gpio_ctrl &= ~(1 << gpio_pin); ++ } ++ ++ spin_unlock_irqrestore(&closeLock, closeFlag); ++ ++ return (0); ++} ++ ++/**************************************************************************** ++ * FUNCTION: avalanche_gpio_out ++ ***************************************************************************/ ++int avalanche_gpio_out_bit(unsigned int gpio_pin, int value) ++{ ++ spinlock_t closeLock; ++ unsigned int closeFlag; ++ volatile unsigned int *gpio_out = (unsigned int*) AVALANCHE_GPIO_DATA_OUT; ++ ++ if(gpio_pin >= 32) ++ return(-1); ++ ++ spin_lock_irqsave(&closeLock, closeFlag); ++ if(value == TRUE) ++ *gpio_out |= 1 << gpio_pin; ++ else ++ *gpio_out &= ~(1 << gpio_pin); ++ spin_unlock_irqrestore(&closeLock, closeFlag); ++ ++ return(0); ++} ++ ++/**************************************************************************** ++ * FUNCTION: avalanche_gpio_in ++ ***************************************************************************/ ++int avalanche_gpio_in_bit(unsigned int gpio_pin) ++{ ++ spinlock_t closeLock; ++ unsigned int closeFlag; ++ volatile unsigned int *gpio_in = (unsigned int*) AVALANCHE_GPIO_DATA_IN; ++ int ret_val = 0; ++ ++ if(gpio_pin >= 32) ++ return(-1); ++ ++ spin_lock_irqsave(&closeLock, closeFlag); ++ ret_val = ((*gpio_in) & (1 << gpio_pin)); ++ spin_unlock_irqrestore(&closeLock, closeFlag); ++ ++ return (ret_val); ++} ++ ++/**************************************************************************** ++ * FUNCTION: avalanche_gpio_out_val ++ ***************************************************************************/ ++int avalanche_gpio_out_value(unsigned int out_val, unsigned int out_mask, ++ unsigned int reg_index) ++{ ++ spinlock_t closeLock; ++ unsigned int closeFlag; ++ volatile unsigned int *gpio_out = (unsigned int*) AVALANCHE_GPIO_DATA_OUT; ++ ++ if(reg_index > 0) ++ return(-1); ++ ++ spin_lock_irqsave(&closeLock, closeFlag); ++ *gpio_out &= ~out_mask; ++ *gpio_out |= out_val; ++ spin_unlock_irqrestore(&closeLock, closeFlag); ++ ++ return(0); ++} ++ ++/**************************************************************************** ++ * FUNCTION: avalanche_gpio_in_value ++ ***************************************************************************/ ++int avalanche_gpio_in_value(unsigned int* in_val, unsigned int reg_index) ++{ ++ spinlock_t closeLock; ++ unsigned int closeFlag; ++ volatile unsigned int *gpio_in = (unsigned int*) AVALANCHE_GPIO_DATA_IN; ++ ++ if(reg_index > 0) ++ return(-1); ++ ++ spin_lock_irqsave(&closeLock, closeFlag); ++ *in_val = *gpio_in; ++ spin_unlock_irqrestore(&closeLock, closeFlag); ++ ++ return (0); ++} ++ ++/*********************************************************************** ++ * ++ * Wakeup Control Module for TNETV1050 Communication Processor ++ * ++ ***********************************************************************/ ++ ++#define AVALANCHE_WAKEUP_POLARITY_BIT 16 ++ ++void avalanche_wakeup_ctrl(AVALANCHE_WAKEUP_INTERRUPT_T wakeup_int, ++ AVALANCHE_WAKEUP_CTRL_T wakeup_ctrl, ++ AVALANCHE_WAKEUP_POLARITY_T wakeup_polarity) ++{ ++ volatile unsigned int *wakeup_status_reg = (unsigned int*) AVALANCHE_WAKEUP_CTRL_WKCR; ++ ++ /* enable/disable */ ++ if (wakeup_ctrl == WAKEUP_ENABLED) ++ /* enable wakeup */ ++ *wakeup_status_reg |= wakeup_int; ++ else ++ /* disable wakeup */ ++ *wakeup_status_reg &= (~wakeup_int); ++ ++ /* set polarity */ ++ if (wakeup_polarity == WAKEUP_ACTIVE_LOW) ++ *wakeup_status_reg |= (wakeup_int << AVALANCHE_WAKEUP_POLARITY_BIT); ++ else ++ *wakeup_status_reg &= ~(wakeup_int << AVALANCHE_WAKEUP_POLARITY_BIT); ++} ++ ++void avalanche_set_vbus_freq(unsigned int new_vbus_freq) ++{ ++ avalanche_vbus_freq = new_vbus_freq; ++} ++ ++unsigned int avalanche_get_vbus_freq() ++{ ++ return(avalanche_vbus_freq); ++} ++ ++unsigned int avalanche_get_chip_version_info() ++{ ++ return(*(volatile unsigned int*)AVALANCHE_CVR); ++} ++ ++SET_MDIX_ON_CHIP_FN_T p_set_mdix_on_chip_fn = NULL; ++ ++int avalanche_set_mdix_on_chip(unsigned int base_addr, unsigned int operation) ++{ ++ if(p_set_mdix_on_chip_fn) ++ return (p_set_mdix_on_chip_fn(base_addr, operation)); ++ else ++ return(-1); ++} ++ ++unsigned int avalanche_is_mdix_on_chip(void) ++{ ++ return(p_set_mdix_on_chip_fn ? 1:0); ++} ++ ++EXPORT_SYMBOL(avalanche_reset_ctrl); ++EXPORT_SYMBOL(avalanche_get_reset_status); ++EXPORT_SYMBOL(avalanche_sys_reset); ++EXPORT_SYMBOL(avalanche_get_sys_last_reset_status); ++EXPORT_SYMBOL(avalanche_power_ctrl); ++EXPORT_SYMBOL(avalanche_get_power_status); ++EXPORT_SYMBOL(avalanche_set_global_power_mode); ++EXPORT_SYMBOL(avalanche_get_global_power_mode); ++EXPORT_SYMBOL(avalanche_set_mdix_on_chip); ++EXPORT_SYMBOL(avalanche_is_mdix_on_chip); ++ ++EXPORT_SYMBOL(avalanche_gpio_init); ++EXPORT_SYMBOL(avalanche_gpio_ctrl); ++EXPORT_SYMBOL(avalanche_gpio_out_bit); ++EXPORT_SYMBOL(avalanche_gpio_in_bit); ++EXPORT_SYMBOL(avalanche_gpio_out_value); ++EXPORT_SYMBOL(avalanche_gpio_in_value); ++ ++EXPORT_SYMBOL(avalanche_set_vbus_freq); ++EXPORT_SYMBOL(avalanche_get_vbus_freq); ++ ++EXPORT_SYMBOL(avalanche_get_chip_version_info); ++ +diff -urN linux.old/arch/mips/ar7/platform.h linux.dev/arch/mips/ar7/platform.h +--- linux.old/arch/mips/ar7/platform.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/arch/mips/ar7/platform.h 2005-11-10 01:10:45.799571750 +0100 +@@ -0,0 +1,65 @@ ++#ifndef _PLATFORM_H_ ++#define _PLATFORM_H_ ++ ++#include <linux/config.h> ++ ++ ++/* Important: The definition of ENV_SPACE_SIZE should match with that in ++ * PSPBoot. (/psp_boot/inc/psbl/env.h) ++ */ ++#ifdef CONFIG_MIPS_AVALANCHE_TICFG ++#define ENV_SPACE_SIZE (10 * 1024) ++#endif ++ ++#ifdef CONFIG_MIPS_TNETV1050SDB ++#define TNETV1050SDB ++#define DUAL_FLASH ++#endif ++ ++#ifdef CONFIG_MIPS_AR7DB ++#define TNETD73XX_BOARD ++#define AR7DB ++#endif ++ ++#ifdef CONFIG_MIPS_AR7RD ++#define TNETD73XX_BOARD ++#define AR7RD ++#endif ++ ++#ifdef CONFIG_AR7WRD ++#define TNETD73XX_BOARD ++#define AR7WRD ++#endif ++ ++#ifdef CONFIG_MIPS_AR7VWI ++#define TNETD73XX_BOARD ++#define AR7VWi ++#endif ++ ++/* Merging from the DEV_DSL-PSPL4.3.2.7_Patch release. */ ++#ifdef CONFIG_MIPS_AR7VW ++#define TNETD73XX_BOARD ++#define AR7WRD ++#endif ++ ++#ifdef CONFIG_MIPS_AR7WI ++#define TNETD73XX_BOARD ++#define AR7Wi ++#endif ++ ++#ifdef CONFIG_MIPS_AR7V ++#define TNETD73XX_BOARD ++#define AR7V ++#endif ++ ++#ifdef CONFIG_MIPS_AR7V ++#define TNETD73XX_BOARD ++#define AR7V ++#endif ++ ++#ifdef CONFIG_MIPS_WA1130 ++#define AVALANCHE ++#define WLAN ++#endif ++ ++#endif +diff -urN linux.old/arch/mips/ar7/promlib.c linux.dev/arch/mips/ar7/promlib.c +--- linux.old/arch/mips/ar7/promlib.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/arch/mips/ar7/promlib.c 2005-11-10 01:14:16.372731750 +0100 +@@ -0,0 +1,48 @@ ++/* ++ * Carsten Langgaard, carstenl@mips.com ++ * Copyright (C) 1999,2000 MIPS Technologies, Inc. All rights reserved. ++ * ++ * This program is free software; you can distribute it and/or modify it ++ * under the terms of the GNU General Public License (Version 2) as ++ * published by the Free Software Foundation. ++ * ++ * This program is distributed in the hope it will be useful, but WITHOUT ++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or ++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License ++ * for more details. ++ * ++ * You should have received a copy of the GNU General Public License along ++ * with this program; if not, write to the Free Software Foundation, Inc., ++ * 59 Temple Place - Suite 330, Boston MA 02111-1307, USA. ++ * ++ * Putting things on the screen/serial line using Adam2 facilities. ++ */ ++ ++#include <linux/types.h> ++#include <asm/addrspace.h> ++ ++#define AVALANCHE_YAMON_FUNCTION_BASE (KSEG1ADDR(0x10000500)) ++#define AVALANCHE_YAMON_PROM_PRINT_COUNT_ADDR \ ++ (AVALANCHE_YAMON_FUNCTION_BASE + 1 * 0x4) ++#define AVALANCHE_YAMON_PROM_EXIT \ ++ (AVALANCHE_YAMON_FUNCTION_BASE + 8 * 0x4) ++ ++void prom_putchar(char c) ++{ ++ static char buf[1]; ++ void (*prom_print_str)(unsigned int dummy, char *s, int len) = ++ (void *)(*(uint32_t *)AVALANCHE_YAMON_PROM_PRINT_COUNT_ADDR); ++ ++ buf[0] = c; ++ prom_print_str(1, buf, 1); ++ return; ++} ++ ++void adam2_exit(int retval) ++{ ++ void (*yamon_exit)(int retval) = ++ (void *)(*(uint32_t *)AVALANCHE_YAMON_PROM_EXIT); ++ ++ yamon_exit(retval); ++ return; ++} +diff -urN linux.old/arch/mips/ar7/psp_env.c linux.dev/arch/mips/ar7/psp_env.c +--- linux.old/arch/mips/ar7/psp_env.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/arch/mips/ar7/psp_env.c 2005-11-10 01:10:45.799571750 +0100 +@@ -0,0 +1,350 @@ ++#include <linux/config.h> ++#include <linux/init.h> ++#include <linux/string.h> ++#include <linux/kernel.h> ++#include <linux/module.h> ++#include <asm/io.h> ++ ++#include "platform.h" ++ ++#define ENV_CELL_SIZE 16 ++ ++/* control field decode */ ++#define ENV_GARBAGE_BIT 0x01 /* Env is garbage if this bit is off */ ++#define ENV_DYNAMIC_BIT 0x02 /* Env is dynamic if this bit is off */ ++ ++#define ENV_CTRL_MASK 0x03 ++#define ENV_PREFINED (ENV_GARBAGE_BIT | ENV_DYNAMIC_BIT) ++#define ENV_DYNAMIC (ENV_GARBAGE_BIT) ++ ++struct env_variable { ++ unsigned char varNum; ++ unsigned char ctrl; ++ unsigned short chksum; ++ unsigned char numCells; ++ unsigned char data[ENV_CELL_SIZE - 5]; /* The data section starts ++ * here, continues for ++ * numCells. ++ */ ++}; ++ ++extern unsigned int max_env_entry; ++ ++/* Internal macros */ ++#define get_next_block(var) ((struct env_variable *)( (char*)(var) + (var)->numCells * ENV_CELL_SIZE)) ++ ++typedef enum ENV_VARS { ++ env_vars_start = 0, ++ CPUFREQ, ++ MEMSZ, ++ FLASHSZ, ++ MODETTY0, ++ MODETTY1, ++ PROMPT, ++ BOOTCFG, ++ HWA_0, ++#if !defined (AVALANCHE) || defined(TNETC401B) ++ HWA_1, ++#endif ++#if !defined(TNETV1020_BOARD) ++ HWA_RNDIS, ++#endif ++#if defined (TNETD73XX_BOARD) ++ HWA_3, ++#endif ++ IPA, ++ IPA_SVR, ++ BLINE_MAC0, ++#if !defined (AVALANCHE) || defined(TNETC401B) ++ BLINE_MAC1, ++#endif ++#if !defined(TNETV1020_BOARD) ++ BLINE_RNDIS, ++#endif ++#if defined (TNETD73XX_BOARD) ++ BLINE_ATM, ++#endif ++#if !defined(TNETV1020_BOARD) ++ USB_PID, ++ USB_VID, ++ USB_EPPOLLI, ++#endif ++ IPA_GATEWAY, ++ SUBNET_MASK, ++#if defined (TNETV1050_BOARD) ++ BLINE_ESWITCH, ++#endif ++#if !defined(TNETV1020_BOARD) ++ USB_SERIAL, ++ HWA_HRNDIS, /* Host (PC) side RNDIS address */ ++#endif ++ REMOTE_USER, ++ REMOTE_PASS, ++ REMOTE_DIR, ++ SYSFREQ, ++ LINK_TIMEOUT, ++#ifndef AVALANCHE /* Avalanche boards use only one mac port */ ++ MAC_PORT, ++#endif ++ PATH, ++ HOSTNAME, ++#ifdef WLAN ++ HW_REV_MAJOR, ++ HW_REV_MINOR, ++ HW_PATCH, ++ SW_PATCH, ++ SERIAL_NUMBER, ++#endif ++ TFTPCFG, ++#if defined (TNETV1050_BOARD) ++ HWA_ESWITCH, ++#endif ++ /* ++ * Add new env variables here. ++ * NOTE: New environment variables should always be placed at the end, ie ++ * just before env_vars_end. ++ */ ++ ++ env_vars_end ++} ENV_VARS; ++ ++ ++struct env_description { ++ ENV_VARS idx; ++ char *nm; ++ char *alias; ++}; ++ ++#define ENVSTR(x) #x ++#define _ENV_ENTRY(x) {.idx = x, .nm = ENVSTR(x), .alias = NULL} ++ ++struct env_description env_ns[] = { ++ _ENV_ENTRY(env_vars_start), /* start. */ ++ _ENV_ENTRY(CPUFREQ), ++ _ENV_ENTRY(MEMSZ), ++ _ENV_ENTRY(FLASHSZ), ++ _ENV_ENTRY(MODETTY0), ++ _ENV_ENTRY(MODETTY1), ++ _ENV_ENTRY(PROMPT), ++ _ENV_ENTRY(BOOTCFG), ++ _ENV_ENTRY(HWA_0), ++#if !defined (AVALANCHE) || defined(TNETC401B) ++ _ENV_ENTRY(HWA_1), ++#endif ++#if !defined(TNETV1020_BOARD) ++ _ENV_ENTRY(HWA_RNDIS), ++#endif ++#if defined (TNETD73XX_BOARD) ++ _ENV_ENTRY(HWA_3), ++#endif ++ _ENV_ENTRY(IPA), ++ _ENV_ENTRY(IPA_SVR), ++ _ENV_ENTRY(IPA_GATEWAY), ++ _ENV_ENTRY(SUBNET_MASK), ++ _ENV_ENTRY(BLINE_MAC0), ++#if !defined (AVALANCHE) || defined(TNETC401B) ++ _ENV_ENTRY(BLINE_MAC1), ++#endif ++#if !defined(TNETV1020_BOARD) ++ _ENV_ENTRY(BLINE_RNDIS), ++#endif ++#if defined (TNETD73XX_BOARD) ++ _ENV_ENTRY(BLINE_ATM), ++#endif ++#if !defined(TNETV1020_BOARD) ++ _ENV_ENTRY(USB_PID), ++ _ENV_ENTRY(USB_VID), ++ _ENV_ENTRY(USB_EPPOLLI), ++#endif ++#if defined (TNETV1050_BOARD) ++ _ENV_ENTRY(BLINE_ESWITCH), ++#endif ++#if !defined(TNETV1020_BOARD) ++ _ENV_ENTRY(USB_SERIAL), ++ _ENV_ENTRY(HWA_HRNDIS), ++#endif ++ _ENV_ENTRY(REMOTE_USER), ++ _ENV_ENTRY(REMOTE_PASS), ++ _ENV_ENTRY(REMOTE_DIR), ++ _ENV_ENTRY(SYSFREQ), ++ _ENV_ENTRY(LINK_TIMEOUT), ++#ifndef AVALANCHE /* Avalanche boards use only one mac port */ ++ _ENV_ENTRY(MAC_PORT), ++#endif ++ _ENV_ENTRY(PATH), ++ _ENV_ENTRY(HOSTNAME), ++#ifdef WLAN ++ _ENV_ENTRY(HW_REV_MAJOR), ++ _ENV_ENTRY(HW_REV_MINOR), ++ _ENV_ENTRY(HW_PATCH), ++ _ENV_ENTRY(SW_PATCH), ++ _ENV_ENTRY(SERIAL_NUMBER), ++#endif ++ _ENV_ENTRY(TFTPCFG), ++#if defined (TNETV1050_BOARD) ++ _ENV_ENTRY(HWA_ESWITCH), ++#endif ++ /* ++ * Add new entries below this. ++ */ ++ /* Adam2 environment name alias. */ ++ { .idx = IPA, .nm = "my_ipaddress" }, ++ { .idx = CPUFREQ, .nm = "cpufrequency" }, ++ { .idx = SYSFREQ, .nm = "sysfrequency" }, ++ { .idx = HWA_0, .nm = "maca" }, ++#ifndef AVALANCHE ++ { .idx = HWA_1, .nm = "macb" }, ++#endif ++ { .idx = MODETTY0, .nm = "modetty0" }, ++ { .idx = MODETTY1, .nm = "modetty1" }, ++ { .idx = MEMSZ, .nm = "memsize" }, ++ ++ _ENV_ENTRY(env_vars_end) /* delimiter. */ ++}; ++ ++static inline int var_to_idx(const char* var) ++{ ++ int ii; ++ ++ /* go over the list of pre-defined environment variables */ ++ for (ii = env_vars_start; env_ns[ii].idx != env_vars_end; ii++){ ++ /* check if the env variable is listed */ ++ if (strcmp(env_ns[ii].nm, var) == 0) { ++ return env_ns[ii].idx; ++ } ++ ++ /* if an alias is present, check if the alias matches ++ * the description ++ */ ++ if (env_ns[ii].alias != NULL) { ++ if (strcmp(env_ns[ii].alias, var) == 0) { ++ return env_ns[ii].idx; ++ } ++ } ++ } ++ return 0; ++} ++ ++extern int *_prom_envp; ++ ++/* FIXME: reading from the flash is extremly unstable. Sometime a read returns garbage, ++ * the next read some seconds later is ok. It looks like something is hidding or ++ * overlay the flash address at 0xb0000000. Is this possible? ++ * ++ * The readb() and while() usage below is a attempt of a workarround - with limited success. ++ */ ++ ++static inline struct env_variable* get_var_by_number(int index) ++{ ++ struct env_variable *env_var = (struct env_variable *)_prom_envp; ++ volatile unsigned char nr; ++ int i; ++ ++ env_var++; /* skip signature */ ++ ++ i = 0; ++ nr = readb(&(env_var->varNum)); ++ ++ while (i < max_env_entry && nr != 0xFF) { ++ if ((env_var->ctrl & ENV_CTRL_MASK) == ENV_PREFINED) { ++ if (nr == index) { ++ return env_var; ++ } ++ } ++ i++; ++ env_var = get_next_block(env_var); ++ nr = readb(&(env_var->varNum)); ++ } ++ ++ return NULL; ++} ++ ++static inline struct env_variable* get_var_by_name(char *var) ++{ ++ struct env_variable *env_var = (struct env_variable *)_prom_envp; ++ volatile unsigned char nr; ++ int i; ++ ++ env_var++; /* skip signature */ ++ ++ nr = readb(&(env_var->varNum)); ++ i = 0; ++ ++ while (i < max_env_entry && nr != 0xFF) { ++ if ((env_var->ctrl & ENV_CTRL_MASK) == ENV_DYNAMIC) { ++ if (strcmp(var, env_var->data) == 0) ++ return env_var; ++ } ++ i++; ++ env_var = get_next_block(env_var); ++ nr = readb(&(env_var->varNum)); ++ } ++ return NULL; ++} ++ ++static inline struct env_variable* get_var(char *var) ++{ ++ int index = var_to_idx(var); ++ ++ if (index) ++ return get_var_by_number(index); ++ else ++ return get_var_by_name(var); ++ ++ return NULL; ++} ++ ++static inline char *get_value(struct env_variable* env_var) ++{ ++ unsigned char *name; ++ unsigned char *value; ++ unsigned short chksum; ++ int i; ++ ++ chksum = env_var->varNum + env_var->ctrl + env_var->numCells; ++ ++ if ((env_var->ctrl & ENV_CTRL_MASK) == ENV_DYNAMIC) { ++ name = env_var->data; ++ value = env_var->data + strlen(name) + 1; ++ ++ for(i = 0; i < strlen(name); i++) ++ chksum += name[i]; ++ } else ++ value = env_var->data; ++ ++ for (i = 0; i < strlen(value); i++) ++ chksum += value[i]; ++ ++ chksum += env_var->chksum; ++ chksum = ~(chksum); ++ ++ if(chksum != 0) { ++ return NULL; ++ } ++ ++ return value; ++} ++ ++struct psbl_rec { ++ unsigned int psbl_size; ++ unsigned int env_base; ++ unsigned int env_size; ++ unsigned int ffs_base; ++ unsigned int ffs_size; ++}; ++ ++char *prom_psp_getenv(char *envname) ++{ ++ struct env_variable* env_var; ++ char *value; ++ ++ if (strcmp("bootloader", envname) == 0) ++ return "PSPBoot"; ++ ++ if (!(env_var = get_var(envname))) ++ return NULL; ++ ++ value = get_value(env_var); ++ ++ return value; ++} +diff -urN linux.old/arch/mips/ar7/reset.c linux.dev/arch/mips/ar7/reset.c +--- linux.old/arch/mips/ar7/reset.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/arch/mips/ar7/reset.c 2005-11-10 01:14:16.372731750 +0100 +@@ -0,0 +1,98 @@ ++/* ++ * Carsten Langgaard, carstenl@mips.com ++ * Copyright (C) 1999,2000 MIPS Technologies, Inc. All rights reserved. ++ * ++ * ######################################################################## ++ * ++ * This program is free software; you can distribute it and/or modify it ++ * under the terms of the GNU General Public License (Version 2) as ++ * published by the Free Software Foundation. ++ * ++ * This program is distributed in the hope it will be useful, but WITHOUT ++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or ++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License ++ * for more details. ++ * ++ * You should have received a copy of the GNU General Public License along ++ * with this program; if not, write to the Free Software Foundation, Inc., ++ * 59 Temple Place - Suite 330, Boston MA 02111-1307, USA. ++ * ++ * ######################################################################## ++ * ++ * Reset the AR7 boards. ++ * ++ */ ++ ++#include <linux/init.h> ++#include <linux/kernel.h> ++#include <linux/string.h> ++#include <linux/types.h> ++ ++#include <asm/mipsregs.h> ++#include <asm/reboot.h> ++#include <asm/addrspace.h> ++ ++int preserve_adam2 = 1; ++ ++extern void adam2_exit(int retval); ++ ++static void ar7_machine_restart(char *command); ++static void ar7_machine_halt(void); ++static void ar7_machine_power_off(void); ++ ++static void ar7_machine_restart(char *command) ++{ ++ volatile uint32_t *softres_reg = (void *)(KSEG1ADDR(0x08611600 + 0x4)); ++ ++ *softres_reg = 1; ++} ++ ++static void ar7_machine_halt(void) ++{ ++ ++ if (preserve_adam2) { ++ set_c0_status(ST0_BEV); ++ adam2_exit(0); ++ } else { ++ /* I'd like to have Alt-SysRq-b work in this state. ++ * What's missing here? The timer interrupt is still running. ++ * Why doesn't the UART work anymore? */ ++ while(1) { ++ __asm__(".set\tmips3\n\t" ++ "wait\n\t" ++ ".set\tmips0"); ++ } ++ } ++} ++ ++static void ar7_machine_power_off(void) ++{ ++ volatile uint32_t *power_reg = (void *)(KSEG1ADDR(0x08610A00)); ++ uint32_t power_state = *power_reg; ++ ++ /* add something to turn LEDs off? */ ++ ++ power_state &= ~(3 << 30); ++ power_state |= (3 << 30); /* power down */ ++ *power_reg = power_state; ++ ++ printk("after power down?\n"); ++} ++ ++void ar7_reboot_setup(void) ++{ ++ _machine_restart = ar7_machine_restart; ++ _machine_halt = ar7_machine_halt; ++ _machine_power_off = ar7_machine_power_off; ++} ++ ++static int __init ar7_do_preserve_adam2(char *s) ++{ ++ if (!strcmp(s, "no") || !strcmp(s, "0")) ++ preserve_adam2 = 0; ++ else ++ preserve_adam2 = 1; ++ return 1; ++} ++ ++__setup("adam2=", ar7_do_preserve_adam2); +diff -urN linux.old/arch/mips/ar7/setup.c linux.dev/arch/mips/ar7/setup.c +--- linux.old/arch/mips/ar7/setup.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/arch/mips/ar7/setup.c 2005-11-10 01:12:43.946955500 +0100 +@@ -0,0 +1,143 @@ ++/* ++ * Carsten Langgaard, carstenl@mips.com ++ * Copyright (C) 2000 MIPS Technologies, Inc. All rights reserved. ++ * ++ * This program is free software; you can distribute it and/or modify it ++ * under the terms of the GNU General Public License (Version 2) as ++ * published by the Free Software Foundation. ++ * ++ * This program is distributed in the hope it will be useful, but WITHOUT ++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or ++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License ++ * for more details. ++ * ++ * You should have received a copy of the GNU General Public License along ++ * with this program; if not, write to the Free Software Foundation, Inc., ++ * 59 Temple Place - Suite 330, Boston MA 02111-1307, USA. ++ */ ++ ++#include <linux/config.h> ++#include <linux/init.h> ++#include <linux/string.h> ++#include <linux/irq.h> ++ ++#include <asm/processor.h> ++#include <asm/irq.h> ++#include <asm/irq_cpu.h> ++#include <asm/time.h> ++#include <asm/mipsregs.h> ++#include <asm/mips-boards/prom.h> ++ ++#ifdef CONFIG_KGDB ++extern void rs_kgdb_hook(int); ++extern void breakpoint(void); ++int remote_debug = 0; ++#endif ++ ++extern void ar7_reboot_setup(void); ++extern void ar7_irq_init(int); ++extern asmlinkage void ar7IRQ(void); ++ ++void ar7_time_init(void) ++{ ++ /* XXX runtime */ ++ mips_hpt_frequency = CONFIG_AR7_CPU * 500000; ++} ++ ++void ar7_timer_setup(struct irqaction *irq) ++{ ++ setup_irq(7, irq); ++ set_c0_status(IE_IRQ5); ++} ++ ++void __init init_IRQ(void) ++{ ++ init_generic_irq(); ++ mips_cpu_irq_init(0); ++ ar7_irq_init(8); ++ ++ /* Now safe to set the exception vector. */ ++ set_except_vector(0, ar7IRQ); ++ ++#ifdef CONFIG_KGDB ++ if (remote_debug) ++ { ++ set_debug_traps(); ++ breakpoint(); ++ } ++#endif ++} ++ ++const char *get_system_type(void) ++{ ++ return "Texas Instruments AR7"; ++} ++ ++void __init ar7_setup(void) ++{ ++#ifdef CONFIG_KGDB ++ int rs_putDebugChar(char); ++ char rs_getDebugChar(void); ++ extern int (*generic_putDebugChar)(char); ++ extern char (*generic_getDebugChar)(void); ++#endif ++ char *argptr; ++#ifdef CONFIG_SERIAL_CONSOLE ++ argptr = prom_getcmdline(); ++ if ((argptr = strstr(argptr, "console=")) == NULL) { ++ char console[20]; ++ char *s; ++ int i = 0; ++ ++ s = prom_getenv("modetty0"); ++ strcpy(console, "38400"); ++ ++ if (s != NULL) { ++ while (s[i] >= '0' && s[i] <= '9') ++ i++; ++ ++ if (i > 0) { ++ strncpy(console, s, i); ++ console[i] = 0; ++ } ++ } ++ ++ argptr = prom_getcmdline(); ++ strcat(argptr, " console=ttyS0,"); ++ strcat(argptr, console); ++ } ++#endif ++ ++#ifdef CONFIG_KGDB ++ argptr = prom_getcmdline(); ++ if ((argptr = strstr(argptr, "kgdb=ttyS")) != NULL) { ++ int line; ++ argptr += strlen("kgdb=ttyS"); ++ if (*argptr != '0' && *argptr != '1') ++ printk("KGDB: Uknown serial line /dev/ttyS%c, " ++ "falling back to /dev/ttyS1\n", *argptr); ++ line = *argptr == '0' ? 0 : 1; ++ printk("KGDB: Using serial line /dev/ttyS%d for session\n", ++ line ? 1 : 0); ++ ++ rs_kgdb_hook(line); ++ generic_putDebugChar = rs_putDebugChar; ++ generic_getDebugChar = rs_getDebugChar; ++ ++ prom_printf("KGDB: Using serial line /dev/ttyS%d for session, " ++ "please connect your debugger\n", line ? 1 : 0); ++ ++ remote_debug = 1; ++ /* Breakpoints are in init_IRQ() */ ++ } ++#endif ++ ++ argptr = prom_getcmdline(); ++ if ((argptr = strstr(argptr, "nofpu")) != NULL) ++ cpu_data[0].options &= ~MIPS_CPU_FPU; ++ ++ ar7_reboot_setup(); ++ ++ board_time_init = ar7_time_init; ++ board_timer_setup = ar7_timer_setup; ++} +diff -urN linux.old/arch/mips/ar7/tnetd73xx_misc.c linux.dev/arch/mips/ar7/tnetd73xx_misc.c +--- linux.old/arch/mips/ar7/tnetd73xx_misc.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/arch/mips/ar7/tnetd73xx_misc.c 2005-11-10 01:12:43.946955500 +0100 +@@ -0,0 +1,921 @@ ++/****************************************************************************** ++ * FILE PURPOSE: TNETD73xx Misc modules API Source ++ ****************************************************************************** ++ * FILE NAME: tnetd73xx_misc.c ++ * ++ * DESCRIPTION: Clock Control, Reset Control, Power Management, GPIO ++ * FSER Modules API ++ * As per TNETD73xx specifications ++ * ++ * REVISION HISTORY: ++ * 27 Nov 02 - Sharath Kumar PSP TII ++ * 14 Feb 03 - Anant Gole PSP TII ++ * ++ * (C) Copyright 2002, Texas Instruments, Inc ++ *******************************************************************************/ ++ ++#include <linux/types.h> ++#include <asm/ar7/tnetd73xx.h> ++#include <asm/ar7/tnetd73xx_misc.h> ++ ++/* TNETD73XX Revision */ ++u32 tnetd73xx_get_revision(void) ++{ ++ /* Read Chip revision register - This register is from GPIO module */ ++ return ( (u32) REG32_DATA(TNETD73XX_CVR)); ++} ++ ++/***************************************************************************** ++ * Reset Control Module ++ *****************************************************************************/ ++ ++ ++void tnetd73xx_reset_ctrl(TNETD73XX_RESET_MODULE_T reset_module, TNETD73XX_RESET_CTRL_T reset_ctrl) ++{ ++ u32 reset_status; ++ ++ /* read current reset register */ ++ REG32_READ(TNETD73XX_RST_CTRL_PRCR, reset_status); ++ ++ if (reset_ctrl == OUT_OF_RESET) ++ { ++ /* bring module out of reset */ ++ reset_status |= (1 << reset_module); ++ } ++ else ++ { ++ /* put module in reset */ ++ reset_status &= (~(1 << reset_module)); ++ } ++ ++ /* write to the reset register */ ++ REG32_WRITE(TNETD73XX_RST_CTRL_PRCR, reset_status); ++} ++ ++ ++TNETD73XX_RESET_CTRL_T tnetd73xx_get_reset_status (TNETD73XX_RESET_MODULE_T reset_module) ++{ ++ u32 reset_status; ++ ++ REG32_READ(TNETD73XX_RST_CTRL_PRCR, reset_status); ++ return ( (reset_status & (1 << reset_module)) ? OUT_OF_RESET : IN_RESET ); ++} ++ ++void tnetd73xx_sys_reset(TNETD73XX_SYS_RST_MODE_T mode) ++{ ++ REG32_WRITE(TNETD73XX_RST_CTRL_SWRCR, mode); ++} ++ ++#define TNETD73XX_RST_CTRL_RSR_MASK 0x3 ++ ++TNETD73XX_SYS_RESET_STATUS_T tnetd73xx_get_sys_last_reset_status() ++{ ++ u32 sys_reset_status; ++ ++ REG32_READ(TNETD73XX_RST_CTRL_RSR, sys_reset_status); ++ ++ return ( (TNETD73XX_SYS_RESET_STATUS_T) (sys_reset_status & TNETD73XX_RST_CTRL_RSR_MASK) ); ++} ++ ++ ++/***************************************************************************** ++ * Power Control Module ++ *****************************************************************************/ ++#define TNETD73XX_GLOBAL_POWER_DOWN_MASK 0x3FFFFFFF /* bit 31, 30 masked */ ++#define TNETD73XX_GLOBAL_POWER_DOWN_BIT 30 /* shift to bit 30, 31 */ ++ ++ ++void tnetd73xx_power_ctrl(TNETD73XX_POWER_MODULE_T power_module, TNETD73XX_POWER_CTRL_T power_ctrl) ++{ ++ u32 power_status; ++ ++ /* read current power down control register */ ++ REG32_READ(TNETD73XX_POWER_CTRL_PDCR, power_status); ++ ++ if (power_ctrl == POWER_CTRL_POWER_DOWN) ++ { ++ /* power down the module */ ++ power_status |= (1 << power_module); ++ } ++ else ++ { ++ /* power on the module */ ++ power_status &= (~(1 << power_module)); ++ } ++ ++ /* write to the reset register */ ++ REG32_WRITE(TNETD73XX_POWER_CTRL_PDCR, power_status); ++} ++ ++TNETD73XX_POWER_CTRL_T tnetd73xx_get_pwr_status(TNETD73XX_POWER_MODULE_T power_module) ++{ ++ u32 power_status; ++ ++ /* read current power down control register */ ++ REG32_READ(TNETD73XX_POWER_CTRL_PDCR, power_status); ++ ++ return ( (power_status & (1 << power_module)) ? POWER_CTRL_POWER_DOWN : POWER_CTRL_POWER_UP ); ++} ++ ++void tnetd73xx_set_global_pwr_mode(TNETD73XX_SYS_POWER_MODE_T power_mode) ++{ ++ u32 power_status; ++ ++ /* read current power down control register */ ++ REG32_READ(TNETD73XX_POWER_CTRL_PDCR, power_status); ++ ++ power_status &= TNETD73XX_GLOBAL_POWER_DOWN_MASK; ++ power_status |= ( power_mode << TNETD73XX_GLOBAL_POWER_DOWN_BIT); ++ ++ /* write to power down control register */ ++ REG32_WRITE(TNETD73XX_POWER_CTRL_PDCR, power_status); ++} ++ ++TNETD73XX_SYS_POWER_MODE_T tnetd73xx_get_global_pwr_mode() ++{ ++ u32 power_status; ++ ++ /* read current power down control register */ ++ REG32_READ(TNETD73XX_POWER_CTRL_PDCR, power_status); ++ ++ power_status &= (~TNETD73XX_GLOBAL_POWER_DOWN_MASK); ++ power_status = ( power_status >> TNETD73XX_GLOBAL_POWER_DOWN_BIT); ++ ++ return ( (TNETD73XX_SYS_POWER_MODE_T) power_status ); ++} ++ ++ ++/***************************************************************************** ++ * Wakeup Control ++ *****************************************************************************/ ++ ++#define TNETD73XX_WAKEUP_POLARITY_BIT 16 ++ ++void tnetd73xx_wakeup_ctrl(TNETD73XX_WAKEUP_INTERRUPT_T wakeup_int, ++ TNETD73XX_WAKEUP_CTRL_T wakeup_ctrl, ++ TNETD73XX_WAKEUP_POLARITY_T wakeup_polarity) ++{ ++ u32 wakeup_status; ++ ++ /* read the wakeup control register */ ++ REG32_READ(TNETD73XX_POWER_CTRL_WKCR, wakeup_status); ++ ++ /* enable/disable */ ++ if (wakeup_ctrl == WAKEUP_ENABLED) ++ { ++ /* enable wakeup */ ++ wakeup_status |= wakeup_int; ++ } ++ else ++ { ++ /* disable wakeup */ ++ wakeup_status &= (~wakeup_int); ++ } ++ ++ /* set polarity */ ++ if (wakeup_polarity == WAKEUP_ACTIVE_LOW) ++ { ++ wakeup_status |= (wakeup_int << TNETD73XX_WAKEUP_POLARITY_BIT); ++ } ++ else ++ { ++ wakeup_status &= ~(wakeup_int << TNETD73XX_WAKEUP_POLARITY_BIT); ++ } ++ ++ /* write the wakeup control register */ ++ REG32_WRITE(TNETD73XX_POWER_CTRL_WKCR, wakeup_status); ++} ++ ++ ++/***************************************************************************** ++ * FSER Control ++ *****************************************************************************/ ++ ++void tnetd73xx_fser_ctrl(TNETD73XX_FSER_MODE_T fser_mode) ++{ ++ REG32_WRITE(TNETD73XX_FSER_BASE, fser_mode); ++} ++ ++/***************************************************************************** ++ * Clock Control ++ *****************************************************************************/ ++ ++#define MIN(x,y) ( ((x) < (y)) ? (x) : (y) ) ++#define MAX(x,y) ( ((x) > (y)) ? (x) : (y) ) ++#define ABS(x) ( ((signed)(x) > 0) ? (x) : (-(x)) ) ++#define CEIL(x,y) ( ((x) + (y) / 2) / (y) ) ++ ++#define CLKC_CLKCR(x) (TNETD73XX_CLOCK_CTRL_BASE + 0x20 + (0x20 * (x))) ++#define CLKC_CLKPLLCR(x) (TNETD73XX_CLOCK_CTRL_BASE + 0x30 + (0x20 * (x))) ++ ++#define CLKC_PRE_DIVIDER 0x0000001F ++#define CLKC_POST_DIVIDER 0x001F0000 ++ ++#define CLKC_PLL_STATUS 0x1 ++#define CLKC_PLL_FACTOR 0x0000F000 ++ ++#define BOOTCR_PLL_BYPASS (1 << 5) ++#define BOOTCR_MIPS_ASYNC_MODE (1 << 25) ++ ++#define MIPS_PLL_SELECT 0x00030000 ++#define SYSTEM_PLL_SELECT 0x0000C000 ++#define USB_PLL_SELECT 0x000C0000 ++#define ADSLSS_PLL_SELECT 0x00C00000 ++ ++#define MIPS_AFECLKI_SELECT 0x00000000 ++#define MIPS_REFCLKI_SELECT 0x00010000 ++#define MIPS_XTAL3IN_SELECT 0x00020000 ++ ++#define SYSTEM_AFECLKI_SELECT 0x00000000 ++#define SYSTEM_REFCLKI_SELECT 0x00004000 ++#define SYSTEM_XTAL3IN_SELECT 0x00008000 ++#define SYSTEM_MIPSPLL_SELECT 0x0000C000 ++ ++#define USB_SYSPLL_SELECT 0x00000000 ++#define USB_REFCLKI_SELECT 0x00040000 ++#define USB_XTAL3IN_SELECT 0x00080000 ++#define USB_MIPSPLL_SELECT 0x000C0000 ++ ++#define ADSLSS_AFECLKI_SELECT 0x00000000 ++#define ADSLSS_REFCLKI_SELECT 0x00400000 ++#define ADSLSS_XTAL3IN_SELECT 0x00800000 ++#define ADSLSS_MIPSPLL_SELECT 0x00C00000 ++ ++#define SYS_MAX CLK_MHZ(150) ++#define SYS_MIN CLK_MHZ(1) ++ ++#define MIPS_SYNC_MAX SYS_MAX ++#define MIPS_ASYNC_MAX CLK_MHZ(160) ++#define MIPS_MIN CLK_MHZ(1) ++ ++#define USB_MAX CLK_MHZ(100) ++#define USB_MIN CLK_MHZ(1) ++ ++#define ADSL_MAX CLK_MHZ(180) ++#define ADSL_MIN CLK_MHZ(1) ++ ++#define PLL_MUL_MAXFACTOR 15 ++#define MAX_DIV_VALUE 32 ++#define MIN_DIV_VALUE 1 ++ ++#define MIN_PLL_INP_FREQ CLK_MHZ(8) ++#define MAX_PLL_INP_FREQ CLK_MHZ(100) ++ ++#define DIVIDER_LOCK_TIME 10100 ++#define PLL_LOCK_TIME 10100 * 75 ++ ++ ++ ++ /**************************************************************************** ++ * DATA PURPOSE: PRIVATE Variables ++ **************************************************************************/ ++ static u32 *clk_src[4]; ++ static u32 mips_pll_out; ++ static u32 sys_pll_out; ++ static u32 afeclk_inp; ++ static u32 refclk_inp; ++ static u32 xtal_inp; ++ static u32 present_min; ++ static u32 present_max; ++ ++ /* Forward References */ ++ static u32 find_gcd(u32 min, u32 max); ++ static u32 compute_prediv( u32 divider, u32 min, u32 max); ++ static void get_val(u32 base_freq, u32 output_freq,u32 *multiplier, u32 *divider); ++ static u32 get_base_frequency(TNETD73XX_CLKC_ID_T clk_id); ++ static void find_approx(u32 *,u32 *,u32); ++ ++ /**************************************************************************** ++ * FUNCTION: tnetd73xx_clkc_init ++ **************************************************************************** ++ * Description: The routine initializes the internal variables depending on ++ * on the sources selected for different clocks. ++ ***************************************************************************/ ++void tnetd73xx_clkc_init(u32 afeclk, u32 refclk, u32 xtal3in) ++{ ++ ++ u32 choice; ++ ++ afeclk_inp = afeclk; ++ refclk_inp = refclk; ++ xtal_inp = xtal3in; ++ ++ choice = REG32_DATA(TNETD73XX_DCL_BOOTCR) & MIPS_PLL_SELECT; ++ switch(choice) ++ { ++ case MIPS_AFECLKI_SELECT: ++ clk_src[CLKC_MIPS] = &afeclk_inp; ++ break; ++ ++ case MIPS_REFCLKI_SELECT: ++ clk_src[CLKC_MIPS] = &refclk_inp; ++ break; ++ ++ case MIPS_XTAL3IN_SELECT: ++ clk_src[CLKC_MIPS] = &xtal_inp; ++ break; ++ ++ default : ++ clk_src[CLKC_MIPS] = 0; ++ ++ } ++ ++ choice = REG32_DATA(TNETD73XX_DCL_BOOTCR) & SYSTEM_PLL_SELECT; ++ switch(choice) ++ { ++ case SYSTEM_AFECLKI_SELECT: ++ clk_src[CLKC_SYS] = &afeclk_inp; ++ break; ++ ++ case SYSTEM_REFCLKI_SELECT: ++ clk_src[CLKC_SYS] = &refclk_inp; ++ break; ++ ++ case SYSTEM_XTAL3IN_SELECT: ++ clk_src[CLKC_SYS] = &xtal_inp; ++ break; ++ ++ case SYSTEM_MIPSPLL_SELECT: ++ clk_src[CLKC_SYS] = &mips_pll_out; ++ break; ++ ++ default : ++ clk_src[CLKC_SYS] = 0; ++ ++ } ++ ++ ++ choice = REG32_DATA(TNETD73XX_DCL_BOOTCR) & ADSLSS_PLL_SELECT; ++ switch(choice) ++ { ++ case ADSLSS_AFECLKI_SELECT: ++ clk_src[CLKC_ADSLSS] = &afeclk_inp; ++ break; ++ ++ case ADSLSS_REFCLKI_SELECT: ++ clk_src[CLKC_ADSLSS] = &refclk_inp; ++ break; ++ ++ case ADSLSS_XTAL3IN_SELECT: ++ clk_src[CLKC_ADSLSS] = &xtal_inp; ++ break; ++ ++ case ADSLSS_MIPSPLL_SELECT: ++ clk_src[CLKC_ADSLSS] = &mips_pll_out; ++ break; ++ ++ default : ++ clk_src[CLKC_ADSLSS] = 0; ++ ++ } ++ ++ ++ choice = REG32_DATA(TNETD73XX_DCL_BOOTCR) & USB_PLL_SELECT; ++ switch(choice) ++ { ++ case USB_SYSPLL_SELECT: ++ clk_src[CLKC_USB] = &sys_pll_out ; ++ break; ++ ++ case USB_REFCLKI_SELECT: ++ clk_src[CLKC_USB] = &refclk_inp; ++ break; ++ ++ case USB_XTAL3IN_SELECT: ++ clk_src[CLKC_USB] = &xtal_inp; ++ break; ++ ++ case USB_MIPSPLL_SELECT: ++ clk_src[CLKC_USB] = &mips_pll_out; ++ break; ++ ++ default : ++ clk_src[CLKC_USB] = 0; ++ ++ } ++} ++ ++ ++ ++/**************************************************************************** ++ * FUNCTION: tnetd73xx_clkc_set_freq ++ **************************************************************************** ++ * Description: The above routine is called to set the output_frequency of the ++ * selected clock(using clk_id) to the required value given ++ * by the variable output_freq. ++ ***************************************************************************/ ++TNETD73XX_ERR tnetd73xx_clkc_set_freq ++( ++ TNETD73XX_CLKC_ID_T clk_id, ++ u32 output_freq ++ ) ++{ ++ u32 base_freq; ++ u32 multiplier; ++ u32 divider; ++ u32 min_prediv; ++ u32 max_prediv; ++ u32 prediv; ++ u32 postdiv; ++ u32 temp; ++ ++ /* check if PLLs are bypassed*/ ++ if(REG32_DATA(TNETD73XX_DCL_BOOTCR) & BOOTCR_PLL_BYPASS) ++ { ++ return TNETD73XX_ERR_ERROR; ++ } ++ ++ /*check if the requested output_frequency is in valid range*/ ++ switch( clk_id ) ++ { ++ case CLKC_SYS: ++ if( output_freq < SYS_MIN || output_freq > SYS_MAX) ++ { ++ return TNETD73XX_ERR_ERROR; ++ } ++ present_min = SYS_MIN; ++ present_max = SYS_MAX; ++ break; ++ ++ case CLKC_MIPS: ++ if((output_freq < MIPS_MIN) || ++ (output_freq > ((REG32_DATA(TNETD73XX_DCL_BOOTCR) & BOOTCR_MIPS_ASYNC_MODE) ? MIPS_ASYNC_MAX: MIPS_SYNC_MAX))) ++ { ++ return TNETD73XX_ERR_ERROR; ++ } ++ present_min = MIPS_MIN; ++ present_max = (REG32_DATA(TNETD73XX_DCL_BOOTCR) & BOOTCR_MIPS_ASYNC_MODE) ? MIPS_ASYNC_MAX: MIPS_SYNC_MAX; ++ break; ++ ++ case CLKC_USB: ++ if( output_freq < USB_MIN || output_freq > USB_MAX) ++ { ++ return TNETD73XX_ERR_ERROR; ++ } ++ present_min = USB_MIN; ++ present_max = USB_MAX; ++ break; ++ ++ case CLKC_ADSLSS: ++ if( output_freq < ADSL_MIN || output_freq > ADSL_MAX) ++ { ++ return TNETD73XX_ERR_ERROR; ++ } ++ present_min = ADSL_MIN; ++ present_max = ADSL_MAX; ++ break; ++ } ++ ++ ++ base_freq = get_base_frequency(clk_id); ++ ++ ++ /* check for minimum base frequency value */ ++ if( base_freq < MIN_PLL_INP_FREQ) ++ { ++ return TNETD73XX_ERR_ERROR; ++ } ++ ++ get_val(output_freq, base_freq, &multiplier, ÷r); ++ ++ /* check multiplier range */ ++ if( (multiplier > PLL_MUL_MAXFACTOR) || (multiplier <= 0) ) ++ { ++ return TNETD73XX_ERR_ERROR; ++ } ++ ++ /* check divider value */ ++ if( divider == 0 ) ++ { ++ return TNETD73XX_ERR_ERROR; ++ } ++ ++ /*compute minimum and maximum predivider values */ ++ min_prediv = MAX(base_freq / MAX_PLL_INP_FREQ + 1, divider / MAX_DIV_VALUE + 1); ++ max_prediv = MIN(base_freq / MIN_PLL_INP_FREQ, MAX_DIV_VALUE); ++ ++ /*adjust the value of divider so that it not less than minimum predivider value*/ ++ if (divider < min_prediv) ++ { ++ temp = CEIL(min_prediv, divider); ++ if ((temp * multiplier) > PLL_MUL_MAXFACTOR) ++ { ++ return TNETD73XX_ERR_ERROR ; ++ } ++ else ++ { ++ multiplier = temp * multiplier; ++ divider = min_prediv; ++ } ++ ++ } ++ ++ /* compute predivider and postdivider values */ ++ prediv = compute_prediv (divider, min_prediv, max_prediv); ++ postdiv = CEIL(divider,prediv); ++ ++ /*return fail if postdivider value falls out of range */ ++ if(postdiv > MAX_DIV_VALUE) ++ { ++ return TNETD73XX_ERR_ERROR; ++ } ++ ++ ++ /*write predivider and postdivider values*/ ++ /* pre-Divider and post-divider are 5 bit N+1 dividers */ ++ REG32_WRITE(CLKC_CLKCR(clk_id), ((postdiv -1) & 0x1F) << 16 | ((prediv -1) & 0x1F) ); ++ ++ /*wait for divider output to stabilise*/ ++ for(temp =0; temp < DIVIDER_LOCK_TIME; temp++); ++ ++ /*write to PLL clock register*/ ++ ++ if(clk_id == CLKC_SYS) ++ { ++ /* but before writing put DRAM to hold mode */ ++ REG32_DATA(TNETD73XX_EMIF_SDRAM_CFG) |= 0x80000000; ++ } ++ /*Bring PLL into div mode */ ++ REG32_WRITE(CLKC_CLKPLLCR(clk_id), 0x4); ++ ++ /*compute the word to be written to PLLCR ++ *corresponding to multiplier value ++ */ ++ multiplier = (((multiplier - 1) & 0xf) << 12)| ((255 <<3) | 0x0e); ++ ++ /* wait till PLL enters div mode */ ++ while(REG32_DATA(CLKC_CLKPLLCR(clk_id)) & CLKC_PLL_STATUS) ++ /*nothing*/; ++ ++ REG32_WRITE(CLKC_CLKPLLCR(clk_id), multiplier); ++ ++ while(!REG32_DATA(CLKC_CLKPLLCR(clk_id)) & CLKC_PLL_STATUS) ++ /*nothing*/; ++ ++ ++ /*wait for External pll to lock*/ ++ for(temp =0; temp < PLL_LOCK_TIME; temp++); ++ ++ if(clk_id == CLKC_SYS) ++ { ++ /* Bring DRAM out of hold */ ++ REG32_DATA(TNETD73XX_EMIF_SDRAM_CFG) &= ~0x80000000; ++ } ++ ++ return TNETD73XX_ERR_OK ; ++} ++ ++/**************************************************************************** ++ * FUNCTION: tnetd73xx_clkc_get_freq ++ **************************************************************************** ++ * Description: The above routine is called to get the output_frequency of the ++ * selected clock( clk_id) ++ ***************************************************************************/ ++u32 tnetd73xx_clkc_get_freq ++( ++ TNETD73XX_CLKC_ID_T clk_id ++ ) ++{ ++ ++ u32 clk_ctrl_register; ++ u32 clk_pll_setting; ++ u32 clk_predivider; ++ u32 clk_postdivider; ++ u16 pll_factor; ++ u32 base_freq; ++ u32 divider; ++ ++ base_freq = get_base_frequency(clk_id); ++ ++ clk_ctrl_register = REG32_DATA(CLKC_CLKCR(clk_id)); ++ ++ /* pre-Divider and post-divider are 5 bit N+1 dividers */ ++ clk_predivider = (CLKC_PRE_DIVIDER & clk_ctrl_register) + 1; ++ clk_postdivider = ((CLKC_POST_DIVIDER & clk_ctrl_register) >> 16) + 1; ++ ++ divider = clk_predivider * clk_postdivider; ++ ++ ++ if( (REG32_DATA(TNETD73XX_DCL_BOOTCR) & BOOTCR_PLL_BYPASS)) ++ { ++ return (CEIL(base_freq, divider)); /* PLLs bypassed.*/ ++ } ++ ++ ++ else ++ { ++ /* return the current clock speed based upon the PLL setting */ ++ clk_pll_setting = REG32_DATA(CLKC_CLKPLLCR(clk_id)); ++ ++ /* Get the PLL multiplication factor */ ++ pll_factor = ((clk_pll_setting & CLKC_PLL_FACTOR) >> 12) + 1; ++ ++ /* Check if we're in divide mode or multiply mode */ ++ if((clk_pll_setting & 0x1) == 0) ++ { ++ /* We're in divide mode */ ++ if(pll_factor < 0x10) ++ return (CEIL(base_freq >> 1, divider)); ++ else ++ return (CEIL(base_freq >> 2, divider)); ++ } ++ ++ else /* We're in PLL mode */ ++ { ++ /* See if PLLNDIV & PLLDIV are set */ ++ if((clk_pll_setting & 0x0800) && (clk_pll_setting & 0x2)) ++ { ++ if(clk_pll_setting & 0x1000) ++ { ++ /* clk = base_freq * k/2 */ ++ return(CEIL((base_freq * pll_factor) >> 1, divider)); ++ } ++ else ++ { ++ /* clk = base_freq * (k-1) / 4)*/ ++ return(CEIL((base_freq * (pll_factor - 1)) >>2, divider)); ++ } ++ } ++ else ++ { ++ if(pll_factor < 0x10) ++ { ++ /* clk = base_freq * k */ ++ return(CEIL(base_freq * pll_factor, divider)); ++ } ++ ++ else ++ { ++ /* clk = base_freq */ ++ return(CEIL(base_freq, divider)); ++ } ++ } ++ } ++ return(0); /* Should never reach here */ ++ ++ } ++ ++} ++ ++ ++/* local helper functions */ ++ ++/**************************************************************************** ++ * FUNCTION: get_base_frequency ++ **************************************************************************** ++ * Description: The above routine is called to get base frequency of the clocks. ++ ***************************************************************************/ ++ ++static u32 get_base_frequency(TNETD73XX_CLKC_ID_T clk_id) ++{ ++ /* update the current MIPs PLL output value, if the required ++ * source is MIPS PLL ++ */ ++ if ( clk_src[clk_id] == &mips_pll_out) ++ { ++ *clk_src[clk_id] = tnetd73xx_clkc_get_freq(CLKC_MIPS); ++ } ++ ++ ++ /* update the current System PLL output value, if the required ++ * source is system PLL ++ */ ++ if ( clk_src[clk_id] == &sys_pll_out) ++ { ++ *clk_src[clk_id] = tnetd73xx_clkc_get_freq(CLKC_SYS); ++ } ++ ++ return (*clk_src[clk_id]); ++ ++} ++ ++ ++ ++/**************************************************************************** ++ * FUNCTION: find_gcd ++ **************************************************************************** ++ * Description: The above routine is called to find gcd of 2 numbers. ++ ***************************************************************************/ ++static u32 find_gcd ++( ++ u32 min, ++ u32 max ++ ) ++{ ++ if (max % min == 0) ++ { ++ return min; ++ } ++ else ++ { ++ return find_gcd(max % min, min); ++ } ++} ++ ++/**************************************************************************** ++ * FUNCTION: compute_prediv ++ **************************************************************************** ++ * Description: The above routine is called to compute predivider value ++ ***************************************************************************/ ++static u32 compute_prediv(u32 divider, u32 min, u32 max) ++{ ++ u16 prediv; ++ ++ /* return the divider itself it it falls within the range of predivider*/ ++ if (min <= divider && divider <= max) ++ { ++ return divider; ++ } ++ ++ /* find a value for prediv such that it is a factor of divider */ ++ for (prediv = max; prediv >= min ; prediv--) ++ { ++ if ( (divider % prediv) == 0 ) ++ { ++ return prediv; ++ } ++ } ++ ++ /* No such factor exists, return min as prediv */ ++ return min; ++} ++ ++/**************************************************************************** ++ * FUNCTION: get_val ++ **************************************************************************** ++ * Description: This routine is called to get values of divider and multiplier. ++ ***************************************************************************/ ++ ++static void get_val(u32 output_freq, u32 base_freq,u32 *multiplier, u32 *divider) ++{ ++ u32 temp_mul; ++ u32 temp_div; ++ u32 gcd; ++ u32 min_freq; ++ u32 max_freq; ++ ++ /* find gcd of base_freq, output_freq */ ++ min_freq = (base_freq < output_freq) ? base_freq : output_freq; ++ max_freq = (base_freq > output_freq) ? base_freq : output_freq; ++ gcd = find_gcd(min_freq , max_freq); ++ ++ if(gcd == 0) ++ return; /* ERROR */ ++ ++ /* compute values of multiplier and divider */ ++ temp_mul = output_freq / gcd; ++ temp_div = base_freq / gcd; ++ ++ ++ /* set multiplier such that 1 <= multiplier <= PLL_MUL_MAXFACTOR */ ++ if( temp_mul > PLL_MUL_MAXFACTOR ) ++ { ++ if((temp_mul / temp_div) > PLL_MUL_MAXFACTOR) ++ return; ++ ++ find_approx(&temp_mul,&temp_div,base_freq); ++ } ++ ++ *multiplier = temp_mul; ++ *divider = temp_div; ++} ++ ++/**************************************************************************** ++ * FUNCTION: find_approx ++ **************************************************************************** ++ * Description: This function gets the approx value of num/denom. ++ ***************************************************************************/ ++ ++static void find_approx(u32 *num,u32 *denom,u32 base_freq) ++{ ++ u32 num1; ++ u32 denom1; ++ u32 num2; ++ u32 denom2; ++ int32_t closest; ++ int32_t prev_closest; ++ u32 temp_num; ++ u32 temp_denom; ++ u32 normalize; ++ u32 gcd; ++ u32 output_freq; ++ ++ num1 = *num; ++ denom1 = *denom; ++ ++ prev_closest = 0x7fffffff; /* maximum possible value */ ++ num2 = num1; ++ denom2 = denom1; ++ ++ /* start with max */ ++ for(temp_num = 15; temp_num >=1; temp_num--) ++ { ++ ++ temp_denom = CEIL(temp_num * denom1, num1); ++ output_freq = (temp_num * base_freq) / temp_denom; ++ ++ if(temp_denom < 1) ++ { ++ break; ++ } ++ else ++ { ++ normalize = CEIL(num1,temp_num); ++ closest = (ABS((num1 * (temp_denom) ) - (temp_num * denom1))) * normalize; ++ if(closest < prev_closest && output_freq > present_min && output_freq <present_max) ++ { ++ prev_closest = closest; ++ num2 = temp_num; ++ denom2 = temp_denom; ++ } ++ ++ } ++ ++ } ++ ++ gcd = find_gcd(num2,denom2); ++ num2 = num2 / gcd; ++ denom2 = denom2 /gcd; ++ ++ *num = num2; ++ *denom = denom2; ++} ++ ++ ++/***************************************************************************** ++ * GPIO Control ++ *****************************************************************************/ ++ ++/**************************************************************************** ++ * FUNCTION: tnetd73xx_gpio_init ++ ***************************************************************************/ ++void tnetd73xx_gpio_init() ++{ ++ /* Bring module out of reset */ ++ tnetd73xx_reset_ctrl(RESET_MODULE_GPIO, OUT_OF_RESET); ++ REG32_WRITE(TNETD73XX_GPIOENR, 0xFFFFFFFF); ++} ++ ++/**************************************************************************** ++ * FUNCTION: tnetd73xx_gpio_ctrl ++ ***************************************************************************/ ++void tnetd73xx_gpio_ctrl(TNETD73XX_GPIO_PIN_T gpio_pin, ++ TNETD73XX_GPIO_PIN_MODE_T pin_mode, ++ TNETD73XX_GPIO_PIN_DIRECTION_T pin_direction) ++{ ++ u32 pin_status; ++ REG32_READ(TNETD73XX_GPIOENR, pin_status); ++ if (pin_mode == GPIO_PIN) ++ { ++ pin_status |= (1 << gpio_pin); ++ REG32_WRITE(TNETD73XX_GPIOENR, pin_status); ++ ++ /* Set pin direction */ ++ REG32_READ(TNETD73XX_GPIOPDIRR, pin_status); ++ if (pin_direction == GPIO_INPUT_PIN) ++ { ++ pin_status |= (1 << gpio_pin); ++ } ++ else /* GPIO_OUTPUT_PIN */ ++ { ++ pin_status &= (~(1 << gpio_pin)); ++ } ++ REG32_WRITE(TNETD73XX_GPIOPDIRR, pin_status); ++ } ++ else /* FUNCTIONAL PIN */ ++ { ++ pin_status &= (~(1 << gpio_pin)); ++ REG32_WRITE(TNETD73XX_GPIOENR, pin_status); ++ } ++ ++} ++ ++/**************************************************************************** ++ * FUNCTION: tnetd73xx_gpio_out ++ ***************************************************************************/ ++void tnetd73xx_gpio_out(TNETD73XX_GPIO_PIN_T gpio_pin, int value) ++{ ++ u32 pin_value; ++ ++ REG32_READ(TNETD73XX_GPIODOUTR, pin_value); ++ if (value == 1) ++ { ++ pin_value |= (1 << gpio_pin); ++ } ++ else ++ { ++ pin_value &= (~(1 << gpio_pin)); ++ } ++ REG32_WRITE(TNETD73XX_GPIODOUTR, pin_value); ++} ++ ++/**************************************************************************** ++ * FUNCTION: tnetd73xx_gpio_in ++ ***************************************************************************/ ++int tnetd73xx_gpio_in(TNETD73XX_GPIO_PIN_T gpio_pin) ++{ ++ u32 pin_value; ++ REG32_READ(TNETD73XX_GPIODINR, pin_value); ++ return ( (pin_value & (1 << gpio_pin)) ? 1 : 0 ); ++} ++ +diff -urN linux.old/arch/mips/config-shared.in linux.dev/arch/mips/config-shared.in +--- linux.old/arch/mips/config-shared.in 2005-10-21 16:43:18.917114000 +0200 ++++ linux.dev/arch/mips/config-shared.in 2005-11-10 01:12:43.950955750 +0100 +@@ -20,6 +20,16 @@ + mainmenu_option next_comment + comment 'Machine selection' + dep_bool 'Support for Acer PICA 1 chipset (EXPERIMENTAL)' CONFIG_ACER_PICA_61 $CONFIG_EXPERIMENTAL ++dep_bool 'Support for Texas Instruments AR7 (EXPERIMENTAL)' CONFIG_AR7 $CONFIG_MIPS32 $CONFIG_EXPERIMENTAL ++if [ "$CONFIG_AR7" = "y" ]; then ++ choice 'Texas Instruments Reference Platform' \ ++ "AR7DB CONFIG_AR7DB \ ++ AR7RD CONFIG_AR7RD \ ++ AR7WRD CONFIG_AR7WRD" AR7DB ++ int 'Texas Instruments AR7 CPU Frequency' CONFIG_AR7_CPU 150 ++ int 'Texas Instruments AR7 System Frequency' CONFIG_AR7_SYS 125 ++ hex 'Texas Instruments AR7 SDRAM Start' CONFIG_AR7_MEMORY 0x14000000 ++fi + dep_bool 'Support for Alchemy Bosporus board' CONFIG_MIPS_BOSPORUS $CONFIG_MIPS32 + dep_bool 'Support for FIC Multimedia Player board' CONFIG_MIPS_FICMMP $CONFIG_MIPS32 + dep_bool 'Support for Alchemy Mirage board' CONFIG_MIPS_MIRAGE $CONFIG_MIPS32 +@@ -239,6 +249,11 @@ + define_bool CONFIG_NONCOHERENT_IO y + define_bool CONFIG_PC_KEYB y + fi ++if [ "$CONFIG_AR7" = "y" ]; then ++ define_bool CONFIG_IRQ_CPU y ++ define_bool CONFIG_NONCOHERENT_IO y ++ define_bool CONFIG_SWAP_IO_SPACE y ++fi + if [ "$CONFIG_CASIO_E55" = "y" ]; then + define_bool CONFIG_IRQ_CPU y + define_bool CONFIG_NONCOHERENT_IO y +@@ -736,6 +751,7 @@ + mainmenu_option next_comment + comment 'General setup' + if [ "$CONFIG_ACER_PICA_61" = "y" -o \ ++ "$CONFIG_AR7" = "y" -o \ + "$CONFIG_CASIO_E55" = "y" -o \ + "$CONFIG_DDB5074" = "y" -o \ + "$CONFIG_DDB5476" = "y" -o \ +@@ -797,6 +813,7 @@ + bool 'Networking support' CONFIG_NET + + if [ "$CONFIG_ACER_PICA_61" = "y" -o \ ++ "$CONFIG_AR7" = "y" -o \ + "$CONFIG_CASIO_E55" = "y" -o \ + "$CONFIG_DECSTATION" = "y" -o \ + "$CONFIG_IBM_WORKPAD" = "y" -o \ +diff -urN linux.old/arch/mips/kernel/head.S linux.dev/arch/mips/kernel/head.S +--- linux.old/arch/mips/kernel/head.S 2005-10-21 16:43:16.396956500 +0200 ++++ linux.dev/arch/mips/kernel/head.S 2005-11-10 01:10:45.807572250 +0100 +@@ -75,11 +75,11 @@ + * size! + */ + NESTED(except_vec4, 0, sp) +- .set push +- .set noreorder +-1: j 1b /* Dummy, will be replaced */ +- nop +- .set pop ++ .set mips2 ++ lui k0, 0x9400 ++ ori k0, 0x200 ++ jr k0 ++ nop + END(except_vec4) + + /* +diff -urN linux.old/arch/mips/kernel/mips_ksyms.c linux.dev/arch/mips/kernel/mips_ksyms.c +--- linux.old/arch/mips/kernel/mips_ksyms.c 2004-02-18 14:36:30.000000000 +0100 ++++ linux.dev/arch/mips/kernel/mips_ksyms.c 2005-11-10 01:10:45.811572500 +0100 +@@ -40,6 +40,12 @@ + extern long __strnlen_user_nocheck_asm(const char *s); + extern long __strnlen_user_asm(const char *s); + ++#ifdef CONFIG_AR7 ++#include <asm/ar7/adam2_env.h> ++int avalanche_request_pacing(int irq_nr, unsigned int blk_num, unsigned int pace_value); ++#endif ++ ++ + EXPORT_SYMBOL(mips_machtype); + #ifdef CONFIG_EISA + EXPORT_SYMBOL(EISA_bus); +@@ -103,3 +109,10 @@ + #endif + + EXPORT_SYMBOL(get_wchan); ++ ++#ifdef CONFIG_AR7 ++EXPORT_SYMBOL_NOVERS(avalanche_request_pacing); ++EXPORT_SYMBOL_NOVERS(prom_getenv); ++EXPORT_SYMBOL_NOVERS(prom_iterenv); ++#endif ++ +diff -urN linux.old/arch/mips/kernel/setup.c linux.dev/arch/mips/kernel/setup.c +--- linux.old/arch/mips/kernel/setup.c 2005-10-21 16:43:16.396956500 +0200 ++++ linux.dev/arch/mips/kernel/setup.c 2005-11-10 01:14:16.376732000 +0100 +@@ -38,6 +38,7 @@ + #include <asm/io.h> + #include <asm/ptrace.h> + #include <asm/system.h> ++#include <asm/addrspace.h> + + struct cpuinfo_mips cpu_data[NR_CPUS]; + EXPORT_SYMBOL(cpu_data); +@@ -88,7 +89,7 @@ + struct boot_mem_map boot_mem_map; + + unsigned char aux_device_present; +-extern char _ftext, _etext, _fdata, _edata, _end; ++extern char _ftext, _etext, _fdata, _edata, _fbss, _end; + + static char command_line[CL_SIZE]; + char saved_command_line[CL_SIZE]; +@@ -116,6 +117,7 @@ + + static struct resource code_resource = { "Kernel code" }; + static struct resource data_resource = { "Kernel data" }; ++static struct resource bss_resource = { "Kernel bss" }; + + asmlinkage void __init + init_arch(int argc, char **argv, char **envp, int *prom_vec) +@@ -272,7 +274,7 @@ + for (i = 0; i < boot_mem_map.nr_map; i++) { + unsigned long start, end; + +- if (boot_mem_map.map[i].type != BOOT_MEM_RAM) ++ if (boot_mem_map.map[i].type == BOOT_MEM_RESERVED) + continue; + + start = PFN_UP(boot_mem_map.map[i].addr); +@@ -320,7 +322,8 @@ + #endif + + /* Initialize the boot-time allocator with low memory only. */ +- bootmap_size = init_bootmem(first_usable_pfn, max_low_pfn); ++ bootmap_size = init_bootmem_node(NODE_DATA(0), first_usable_pfn, ++ PFN_UP(PHYS_OFFSET), max_low_pfn); + + /* + * Register fully available low RAM pages with the bootmem allocator. +@@ -371,11 +374,12 @@ + continue; + + /* Register lowmem ranges */ +- free_bootmem(PFN_PHYS(curr_pfn), PFN_PHYS(size)); ++ free_bootmem_node(NODE_DATA(0), PFN_PHYS(curr_pfn), ++ size<<PAGE_SHIFT); + } + + /* Reserve the bootmap memory. */ +- reserve_bootmem(PFN_PHYS(first_usable_pfn), bootmap_size); ++ reserve_bootmem_node(NODE_DATA(0), PFN_PHYS(first_usable_pfn), bootmap_size); + + #ifdef CONFIG_BLK_DEV_INITRD + /* Board specific code should have set up initrd_start and initrd_end */ +@@ -409,6 +413,8 @@ + code_resource.end = virt_to_bus(&_etext) - 1; + data_resource.start = virt_to_bus(&_fdata); + data_resource.end = virt_to_bus(&_edata) - 1; ++ bss_resource.start = virt_to_bus(&_fbss); ++ bss_resource.end = virt_to_bus(&_end) - 1; + + /* + * Request address space for all standard RAM. +@@ -448,6 +454,7 @@ + */ + request_resource(res, &code_resource); + request_resource(res, &data_resource); ++ request_resource(res, &bss_resource); + } + } + +@@ -494,6 +501,7 @@ + void hp_setup(void); + void au1x00_setup(void); + void frame_info_init(void); ++ void ar7_setup(void); + + frame_info_init(); + #if defined(CONFIG_BLK_DEV_FD) || defined(CONFIG_BLK_DEV_FD_MODULE) +@@ -691,6 +699,11 @@ + pmc_yosemite_setup(); + break; + #endif ++#ifdef CONFIG_AR7 ++ case MACH_GROUP_UNKNOWN: ++ ar7_setup(); ++ break; ++#endif + default: + panic("Unsupported architecture"); + } +diff -urN linux.old/arch/mips/kernel/time.c linux.dev/arch/mips/kernel/time.c +--- linux.old/arch/mips/kernel/time.c 2005-01-19 15:09:29.000000000 +0100 ++++ linux.dev/arch/mips/kernel/time.c 2005-11-10 01:12:43.950955750 +0100 +@@ -143,7 +143,6 @@ + expirelo = (count / cycles_per_jiffy + 1) * cycles_per_jiffy; + write_c0_count(expirelo - cycles_per_jiffy); + write_c0_compare(expirelo); +- write_c0_count(count); + } + + int (*mips_timer_state)(void); +diff -urN linux.old/arch/mips/kernel/traps.c linux.dev/arch/mips/kernel/traps.c +--- linux.old/arch/mips/kernel/traps.c 2005-10-21 16:43:16.400956750 +0200 ++++ linux.dev/arch/mips/kernel/traps.c 2005-11-10 01:13:28.301727500 +0100 +@@ -869,9 +869,24 @@ + + exception_handlers[n] = handler; + if (n == 0 && cpu_has_divec) { ++ printk(KERN_DEBUG "%s: using long jump via k0 to reach %08x\n", ++ __FUNCTION__, handler); ++ /* where does the 8 byte limit mentioned in head.S come from??? */ ++ if (handler > 0x0fffffff) { /* maximum for single J instruction */ ++ /* lui k0, 0x0000 */ ++ *(volatile u32 *)(KSEG0+0x200) = 0x3c1a0000 | (handler >> 16); ++ /* ori k0, 0x0000 */ ++ *(volatile u32 *)(KSEG0+0x204) = 0x375a0000 | (handler & 0xffff); ++ /* jr k0 */ ++ *(volatile u32 *)(KSEG0+0x208) = 0x03400008; ++ /* nop */ ++ *(volatile u32 *)(KSEG0+0x20C) = 0x00000000; ++ flush_icache_range(KSEG0+0x200, KSEG0+0x210); ++ } else { + *(volatile u32 *)(KSEG0+0x200) = 0x08000000 | + (0x03ffffff & (handler >> 2)); +- flush_icache_range(KSEG0+0x200, KSEG0 + 0x204); ++ flush_icache_range(KSEG0+0x200, KSEG0+0x204); ++ } + } + return (void *)old_handler; + } +diff -urN linux.old/arch/mips/mm/init.c linux.dev/arch/mips/mm/init.c +--- linux.old/arch/mips/mm/init.c 2004-02-18 14:36:30.000000000 +0100 ++++ linux.dev/arch/mips/mm/init.c 2005-11-10 01:14:16.376732000 +0100 +@@ -235,10 +235,13 @@ + #endif + } + ++#define START_PFN (NODE_DATA(0)->bdata->node_boot_start >> PAGE_SHIFT) ++#define MAX_LOW_PFN (NODE_DATA(0)->bdata->node_low_pfn) ++ + void __init paging_init(void) + { + unsigned long zones_size[MAX_NR_ZONES] = {0, 0, 0}; +- unsigned long max_dma, high, low; ++ unsigned long max_dma, high, low, start; + + pagetable_init(); + +@@ -247,7 +250,8 @@ + #endif + + max_dma = virt_to_phys((char *)MAX_DMA_ADDRESS) >> PAGE_SHIFT; +- low = max_low_pfn; ++ start = START_PFN; ++ low = MAX_LOW_PFN - start; + high = highend_pfn; + + #ifdef CONFIG_ISA +@@ -270,7 +274,8 @@ + zones_size[ZONE_HIGHMEM] = high - low; + #endif + +- free_area_init(zones_size); ++ free_area_init_node(0, NODE_DATA(0), 0, zones_size, ++ start << PAGE_SHIFT, 0); + } + + #define PFN_UP(x) (((x) + PAGE_SIZE - 1) >> PAGE_SHIFT) +@@ -283,7 +288,7 @@ + for (i = 0; i < boot_mem_map.nr_map; i++) { + unsigned long addr, end; + +- if (boot_mem_map.map[i].type != BOOT_MEM_RAM) ++ if (boot_mem_map.map[i].type == BOOT_MEM_RESERVED) + /* not usable memory */ + continue; + +@@ -313,16 +318,17 @@ + max_mapnr = num_physpages = highend_pfn; + num_mappedpages = max_low_pfn; + #else +- max_mapnr = num_mappedpages = num_physpages = max_low_pfn; ++ max_mapnr = num_mappedpages = num_physpages = MAX_LOW_PFN - START_PFN; + #endif +- high_memory = (void *) __va(max_low_pfn * PAGE_SIZE); +- +- totalram_pages += free_all_bootmem(); ++ ++ high_memory = (void *) __va(MAX_LOW_PFN * PAGE_SIZE); ++ ++ totalram_pages += free_all_bootmem_node(NODE_DATA(0)); + totalram_pages -= setup_zero_pages(); /* Setup zeroed pages. */ + + reservedpages = ram = 0; +- for (tmp = 0; tmp < max_low_pfn; tmp++) +- if (page_is_ram(tmp)) { ++ for (tmp = 0; tmp < max_mapnr; tmp++) ++ if (page_is_ram(START_PFN + tmp)) { + ram++; + if (PageReserved(mem_map+tmp)) + reservedpages++; +@@ -377,13 +383,13 @@ + #endif + + extern char __init_begin, __init_end; +-extern void prom_free_prom_memory(void) __init; ++extern unsigned long prom_free_prom_memory(void) __init; + + void free_initmem(void) + { + unsigned long addr; + +- prom_free_prom_memory (); ++ totalram_pages += prom_free_prom_memory (); + + addr = (unsigned long) &__init_begin; + while (addr < (unsigned long) &__init_end) { +diff -urN linux.old/drivers/char/Config.in linux.dev/drivers/char/Config.in +--- linux.old/drivers/char/Config.in 2005-10-21 16:43:16.440959250 +0200 ++++ linux.dev/drivers/char/Config.in 2005-11-10 01:10:45.843574500 +0100 +@@ -188,6 +188,14 @@ + tristate 'Total Impact briQ front panel driver' CONFIG_BRIQ_PANEL + fi + ++if [ "$CONFIG_AR7" = "y" ]; then ++ bool 'VLYNQ support for the TI SOC' CONFIG_AR7_VLYNQ ++ dep_bool 'VLYNQ clock source Internal' CONFIG_VLYNQ_CLK_LOCAL $CONFIG_AR7_VLYNQ ++ ++ define_int CONFIG_AR7_VLYNQ_PORTS 2 ++ tristate 'ADAM2 environment support (read-only)' CONFIG_AR7_ADAM2 ++fi ++ + source drivers/i2c/Config.in + + mainmenu_option next_comment +diff -urN linux.old/drivers/char/Config.in.orig linux.dev/drivers/char/Config.in.orig +--- linux.old/drivers/char/Config.in.orig 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/char/Config.in.orig 2005-11-10 01:10:45.863575750 +0100 +@@ -0,0 +1,414 @@ ++# ++# Character device configuration ++# ++mainmenu_option next_comment ++comment 'Character devices' ++ ++bool 'Virtual terminal' CONFIG_VT ++if [ "$CONFIG_VT" = "y" ]; then ++ bool ' Support for console on virtual terminal' CONFIG_VT_CONSOLE ++ if [ "$CONFIG_GSC_LASI" = "y" ]; then ++ bool ' Support for Lasi/Dino PS2 port' CONFIG_GSC_PS2 ++ fi ++fi ++tristate 'Standard/generic (8250/16550 and compatible UARTs) serial support' CONFIG_SERIAL ++if [ "$CONFIG_SERIAL" = "y" ]; then ++ bool ' Support for console on serial port' CONFIG_SERIAL_CONSOLE ++ if [ "$CONFIG_GSC_LASI" = "y" ]; then ++ bool ' serial port on GSC support' CONFIG_SERIAL_GSC ++ fi ++ if [ "$CONFIG_IA64" = "y" ]; then ++ bool ' Support for serial port described by EFI HCDP table' CONFIG_SERIAL_HCDP ++ fi ++ if [ "$CONFIG_ARCH_ACORN" = "y" ]; then ++ tristate ' Atomwide serial port support' CONFIG_ATOMWIDE_SERIAL ++ tristate ' Dual serial port support' CONFIG_DUALSP_SERIAL ++ fi ++fi ++dep_mbool 'Extended dumb serial driver options' CONFIG_SERIAL_EXTENDED $CONFIG_SERIAL ++if [ "$CONFIG_SERIAL_EXTENDED" = "y" ]; then ++ bool ' Support more than 4 serial ports' CONFIG_SERIAL_MANY_PORTS ++ bool ' Support for sharing serial interrupts' CONFIG_SERIAL_SHARE_IRQ ++ bool ' Autodetect IRQ on standard ports (unsafe)' CONFIG_SERIAL_DETECT_IRQ ++ bool ' Support special multiport boards' CONFIG_SERIAL_MULTIPORT ++ bool ' Support the Bell Technologies HUB6 card' CONFIG_HUB6 ++fi ++bool 'Non-standard serial port support' CONFIG_SERIAL_NONSTANDARD ++if [ "$CONFIG_SERIAL_NONSTANDARD" = "y" ]; then ++ tristate ' Computone IntelliPort Plus serial support' CONFIG_COMPUTONE ++ tristate ' Comtrol Rocketport support' CONFIG_ROCKETPORT ++ tristate ' Cyclades async mux support' CONFIG_CYCLADES ++ if [ "$CONFIG_EXPERIMENTAL" = "y" -a "$CONFIG_CYCLADES" != "n" ]; then ++ bool ' Cyclades-Z interrupt mode operation (EXPERIMENTAL)' CONFIG_CYZ_INTR ++ fi ++ if [ "$CONFIG_X86_64" != "y" ]; then ++ tristate ' Digiboard Intelligent Async Support' CONFIG_DIGIEPCA ++ if [ "$CONFIG_DIGIEPCA" = "n" ]; then ++ tristate ' Digiboard PC/Xx Support' CONFIG_DIGI ++ fi ++ fi ++ dep_tristate ' Hayes ESP serial port support' CONFIG_ESPSERIAL $CONFIG_ISA ++ tristate ' Moxa Intellio support' CONFIG_MOXA_INTELLIO ++ tristate ' Moxa SmartIO support' CONFIG_MOXA_SMARTIO ++ if [ "$CONFIG_EXPERIMENTAL" = "y" ]; then ++ dep_tristate ' Multi-Tech multiport card support (EXPERIMENTAL)' CONFIG_ISI m ++ fi ++ tristate ' Microgate SyncLink card support' CONFIG_SYNCLINK ++ tristate ' SyncLink Multiport support' CONFIG_SYNCLINKMP ++ tristate ' HDLC line discipline support' CONFIG_N_HDLC ++ tristate ' SDL RISCom/8 card support' CONFIG_RISCOM8 ++ if [ "$CONFIG_X86_64" != "y" ]; then ++ tristate ' Specialix IO8+ card support' CONFIG_SPECIALIX ++ if [ "$CONFIG_SPECIALIX" != "n" ]; then ++ bool ' Specialix DTR/RTS pin is RTS' CONFIG_SPECIALIX_RTSCTS ++ fi ++ tristate ' Specialix SX (and SI) card support' CONFIG_SX ++ tristate ' Specialix RIO system support' CONFIG_RIO ++ if [ "$CONFIG_RIO" != "n" ]; then ++ bool ' Support really old RIO/PCI cards' CONFIG_RIO_OLDPCI ++ fi ++ fi ++ bool ' Stallion multiport serial support' CONFIG_STALDRV ++ if [ "$CONFIG_STALDRV" = "y" ]; then ++ tristate ' Stallion EasyIO or EC8/32 support' CONFIG_STALLION ++ tristate ' Stallion EC8/64, ONboard, Brumby support' CONFIG_ISTALLION ++ fi ++ if [ "$CONFIG_PARISC" = "y" ]; then ++ if [ "$CONFIG_PDC_CONSOLE" != "y" ]; then ++ bool ' Serial MUX support' CONFIG_SERIAL_MUX CONFIG_SERIAL_NONSTANDARD ++ fi ++ if [ "$CONFIG_SERIAL_MUX" != "y" ]; then ++ bool ' PDC software console support' CONFIG_PDC_CONSOLE CONFIG_SERIAL_NONSTANDARD ++ fi ++ fi ++ if [ "$CONFIG_MIPS" = "y" ]; then ++ bool ' TX3912/PR31700 serial port support' CONFIG_SERIAL_TX3912 ++ dep_bool ' Console on TX3912/PR31700 serial port' CONFIG_SERIAL_TX3912_CONSOLE $CONFIG_SERIAL_TX3912 ++ bool ' TMPTX39XX/49XX serial port support' CONFIG_SERIAL_TXX9 ++ dep_bool ' Console on TMPTX39XX/49XX serial port' CONFIG_SERIAL_TXX9_CONSOLE $CONFIG_SERIAL_TXX9 ++ if [ "$CONFIG_SOC_AU1X00" = "y" ]; then ++ bool ' Enable Au1x00 UART Support' CONFIG_AU1X00_UART ++ if [ "$CONFIG_AU1X00_UART" = "y" ]; then ++ bool ' Enable Au1x00 serial console' CONFIG_AU1X00_SERIAL_CONSOLE ++ fi ++ dep_tristate ' Au1x00 USB TTY Device support' CONFIG_AU1X00_USB_TTY $CONFIG_SOC_AU1X00 ++ if [ "$CONFIG_AU1000_USB_TTY" != "y" ]; then ++ dep_tristate ' Au1x00 USB Raw Device support' CONFIG_AU1X00_USB_RAW $CONFIG_SOC_AU1X00 ++ fi ++ if [ "$CONFIG_AU1X00_USB_TTY" != "n" -o \ ++ "$CONFIG_AU1X00_USB_RAW" != "n" ]; then ++ define_bool CONFIG_AU1X00_USB_DEVICE y ++ fi ++ fi ++ bool ' TXx927 SIO support' CONFIG_TXX927_SERIAL ++ if [ "$CONFIG_TXX927_SERIAL" = "y" ]; then ++ bool ' TXx927 SIO Console support' CONFIG_TXX927_SERIAL_CONSOLE ++ fi ++ if [ "$CONFIG_SIBYTE_SB1xxx_SOC" = "y" ]; then ++ bool ' Support for BCM1xxx onchip DUART' CONFIG_SIBYTE_SB1250_DUART ++ if [ "$CONFIG_SIBYTE_SB1250_DUART" = "y" ]; then ++ bool ' Console on BCM1xxx DUART' CONFIG_SIBYTE_SB1250_DUART_CONSOLE ++ if [ "$CONFIG_SIBYTE_SB1250_DUART_CONSOLE" = "y" ]; then ++ define_bool CONFIG_SERIAL_CONSOLE y ++ fi ++ fi ++ fi ++ fi ++ if [ "$CONFIG_DECSTATION" = "y" ]; then ++ bool ' DECstation serial support' CONFIG_SERIAL_DEC ++ dep_bool ' Support for console on a DECstation serial port' CONFIG_SERIAL_DEC_CONSOLE $CONFIG_SERIAL_DEC ++ dep_bool ' DZ11 serial support' CONFIG_DZ $CONFIG_SERIAL_DEC $CONFIG_MIPS32 ++ dep_bool ' Z85C30 serial support' CONFIG_ZS $CONFIG_SERIAL_DEC $CONFIG_TC ++ fi ++ if [ "$CONFIG_SGI_IP22" = "y" ]; then ++ bool ' SGI Zilog85C30 serial support' CONFIG_IP22_SERIAL ++ fi ++ if [ "$CONFIG_IA64" = "y" ]; then ++ bool ' SGI SN2 l1 serial port support' CONFIG_SGI_L1_SERIAL ++ if [ "$CONFIG_SGI_L1_SERIAL" = "y" ]; then ++ bool ' SGI SN2 l1 Console support' CONFIG_SGI_L1_SERIAL_CONSOLE ++ fi ++ if [ "$CONFIG_IA64_GENERIC" = "y" -o "$CONFIG_IA64_SGI_SN2" = "y" ]; then ++ bool ' SGI SN2 IOC4 serial port support' CONFIG_SGI_IOC4_SERIAL ++ fi ++ fi ++fi ++if [ "$CONFIG_EXPERIMENTAL" = "y" -a "$CONFIG_ZORRO" = "y" ]; then ++ tristate 'Commodore A2232 serial support (EXPERIMENTAL)' CONFIG_A2232 ++fi ++if [ "$CONFIG_FOOTBRIDGE" = "y" ]; then ++ bool 'DC21285 serial port support' CONFIG_SERIAL_21285 ++ if [ "$CONFIG_SERIAL_21285" = "y" ]; then ++ if [ "$CONFIG_OBSOLETE" = "y" ]; then ++ bool ' Use /dev/ttyS0 device (OBSOLETE)' CONFIG_SERIAL_21285_OLD ++ fi ++ bool ' Console on DC21285 serial port' CONFIG_SERIAL_21285_CONSOLE ++ fi ++ if [ "$CONFIG_PARISC" = "y" ]; then ++ bool ' PDC software console support' CONFIG_PDC_CONSOLE ++ fi ++fi ++if [ "$CONFIG_MIPS_ITE8172" = "y" ]; then ++ bool 'Enable Qtronix 990P Keyboard Support' CONFIG_QTRONIX_KEYBOARD ++ if [ "$CONFIG_QTRONIX_KEYBOARD" = "y" ]; then ++ define_bool CONFIG_IT8172_CIR y ++ else ++ bool ' Enable PS2 Keyboard Support' CONFIG_PC_KEYB ++ fi ++ bool 'Enable Smart Card Reader 0 Support ' CONFIG_IT8172_SCR0 ++ bool 'Enable Smart Card Reader 1 Support ' CONFIG_IT8172_SCR1 ++fi ++if [ "$CONFIG_MIPS_IVR" = "y" ]; then ++ bool 'Enable Qtronix 990P Keyboard Support' CONFIG_QTRONIX_KEYBOARD ++ if [ "$CONFIG_QTRONIX_KEYBOARD" = "y" ]; then ++ define_bool CONFIG_IT8172_CIR y ++ fi ++ bool 'Enable Smart Card Reader 0 Support ' CONFIG_IT8172_SCR0 ++fi ++if [ "$CONFIG_CPU_VR41XX" = "y" ]; then ++ bool 'NEC VR4100 series Keyboard Interface Unit Support ' CONFIG_VR41XX_KIU ++fi ++bool 'Unix98 PTY support' CONFIG_UNIX98_PTYS ++if [ "$CONFIG_UNIX98_PTYS" = "y" ]; then ++ int 'Maximum number of Unix98 PTYs in use (0-2048)' CONFIG_UNIX98_PTY_COUNT 256 ++fi ++if [ "$CONFIG_PARPORT" != "n" ]; then ++ dep_tristate 'Parallel printer support' CONFIG_PRINTER $CONFIG_PARPORT ++ if [ "$CONFIG_PRINTER" != "n" ]; then ++ bool ' Support for console on line printer' CONFIG_LP_CONSOLE ++ fi ++ dep_tristate 'Support for user-space parallel port device drivers' CONFIG_PPDEV $CONFIG_PARPORT ++ dep_tristate 'Texas Instruments parallel link cable support' CONFIG_TIPAR $CONFIG_PARPORT ++fi ++ ++if [ "$CONFIG_PPC64" = "y" ] ; then ++ bool 'pSeries Hypervisor Virtual Console support' CONFIG_HVC_CONSOLE ++fi ++if [ "$CONFIG_ALL_PPC" = "y" ]; then ++ tristate 'Total Impact briQ front panel driver' CONFIG_BRIQ_PANEL ++fi ++ ++if [ "$CONFIG_AR7" = "y" ]; then ++ bool 'VLYNQ support for the TI SOC' CONFIG_AR7_VLYNQ ++ dep_bool 'VLYNQ clock source Internal' CONFIG_VLYNQ_CLK_LOCAL $CONFIG_AR7_VLYNQ ++ ++ define_int CONFIG_AR7_VLYNQ_PORTS 2 ++fi ++ ++source drivers/i2c/Config.in ++ ++mainmenu_option next_comment ++comment 'Mice' ++tristate 'Bus Mouse Support' CONFIG_BUSMOUSE ++if [ "$CONFIG_BUSMOUSE" != "n" ]; then ++ dep_tristate ' ATIXL busmouse support' CONFIG_ATIXL_BUSMOUSE $CONFIG_BUSMOUSE ++ dep_tristate ' Logitech busmouse support' CONFIG_LOGIBUSMOUSE $CONFIG_BUSMOUSE ++ dep_tristate ' Microsoft busmouse support' CONFIG_MS_BUSMOUSE $CONFIG_BUSMOUSE ++ if [ "$CONFIG_ADB" = "y" -a "$CONFIG_ADB_KEYBOARD" = "y" ]; then ++ dep_tristate ' Apple Desktop Bus mouse support (old driver)' CONFIG_ADBMOUSE $CONFIG_BUSMOUSE ++ fi ++# if [ "$CONFIG_DECSTATION" = "y" ]; then ++# dep_bool ' MAXINE Access.Bus mouse (VSXXX-BB/GB) support' CONFIG_DTOP_MOUSE $CONFIG_ACCESSBUS ++# fi ++fi ++ ++tristate 'Mouse Support (not serial and bus mice)' CONFIG_MOUSE ++if [ "$CONFIG_MOUSE" != "n" ]; then ++ bool ' PS/2 mouse (aka "auxiliary device") support' CONFIG_PSMOUSE ++ tristate ' C&T 82C710 mouse port support (as on TI Travelmate)' CONFIG_82C710_MOUSE ++ tristate ' PC110 digitizer pad support' CONFIG_PC110_PAD ++ tristate ' MK712 touch screen support' CONFIG_MK712_MOUSE ++fi ++endmenu ++ ++source drivers/char/joystick/Config.in ++ ++tristate 'QIC-02 tape support' CONFIG_QIC02_TAPE ++if [ "$CONFIG_QIC02_TAPE" != "n" ]; then ++ bool ' Do you want runtime configuration for QIC-02' CONFIG_QIC02_DYNCONF ++ if [ "$CONFIG_QIC02_DYNCONF" != "y" ]; then ++ comment ' Edit configuration parameters in ./include/linux/tpqic02.h!' ++ else ++ comment ' Setting runtime QIC-02 configuration is done with qic02conf' ++ comment ' from the tpqic02-support package. It is available at' ++ comment ' metalab.unc.edu or ftp://titus.cfw.com/pub/Linux/util/' ++ fi ++fi ++ ++tristate 'IPMI top-level message handler' CONFIG_IPMI_HANDLER ++dep_mbool ' Generate a panic event to all BMCs on a panic' CONFIG_IPMI_PANIC_EVENT $CONFIG_IPMI_HANDLER ++dep_tristate ' Device interface for IPMI' CONFIG_IPMI_DEVICE_INTERFACE $CONFIG_IPMI_HANDLER ++dep_tristate ' IPMI KCS handler' CONFIG_IPMI_KCS $CONFIG_IPMI_HANDLER ++dep_tristate ' IPMI Watchdog Timer' CONFIG_IPMI_WATCHDOG $CONFIG_IPMI_HANDLER ++ ++mainmenu_option next_comment ++comment 'Watchdog Cards' ++bool 'Watchdog Timer Support' CONFIG_WATCHDOG ++if [ "$CONFIG_WATCHDOG" != "n" ]; then ++ bool ' Disable watchdog shutdown on close' CONFIG_WATCHDOG_NOWAYOUT ++ tristate ' Acquire SBC Watchdog Timer' CONFIG_ACQUIRE_WDT ++ tristate ' Advantech SBC Watchdog Timer' CONFIG_ADVANTECH_WDT ++ tristate ' ALi M7101 PMU on ALi 1535D+ Watchdog Timer' CONFIG_ALIM1535_WDT ++ tristate ' ALi M7101 PMU Watchdog Timer' CONFIG_ALIM7101_WDT ++ tristate ' AMD "Elan" SC520 Watchdog Timer' CONFIG_SC520_WDT ++ tristate ' Berkshire Products PC Watchdog' CONFIG_PCWATCHDOG ++ if [ "$CONFIG_FOOTBRIDGE" = "y" ]; then ++ tristate ' DC21285 watchdog' CONFIG_21285_WATCHDOG ++ if [ "$CONFIG_ARCH_NETWINDER" = "y" ]; then ++ tristate ' NetWinder WB83C977 watchdog' CONFIG_977_WATCHDOG ++ fi ++ fi ++ tristate ' Eurotech CPU-1220/1410 Watchdog Timer' CONFIG_EUROTECH_WDT ++ tristate ' IB700 SBC Watchdog Timer' CONFIG_IB700_WDT ++ tristate ' ICP ELectronics Wafer 5823 Watchdog' CONFIG_WAFER_WDT ++ tristate ' Intel i810 TCO timer / Watchdog' CONFIG_I810_TCO ++ tristate ' Mixcom Watchdog' CONFIG_MIXCOMWD ++ tristate ' SBC-60XX Watchdog Timer' CONFIG_60XX_WDT ++ dep_tristate ' SC1200 Watchdog Timer (EXPERIMENTAL)' CONFIG_SC1200_WDT $CONFIG_EXPERIMENTAL ++ tristate ' NatSemi SCx200 Watchdog' CONFIG_SCx200_WDT ++ tristate ' Software Watchdog' CONFIG_SOFT_WATCHDOG ++ tristate ' W83877F (EMACS) Watchdog Timer' CONFIG_W83877F_WDT ++ tristate ' WDT Watchdog timer' CONFIG_WDT ++ tristate ' WDT PCI Watchdog timer' CONFIG_WDTPCI ++ if [ "$CONFIG_WDT" != "n" ]; then ++ bool ' WDT501 features' CONFIG_WDT_501 ++ if [ "$CONFIG_WDT_501" = "y" ]; then ++ bool ' Fan Tachometer' CONFIG_WDT_501_FAN ++ fi ++ fi ++ tristate ' ZF MachZ Watchdog' CONFIG_MACHZ_WDT ++ if [ "$CONFIG_SGI_IP22" = "y" ]; then ++ dep_tristate ' Indy/I2 Hardware Watchdog' CONFIG_INDYDOG $CONFIG_SGI_IP22 ++ fi ++ if [ "$CONFIG_8xx" = "y" ]; then ++ tristate ' MPC8xx Watchdog Timer' CONFIG_8xx_WDT ++ fi ++fi ++endmenu ++ ++if [ "$CONFIG_ARCH_NETWINDER" = "y" ]; then ++ tristate 'NetWinder thermometer support' CONFIG_DS1620 ++ tristate 'NetWinder Button' CONFIG_NWBUTTON ++ if [ "$CONFIG_NWBUTTON" != "n" ]; then ++ bool ' Reboot Using Button' CONFIG_NWBUTTON_REBOOT ++ fi ++ tristate 'NetWinder flash support' CONFIG_NWFLASH ++fi ++tristate 'NatSemi SCx200 Support' CONFIG_SCx200 ++dep_tristate ' NatSemi SCx200 GPIO Support' CONFIG_SCx200_GPIO $CONFIG_SCx200 ++ ++if [ "$CONFIG_IA64_GENERIC" = "y" -o "$CONFIG_IA64_SGI_SN2" = "y" ] ; then ++ bool 'SGI SN2 fetchop support' CONFIG_FETCHOP ++fi ++ ++if [ "$CONFIG_X86" = "y" -o "$CONFIG_X86_64" = "y" ]; then ++ dep_tristate 'AMD 768/8111 Random Number Generator support' CONFIG_AMD_RNG $CONFIG_PCI ++fi ++if [ "$CONFIG_X86" = "y" -o "$CONFIG_IA64" = "y" ]; then ++ dep_tristate 'Intel i8x0 Random Number Generator support' CONFIG_INTEL_RNG $CONFIG_PCI ++fi ++if [ "$CONFIG_X86" = "y" -o "$CONFIG_IA64" = "y" -o \ ++ "$CONFIG_X86_64" = "y" ]; then ++ dep_tristate 'Intel/AMD/VIA HW Random Number Generator support' CONFIG_HW_RANDOM $CONFIG_PCI ++fi ++dep_tristate 'AMD 76x native power management (Experimental)' CONFIG_AMD_PM768 $CONFIG_PCI ++tristate '/dev/nvram support' CONFIG_NVRAM ++tristate 'Enhanced Real Time Clock Support' CONFIG_RTC ++if [ "$CONFIG_IA64" = "y" ]; then ++ bool 'EFI Real Time Clock Services' CONFIG_EFI_RTC ++fi ++if [ "$CONFIG_OBSOLETE" = "y" -a "$CONFIG_ALPHA_BOOK1" = "y" ]; then ++ bool 'Tadpole ANA H8 Support (OBSOLETE)' CONFIG_H8 ++fi ++if [ "$CONFIG_SGI_IP22" = "y" ]; then ++ tristate 'Dallas DS1286 RTC support' CONFIG_DS1286 ++fi ++if [ "$CONFIG_SGI_IP27" = "y" ]; then ++ tristate 'SGI M48T35 RTC support' CONFIG_SGI_IP27_RTC ++fi ++if [ "$CONFIG_TOSHIBA_RBTX4927" = "y" -o "$CONFIG_TOSHIBA_JMR3927" = "y" ]; then ++ tristate 'Dallas DS1742 RTC support' CONFIG_DS1742 ++fi ++ ++tristate 'Double Talk PC internal speech card support' CONFIG_DTLK ++tristate 'Siemens R3964 line discipline' CONFIG_R3964 ++tristate 'Applicom intelligent fieldbus card support' CONFIG_APPLICOM ++if [ "$CONFIG_EXPERIMENTAL" = "y" -a "$CONFIG_X86" = "y" -a "$CONFIG_X86_64" != "y" ]; then ++ dep_tristate 'Sony Vaio Programmable I/O Control Device support (EXPERIMENTAL)' CONFIG_SONYPI $CONFIG_PCI ++fi ++ ++mainmenu_option next_comment ++comment 'Ftape, the floppy tape device driver' ++tristate 'Ftape (QIC-80/Travan) support' CONFIG_FTAPE ++if [ "$CONFIG_FTAPE" != "n" ]; then ++ source drivers/char/ftape/Config.in ++fi ++ ++endmenu ++ ++if [ "$CONFIG_GART_IOMMU" = "y" ]; then ++ bool '/dev/agpgart (AGP Support)' CONFIG_AGP ++ define_bool CONFIG_AGP_AMD_K8 y ++else ++ tristate '/dev/agpgart (AGP Support)' CONFIG_AGP ++fi ++if [ "$CONFIG_AGP" != "n" ]; then ++ bool ' Intel 440LX/BX/GX and I815/I820/I830M/I830MP/I840/I845/I850/I860 support' CONFIG_AGP_INTEL ++ bool ' Intel I810/I815/I830M (on-board) support' CONFIG_AGP_I810 ++ bool ' VIA chipset support' CONFIG_AGP_VIA ++ bool ' AMD Irongate, 761, and 762 support' CONFIG_AGP_AMD ++ if [ "$CONFIG_GART_IOMMU" != "y" ]; then ++ bool ' AMD Opteron/Athlon64 on-CPU GART support' CONFIG_AGP_AMD_K8 ++ fi ++ bool ' Generic SiS support' CONFIG_AGP_SIS ++ bool ' ALI chipset support' CONFIG_AGP_ALI ++ bool ' Serverworks LE/HE support' CONFIG_AGP_SWORKS ++ if [ "$CONFIG_X86" = "y" ]; then ++ bool ' NVIDIA chipset support' CONFIG_AGP_NVIDIA ++ fi ++ if [ "$CONFIG_IA64" = "y" ]; then ++ bool ' Intel 460GX support' CONFIG_AGP_I460 ++ bool ' HP ZX1 AGP support' CONFIG_AGP_HP_ZX1 ++ fi ++ bool ' ATI IGP chipset support' CONFIG_AGP_ATI ++fi ++ ++mainmenu_option next_comment ++comment 'Direct Rendering Manager (XFree86 DRI support)' ++bool 'Direct Rendering Manager (XFree86 DRI support)' CONFIG_DRM ++if [ "$CONFIG_DRM" = "y" ]; then ++ bool ' Build drivers for old (XFree 4.0) DRM' CONFIG_DRM_OLD ++ if [ "$CONFIG_DRM_OLD" = "y" ]; then ++ comment 'DRM 4.0 drivers' ++ source drivers/char/drm-4.0/Config.in ++ else ++ comment 'DRM 4.1 drivers' ++ define_bool CONFIG_DRM_NEW y ++ source drivers/char/drm/Config.in ++ fi ++fi ++ ++if [ "$CONFIG_X86" = "y" ]; then ++ tristate 'ACP Modem (Mwave) support' CONFIG_MWAVE ++fi ++ ++endmenu ++ ++if [ "$CONFIG_HOTPLUG" = "y" -a "$CONFIG_PCMCIA" != "n" ]; then ++ source drivers/char/pcmcia/Config.in ++fi ++if [ "$CONFIG_SOC_AU1X00" = "y" ]; then ++ tristate ' Alchemy Au1x00 GPIO device support' CONFIG_AU1X00_GPIO ++ tristate ' Au1000/ADS7846 touchscreen support' CONFIG_TS_AU1X00_ADS7846 ++ #tristate ' Alchemy Au1550 PSC SPI support' CONFIG_AU1550_PSC_SPI ++fi ++if [ "$CONFIG_MIPS_ITE8172" = "y" ]; then ++ tristate ' ITE GPIO' CONFIG_ITE_GPIO ++fi ++ ++if [ "$CONFIG_X86" = "y" ]; then ++ tristate 'ACP Modem (Mwave) support' CONFIG_MWAVE ++ dep_tristate 'HP OB600 C/CT Pop-up mouse support' CONFIG_OBMOUSE $CONFIG_INPUT_MOUSEDEV ++fi ++ ++endmenu +diff -urN linux.old/drivers/char/Makefile linux.dev/drivers/char/Makefile +--- linux.old/drivers/char/Makefile 2005-10-21 16:43:16.460960500 +0200 ++++ linux.dev/drivers/char/Makefile 2005-11-10 01:10:45.871576250 +0100 +@@ -240,6 +240,13 @@ + obj-y += joystick/js.o + endif + ++# ++# Texas Intruments VLYNQ driver ++# ++ ++subdir-$(CONFIG_AR7_VLYNQ) += avalanche_vlynq ++obj-$(CONFIG_AR7_VLYNQ) += avalanche_vlynq/avalanche_vlynq.o ++ + obj-$(CONFIG_FETCHOP) += fetchop.o + obj-$(CONFIG_BUSMOUSE) += busmouse.o + obj-$(CONFIG_DTLK) += dtlk.o +@@ -340,6 +347,11 @@ + obj-y += ipmi/ipmi.o + endif + ++subdir-$(CONFIG_AR7_ADAM2) += ticfg ++ifeq ($(CONFIG_AR7_ADAM2),y) ++ obj-y += ticfg/ticfg.o ++endif ++ + include $(TOPDIR)/Rules.make + + fastdep: +diff -urN linux.old/drivers/char/Makefile.orig linux.dev/drivers/char/Makefile.orig +--- linux.old/drivers/char/Makefile.orig 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/char/Makefile.orig 2005-11-10 01:10:45.871576250 +0100 +@@ -0,0 +1,374 @@ ++# ++# Makefile for the kernel character device drivers. ++# ++# Note! Dependencies are done automagically by 'make dep', which also ++# removes any old dependencies. DON'T put your own dependencies here ++# unless it's something special (ie not a .c file). ++# ++# Note 2! The CFLAGS definitions are now inherited from the ++# parent makes.. ++# ++ ++# ++# This file contains the font map for the default (hardware) font ++# ++FONTMAPFILE = cp437.uni ++ ++O_TARGET := char.o ++ ++obj-y += mem.o tty_io.o n_tty.o tty_ioctl.o raw.o pty.o misc.o random.o ++ ++# All of the (potential) objects that export symbols. ++# This list comes from 'grep -l EXPORT_SYMBOL *.[hc]'. ++ ++export-objs := busmouse.o console.o keyboard.o sysrq.o \ ++ misc.o pty.o random.o selection.o serial.o \ ++ sonypi.o tty_io.o tty_ioctl.o generic_serial.o \ ++ au1000_gpio.o vac-serial.o hp_psaux.o nvram.o \ ++ scx200.o fetchop.o ++ ++mod-subdirs := joystick ftape drm drm-4.0 pcmcia ++ ++list-multi := ++ ++KEYMAP =defkeymap.o ++KEYBD =pc_keyb.o ++CONSOLE =console.o ++SERIAL =serial.o ++ ++ifeq ($(ARCH),s390) ++ KEYMAP = ++ KEYBD = ++ CONSOLE = ++ SERIAL = ++endif ++ ++ifeq ($(ARCH),mips) ++ ifneq ($(CONFIG_PC_KEYB),y) ++ KEYBD = ++ endif ++ ifeq ($(CONFIG_VR41XX_KIU),y) ++ ifeq ($(CONFIG_IBM_WORKPAD),y) ++ KEYMAP = ibm_workpad_keymap.o ++ endif ++ ifeq ($(CONFIG_VICTOR_MPC30X),y) ++ KEYMAP = victor_mpc30x_keymap.o ++ endif ++ KEYBD = vr41xx_keyb.o ++ endif ++endif ++ ++ifeq ($(ARCH),s390x) ++ KEYMAP = ++ KEYBD = ++ CONSOLE = ++ SERIAL = ++endif ++ ++ifeq ($(ARCH),m68k) ++ ifdef CONFIG_AMIGA ++ KEYBD = amikeyb.o ++ else ++ ifndef CONFIG_MAC ++ KEYBD = ++ endif ++ endif ++ SERIAL = ++endif ++ ++ifeq ($(ARCH),parisc) ++ ifdef CONFIG_GSC_PS2 ++ KEYBD = hp_psaux.o hp_keyb.o ++ else ++ KEYBD = ++ endif ++ ifdef CONFIG_SERIAL_MUX ++ CONSOLE += mux.o ++ endif ++ ifdef CONFIG_PDC_CONSOLE ++ CONSOLE += pdc_console.o ++ endif ++endif ++ ++ifdef CONFIG_Q40 ++ KEYBD += q40_keyb.o ++ SERIAL = serial.o ++endif ++ ++ifdef CONFIG_APOLLO ++ KEYBD += dn_keyb.o ++endif ++ ++ifeq ($(ARCH),parisc) ++ ifdef CONFIG_GSC_PS2 ++ KEYBD = hp_psaux.o hp_keyb.o ++ else ++ KEYBD = ++ endif ++ ifdef CONFIG_PDC_CONSOLE ++ CONSOLE += pdc_console.o ++ endif ++endif ++ ++ifeq ($(ARCH),arm) ++ ifneq ($(CONFIG_PC_KEYMAP),y) ++ KEYMAP = ++ endif ++ ifneq ($(CONFIG_PC_KEYB),y) ++ KEYBD = ++ endif ++endif ++ ++ifeq ($(ARCH),sh) ++ KEYMAP = ++ KEYBD = ++ CONSOLE = ++ ifeq ($(CONFIG_SH_HP600),y) ++ KEYMAP = defkeymap.o ++ KEYBD = scan_keyb.o hp600_keyb.o ++ CONSOLE = console.o ++ endif ++ ifeq ($(CONFIG_SH_DMIDA),y) ++ # DMIDA does not connect the HD64465 PS/2 keyboard port ++ # but we allow for USB keyboards to be plugged in. ++ KEYMAP = defkeymap.o ++ KEYBD = # hd64465_keyb.o pc_keyb.o ++ CONSOLE = console.o ++ endif ++ ifeq ($(CONFIG_SH_EC3104),y) ++ KEYMAP = defkeymap.o ++ KEYBD = ec3104_keyb.o ++ CONSOLE = console.o ++ endif ++ ifeq ($(CONFIG_SH_DREAMCAST),y) ++ KEYMAP = defkeymap.o ++ KEYBD = ++ CONSOLE = console.o ++ endif ++endif ++ ++ifeq ($(CONFIG_DECSTATION),y) ++ KEYMAP = ++ KEYBD = ++endif ++ ++ifeq ($(CONFIG_BAGET_MIPS),y) ++ KEYBD = ++ SERIAL = vac-serial.o ++endif ++ ++ifeq ($(CONFIG_NINO),y) ++ SERIAL = ++endif ++ ++ifneq ($(CONFIG_SUN_SERIAL),) ++ SERIAL = ++endif ++ ++ifeq ($(CONFIG_QTRONIX_KEYBOARD),y) ++ KEYBD = qtronix.o ++ KEYMAP = qtronixmap.o ++endif ++ ++ifeq ($(CONFIG_DUMMY_KEYB),y) ++ KEYBD = dummy_keyb.o ++endif ++ ++obj-$(CONFIG_VT) += vt.o vc_screen.o consolemap.o consolemap_deftbl.o $(CONSOLE) selection.o ++obj-$(CONFIG_SERIAL) += $(SERIAL) ++obj-$(CONFIG_PARPORT_SERIAL) += parport_serial.o ++obj-$(CONFIG_SERIAL_HCDP) += hcdp_serial.o ++obj-$(CONFIG_SERIAL_21285) += serial_21285.o ++obj-$(CONFIG_SERIAL_SA1100) += serial_sa1100.o ++obj-$(CONFIG_SERIAL_AMBA) += serial_amba.o ++obj-$(CONFIG_TS_AU1X00_ADS7846) += au1000_ts.o ++obj-$(CONFIG_SERIAL_DEC) += decserial.o ++ ++ifndef CONFIG_SUN_KEYBOARD ++ obj-$(CONFIG_VT) += keyboard.o $(KEYMAP) $(KEYBD) ++else ++ obj-$(CONFIG_PCI) += keyboard.o $(KEYMAP) ++endif ++ ++obj-$(CONFIG_HIL) += hp_keyb.o ++obj-$(CONFIG_MAGIC_SYSRQ) += sysrq.o ++obj-$(CONFIG_ATARI_DSP56K) += dsp56k.o ++obj-$(CONFIG_ROCKETPORT) += rocket.o ++obj-$(CONFIG_MOXA_SMARTIO) += mxser.o ++obj-$(CONFIG_MOXA_INTELLIO) += moxa.o ++obj-$(CONFIG_DIGI) += pcxx.o ++obj-$(CONFIG_DIGIEPCA) += epca.o ++obj-$(CONFIG_CYCLADES) += cyclades.o ++obj-$(CONFIG_STALLION) += stallion.o ++obj-$(CONFIG_ISTALLION) += istallion.o ++obj-$(CONFIG_SIBYTE_SB1250_DUART) += sb1250_duart.o ++obj-$(CONFIG_COMPUTONE) += ip2.o ip2main.o ++obj-$(CONFIG_RISCOM8) += riscom8.o ++obj-$(CONFIG_ISI) += isicom.o ++obj-$(CONFIG_ESPSERIAL) += esp.o ++obj-$(CONFIG_SYNCLINK) += synclink.o ++obj-$(CONFIG_SYNCLINKMP) += synclinkmp.o ++obj-$(CONFIG_N_HDLC) += n_hdlc.o ++obj-$(CONFIG_SPECIALIX) += specialix.o ++obj-$(CONFIG_AMIGA_BUILTIN_SERIAL) += amiserial.o ++obj-$(CONFIG_A2232) += ser_a2232.o generic_serial.o ++obj-$(CONFIG_SX) += sx.o generic_serial.o ++obj-$(CONFIG_RIO) += rio/rio.o generic_serial.o ++obj-$(CONFIG_SH_SCI) += sh-sci.o generic_serial.o ++obj-$(CONFIG_SERIAL167) += serial167.o ++obj-$(CONFIG_MVME147_SCC) += generic_serial.o vme_scc.o ++obj-$(CONFIG_MVME162_SCC) += generic_serial.o vme_scc.o ++obj-$(CONFIG_BVME6000_SCC) += generic_serial.o vme_scc.o ++obj-$(CONFIG_HVC_CONSOLE) += hvc_console.o ++obj-$(CONFIG_SERIAL_TX3912) += generic_serial.o serial_tx3912.o ++obj-$(CONFIG_TXX927_SERIAL) += serial_txx927.o ++obj-$(CONFIG_SERIAL_TXX9) += generic_serial.o serial_txx9.o ++obj-$(CONFIG_IP22_SERIAL) += sgiserial.o ++obj-$(CONFIG_AU1X00_UART) += au1x00-serial.o ++obj-$(CONFIG_SGI_L1_SERIAL) += sn_serial.o ++ ++subdir-$(CONFIG_RIO) += rio ++subdir-$(CONFIG_INPUT) += joystick ++ ++obj-$(CONFIG_ATIXL_BUSMOUSE) += atixlmouse.o ++obj-$(CONFIG_LOGIBUSMOUSE) += logibusmouse.o ++obj-$(CONFIG_PRINTER) += lp.o ++obj-$(CONFIG_TIPAR) += tipar.o ++obj-$(CONFIG_OBMOUSE) += obmouse.o ++ ++ifeq ($(CONFIG_INPUT),y) ++obj-y += joystick/js.o ++endif ++ ++# ++# Texas Intruments VLYNQ driver ++# ++ ++subdir-$(CONFIG_AR7_VLYNQ) += avalanche_vlynq ++obj-$(CONFIG_AR7_VLYNQ) += avalanche_vlynq/avalanche_vlynq.o ++ ++obj-$(CONFIG_FETCHOP) += fetchop.o ++obj-$(CONFIG_BUSMOUSE) += busmouse.o ++obj-$(CONFIG_DTLK) += dtlk.o ++obj-$(CONFIG_R3964) += n_r3964.o ++obj-$(CONFIG_APPLICOM) += applicom.o ++obj-$(CONFIG_SONYPI) += sonypi.o ++obj-$(CONFIG_MS_BUSMOUSE) += msbusmouse.o ++obj-$(CONFIG_82C710_MOUSE) += qpmouse.o ++obj-$(CONFIG_AMIGAMOUSE) += amigamouse.o ++obj-$(CONFIG_ATARIMOUSE) += atarimouse.o ++obj-$(CONFIG_ADBMOUSE) += adbmouse.o ++obj-$(CONFIG_PC110_PAD) += pc110pad.o ++obj-$(CONFIG_MK712_MOUSE) += mk712.o ++obj-$(CONFIG_RTC) += rtc.o ++obj-$(CONFIG_GEN_RTC) += genrtc.o ++obj-$(CONFIG_EFI_RTC) += efirtc.o ++obj-$(CONFIG_MIPS_RTC) += mips_rtc.o ++obj-$(CONFIG_SGI_IP27_RTC) += ip27-rtc.o ++ifeq ($(CONFIG_PPC),) ++ obj-$(CONFIG_NVRAM) += nvram.o ++endif ++obj-$(CONFIG_TOSHIBA) += toshiba.o ++obj-$(CONFIG_I8K) += i8k.o ++obj-$(CONFIG_DS1286) += ds1286.o ++obj-$(CONFIG_DS1620) += ds1620.o ++obj-$(CONFIG_DS1742) += ds1742.o ++obj-$(CONFIG_INTEL_RNG) += i810_rng.o ++obj-$(CONFIG_AMD_RNG) += amd768_rng.o ++obj-$(CONFIG_HW_RANDOM) += hw_random.o ++obj-$(CONFIG_AMD_PM768) += amd76x_pm.o ++obj-$(CONFIG_BRIQ_PANEL) += briq_panel.o ++ ++obj-$(CONFIG_ITE_GPIO) += ite_gpio.o ++obj-$(CONFIG_AU1X00_GPIO) += au1000_gpio.o ++obj-$(CONFIG_AU1550_PSC_SPI) += au1550_psc_spi.o ++obj-$(CONFIG_AU1X00_USB_TTY) += au1000_usbtty.o ++obj-$(CONFIG_AU1X00_USB_RAW) += au1000_usbraw.o ++obj-$(CONFIG_COBALT_LCD) += lcd.o ++ ++obj-$(CONFIG_QIC02_TAPE) += tpqic02.o ++ ++subdir-$(CONFIG_FTAPE) += ftape ++subdir-$(CONFIG_DRM_OLD) += drm-4.0 ++subdir-$(CONFIG_DRM_NEW) += drm ++subdir-$(CONFIG_PCMCIA) += pcmcia ++subdir-$(CONFIG_AGP) += agp ++ ++ifeq ($(CONFIG_FTAPE),y) ++obj-y += ftape/ftape.o ++endif ++ ++obj-$(CONFIG_H8) += h8.o ++obj-$(CONFIG_PPDEV) += ppdev.o ++obj-$(CONFIG_DZ) += dz.o ++obj-$(CONFIG_NWBUTTON) += nwbutton.o ++obj-$(CONFIG_NWFLASH) += nwflash.o ++obj-$(CONFIG_SCx200) += scx200.o ++obj-$(CONFIG_SCx200_GPIO) += scx200_gpio.o ++ ++# Only one watchdog can succeed. We probe the hardware watchdog ++# drivers first, then the softdog driver. This means if your hardware ++# watchdog dies or is 'borrowed' for some reason the software watchdog ++# still gives you some cover. ++ ++obj-$(CONFIG_PCWATCHDOG) += pcwd.o ++obj-$(CONFIG_ACQUIRE_WDT) += acquirewdt.o ++obj-$(CONFIG_ADVANTECH_WDT) += advantechwdt.o ++obj-$(CONFIG_IB700_WDT) += ib700wdt.o ++obj-$(CONFIG_MIXCOMWD) += mixcomwd.o ++obj-$(CONFIG_60XX_WDT) += sbc60xxwdt.o ++obj-$(CONFIG_W83877F_WDT) += w83877f_wdt.o ++obj-$(CONFIG_SC520_WDT) += sc520_wdt.o ++obj-$(CONFIG_WDT) += wdt.o ++obj-$(CONFIG_WDTPCI) += wdt_pci.o ++obj-$(CONFIG_21285_WATCHDOG) += wdt285.o ++obj-$(CONFIG_977_WATCHDOG) += wdt977.o ++obj-$(CONFIG_I810_TCO) += i810-tco.o ++obj-$(CONFIG_MACHZ_WDT) += machzwd.o ++obj-$(CONFIG_SH_WDT) += shwdt.o ++obj-$(CONFIG_EUROTECH_WDT) += eurotechwdt.o ++obj-$(CONFIG_ALIM7101_WDT) += alim7101_wdt.o ++obj-$(CONFIG_ALIM1535_WDT) += alim1535d_wdt.o ++obj-$(CONFIG_INDYDOG) += indydog.o ++obj-$(CONFIG_SC1200_WDT) += sc1200wdt.o ++obj-$(CONFIG_SCx200_WDT) += scx200_wdt.o ++obj-$(CONFIG_WAFER_WDT) += wafer5823wdt.o ++obj-$(CONFIG_SOFT_WATCHDOG) += softdog.o ++obj-$(CONFIG_INDYDOG) += indydog.o ++obj-$(CONFIG_8xx_WDT) += mpc8xx_wdt.o ++ ++subdir-$(CONFIG_MWAVE) += mwave ++ifeq ($(CONFIG_MWAVE),y) ++ obj-y += mwave/mwave.o ++endif ++ ++subdir-$(CONFIG_IPMI_HANDLER) += ipmi ++ifeq ($(CONFIG_IPMI_HANDLER),y) ++ obj-y += ipmi/ipmi.o ++endif ++ ++include $(TOPDIR)/Rules.make ++ ++fastdep: ++ ++conmakehash: conmakehash.c ++ $(HOSTCC) $(HOSTCFLAGS) -o conmakehash conmakehash.c ++ ++consolemap_deftbl.c: $(FONTMAPFILE) conmakehash ++ ./conmakehash $(FONTMAPFILE) > consolemap_deftbl.c ++ ++consolemap_deftbl.o: consolemap_deftbl.c $(TOPDIR)/include/linux/types.h ++ ++.DELETE_ON_ERROR: ++ ++defkeymap.c: defkeymap.map ++ set -e ; loadkeys --mktable $< | sed -e 's/^static *//' > $@ ++ ++qtronixmap.c: qtronixmap.map ++ set -e ; loadkeys --mktable $< | sed -e 's/^static *//' > $@ ++ ++ibm_workpad_keymap.c: ibm_workpad_keymap.map ++ set -e ; loadkeys --mktable $< | sed -e 's/^static *//' > $@ ++ ++victor_mpc30x_keymap.c: victor_mpc30x_keymap.map ++ set -e ; loadkeys --mktable $< | sed -e 's/^static *//' > $@ +diff -urN linux.old/drivers/char/avalanche_vlynq/Makefile linux.dev/drivers/char/avalanche_vlynq/Makefile +--- linux.old/drivers/char/avalanche_vlynq/Makefile 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/char/avalanche_vlynq/Makefile 2005-11-10 01:10:45.871576250 +0100 +@@ -0,0 +1,16 @@ ++# ++# Makefile for the linux kernel. ++# ++# Note! Dependencies are done automagically by 'make dep', which also ++# removes any old dependencies. DON'T put your own dependencies here ++# unless it's something special (ie not a .c file). ++# ++# Note 2! The CFLAGS definitions are now in the main makefile... ++ ++O_TARGET := avalanche_vlynq.o ++ ++export-objs := vlynq_board.o ++ ++obj-y += vlynq_drv.o vlynq_hal.o vlynq_board.o ++ ++include $(TOPDIR)/Rules.make +diff -urN linux.old/drivers/char/avalanche_vlynq/vlynq_board.c linux.dev/drivers/char/avalanche_vlynq/vlynq_board.c +--- linux.old/drivers/char/avalanche_vlynq/vlynq_board.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/char/avalanche_vlynq/vlynq_board.c 2005-11-10 01:10:45.871576250 +0100 +@@ -0,0 +1,184 @@ ++/* ++ * Jeff Harrell, jharrell@ti.com ++ * Copyright (C) 2001 Texas Instruments, Inc. All rights reserved. ++ * ++ * This program is free software; you can distribute it and/or modify it ++ * under the terms of the GNU General Public License (Version 2) as ++ * published by the Free Software Foundation. ++ * ++ * This program is distributed in the hope it will be useful, but WITHOUT ++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or ++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License ++ * for more details. ++ * ++ * You should have received a copy of the GNU General Public License along ++ * with this program; if not, write to the Free Software Foundation, Inc., ++ * 59 Temple Place - Suite 330, Boston MA 02111-1307, USA. ++ * ++ * Texas Instruments Sangam specific setup. ++ */ ++#include <linux/config.h> ++#include <linux/module.h> ++#include <asm/ar7/sangam.h> ++#include <asm/ar7/avalanche_misc.h> ++#include <asm/ar7/vlynq.h> ++ ++#define SYS_VLYNQ_LOCAL_INTERRUPT_VECTOR 30 /* MSB - 1 bit */ ++#define SYS_VLYNQ_REMOTE_INTERRUPT_VECTOR 31 /* MSB bit */ ++#define SYS_VLYNQ_OPTIONS 0x7F; /* all options*/ ++ ++/* These defines are board specific */ ++ ++ ++#define VLYNQ0_REMOTE_WINDOW1_OFFSET (0x0C000000) ++#define VLYNQ0_REMOTE_WINDOW1_SIZE (0x500) ++ ++ ++#define VLYNQ1_REMOTE_WINDOW1_OFFSET (0x0C000000) ++#define VLYNQ1_REMOTE_WINDOW1_SIZE (0x500) ++ ++ ++extern VLYNQ_DEV vlynqDevice0, vlynqDevice1; ++int vlynq_init_status[2] = {0, 0}; ++EXPORT_SYMBOL(vlynq_init_status); ++static int reset_hack = 1; ++ ++void vlynq_ar7wrd_dev_init() ++{ ++ *(unsigned long*) AVALANCHE_GPIO_ENBL |= (1<<18); ++ vlynq_delay(20000); ++ *(unsigned long*) AVALANCHE_GPIO_DIR &= ~(1<<18); ++ vlynq_delay(20000); ++ *(unsigned long*) AVALANCHE_GPIO_DATA_OUT&= ~(1<<18); ++ vlynq_delay(50000); ++ *(unsigned long*) AVALANCHE_GPIO_DATA_OUT|= (1<<18); ++ vlynq_delay(50000); ++ ++ /* Initialize the MIPS host vlynq driver for a given vlynq interface */ ++ vlynqDevice0.dev_idx = 0; /* first vlynq module - this parameter is for reference only */ ++ vlynqDevice0.module_base = AVALANCHE_LOW_VLYNQ_CONTROL_BASE; /* vlynq0 module base address */ ++ ++#if defined(CONFIG_VLYNQ_CLK_LOCAL) ++ vlynqDevice0.clk_source = VLYNQ_CLK_SOURCE_LOCAL; ++#else ++ vlynqDevice0.clk_source = VLYNQ_CLK_SOURCE_REMOTE; ++#endif ++ vlynqDevice0.clk_div = 0x01; /* board/hardware specific */ ++ vlynqDevice0.state = VLYNQ_DRV_STATE_UNINIT; /* uninitialized module */ ++ ++ /* Populate vlynqDevice0.local_mem & Vlynq0.remote_mem based on system configuration */ ++ /*Local memory configuration */ ++ ++ /* Demiurg : not good !*/ ++#if 0 ++ vlynqDevice0.local_mem.Txmap= AVALANCHE_LOW_VLYNQ_MEM_MAP_BASE & ~(0xc0000000) ; /* physical address */ ++ vlynqDevice0.remote_mem.RxOffset[0]= VLYNQ0_REMOTE_WINDOW1_OFFSET; /* This is specific to the board on the other end */ ++ vlynqDevice0.remote_mem.RxSize[0]=VLYNQ0_REMOTE_WINDOW1_SIZE; ++#endif ++ ++ /* Demiurg : This is how it should be ! */ ++ vlynqDevice0.local_mem.Txmap = PHYSADDR(AVALANCHE_LOW_VLYNQ_MEM_MAP_BASE); ++#define VLYNQ_ACX111_MEM_OFFSET 0xC0000000 /* Physical address of ACX111 memory */ ++#define VLYNQ_ACX111_MEM_SIZE 0x00040000 /* Total size of the ACX111 memory */ ++#define VLYNQ_ACX111_REG_OFFSET 0xF0000000 /* PHYS_ADDR of ACX111 control registers */ ++#define VLYNQ_ACX111_REG_SIZE 0x00022000 /* Size of ACX111 registers area, MAC+PHY */ ++#define ACX111_VL1_REMOTE_SIZE 0x1000000 ++ vlynqDevice0.remote_mem.RxOffset[0] = VLYNQ_ACX111_MEM_OFFSET; ++ vlynqDevice0.remote_mem.RxSize[0] = VLYNQ_ACX111_MEM_SIZE ; ++ vlynqDevice0.remote_mem.RxOffset[1] = VLYNQ_ACX111_REG_OFFSET; ++ vlynqDevice0.remote_mem.RxSize[1] = VLYNQ_ACX111_REG_SIZE ; ++ vlynqDevice0.remote_mem.Txmap = 0; ++ vlynqDevice0.local_mem.RxOffset[0] = AVALANCHE_SDRAM_BASE; ++ vlynqDevice0.local_mem.RxSize[0] = ACX111_VL1_REMOTE_SIZE; ++ ++ ++ /* Local interrupt configuration */ ++ vlynqDevice0.local_irq.intLocal = VLYNQ_INT_LOCAL; /* Host handles vlynq interrupts*/ ++ vlynqDevice0.local_irq.intRemote = VLYNQ_INT_ROOT_ISR; /* vlynq root isr used */ ++ vlynqDevice0.local_irq.map_vector = SYS_VLYNQ_LOCAL_INTERRUPT_VECTOR; ++ vlynqDevice0.local_irq.intr_ptr = 0; /* Since remote interrupts part of vlynq root isr this is unused */ ++ ++ /* Remote interrupt configuration */ ++ vlynqDevice0.remote_irq.intLocal = VLYNQ_INT_REMOTE; /* MIPS handles interrupts */ ++ vlynqDevice0.remote_irq.intRemote = VLYNQ_INT_ROOT_ISR; /* Not significant since MIPS handles interrupts */ ++ vlynqDevice0.remote_irq.map_vector = SYS_VLYNQ_REMOTE_INTERRUPT_VECTOR; ++ vlynqDevice0. remote_irq.intr_ptr = AVALANCHE_INTC_BASE; /* Not significant since MIPS handles interrupts */ ++ ++ if(reset_hack != 1) ++ printk("About to re-init the VLYNQ.\n"); ++ ++ if(vlynq_init(&vlynqDevice0,VLYNQ_INIT_PERFORM_ALL)== 0) ++ { ++ /* Suraj added the following to keep the 1130 going. */ ++ vlynq_interrupt_vector_set(&vlynqDevice0, 0 /* intr vector line running into 1130 vlynq */, ++ 0 /* intr mapped onto the interrupt register on remote vlynq and this vlynq */, ++ VLYNQ_REMOTE_DVC, 0 /* polarity active high */, 0 /* interrupt Level triggered */); ++ ++ /* System wide interrupt is 80 for 1130, please note. */ ++ vlynq_init_status[0] = 1; ++ reset_hack = 2; ++ } ++ else ++ { ++ if(reset_hack == 1) ++ printk("VLYNQ INIT FAILED: Please try cold reboot. \n"); ++ else ++ printk("Failed to initialize the VLYNQ interface at insmod.\n"); ++ ++ } ++} ++ ++void vlynq_dev_init(void) ++{ ++ volatile unsigned int *reset_base = (unsigned int *) AVALANCHE_RESET_CONTROL_BASE; ++ ++ *reset_base &= ~((1 << AVALANCHE_LOW_VLYNQ_RESET_BIT)); /* | (1 << AVALANCHE_HIGH_VLYNQ_RESET_BIT)); */ ++ ++ vlynq_delay(20000); ++ ++ /* Bring vlynq out of reset if not already done */ ++ *reset_base |= (1 << AVALANCHE_LOW_VLYNQ_RESET_BIT); /* | (1 << AVALANCHE_HIGH_VLYNQ_RESET_BIT); */ ++ vlynq_delay(20000); /* Allowing sufficient time to VLYNQ to settle down.*/ ++ ++ vlynq_ar7wrd_dev_init( ); ++ ++} ++ ++/* This function is board specific and should be ported for each board. */ ++void remote_vlynq_dev_reset_ctrl(unsigned int module_reset_bit, ++ AVALANCHE_RESET_CTRL_T reset_ctrl) ++{ ++ if(module_reset_bit >= 32) ++ return; ++ ++ switch(module_reset_bit) ++ { ++ case 0: ++ if(OUT_OF_RESET == reset_ctrl) ++ { ++ if(reset_hack) return; ++ ++ vlynq_delay(20000); ++ printk("Un-resetting the remote device.\n"); ++ vlynq_dev_init(); ++ printk("Re-initialized the VLYNQ.\n"); ++ reset_hack = 2; ++ } ++ else if(IN_RESET == reset_ctrl) ++ { ++ *(unsigned long*) AVALANCHE_GPIO_DATA_OUT &= ~(1<<18); ++ ++ vlynq_delay(20000); ++ printk("Resetting the remote device.\n"); ++ reset_hack = 0; ++ } ++ else ++ ; ++ break; ++ ++ default: ++ break; ++ ++ } ++} ++ +diff -urN linux.old/drivers/char/avalanche_vlynq/vlynq_drv.c linux.dev/drivers/char/avalanche_vlynq/vlynq_drv.c +--- linux.old/drivers/char/avalanche_vlynq/vlynq_drv.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/char/avalanche_vlynq/vlynq_drv.c 2005-11-10 01:10:45.891577500 +0100 +@@ -0,0 +1,243 @@ ++/****************************************************************************** ++ * FILE PURPOSE: Vlynq Linux Device Driver Source ++ ****************************************************************************** ++ * FILE NAME: vlynq_drv.c ++ * ++ * DESCRIPTION: Vlynq Linux Device Driver Source ++ * ++ * REVISION HISTORY: ++ * ++ * Date Description Author ++ *----------------------------------------------------------------------------- ++ * 17 July 2003 Initial Creation Anant Gole ++ * 17 Dec 2003 Updates Sharath Kumar ++ * ++ * (C) Copyright 2003, Texas Instruments, Inc ++ *******************************************************************************/ ++ ++#include <linux/config.h> ++#include <linux/init.h> ++#include <linux/module.h> ++#include <linux/sched.h> ++#include <linux/miscdevice.h> ++#include <linux/smp_lock.h> ++#include <linux/delay.h> ++#include <linux/proc_fs.h> ++#include <linux/capability.h> ++#include <asm/ar7/avalanche_intc.h> ++#include <asm/ar7/sangam.h> ++#include <asm/ar7/vlynq.h> ++ ++ ++#define TI_VLYNQ_VERSION "0.2" ++ ++/* debug on ? */ ++#define VLYNQ_DEBUG ++ ++/* Macro for debug and error printf's */ ++#ifdef VLYNQ_DEBUG ++#define DBGPRINT printk ++#else ++#define DBGPRINT(x) ++#endif ++ ++#define ERRPRINT printk ++ ++/* Define the max vlynq ports this driver will support. ++ Device name strings are statically added here */ ++#define MAX_VLYNQ_PORTS 2 ++ ++ ++/* Type define for VLYNQ private structure */ ++typedef struct vlynqPriv{ ++ int irq; ++ VLYNQ_DEV *vlynqDevice; ++}VLYNQ_PRIV; ++ ++extern int vlynq_init_status[2]; ++ ++/* Extern Global variable for vlynq devices used in initialization of the vlynq device ++ * These variables need to be populated/initialized by the system as part of initialization ++ * process. The vlynq enumerator can run at initialization and populate these globals ++ */ ++ ++VLYNQ_DEV vlynqDevice0; ++VLYNQ_DEV vlynqDevice1; ++ ++/* Defining dummy macro AVALANCHE_HIGH_VLYNQ_INT to take ++ * care of compilation in case of single vlynq device ++ */ ++ ++#ifndef AVALANCHE_HIGH_VLYNQ_INT ++#define AVALANCHE_HIGH_VLYNQ_INT 0 ++#endif ++ ++ ++ ++/* vlynq private object */ ++VLYNQ_PRIV vlynq_priv[CONFIG_AR7_VLYNQ_PORTS] = { ++ { LNXINTNUM(AVALANCHE_LOW_VLYNQ_INT),&vlynqDevice0}, ++ { LNXINTNUM(AVALANCHE_HIGH_VLYNQ_INT),&vlynqDevice1}, ++}; ++ ++extern void vlynq_dev_init(void); ++ ++ ++/* =================================== all the operations */ ++ ++static int ++vlynq_ioctl(struct inode *inode, struct file *file, unsigned int cmd, unsigned long arg) ++{ ++ return 0; ++} ++ ++static struct file_operations vlynq_fops = { ++ owner: THIS_MODULE, ++ ioctl: vlynq_ioctl, ++}; ++ ++/* Vlynq device object */ ++static struct miscdevice vlynq_dev [MAX_VLYNQ_PORTS] = { ++ { MISC_DYNAMIC_MINOR , "vlynq0", &vlynq_fops }, ++ { MISC_DYNAMIC_MINOR , "vlynq1", &vlynq_fops }, ++}; ++ ++ ++/* Proc read function */ ++static int ++vlynq_read_link_proc(char *buf, char **start, off_t offset, int count, int *eof, void *unused) ++{ ++ int instance; ++ int len = 0; ++ ++ len += sprintf(buf +len,"VLYNQ Devices : %d\n",CONFIG_AR7_VLYNQ_PORTS); ++ ++ for(instance =0;instance < CONFIG_AR7_VLYNQ_PORTS;instance++) ++ { ++ int link_state; ++ char *link_msg[] = {" DOWN "," UP "}; ++ ++ if(vlynq_init_status[instance] == 0) ++ link_state = 0; ++ ++ else if (vlynq_link_check(vlynq_priv[instance].vlynqDevice)) ++ link_state = 1; ++ ++ else ++ link_state = 0; ++ ++ len += sprintf(buf + len, "VLYNQ %d: Link state: %s\n",instance,link_msg[link_state]); ++ ++ } ++ /* Print info about vlynq device 1 */ ++ ++ return len; ++} ++ ++ ++/* Proc function to display driver version */ ++static int ++vlynq_read_ver_proc(char *buf, char **start, off_t offset, int count, int *eof, void *data) ++{ ++ int instance; ++ int len=0; ++ ++ len += sprintf(buf +len,"\nTI Linux VLYNQ Driver Version %s\n",TI_VLYNQ_VERSION); ++ return len; ++} ++ ++ ++ ++ ++/* Wrapper for vlynq ISR */ ++static void lnx_vlynq_root_isr(int irq, void * arg, struct pt_regs *regs) ++{ ++ vlynq_root_isr(arg); ++} ++ ++/* =================================== init and cleanup */ ++ ++int vlynq_init_module(void) ++{ ++ int ret; ++ int unit = 0; ++ int instance_count = CONFIG_AR7_VLYNQ_PORTS; ++ volatile int *ptr; ++ ++ vlynq_dev_init(); ++ ++ DBGPRINT("Vlynq CONFIG_AR7_VLYNQ_PORTS=%d\n", CONFIG_AR7_VLYNQ_PORTS); ++ /* If num of configured vlynq ports > supported by driver return error */ ++ if (instance_count > MAX_VLYNQ_PORTS) ++ { ++ ERRPRINT("ERROR: vlynq_init_module(): Max %d supported\n", MAX_VLYNQ_PORTS); ++ return (-1); ++ } ++ ++ /* register the misc device */ ++ for (unit = 0; unit < CONFIG_AR7_VLYNQ_PORTS; unit++) ++ { ++ ret = misc_register(&vlynq_dev[unit]); ++ ++ if(ret < 0) ++ { ++ ERRPRINT("ERROR:Could not register vlynq device:%d\n",unit); ++ continue; ++ } ++ else ++ DBGPRINT("Vlynq Device %s registered with minor no %d as misc device. Result=%d\n", ++ vlynq_dev[unit].name, vlynq_dev[unit].minor, ret); ++#if 0 ++ ++ DBGPRINT("Calling vlynq init\n"); ++ ++ /* Read the global variable for VLYNQ device structure and initialize vlynq driver */ ++ ret = vlynq_init(vlynq_priv[unit].vlynqDevice,VLYNQ_INIT_PERFORM_ALL ); ++#endif ++ ++ if(vlynq_init_status[unit] == 0) ++ { ++ printk("VLYNQ %d : init failed\n",unit); ++ continue; ++ } ++ ++ /* Check link before proceeding */ ++ if (!vlynq_link_check(vlynq_priv[unit].vlynqDevice)) ++ { ++ DBGPRINT("\nError: Vlynq link not available.trying once before Exiting"); ++ } ++ else ++ { ++ DBGPRINT("Vlynq instance:%d Link UP\n",unit); ++ ++ /* Install the vlynq local root ISR */ ++ request_irq(vlynq_priv[unit].irq,lnx_vlynq_root_isr,0,vlynq_dev[unit].name,vlynq_priv[unit].vlynqDevice); ++ } ++ } ++ ++ proc_mkdir("avalanche", NULL); ++ /* Creating proc entry for the devices */ ++ create_proc_read_entry("avalanche/vlynq_link", 0, NULL, vlynq_read_link_proc, NULL); ++ create_proc_read_entry("avalanche/vlynq_ver", 0, NULL, vlynq_read_ver_proc, NULL); ++ ++ return 0; ++} ++ ++void vlynq_cleanup_module(void) ++{ ++ int unit = 0; ++ ++ for (unit = 0; unit < CONFIG_AR7_VLYNQ_PORTS; unit++) ++ { ++ DBGPRINT("vlynq_cleanup_module(): Unregistring misc device %s\n",vlynq_dev[unit].name); ++ misc_deregister(&vlynq_dev[unit]); ++ } ++ ++ remove_proc_entry("avalanche/vlynq_link", NULL); ++ remove_proc_entry("avalanche/vlynq_ver", NULL); ++} ++ ++ ++module_init(vlynq_init_module); ++module_exit(vlynq_cleanup_module); ++ +diff -urN linux.old/drivers/char/avalanche_vlynq/vlynq_hal.c linux.dev/drivers/char/avalanche_vlynq/vlynq_hal.c +--- linux.old/drivers/char/avalanche_vlynq/vlynq_hal.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/char/avalanche_vlynq/vlynq_hal.c 2005-11-10 01:10:45.975582750 +0100 +@@ -0,0 +1,1214 @@ ++/*************************************************************************** ++**+----------------------------------------------------------------------+** ++**| **** |** ++**| **** |** ++**| ******o*** |** ++**| ********_///_**** |** ++**| ***** /_//_/ **** |** ++**| ** ** (__/ **** |** ++**| ********* |** ++**| **** |** ++**| *** |** ++**| |** ++**| Copyright (c) 2003 Texas Instruments Incorporated |** ++**| ALL RIGHTS RESERVED |** ++**| |** ++**| Permission is hereby granted to licensees of Texas Instruments |** ++**| Incorporated (TI) products to use this computer program for the sole |** ++**| purpose of implementing a licensee product based on TI products. |** ++**| No other rights to reproduce, use, or disseminate this computer |** ++**| program, whether in part or in whole, are granted. |** ++**| |** ++**| TI makes no representation or warranties with respect to the |** ++**| performance of this computer program, and specifically disclaims |** ++**| any responsibility for any damages, special or consequential, |** ++**| connected with the use of this program. |** ++**| |** ++**+----------------------------------------------------------------------+** ++***************************************************************************/ ++ ++/*************************************************************************** ++ * ------------------------------------------------------------------------------ ++ * Module : vlynq_hal.c ++ * Description : This file implements VLYNQ HAL API. ++ * ------------------------------------------------------------------------------ ++ ***************************************************************************/ ++ ++#include <linux/stddef.h> ++#include <linux/types.h> ++#include <asm/ar7/vlynq.h> ++ ++/**** Local Function prototypes *******/ ++static int vlynqInterruptInit(VLYNQ_DEV *pdev); ++static void vlynq_configClock(VLYNQ_DEV *pdev); ++ ++/*** Second argument must be explicitly type casted to ++ * (VLYNQ_DEV*) inside the following functions */ ++static void vlynq_local_module_isr(void *arg1, void *arg2, void *arg3); ++static void vlynq_remote_module_isr(void *arg1, void *arg2, void *arg3); ++ ++ ++volatile int vlynq_delay_value = 0; ++ ++/* Code adopted from original vlynq driver */ ++void vlynq_delay(unsigned int clktime) ++{ ++ int i = 0; ++ volatile int *ptr = &vlynq_delay_value; ++ *ptr = 0; ++ ++ /* We are assuming that the each cycle takes about ++ * 23 assembly instructions. */ ++ for(i = 0; i < (clktime + 23)/23; i++) ++ { ++ *ptr = *ptr + 1; ++ } ++} ++ ++ ++/* ---------------------------------------------------------------------------- ++ * Function : vlynq_configClock() ++ * Description: Configures clock settings based on input parameters ++ * Adapted from original vlyna driver from Cable ++ */ ++static void vlynq_configClock(VLYNQ_DEV * pdev) ++{ ++ unsigned int tmp; ++ ++ switch( pdev->clk_source) ++ { ++ case VLYNQ_CLK_SOURCE_LOCAL: /* we output the clock, clk_div in range [1..8]. */ ++ tmp = ((pdev->clk_div - 1) << 16) | VLYNQ_CTL_CLKDIR_MASK ; ++ VLYNQ_CTRL_REG = tmp; ++ VLYNQ_R_CTRL_REG = 0ul; ++ break; ++ case VLYNQ_CLK_SOURCE_REMOTE: /* we need to set the clock pin as input */ ++ VLYNQ_CTRL_REG = 0ul; ++ tmp = ((pdev->clk_div - 1) << 16) | VLYNQ_CTL_CLKDIR_MASK ; ++ VLYNQ_R_CTRL_REG = tmp; ++ break; ++ default: /* do nothing about the clock, but clear other bits. */ ++ tmp = ~(VLYNQ_CTL_CLKDIR_MASK | VLYNQ_CTL_CLKDIV_MASK); ++ VLYNQ_CTRL_REG &= tmp; ++ break; ++ } ++} ++ ++ /* ---------------------------------------------------------------------------- ++ * Function : vlynq_link_check() ++ * Description: This function checks the current VLYNQ for a link. ++ * An arbitrary amount of time is allowed for the link to come up . ++ * Returns 0 for "no link / failure " and 1 for "link available". ++ * ----------------------------------------------------------------------------- ++ */ ++unsigned int vlynq_link_check( VLYNQ_DEV * pdev) ++{ ++ /*sleep for 64 cycles, allow link to come up*/ ++ vlynq_delay(64); ++ ++ /* check status register return OK if link is found. */ ++ if (VLYNQ_STATUS_REG & VLYNQ_STS_LINK_MASK) ++ { ++ return 1; /* Link Available */ ++ } ++ else ++ { ++ return 0; /* Link Failure */ ++ } ++} ++ ++/* ---------------------------------------------------------------------------- ++ * Function : vlynq_init() ++ * Description: Initialization function accepting paramaters for VLYNQ module ++ * initialization. The Options bitmap decides what operations are performed ++ * as a part of initialization. The Input parameters are obtained through the ++ * sub fields of VLYNQ_DEV structure. ++ */ ++ ++int vlynq_init(VLYNQ_DEV *pdev, VLYNQ_INIT_OPTIONS options) ++{ ++ unsigned int map; ++ unsigned int val=0,cnt,tmp; ++ unsigned int counter=0; ++ VLYNQ_INTERRUPT_CNTRL *intSetting=NULL; ++ ++ /* validate arguments */ ++ if( VLYNQ_OUTRANGE(pdev->clk_source, VLYNQ_CLK_SOURCE_REMOTE, VLYNQ_CLK_SOURCE_NONE) || ++ VLYNQ_OUTRANGE(pdev->clk_div, 8, 1) ) ++ { ++ return VLYNQ_INVALID_ARG; ++ } ++ ++ /** perform all sanity checks first **/ ++ if(pdev->state != VLYNQ_DRV_STATE_UNINIT) ++ return VLYNQ_INVALID_DRV_STATE; ++ ++ /** Initialize local and remote register set addresses- additional ++ * provision to access the registers directly if need be */ ++ pdev->local = (VLYNQ_REG_SET*)pdev->module_base; ++ pdev->remote = (VLYNQ_REG_SET*) (pdev->module_base + VLYNQ_REMOTE_REGS_OFFSET); ++ ++ /* Detect faulty int configuration that might induce int pkt looping */ ++ if ( (options & VLYNQ_INIT_LOCAL_INTERRUPTS) && (options & VLYNQ_INIT_REMOTE_INTERRUPTS) ) ++ { ++ /* case when both local and remote are configured */ ++ if((pdev->local_irq.intLocal== VLYNQ_INT_REMOTE ) /* interrupts transfered to remote from local */ ++ && (pdev->remote_irq.intLocal== VLYNQ_INT_REMOTE) /* interrupts transfered from remote to local */ ++ && ((pdev->local_irq.intRemote == VLYNQ_INT_ROOT_ISR) || (pdev->remote_irq.intRemote == VLYNQ_INT_ROOT_ISR)) ) ++ { ++ return (VLYNQ_INT_CONFIG_ERR); ++ } ++ } ++ ++ pdev->state = VLYNQ_DRV_STATE_ININIT; ++ pdev->intCount = 0; ++ pdev->isrCount = 0; ++ ++ /*** Its assumed that the vlynq module has been brought out of reset ++ * before invocation of vlynq_init. Since, this operation is board specific ++ * it must be handled outside this generic driver */ ++ ++ /* Assert reset the remote device, call reset_cb, ++ * reset CB holds Reset according to the device needs. */ ++ VLYNQ_RESETCB(VLYNQ_RESET_ASSERT); ++ ++ /* Handle VLYNQ clock, HW default (Sense On Reset) is ++ * usually input for all the devices. */ ++ if (options & VLYNQ_INIT_CONFIG_CLOCK) ++ { ++ vlynq_configClock(pdev); ++ } ++ ++ /* Call reset_cb again. It will release the remote device ++ * from reset, and wait for a while. */ ++ VLYNQ_RESETCB(VLYNQ_RESET_DEASSERT); ++ ++ if(options & VLYNQ_INIT_CHECK_LINK ) ++ { ++ /* Check for link up during initialization*/ ++ while( counter < 25 ) ++ { ++ /* loop around giving a chance for link status to settle down */ ++ counter++; ++ if(vlynq_link_check(pdev)) ++ { ++ /* Link is up exit loop*/ ++ break; ++ } ++ ++ vlynq_delay(4000); ++ }/*end of while counter loop */ ++ ++ if(!vlynq_link_check(pdev)) ++ { ++ /* Handle this case as abort */ ++ pdev->state = VLYNQ_DRV_STATE_ERROR; ++ VLYNQ_RESETCB( VLYNQ_RESET_INITFAIL); ++ return VLYNQ_LINK_DOWN; ++ }/* end of if not vlynq_link_check conditional block */ ++ ++ }/*end of if options & VLYNQ_INIT_CHECK_LINK conditional block */ ++ ++ ++ if (options & VLYNQ_INIT_LOCAL_MEM_REGIONS) ++ { ++ /* Initialise local memory regions . This initialization lets ++ * the local host access remote device memory regions*/ ++ int i; ++ ++ /* configure the VLYNQ portal window to a PHYSICAL ++ * address of the local CPU */ ++ VLYNQ_ALIGN4(pdev->local_mem.Txmap); ++ VLYNQ_TXMAP_REG = (pdev->local_mem.Txmap); ++ ++ /*This code assumes input parameter is itself a physical address */ ++ for(i=0; i < VLYNQ_MAX_MEMORY_REGIONS ; i++) ++ { ++ /* Physical address on the remote */ ++ map = i+1; ++ VLYNQ_R_RXMAP_SIZE_REG(map) = 0; ++ if( pdev->remote_mem.RxSize[i]) ++ { ++ VLYNQ_ALIGN4(pdev->remote_mem.RxOffset[i]); ++ VLYNQ_ALIGN4(pdev->remote_mem.RxSize[i]); ++ VLYNQ_R_RXMAP_OFFSET_REG(map) = pdev->remote_mem.RxOffset[i]; ++ VLYNQ_R_RXMAP_SIZE_REG(map) = pdev->remote_mem.RxSize[i]; ++ } ++ } ++ } ++ ++ if(options & VLYNQ_INIT_REMOTE_MEM_REGIONS ) ++ { ++ int i; ++ ++ /* Initialise remote memory regions. This initialization lets remote ++ * device access local host memory regions. It configures the VLYNQ portal ++ * window to a PHYSICAL address of the remote */ ++ VLYNQ_ALIGN4(pdev->remote_mem.Txmap); ++ VLYNQ_R_TXMAP_REG = pdev->remote_mem.Txmap; ++ ++ for( i=0; i<VLYNQ_MAX_MEMORY_REGIONS; i++) ++ { ++ /* Physical address on the local */ ++ map = i+1; ++ VLYNQ_RXMAP_SIZE_REG(map) = 0; ++ if( pdev->local_mem.RxSize[i]) ++ { ++ VLYNQ_ALIGN4(pdev->local_mem.RxOffset[i]); ++ VLYNQ_ALIGN4(pdev->local_mem.RxSize[i]); ++ VLYNQ_RXMAP_OFFSET_REG(map) = (pdev->local_mem.RxOffset[i]); ++ VLYNQ_RXMAP_SIZE_REG(map) = (pdev->local_mem.RxSize[i]); ++ } ++ } ++ } ++ ++ /* Adapted from original vlynq driver from cable - Calculate VLYNQ bus width */ ++ pdev->width = 3 + VLYNQ_STATUS_FLD_WIDTH(VLYNQ_STATUS_REG) ++ + VLYNQ_STATUS_FLD_WIDTH(VLYNQ_R_STATUS_REG); ++ ++ /* chance to initialize the device, e.g. to boost VLYNQ ++ * clock by modifying pdev->clk_div or and verify the width. */ ++ VLYNQ_RESETCB(VLYNQ_RESET_LINKESTABLISH); ++ ++ /* Handle VLYNQ clock, HW default (Sense On Reset) is ++ * usually input for all the devices. */ ++ if(options & VLYNQ_INIT_CONFIG_CLOCK ) ++ { ++ vlynq_configClock(pdev); ++ } ++ ++ /* last check for link*/ ++ if(options & VLYNQ_INIT_CHECK_LINK ) ++ { ++ /* Final Check for link during initialization*/ ++ while( counter < 25 ) ++ { ++ /* loop around giving a chance for link status to settle down */ ++ counter++; ++ if(vlynq_link_check(pdev)) ++ { ++ /* Link is up exit loop*/ ++ break; ++ } ++ ++ vlynq_delay(4000); ++ }/*end of while counter loop */ ++ ++ if(!vlynq_link_check(pdev)) ++ { ++ /* Handle this case as abort */ ++ pdev->state = VLYNQ_DRV_STATE_ERROR; ++ VLYNQ_RESETCB( VLYNQ_RESET_INITFAIL); ++ return VLYNQ_LINK_DOWN; ++ }/* end of if not vlynq_link_check conditional block */ ++ ++ } /* end of if options & VLYNQ_INIT_CHECK_LINK */ ++ ++ if(options & VLYNQ_INIT_LOCAL_INTERRUPTS ) ++ { ++ /* Configure local interrupt settings */ ++ intSetting = &(pdev->local_irq); ++ ++ /* Map local module status interrupts to interrupt vector*/ ++ val = intSetting->map_vector << VLYNQ_CTL_INTVEC_SHIFT ; ++ ++ /* enable local module status interrupts */ ++ val |= 0x01 << VLYNQ_CTL_INTEN_SHIFT; ++ ++ if ( intSetting->intLocal == VLYNQ_INT_LOCAL ) ++ { ++ /*set the intLocal bit*/ ++ val |= 0x01 << VLYNQ_CTL_INTLOCAL_SHIFT; ++ } ++ ++ /* Irrespective of whether interrupts are handled locally, program ++ * int2Cfg. Error checking for accidental loop(when intLocal=0 and int2Cfg=1 ++ * i.e remote packets are set intPending register->which will result in ++ * same packet being sent out) has been done already ++ */ ++ ++ if (intSetting->intRemote == VLYNQ_INT_ROOT_ISR) ++ { ++ /* Set the int2Cfg register, so that remote interrupt ++ * packets are written to intPending register */ ++ val |= 0x01 << VLYNQ_CTL_INT2CFG_SHIFT; ++ ++ /* Set intPtr register to point to intPending register */ ++ VLYNQ_INT_PTR_REG = VLYNQ_INT_PENDING_REG_PTR ; ++ } ++ else ++ { ++ /*set the interrupt pointer register*/ ++ VLYNQ_INT_PTR_REG = intSetting->intr_ptr; ++ /* Dont bother to modify int2Cfg as it would be zero */ ++ } ++ ++ /** Clear bits related to INT settings in control register **/ ++ VLYNQ_CTRL_REG = VLYNQ_CTRL_REG & (~VLYNQ_CTL_INTFIELDS_CLEAR_MASK); ++ ++ /** Or the bits to be set with Control register **/ ++ VLYNQ_CTRL_REG = VLYNQ_CTRL_REG | val; ++ ++ /* initialise local ICB */ ++ if(vlynqInterruptInit(pdev)==VLYNQ_MEMALLOC_FAIL) ++ return VLYNQ_MEMALLOC_FAIL; ++ ++ /* Install handler for local module status interrupts. By default when ++ * local interrupt setting is initialised, the local module status are ++ * enabled and handler hooked up */ ++ if(vlynq_install_isr(pdev, intSetting->map_vector, vlynq_local_module_isr, ++ pdev, NULL, NULL) == VLYNQ_INVALID_ARG) ++ return VLYNQ_INVALID_ARG; ++ } /* end of init local interrupts */ ++ ++ if(options & VLYNQ_INIT_REMOTE_INTERRUPTS ) ++ { ++ /* Configure remote interrupt settings from configuration */ ++ intSetting = &(pdev->remote_irq); ++ ++ /* Map remote module status interrupts to remote interrupt vector*/ ++ val = intSetting->map_vector << VLYNQ_CTL_INTVEC_SHIFT ; ++ /* enable remote module status interrupts */ ++ val |= 0x01 << VLYNQ_CTL_INTEN_SHIFT; ++ ++ if ( intSetting->intLocal == VLYNQ_INT_LOCAL ) ++ { ++ /*set the intLocal bit*/ ++ val |= 0x01 << VLYNQ_CTL_INTLOCAL_SHIFT; ++ } ++ ++ /* Irrespective of whether interrupts are handled locally, program ++ * int2Cfg. Error checking for accidental loop(when intLocal=0 and int2Cfg=1 ++ * i.e remote packets are set intPending register->which will result in ++ * same packet being sent out) has been done already ++ */ ++ ++ if (intSetting->intRemote == VLYNQ_INT_ROOT_ISR) ++ { ++ /* Set the int2Cfg register, so that remote interrupt ++ * packets are written to intPending register */ ++ val |= 0x01 << VLYNQ_CTL_INT2CFG_SHIFT; ++ /* Set intPtr register to point to intPending register */ ++ VLYNQ_R_INT_PTR_REG = VLYNQ_R_INT_PENDING_REG_PTR ; ++ } ++ else ++ { ++ /*set the interrupt pointer register*/ ++ VLYNQ_R_INT_PTR_REG = intSetting->intr_ptr; ++ /* Dont bother to modify int2Cfg as it would be zero */ ++ } ++ ++ if( (intSetting->intLocal == VLYNQ_INT_REMOTE) && ++ (options & VLYNQ_INIT_LOCAL_INTERRUPTS) && ++ (pdev->local_irq.intRemote == VLYNQ_INT_ROOT_ISR) ) ++ { ++ /* Install handler for remote module status interrupts. By default when ++ * remote interrupts are forwarded to local root_isr then remote_module_isr is ++ * enabled and handler hooked up */ ++ if(vlynq_install_isr(pdev,intSetting->map_vector,vlynq_remote_module_isr, ++ pdev, NULL, NULL) == VLYNQ_INVALID_ARG) ++ return VLYNQ_INVALID_ARG; ++ } ++ ++ ++ /** Clear bits related to INT settings in control register **/ ++ VLYNQ_R_CTRL_REG = VLYNQ_R_CTRL_REG & (~VLYNQ_CTL_INTFIELDS_CLEAR_MASK); ++ ++ /** Or the bits to be set with the remote Control register **/ ++ VLYNQ_R_CTRL_REG = VLYNQ_R_CTRL_REG | val; ++ ++ } /* init remote interrupt settings*/ ++ ++ if(options & VLYNQ_INIT_CLEAR_ERRORS ) ++ { ++ /* Clear errors during initialization */ ++ tmp = VLYNQ_STATUS_REG & (VLYNQ_STS_RERROR_MASK | VLYNQ_STS_LERROR_MASK); ++ VLYNQ_STATUS_REG = tmp; ++ tmp = VLYNQ_R_STATUS_REG & (VLYNQ_STS_RERROR_MASK | VLYNQ_STS_LERROR_MASK); ++ VLYNQ_R_STATUS_REG = tmp; ++ } ++ ++ /* clear int status */ ++ val = VLYNQ_INT_STAT_REG; ++ VLYNQ_INT_STAT_REG = val; ++ ++ /* finish initialization */ ++ pdev->state = VLYNQ_DRV_STATE_RUN; ++ VLYNQ_RESETCB( VLYNQ_RESET_INITOK); ++ return VLYNQ_SUCCESS; ++ ++} ++ ++ ++/* ---------------------------------------------------------------------------- ++ * Function : vlynqInterruptInit() ++ * Description: This local function is used to set up the ICB table for the ++ * VLYNQ_STATUS_REG vlynq module. The input parameter "pdev" points the vlynq ++ * device instance whose ICB is allocated. ++ * Return : returns VLYNQ_SUCCESS or vlynq error for failure ++ * ----------------------------------------------------------------------------- ++ */ ++static int vlynqInterruptInit(VLYNQ_DEV *pdev) ++{ ++ int i, numslots; ++ ++ /* Memory allocated statically. ++ * Initialise ICB,free list.Indicate primary slot empty. ++ * Intialise intVector <==> map_vector translation table*/ ++ for(i=0; i < VLYNQ_NUM_INT_BITS; i++) ++ { ++ pdev->pIntrCB[i].isr = NULL; ++ pdev->pIntrCB[i].next = NULL; /*nothing chained */ ++ pdev->vector_map[i] = -1; /* indicates unmapped */ ++ } ++ ++ /* In the ICB slots, [VLYNQ_NUM_INT_BITS i.e 32 to ICB array size) are expansion slots ++ * required only when interrupt chaining/sharing is supported. In case ++ * of chained interrupts the list starts from primary slot and the ++ * additional slots are obtained from the common free area */ ++ ++ /* Initialise freelist */ ++ ++ numslots = VLYNQ_NUM_INT_BITS + VLYNQ_IVR_CHAIN_SLOTS; ++ ++ if (numslots > VLYNQ_NUM_INT_BITS) ++ { ++ pdev->freelist = &(pdev->pIntrCB[VLYNQ_NUM_INT_BITS]); ++ ++ for(i = VLYNQ_NUM_INT_BITS; i < (numslots-1) ; i++) ++ { ++ pdev->pIntrCB[i].next = &(pdev->pIntrCB[i+1]); ++ pdev->pIntrCB[i].isr = NULL; ++ } ++ pdev->pIntrCB[i].next=NULL; /* Indicate end of freelist*/ ++ pdev->pIntrCB[i].isr=NULL; ++ } ++ else ++ { ++ pdev->freelist = NULL; ++ } ++ ++ /** Reset mapping for IV 0-7 **/ ++ VLYNQ_IVR_03TO00_REG = 0; ++ VLYNQ_IVR_07TO04_REG = 0; ++ ++ return VLYNQ_SUCCESS; ++} ++ ++/** remember that hooking up of root ISR handler with the interrupt controller ++ * is not done as a part of this driver. Typically, it must be done after ++ * invoking vlynq_init*/ ++ ++ ++ /* ---------------------------------------------------------------------------- ++ * ISR with the SOC interrupt controller. This ISR typically scans ++ * the Int PENDING/SET register in the VLYNQ module and calls the ++ * appropriate ISR associated with the correponding vector number. ++ * ----------------------------------------------------------------------------- ++ */ ++void vlynq_root_isr(void *arg) ++{ ++ int source; /* Bit position of pending interrupt, start from 0 */ ++ unsigned int interrupts, clrInterrupts; ++ VLYNQ_DEV * pdev; ++ VLYNQ_INTR_CNTRL_ICB *entry; ++ ++ pdev=(VLYNQ_DEV*)(arg); /*obtain the vlynq device pointer*/ ++ ++ interrupts = VLYNQ_INT_STAT_REG; /* Get the list of pending interrupts */ ++ VLYNQ_INT_STAT_REG = interrupts; /* clear the int CR register */ ++ clrInterrupts = interrupts; /* save them for further analysis */ ++ ++ debugPrint("vlynq_root_isr: dev %u. INTCR = 0x%08lx\n", pdev->dev_idx, clrInterrupts,0,0,0,0); ++ ++ /* Scan interrupt bits */ ++ source =0; ++ while( clrInterrupts != 0) ++ { ++ /* test if bit is set? */ ++ if( 0x1ul & clrInterrupts) ++ { ++ entry = &(pdev->pIntrCB[source]); /* Get the ISR entry */ ++ pdev->intCount++; /* update interrupt count */ ++ if(entry->isr != NULL) ++ { ++ do ++ { ++ pdev->isrCount++; /* update isr invocation count */ ++ /* Call the user ISR and update the count for ISR */ ++ entry->isrCount++; ++ entry->isr(entry->arg1, entry->arg2, entry->arg3); ++ if (entry->next == NULL) break; ++ entry = entry->next; ++ ++ } while (entry->isr != NULL); ++ } ++ else ++ { ++ debugPrint(" ISR not installed for vlynq vector:%d\n",source,0,0,0,0,0); ++ } ++ } ++ clrInterrupts >>= 1; /* Next source bit */ ++ ++source; ++ } /* endWhile clrInterrupts != 0 */ ++} ++ ++ ++ /* ---------------------------------------------------------------------------- ++ * Function : vlynq_local__module_isr() ++ * Description: This ISR is attached to the local VLYNQ interrupt vector ++ * by the Vlynq Driver when local interrupts are being handled. i.e. ++ * intLocal=1. This ISR handles local Vlynq module status interrupts only ++ * AS a part of this ISR, user callback in VLYNQ_DEV structure ++ * is invoked. ++ * VLYNQ_DEV is passed as arg1. arg2 and arg3 are unused. ++ * ----------------------------------------------------------------------------- ++ */ ++static void vlynq_local_module_isr(void *arg1,void *arg2, void *arg3) ++{ ++ VLYNQ_REPORT_CB func; ++ unsigned int dwStatRegVal; ++ VLYNQ_DEV * pdev; ++ ++ pdev = (VLYNQ_DEV*) arg1; ++ /* Callback function is read from the device pointer that is passed as an argument */ ++ func = pdev->report_cb; ++ ++ /* read local status register */ ++ dwStatRegVal = VLYNQ_STATUS_REG; ++ ++ /* clear pending events */ ++ VLYNQ_STATUS_REG = dwStatRegVal; ++ ++ /* invoke user callback */ ++ if( func != NULL) ++ func( pdev, VLYNQ_LOCAL_DVC, dwStatRegVal); ++ ++} ++ ++ /* ---------------------------------------------------------------------------- ++ * Function : vlynq_remote_module_isr() ++ * Description: This ISR is attached to the remote VLYNQ interrupt vector ++ * by the Vlynq Driver when remote interrupts are being handled locally. i.e. ++ * intLocal=1. This ISR handles local Vlynq module status interrupts only ++ * AS a part of this ISR, user callback in VLYNQ_DEV structure ++ * is invoked. ++ * The parameters irq,regs ar unused. ++ * ----------------------------------------------------------------------------- ++ */ ++static void vlynq_remote_module_isr(void *arg1,void *arg2, void *arg3) ++{ ++ VLYNQ_REPORT_CB func; ++ unsigned int dwStatRegVal; ++ VLYNQ_DEV * pdev; ++ ++ ++ pdev = (VLYNQ_DEV*) arg1; ++ ++ /* Callback function is read from the device pointer that is passed as an argument */ ++ func = pdev->report_cb; ++ ++ /* read local status register */ ++ dwStatRegVal = VLYNQ_R_STATUS_REG; ++ ++ /* clear pending events */ ++ VLYNQ_R_STATUS_REG = dwStatRegVal; ++ ++ /* invoke user callback */ ++ if( func != NULL) ++ func( pdev, VLYNQ_REMOTE_DVC, dwStatRegVal); ++ ++} ++ ++/* ---------------------------------------------------------------------------- ++ * Function : vlynq_interrupt_get_count() ++ * Description: This function returns the number of times a particular intr ++ * has been invoked. ++ * ++ * It returns 0, if erroneous map_vector is specified or if the corres isr ++ * has not been registered with VLYNQ. ++ */ ++unsigned int vlynq_interrupt_get_count(VLYNQ_DEV *pdev, ++ unsigned int map_vector) ++{ ++ VLYNQ_INTR_CNTRL_ICB *entry; ++ unsigned int count = 0; ++ ++ if (map_vector > (VLYNQ_NUM_INT_BITS-1)) ++ return count; ++ ++ entry = &(pdev->pIntrCB[map_vector]); ++ ++ if (entry) ++ count = entry->isrCount; ++ ++ return (count); ++} ++ ++ ++/* ---------------------------------------------------------------------------- ++ * Function : vlynq_install_isr() ++ * Description: This function installs ISR for Vlynq interrupt vector ++ * bits(in IntPending register). This function should be used only when ++ * Vlynq interrupts are being handled locally(remote may be programmed to send ++ * interrupt packets).Also, the int2cfg should be 1 and the least significant ++ * 8 bits of the Interrupt Pointer Register must point to Interrupt ++ * Pending/Set Register). ++ * If host int2cfg=0 and the Interrupt Pointer register contains ++ * the address of the interrupt set register in the interrupt controller ++ * module of the local device , then the ISR for the remote interrupt must be ++ * directly registered with the Interrupt controller and must not use this API ++ * Note: this function simply installs the ISR in ICB It doesnt modify ++ * any register settings ++ */ ++int ++vlynq_install_isr(VLYNQ_DEV *pdev, ++ unsigned int map_vector, ++ VLYNQ_INTR_CNTRL_ISR isr, ++ void *arg1, void *arg2, void *arg3) ++{ ++ VLYNQ_INTR_CNTRL_ICB *entry; ++ ++ if ( (map_vector > (VLYNQ_NUM_INT_BITS-1)) || (isr == NULL) ) ++ return VLYNQ_INVALID_ARG; ++ ++ entry = &(pdev->pIntrCB[map_vector]); ++ ++ if(entry->isr == NULL) ++ { ++ entry->isr = isr; ++ entry->arg1 = arg1; ++ entry->arg2 = arg2; ++ entry->arg3 = arg3; ++ entry->next = NULL; ++ } ++ else ++ { ++ /** No more empty slots,return error */ ++ if(pdev->freelist == NULL) ++ return VLYNQ_MEMALLOC_FAIL; ++ ++ while(entry->next != NULL) ++ { ++ entry = entry->next; ++ } ++ ++ /* Append new node to the chain */ ++ entry->next = pdev->freelist; ++ /* Remove the appended node from freelist */ ++ pdev->freelist = pdev->freelist->next; ++ entry= entry->next; ++ ++ /*** Set the ICB fields ***/ ++ entry->isr = isr; ++ entry->arg1 = arg1; ++ entry->arg2 = arg2; ++ entry->arg3 = arg3; ++ entry->next = NULL; ++ } ++ ++ return VLYNQ_SUCCESS; ++} ++ ++ ++ ++/* ---------------------------------------------------------------------------- ++ * Function : vlynq_uninstall_isr ++ * Description: This function is used to uninstall a previously ++ * registered ISR. In case of shared/chained interrupts, the ++ * void * arg parameter must uniquely identify the ISR to be ++ * uninstalled. ++ * Note: this function simply uninstalls the ISR in ICB ++ * It doesnt modify any register settings ++ */ ++int ++vlynq_uninstall_isr(VLYNQ_DEV *pdev, ++ unsigned int map_vector, ++ void *arg1, void *arg2, void *arg3) ++{ ++ VLYNQ_INTR_CNTRL_ICB *entry,*temp; ++ ++ if (map_vector > (VLYNQ_NUM_INT_BITS-1)) ++ return VLYNQ_INVALID_ARG; ++ ++ entry = &(pdev->pIntrCB[map_vector]); ++ ++ if(entry->isr == NULL ) ++ return VLYNQ_ISR_NON_EXISTENT; ++ ++ if ( (entry->arg1 == arg1) && (entry->arg2 == arg2) && (entry->arg3 == arg3) ) ++ { ++ if(entry->next == NULL) ++ { ++ entry->isr=NULL; ++ return VLYNQ_SUCCESS; ++ } ++ else ++ { ++ temp = entry->next; ++ /* Copy next node in the chain to prim.slot */ ++ entry->isr = temp->isr; ++ entry->arg1 = temp->arg1; ++ entry->arg2 = temp->arg2; ++ entry->arg3 = temp->arg3; ++ entry->next = temp->next; ++ /* Free the just copied node */ ++ temp->isr = NULL; ++ temp->arg1 = NULL; ++ temp->arg2 = NULL; ++ temp->arg3 = NULL; ++ temp->next = pdev->freelist; ++ pdev->freelist = temp; ++ return VLYNQ_SUCCESS; ++ } ++ } ++ else ++ { ++ temp = entry; ++ while ( (entry = temp->next) != NULL) ++ { ++ if ( (entry->arg1 == arg1) && (entry->arg2 == arg2) && (entry->arg3 == arg3) ) ++ { ++ /* remove node from chain */ ++ temp->next = entry->next; ++ /* Add the removed node to freelist */ ++ entry->isr = NULL; ++ entry->arg1 = NULL; ++ entry->arg2 = NULL; ++ entry->arg3 = NULL; ++ entry->next = pdev->freelist; ++ entry->isrCount = 0; ++ pdev->freelist = entry; ++ return VLYNQ_SUCCESS; ++ } ++ temp = entry; ++ } ++ ++ return VLYNQ_ISR_NON_EXISTENT; ++ } ++} ++ ++ ++ ++ ++/* ---------------------------------------------------------------------------- ++ * function : vlynq_interrupt_vector_set() ++ * description:configures interrupt vector mapping,interrupt type ++ * polarity -all in one go. ++ */ ++int ++vlynq_interrupt_vector_set(VLYNQ_DEV *pdev, /* vlynq device */ ++ unsigned int int_vector, /* int vector on vlynq device */ ++ unsigned int map_vector, /* bit for this interrupt */ ++ VLYNQ_DEV_TYPE dev_type, /* local or remote device */ ++ VLYNQ_INTR_POLARITY pol, /* polarity of interrupt */ ++ VLYNQ_INTR_TYPE type) /* pulsed/level interrupt */ ++{ ++ volatile unsigned int * vecreg; ++ unsigned int val=0; ++ unsigned int bytemask=0XFF; ++ ++ /* use the lower 8 bits of val to set the value , shift it to ++ * appropriate byte position in the ivr and write it to the ++ * corresponding register */ ++ ++ /* validate the number of interrupts supported */ ++ if (int_vector >= VLYNQ_IVR_MAXIVR) ++ return VLYNQ_INVALID_ARG; ++ ++ if(map_vector > (VLYNQ_NUM_INT_BITS - 1) ) ++ return VLYNQ_INVALID_ARG; ++ ++ if (dev_type == VLYNQ_LOCAL_DVC) ++ { ++ vecreg = (volatile unsigned int *) (VLYNQ_IVR_OFFSET(int_vector)); ++ } ++ else ++ { ++ vecreg = (volatile unsigned int *) (VLYNQ_R_IVR_OFFSET(int_vector)); ++ } ++ ++ /* Update the intVector<==> bit position translation table */ ++ pdev->vector_map[map_vector] = int_vector; ++ ++ /* val has been initialised to zero. we only have to turn on appropriate bits*/ ++ if(type == VLYNQ_INTR_PULSED) ++ val |= VLYNQ_IVR_INTTYPE_MASK; ++ ++ if(pol == VLYNQ_INTR_ACTIVE_LOW) ++ val |= VLYNQ_IVR_INTPOL_MASK; ++ ++ val |= map_vector; ++ ++ /** clear the correct byte position and then or val **/ ++ *vecreg = (*vecreg) & ( ~(bytemask << ( (int_vector %4)*8) ) ); ++ ++ /** write to correct byte position in vecreg*/ ++ *vecreg = (*vecreg) | (val << ( (int_vector % 4)*8) ) ; ++ ++ /* Setting a interrupt vector, leaves the interrupt disabled ++ * which must be enabled subsequently */ ++ ++ return VLYNQ_SUCCESS; ++} ++ ++ ++/* ---------------------------------------------------------------------------- ++ * Function : vlynq_interrupt_vector_cntl() ++ * Description:enables/disable interrupt ++ */ ++int vlynq_interrupt_vector_cntl( VLYNQ_DEV *pdev, ++ unsigned int int_vector, ++ VLYNQ_DEV_TYPE dev_type, ++ unsigned int enable) ++{ ++ volatile unsigned int *vecReg; ++ unsigned int val=0; ++ unsigned int intenMask=0x80; ++ ++ /* validate the number of interrupts supported */ ++ if (int_vector >= VLYNQ_IVR_MAXIVR) ++ return VLYNQ_INVALID_ARG; ++ ++ if (dev_type == VLYNQ_LOCAL_DVC) ++ { ++ vecReg = (volatile unsigned int *) (VLYNQ_IVR_OFFSET(int_vector)); ++ } ++ else ++ { ++ vecReg = (volatile unsigned int *) (VLYNQ_R_IVR_OFFSET(int_vector)); ++ } ++ ++ /** Clear the correct byte position and then or val **/ ++ *vecReg = (*vecReg) & ( ~(intenMask << ( (int_vector %4)*8) ) ); ++ ++ if(enable) ++ { ++ val |= VLYNQ_IVR_INTEN_MASK; ++ /** Write to correct byte position in vecReg*/ ++ *vecReg = (*vecReg) | (val << ( (int_vector % 4)*8) ) ; ++ } ++ ++ return VLYNQ_SUCCESS; ++ ++}/* end of function vlynq_interrupt_vector_cntl */ ++ ++ ++ ++/* ---------------------------------------------------------------------------- ++ * Function : vlynq_interrupt_vector_map() ++ * Description:Configures interrupt vector mapping alone ++ */ ++int ++vlynq_interrupt_vector_map( VLYNQ_DEV *pdev, ++ VLYNQ_DEV_TYPE dev_type, ++ unsigned int int_vector, ++ unsigned int map_vector) ++{ ++ volatile unsigned int * vecreg; ++ unsigned int val=0; ++ unsigned int bytemask=0x1f; /* mask to turn off bits corresponding to int vector */ ++ ++ /* use the lower 8 bits of val to set the value , shift it to ++ * appropriate byte position in the ivr and write it to the ++ * corresponding register */ ++ ++ /* validate the number of interrupts supported */ ++ if (int_vector >= VLYNQ_IVR_MAXIVR) ++ return VLYNQ_INVALID_ARG; ++ ++ if(map_vector > (VLYNQ_NUM_INT_BITS - 1) ) ++ return VLYNQ_INVALID_ARG; ++ ++ if (dev_type == VLYNQ_LOCAL_DVC) ++ { ++ vecreg = (volatile unsigned int *) (VLYNQ_IVR_OFFSET(int_vector)); ++ } ++ else ++ { ++ vecreg = (volatile unsigned int *) (VLYNQ_R_IVR_OFFSET(int_vector)); ++ } ++ ++ /* Update the intVector<==> bit position translation table */ ++ pdev->vector_map[map_vector] = int_vector; ++ ++ /** val has been initialised to zero. we only have to turn on ++ * appropriate bits*/ ++ val |= map_vector; ++ ++ /** clear the correct byte position and then or val **/ ++ *vecreg = (*vecreg) & ( ~(bytemask << ( (int_vector %4)*8) ) ); ++ ++ /** write to correct byte position in vecreg*/ ++ *vecreg = (*vecreg) | (val << ( (int_vector % 4)*8) ) ; ++ ++ return VLYNQ_SUCCESS; ++} ++ ++ ++/* ---------------------------------------------------------------------------- ++ * function : vlynq_interrupt_set_polarity() ++ * description:configures interrupt polarity . ++ */ ++int ++vlynq_interrupt_set_polarity( VLYNQ_DEV *pdev , ++ VLYNQ_DEV_TYPE dev_type, ++ unsigned int map_vector, ++ VLYNQ_INTR_POLARITY pol) ++{ ++ volatile unsigned int * vecreg; ++ int int_vector; ++ unsigned int val=0; ++ unsigned int bytemask=0x20; /** mask to turn off bits corresponding to int polarity */ ++ ++ /* get the int_vector from map_vector */ ++ int_vector = pdev->vector_map[map_vector]; ++ ++ if(int_vector == -1) ++ return VLYNQ_INTVEC_MAP_NOT_FOUND; ++ ++ /* use the lower 8 bits of val to set the value , shift it to ++ * appropriate byte position in the ivr and write it to the ++ * corresponding register */ ++ ++ if (dev_type == VLYNQ_LOCAL_DVC) ++ { ++ vecreg = (volatile unsigned int *) (VLYNQ_IVR_OFFSET(int_vector)); ++ } ++ else ++ { ++ vecreg = (volatile unsigned int *) (VLYNQ_R_IVR_OFFSET(int_vector)); ++ } ++ ++ /* val has been initialised to zero. we only have to turn on ++ * appropriate bits, if need be*/ ++ ++ /** clear the correct byte position and then or val **/ ++ *vecreg = (*vecreg) & ( ~(bytemask << ( (int_vector %4)*8) ) ); ++ ++ if( pol == VLYNQ_INTR_ACTIVE_LOW) ++ { ++ val |= VLYNQ_IVR_INTPOL_MASK; ++ /** write to correct byte position in vecreg*/ ++ *vecreg = (*vecreg) | (val << ( (int_vector % 4)*8) ) ; ++ } ++ ++ return VLYNQ_SUCCESS; ++} ++ ++int vlynq_interrupt_get_polarity( VLYNQ_DEV *pdev , ++ VLYNQ_DEV_TYPE dev_type, ++ unsigned int map_vector) ++{ ++ volatile unsigned int * vecreg; ++ int int_vector; ++ unsigned int val=0; ++ ++ /* get the int_vector from map_vector */ ++ int_vector = pdev->vector_map[map_vector]; ++ ++ if (map_vector > (VLYNQ_NUM_INT_BITS-1)) ++ return(-1); ++ ++ if(int_vector == -1) ++ return VLYNQ_INTVEC_MAP_NOT_FOUND; ++ ++ /* use the lower 8 bits of val to set the value , shift it to ++ * appropriate byte position in the ivr and write it to the ++ * corresponding register */ ++ ++ if (dev_type == VLYNQ_LOCAL_DVC) ++ { ++ vecreg = (volatile unsigned int *) (VLYNQ_IVR_OFFSET(int_vector)); ++ } ++ else ++ { ++ vecreg = (volatile unsigned int *) (VLYNQ_R_IVR_OFFSET(int_vector)); ++ } ++ ++ /** read the information into val **/ ++ val = (*vecreg) & ((VLYNQ_IVR_INTPOL_MASK << ( (int_vector %4)*8) ) ); ++ ++ return (val ? (VLYNQ_INTR_ACTIVE_LOW) : (VLYNQ_INTR_ACTIVE_HIGH)); ++} ++ ++ ++/* ---------------------------------------------------------------------------- ++ * function : vlynq_interrupt_set_type() ++ * description:configures interrupt type . ++ */ ++int vlynq_interrupt_set_type( VLYNQ_DEV *pdev, ++ VLYNQ_DEV_TYPE dev_type, ++ unsigned int map_vector, ++ VLYNQ_INTR_TYPE type) ++{ ++ volatile unsigned int * vecreg; ++ unsigned int val=0; ++ int int_vector; ++ ++ /** mask to turn off bits corresponding to interrupt type */ ++ unsigned int bytemask=0x40; ++ ++ /* get the int_vector from map_vector */ ++ int_vector = pdev->vector_map[map_vector]; ++ if(int_vector == -1) ++ return VLYNQ_INTVEC_MAP_NOT_FOUND; ++ ++ /* use the lower 8 bits of val to set the value , shift it to ++ * appropriate byte position in the ivr and write it to the ++ * corresponding register */ ++ if (dev_type == VLYNQ_LOCAL_DVC) ++ { ++ vecreg = (volatile unsigned int *) (VLYNQ_IVR_OFFSET(int_vector)); ++ } ++ else ++ { ++ vecreg = (volatile unsigned int *) (VLYNQ_R_IVR_OFFSET(int_vector)); ++ } ++ ++ /** val has been initialised to zero. we only have to turn on ++ * appropriate bits if need be*/ ++ ++ /** clear the correct byte position and then or val **/ ++ *vecreg = (*vecreg) & ( ~(bytemask << ( (int_vector %4)*8) ) ); ++ ++ if( type == VLYNQ_INTR_PULSED) ++ { ++ val |= VLYNQ_IVR_INTTYPE_MASK; ++ /** write to correct byte position in vecreg*/ ++ *vecreg = (*vecreg) | (val << ( (int_vector % 4)*8) ) ; ++ } ++ ++ return VLYNQ_SUCCESS; ++} ++ ++/* ---------------------------------------------------------------------------- ++ * function : vlynq_interrupt_get_type() ++ * description:returns interrupt type . ++ */ ++int vlynq_interrupt_get_type( VLYNQ_DEV *pdev, VLYNQ_DEV_TYPE dev_type, ++ unsigned int map_vector) ++{ ++ volatile unsigned int * vecreg; ++ unsigned int val=0; ++ int int_vector; ++ ++ if (map_vector > (VLYNQ_NUM_INT_BITS-1)) ++ return(-1); ++ ++ /* get the int_vector from map_vector */ ++ int_vector = pdev->vector_map[map_vector]; ++ if(int_vector == -1) ++ return VLYNQ_INTVEC_MAP_NOT_FOUND; ++ ++ /* use the lower 8 bits of val to set the value , shift it to ++ * appropriate byte position in the ivr and write it to the ++ * corresponding register */ ++ if (dev_type == VLYNQ_LOCAL_DVC) ++ { ++ vecreg = (volatile unsigned int *) (VLYNQ_IVR_OFFSET(int_vector)); ++ } ++ else ++ { ++ vecreg = (volatile unsigned int *) (VLYNQ_R_IVR_OFFSET(int_vector)); ++ } ++ ++ /** Read the correct bit position into val **/ ++ val = (*vecreg) & ((VLYNQ_IVR_INTTYPE_MASK << ( (int_vector %4)*8) ) ); ++ ++ return (val ? (VLYNQ_INTR_PULSED) : (VLYNQ_INTR_LEVEL)); ++} ++ ++/* ---------------------------------------------------------------------------- ++ * function : vlynq_interrupt_enable() ++ * description:Enable interrupt by writing to IVR register. ++ */ ++int vlynq_interrupt_enable( VLYNQ_DEV *pdev, ++ VLYNQ_DEV_TYPE dev_type, ++ unsigned int map_vector) ++{ ++ volatile unsigned int * vecreg; ++ unsigned int val=0; ++ int int_vector; ++ ++ /** mask to turn off bits corresponding to interrupt enable */ ++ unsigned int bytemask=0x80; ++ ++ /* get the int_vector from map_vector */ ++ int_vector = pdev->vector_map[map_vector]; ++ if(int_vector == -1) ++ return VLYNQ_INTVEC_MAP_NOT_FOUND; ++ ++ /* use the lower 8 bits of val to set the value , shift it to ++ * appropriate byte position in the ivr and write it to the ++ * corresponding register */ ++ ++ if (dev_type == VLYNQ_LOCAL_DVC) ++ { ++ vecreg = (volatile unsigned int *) (VLYNQ_IVR_OFFSET(int_vector)); ++ } ++ else ++ { ++ vecreg = (volatile unsigned int *) (VLYNQ_R_IVR_OFFSET(int_vector)); ++ } ++ ++ /** val has been initialised to zero. we only have to turn on ++ * bit corresponding to interrupt enable*/ ++ val |= VLYNQ_IVR_INTEN_MASK; ++ ++ /** clear the correct byte position and then or val **/ ++ *vecreg = (*vecreg) & ( ~(bytemask << ( (int_vector %4)*8) ) ); ++ ++ /** write to correct byte position in vecreg*/ ++ *vecreg = (*vecreg) | (val << ( (int_vector % 4)*8) ) ; ++ ++ return VLYNQ_SUCCESS; ++} ++ ++ ++/* ---------------------------------------------------------------------------- ++ * function : vlynq_interrupt_disable() ++ * description:Disable interrupt by writing to IVR register. ++ */ ++int ++vlynq_interrupt_disable( VLYNQ_DEV *pdev, ++ VLYNQ_DEV_TYPE dev_type, ++ unsigned int map_vector) ++{ ++ volatile unsigned int * vecreg; ++ int int_vector; ++ ++ /** mask to turn off bits corresponding to interrupt enable */ ++ unsigned int bytemask=0x80; ++ ++ /* get the int_vector from map_vector */ ++ int_vector = pdev->vector_map[map_vector]; ++ if(int_vector == -1) ++ return VLYNQ_INTVEC_MAP_NOT_FOUND; ++ ++ /* use the lower 8 bits of val to set the value , shift it to ++ * appropriate byte position in the ivr and write it to the ++ * corresponding register */ ++ if (dev_type == VLYNQ_LOCAL_DVC) ++ { ++ vecreg = (volatile unsigned int *) (VLYNQ_IVR_OFFSET(int_vector)); ++ } ++ else ++ { ++ vecreg = (volatile unsigned int *) (VLYNQ_R_IVR_OFFSET(int_vector)); ++ } ++ ++ /* We disable the interrupt by simply turning off the bit ++ * corresponding to Interrupt enable. ++ * Clear the interrupt enable bit in the correct byte position **/ ++ *vecreg = (*vecreg) & ( ~(bytemask << ( (int_vector %4)*8) ) ); ++ ++ /* Dont have to set any bit positions */ ++ ++ return VLYNQ_SUCCESS; ++ ++} ++ ++ ++ ++ +diff -urN linux.old/drivers/char/serial.c linux.dev/drivers/char/serial.c +--- linux.old/drivers/char/serial.c 2005-10-21 16:43:20.709226000 +0200 ++++ linux.dev/drivers/char/serial.c 2005-11-10 01:10:46.015585250 +0100 +@@ -419,7 +419,40 @@ + return 0; + } + +-#if defined(CONFIG_MIPS_ATLAS) || defined(CONFIG_MIPS_SEAD) ++#if defined(CONFIG_AR7) ++ ++static _INLINE_ unsigned int serial_in(struct async_struct *info, int offset) ++{ ++ return (inb(info->port + (offset * 4)) & 0xff); ++} ++ ++ ++static _INLINE_ unsigned int serial_inp(struct async_struct *info, int offset) ++{ ++#ifdef CONFIG_SERIAL_NOPAUSE_IO ++ return (inb(info->port + (offset * 4)) & 0xff); ++#else ++ return (inb_p(info->port + (offset * 4)) & 0xff); ++#endif ++} ++ ++static _INLINE_ void serial_out(struct async_struct *info, int offset, int value) ++{ ++ outb(value, info->port + (offset * 4)); ++} ++ ++ ++static _INLINE_ void serial_outp(struct async_struct *info, int offset, ++ int value) ++{ ++#ifdef CONFIG_SERIAL_NOPAUSE_IO ++ outb(value, info->port + (offset * 4)); ++#else ++ outb_p(value, info->port + (offset * 4)); ++#endif ++} ++ ++#elif defined(CONFIG_MIPS_ATLAS) || defined(CONFIG_MIPS_SEAD) + + #include <asm/mips-boards/atlas.h> + +@@ -478,8 +511,10 @@ + * needed for certain old 386 machines, I've left these #define's + * in.... + */ ++#ifndef CONFIG_AR7 + #define serial_inp(info, offset) serial_in(info, offset) + #define serial_outp(info, offset, value) serial_out(info, offset, value) ++#endif + + + /* +@@ -1728,7 +1763,15 @@ + /* Special case since 134 is really 134.5 */ + quot = (2*baud_base / 269); + else if (baud) ++#ifdef CONFIG_AR7 ++ quot = (CONFIG_AR7_SYS*500000) / baud; ++ ++ if ((quot%16)>7) ++ quot += 8; ++ quot /=16; ++#else + quot = baud_base / baud; ++#endif + } + /* If the quotient is zero refuse the change */ + if (!quot && old_termios) { +@@ -5540,8 +5583,10 @@ + state->irq = irq_cannonicalize(state->irq); + if (state->hub6) + state->io_type = SERIAL_IO_HUB6; ++#ifndef CONFIG_AR7 + if (state->port && check_region(state->port,8)) + continue; ++#endif + #ifdef CONFIG_MCA + if ((state->flags & ASYNC_BOOT_ONLYMCA) && !MCA_bus) + continue; +@@ -5997,7 +6042,15 @@ + info->io_type = state->io_type; + info->iomem_base = state->iomem_base; + info->iomem_reg_shift = state->iomem_reg_shift; ++#ifdef CONFIG_AR7 ++ quot = (CONFIG_AR7_SYS*500000) / baud; ++ ++ if ((quot%16)>7) ++ quot += 8; ++ quot /=16; ++#else + quot = state->baud_base / baud; ++#endif + cval = cflag & (CSIZE | CSTOPB); + #if defined(__powerpc__) || defined(__alpha__) + cval >>= 8; +diff -urN linux.old/drivers/char/ticfg/Makefile linux.dev/drivers/char/ticfg/Makefile +--- linux.old/drivers/char/ticfg/Makefile 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/char/ticfg/Makefile 2005-11-10 01:10:46.051587500 +0100 +@@ -0,0 +1,6 @@ ++ ++O_TARGET := ticfg.o ++ ++obj-$(CONFIG_AR7_ADAM2) := adam2_env.o ++ ++include $(TOPDIR)/Rules.make +diff -urN linux.old/drivers/char/ticfg/adam2_env.c linux.dev/drivers/char/ticfg/adam2_env.c +--- linux.old/drivers/char/ticfg/adam2_env.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/char/ticfg/adam2_env.c 2005-11-10 01:10:46.051587500 +0100 +@@ -0,0 +1,85 @@ ++#include <linux/types.h> ++#include <linux/errno.h> ++#include <linux/module.h> ++#include <linux/kernel.h> ++#include <linux/proc_fs.h> ++#include <linux/fcntl.h> ++#include <linux/init.h> ++ ++#include <asm/ar7/adam2_env.h> ++ ++#undef ADAM2_ENV_DEBUG ++ ++#ifdef ADAM2_ENV_DEBUG ++#define DPRINTK(args...) do { printk(args); } while(0); ++#else ++#define DPRINTK(args...) do { } while(0); ++#endif ++ ++#define ADAM2_ENV_DIR "ticfg" ++#define ADAM2_ENV_NAME "env" ++ ++static struct proc_dir_entry *adam2_env_proc_dir; ++static struct proc_dir_entry *adam2_env_proc_ent; ++ ++static int ++adam2_proc_read_env(char *page, char **start, off_t pos, int count, ++ int *eof, void *data) ++{ ++ int len; ++ t_env_var *env; ++ ++ if (pos > 0) ++ return 0; ++ ++ len=0; ++ for (env = prom_iterenv(0); env; env = prom_iterenv(env)) { ++ if (env->val) { ++ /* XXX check for page len */ ++ len += sprintf(page + len, "%s\t%s\n", ++ env->name, env->val); ++ } ++ } ++ ++ *eof=1; ++ return len; ++} ++ ++static int __init ++adam2_env_init(void) ++{ ++ ++ DPRINTK("%s\n", __FUNCTION__); ++ ++ adam2_env_proc_dir = proc_mkdir(ADAM2_ENV_DIR, NULL); ++ if (!adam2_env_proc_dir) { ++ printk(KERN_ERR "%s: Unable to create /proc/%s entry\n", ++ __FUNCTION__, ADAM2_ENV_DIR); ++ return -ENOMEM; ++ } ++ ++ adam2_env_proc_ent = ++ create_proc_entry(ADAM2_ENV_NAME, 0444, adam2_env_proc_dir); ++ if (!adam2_env_proc_ent) { ++ printk(KERN_ERR "%s: Unable to create /proc/%s/%s entry\n", ++ __FUNCTION__, ADAM2_ENV_DIR, ADAM2_ENV_NAME); ++ remove_proc_entry(ADAM2_ENV_DIR, NULL); ++ return -ENOMEM; ++ } ++ adam2_env_proc_ent->read_proc = adam2_proc_read_env; ++ ++ return 0; ++} ++ ++static ++void __exit ++adam2_env_cleanup(void) ++{ ++ remove_proc_entry(ADAM2_ENV_NAME, adam2_env_proc_dir); ++ remove_proc_entry(ADAM2_ENV_DIR, NULL); ++} ++ ++module_init(adam2_env_init); ++module_exit(adam2_env_cleanup); ++ ++MODULE_LICENSE("GPL"); +diff -urN linux.old/include/asm-mips/addrspace.h linux.dev/include/asm-mips/addrspace.h +--- linux.old/include/asm-mips/addrspace.h 2002-11-29 00:53:15.000000000 +0100 ++++ linux.dev/include/asm-mips/addrspace.h 2005-11-10 01:14:16.400733500 +0100 +@@ -11,6 +11,8 @@ + #ifndef __ASM_MIPS_ADDRSPACE_H + #define __ASM_MIPS_ADDRSPACE_H + ++#include <linux/config.h> ++ + /* + * Configure language + */ +@@ -102,4 +104,11 @@ + #define XKPHYS_TO_PHYS(p) ((p) & TO_PHYS_MASK) + #define PHYS_TO_XKPHYS(cm,a) (0x8000000000000000 | ((cm)<<59) | (a)) + ++#ifdef CONFIG_AR7_MEMORY ++#define PHYS_OFFSET ((unsigned long)(CONFIG_AR7_MEMORY)) ++#else ++#define PHYS_OFFSET (0) ++#endif ++#define PHYS_PFN_OFFSET (PHYS_OFFSET >> PAGE_SHIFT) ++ + #endif /* __ASM_MIPS_ADDRSPACE_H */ +diff -urN linux.old/include/asm-mips/ar7/adam2_env.h linux.dev/include/asm-mips/ar7/adam2_env.h +--- linux.old/include/asm-mips/ar7/adam2_env.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/include/asm-mips/ar7/adam2_env.h 2005-11-10 01:10:46.067588500 +0100 +@@ -0,0 +1,13 @@ ++#ifndef _INCLUDE_ASM_AR7_ADAM2_ENV_H_ ++#define _INCLUDE_ASM_AR7_ADAM2_ENV_H_ ++ ++/* Environment variable */ ++typedef struct { ++ char *name; ++ char *val; ++} t_env_var; ++ ++char *prom_getenv(char *); ++t_env_var *prom_iterenv(t_env_var *); ++ ++#endif /* _INCLUDE_ASM_AR7_ADAM2_ENV_H_ */ +diff -urN linux.old/include/asm-mips/ar7/ar7.h linux.dev/include/asm-mips/ar7/ar7.h +--- linux.old/include/asm-mips/ar7/ar7.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/include/asm-mips/ar7/ar7.h 2005-11-10 01:10:46.067588500 +0100 +@@ -0,0 +1,33 @@ ++/* ++ * $Id$ ++ * Copyright (C) $Date$ $Author$ ++ * ++ * This program is free software; you can redistribute it and/or modify ++ * it under the terms of the GNU General Public License as published by ++ * the Free Software Foundation; either version 2 of the License, or ++ * (at your option) any later version. ++ * ++ * This program is distributed in the hope that it will be useful, ++ * but WITHOUT ANY WARRANTY; without even the implied warranty of ++ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ++ * GNU General Public License for more details. ++ * ++ * You should have received a copy of the GNU General Public License ++ * along with this program; if not, write to the Free Software ++ * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA ++ * ++ */ ++ ++#ifndef _AR7_H ++#define _AR7_H ++ ++#include <asm/addrspace.h> ++#include <linux/config.h> ++ ++#define AVALANCHE_VECS_KSEG0 (KSEG0ADDR(CONFIG_AR7_MEMORY)) ++ ++#define AR7_UART0_REGS_BASE (KSEG1ADDR(0x08610E00)) ++#define AR7_UART1_REGS_BASE (KSEG1ADDR(0x08610F00)) ++#define AR7_BASE_BAUD ( 3686400 / 16 ) ++ ++#endif +diff -urN linux.old/include/asm-mips/ar7/avalanche_intc.h linux.dev/include/asm-mips/ar7/avalanche_intc.h +--- linux.old/include/asm-mips/ar7/avalanche_intc.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/include/asm-mips/ar7/avalanche_intc.h 2005-11-10 01:10:46.067588500 +0100 +@@ -0,0 +1,292 @@ ++ /* ++ * Nitin Dhingra, iamnd@ti.com ++ * Copyright (C) 2000 Texas Instruments Inc. ++ * ++ * ++ * ######################################################################## ++ * ++ * This program is free software; you can distribute it and/or modify it ++ * under the terms of the GNU General Public License (Version 2) as ++ * published by the Free Software Foundation. ++ * ++ * This program is distributed in the hope it will be useful, but WITHOUT ++ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or ++ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License ++ * for more details. ++ * ++ * You should have received a copy of the GNU General Public License along ++ * with this program; if not, write to the Free Software Foundation, Inc., ++ * 59 Temple Place - Suite 330, Boston MA 02111-1307, USA. ++ * ++ * ######################################################################## ++ * ++ * Defines of the Sead board specific address-MAP, registers, etc. ++ * ++ */ ++#ifndef _AVALANCHE_INTC_H ++#define _AVALANCHE_INTC_H ++ ++#include <linux/config.h> ++ ++/* ----- */ ++ ++#define KSEG1_BASE 0xA0000000 ++#define KSEG_INV_MASK 0x1FFFFFFF /* Inverted mask for kseg address */ ++#define PHYS_ADDR(addr) ((addr) & KSEG_INV_MASK) ++#define PHYS_TO_K1(addr) (PHYS_ADDR(addr)|KSEG1_BASE) ++#define AVALANCHE_INTC_BASE PHYS_TO_K1(0x08612400) ++ ++/* ----- */ ++ ++#define MIPS_EXCEPTION_OFFSET 8 ++ ++/****************************************************************************** ++ Avalanche Interrupt number ++******************************************************************************/ ++#define AVINTNUM(x) ((x) - MIPS_EXCEPTION_OFFSET) ++ ++/******************************************************************************* ++*Linux Interrupt number ++*******************************************************************************/ ++#define LNXINTNUM(x)((x) + MIPS_EXCEPTION_OFFSET) ++ ++ ++ ++#define AVALANCHE_INT_END_PRIMARY (40 + MIPS_EXCEPTION_OFFSET) ++#define AVALANCHE_INT_END_SECONDARY (32 + MIPS_EXCEPTION_OFFSET) ++ ++#define AVALANCHE_INT_END_PRIMARY_REG1 (31 + MIPS_EXCEPTION_OFFSET) ++#define AVALANCHE_INT_END_PRIMARY_REG2 (39 + MIPS_EXCEPTION_OFFSET) ++ ++#define AVALANCHE_INTC_END (AVINTNUM(AVALANCHE_INT_END_PRIMARY) + \ ++ AVINTNUM(AVALANCHE_INT_END_SECONDARY) + \ ++ MIPS_EXCEPTION_OFFSET) ++ ++#if defined(CONFIG_AR7_VLYNQ) ++#define AVALANCHE_INT_END_LOW_VLYNQ (AVALANCHE_INTC_END + 32) ++#define AVALANCHE_INT_END_VLYNQ (AVALANCHE_INTC_END + 32 * CONFIG_AR7_VLYNQ_PORTS) ++#define AVALANCHE_INT_END AVALANCHE_INT_END_VLYNQ ++#else ++#define AVALANCHE_INT_END AVALANCHE_INTC_END ++#endif ++ ++ ++/* ++ * Avalanche interrupt controller register base (primary) ++ */ ++#define AVALANCHE_ICTRL_REGS_BASE AVALANCHE_INTC_BASE ++ ++/****************************************************************************** ++ * Avalanche exception controller register base (secondary) ++ ******************************************************************************/ ++#define AVALANCHE_ECTRL_REGS_BASE (AVALANCHE_ICTRL_REGS_BASE + 0x80) ++ ++ ++/****************************************************************************** ++ * Avalanche Interrupt pacing register base (secondary) ++ ******************************************************************************/ ++#define AVALANCHE_IPACE_REGS_BASE (AVALANCHE_ICTRL_REGS_BASE + 0xA0) ++ ++ ++ ++/****************************************************************************** ++ * Avalanche Interrupt Channel Control register base ++ *****************************************************************************/ ++#define AVALANCHE_CHCTRL_REGS_BASE (AVALANCHE_ICTRL_REGS_BASE + 0x200) ++ ++ ++struct avalanche_ictrl_regs /* Avalanche Interrupt control registers */ ++{ ++ volatile unsigned long intsr1; /* Interrupt Status/Set Register 1 0x00 */ ++ volatile unsigned long intsr2; /* Interrupt Status/Set Register 2 0x04 */ ++ volatile unsigned long unused1; /*0x08 */ ++ volatile unsigned long unused2; /*0x0C */ ++ volatile unsigned long intcr1; /* Interrupt Clear Register 1 0x10 */ ++ volatile unsigned long intcr2; /* Interrupt Clear Register 2 0x14 */ ++ volatile unsigned long unused3; /*0x18 */ ++ volatile unsigned long unused4; /*0x1C */ ++ volatile unsigned long intesr1; /* Interrupt Enable (Set) Register 1 0x20 */ ++ volatile unsigned long intesr2; /* Interrupt Enable (Set) Register 2 0x24 */ ++ volatile unsigned long unused5; /*0x28 */ ++ volatile unsigned long unused6; /*0x2C */ ++ volatile unsigned long intecr1; /* Interrupt Enable Clear Register 1 0x30 */ ++ volatile unsigned long intecr2; /* Interrupt Enable Clear Register 2 0x34 */ ++ volatile unsigned long unused7; /* 0x38 */ ++ volatile unsigned long unused8; /* 0x3c */ ++ volatile unsigned long pintir; /* Priority Interrupt Index Register 0x40 */ ++ volatile unsigned long intmsr; /* Priority Interrupt Mask Index Reg 0x44 */ ++ volatile unsigned long unused9; /* 0x48 */ ++ volatile unsigned long unused10; /* 0x4C */ ++ volatile unsigned long intpolr1; /* Interrupt Polarity Mask register 10x50 */ ++ volatile unsigned long intpolr2; /* Interrupt Polarity Mask register 20x54 */ ++ volatile unsigned long unused11; /* 0x58 */ ++ volatile unsigned long unused12; /*0x5C */ ++ volatile unsigned long inttypr1; /* Interrupt Type Mask register 10x60 */ ++ volatile unsigned long inttypr2; /* Interrupt Type Mask register 20x64 */ ++}; ++ ++struct avalanche_exctrl_regs /* Avalanche Exception control registers */ ++{ ++ volatile unsigned long exsr; /* Exceptions Status/Set register 0x80 */ ++ volatile unsigned long reserved; /*0x84 */ ++ volatile unsigned long excr; /* Exceptions Clear Register 0x88 */ ++ volatile unsigned long reserved1; /*0x8c */ ++ volatile unsigned long exiesr; /* Exceptions Interrupt Enable (set) 0x90 */ ++ volatile unsigned long reserved2; /*0x94 */ ++ volatile unsigned long exiecr; /* Exceptions Interrupt Enable(clear)0x98 */ ++}; ++struct avalanche_ipace_regs ++{ ++ ++ volatile unsigned long ipacep; /* Interrupt pacing register 0xa0 */ ++ volatile unsigned long ipacemap; /*Interrupt Pacing Map Register 0xa4 */ ++ volatile unsigned long ipacemax; /*Interrupt Pacing Max Register 0xa8 */ ++}; ++struct avalanche_channel_int_number ++{ ++ volatile unsigned long cintnr0; /* Channel Interrupt Number Register0x200 */ ++ volatile unsigned long cintnr1; /* Channel Interrupt Number Register0x204 */ ++ volatile unsigned long cintnr2; /* Channel Interrupt Number Register0x208 */ ++ volatile unsigned long cintnr3; /* Channel Interrupt Number Register0x20C */ ++ volatile unsigned long cintnr4; /* Channel Interrupt Number Register0x210 */ ++ volatile unsigned long cintnr5; /* Channel Interrupt Number Register0x214 */ ++ volatile unsigned long cintnr6; /* Channel Interrupt Number Register0x218 */ ++ volatile unsigned long cintnr7; /* Channel Interrupt Number Register0x21C */ ++ volatile unsigned long cintnr8; /* Channel Interrupt Number Register0x220 */ ++ volatile unsigned long cintnr9; /* Channel Interrupt Number Register0x224 */ ++ volatile unsigned long cintnr10; /* Channel Interrupt Number Register0x228 */ ++ volatile unsigned long cintnr11; /* Channel Interrupt Number Register0x22C */ ++ volatile unsigned long cintnr12; /* Channel Interrupt Number Register0x230 */ ++ volatile unsigned long cintnr13; /* Channel Interrupt Number Register0x234 */ ++ volatile unsigned long cintnr14; /* Channel Interrupt Number Register0x238 */ ++ volatile unsigned long cintnr15; /* Channel Interrupt Number Register0x23C */ ++ volatile unsigned long cintnr16; /* Channel Interrupt Number Register0x240 */ ++ volatile unsigned long cintnr17; /* Channel Interrupt Number Register0x244 */ ++ volatile unsigned long cintnr18; /* Channel Interrupt Number Register0x248 */ ++ volatile unsigned long cintnr19; /* Channel Interrupt Number Register0x24C */ ++ volatile unsigned long cintnr20; /* Channel Interrupt Number Register0x250 */ ++ volatile unsigned long cintnr21; /* Channel Interrupt Number Register0x254 */ ++ volatile unsigned long cintnr22; /* Channel Interrupt Number Register0x358 */ ++ volatile unsigned long cintnr23; /* Channel Interrupt Number Register0x35C */ ++ volatile unsigned long cintnr24; /* Channel Interrupt Number Register0x260 */ ++ volatile unsigned long cintnr25; /* Channel Interrupt Number Register0x264 */ ++ volatile unsigned long cintnr26; /* Channel Interrupt Number Register0x268 */ ++ volatile unsigned long cintnr27; /* Channel Interrupt Number Register0x26C */ ++ volatile unsigned long cintnr28; /* Channel Interrupt Number Register0x270 */ ++ volatile unsigned long cintnr29; /* Channel Interrupt Number Register0x274 */ ++ volatile unsigned long cintnr30; /* Channel Interrupt Number Register0x278 */ ++ volatile unsigned long cintnr31; /* Channel Interrupt Number Register0x27C */ ++ volatile unsigned long cintnr32; /* Channel Interrupt Number Register0x280 */ ++ volatile unsigned long cintnr33; /* Channel Interrupt Number Register0x284 */ ++ volatile unsigned long cintnr34; /* Channel Interrupt Number Register0x288 */ ++ volatile unsigned long cintnr35; /* Channel Interrupt Number Register0x28C */ ++ volatile unsigned long cintnr36; /* Channel Interrupt Number Register0x290 */ ++ volatile unsigned long cintnr37; /* Channel Interrupt Number Register0x294 */ ++ volatile unsigned long cintnr38; /* Channel Interrupt Number Register0x298 */ ++ volatile unsigned long cintnr39; /* Channel Interrupt Number Register0x29C */ ++}; ++ ++struct avalanche_interrupt_line_to_channel ++{ ++ unsigned long int_line0; /* Start of primary interrupts */ ++ unsigned long int_line1; ++ unsigned long int_line2; ++ unsigned long int_line3; ++ unsigned long int_line4; ++ unsigned long int_line5; ++ unsigned long int_line6; ++ unsigned long int_line7; ++ unsigned long int_line8; ++ unsigned long int_line9; ++ unsigned long int_line10; ++ unsigned long int_line11; ++ unsigned long int_line12; ++ unsigned long int_line13; ++ unsigned long int_line14; ++ unsigned long int_line15; ++ unsigned long int_line16; ++ unsigned long int_line17; ++ unsigned long int_line18; ++ unsigned long int_line19; ++ unsigned long int_line20; ++ unsigned long int_line21; ++ unsigned long int_line22; ++ unsigned long int_line23; ++ unsigned long int_line24; ++ unsigned long int_line25; ++ unsigned long int_line26; ++ unsigned long int_line27; ++ unsigned long int_line28; ++ unsigned long int_line29; ++ unsigned long int_line30; ++ unsigned long int_line31; ++ unsigned long int_line32; ++ unsigned long int_line33; ++ unsigned long int_line34; ++ unsigned long int_line35; ++ unsigned long int_line36; ++ unsigned long int_line37; ++ unsigned long int_line38; ++ unsigned long int_line39; ++}; ++ ++ ++/* Interrupt Line #'s (Sangam peripherals) */ ++ ++/*------------------------------*/ ++/* Sangam primary interrupts */ ++/*------------------------------*/ ++ ++#define UNIFIED_SECONDARY_INTERRUPT 0 ++#define AVALANCHE_EXT_INT_0 1 ++#define AVALANCHE_EXT_INT_1 2 ++/* Line #3 Reserved */ ++/* Line #4 Reserved */ ++#define AVALANCHE_TIMER_0_INT 5 ++#define AVALANCHE_TIMER_1_INT 6 ++#define AVALANCHE_UART0_INT 7 ++#define AVALANCHE_UART1_INT 8 ++#define AVALANCHE_PDMA_INT0 9 ++#define AVALANCHE_PDMA_INT1 10 ++/* Line #11 Reserved */ ++/* Line #12 Reserved */ ++/* Line #13 Reserved */ ++/* Line #14 Reserved */ ++#define AVALANCHE_ATM_SAR_INT 15 ++/* Line #16 Reserved */ ++/* Line #17 Reserved */ ++/* Line #18 Reserved */ ++#define AVALANCHE_MAC0_INT 19 ++/* Line #20 Reserved */ ++#define AVALANCHE_VLYNQ0_INT 21 ++#define AVALANCHE_CODEC_WAKE_INT 22 ++/* Line #23 Reserved */ ++#define AVALANCHE_USB_INT 24 ++#define AVALANCHE_VLYNQ1_INT 25 ++/* Line #26 Reserved */ ++/* Line #27 Reserved */ ++#define AVALANCHE_MAC1_INT 28 ++#define AVALANCHE_I2CM_INT 29 ++#define AVALANCHE_PDMA_INT2 30 ++#define AVALANCHE_PDMA_INT3 31 ++/* Line #32 Reserved */ ++/* Line #33 Reserved */ ++/* Line #34 Reserved */ ++/* Line #35 Reserved */ ++/* Line #36 Reserved */ ++#define AVALANCHE_VDMA_VT_RX_INT 37 ++#define AVALANCHE_VDMA_VT_TX_INT 38 ++#define AVALANCHE_ADSLSS_INT 39 ++ ++/*-----------------------------------*/ ++/* Sangam Secondary Interrupts */ ++/*-----------------------------------*/ ++#define PRIMARY_INTS 40 ++ ++#define EMIF_INT (7 + PRIMARY_INTS) ++ ++ ++extern void avalanche_int_set(int channel, int line); ++ ++ ++#endif /* _AVALANCHE_INTC_H */ +diff -urN linux.old/include/asm-mips/ar7/avalanche_misc.h linux.dev/include/asm-mips/ar7/avalanche_misc.h +--- linux.old/include/asm-mips/ar7/avalanche_misc.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/include/asm-mips/ar7/avalanche_misc.h 2005-11-10 01:10:46.067588500 +0100 +@@ -0,0 +1,174 @@ ++#ifndef _AVALANCHE_MISC_H_ ++#define _AVALANCHE_MISC_H_ ++ ++typedef enum AVALANCHE_ERR_t ++{ ++ AVALANCHE_ERR_OK = 0, /* OK or SUCCESS */ ++ AVALANCHE_ERR_ERROR = -1, /* Unspecified/Generic ERROR */ ++ ++ /* Pointers and args */ ++ AVALANCHE_ERR_INVARG = -2, /* Invaild argument to the call */ ++ AVALANCHE_ERR_NULLPTR = -3, /* NULL pointer */ ++ AVALANCHE_ERR_BADPTR = -4, /* Bad (out of mem) pointer */ ++ ++ /* Memory issues */ ++ AVALANCHE_ERR_ALLOC_FAIL = -10, /* allocation failed */ ++ AVALANCHE_ERR_FREE_FAIL = -11, /* free failed */ ++ AVALANCHE_ERR_MEM_CORRUPT = -12, /* corrupted memory */ ++ AVALANCHE_ERR_BUF_LINK = -13, /* buffer linking failed */ ++ ++ /* Device issues */ ++ AVALANCHE_ERR_DEVICE_TIMEOUT = -20, /* device timeout on read/write */ ++ AVALANCHE_ERR_DEVICE_MALFUNC = -21, /* device malfunction */ ++ ++ AVALANCHE_ERR_INVID = -30 /* Invalid ID */ ++ ++} AVALANCHE_ERR; ++ ++/***************************************************************************** ++ * Reset Control Module ++ *****************************************************************************/ ++ ++typedef enum AVALANCHE_RESET_MODULE_tag ++{ ++ RESET_MODULE_UART0 = 0, ++ RESET_MODULE_UART1 = 1, ++ RESET_MODULE_I2C = 2, ++ RESET_MODULE_TIMER0 = 3, ++ RESET_MODULE_TIMER1 = 4, ++ RESET_MODULE_GPIO = 6, ++ RESET_MODULE_ADSLSS = 7, ++ RESET_MODULE_USBS = 8, ++ RESET_MODULE_SAR = 9, ++ RESET_MODULE_VDMA_VT = 11, ++ RESET_MODULE_FSER = 12, ++ RESET_MODULE_VLYNQ1 = 16, ++ RESET_MODULE_EMAC0 = 17, ++ RESET_MODULE_DMA = 18, ++ RESET_MODULE_BIST = 19, ++ RESET_MODULE_VLYNQ0 = 20, ++ RESET_MODULE_EMAC1 = 21, ++ RESET_MODULE_MDIO = 22, ++ RESET_MODULE_ADSLSS_DSP = 23, ++ RESET_MODULE_EPHY = 26 ++} AVALANCHE_RESET_MODULE_T; ++ ++typedef enum AVALANCHE_RESET_CTRL_tag ++{ ++ IN_RESET = 0, ++ OUT_OF_RESET ++} AVALANCHE_RESET_CTRL_T; ++ ++typedef enum AVALANCHE_SYS_RST_MODE_tag ++{ ++ RESET_SOC_WITH_MEMCTRL = 1, /* SW0 bit in SWRCR register */ ++ RESET_SOC_WITHOUT_MEMCTRL = 2 /* SW1 bit in SWRCR register */ ++} AVALANCHE_SYS_RST_MODE_T; ++ ++typedef enum AVALANCHE_SYS_RESET_STATUS_tag ++{ ++ HARDWARE_RESET = 0, ++ SOFTWARE_RESET0, /* Caused by writing 1 to SW0 bit in SWRCR register */ ++ WATCHDOG_RESET, ++ SOFTWARE_RESET1 /* Caused by writing 1 to SW1 bit in SWRCR register */ ++} AVALANCHE_SYS_RESET_STATUS_T; ++ ++AVALANCHE_RESET_CTRL_T avalanche_get_reset_status(AVALANCHE_RESET_MODULE_T reset_module); ++void avalanche_sys_reset(AVALANCHE_SYS_RST_MODE_T mode); ++AVALANCHE_SYS_RESET_STATUS_T avalanche_get_sys_last_reset_status(void); ++ ++typedef int (*REMOTE_VLYNQ_DEV_RESET_CTRL_FN)(unsigned int reset_module, AVALANCHE_RESET_CTRL_T reset_ctrl); ++ ++/***************************************************************************** ++ * Power Control Module ++ *****************************************************************************/ ++ ++typedef enum AVALANCHE_POWER_CTRL_tag ++{ ++ POWER_CTRL_POWER_UP = 0, ++ POWER_CTRL_POWER_DOWN ++} AVALANCHE_POWER_CTRL_T; ++ ++typedef enum AVALANCHE_SYS_POWER_MODE_tag ++{ ++ GLOBAL_POWER_MODE_RUN = 0, /* All system is up */ ++ GLOBAL_POWER_MODE_IDLE, /* MIPS is power down, all peripherals working */ ++ GLOBAL_POWER_MODE_STANDBY, /* Chip in power down, but clock to ADSKL subsystem is running */ ++ GLOBAL_POWER_MODE_POWER_DOWN /* Total chip is powered down */ ++} AVALANCHE_SYS_POWER_MODE_T; ++ ++void avalanche_power_ctrl(unsigned int power_module, AVALANCHE_POWER_CTRL_T power_ctrl); ++AVALANCHE_POWER_CTRL_T avalanche_get_power_status(unsigned int power_module); ++void avalanche_set_global_power_mode(AVALANCHE_SYS_POWER_MODE_T power_mode); ++AVALANCHE_SYS_POWER_MODE_T avalanche_get_global_power_mode(void); ++ ++/***************************************************************************** ++ * Wakeup Control ++ *****************************************************************************/ ++ ++typedef enum AVALANCHE_WAKEUP_INTERRUPT_tag ++{ ++ WAKEUP_INT0 = 1, ++ WAKEUP_INT1 = 2, ++ WAKEUP_INT2 = 4, ++ WAKEUP_INT3 = 8 ++} AVALANCHE_WAKEUP_INTERRUPT_T; ++ ++typedef enum TNETV1050_WAKEUP_CTRL_tag ++{ ++ WAKEUP_DISABLED = 0, ++ WAKEUP_ENABLED ++} AVALANCHE_WAKEUP_CTRL_T; ++ ++typedef enum TNETV1050_WAKEUP_POLARITY_tag ++{ ++ WAKEUP_ACTIVE_HIGH = 0, ++ WAKEUP_ACTIVE_LOW ++} AVALANCHE_WAKEUP_POLARITY_T; ++ ++void avalanche_wakeup_ctrl(AVALANCHE_WAKEUP_INTERRUPT_T wakeup_int, ++ AVALANCHE_WAKEUP_CTRL_T wakeup_ctrl, ++ AVALANCHE_WAKEUP_POLARITY_T wakeup_polarity); ++ ++/***************************************************************************** ++ * GPIO Control ++ *****************************************************************************/ ++ ++typedef enum AVALANCHE_GPIO_PIN_MODE_tag ++{ ++ FUNCTIONAL_PIN = 0, ++ GPIO_PIN = 1 ++} AVALANCHE_GPIO_PIN_MODE_T; ++ ++typedef enum AVALANCHE_GPIO_PIN_DIRECTION_tag ++{ ++ GPIO_OUTPUT_PIN = 0, ++ GPIO_INPUT_PIN = 1 ++} AVALANCHE_GPIO_PIN_DIRECTION_T; ++ ++typedef enum { GPIO_FALSE, GPIO_TRUE } AVALANCHE_GPIO_BOOL_T; ++ ++void avalanche_gpio_init(void); ++int avalanche_gpio_ctrl(unsigned int gpio_pin, ++ AVALANCHE_GPIO_PIN_MODE_T pin_mode, ++ AVALANCHE_GPIO_PIN_DIRECTION_T pin_direction); ++int avalanche_gpio_ctrl_with_link_count(unsigned int gpio_pin, ++ AVALANCHE_GPIO_PIN_MODE_T pin_mode, ++ AVALANCHE_GPIO_PIN_DIRECTION_T pin_direction); ++int avalanche_gpio_out_bit(unsigned int gpio_pin, int value); ++int avalanche_gpio_in_bit(unsigned int gpio_pin); ++int avalanche_gpio_out_value(unsigned int out_val, unsigned int set_mask, unsigned int reg_index); ++int avalanche_gpio_out_value_with_link_count(unsigned int out_val, unsigned int set_mask, unsigned int reg_index); ++int avalanche_gpio_in_value(unsigned int *in_val, unsigned int reg_index); ++ ++unsigned int avalanche_get_chip_version_info(void); ++ ++unsigned int avalanche_get_vbus_freq(void); ++void avalanche_set_vbus_freq(unsigned int); ++ ++ ++typedef int (*SET_MDIX_ON_CHIP_FN_T)(unsigned int base_addr, unsigned int operation); ++int avalanche_set_mdix_on_chip(unsigned int base_addr, unsigned int operation); ++unsigned int avalanche_is_mdix_on_chip(void); ++ ++#endif +diff -urN linux.old/include/asm-mips/ar7/avalanche_regs.h linux.dev/include/asm-mips/ar7/avalanche_regs.h +--- linux.old/include/asm-mips/ar7/avalanche_regs.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/include/asm-mips/ar7/avalanche_regs.h 2005-11-10 01:10:46.071588750 +0100 +@@ -0,0 +1,567 @@ ++/* ++ * $Id$ ++ * Avalanche Register Descriptions ++ * ++ * Jeff Harrell, jharrell@ti.com ++ * 2000 (c) Texas Instruments Inc. ++ */ ++ ++#ifndef __AVALANCHE_REGS_H ++#define __AVALANCHE_REGS_H ++ ++#include <asm/addrspace.h> ++#include <linux/config.h> ++ ++/*----------------------------------------*/ ++/* Base offsets within the Avalanche ASIC */ ++/*----------------------------------------*/ ++ ++#define BBIF_SPACE0 (KSEG1ADDR(0x01000000)) ++#define BBIF_SPACE1 (KSEG1ADDR(0x01800000)) ++#define BBIF_CONTROL (KSEG1ADDR(0x02000000)) ++#define ATM_SAR_BASE (KSEG1ADDR(0x03000000)) ++#define USB_MCU_BASE (KSEG1ADDR(0x03400000)) ++#define DES_BASE (KSEG1ADDR(0x08600000)) ++#define ETH_MACA_BASE (KSEG1ADDR(0x08610000)) ++#define ETH_MACB_BASE (KSEG1ADDR(0x08612800)) ++#define MEM_CTRLR_BASE (KSEG1ADDR(0x08610800)) ++#define GPIO_BASE (KSEG1ADDR(0x08610900)) ++#define CLK_CTRL_BASE (KSEG1ADDR(0x08610A00)) ++#define WATCH_DOG_BASE (KSEG1ADDR(0x08610B00)) ++#define TMR1_BASE (KSEG1ADDR(0x08610C00)) ++#define TRM2_BASE (KSEG1ADDR(0x08610D00)) ++#define UARTA_BASE (KSEG1ADDR(0x08610E00)) ++#define UARTB_BASE (KSEG1ADDR(0x08610F00)) ++#define I2C_BASE (KSEG1ADDR(0x08611000)) ++#define DEV_ID_BASE (KSEG1ADDR(0x08611100)) ++#define USB_BASE (KSEG1ADDR(0x08611200)) ++#define PCI_CONFIG_BASE (KSEG1ADDR(0x08611300)) ++#define DMA_BASE (KSEG1ADDR(0x08611400)) ++#define RESET_CTRL_BASE (KSEG1ADDR(0x08611600)) ++#define DSL_IF_BASE (KSEG1ADDR(0x08611B00)) ++#define INT_CTL_BASE (KSEG1ADDR(0x08612400)) ++#define PHY_BASE (KSEG1ADDR(0x1E000000)) ++ ++/*---------------------------------*/ ++/* Device ID, chip version number */ ++/*---------------------------------*/ ++ ++#define AVALANCHE_CHVN (*(volatile unsigned int *)(DEV_ID_BASE+0x14)) ++#define AVALANCHE_DEVID1 (*(volatile unsigned int *)(DEV_ID_BASE+0x18)) ++#define AVALANCHE_DEVID2 (*(volatile unsigned int *)(DEV_ID_BASE+0x1C)) ++ ++/*----------------------------------*/ ++/* Reset Control VW changed to ptrs */ ++/*----------------------------------*/ ++ ++#define AVALANCHE_PRCR (*(volatile unsigned int *)(RESET_CTRL_BASE + 0x0)) /* Peripheral reset control */ ++#define AVALANCHE_SWRCR (*(volatile unsigned int *)(RESET_CTRL_BASE + 0x4)) /* Software reset control */ ++#define AVALANCHE_RSR (*(volatile unsigned int *)(RESET_CTRL_BASE + 0x8)) /* Reset status register */ ++ ++/* reset control bits */ ++ ++#define AV_RST_UART0 (1<<0) /* Brings UART0 out of reset */ ++#define AV_RST_UART1 (1<<1) /* Brings UART1 out of reset */ ++#define AV_RST_IICM (1<<2) /* Brings the I2CM out of reset */ ++#define AV_RST_TIMER0 (1<<3) /* Brings Timer 0 out of reset */ ++#define AV_RST_TIMER1 (1<<4) /* Brings Timer 1 out of reset */ ++#define AV_RST_DES (1<<5) /* Brings the DES module out of reset */ ++#define AV_RST_GPIO (1<<6) /* Brings the GPIO module out of reset (see note below) */ ++/* ++ JAH NOTE JAH NOTE JAH NOTE JAH NOTE JAH NOTE JAH NOTE JAH NOTE JAH NOTE ++ If you reset the GPIO interface all of the directions (i/o) of the UART B ++ interface pins are inputs and must be reconfigured so as not to lose the ++ serial console interface ++ JAH NOTE JAH NOTE JAH NOTE JAH NOTE JAH NOTE JAH NOTE JAH NOTE JAH NOTE ++*/ ++#define AV_RST_BBIF (1<<7) /* Brings the Broadband interface out of reset */ ++#define AV_RST_USB (1<<8) /* Brings the USB module out of reset */ ++#define AV_RST_SAR (1<<9) /* Brings the SAR out of reset */ ++#define AV_RST_HDLC (1<<10) /* Brings the HDLC module out of reset */ ++#define AV_RST_PCI (1<<16) /* Brings the PCI module out of reset */ ++#define AV_RST_ETH_MAC0 (1<<17) /* Brings the Ethernet MAC0 out of reset */ ++#define AV_RST_PICO_DMA (1<<18) /* Brings the PICO DMA module out of reset */ ++#define AV_RST_BIST (1<<19) /* Brings the BIST module out of reset */ ++#define AV_RST_DSP (1<<20) /* Brings the DSP sub system out of reset */ ++#define AV_RST_ETH_MAC1 (1<<21) /* Brings the Ethernet MAC1 out of reset */ ++ ++/*----------------------*/ ++/* Physical interfaces */ ++/*----------------------*/ ++ ++/* Phy loopback */ ++#define PHY_LOOPBACK 1 ++ ++ ++/* Phy 0 */ ++#define PHY0BASE (PHY_BASE) ++#define PHY0RST (*(volatile unsigned char *) (PHY0BASE)) /* reset */ ++#define PHY0CTRL (*(volatile unsigned char *) (PHY0BASE+0x5)) /* control */ ++#define PHY0RACPCTRL (*(volatile unsigned char *) (PHY0BASE+0x50)) /* RACP control/status */ ++#define PHY0TACPCTRL (*(volatile unsigned char *) (PHY0BASE+0x60)) /* TACP idle/unassigned cell hdr */ ++#define PHY0RACPINT (*(volatile unsigned char *) (PHY0BASE+0x51)) /* RACP interrupt enable/Status */ ++ ++ ++/* Phy 1 */ ++ ++#define PHY1BASE (PHY_BASE + 0x100000) ++#define PHY1RST (*(volatile unsigned char *) (PHY1BASE)) /* reset */ ++#define PHY1CTRL (*(volatile unsigned char *) (PHY1BASE+0x5)) /* control */ ++#define PHY1RACPCTRL (*(volatile unsigned char *) (PHY1BASE+0x50)) ++#define PHY1TACPCTRL (*(volatile unsigned char *) (PHY1BASE+0x60)) ++#define PHY1RACPINT (*(volatile unsigned char *) (PHY1BASE+0x51)) ++ ++/* Phy 2 */ ++ ++#define PHY2BASE (PHY_BASE + 0x200000) ++#define PHY2RST (*(volatile unsigned char *) (PHY2BASE)) /* reset */ ++#define PHY2CTRL (*(volatile unsigned char *) (PHY2BASE+0x5)) /* control */ ++#define PHY2RACPCTRL (*(volatile unsigned char *) (PHY2BASE+0x50)) ++#define PHY2TACPCTRL (*(volatile unsigned char *) (PHY2BASE+0x60)) ++#define PHY2RACPINT (*(volatile unsigned char *) (PHY2BASE+0x51)) ++ ++/*-------------------*/ ++/* Avalanche ATM SAR */ ++/*-------------------*/ ++ ++#define AVSAR_SYSCONFIG (*(volatile unsigned int*)(ATM_SAR_BASE+0x00000000)) /* SAR system config register */ ++#define AVSAR_SYSSTATUS (*(volatile unsigned int*)(ATM_SAR_BASE+0x00000004)) /* SAR system status register */ ++#define AVSAR_INT_ENABLE (*(volatile unsigned int*)(ATM_SAR_BASE+0x00000008)) /* SAR interrupt enable register */ ++#define AVSAR_CONN_VPI_VCI (*(volatile unsigned int*)(ATM_SAR_BASE+0x0000000c)) /* VPI/VCI connection config */ ++#define AVSAR_CONN_CONFIG (*(volatile unsigned int*)(ATM_SAR_BASE+0x00000010)) /* Connection config register */ ++#define AVSAR_OAM_CONFIG (*(volatile unsigned int*)(ATM_SAR_BASE+0x00000018)) /* OAM configuration register */ ++ ++/* Transmit completion ring registers */ ++ ++#define AVSAR_TCRAPTR (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000100)) ++#define AVSAR_TCRASIZE (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000104)) ++#define AVSAR_TCRAINTTHRESH (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000108)) ++#define AVSAR_TCRATOTENT (*(volatile unsigned int *)(ATM_SAR_BASE+0x0000010c)) ++#define AVSAR_TCRAFREEENT (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000110)) ++#define AVSAR_TCRAPENDENT (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000114)) ++#define AVSAR_TCRAENTINC (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000118)) ++#define AVSAR_TCRBPTR (*(volatile unsigned int *)(ATM_SAR_BASE+0x0000011c)) ++#define AVSAR_TCRBSIZE (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000120)) ++#define AVSAR_TCRBINTTHRESH (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000124)) ++#define AVSAR_TCRBTOTENT (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000128)) ++#define AVSAR_TCRBFREEENT (*(volatile unsigned int *)(ATM_SAR_BASE+0x0000012c)) ++#define AVSAR_TCRBPENDENT (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000130)) ++#define AVSAR_TCRBENTINC (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000134)) ++ ++/* Transmit Queue Packet registers */ ++#define AVSAR_TXQUEUE_PKT0 (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000140)) ++#define AVSAR_TXQUEUE_PKT1 (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000144)) ++#define AVSAR_TXQUEUE_PKT2 (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000148)) ++#define AVSAR_TX_FLUSH (*(volatile unsigned int *)(ATM_SAR_BASE+0x0000014C)) ++/* Receive completion ring registers */ ++ ++#define AVSAR_RCRAPTR (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000200)) ++#define AVSAR_RCRASIZE (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000204)) ++#define AVSAR_RCRAINTTHRESH (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000208)) ++#define AVSAR_RCRATOTENT (*(volatile unsigned int *)(ATM_SAR_BASE+0x0000020c)) ++#define AVSAR_RCRAFREEENT (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000210)) ++#define AVSAR_RCRAPENDENT (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000214)) ++#define AVSAR_RCRAENTINC (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000218)) ++#define AVSAR_RCRBPTR (*(volatile unsigned int *)(ATM_SAR_BASE+0x0000021c)) ++#define AVSAR_RCRBSIZE (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000220)) ++#define AVSAR_RCRBINTTHRESH (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000224)) ++#define AVSAR_RCRBTOTENT (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000228)) ++#define AVSAR_RCRBFREEENT (*(volatile unsigned int *)(ATM_SAR_BASE+0x0000022c)) ++#define AVSAR_RCRBPENDENT (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000230)) ++#define AVSAR_RCRBENTINC (*(volatile unsigned int *)(ATM_SAR_BASE+0x00000234)) ++ ++#define AVSAR_RXFBL_ADD0 (*(volatile unsigned int*)(ATM_SAR_BASE+0x00000240)) /* Rx Free buffer list add 0 */ ++#define AVSAR_RXFBL_ADD1 (*(volatile unsigned int*)(ATM_SAR_BASE+0x00000244)) /* Rx Free buffer list add 1 */ ++#define AVSAR_RXFBL_ADD2 (*(volatile unsigned int*)(ATM_SAR_BASE+0x00000248)) /* Rx Free buffer list add 2 */ ++#define AVSAR_RXFBLSIZE_0 (*(volatile unsigned int*)(ATM_SAR_BASE+0x0000028c)) /* Rx Free buffer list size 0 */ ++#define AVSAR_RXFBLSIZE_1 (*(volatile unsigned int*)(ATM_SAR_BASE+0x0000029c)) /* Rx Free buffer list size 1 */ ++#define AVSAR_RXFBLSIZE_2 (*(volatile unsigned int*)(ATM_SAR_BASE+0x000002ac)) /* Rx Free buffer list size 2 */ ++#define AVSAR_RXFBLSIZE_3 (*(volatile unsigned int*)(ATM_SAR_BASE+0x000002bc)) /* Rx Free buffer list size 3 */ ++ ++ ++#if defined(CONFIG_MIPS_EVM3D) || defined(CONFIG_MIPS_AR5D01) || defined(CONFIG_MIPS_AR5W01) ++ ++#define AVSAR_SAR_FREQUENCY (*(volatile unsigned int*)(ATM_SAR_BASE+0x00010480)) ++#define AVSAR_OAM_CC_SINK (*(volatile unsigned int*)(ATM_SAR_BASE+0x00010484)) ++#define AVSAR_OAM_AIS_RDI_RX (*(volatile unsigned int*)(ATM_SAR_BASE+0x00010488)) ++#define AVSAR_OAM_CPID0 (*(volatile unsigned int*)(ATM_SAR_BASE+0x000104E0)) ++#define AVSAR_OAM_LLID0 (*(volatile unsigned int*)(ATM_SAR_BASE+0x000104F0)) ++#define AVSAR_OAM_CPID1 (*(volatile unsigned int*)(ATM_SAR_BASE+0x000104E4)) ++#define AVSAR_OAM_LLID1 (*(volatile unsigned int*)(ATM_SAR_BASE+0x000104F4)) ++#define AVSAR_OAM_CPID2 (*(volatile unsigned int*)(ATM_SAR_BASE+0x000104E8)) ++#define AVSAR_OAM_LLID2 (*(volatile unsigned int*)(ATM_SAR_BASE+0x000104F8)) ++#define AVSAR_OAM_CPID3 (*(volatile unsigned int*)(ATM_SAR_BASE+0x000104EC)) ++#define AVSAR_OAM_LLID3 (*(volatile unsigned int*)(ATM_SAR_BASE+0x000104FC)) ++#define AVSAR_OAM_CORR_TAG (*(volatile unsigned int*)(ATM_SAR_BASE+0x00010500)) ++#define AVSAR_OAM_FAR_COUNT (*(volatile unsigned int*)(ATM_SAR_BASE+0x00010520)) ++#define AVSAR_OAM_NEAR_COUNT (*(volatile unsigned int*)(ATM_SAR_BASE+0x00010540)) ++#define AVSAR_OAM_CONFIG_REG (*(volatile unsigned int*)(ATM_SAR_BASE+0x00000018)) ++#define AVSAR_FAIRNESS_REG (*(volatile unsigned int*)(ATM_SAR_BASE+0x000104B8)) ++#define AVSAR_UBR_PCR_REG (*(volatile unsigned int*)(ATM_SAR_BASE+0x00010490)) ++ ++ ++/* ++ ++#define OAM_CPID_ADD 0xa30104e0 ++ ++#define OAM_LLID_ADD 0xa30104f0 ++ ++#define OAM_LLID_VAL 0xffffffff ++ ++#define OAM_CORR_TAG 0xa3010500 ++ ++#define OAM_FAR_COUNT_ADD 0xa3010520 ++ ++#define OAM_NEAR_COUNT_ADD 0xa3010540 ++ ++#define OAM_CONFIG_REG_ADD 0xa3000018 ++*/ ++ ++ ++#else /* CONFIG_MIPS_EVM3 || CONFIG_MIPS_ACPEP */ ++ ++#define AVSAR_SAR_FREQUENCY (*(volatile unsigned int*)(ATM_SAR_BASE+0x00012000)) ++#define AVSAR_OAM_CC_SINK (*(volatile unsigned int*)(ATM_SAR_BASE+0x00012004)) ++#define AVSAR_OAM_AIS_RDI_RX (*(volatile unsigned int*)(ATM_SAR_BASE+0x00012008)) ++#define AVSAR_OAM_CPID (*(volatile unsigned int*)(ATM_SAR_BASE+0x00012300)) ++ ++#endif /* CONFIG_MIPS_EVM3D || CONFIG_MIPS_AR5D01 || CONFIG_MIPS_AR5W01 */ ++ ++ ++#define AVSAR_STATE_RAM (ATM_SAR_BASE + 0x010000) /* SAR state RAM */ ++#define AVSAR_PDSP_BASE (ATM_SAR_BASE + 0x020000) /* SAR PDSP base address */ ++#define AVSAR_TXDMA_BASE (ATM_SAR_BASE + 0x030000) /* Transmit DMA state base */ ++#define AVSAR_TDMASTATE6 0x18 /* Transmit DMA state word 6 */ ++#define AVSAR_RXDMA_BASE (ATM_SAR_BASE + 0x040000) /* Receive DMA state base */ ++#define AVSAR_RDMASTATE0 0x0 /* Receive DMA state word 0 */ ++ ++/*------------------------------------------*/ ++/* DSL Interface */ ++/*------------------------------------------*/ ++ ++#define AVDSL_TX_EN (*(volatile unsigned int *)(DSL_IF_BASE + 0x00000000)) ++#define AVDSL_RX_EN (*(volatile unsigned int *)(DSL_IF_BASE + 0x00000004)) ++#define AVDSL_POLL (*(volatile unsigned int *)(DSL_IF_BASE + 0x00000008)) ++ ++/* Fast */ ++ ++#define AVDSL_TX_FIFO_ADDR0 (*(volatile unsigned int *)(DSL_IF_BASE + 0x0000000C)) ++#define AVDSL_TX_FIFO_BASE0 (*(volatile unsigned int *)(DSL_IF_BASE + 0x00000010)) ++#define AVDSL_TX_FIFO_LEN0 (*(volatile unsigned int *)(DSL_IF_BASE + 0x00000014)) ++#define AVDSL_TX_FIFO_PR0 (*(volatile unsigned int *)(DSL_IF_BASE + 0x00000018)) ++#define AVDSL_RX_FIFO_ADDR0 (*(volatile unsigned int *)(DSL_IF_BASE + 0x0000001C)) ++#define AVDSL_RX_FIFO_BASE0 (*(volatile unsigned int *)(DSL_IF_BASE + 0x00000020)) ++#define AVDSL_RX_FIFO_LEN0 (*(volatile unsigned int *)(DSL_IF_BASE + 0x00000024)) ++#define AVDSL_RX_FIFO_PR0 (*(volatile unsigned int *)(DSL_IF_BASE + 0x00000028)) ++ ++/* Interleaved */ ++ ++#define AVDSL_TX_FIFO_ADDR1 (*(volatile unsigned int *)(DSL_IF_BASE + 0x0000002C)) ++#define AVDSL_TX_FIFO_BASE1 (*(volatile unsigned int *)(DSL_IF_BASE + 0x00000030)) ++#define AVDSL_TX_FIFO_LEN1 (*(volatile unsigned int *)(DSL_IF_BASE + 0x00000034)) ++#define AVDSL_TX_FIFO_PR1 (*(volatile unsigned int *)(DSL_IF_BASE + 0x00000038)) ++#define AVDSL_RX_FIFO_ADDR1 (*(volatile unsigned int *)(DSL_IF_BASE + 0x0000003C)) ++#define AVDSL_RX_FIFO_BASE1 (*(volatile unsigned int *)(DSL_IF_BASE + 0x00000040)) ++#define AVDSL_RX_FIFO_LEN1 (*(volatile unsigned int *)(DSL_IF_BASE + 0x00000044)) ++#define AVDSL_RX_FIFO_PR1 (*(volatile unsigned int *)(DSL_IF_BASE + 0x00000048)) ++ ++/*------------------------------------------*/ ++/* Broadband I/F */ ++/*------------------------------------------*/ ++ ++#define AVBBIF_BBIF_CNTRL (*(volatile unsigned int *)(BBIF_CONTROL + 0x00000000)) ++#define AVBBIF_ADDR_TRANS_0 (*(volatile unsigned int *)(BBIF_CONTROL + 0x00000004)) ++#define AVBBIF_ADDR_TRANS_1 (*(volatile unsigned int *)(BBIF_CONTROL + 0x00000008)) ++#define AVBBIF_ADDR_XB_MX_BL (*(volatile unsigned int *)(BBIF_CONTROL + 0x0000000C)) ++#define AVBBIF_INFIFO_LVL (*(volatile unsigned int *)(BBIF_CONTROL + 0x00000010)) ++#define AVBBIF_OUTFIFO_LVL (*(volatile unsigned int *)(BBIF_CONTROL + 0x00000014)) ++ ++#define AVBBIF_DISABLED 0x0 ++#define AVBBIF_LBT4040_INT 0x1 ++#define AVBBIF_XBUS 0x2 ++#define AVBBIF_LBT4040_EXT 0x4 ++ ++#define AVBBIF_ADDR_MASK0 0xff000000 /* handles upper bits of BBIF 0 address */ ++#define AVBBIF_ADDR_MASK1 0xff800000 /* handles upper bits of BBIF 1 address */ ++#define AVBBIF_TRANS_MASK 0xff000000 ++/*------------------------------------------*/ ++/* GPIO I/F */ ++/*------------------------------------------*/ ++ ++#define GPIO_DATA_INPUT (*(volatile unsigned int *)(GPIO_BASE + 0x00000000)) ++#define GPIO_DATA_OUTPUT (*(volatile unsigned int *)(GPIO_BASE + 0x00000004)) ++#define GPIO_DATA_DIR (*(volatile unsigned int *)(GPIO_BASE + 0x00000008)) /* 0=output 1=input */ ++#define GPIO_DATA_ENABLE (*(volatile unsigned int *)(GPIO_BASE + 0x0000000C)) /* 0=GPIO Mux 1=GPIO */ ++ ++#define GPIO_0 (1<<21) ++#define GPIO_1 (1<<22) ++#define GPIO_2 (1<<23) ++#define GPIO_3 (1<<24) ++#define EINT_1 (1<<18) ++ ++/* ++ JAH NOTE JAH NOTE JAH NOTE JAH NOTE JAH NOTE JAH NOTE JAH NOTE JAH NOTE ++ If you reset the GPIO interface all of the directions (i/o) of the UART B ++ interface pins are inputs and must be reconfigured so as not to lose the ++ serial console interface ++ JAH NOTE JAH NOTE JAH NOTE JAH NOTE JAH NOTE JAH NOTE JAH NOTE JAH NOTE ++*/ ++ ++/*------------------------------------------*/ ++/* CLK_CTRL */ ++/*------------------------------------------*/ ++#define PERIPH_CLK_CTL (*(volatile unsigned int *)(CLK_CTRL_BASE + 0x00000004)) ++ ++#define PCLK_0_HALF_VBUS (0<<16) ++#define PCLK_EQ_INPUT (1<<16) ++#define BBIF_CLK_HALF_VBUS (0<<17) ++#define BBIF_CLK_EQ_VBUS (1<<17) ++#define BBIF_CLK_EQ_BBCLK (3<<17) ++#define DSP_MODCLK_DSPCLKI (0<<20) ++#define DSP_MODCLK_REFCLKI (1<<20) ++#define USB_CLK_EQ_USBCLKI (0<<21) ++#define USB_CLK_EQ_REFCLKI (1<<21) ++ ++/*------------------------------------------*/ ++/* PCI Control Registers */ ++/*------------------------------------------*/ ++#define PCIC_CONTROL (*(volatile unsigned int *)(PCI_CONFIG_BASE)) ++#define PCIC_CONTROL_CFG_DONE (1<<0) ++#define PCIC_CONTROL_DIS_SLAVE_TO (1<<1) ++#define PCIC_CONTROL_FORCE_DELAY_READ (1<<2) ++#define PCIC_CONTROL_FORCE_DELAY_READ_LINE (1<<3) ++#define PCIC_CONTROL_FORCE_DELAY_READ_MULT (1<<4) ++#define PCIC_CONTROL_MEM_SPACE_EN (1<<5) ++#define PCIC_CONTROL_MEM_MASK (1<<6) ++#define PCIC_CONTROL_IO_SPACE_EN (1<<7) ++#define PCIC_CONTROL_IO_MASK (1<<8) ++/* PCIC_CONTROL_RESERVED (1<<9) */ ++#define PCIC_CONTROL_BASE0_EN (1<<10) ++#define PCIC_CONTROL_BASE1_EN (1<<11) ++#define PCIC_CONTROL_BASE2_EN (1<<12) ++#define PCIC_CONTROL_HOLD_MASTER_WRITE (1<<13) ++#define PCIC_CONTROL_ARBITER_EN (1<<14) ++#define PCIC_INT_SOURCE (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x00000004)) ++#define PCIC_INT_SOURCE_PWR_MGMT (1<<0) ++#define PCIC_INT_SOURCE_PCI_TARGET (1<<1) ++#define PCIC_INT_SOURCE_PCI_MASTER (1<<2) ++#define PCIC_INT_SOURCE_POWER_WAKEUP (1<<3) ++#define PCIC_INT_SOURCE_PMEIN (1<<4) ++/* PCIC_INT_SOURCE_RESERVED (1<<5) */ ++/* PCIC_INT_SOURCE_RESERVED (1<<6) */ ++#define PCIC_INT_SOURCE_PIC_INTA (1<<7) ++#define PCIC_INT_SOURCE_PIC_INTB (1<<8) ++#define PCIC_INT_SOURCE_PIC_INTC (1<<9) ++#define PCIC_INT_SOURCE_PIC_INTD (1<<10) ++#define PCIC_INT_SOURCE_SOFT_INT0 (1<<11) ++#define PCIC_INT_SOURCE_SOFT_INT1 (1<<12) ++#define PCIC_INT_SOURCE_SOFT_INT2 (1<<13) ++#define PCIC_INT_SOURCE_SOFT_INT3 (1<<14) ++#define PCIC_INT_CLEAR (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x00000008)) ++#define PCIC_INT_CLEAR_PM (1<<0) ++#define PCIC_INT_CLEAR_PCI_TARGET (1<<1) ++#define PCIC_INT_CLEAR_PCI_MASTER (1<<2) ++/* PCIC_INT_CLEAR_RESERVED (1<<3) */ ++#define PCIC_INT_CLEAR_PMEIN (1<<4) ++/* PCIC_INT_CLEAR_RESERVED (1<<5) */ ++/* PCIC_INT_CLEAR_RESERVED (1<<6) */ ++#define PCIC_INT_CLEAR_PCI_INTA (1<<7) ++#define PCIC_INT_CLEAR_PCI_INTB (1<<8) ++#define PCIC_INT_CLEAR_PCI_INTC (1<<9) ++#define PCIC_INT_CLEAR_PCI_INTD (1<<10) ++#define PCIC_INT_CLEAR_SOFT_INT0 (1<<11) ++#define PCIC_INT_CLEAR_SOFT_INT1 (1<<12) ++#define PCIC_INT_CLEAR_SOFT_INT2 (1<<13) ++#define PCIC_INT_CLEAR_SOFT_INT3 (1<<14) ++#define PCIC_INT_EN_AVAL (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x0000000c)) ++#define PCIC_INT_EN_AVAL_PM (1<<0) ++#define PCIC_INT_EN_AVAL_PCI_TARGET (1<<1) ++#define PCIC_INT_EN_AVAL_PCI_MASTER (1<<2) ++/* PCIC_INT_EN_AVAL_RESERVED (1<<3) */ ++#define PCIC_INT_EN_AVAL_PMEIN (1<<4) ++/* PCIC_INT_EN_AVAL_RESERVED (1<<5) */ ++/* PCIC_INT_EN_AVAL_RESERVED (1<<6) */ ++#define PCIC_INT_EN_AVAL_PCI_INTA (1<<7) ++#define PCIC_INT_EN_AVAL_PCI_INTB (1<<8) ++#define PCIC_INT_EN_AVAL_PCI_INTC (1<<9) ++#define PCIC_INT_EN_AVAL_PCI_INTD (1<<10) ++#define PCIC_INT_EN_AVAL_SOFT_INT0 (1<<11) ++#define PCIC_INT_EN_AVAL_SOFT_INT1 (1<<12) ++#define PCIC_INT_EN_AVAL_SOFT_INT2 (1<<13) ++#define PCIC_INT_EN_AVAL_SOFT_INT3 (1<<14) ++#define PCIC_INT_EN_PCI (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x00000010)) ++#define PCIC_INT_EN_PCI_PM (1<<0) ++#define PCIC_INT_EN_PCI_PCI_TARGET (1<<1) ++#define PCIC_INT_EN_PCI_PCI_MASTER (1<<2) ++/* PCIC_INT_EN_PCI_RESERVED (1<<3) */ ++#define PCIC_INT_EN_PCI_PMEIN (1<<4) ++/* PCIC_INT_EN_PCI_RESERVED (1<<5) */ ++/* PCIC_INT_EN_PCI_RESERVED (1<<6) */ ++#define PCIC_INT_EN_PCI_PCI_INTA (1<<7) ++#define PCIC_INT_EN_PCI_PCI_INTB (1<<8) ++#define PCIC_INT_EN_PCI_PCI_INTC (1<<9) ++#define PCIC_INT_EN_PCI_PCI_INTD (1<<10) ++#define PCIC_INT_EN_PCI_SOFT_INT0 (1<<11) ++#define PCIC_INT_EN_PCI_SOFT_INT1 (1<<12) ++#define PCIC_INT_EN_PCI_SOFT_INT2 (1<<13) ++#define PCIC_INT_EN_PCI_SOFT_INT3 (1<<14) ++#define PCIC_INT_SWSET (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x00000014)) ++#define PCIC_INT_SWSET_SOFT_INT0 (1<<0) ++#define PCIC_INT_SWSET_SOFT_INT1 (1<<1) ++#define PCIC_INT_SWSET_SOFT_INT2 (1<<2) ++#define PCIC_INT_SWSET_SOFT_INT3 (1<<3) ++#define PCIC_PM_CTL (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x00000018)) ++#define PCIC_PM_CTL_PWR_STATE_MASK (0x02) ++/* PCIC_PM_CTL_RESERVED (1<<2) */ ++/* PCIC_PM_CTL_RESERVED (1<<3) */ ++/* PCIC_PM_CTL_RESERVED (1<<4) */ ++/* PCIC_PM_CTL_RESERVED (1<<5) */ ++/* PCIC_PM_CTL_RESERVED (1<<6) */ ++/* PCIC_PM_CTL_RESERVED (1<<7) */ ++/* PCIC_PM_CTL_RESERVED (1<<8) */ ++/* PCIC_PM_CTL_RESERVED (1<<9) */ ++#define PCIC_PM_CTL_PWR_SUPPORT (1<<10) ++#define PCIC_PM_CTL_PMEIN (1<<11) ++#define PCIC_PM_CTL_CAP_MASK (*(volatile unsigned short int *)(PCI_CONFIG_BASE + 0x0000001a)) ++#define PCIC_PM_CONSUME (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x0000001c)) ++#define PCIC_PM_CONSUME_D0 (*(volatile unsigned char *)(PCI_CONFIG_BASE + 0x0000001c)) ++#define PCIC_PM_CONSUME_D1 (*(volatile unsigned char *)(PCI_CONFIG_BASE + 0x0000001d)) ++#define PCIC_PM_CONSUME_D2 (*(volatile unsigned char *)(PCI_CONFIG_BASE + 0x0000001e)) ++#define PCIC_PM_CONSUME_D3 (*(volatile unsigned char *)(PCI_CONFIG_BASE + 0x0000001f)) ++#define PCIC_PM_DISSAPATED (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x00000020)) ++#define PCIC_PM_DISSAPATED_D0 (*(volatile unsigned char *)(PCI_CONFIG_BASE + 0x00000020)) ++#define PCIC_PM_DISSAPATED_D1 (*(volatile unsigned char *)(PCI_CONFIG_BASE + 0x00000021)) ++#define PCIC_PM_DISSAPATED_D2 (*(volatile unsigned char *)(PCI_CONFIG_BASE + 0x00000022)) ++#define PCIC_PM_DISSAPATED_D3 (*(volatile unsigned char *)(PCI_CONFIG_BASE + 0x00000023)) ++#define PCIC_PM_DATA_SCALE (*(volatile unsigned short int *)(PCI_CONFIG_BASE + 0x00000024)) ++#define PCIC_VEND_DEV_ID (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x00000028)) ++#define PCIC_SUB_VEND_DEV_ID (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x0000002c)) ++#define PCIC_CLASS_REV_ID (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x00000030)) ++#define PCIC_MAX_MIN (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x00000034)) ++#define PCIC_MAST_MEM_AT0 (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x0000003c)) ++#define PCIC_MAST_MEM_AT1 (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x00000040)) ++#define PCIC_MAST_MEM_AT2 (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x00000044)) ++#define PCIC_SLAVE_MASK0 (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x0000004c)) ++#define PCIC_SLAVE_MASK1 (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x00000050)) ++#define PCIC_SLAVE_MASK2 (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x00000054)) ++#define PCIC_SLAVE_BASE_AT0 (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x00000058)) ++#define PCIC_SLAVE_BASE_AT1 (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x0000005c)) ++#define PCIC_SLAVE_BASE_AT2 (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x00000060)) ++#define PCIC_CONF_COMMAND (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x00000090)) ++#define PCIC_CONF_ADDR (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x00000094)) ++#define PCIC_CONF_DATA (*(volatile unsigned int *)(PCI_CONFIG_BASE + 0x00000098)) ++ ++/*------------------------------------------*/ ++/* IIC_INTERFACE */ ++/*------------------------------------------*/ ++#define I2C_DATA_HI (*(volatile unsigned int *)(I2C_BASE + 0x0)) ++#define I2C_DATA_LOW (*(volatile unsigned int *)(I2C_BASE + 0x4)) ++#define I2C_CONFIG (*(volatile unsigned int *)(I2C_BASE + 0x8)) ++#define I2C_DATA_READ (*(volatile unsigned int *)(I2C_BASE + 0xC)) ++#define I2C_CLOCK_DIV (*(volatile unsigned int *)(I2C_BASE + 0x10)) ++ ++#define I2CWRITE 0x200 ++#define I2CREAD 0x300 ++#define I2C_END_BURST 0x400 ++ ++/* read bits */ ++#define I2C_READ_ERROR 0x8000 ++#define I2C_READ_COMPLETE 0x4000 ++#define I2C_READ_BUSY 0x2000 ++ ++/* device types */ ++#define I2C_IO_EXPANDER 0x2 ++#define I2C_RTC 0xd ++ ++/* device Addresses on I2C bus (EVM3) */ ++#define SEVEN_SEGMENT_DISP 0x23 /* Device type = 0x2, Addr = 3 */ ++#define EVM3_RTC 0xd0 /* Device type = 0xd, Addr = 0 */ ++#define EVM3_RTC_I2C_ADDR 0x0 ++ ++/*------------------------------------------*/ ++/* Ethernet MAC register offset definitions */ ++/*------------------------------------------*/ ++#define VMAC_DMACONFIG(X) (*(volatile unsigned int *)(X + 0x00000000)) ++#define VMAC_INTSTS(X) (*(volatile unsigned int *)(X + 0x00000004)) ++#define VMAC_INTMASK(X) (*(volatile unsigned int *)(X + 0x00000008)) ++ ++#define VMAC_WRAPCLK(X) (*(volatile unsigned int *)(X + 0x00000340)) ++#define VMAC_STATSBASE(X) (*(volatile unsigned int *)(X + 0x00000400)) ++ ++#define VMAC_TCRPTR(X) (*(volatile unsigned int *)(X + 0x00000100)) ++#define VMAC_TCRSIZE(X) (*(volatile unsigned int *)(X + 0x00000104)) ++#define VMAC_TCRINTTHRESH(X) (*(volatile unsigned int *)(X + 0x00000108)) ++#define VMAC_TCRTOTENT(X) (*(volatile unsigned int *)(X + 0x0000010C)) ++#define VMAC_TCRFREEENT(X) (*(volatile unsigned int *)(X + 0x00000110)) ++#define VMAC_TCRPENDENT(X) (*(volatile unsigned int *)(X + 0x00000114)) ++#define VMAC_TCRENTINC(X) (*(volatile unsigned int *)(X + 0x00000118)) ++#define VMAC_TXISRPACE(X) (*(volatile unsigned int *)(X + 0x0000011c)) ++ ++ ++#define VMAC_TDMASTATE0(X) (*(volatile unsigned int *)(X + 0x00000120)) ++#define VMAC_TDMASTATE1(X) (*(volatile unsigned int *)(X + 0x00000124)) ++#define VMAC_TDMASTATE2(X) (*(volatile unsigned int *)(X + 0x00000128)) ++#define VMAC_TDMASTATE3(X) (*(volatile unsigned int *)(X + 0x0000012C)) ++#define VMAC_TDMASTATE4(X) (*(volatile unsigned int *)(X + 0x00000130)) ++#define VMAC_TDMASTATE5(X) (*(volatile unsigned int *)(X + 0x00000134)) ++#define VMAC_TDMASTATE6(X) (*(volatile unsigned int *)(X + 0x00000138)) ++#define VMAC_TDMASTATE7(X) (*(volatile unsigned int *)(X + 0x0000013C)) ++#define VMAC_TXPADDCNT(X) (*(volatile unsigned int *)(X + 0x00000140)) ++#define VMAC_TXPADDSTART(X) (*(volatile unsigned int *)(X + 0x00000144)) ++#define VMAC_TXPADDEND(X) (*(volatile unsigned int *)(X + 0x00000148)) ++#define VMAC_TXQFLUSH(X) (*(volatile unsigned int *)(X + 0x0000014C)) ++ ++#define VMAC_RCRPTR(X) (*(volatile unsigned int *)(X + 0x00000200)) ++#define VMAC_RCRSIZE(X) (*(volatile unsigned int *)(X + 0x00000204)) ++#define VMAC_RCRINTTHRESH(X) (*(volatile unsigned int *)(X + 0x00000208)) ++#define VMAC_RCRTOTENT(X) (*(volatile unsigned int *)(X + 0x0000020C)) ++#define VMAC_RCRFREEENT(X) (*(volatile unsigned int *)(X + 0x00000210)) ++#define VMAC_RCRPENDENT(X) (*(volatile unsigned int *)(X + 0x00000214)) ++#define VMAC_RCRENTINC(X) (*(volatile unsigned int *)(X + 0x00000218)) ++#define VMAC_RXISRPACE(X) (*(volatile unsigned int *)(X + 0x0000021c)) ++ ++#define VMAC_RDMASTATE0(X) (*(volatile unsigned int *)(X + 0x00000220)) ++#define VMAC_RDMASTATE1(X) (*(volatile unsigned int *)(X + 0x00000224)) ++#define VMAC_RDMASTATE2(X) (*(volatile unsigned int *)(X + 0x00000228)) ++#define VMAC_RDMASTATE3(X) (*(volatile unsigned int *)(X + 0x0000022C)) ++#define VMAC_RDMASTATE4(X) (*(volatile unsigned int *)(X + 0x00000230)) ++#define VMAC_RDMASTATE5(X) (*(volatile unsigned int *)(X + 0x00000234)) ++#define VMAC_RDMASTATE6(X) (*(volatile unsigned int *)(X + 0x00000238)) ++#define VMAC_RDMASTATE7(X) (*(volatile unsigned int *)(X + 0x0000023C)) ++#define VMAC_FBLADDCNT(X) (*(volatile unsigned int *)(X + 0x00000240)) ++#define VMAC_FBLADDSTART(X) (*(volatile unsigned int *)(X + 0x00000244)) ++#define VMAC_FBLADDEND(X) (*(volatile unsigned int *)(X + 0x00000248)) ++#define VMAC_RXONOFF(X) (*(volatile unsigned int *)(X + 0x0000024C)) ++ ++#define VMAC_FBL0NEXTD(X) (*(volatile unsigned int *)(X + 0x00000280)) ++#define VMAC_FBL0LASTD(X) (*(volatile unsigned int *)(X + 0x00000284)) ++#define VMAC_FBL0COUNTD(X) (*(volatile unsigned int *)(X + 0x00000288)) ++#define VMAC_FBL0BUFSIZE(X) (*(volatile unsigned int *)(X + 0x0000028C)) ++ ++#define VMAC_MACCONTROL(X) (*(volatile unsigned int *)(X + 0x00000300)) ++#define VMAC_MACSTATUS(X) (*(volatile unsigned int *)(X + 0x00000304)) ++#define VMAC_MACADDRHI(X) (*(volatile unsigned int *)(X + 0x00000308)) ++#define VMAC_MACADDRLO(X) (*(volatile unsigned int *)(X + 0x0000030C)) ++#define VMAC_MACHASH1(X) (*(volatile unsigned int *)(X + 0x00000310)) ++#define VMAC_MACHASH2(X) (*(volatile unsigned int *)(X + 0x00000314)) ++ ++#define VMAC_WRAPCLK(X) (*(volatile unsigned int *)(X + 0x00000340)) ++#define VMAC_BOFTEST(X) (*(volatile unsigned int *)(X + 0x00000344)) ++#define VMAC_PACTEST(X) (*(volatile unsigned int *)(X + 0x00000348)) ++#define VMAC_PAUSEOP(X) (*(volatile unsigned int *)(X + 0x0000034C)) ++ ++#define VMAC_MDIOCONTROL(X) (*(volatile unsigned int *)(X + 0x00000380)) ++#define VMAC_MDIOUSERACCESS(X) (*(volatile unsigned int *)(X +0x00000384)) ++#define VMAC_MDIOACK(X) (*(volatile unsigned int *)(X + 0x00000388)) ++#define VMAC_MDIOLINK(X) (*(volatile unsigned int *)(X + 0x0000038C)) ++#define VMAC_MDIOMACPHY(X) (*(volatile unsigned int *)(X + 0x00000390)) ++ ++#define VMAC_STATS_BASE(X) (X + 0x00000400) ++ ++#endif __AVALANCHE_REGS_H ++ ++ ++ ++ ++ ++ +diff -urN linux.old/include/asm-mips/ar7/avalanche_types.h linux.dev/include/asm-mips/ar7/avalanche_types.h +--- linux.old/include/asm-mips/ar7/avalanche_types.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/include/asm-mips/ar7/avalanche_types.h 2005-11-10 01:10:46.071588750 +0100 +@@ -0,0 +1,126 @@ ++/*------------------------------------------------------------------------------------------*\ ++\*------------------------------------------------------------------------------------------*/ ++#ifndef _avalanche_types_h_ ++#define _avalanche_types_h_ ++ ++/*--- #include <asm/avalanche/generic/hal_modules/haltypes.h> ---*/ ++#ifndef TRUE ++#define TRUE 1 ++#endif ++#ifndef FALSE ++#define FALSE 0 ++#endif ++#ifndef NULL ++#define NULL (void *)0 ++#endif ++ ++/*------------------------------------------------------------------------------------------*\ ++ * Typen für Texas GPL Module ++\*------------------------------------------------------------------------------------------*/ ++#ifndef __UINT8_T__ ++typedef unsigned char UINT8; ++#define __UINT8_T__ ++#endif ++ ++#ifndef __UCHAR_T__ ++typedef unsigned char UCHAR; ++#define __UCHAR_T__ ++#endif ++ ++#ifndef __INT8_T__ ++typedef signed char INT8; ++#define __INT8_T__ ++#endif ++ ++#ifndef __UINT16_T__ ++typedef unsigned short UINT16; ++#define __UINT16_T__ ++#endif ++ ++#ifndef __USHORT_T__ ++typedef unsigned short USHORT; ++#define __USHORT_T__ ++#endif ++ ++#ifndef __INT16_T__ ++typedef signed short INT16; ++#define __INT16_T__ ++#endif ++ ++#ifndef __UINT32_T__ ++typedef unsigned int UINT32; ++#define __UINT32_T__ ++#endif ++ ++#ifndef __UINT_T__ ++typedef unsigned int UINT; ++#define __UINT_T__ ++#endif ++ ++#ifndef __INT32_T__ ++typedef signed int INT32; ++#define __INT32_T__ ++#endif ++ ++#ifndef __ULONG_T__ ++typedef unsigned long ULONG; ++#define __ULONG_T__ ++#endif ++ ++#ifndef __BOOL_T__ ++typedef int BOOL; ++#define __BOOL_T__ ++#endif ++ ++#ifndef __STATUS_T__ ++typedef int STATUS; ++#define __STATUS_T__ ++#endif ++ ++/*------------------------------------------------------------------------------------------*\ ++\*------------------------------------------------------------------------------------------*/ ++typedef void (*p_vlynq_intr_cntrl_isr_t)(void *,void *,void *); ++typedef INT32 (*p_vlynq_interrupt_vector_set_t)(void *, UINT32, UINT32, INT32, INT32, INT32); ++typedef INT32 (*p_vlynq_interrupt_vector_cntl_t)(void *, UINT32, INT32, UINT32); ++typedef UINT32 (*p_vlynq_interrupt_get_count_t)(void *, UINT32); ++typedef INT32 (*p_vlynq_install_isr_t)(void *, UINT32, p_vlynq_intr_cntrl_isr_t, void *, void *, void *); ++typedef INT32 (*p_vlynq_uninstall_isr_t)(void *, UINT32, void *, void *, void *); ++typedef void (*p_vlynq_root_isr_t)(void *); ++typedef void (*p_vlynq_delay_t)(UINT32); ++typedef INT32 (*p_vlynq_interrupt_vector_map_t)(void *, INT32, UINT32, UINT32); ++typedef INT32 (*p_vlynq_interrupt_set_polarity_t)(void *, INT32, UINT32, INT32); ++typedef INT32 (*p_vlynq_interrupt_get_polarity_t)(void *, INT32, UINT32); ++typedef INT32 (*p_vlynq_interrupt_set_type_t)(void *, INT32, UINT32, INT32); ++typedef INT32 (*p_vlynq_interrupt_get_type_t)(void *, INT32, UINT32); ++typedef INT32 (*p_vlynq_interrupt_enable_t)(void *, INT32, UINT32); ++typedef INT32 (*p_vlynq_interrupt_disable_t)(void *, INT32, UINT32); ++ ++/*------------------------------------------------------------------------------------------*\ ++\*------------------------------------------------------------------------------------------*/ ++extern p_vlynq_interrupt_vector_set_t p_vlynq_interrupt_vector_set; ++extern p_vlynq_interrupt_vector_cntl_t p_vlynq_interrupt_vector_cntl; ++extern p_vlynq_interrupt_get_count_t p_vlynq_interrupt_get_count; ++extern p_vlynq_install_isr_t p_vlynq_install_isr; ++extern p_vlynq_uninstall_isr_t p_vlynq_uninstall_isr; ++extern p_vlynq_root_isr_t p_vlynq_root_isr; ++extern p_vlynq_delay_t p_vlynq_delay; ++extern p_vlynq_interrupt_vector_map_t p_vlynq_interrupt_vector_map; ++extern p_vlynq_interrupt_set_polarity_t p_vlynq_interrupt_set_polarity; ++extern p_vlynq_interrupt_get_polarity_t p_vlynq_interrupt_get_polarity; ++extern p_vlynq_interrupt_set_type_t p_vlynq_interrupt_set_type; ++extern p_vlynq_interrupt_get_type_t p_vlynq_interrupt_get_type; ++extern p_vlynq_interrupt_enable_t p_vlynq_interrupt_enable; ++extern p_vlynq_interrupt_disable_t p_vlynq_interrupt_disable; ++extern void *p_vlynqDevice0; ++extern void *p_vlynqDevice1; ++ ++/*------------------------------------------------------------------------------------------*\ ++\*------------------------------------------------------------------------------------------*/ ++enum _avalanche_need_ { ++ avalanche_need_vlynq, ++ avalanche_need_auto_mdix ++}; ++ ++int avalanche_need(enum _avalanche_need_); ++ ++#endif /*--- #ifndef _avalanche_types_h_ ---*/ +diff -urN linux.old/include/asm-mips/ar7/if_port.h linux.dev/include/asm-mips/ar7/if_port.h +--- linux.old/include/asm-mips/ar7/if_port.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/include/asm-mips/ar7/if_port.h 2005-11-10 01:10:46.071588750 +0100 +@@ -0,0 +1,26 @@ ++/******************************************************************************* ++ * FILE PURPOSE: Interface port id Header file ++ ******************************************************************************* ++ * FILE NAME: if_port.h ++ * ++ * DESCRIPTION: Header file carrying information about port ids of interfaces ++ * ++ * ++ * (C) Copyright 2003, Texas Instruments, Inc ++ ******************************************************************************/ ++#ifndef _IF_PORT_H_ ++#define _IF_PORT_H_ ++ ++#define AVALANCHE_CPMAC_LOW_PORT_ID 0 ++#define AVALANCHE_CPMAC_HIGH_PORT_ID 1 ++#define AVALANCHE_USB_PORT_ID 2 ++#define AVALANCHE_WLAN_PORT_ID 3 ++ ++ ++#define AVALANCHE_MARVELL_BASE_PORT_ID 4 ++ ++/* The marvell ports occupy port ids from 4 to 8 */ ++/* so the next port id number should start at 9 */ ++ ++ ++#endif /* _IF_PORT_H_ */ +diff -urN linux.old/include/asm-mips/ar7/sangam.h linux.dev/include/asm-mips/ar7/sangam.h +--- linux.old/include/asm-mips/ar7/sangam.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/include/asm-mips/ar7/sangam.h 2005-11-10 01:10:46.071588750 +0100 +@@ -0,0 +1,180 @@ ++#ifndef _SANGAM_H_ ++#define _SANGAM_H_ ++ ++#include <linux/config.h> ++#include <asm/addrspace.h> ++ ++/*---------------------------------------------------- ++ * Sangam's Module Base Addresses ++ *--------------------------------------------------*/ ++#define AVALANCHE_ADSL_SUB_SYS_MEM_BASE (KSEG1ADDR(0x01000000)) /* AVALANCHE ADSL Mem Base */ ++#define AVALANCHE_BROADBAND_INTERFACE__BASE (KSEG1ADDR(0x02000000)) /* AVALANCHE BBIF */ ++#define AVALANCHE_ATM_SAR_BASE (KSEG1ADDR(0x03000000)) /* AVALANCHE ATM SAR */ ++#define AVALANCHE_USB_SLAVE_BASE (KSEG1ADDR(0x03400000)) /* AVALANCHE USB SLAVE */ ++#define AVALANCHE_LOW_VLYNQ_MEM_MAP_BASE (KSEG1ADDR(0x04000000)) /* AVALANCHE VLYNQ 0 Mem map */ ++#define AVALANCHE_LOW_CPMAC_BASE (KSEG1ADDR(0x08610000)) /* AVALANCHE CPMAC 0 */ ++#define AVALANCHE_EMIF_CONTROL_BASE (KSEG1ADDR(0x08610800)) /* AVALANCHE EMIF */ ++#define AVALANCHE_GPIO_BASE (KSEG1ADDR(0x08610900)) /* AVALANCHE GPIO */ ++#define AVALANCHE_CLOCK_CONTROL_BASE (KSEG1ADDR(0x08610A00)) /* AVALANCHE Clock Control */ ++#define AVALANCHE_WATCHDOG_TIMER_BASE (KSEG1ADDR(0x08610B00)) /* AVALANCHE Watch Dog Timer */ ++#define AVALANCHE_TIMER0_BASE (KSEG1ADDR(0x08610C00)) /* AVALANCHE Timer 1 */ ++#define AVALANCHE_TIMER1_BASE (KSEG1ADDR(0x08610D00)) /* AVALANCHE Timer 2 */ ++#define AVALANCHE_UART0_REGS_BASE (KSEG1ADDR(0x08610E00)) /* AVALANCHE UART 0 */ ++#define AVALANCHE_UART1_REGS_BASE (KSEG1ADDR(0x08610F00)) /* AVALANCHE UART 0 */ ++#define AVALANCHE_I2C_BASE (KSEG1ADDR(0x08611000)) /* AVALANCHE I2C */ ++#define AVALANCHE_USB_SLAVE_CONTROL_BASE (KSEG1ADDR(0x08611200)) /* AVALANCHE USB DMA */ ++#define AVALANCHE_MCDMA0_CTRL_BASE (KSEG1ADDR(0x08611400)) /* AVALANCHE MC DMA 0 (channels 0-3) */ ++#define AVALANCHE_RESET_CONTROL_BASE (KSEG1ADDR(0x08611600)) /* AVALANCHE Reset Control */ ++#define AVALANCHE_BIST_CONTROL_BASE (KSEG1ADDR(0x08611700)) /* AVALANCHE BIST Control */ ++#define AVALANCHE_LOW_VLYNQ_CONTROL_BASE (KSEG1ADDR(0x08611800)) /* AVALANCHE VLYNQ0 Control */ ++#define AVALANCHE_DEVICE_CONFIG_LATCH_BASE (KSEG1ADDR(0x08611A00)) /* AVALANCHE Device Config Latch */ ++#define AVALANCHE_HIGH_VLYNQ_CONTROL_BASE (KSEG1ADDR(0x08611C00)) /* AVALANCHE VLYNQ1 Control */ ++#define AVALANCHE_MDIO_BASE (KSEG1ADDR(0x08611E00)) /* AVALANCHE MDIO */ ++#define AVALANCHE_FSER_BASE (KSEG1ADDR(0x08612000)) /* AVALANCHE FSER base */ ++#define AVALANCHE_INTC_BASE (KSEG1ADDR(0x08612400)) /* AVALANCHE INTC */ ++#define AVALANCHE_HIGH_CPMAC_BASE (KSEG1ADDR(0x08612800)) /* AVALANCHE CPMAC 1 */ ++#define AVALANCHE_HIGH_VLYNQ_MEM_MAP_BASE (KSEG1ADDR(0x0C000000)) /* AVALANCHE VLYNQ 1 Mem map */ ++ ++#define AVALANCHE_SDRAM_BASE 0x14000000UL ++ ++ ++/*---------------------------------------------------- ++ * Sangam Interrupt Map (Primary Interrupts) ++ *--------------------------------------------------*/ ++ ++#define AVALANCHE_UNIFIED_SECONDARY_INT 0 ++#define AVALANCHE_EXT_INT_0 1 ++#define AVALANCHE_EXT_INT_1 2 ++/* Line# 3 to 4 are reserved */ ++#define AVALANCHE_TIMER_0_INT 5 ++#define AVALANCHE_TIMER_1_INT 6 ++#define AVALANCHE_UART0_INT 7 ++#define AVALANCHE_UART1_INT 8 ++#define AVALANCHE_DMA_INT0 9 ++#define AVALANCHE_DMA_INT1 10 ++/* Line# 11 to 14 are reserved */ ++#define AVALANCHE_ATM_SAR_INT 15 ++/* Line# 16 to 18 are reserved */ ++#define AVALANCHE_LOW_CPMAC_INT 19 ++/* Line# 20 is reserved */ ++#define AVALANCHE_LOW_VLYNQ_INT 21 ++#define AVALANCHE_CODEC_WAKEUP_INT 22 ++/* Line# 23 is reserved */ ++#define AVALANCHE_USB_SLAVE_INT 24 ++#define AVALANCHE_HIGH_VLYNQ_INT 25 ++/* Line# 26 to 27 are reserved */ ++#define AVALANCHE_UNIFIED_PHY_INT 28 ++#define AVALANCHE_I2C_INT 29 ++#define AVALANCHE_DMA_INT2 30 ++#define AVALANCHE_DMA_INT3 31 ++/* Line# 32 is reserved */ ++#define AVALANCHE_HIGH_CPMAC_INT 33 ++/* Line# 34 to 36 is reserved */ ++#define AVALANCHE_VDMA_VT_RX_INT 37 ++#define AVALANCHE_VDMA_VT_TX_INT 38 ++#define AVALANCHE_ADSL_SUB_SYSTEM_INT 39 ++ ++ ++#define AVALANCHE_EMIF_INT 47 ++ ++ ++ ++/*----------------------------------------------------------- ++ * Sangam's Reset Bits ++ *---------------------------------------------------------*/ ++ ++#define AVALANCHE_UART0_RESET_BIT 0 ++#define AVALANCHE_UART1_RESET_BIT 1 ++#define AVALANCHE_I2C_RESET_BIT 2 ++#define AVALANCHE_TIMER0_RESET_BIT 3 ++#define AVALANCHE_TIMER1_RESET_BIT 4 ++/* Reset bit 5 is reserved. */ ++#define AVALANCHE_GPIO_RESET_BIT 6 ++#define AVALANCHE_ADSL_SUB_SYS_RESET_BIT 7 ++#define AVALANCHE_USB_SLAVE_RESET_BIT 8 ++#define AVALANCHE_ATM_SAR_RESET_BIT 9 ++/* Reset bit 10 is reserved. */ ++#define AVALANCHE_VDMA_VT_RESET_BIT 11 ++#define AVALANCHE_FSER_RESET_BIT 12 ++/* Reset bit 13 to 15 are reserved */ ++#define AVALANCHE_HIGH_VLYNQ_RESET_BIT 16 ++#define AVALANCHE_LOW_CPMAC_RESET_BIT 17 ++#define AVALANCHE_MCDMA_RESET_BIT 18 ++#define AVALANCHE_BIST_RESET_BIT 19 ++#define AVALANCHE_LOW_VLYNQ_RESET_BIT 20 ++#define AVALANCHE_HIGH_CPMAC_RESET_BIT 21 ++#define AVALANCHE_MDIO_RESET_BIT 22 ++#define AVALANCHE_ADSL_SUB_SYS_DSP_RESET_BIT 23 ++/* Reset bit 24 to 25 are reserved */ ++#define AVALANCHE_LOW_EPHY_RESET_BIT 26 ++/* Reset bit 27 to 31 are reserved */ ++ ++ ++#define AVALANCHE_POWER_MODULE_USBSP 0 ++#define AVALANCHE_POWER_MODULE_WDTP 1 ++#define AVALANCHE_POWER_MODULE_UT0P 2 ++#define AVALANCHE_POWER_MODULE_UT1P 3 ++#define AVALANCHE_POWER_MODULE_IICP 4 ++#define AVALANCHE_POWER_MODULE_VDMAP 5 ++#define AVALANCHE_POWER_MODULE_GPIOP 6 ++#define AVALANCHE_POWER_MODULE_VLYNQ1P 7 ++#define AVALANCHE_POWER_MODULE_SARP 8 ++#define AVALANCHE_POWER_MODULE_ADSLP 9 ++#define AVALANCHE_POWER_MODULE_EMIFP 10 ++#define AVALANCHE_POWER_MODULE_ADSPP 12 ++#define AVALANCHE_POWER_MODULE_RAMP 13 ++#define AVALANCHE_POWER_MODULE_ROMP 14 ++#define AVALANCHE_POWER_MODULE_DMAP 15 ++#define AVALANCHE_POWER_MODULE_BISTP 16 ++#define AVALANCHE_POWER_MODULE_TIMER0P 18 ++#define AVALANCHE_POWER_MODULE_TIMER1P 19 ++#define AVALANCHE_POWER_MODULE_EMAC0P 20 ++#define AVALANCHE_POWER_MODULE_EMAC1P 22 ++#define AVALANCHE_POWER_MODULE_EPHYP 24 ++#define AVALANCHE_POWER_MODULE_VLYNQ0P 27 ++ ++ ++ ++ ++ ++/* ++ * Sangam board vectors ++ */ ++ ++#define AVALANCHE_VECS (KSEG1ADDR(AVALANCHE_SDRAM_BASE)) ++#define AVALANCHE_VECS_KSEG0 (KSEG0ADDR(AVALANCHE_SDRAM_BASE)) ++ ++/*----------------------------------------------------------------------------- ++ * Sangam's system register. ++ * ++ *---------------------------------------------------------------------------*/ ++#define AVALANCHE_DCL_BOOTCR (KSEG1ADDR(0x08611A00)) ++#define AVALANCHE_EMIF_SDRAM_CFG (AVALANCHE_EMIF_CONTROL_BASE + 0x8) ++#define AVALANCHE_RST_CTRL_PRCR (KSEG1ADDR(0x08611600)) ++#define AVALANCHE_RST_CTRL_SWRCR (KSEG1ADDR(0x08611604)) ++#define AVALANCHE_RST_CTRL_RSR (KSEG1ADDR(0x08611600)) ++ ++#define AVALANCHE_POWER_CTRL_PDCR (KSEG1ADDR(0x08610A00)) ++#define AVALANCHE_WAKEUP_CTRL_WKCR (KSEG1ADDR(0x08610A0C)) ++ ++#define AVALANCHE_GPIO_DATA_IN (AVALANCHE_GPIO_BASE + 0x0) ++#define AVALANCHE_GPIO_DATA_OUT (AVALANCHE_GPIO_BASE + 0x4) ++#define AVALANCHE_GPIO_DIR (AVALANCHE_GPIO_BASE + 0x8) ++#define AVALANCHE_GPIO_ENBL (AVALANCHE_GPIO_BASE + 0xC) ++#define AVALANCHE_CVR (AVALANCHE_GPIO_BASE + 0x14) ++ ++/* ++ * Yamon Prom print address. ++ */ ++#define AVALANCHE_YAMON_FUNCTION_BASE (KSEG1ADDR(0x10000500)) ++#define AVALANCHE_YAMON_PROM_PRINT_COUNT_ADDR (AVALANCHE_YAMON_FUNCTION_BASE + 0x4) /* print_count function */ ++#define AVALANCHE_YAMON_PROM_PRINT_ADDR (AVALANCHE_YAMON_FUNCTION_BASE + 0x34) ++ ++#define AVALANCHE_BASE_BAUD ( 3686400 / 16 ) ++ ++#define AVALANCHE_GPIO_PIN_COUNT 32 ++#define AVALANCHE_GPIO_OFF_MAP {0xF34FFFC0} ++ ++#include "sangam_boards.h" ++ ++#endif /*_SANGAM_H_ */ +diff -urN linux.old/include/asm-mips/ar7/sangam_boards.h linux.dev/include/asm-mips/ar7/sangam_boards.h +--- linux.old/include/asm-mips/ar7/sangam_boards.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/include/asm-mips/ar7/sangam_boards.h 2005-11-10 01:10:46.071588750 +0100 +@@ -0,0 +1,77 @@ ++#ifndef _SANGAM_BOARDS_H ++#define _SANGAM_BOARDS_H ++ ++// Let us define board specific information here. ++ ++ ++#if defined(CONFIG_AR7DB) ++ ++#define AFECLK_FREQ 35328000 ++#define REFCLK_FREQ 25000000 ++#define OSC3_FREQ 24000000 ++#define AVALANCHE_LOW_CPMAC_PHY_MASK 0x80000000 ++#define AVALANCHE_HIGH_CPMAC_PHY_MASK 0x55555555 ++#define AVALANCHE_LOW_CPMAC_MDIX_MASK 0x80000000 ++ ++#endif ++ ++ ++#if defined(CONFIG_AR7RD) ++#define AFECLK_FREQ 35328000 ++#define REFCLK_FREQ 25000000 ++#define OSC3_FREQ 24000000 ++#define AVALANCHE_LOW_CPMAC_PHY_MASK 0x80000000 ++#define AVALANCHE_HIGH_CPMAC_PHY_MASK 0x2 ++#define AVALANCHE_LOW_CPMAC_MDIX_MASK 0x80000000 ++#endif ++ ++ ++#if defined(CONFIG_AR7WI) ++#define AFECLK_FREQ 35328000 ++#define REFCLK_FREQ 25000000 ++#define OSC3_FREQ 24000000 ++#define AVALANCHE_LOW_CPMAC_PHY_MASK 0x80000000 ++#define AVALANCHE_HIGH_CPMAC_PHY_MASK 0x2 ++#define AVALANCHE_LOW_CPMAC_MDIX_MASK 0x80000000 ++#endif ++ ++ ++#if defined(CONFIG_AR7V) ++#define AFECLK_FREQ 35328000 ++#define REFCLK_FREQ 25000000 ++#define OSC3_FREQ 24000000 ++#define AVALANCHE_LOW_CPMAC_PHY_MASK 0x80000000 ++#define AVALANCHE_HIGH_CPMAC_PHY_MASK 0x2 ++#define AVALANCHE_LOW_CPMAC_MDIX_MASK 0x80000000 ++#endif ++ ++ ++#if defined(CONFIG_AR7WRD) ++#define AFECLK_FREQ 35328000 ++#define REFCLK_FREQ 25000000 ++#define OSC3_FREQ 24000000 ++#define AVALANCHE_LOW_CPMAC_PHY_MASK 0x80000000 ++#define AVALANCHE_HIGH_CPMAC_PHY_MASK 0x00010000 ++#define AVALANCHE_LOW_CPMAC_MDIX_MASK 0x80000000 ++#endif ++ ++ ++#if defined(CONFIG_AR7VWI) ++#define AFECLK_FREQ 35328000 ++#define REFCLK_FREQ 25000000 ++#define OSC3_FREQ 24000000 ++#define AVALANCHE_LOW_CPMAC_PHY_MASK 0x80000000 ++#define AVALANCHE_HIGH_CPMAC_PHY_MASK 0x00010000 ++#define AVALANCHE_LOW_CPMAC_MDIX_MASK 0x80000000 ++#endif ++ ++ ++#if defined CONFIG_SEAD2 ++#define AVALANCHE_LOW_CPMAC_PHY_MASK 0xAAAAAAAA ++#define AVALANCHE_HIGH_CPMAC_PHY_MASK 0x55555555 ++#define AVALANCHE_LOW_CPMAC_MDIX_MASK 0 ++#include <asm/mips-boards/sead.h> ++#endif ++ ++ ++#endif +diff -urN linux.old/include/asm-mips/ar7/tnetd73xx.h linux.dev/include/asm-mips/ar7/tnetd73xx.h +--- linux.old/include/asm-mips/ar7/tnetd73xx.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/include/asm-mips/ar7/tnetd73xx.h 2005-11-10 01:10:46.075589000 +0100 +@@ -0,0 +1,338 @@ ++/****************************************************************************** ++ * FILE PURPOSE: TNETD73xx Common Header File ++ ****************************************************************************** ++ * FILE NAME: tnetd73xx.h ++ * ++ * DESCRIPTION: shared typedef's, constants and API for TNETD73xx ++ * ++ * REVISION HISTORY: ++ * 27 Nov 02 - PSP TII ++ * ++ * (C) Copyright 2002, Texas Instruments, Inc ++ *******************************************************************************/ ++ ++/* ++ * ++ * ++ * These are const, typedef, and api definitions for tnetd73xx. ++ * ++ * NOTES: ++ * 1. This file may be included into both C and Assembly files. ++ * - for .s files, please do #define _ASMLANGUAGE in your ASM file to ++ * avoid C data types (typedefs) below; ++ * - for .c files, you don't have to do anything special. ++ * ++ * 2. This file has a number of sections for each SOC subsystem. When adding ++ * a new constant, find the subsystem you are working on and follow the ++ * name pattern. If you are adding another typedef for your interface, please, ++ * place it with other typedefs and function prototypes. ++ * ++ * 3. Please, DO NOT add any macros or types that are local to a subsystem to avoid ++ * cluttering. Include such items directly into the module's .c file or have a ++ * local .h file to pass data between smaller modules. This file defines only ++ * shared items. ++ */ ++ ++#ifndef __TNETD73XX_H__ ++#define __TNETD73XX_H__ ++ ++#ifndef _ASMLANGUAGE /* This part not for assembly language */ ++ ++extern unsigned int tnetd73xx_mips_freq; ++extern unsigned int tnetd73xx_vbus_freq; ++ ++#include "tnetd73xx_err.h" ++ ++#endif /* _ASMLANGUAGE */ ++ ++ ++/******************************************************************************************* ++* Emerald core specific ++******************************************************************************************** */ ++ ++#ifdef BIG_ENDIAN ++#elif defined(LITTLE_ENDIAN) ++#else ++#error Need to define endianism ++#endif ++ ++#ifndef KSEG_MSK ++#define KSEG_MSK 0xE0000000 /* Most significant 3 bits denote kseg choice */ ++#endif ++ ++#ifndef KSEG_INV_MASK ++#define KSEG_INV_MASK 0x1FFFFFFF /* Inverted mask for kseg address */ ++#endif ++ ++#ifndef KSEG0_BASE ++#define KSEG0_BASE 0x80000000 ++#endif ++ ++#ifndef KSEG1_BASE ++#define KSEG1_BASE 0xA0000000 ++#endif ++ ++#ifndef KSEG0 ++#define KSEG0(addr) (((__u32)(addr) & ~KSEG_MSK) | KSEG0_BASE) ++#endif ++ ++#ifndef KSEG1 ++#define KSEG1(addr) (((__u32)(addr) & ~KSEG_MSK) | KSEG1_BASE) ++#endif ++ ++#ifndef KUSEG ++#define KUSEG(addr) ((__u32)(addr) & ~KSEG_MSK) ++#endif ++ ++#ifndef PHYS_ADDR ++#define PHYS_ADDR(addr) ((addr) & KSEG_INV_MASK) ++#endif ++ ++#ifndef PHYS_TO_K0 ++#define PHYS_TO_K0(addr) (PHYS_ADDR(addr)|KSEG0_BASE) ++#endif ++ ++#ifndef PHYS_TO_K1 ++#define PHYS_TO_K1(addr) (PHYS_ADDR(addr)|KSEG1_BASE) ++#endif ++ ++#ifndef REG8_ADDR ++#define REG8_ADDR(addr) (volatile __u8 *)(PHYS_TO_K1(addr)) ++#define REG8_DATA(addr) (*(volatile __u8 *)(PHYS_TO_K1(addr))) ++#define REG8_WRITE(addr, data) REG8_DATA(addr) = data; ++#define REG8_READ(addr, data) data = (__u8) REG8_DATA(addr); ++#endif ++ ++#ifndef REG16_ADDR ++#define REG16_ADDR(addr) (volatile __u16 *)(PHYS_TO_K1(addr)) ++#define REG16_DATA(addr) (*(volatile __u16 *)(PHYS_TO_K1(addr))) ++#define REG16_WRITE(addr, data) REG16_DATA(addr) = data; ++#define REG16_READ(addr, data) data = (__u16) REG16_DATA(addr); ++#endif ++ ++#ifndef REG32_ADDR ++#define REG32_ADDR(addr) (volatile __u32 *)(PHYS_TO_K1(addr)) ++#define REG32_DATA(addr) (*(volatile __u32 *)(PHYS_TO_K1(addr))) ++#define REG32_WRITE(addr, data) REG32_DATA(addr) = data; ++#define REG32_READ(addr, data) data = (__u32) REG32_DATA(addr); ++#endif ++ ++#ifdef _LINK_KSEG0_ /* Application is linked into KSEG0 space */ ++#define VIRT_ADDR(addr) PHYS_TO_K0(PHYS_ADDR(addr)) ++#endif ++ ++#ifdef _LINK_KSEG1_ /* Application is linked into KSEG1 space */ ++#define VIRT_ADDR(addr) PHYS_TO_K1(PHYS_ADDR(addr)) ++#endif ++ ++#if !defined(_LINK_KSEG0_) && !defined(_LINK_KSEG1_) ++#error You must define _LINK_KSEG0_ or _LINK_KSEG1_ to compile the code. ++#endif ++ ++/* TNETD73XX chip definations */ ++ ++#define FREQ_1MHZ 1000000 ++#define TNETD73XX_MIPS_FREQ tnetd73xx_mips_freq /* CPU clock frequency */ ++#define TNETD73XX_VBUS_FREQ tnetd73xx_vbus_freq /* originally (TNETD73XX_MIPS_FREQ/2) */ ++ ++#ifdef AR7SEAD2 ++#define TNETD73XX_MIPS_FREQ_DEFAULT 25000000 /* 25 Mhz for sead2 board crystal */ ++#else ++#define TNETD73XX_MIPS_FREQ_DEFAULT 125000000 /* 125 Mhz */ ++#endif ++#define TNETD73XX_VBUS_FREQ_DEFAULT (TNETD73XX_MIPS_FREQ_DEFAULT / 2) /* Sync mode */ ++ ++ ++ ++/* Module base addresses */ ++#define TNETD73XX_ADSLSS_BASE PHYS_TO_K1(0x01000000) /* ADSLSS Module */ ++#define TNETD73XX_BBIF_CTRL_BASE PHYS_TO_K1(0x02000000) /* BBIF Control */ ++#define TNETD73XX_ATMSAR_BASE PHYS_TO_K1(0x03000000) /* ATM SAR */ ++#define TNETD73XX_USB_BASE PHYS_TO_K1(0x03400000) /* USB Module */ ++#define TNETD73XX_VLYNQ0_BASE PHYS_TO_K1(0x04000000) /* VLYNQ0 Module */ ++#define TNETD73xx_EMAC0_BASE PHYS_TO_K1(0x08610000) /* EMAC0 Module*/ ++#define TNETD73XX_EMIF_BASE PHYS_TO_K1(0x08610800) /* EMIF Module */ ++#define TNETD73XX_GPIO_BASE PHYS_TO_K1(0x08610900) /* GPIO control */ ++#define TNETD73XX_CLOCK_CTRL_BASE PHYS_TO_K1(0x08610A00) /* Clock Control */ ++#define TNETD73XX_WDTIMER_BASE PHYS_TO_K1(0x08610B00) /* WDTIMER Module */ ++#define TNETD73XX_TIMER0_BASE PHYS_TO_K1(0x08610C00) /* TIMER0 Module */ ++#define TNETD73XX_TIMER1_BASE PHYS_TO_K1(0x08610D00) /* TIMER1 Module */ ++#define TNETD73XX_UARTA_BASE PHYS_TO_K1(0x08610E00) /* UART A */ ++#define TNETD73XX_UARTB_BASE PHYS_TO_K1(0x08610F00) /* UART B */ ++#define TNETD73XX_I2C_BASE PHYS_TO_K1(0x08611000) /* I2C Module */ ++#define TNETD73XX_USB_DMA_BASE PHYS_TO_K1(0x08611200) /* USB Module */ ++#define TNETD73XX_MCDMA_BASE PHYS_TO_K1(0x08611400) /* MC-DMA */ ++#define TNETD73xx_VDMAVT_BASE PHYS_TO_K1(0x08611500) /* VDMAVT Control */ ++#define TNETD73XX_RST_CTRL_BASE PHYS_TO_K1(0x08611600) /* Reset Control */ ++#define TNETD73xx_BIST_CTRL_BASE PHYS_TO_K1(0x08611700) /* BIST Control */ ++#define TNETD73xx_VLYNQ0_CTRL_BASE PHYS_TO_K1(0x08611800) /* VLYNQ0 Control */ ++#define TNETD73XX_DCL_BASE PHYS_TO_K1(0x08611A00) /* Device Configuration Latch */ ++#define TNETD73xx_VLYNQ1_CTRL_BASE PHYS_TO_K1(0x08611C00) /* VLYNQ1 Control */ ++#define TNETD73xx_MDIO_BASE PHYS_TO_K1(0x08611E00) /* MDIO Control */ ++#define TNETD73XX_FSER_BASE PHYS_TO_K1(0x08612000) /* FSER Control */ ++#define TNETD73XX_INTC_BASE PHYS_TO_K1(0x08612400) /* Interrupt Controller */ ++#define TNETD73xx_EMAC1_BASE PHYS_TO_K1(0x08612800) /* EMAC1 Module*/ ++#define TNETD73XX_VLYNQ1_BASE PHYS_TO_K1(0x0C000000) /* VLYNQ1 Module */ ++ ++/* BBIF Registers */ ++#define TNETD73XX_BBIF_ADSLADR (TNETD73XX_BBIF_CTRL_BASE + 0x0) ++ ++/* Device Configuration Latch Registers */ ++#define TNETD73XX_DCL_BOOTCR (TNETD73XX_DCL_BASE + 0x0) ++#define TNETD73XX_DCL_DPLLSELR (TNETD73XX_DCL_BASE + 0x10) ++#define TNETD73XX_DCL_SPEEDCTLR (TNETD73XX_DCL_BASE + 0x14) ++#define TNETD73XX_DCL_SPEEDPWDR (TNETD73XX_DCL_BASE + 0x18) ++#define TNETD73XX_DCL_SPEEDCAPR (TNETD73XX_DCL_BASE + 0x1C) ++ ++/* GPIO Control */ ++#define TNETD73XX_GPIODINR (TNETD73XX_GPIO_BASE + 0x0) ++#define TNETD73XX_GPIODOUTR (TNETD73XX_GPIO_BASE + 0x4) ++#define TNETD73XX_GPIOPDIRR (TNETD73XX_GPIO_BASE + 0x8) ++#define TNETD73XX_GPIOENR (TNETD73XX_GPIO_BASE + 0xC) ++#define TNETD73XX_CVR (TNETD73XX_GPIO_BASE + 0x14) ++#define TNETD73XX_DIDR1 (TNETD73XX_GPIO_BASE + 0x18) ++#define TNETD73XX_DIDR2 (TNETD73XX_GPIO_BASE + 0x1C) ++ ++/* Reset Control */ ++#define TNETD73XX_RST_CTRL_PRCR (TNETD73XX_RST_CTRL_BASE + 0x0) ++#define TNETD73XX_RST_CTRL_SWRCR (TNETD73XX_RST_CTRL_BASE + 0x4) ++#define TNETD73XX_RST_CTRL_RSR (TNETD73XX_RST_CTRL_BASE + 0x8) ++ ++/* Power Control */ ++#define TNETD73XX_POWER_CTRL_PDCR (TNETD73XX_CLOCK_CTRL_BASE + 0x0) ++#define TNETD73XX_POWER_CTRL_PCLKCR (TNETD73XX_CLOCK_CTRL_BASE + 0x4) ++#define TNETD73XX_POWER_CTRL_PDUCR (TNETD73XX_CLOCK_CTRL_BASE + 0x8) ++#define TNETD73XX_POWER_CTRL_WKCR (TNETD73XX_CLOCK_CTRL_BASE + 0xC) ++ ++/* Clock Control */ ++#define TNETD73XX_CLK_CTRL_SCLKCR (TNETD73XX_CLOCK_CTRL_BASE + 0x20) ++#define TNETD73XX_CLK_CTRL_SCLKPLLCR (TNETD73XX_CLOCK_CTRL_BASE + 0x30) ++#define TNETD73XX_CLK_CTRL_MCLKCR (TNETD73XX_CLOCK_CTRL_BASE + 0x40) ++#define TNETD73XX_CLK_CTRL_MCLKPLLCR (TNETD73XX_CLOCK_CTRL_BASE + 0x50) ++#define TNETD73XX_CLK_CTRL_UCLKCR (TNETD73XX_CLOCK_CTRL_BASE + 0x60) ++#define TNETD73XX_CLK_CTRL_UCLKPLLCR (TNETD73XX_CLOCK_CTRL_BASE + 0x70) ++#define TNETD73XX_CLK_CTRL_ACLKCR0 (TNETD73XX_CLOCK_CTRL_BASE + 0x80) ++#define TNETD73XX_CLK_CTRL_ACLKPLLCR0 (TNETD73XX_CLOCK_CTRL_BASE + 0x90) ++#define TNETD73XX_CLK_CTRL_ACLKCR1 (TNETD73XX_CLOCK_CTRL_BASE + 0xA0) ++#define TNETD73XX_CLK_CTRL_ACLKPLLCR1 (TNETD73XX_CLOCK_CTRL_BASE + 0xB0) ++ ++/* EMIF control */ ++#define TNETD73XX_EMIF_SDRAM_CFG ( TNETD73XX_EMIF_BASE + 0x08 ) ++ ++/* UART */ ++#ifdef AR7SEAD2 ++#define TNETD73XX_UART_FREQ 3686400 ++#else ++#define TNETD73XX_UART_FREQ TNETD73XX_VBUS_FREQ ++#endif ++ ++/* Interrupt Controller */ ++ ++/* Primary interrupts */ ++#define TNETD73XX_INTC_UNIFIED_SECONDARY 0 /* Unified secondary interrupt */ ++#define TNETD73XX_INTC_EXTERNAL0 1 /* External Interrupt Line 0 */ ++#define TNETD73XX_INTC_EXTERNAL1 2 /* External Interrupt Line 1 */ ++#define TNETD73XX_INTC_RESERVED3 3 /* Reserved */ ++#define TNETD73XX_INTC_RESERVED4 4 /* Reserved */ ++#define TNETD73XX_INTC_TIMER0 5 /* TIMER 0 int */ ++#define TNETD73XX_INTC_TIMER1 6 /* TIMER 1 int */ ++#define TNETD73XX_INTC_UART0 7 /* UART 0 int */ ++#define TNETD73XX_INTC_UART1 8 /* UART 1 int */ ++#define TNETD73XX_INTC_MCDMA0 9 /* MCDMA 0 int */ ++#define TNETD73XX_INTC_MCDMA1 10 /* MCDMA 1 int */ ++#define TNETD73XX_INTC_RESERVED11 11 /* Reserved */ ++#define TNETD73XX_INTC_RESERVED12 12 /* Reserved */ ++#define TNETD73XX_INTC_RESERVED13 13 /* Reserved */ ++#define TNETD73XX_INTC_RESERVED14 14 /* Reserved */ ++#define TNETD73XX_INTC_ATMSAR 15 /* ATM SAR int */ ++#define TNETD73XX_INTC_RESERVED16 16 /* Reserved */ ++#define TNETD73XX_INTC_RESERVED17 17 /* Reserved */ ++#define TNETD73XX_INTC_RESERVED18 18 /* Reserved */ ++#define TNETD73XX_INTC_EMAC0 19 /* EMAC 0 int */ ++#define TNETD73XX_INTC_RESERVED20 20 /* Reserved */ ++#define TNETD73XX_INTC_VLYNQ0 21 /* VLYNQ 0 int */ ++#define TNETD73XX_INTC_CODEC 22 /* CODEC int */ ++#define TNETD73XX_INTC_RESERVED23 23 /* Reserved */ ++#define TNETD73XX_INTC_USBSLAVE 24 /* USB Slave int */ ++#define TNETD73XX_INTC_VLYNQ1 25 /* VLYNQ 1 int */ ++#define TNETD73XX_INTC_RESERVED26 26 /* Reserved */ ++#define TNETD73XX_INTC_RESERVED27 27 /* Reserved */ ++#define TNETD73XX_INTC_ETH_PHY 28 /* Ethernet PHY */ ++#define TNETD73XX_INTC_I2C 29 /* I2C int */ ++#define TNETD73XX_INTC_MCDMA2 30 /* MCDMA 2 int */ ++#define TNETD73XX_INTC_MCDMA3 31 /* MCDMA 3 int */ ++#define TNETD73XX_INTC_RESERVED32 32 /* Reserved */ ++#define TNETD73XX_INTC_EMAC1 33 /* EMAC 1 int */ ++#define TNETD73XX_INTC_RESERVED34 34 /* Reserved */ ++#define TNETD73XX_INTC_RESERVED35 35 /* Reserved */ ++#define TNETD73XX_INTC_RESERVED36 36 /* Reserved */ ++#define TNETD73XX_INTC_VDMAVTRX 37 /* VDMAVTRX */ ++#define TNETD73XX_INTC_VDMAVTTX 38 /* VDMAVTTX */ ++#define TNETD73XX_INTC_ADSLSS 39 /* ADSLSS */ ++ ++/* Secondary interrupts */ ++#define TNETD73XX_INTC_SEC0 40 /* Secondary */ ++#define TNETD73XX_INTC_SEC1 41 /* Secondary */ ++#define TNETD73XX_INTC_SEC2 42 /* Secondary */ ++#define TNETD73XX_INTC_SEC3 43 /* Secondary */ ++#define TNETD73XX_INTC_SEC4 44 /* Secondary */ ++#define TNETD73XX_INTC_SEC5 45 /* Secondary */ ++#define TNETD73XX_INTC_SEC6 46 /* Secondary */ ++#define TNETD73XX_INTC_EMIF 47 /* EMIF */ ++#define TNETD73XX_INTC_SEC8 48 /* Secondary */ ++#define TNETD73XX_INTC_SEC9 49 /* Secondary */ ++#define TNETD73XX_INTC_SEC10 50 /* Secondary */ ++#define TNETD73XX_INTC_SEC11 51 /* Secondary */ ++#define TNETD73XX_INTC_SEC12 52 /* Secondary */ ++#define TNETD73XX_INTC_SEC13 53 /* Secondary */ ++#define TNETD73XX_INTC_SEC14 54 /* Secondary */ ++#define TNETD73XX_INTC_SEC15 55 /* Secondary */ ++#define TNETD73XX_INTC_SEC16 56 /* Secondary */ ++#define TNETD73XX_INTC_SEC17 57 /* Secondary */ ++#define TNETD73XX_INTC_SEC18 58 /* Secondary */ ++#define TNETD73XX_INTC_SEC19 59 /* Secondary */ ++#define TNETD73XX_INTC_SEC20 60 /* Secondary */ ++#define TNETD73XX_INTC_SEC21 61 /* Secondary */ ++#define TNETD73XX_INTC_SEC22 62 /* Secondary */ ++#define TNETD73XX_INTC_SEC23 63 /* Secondary */ ++#define TNETD73XX_INTC_SEC24 64 /* Secondary */ ++#define TNETD73XX_INTC_SEC25 65 /* Secondary */ ++#define TNETD73XX_INTC_SEC26 66 /* Secondary */ ++#define TNETD73XX_INTC_SEC27 67 /* Secondary */ ++#define TNETD73XX_INTC_SEC28 68 /* Secondary */ ++#define TNETD73XX_INTC_SEC29 69 /* Secondary */ ++#define TNETD73XX_INTC_SEC30 70 /* Secondary */ ++#define TNETD73XX_INTC_SEC31 71 /* Secondary */ ++ ++/* These ugly macros are to access the -1 registers, like config1 */ ++#define MFC0_SEL1_OPCODE(dst, src)\ ++ .word (0x40000000 | ((dst)<<16) | ((src)<<11) | 1);\ ++ nop; \ ++ nop; \ ++ nop ++ ++#define MTC0_SEL1_OPCODE(dst, src)\ ++ .word (0x40800000 | ((dst)<<16) | ((src)<<11) | 1);\ ++ nop; \ ++ nop; \ ++ nop ++ ++ ++/* Below are Jade core specific */ ++#define CFG0_4K_IL_MASK 0x00380000 ++#define CFG0_4K_IL_SHIFT 19 ++#define CFG0_4K_IA_MASK 0x00070000 ++#define CFG0_4K_IA_SHIFT 16 ++#define CFG0_4K_IS_MASK 0x01c00000 ++#define CFG0_4K_IS_SHIFT 22 ++ ++#define CFG0_4K_DL_MASK 0x00001c00 ++#define CFG0_4K_DL_SHIFT 10 ++#define CFG0_4K_DA_MASK 0x00000380 ++#define CFG0_4K_DA_SHIFT 7 ++#define CFG0_4K_DS_MASK 0x0000E000 ++#define CFG0_4K_DS_SHIFT 13 ++ ++ ++ ++#endif /* __TNETD73XX_H_ */ +diff -urN linux.old/include/asm-mips/ar7/tnetd73xx_err.h linux.dev/include/asm-mips/ar7/tnetd73xx_err.h +--- linux.old/include/asm-mips/ar7/tnetd73xx_err.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/include/asm-mips/ar7/tnetd73xx_err.h 2005-11-10 01:10:46.075589000 +0100 +@@ -0,0 +1,42 @@ ++/****************************************************************************** ++ * FILE PURPOSE: TNETD73xx Error Definations Header File ++ ****************************************************************************** ++ * FILE NAME: tnetd73xx_err.h ++ * ++ * DESCRIPTION: Error definations for TNETD73XX ++ * ++ * REVISION HISTORY: ++ * 27 Nov 02 - PSP TII ++ * ++ * (C) Copyright 2002, Texas Instruments, Inc ++ *******************************************************************************/ ++ ++ ++#ifndef __TNETD73XX_ERR_H__ ++#define __TNETD73XX_ERR_H__ ++ ++typedef enum TNETD73XX_ERR_t ++{ ++ TNETD73XX_ERR_OK = 0, /* OK or SUCCESS */ ++ TNETD73XX_ERR_ERROR = -1, /* Unspecified/Generic ERROR */ ++ ++ /* Pointers and args */ ++ TNETD73XX_ERR_INVARG = -2, /* Invaild argument to the call */ ++ TNETD73XX_ERR_NULLPTR = -3, /* NULL pointer */ ++ TNETD73XX_ERR_BADPTR = -4, /* Bad (out of mem) pointer */ ++ ++ /* Memory issues */ ++ TNETD73XX_ERR_ALLOC_FAIL = -10, /* allocation failed */ ++ TNETD73XX_ERR_FREE_FAIL = -11, /* free failed */ ++ TNETD73XX_ERR_MEM_CORRUPT = -12, /* corrupted memory */ ++ TNETD73XX_ERR_BUF_LINK = -13, /* buffer linking failed */ ++ ++ /* Device issues */ ++ TNETD73XX_ERR_DEVICE_TIMEOUT = -20, /* device timeout on read/write */ ++ TNETD73XX_ERR_DEVICE_MALFUNC = -21, /* device malfunction */ ++ ++ TNETD73XX_ERR_INVID = -30 /* Invalid ID */ ++ ++} TNETD73XX_ERR; ++ ++#endif /* __TNETD73XX_ERR_H__ */ +diff -urN linux.old/include/asm-mips/ar7/tnetd73xx_misc.h linux.dev/include/asm-mips/ar7/tnetd73xx_misc.h +--- linux.old/include/asm-mips/ar7/tnetd73xx_misc.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/include/asm-mips/ar7/tnetd73xx_misc.h 2005-11-10 01:10:46.075589000 +0100 +@@ -0,0 +1,239 @@ ++/****************************************************************************** ++ * FILE PURPOSE: TNETD73xx Misc modules API Header ++ ****************************************************************************** ++ * FILE NAME: tnetd73xx_misc.h ++ * ++ * DESCRIPTION: Clock Control, Reset Control, Power Management, GPIO ++ * FSER Modules API ++ * As per TNETD73xx specifications ++ * ++ * REVISION HISTORY: ++ * 27 Nov 02 - Sharath Kumar PSP TII ++ * 14 Feb 03 - Anant Gole PSP TII ++ * ++ * (C) Copyright 2002, Texas Instruments, Inc ++ *******************************************************************************/ ++ ++#ifndef __TNETD73XX_MISC_H__ ++#define __TNETD73XX_MISC_H__ ++ ++/***************************************************************************** ++ * Reset Control Module ++ *****************************************************************************/ ++ ++typedef enum TNETD73XX_RESET_MODULE_tag ++{ ++ RESET_MODULE_UART0 = 0, ++ RESET_MODULE_UART1 = 1, ++ RESET_MODULE_I2C = 2, ++ RESET_MODULE_TIMER0 = 3, ++ RESET_MODULE_TIMER1 = 4, ++ RESET_MODULE_GPIO = 6, ++ RESET_MODULE_ADSLSS = 7, ++ RESET_MODULE_USBS = 8, ++ RESET_MODULE_SAR = 9, ++ RESET_MODULE_VDMA_VT = 11, ++ RESET_MODULE_FSER = 12, ++ RESET_MODULE_VLYNQ1 = 16, ++ RESET_MODULE_EMAC0 = 17, ++ RESET_MODULE_DMA = 18, ++ RESET_MODULE_BIST = 19, ++ RESET_MODULE_VLYNQ0 = 20, ++ RESET_MODULE_EMAC1 = 21, ++ RESET_MODULE_MDIO = 22, ++ RESET_MODULE_ADSLSS_DSP = 23, ++ RESET_MODULE_EPHY = 26 ++} TNETD73XX_RESET_MODULE_T; ++ ++typedef enum TNETD73XX_RESET_CTRL_tag ++{ ++ IN_RESET = 0, ++ OUT_OF_RESET ++} TNETD73XX_RESET_CTRL_T; ++ ++typedef enum TNETD73XX_SYS_RST_MODE_tag ++{ ++ RESET_SOC_WITH_MEMCTRL = 1, /* SW0 bit in SWRCR register */ ++ RESET_SOC_WITHOUT_MEMCTRL = 2 /* SW1 bit in SWRCR register */ ++} TNETD73XX_SYS_RST_MODE_T; ++ ++typedef enum TNETD73XX_SYS_RESET_STATUS_tag ++{ ++ HARDWARE_RESET = 0, ++ SOFTWARE_RESET0, /* Caused by writing 1 to SW0 bit in SWRCR register */ ++ WATCHDOG_RESET, ++ SOFTWARE_RESET1 /* Caused by writing 1 to SW1 bit in SWRCR register */ ++} TNETD73XX_SYS_RESET_STATUS_T; ++ ++void tnetd73xx_reset_ctrl(TNETD73XX_RESET_MODULE_T reset_module, ++ TNETD73XX_RESET_CTRL_T reset_ctrl); ++TNETD73XX_RESET_CTRL_T tnetd73xx_get_reset_status(TNETD73XX_RESET_MODULE_T reset_module); ++void tnetd73xx_sys_reset(TNETD73XX_SYS_RST_MODE_T mode); ++TNETD73XX_SYS_RESET_STATUS_T tnetd73xx_get_sys_last_reset_status(void); ++ ++/***************************************************************************** ++ * Power Control Module ++ *****************************************************************************/ ++ ++typedef enum TNETD73XX_POWER_MODULE_tag ++{ ++ POWER_MODULE_USBSP = 0, ++ POWER_MODULE_WDTP = 1, ++ POWER_MODULE_UT0P = 2, ++ POWER_MODULE_UT1P = 3, ++ POWER_MODULE_IICP = 4, ++ POWER_MODULE_VDMAP = 5, ++ POWER_MODULE_GPIOP = 6, ++ POWER_MODULE_VLYNQ1P = 7, ++ POWER_MODULE_SARP = 8, ++ POWER_MODULE_ADSLP = 9, ++ POWER_MODULE_EMIFP = 10, ++ POWER_MODULE_ADSPP = 12, ++ POWER_MODULE_RAMP = 13, ++ POWER_MODULE_ROMP = 14, ++ POWER_MODULE_DMAP = 15, ++ POWER_MODULE_BISTP = 16, ++ POWER_MODULE_TIMER0P = 18, ++ POWER_MODULE_TIMER1P = 19, ++ POWER_MODULE_EMAC0P = 20, ++ POWER_MODULE_EMAC1P = 22, ++ POWER_MODULE_EPHYP = 24, ++ POWER_MODULE_VLYNQ0P = 27, ++} TNETD73XX_POWER_MODULE_T; ++ ++typedef enum TNETD73XX_POWER_CTRL_tag ++{ ++ POWER_CTRL_POWER_UP = 0, ++ POWER_CTRL_POWER_DOWN ++} TNETD73XX_POWER_CTRL_T; ++ ++typedef enum TNETD73XX_SYS_POWER_MODE_tag ++{ ++ GLOBAL_POWER_MODE_RUN = 0, /* All system is up */ ++ GLOBAL_POWER_MODE_IDLE, /* MIPS is power down, all peripherals working */ ++ GLOBAL_POWER_MODE_STANDBY, /* Chip in power down, but clock to ADSKL subsystem is running */ ++ GLOBAL_POWER_MODE_POWER_DOWN /* Total chip is powered down */ ++} TNETD73XX_SYS_POWER_MODE_T; ++ ++void tnetd73xx_power_ctrl(TNETD73XX_POWER_MODULE_T power_module, TNETD73XX_POWER_CTRL_T power_ctrl); ++TNETD73XX_POWER_CTRL_T tnetd73xx_get_pwr_status(TNETD73XX_POWER_MODULE_T power_module); ++void tnetd73xx_set_global_pwr_mode(TNETD73XX_SYS_POWER_MODE_T power_mode); ++TNETD73XX_SYS_POWER_MODE_T tnetd73xx_get_global_pwr_mode(void); ++ ++/***************************************************************************** ++ * Wakeup Control ++ *****************************************************************************/ ++ ++typedef enum TNETD73XX_WAKEUP_INTERRUPT_tag ++{ ++ WAKEUP_INT0 = 1, ++ WAKEUP_INT1 = 2, ++ WAKEUP_INT2 = 4, ++ WAKEUP_INT3 = 8 ++} TNETD73XX_WAKEUP_INTERRUPT_T; ++ ++typedef enum TNETD73XX_WAKEUP_CTRL_tag ++{ ++ WAKEUP_DISABLED = 0, ++ WAKEUP_ENABLED ++} TNETD73XX_WAKEUP_CTRL_T; ++ ++typedef enum TNETD73XX_WAKEUP_POLARITY_tag ++{ ++ WAKEUP_ACTIVE_HIGH = 0, ++ WAKEUP_ACTIVE_LOW ++} TNETD73XX_WAKEUP_POLARITY_T; ++ ++void tnetd73xx_wakeup_ctrl(TNETD73XX_WAKEUP_INTERRUPT_T wakeup_int, ++ TNETD73XX_WAKEUP_CTRL_T wakeup_ctrl, ++ TNETD73XX_WAKEUP_POLARITY_T wakeup_polarity); ++ ++/***************************************************************************** ++ * FSER Control ++ *****************************************************************************/ ++ ++typedef enum TNETD73XX_FSER_MODE_tag ++{ ++ FSER_I2C = 0, ++ FSER_UART = 1 ++} TNETD73XX_FSER_MODE_T; ++ ++void tnetd73xx_fser_ctrl(TNETD73XX_FSER_MODE_T fser_mode); ++ ++/***************************************************************************** ++ * Clock Control ++ *****************************************************************************/ ++ ++#define CLK_MHZ(x) ( (x) * 1000000 ) ++ ++typedef enum TNETD73XX_CLKC_ID_tag ++{ ++ CLKC_SYS = 0, ++ CLKC_MIPS, ++ CLKC_USB, ++ CLKC_ADSLSS ++} TNETD73XX_CLKC_ID_T; ++ ++void tnetd73xx_clkc_init(__u32 afeclk, __u32 refclk, __u32 xtal3in); ++TNETD73XX_ERR tnetd73xx_clkc_set_freq(TNETD73XX_CLKC_ID_T clk_id, __u32 output_freq); ++__u32 tnetd73xx_clkc_get_freq(TNETD73XX_CLKC_ID_T clk_id); ++ ++/***************************************************************************** ++ * GPIO Control ++ *****************************************************************************/ ++ ++typedef enum TNETD73XX_GPIO_PIN_tag ++{ ++ GPIO_UART0_RD = 0, ++ GPIO_UART0_TD = 1, ++ GPIO_UART0_RTS = 2, ++ GPIO_UART0_CTS = 3, ++ GPIO_FSER_CLK = 4, ++ GPIO_FSER_D = 5, ++ GPIO_EXT_AFE_SCLK = 6, ++ GPIO_EXT_AFE_TX_FS = 7, ++ GPIO_EXT_AFE_TXD = 8, ++ GPIO_EXT_AFE_RS_FS = 9, ++ GPIO_EXT_AFE_RXD1 = 10, ++ GPIO_EXT_AFE_RXD0 = 11, ++ GPIO_EXT_AFE_CDIN = 12, ++ GPIO_EXT_AFE_CDOUT = 13, ++ GPIO_EPHY_SPEED100 = 14, ++ GPIO_EPHY_LINKON = 15, ++ GPIO_EPHY_ACTIVITY = 16, ++ GPIO_EPHY_FDUPLEX = 17, ++ GPIO_EINT0 = 18, ++ GPIO_EINT1 = 19, ++ GPIO_MBSP0_TCLK = 20, ++ GPIO_MBSP0_RCLK = 21, ++ GPIO_MBSP0_RD = 22, ++ GPIO_MBSP0_TD = 23, ++ GPIO_MBSP0_RFS = 24, ++ GPIO_MBSP0_TFS = 25, ++ GPIO_MII_DIO = 26, ++ GPIO_MII_DCLK = 27, ++} TNETD73XX_GPIO_PIN_T; ++ ++typedef enum TNETD73XX_GPIO_PIN_MODE_tag ++{ ++ FUNCTIONAL_PIN = 0, ++ GPIO_PIN = 1 ++} TNETD73XX_GPIO_PIN_MODE_T; ++ ++typedef enum TNETD73XX_GPIO_PIN_DIRECTION_tag ++{ ++ GPIO_OUTPUT_PIN = 0, ++ GPIO_INPUT_PIN = 1 ++} TNETD73XX_GPIO_PIN_DIRECTION_T; ++ ++void tnetd73xx_gpio_init(void); ++void tnetd73xx_gpio_ctrl(TNETD73XX_GPIO_PIN_T gpio_pin, ++ TNETD73XX_GPIO_PIN_MODE_T pin_mode, ++ TNETD73XX_GPIO_PIN_DIRECTION_T pin_direction); ++void tnetd73xx_gpio_out(TNETD73XX_GPIO_PIN_T gpio_pin, int value); ++int tnetd73xx_gpio_in(TNETD73XX_GPIO_PIN_T gpio_pin); ++ ++/* TNETD73XX Revision */ ++__u32 tnetd73xx_get_revision(void); ++ ++#endif /* __TNETD73XX_MISC_H__ */ +diff -urN linux.old/include/asm-mips/ar7/vlynq.h linux.dev/include/asm-mips/ar7/vlynq.h +--- linux.old/include/asm-mips/ar7/vlynq.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/include/asm-mips/ar7/vlynq.h 2005-11-10 01:10:46.095590250 +0100 +@@ -0,0 +1,610 @@ ++/*************************************************************************** ++**+----------------------------------------------------------------------+** ++**| **** |** ++**| **** |** ++**| ******o*** |** ++**| ********_///_**** |** ++**| ***** /_//_/ **** |** ++**| ** ** (__/ **** |** ++**| ********* |** ++**| **** |** ++**| *** |** ++**| |** ++**| Copyright (c) 2003 Texas Instruments Incorporated |** ++**| ALL RIGHTS RESERVED |** ++**| |** ++**| Permission is hereby granted to licensees of Texas Instruments |** ++**| Incorporated (TI) products to use this computer program for the sole |** ++**| purpose of implementing a licensee product based on TI products. |** ++**| No other rights to reproduce, use, or disseminate this computer |** ++**| program, whether in part or in whole, are granted. |** ++**| |** ++**| TI makes no representation or warranties with respect to the |** ++**| performance of this computer program, and specifically disclaims |** ++**| any responsibility for any damages, special or consequential, |** ++**| connected with the use of this program. |** ++**| |** ++**+----------------------------------------------------------------------+** ++***************************************************************************/ ++ ++/********************************************************************************* ++ * ------------------------------------------------------------------------------ ++ * Module : vlynq_hal.h ++ * Description : ++ * This header file provides the set of functions exported by the ++ * VLYNQ HAL. This file is included from the SOC specific VLYNQ driver wrapper. ++ * ------------------------------------------------------------------------------ ++ *********************************************************************************/ ++ ++#ifndef _VLYNQ_HAL_H_ ++#define _VLYNQ_HAL_H_ ++ ++/* Enable/Disable debug feature */ ++#undef VLYNQ_DEBUG ++ ++#ifdef VLYNQ_DEBUG /* This needs to be OS abstracted - for testing use vxworks/linux calls */ ++#define debugPrint(format,args...) ++#else ++#define debugPrint(format,args...) ++#endif ++ ++ /* number of VLYNQ memory regions supported */ ++#define VLYNQ_MAX_MEMORY_REGIONS 0x04 ++ ++ /* Max.number of external interrupt inputs supported by VLYNQ module */ ++#define VLYNQ_IVR_MAXIVR 0x08 ++ ++#define VLYNQ_CLK_DIV_MAX 0x08 ++#define VLYNQ_CLK_DIV_MIN 0x01 ++ ++ ++/*** the total number of entries allocated for ICB would be ++ * 32(for 32 bits in IntPending register) + VLYNQ_IVR_CHAIN_SLOTS*/ ++#define VLYNQ_IVR_CHAIN_SLOTS 10 ++ ++ ++/* Error defines */ ++#define VLYNQ_SUCCESS 0 ++ ++#define VLYNQ_ERRCODE_BASE 0 /* Chosen by system */ ++#define VLYNQ_INVALID_ARG -(VLYNQ_ERRCODE_BASE+1) ++#define VLYNQ_INVALID_DRV_STATE -(VLYNQ_ERRCODE_BASE+2) ++#define VLYNQ_INT_CONFIG_ERR -(VLYNQ_ERRCODE_BASE+3) ++#define VLYNQ_LINK_DOWN -(VLYNQ_ERRCODE_BASE+4) ++#define VLYNQ_MEMALLOC_FAIL -(VLYNQ_ERRCODE_BASE+5) ++#define VLYNQ_ISR_NON_EXISTENT -(VLYNQ_ERRCODE_BASE+6) ++#define VLYNQ_INTVEC_MAP_NOT_FOUND -(VLYNQ_ERRCODE_BASE+7) ++ ++/* Vlynq Defines and Macros */ ++ ++#define VLYNQ_NUM_INT_BITS 32 /* 32 bit interrupt staus register */ ++ ++/* Base address of module */ ++#define VLYNQ_BASE (pdev->module_base) ++ ++#define VLYNQ_REMOTE_REGS_OFFSET 0x0080 ++ ++#define VLYNQ_REV_OFFSET 0x0000 ++#define VLYNQ_CTRL_OFFSET 0x0004 ++#define VLYNQ_STATUS_OFFSET 0x0008 ++#define VLYNQ_INT_STAT_OFFSET 0x0010 ++#define VLYNQ_INT_PEND_OFFSET 0x0014 ++#define VLYNQ_INT_PTR_OFFSET 0x0018 ++#define VLYNQ_TXMAP_OFFSET 0x001c ++ ++#define VLYNQ_RX0MAP_SIZE_REG_OFFSET 0x0020 ++#define VLYNQ_RX0MAP_OFFSET_REG_OFFSET 0x0024 ++ ++#define VLYNQ_CHIP_VER_OFFSET 0x0040 ++#define VLYNQ_IVR_REGS_OFFSET 0x0060 ++ ++#define VLYNQ_INT_PENDING_REG_PTR 0x14 ++#define VLYNQ_R_INT_PENDING_REG_PTR VLYNQ_REMOTE_REGS_OFFSET + 0x14 ++ ++#define VLYNQ_REV_REG *((volatile unsigned int *)(VLYNQ_BASE+VLYNQ_REV_OFFSET)) ++#define VLYNQ_CTRL_REG *((volatile unsigned int *)(VLYNQ_BASE+VLYNQ_CTRL_OFFSET)) ++#define VLYNQ_STATUS_REG *((volatile unsigned int *)(VLYNQ_BASE+VLYNQ_STATUS_OFFSET)) ++#define VLYNQ_INT_STAT_REG *((volatile unsigned int *)(VLYNQ_BASE+VLYNQ_INT_STAT_OFFSET)) ++#define VLYNQ_INT_PEND_REG *((volatile unsigned int *)(VLYNQ_BASE+VLYNQ_INT_PEND_OFFSET)) ++#define VLYNQ_INT_PTR_REG *((volatile unsigned int *)(VLYNQ_BASE+VLYNQ_INT_PTR_OFFSET)) ++#define VLYNQ_TXMAP_REG *((volatile unsigned int *)(VLYNQ_BASE+VLYNQ_TXMAP_OFFSET)) ++ ++/** map takes on values between 1 to VLYNQ_MAX_MEMORY_REGIONS **/ ++#define VLYNQ_RXMAP_SIZE_REG(map) \ ++ *((volatile unsigned int *)(VLYNQ_BASE+VLYNQ_RX0MAP_SIZE_REG_OFFSET+( (map-1)<<3))) ++ ++/** map takes on values between 1 to VLYNQ_MAX_MEMORY_REGIONS **/ ++#define VLYNQ_RXMAP_OFFSET_REG(map) \ ++ *((volatile unsigned int *)(VLYNQ_BASE+VLYNQ_RX0MAP_OFFSET_REG_OFFSET+( (map-1)<<3))) ++ ++#define VLYNQ_CHIP_VER_REG *((volatile unsigned int *)(VLYNQ_BASE+VLYNQ_CHIP_VER_OFFSET)) ++ ++/* 0 =< ivr <= 31; currently ivr < VLYNQ_IVR_MAXIVR=8) */ ++#define VLYNQ_IVR_OFFSET(ivr) \ ++ (VLYNQ_BASE + VLYNQ_IVR_REGS_OFFSET +((((unsigned)(ivr)) & 31) & ~3) ) ++ ++#define VLYNQ_IVR_03TO00_REG *((volatile unsigned int*) (VLYNQ_IVR_OFFSET(0)) ) ++#define VLYNQ_IVR_07TO04_REG *((volatile unsigned int*) (VLYNQ_IVR_OFFSET(4)) ) ++/*** Can be extended for 11TO08...31TO28 when all 31 are supported**/ ++ ++#define VLYNQ_IVR_INTEN(ivr) (((unsigned int)(0x80)) << ((((unsigned)(ivr)) % 4) * 8)) ++#define VLYNQ_IVR_INTTYPE(ivr) (((unsigned int)(0x40)) << ((((unsigned)(ivr)) % 4) * 8)) ++#define VLYNQ_IVR_INTPOL(ivr) (((unsigned int)(0x20)) << ((((unsigned)(ivr)) % 4) * 8)) ++#define VLYNQ_IVR_INTVEC(ivr) (((unsigned int)(0x1F)) << ((((unsigned)(ivr)) % 4) * 8)) ++#define VLYNQ_IVR_INTALL(ivr) (((unsigned int)(0xFF)) << ((((unsigned)(ivr)) % 4) * 8)) ++ ++ ++ ++/********************************* ++ * Remote VLYNQ register set * ++ *********************************/ ++ ++#define VLYNQ_R_REV_OFFSET 0x0080 ++#define VLYNQ_R_CTRL_OFFSET 0x0084 ++#define VLYNQ_R_STATUS_OFFSET 0x0088 ++#define VLYNQ_R_INT_STAT_OFFSET 0x0090 ++#define VLYNQ_R_INT_PEND_OFFSET 0x0094 ++#define VLYNQ_R_INT_PTR_OFFSET 0x0098 ++#define VLYNQ_R_TXMAP_OFFSET 0x009c ++ ++#define VLYNQ_R_RX0MAP_SIZE_REG_OFFSET 0x00A0 ++#define VLYNQ_R_RX0MAP_OFFSET_REG_OFFSET 0x00A4 ++ ++#define VLYNQ_R_CHIP_VER_OFFSET 0x00C0 ++#define VLYNQ_R_IVR_REGS_OFFSET 0x00E0 ++ ++#define VLYNQ_R_REV_REG *((volatile unsigned int *)(VLYNQ_BASE + VLYNQ_R_REV_OFFSET)) ++#define VLYNQ_R_CTRL_REG *((volatile unsigned int *)(VLYNQ_BASE + VLYNQ_R_CTRL_OFFSET)) ++#define VLYNQ_R_STATUS_REG *((volatile unsigned int *)(VLYNQ_BASE + VLYNQ_R_STATUS_OFFSET)) ++#define VLYNQ_R_INT_STAT_REG *((volatile unsigned int *)(VLYNQ_BASE + VLYNQ_R_INT_STAT_OFFSET)) ++#define VLYNQ_R_INT_PEND_REG *((volatile unsigned int *)(VLYNQ_BASE + VLYNQ_R_INT_PEND_OFFSET)) ++#define VLYNQ_R_INT_PTR_REG *((volatile unsigned int *)(VLYNQ_BASE + VLYNQ_R_INT_PTR_OFFSET)) ++#define VLYNQ_R_TXMAP_REG *((volatile unsigned int *)(VLYNQ_BASE + VLYNQ_R_TXMAP_OFFSET)) ++ ++/** map takes on values between 1 to VLYNQ_MAX_MEMORY_REGIONS **/ ++#define VLYNQ_R_RXMAP_SIZE_REG(map) \ ++ *((volatile unsigned int *)(VLYNQ_BASE + VLYNQ_R_RX0MAP_SIZE_REG_OFFSET + ((map-1)<<3))) ++ ++/** map takes on values between 1 to VLYNQ_MAX_MEMORY_REGIONS **/ ++#define VLYNQ_R_RXMAP_OFFSET_REG(map) \ ++ *((volatile unsigned int *)(VLYNQ_BASE + VLYNQ_R_RX0MAP_OFFSET_REG_OFFSET + ((map-1)<<3))) ++ ++#define VLYNQ_R_CHIP_VER_REG *((volatile unsigned int *)(VLYNQ_BASE + VLYNQ_R_CHIP_VER_OFFSET) ++ ++#define VLYNQ_R_IVR_OFFSET(ivr) \ ++ (VLYNQ_BASE + VLYNQ_R_IVR_REGS_OFFSET +((((unsigned)(ivr)) & 31) & ~3)) ++ ++ ++/*** Can be extended for 11TO08...31TO28 when all 31 are supported**/ ++#define VLYNQ_R_IVR_03TO00_REG *((volatile unsigned int*) (VLYNQ_R_IVR_OFFSET(0)) ) ++#define VLYNQ_R_IVR_07TO04_REG *((volatile unsigned int*) (VLYNQ_R_IVR_OFFSET(4)) ) ++ ++ ++/****End of remote register set definition******/ ++ ++ ++/*** Masks for individual register fields ***/ ++ ++#define VLYNQ_MODULE_ID_MASK 0xffff0000 ++#define VLYNQ_MAJOR_REV_MASK 0x0000ff00 ++#define VLYNQ_MINOR_REV_MASK 0x000000ff ++ ++ ++#define VLYNQ_CTL_ILOOP_MASK 0x00000002 ++#define VLYNQ_CTL_INT2CFG_MASK 0x00000080 ++#define VLYNQ_CTL_INTVEC_MASK 0x00001f00 ++#define VLYNQ_CTL_INTEN_MASK 0x00002000 ++#define VLYNQ_CTL_INTLOCAL_MASK 0x00004000 ++#define VLYNQ_CTL_CLKDIR_MASK 0x00008000 ++#define VLYNQ_CTL_CLKDIV_MASK 0x00070000 ++#define VLYNQ_CTL_MODE_MASK 0x00e00000 ++ ++ ++#define VLYNQ_STS_LINK_MASK 0x00000001 /* Link is active */ ++#define VLYNQ_STS_MPEND_MASK 0x00000002 /* Pending master requests */ ++#define VLYNQ_STS_SPEND_MASK 0x00000004 /* Pending slave requests */ ++#define VLYNQ_STS_NFEMPTY0_MASK 0x00000008 /* Master data FIFO not empty */ ++#define VLYNQ_STS_NFEMPTY1_MASK 0x00000010 /* Master command FIFO not empty */ ++#define VLYNQ_STS_NFEMPTY2_MASK 0x00000020 /* Slave data FIFO not empty */ ++#define VLYNQ_STS_NFEMPTY3_MASK 0x00000040 /* Slave command FIFO not empty */ ++#define VLYNQ_STS_LERROR_MASK 0x00000080 /* Local error, w/c */ ++#define VLYNQ_STS_RERROR_MASK 0x00000100 /* remote error w/c */ ++#define VLYNQ_STS_OFLOW_MASK 0x00000200 ++#define VLYNQ_STS_IFLOW_MASK 0x00000400 ++#define VLYNQ_STS_MODESUP_MASK 0x00E00000 /* Highest mode supported */ ++#define VLYNQ_STS_SWIDTH_MASK 0x07000000 /* Used for reading the width of VLYNQ bus */ ++#define VLYNQ_STS_DEBUG_MASK 0xE0000000 ++ ++#define VLYNQ_CTL_INTVEC_SHIFT 0x08 ++#define VLYNQ_CTL_INTEN_SHIFT 0x0D ++#define VLYNQ_CTL_INT2CFG_SHIFT 0x07 ++#define VLYNQ_CTL_INTLOCAL_SHIFT 0x0E ++ ++#define VLYNQ_CTL_INTFIELDS_CLEAR_MASK 0x7F80 ++ ++#define VLYNQ_CHIPVER_DEVREV_MASK 0xffff0000 ++#define VLYNQ_CHIPVER_DEVID_MASK 0x0000ffff ++ ++#define VLYNQ_IVR_INTEN_MASK 0x80 ++#define VLYNQ_IVR_INTTYPE_MASK 0x40 ++#define VLYNQ_IVR_INTPOL_MASK 0x20 ++ ++ ++/**** Helper macros ****/ ++ ++#define VLYNQ_RESETCB(arg) \ ++ if( pdev->reset_cb != NULL) \ ++ { \ ++ (pdev->reset_cb)(pdev, (arg)); \ ++ } ++ ++#define VLYNQ_STATUS_FLD_WIDTH(sts) (((sts) & VLYNQ_STS_SWIDTH_MASK) >> 24 ) ++#define VLYNQ_CTL_INTVEC(x) (((x) & 31) << 8 ) ++ ++#define VLYNQ_INRANGE(x,hi,lo) (((x) <= (hi)) && ((x) >= (lo))) ++#define VLYNQ_OUTRANGE(x,hi,lo) (((x) > (hi)) || ((x) < (lo))) ++ ++#define VLYNQ_ALIGN4(x) (x)=(x)&(~3) ++ ++ ++/************************************* ++ * Enums * ++ *************************************/ ++ ++/* Initialization options define what operations are ++ * undertaken during vlynq module initialization */ ++typedef enum ++{ ++ /* Init host local memory regions.This allows ++ * local host access remote memory regions */ ++ VLYNQ_INIT_LOCAL_MEM_REGIONS = 0x01, ++ /* Init host remote memory regions.This allows ++ * remote device access local memory regions */ ++ VLYNQ_INIT_REMOTE_MEM_REGIONS =0x02, ++ /* Init local interrupt config*/ ++ VLYNQ_INIT_LOCAL_INTERRUPTS =0x04, ++ /* Init remote interrupt config*/ ++ VLYNQ_INIT_REMOTE_INTERRUPTS =0x08, ++ /* Check link during initialization*/ ++ VLYNQ_INIT_CHECK_LINK =0x10, ++ /* configure clock during init */ ++ VLYNQ_INIT_CONFIG_CLOCK =0x20, ++ /* Clear errors during init */ ++ VLYNQ_INIT_CLEAR_ERRORS =0x40, ++ /* All options */ ++ VLYNQ_INIT_PERFORM_ALL =0x7F ++}VLYNQ_INIT_OPTIONS; ++ ++ ++/* VLYNQ_DEV_TYPE identifies local or remote device */ ++typedef enum ++{ ++ VLYNQ_LOCAL_DVC = 0, /* vlynq local device (SOC's vlynq module) */ ++ VLYNQ_REMOTE_DVC = 1 /* vlynq remote device (remote vlynq module) */ ++}VLYNQ_DEV_TYPE; ++ ++ ++/* VLYNQ_CLK_SOURCE identifies the vlynq module clock source */ ++typedef enum ++{ ++ VLYNQ_CLK_SOURCE_NONE = 0, /* do not initialize clock generator*/ ++ VLYNQ_CLK_SOURCE_LOCAL = 1, /* clock is generated by local machine */ ++ VLYNQ_CLK_SOURCE_REMOTE = 2 /* clock is generated by remote machine */ ++}VLYNQ_CLK_SOURCE; ++ ++ ++/* VLYNQ_DRV_STATE indicates the current driver state */ ++typedef enum ++{ ++ VLYNQ_DRV_STATE_UNINIT = 0, /* driver is uninitialized */ ++ VLYNQ_DRV_STATE_ININIT = 1, /* VLYNQ is being initialized */ ++ VLYNQ_DRV_STATE_RUN = 2, /* VLYNQ is running properly */ ++ VLYNQ_DRV_STATE_HOLD = 3, /* driver stopped temporarily */ ++ VLYNQ_DRV_STATE_ERROR = 4 /* driver stopped on unrecoverable error */ ++}VLYNQ_DRV_STATE; ++ ++ ++/* VLYNQ_BUS_WIDTH identifies the vlynq module bus width */ ++typedef enum ++{ ++ VLYNQ_BUS_WIDTH_3 = 3, ++ VLYNQ_BUS_WIDTH_5 = 5, ++ VLYNQ_BUS_WIDTH_7 = 7, ++ VLYNQ_BUS_WIDTH_9 = 9 ++}VLYNQ_BUS_WIDTH; ++ ++ ++/* VLYNQ_LOCAL_INT_CONFIG indicates whether the local vlynq ++ * interrupts are processed by the host or passed on to the ++ * remote device. ++ */ ++typedef enum ++{ ++ VLYNQ_INT_REMOTE = 0, /* Interrupt packets sent to remote, intlocal=0 */ ++ VLYNQ_INT_LOCAL = 1 /* Interrupts are handled locally, intlocal=1 */ ++}VLYNQ_LOCAL_INT_CONFIG; ++ ++ ++/* VLYNQ_REMOTE_INT_CONFIG indicates whether the remote ++ * interrupts are to be handled by the SOC system ISR ++ * or via the vlynq root ISR ++ */ ++typedef enum ++{ ++ VLYNQ_INT_ROOT_ISR = 0, /* remote ints handled via vlynq root ISR */ ++ VLYNQ_INT_SYSTEM_ISR = 1 /* remote ints handled via system ISR */ ++}VLYNQ_REMOTE_INT_CONFIG; ++ ++ ++/* VLYNQ_INTR_POLARITY - vlynq interrupt polarity setting */ ++typedef enum ++{ ++ VLYNQ_INTR_ACTIVE_HIGH = 0, ++ VLYNQ_INTR_ACTIVE_LOW = 1 ++}VLYNQ_INTR_POLARITY; ++ ++ ++/* VLYNQ_INTR_TYPE - vlynq interrupt type */ ++typedef enum ++{ ++ VLYNQ_INTR_LEVEL = 0, ++ VLYNQ_INTR_PULSED = 1 ++}VLYNQ_INTR_TYPE; ++ ++ ++/* VLYNQ_RESET_MODE - vlynq reset mode */ ++typedef enum ++{ ++ VLYNQ_RESET_ASSERT, /* hold device in reset state */ ++ VLYNQ_RESET_DEASSERT, /* release device from reset state */ ++ VLYNQ_RESET_INITFAIL, /* handle the device in case driver initialization fails */ ++ VLYNQ_RESET_LINKESTABLISH, /* handle the device in case driver established link */ ++ VLYNQ_RESET_INITFAIL2, /* Driver initialization failed but VLYNQ link exist. */ ++ VLYNQ_RESET_INITOK /* Driver initialization finished OK. */ ++}VLYNQ_RESET_MODE; ++ ++ ++ ++/************************************* ++ * Typedefs * ++ *************************************/ ++ ++struct VLYNQ_DEV_t; /*forward declaration*/ ++ ++/*--------Function Pointers defintions -----------*/ ++ ++/* prototype for interrupt handler definition */ ++typedef void (*VLYNQ_INTR_CNTRL_ISR)(void *arg1,void *arg2,void *arg3); ++ ++typedef void ++(*VLYNQ_RESET_REMOTE)(struct VLYNQ_DEV_t *pDev, VLYNQ_RESET_MODE mode); ++ ++typedef void ++(*VLYNQ_REPORT_CB)( struct VLYNQ_DEV_t *pDev, /* This VLYNQ */ ++ VLYNQ_DEV_TYPE aSrcDvc, /* Event Cause -local/remote? */ ++ unsigned int dwStatRegVal); /* Value of the relevant status register */ ++ ++ ++/*-------Structure Definitions------------*/ ++ ++typedef struct VLYNQ_MEMORY_MAP_t ++{ ++ unsigned int Txmap; ++ unsigned int RxOffset[VLYNQ_MAX_MEMORY_REGIONS]; ++ unsigned int RxSize[VLYNQ_MAX_MEMORY_REGIONS]; ++}VLYNQ_MEMORY_MAP; ++ ++ ++/**VLYNQ_INTERRUPT_CNTRL - defines the vlynq module interrupt ++ * settings in vlynq Control register */ ++typedef struct VLYNQ_INTERRUPT_CNTRL_t ++{ ++ /* vlynq interrupts handled by host or remote - maps to ++ * intLocal bit in vlynq control register */ ++ VLYNQ_LOCAL_INT_CONFIG intLocal; ++ ++ /* remote interrupts handled by vlynq isr or host system ++ * interrupt controller - maps to the int2Cfg in vlynq ++ * control register */ ++ VLYNQ_REMOTE_INT_CONFIG intRemote; ++ ++ /* bit in pending/set register used for module interrupts*/ ++ unsigned int map_vector; ++ ++ /* used only if remote interrupts are to be handled by system ISR*/ ++ unsigned int intr_ptr; ++ ++}VLYNQ_INTERRUPT_CNTRL; ++ ++ ++/* VLYNQ_INTR_CNTRL_ICB - defines the Interrupt control block which hold ++ * the interrupt dispatch table. The vlynq_root_isr() indexes into this ++ * table to identify the ISR to be invoked ++ */ ++typedef struct VLYNQ_INTR_CNTRL_ICB_t ++{ ++ VLYNQ_INTR_CNTRL_ISR isr; /* Clear errors during initialization */ ++ void *arg1 ; /* Arg 1 for the ISR */ ++ void *arg2 ; /* Arg 2 for the ISR */ ++ void *arg3 ; /* Arg 3 for the ISR */ ++ unsigned int isrCount; /* number of ISR invocations so far */ ++ struct VLYNQ_INTR_CNTRL_ICB_t *next; ++}VLYNQ_INTR_CNTRL_ICB; ++ ++/* overlay of vlynq register set */ ++typedef struct VLYNQ_REG_SET_t ++{ ++ unsigned int revision; /*offset : 0x00 */ ++ unsigned int control; /* 0x04*/ ++ unsigned int status; /* 0x08*/ ++ unsigned int pad1; /* 0x0c*/ ++ unsigned int intStatus; /*0x10*/ ++ unsigned int intPending; /*0x14*/ ++ unsigned int intPtr; /*0x18*/ ++ unsigned int txMap; /*0x1C*/ ++ unsigned int rxSize1; /*0x20*/ ++ unsigned int rxOffset1; /*0x24*/ ++ unsigned int rxSize2; /*0x28*/ ++ unsigned int rxOffset2; /*0x2C*/ ++ unsigned int rxSize3; /*0x30*/ ++ unsigned int rxOffset3; /*0x34*/ ++ unsigned int rxSize4; /*0x38*/ ++ unsigned int rxOffset4; /*0x3C*/ ++ unsigned int chipVersion; /*0x40*/ ++ unsigned int pad2[8]; ++ unsigned int ivr30; /*0x60*/ ++ unsigned int ivr74; /*0x64*/ ++ unsigned int pad3[7]; ++}VLYNQ_REG_SET; ++ ++ ++typedef struct VLYNQ_DEV_t ++{ ++ /** module index:1,2,3... used for debugging purposes */ ++ unsigned int dev_idx; ++ ++ /*VLYNQ module base address */ ++ unsigned int module_base; ++ ++ /* clock source selection */ ++ VLYNQ_CLK_SOURCE clk_source; ++ ++ /* Clock Divider.Val=1 to 8. VLYNQ_clk = VBUSCLK/clk_div */ ++ unsigned int clk_div; ++ ++ /* State of the VLYNQ driver, set to VLYNQ_DRV_STATE_UNINIT, when initializing */ ++ VLYNQ_DRV_STATE state; ++ ++ /* Valid VLYNQ bus width, filled by driver */ ++ VLYNQ_BUS_WIDTH width; ++ ++ /* local memory mapping */ ++ VLYNQ_MEMORY_MAP local_mem; ++ ++ /* remote memory mapping */ ++ VLYNQ_MEMORY_MAP remote_mem; ++ ++ /* Local module interrupt params */ ++ VLYNQ_INTERRUPT_CNTRL local_irq; ++ ++ /* remote module interrupt params */ ++ VLYNQ_INTERRUPT_CNTRL remote_irq; ++ ++ /*** ICB related fields **/ ++ ++ /* Sizeof of ICB = VLYNQ_NUM_INT_BITS(for 32 bits in IntPending) + ++ * expansion slots for shared interrupts*/ ++ VLYNQ_INTR_CNTRL_ICB pIntrCB[VLYNQ_NUM_INT_BITS + VLYNQ_IVR_CHAIN_SLOTS]; ++ VLYNQ_INTR_CNTRL_ICB *freelist; ++ ++ /* table holding mapping between intVector and the bit position the interrupt ++ * is mapped to(mapVector)*/ ++ char vector_map[32]; ++ ++ /* user callback for vlynq events, NULL if unused */ ++ VLYNQ_REPORT_CB report_cb; ++ ++ /* user callback for resetting/realeasing remote device */ ++ VLYNQ_RESET_REMOTE reset_cb; ++ ++ /*** Handles provided for direct access to register set if need be ++ * Must be intialized to point to appropriate address during ++ * vlynq_init */ ++ volatile VLYNQ_REG_SET * local; ++ volatile VLYNQ_REG_SET * remote; ++ ++ unsigned int intCount; /* number of interrupts generated so far */ ++ unsigned int isrCount; /* number of ISR invocations so far */ ++}VLYNQ_DEV; ++ ++ ++typedef struct VLYNQ_ISR_ARGS_t ++{ ++ int irq; ++ void * arg; ++ void * regset; ++}VLYNQ_ISR_ARGS; ++ ++ ++/**************************************** ++ * Function Prototypes * ++ * API exported by generic vlynq driver * ++ ****************************************/ ++/* Initialization function */ ++int vlynq_init( VLYNQ_DEV *pdev, VLYNQ_INIT_OPTIONS options); ++ ++/* Check vlynq link */ ++unsigned int vlynq_link_check( VLYNQ_DEV * pdev); ++ ++/* Set interrupt vector in local or remote device */ ++int vlynq_interrupt_vector_set( VLYNQ_DEV *pdev, ++ unsigned int int_vector, ++ unsigned int map_vector, ++ VLYNQ_DEV_TYPE dev, ++ VLYNQ_INTR_POLARITY pol, ++ VLYNQ_INTR_TYPE type); ++ ++ ++int vlynq_interrupt_vector_cntl( VLYNQ_DEV *pdev, ++ unsigned int int_vector, ++ VLYNQ_DEV_TYPE dev, ++ unsigned int enable); ++ ++unsigned int vlynq_interrupt_get_count( VLYNQ_DEV *pdev, ++ unsigned int map_vector); ++ ++int vlynq_install_isr( VLYNQ_DEV *pdev, ++ unsigned int map_vector, ++ VLYNQ_INTR_CNTRL_ISR isr, ++ void *arg1, void *arg2, void *arg3); ++ ++int vlynq_uninstall_isr( VLYNQ_DEV *pdev, ++ unsigned int map_vector, ++ void *arg1, void *arg2, void *arg3); ++ ++ ++void vlynq_root_isr(void *arg); ++ ++void vlynq_delay(unsigned int clktime); ++ ++/* The following functions, provide better granularity in setting ++ * interrupt parameters. (for better support of linux INT Controller) ++ * Note: The interrupt source is identified by "map_vector"- the bit ++ * position in interrupt status register*/ ++ ++int vlynq_interrupt_vector_map(VLYNQ_DEV * pdev, ++ VLYNQ_DEV_TYPE dev, ++ unsigned int int_vector, ++ unsigned int map_vector); ++ ++int vlynq_interrupt_set_polarity(VLYNQ_DEV * pdev, ++ VLYNQ_DEV_TYPE dev, ++ unsigned int map_vector, ++ VLYNQ_INTR_POLARITY pol); ++ ++int vlynq_interrupt_get_polarity( VLYNQ_DEV *pdev , ++ VLYNQ_DEV_TYPE dev_type, ++ unsigned int map_vector); ++ ++int vlynq_interrupt_set_type(VLYNQ_DEV * pdev, ++ VLYNQ_DEV_TYPE dev, ++ unsigned int map_vector, ++ VLYNQ_INTR_TYPE type); ++ ++int vlynq_interrupt_get_type( VLYNQ_DEV *pdev, ++ VLYNQ_DEV_TYPE dev_type, ++ unsigned int map_vector); ++ ++int vlynq_interrupt_enable(VLYNQ_DEV* pdev, ++ VLYNQ_DEV_TYPE dev, ++ unsigned int map_vector); ++ ++int vlynq_interrupt_disable(VLYNQ_DEV * pdev, ++ VLYNQ_DEV_TYPE dev, ++ unsigned int map_vector); ++ ++ ++ ++ ++ ++#endif /* _VLYNQ_HAL_H_ */ +diff -urN linux.old/include/asm-mips/ar7/vlynq_hal.h linux.dev/include/asm-mips/ar7/vlynq_hal.h +--- linux.old/include/asm-mips/ar7/vlynq_hal.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/include/asm-mips/ar7/vlynq_hal.h 2005-11-10 01:10:46.095590250 +0100 +@@ -0,0 +1,606 @@ ++/*************************************************************************** ++**+----------------------------------------------------------------------+** ++**| **** |** ++**| **** |** ++**| ******o*** |** ++**| ********_///_**** |** ++**| ***** /_//_/ **** |** ++**| ** ** (__/ **** |** ++**| ********* |** ++**| **** |** ++**| *** |** ++**| |** ++**| Copyright (c) 2003 Texas Instruments Incorporated |** ++**| ALL RIGHTS RESERVED |** ++**| |** ++**| Permission is hereby granted to licensees of Texas Instruments |** ++**| Incorporated (TI) products to use this computer program for the sole |** ++**| purpose of implementing a licensee product based on TI products. |** ++**| No other rights to reproduce, use, or disseminate this computer |** ++**| program, whether in part or in whole, are granted. |** ++**| |** ++**| TI makes no representation or warranties with respect to the |** ++**| performance of this computer program, and specifically disclaims |** ++**| any responsibility for any damages, special or consequential, |** ++**| connected with the use of this program. |** ++**| |** ++**+----------------------------------------------------------------------+** ++***************************************************************************/ ++ ++/********************************************************************************* ++ * ------------------------------------------------------------------------------ ++ * Module : vlynq_hal.h ++ * Description : ++ * This header file provides the set of functions exported by the ++ * VLYNQ HAL. This file is included from the SOC specific VLYNQ driver wrapper. ++ * ------------------------------------------------------------------------------ ++ *********************************************************************************/ ++ ++#ifndef _VLYNQ_HAL_H_ ++#define _VLYNQ_HAL_H_ ++ ++#include <asm/ar7/avalanche_types.h> ++#include <asm/ar7/vlynq_hal_params.h> ++ ++#ifndef PRIVATE ++#define PRIVATE static ++#endif ++ ++#ifndef GLOBAL ++#define GLOBAL ++#endif ++ ++/* Enable/Disable debug feature */ ++#undef VLYNQ_DEBUG ++ ++#ifdef VLYNQ_DEBUG /* This needs to be OS abstracted - for testing use vxworks/linux calls */ ++#define debugPrint(format,args...) ++#else ++#define debugPrint(format,args...) ++#endif ++ ++/* Error defines */ ++#define VLYNQ_SUCCESS 0 ++ ++#define VLYNQ_ERRCODE_BASE 0 /* Chosen by system */ ++#define VLYNQ_INVALID_ARG -(VLYNQ_ERRCODE_BASE+1) ++#define VLYNQ_INVALID_DRV_STATE -(VLYNQ_ERRCODE_BASE+2) ++#define VLYNQ_INT_CONFIG_ERR -(VLYNQ_ERRCODE_BASE+3) ++#define VLYNQ_LINK_DOWN -(VLYNQ_ERRCODE_BASE+4) ++#define VLYNQ_MEMALLOC_FAIL -(VLYNQ_ERRCODE_BASE+5) ++#define VLYNQ_ISR_NON_EXISTENT -(VLYNQ_ERRCODE_BASE+6) ++#define VLYNQ_INTVEC_MAP_NOT_FOUND -(VLYNQ_ERRCODE_BASE+7) ++ ++/* Vlynq Defines and Macros */ ++ ++#define VLYNQ_NUM_INT_BITS 32 /* 32 bit interrupt staus register */ ++ ++/* Base address of module */ ++#define VLYNQ_BASE (pdev->module_base) ++ ++#define VLYNQ_REMOTE_REGS_OFFSET 0x0080 ++ ++#define VLYNQ_REV_OFFSET 0x0000 ++#define VLYNQ_CTRL_OFFSET 0x0004 ++#define VLYNQ_STATUS_OFFSET 0x0008 ++#define VLYNQ_INT_STAT_OFFSET 0x0010 ++#define VLYNQ_INT_PEND_OFFSET 0x0014 ++#define VLYNQ_INT_PTR_OFFSET 0x0018 ++#define VLYNQ_TXMAP_OFFSET 0x001c ++ ++#define VLYNQ_RX0MAP_SIZE_REG_OFFSET 0x0020 ++#define VLYNQ_RX0MAP_OFFSET_REG_OFFSET 0x0024 ++ ++#define VLYNQ_CHIP_VER_OFFSET 0x0040 ++#define VLYNQ_IVR_REGS_OFFSET 0x0060 ++ ++#define VLYNQ_INT_PENDING_REG_PTR 0x14 ++#define VLYNQ_R_INT_PENDING_REG_PTR VLYNQ_REMOTE_REGS_OFFSET + 0x14 ++ ++#define VLYNQ_REV_REG *((volatile UINT32 *)(VLYNQ_BASE+VLYNQ_REV_OFFSET)) ++#define VLYNQ_CTRL_REG *((volatile UINT32 *)(VLYNQ_BASE+VLYNQ_CTRL_OFFSET)) ++#define VLYNQ_STATUS_REG *((volatile UINT32 *)(VLYNQ_BASE+VLYNQ_STATUS_OFFSET)) ++#define VLYNQ_INT_STAT_REG *((volatile UINT32 *)(VLYNQ_BASE+VLYNQ_INT_STAT_OFFSET)) ++#define VLYNQ_INT_PEND_REG *((volatile UINT32 *)(VLYNQ_BASE+VLYNQ_INT_PEND_OFFSET)) ++#define VLYNQ_INT_PTR_REG *((volatile UINT32 *)(VLYNQ_BASE+VLYNQ_INT_PTR_OFFSET)) ++#define VLYNQ_TXMAP_REG *((volatile UINT32 *)(VLYNQ_BASE+VLYNQ_TXMAP_OFFSET)) ++ ++/** map takes on values between 1 to VLYNQ_MAX_MEMORY_REGIONS **/ ++#define VLYNQ_RXMAP_SIZE_REG(map) \ ++ *((volatile UINT32 *)(VLYNQ_BASE+VLYNQ_RX0MAP_SIZE_REG_OFFSET+( (map-1)<<3))) ++ ++/** map takes on values between 1 to VLYNQ_MAX_MEMORY_REGIONS **/ ++#define VLYNQ_RXMAP_OFFSET_REG(map) \ ++ *((volatile UINT32 *)(VLYNQ_BASE+VLYNQ_RX0MAP_OFFSET_REG_OFFSET+( (map-1)<<3))) ++ ++#define VLYNQ_CHIP_VER_REG *((volatile UINT32 *)(VLYNQ_BASE+VLYNQ_CHIP_VER_OFFSET)) ++ ++/* 0 =< ivr <= 31; currently ivr < VLYNQ_IVR_MAXIVR=8) */ ++#define VLYNQ_IVR_OFFSET(ivr) \ ++ (VLYNQ_BASE + VLYNQ_IVR_REGS_OFFSET +((((unsigned)(ivr)) & 31) & ~3) ) ++ ++#define VLYNQ_IVR_03TO00_REG *((volatile UINT32*) (VLYNQ_IVR_OFFSET(0)) ) ++#define VLYNQ_IVR_07TO04_REG *((volatile UINT32*) (VLYNQ_IVR_OFFSET(4)) ) ++/*** Can be extended for 11TO08...31TO28 when all 31 are supported**/ ++ ++#define VLYNQ_IVR_INTEN(ivr) (((UINT32)(0x80)) << ((((unsigned)(ivr)) % 4) * 8)) ++#define VLYNQ_IVR_INTTYPE(ivr) (((UINT32)(0x40)) << ((((unsigned)(ivr)) % 4) * 8)) ++#define VLYNQ_IVR_INTPOL(ivr) (((UINT32)(0x20)) << ((((unsigned)(ivr)) % 4) * 8)) ++#define VLYNQ_IVR_INTVEC(ivr) (((UINT32)(0x1F)) << ((((unsigned)(ivr)) % 4) * 8)) ++#define VLYNQ_IVR_INTALL(ivr) (((UINT32)(0xFF)) << ((((unsigned)(ivr)) % 4) * 8)) ++ ++ ++ ++/********************************* ++ * Remote VLYNQ register set * ++ *********************************/ ++ ++#define VLYNQ_R_REV_OFFSET 0x0080 ++#define VLYNQ_R_CTRL_OFFSET 0x0084 ++#define VLYNQ_R_STATUS_OFFSET 0x0088 ++#define VLYNQ_R_INT_STAT_OFFSET 0x0090 ++#define VLYNQ_R_INT_PEND_OFFSET 0x0094 ++#define VLYNQ_R_INT_PTR_OFFSET 0x0098 ++#define VLYNQ_R_TXMAP_OFFSET 0x009c ++ ++#define VLYNQ_R_RX0MAP_SIZE_REG_OFFSET 0x00A0 ++#define VLYNQ_R_RX0MAP_OFFSET_REG_OFFSET 0x00A4 ++ ++#define VLYNQ_R_CHIP_VER_OFFSET 0x00C0 ++#define VLYNQ_R_IVR_REGS_OFFSET 0x00E0 ++ ++#define VLYNQ_R_REV_REG *((volatile UINT32 *)(VLYNQ_BASE + VLYNQ_R_REV_OFFSET)) ++#define VLYNQ_R_CTRL_REG *((volatile UINT32 *)(VLYNQ_BASE + VLYNQ_R_CTRL_OFFSET)) ++#define VLYNQ_R_STATUS_REG *((volatile UINT32 *)(VLYNQ_BASE + VLYNQ_R_STATUS_OFFSET)) ++#define VLYNQ_R_INT_STAT_REG *((volatile UINT32 *)(VLYNQ_BASE + VLYNQ_R_INT_STAT_OFFSET)) ++#define VLYNQ_R_INT_PEND_REG *((volatile UINT32 *)(VLYNQ_BASE + VLYNQ_R_INT_PEND_OFFSET)) ++#define VLYNQ_R_INT_PTR_REG *((volatile UINT32 *)(VLYNQ_BASE + VLYNQ_R_INT_PTR_OFFSET)) ++#define VLYNQ_R_TXMAP_REG *((volatile UINT32 *)(VLYNQ_BASE + VLYNQ_R_TXMAP_OFFSET)) ++ ++/** map takes on values between 1 to VLYNQ_MAX_MEMORY_REGIONS **/ ++#define VLYNQ_R_RXMAP_SIZE_REG(map) \ ++ *((volatile UINT32 *)(VLYNQ_BASE + VLYNQ_R_RX0MAP_SIZE_REG_OFFSET + ((map-1)<<3))) ++ ++/** map takes on values between 1 to VLYNQ_MAX_MEMORY_REGIONS **/ ++#define VLYNQ_R_RXMAP_OFFSET_REG(map) \ ++ *((volatile UINT32 *)(VLYNQ_BASE + VLYNQ_R_RX0MAP_OFFSET_REG_OFFSET + ((map-1)<<3))) ++ ++#define VLYNQ_R_CHIP_VER_REG *((volatile UINT32 *)(VLYNQ_BASE + VLYNQ_R_CHIP_VER_OFFSET) ++ ++#define VLYNQ_R_IVR_OFFSET(ivr) \ ++ (VLYNQ_BASE + VLYNQ_R_IVR_REGS_OFFSET +((((unsigned)(ivr)) & 31) & ~3)) ++ ++ ++/*** Can be extended for 11TO08...31TO28 when all 31 are supported**/ ++#define VLYNQ_R_IVR_03TO00_REG *((volatile UINT32*) (VLYNQ_R_IVR_OFFSET(0)) ) ++#define VLYNQ_R_IVR_07TO04_REG *((volatile UINT32*) (VLYNQ_R_IVR_OFFSET(4)) ) ++ ++ ++/****End of remote register set definition******/ ++ ++ ++/*** Masks for individual register fields ***/ ++ ++#define VLYNQ_MODULE_ID_MASK 0xffff0000 ++#define VLYNQ_MAJOR_REV_MASK 0x0000ff00 ++#define VLYNQ_MINOR_REV_MASK 0x000000ff ++ ++ ++#define VLYNQ_CTL_ILOOP_MASK 0x00000002 ++#define VLYNQ_CTL_INT2CFG_MASK 0x00000080 ++#define VLYNQ_CTL_INTVEC_MASK 0x00001f00 ++#define VLYNQ_CTL_INTEN_MASK 0x00002000 ++#define VLYNQ_CTL_INTLOCAL_MASK 0x00004000 ++#define VLYNQ_CTL_CLKDIR_MASK 0x00008000 ++#define VLYNQ_CTL_CLKDIV_MASK 0x00070000 ++#define VLYNQ_CTL_MODE_MASK 0x00e00000 ++ ++ ++#define VLYNQ_STS_LINK_MASK 0x00000001 /* Link is active */ ++#define VLYNQ_STS_MPEND_MASK 0x00000002 /* Pending master requests */ ++#define VLYNQ_STS_SPEND_MASK 0x00000004 /* Pending slave requests */ ++#define VLYNQ_STS_NFEMPTY0_MASK 0x00000008 /* Master data FIFO not empty */ ++#define VLYNQ_STS_NFEMPTY1_MASK 0x00000010 /* Master command FIFO not empty */ ++#define VLYNQ_STS_NFEMPTY2_MASK 0x00000020 /* Slave data FIFO not empty */ ++#define VLYNQ_STS_NFEMPTY3_MASK 0x00000040 /* Slave command FIFO not empty */ ++#define VLYNQ_STS_LERROR_MASK 0x00000080 /* Local error, w/c */ ++#define VLYNQ_STS_RERROR_MASK 0x00000100 /* remote error w/c */ ++#define VLYNQ_STS_OFLOW_MASK 0x00000200 ++#define VLYNQ_STS_IFLOW_MASK 0x00000400 ++#define VLYNQ_STS_MODESUP_MASK 0x00E00000 /* Highest mode supported */ ++#define VLYNQ_STS_SWIDTH_MASK 0x07000000 /* Used for reading the width of VLYNQ bus */ ++#define VLYNQ_STS_DEBUG_MASK 0xE0000000 ++ ++#define VLYNQ_CTL_INTVEC_SHIFT 0x08 ++#define VLYNQ_CTL_INTEN_SHIFT 0x0D ++#define VLYNQ_CTL_INT2CFG_SHIFT 0x07 ++#define VLYNQ_CTL_INTLOCAL_SHIFT 0x0E ++ ++#define VLYNQ_CTL_INTFIELDS_CLEAR_MASK 0x7F80 ++ ++#define VLYNQ_CHIPVER_DEVREV_MASK 0xffff0000 ++#define VLYNQ_CHIPVER_DEVID_MASK 0x0000ffff ++ ++#define VLYNQ_IVR_INTEN_MASK 0x80 ++#define VLYNQ_IVR_INTTYPE_MASK 0x40 ++#define VLYNQ_IVR_INTPOL_MASK 0x20 ++ ++ ++/**** Helper macros ****/ ++ ++#define VLYNQ_RESETCB(arg) \ ++ if( pdev->reset_cb != NULL) \ ++ { \ ++ (pdev->reset_cb)(pdev, (arg)); \ ++ } ++ ++#define VLYNQ_STATUS_FLD_WIDTH(sts) (((sts) & VLYNQ_STS_SWIDTH_MASK) >> 24 ) ++#define VLYNQ_CTL_INTVEC(x) (((x) & 31) << 8 ) ++ ++#define VLYNQ_INRANGE(x,hi,lo) (((x) <= (hi)) && ((x) >= (lo))) ++#define VLYNQ_OUTRANGE(x,hi,lo) (((x) > (hi)) || ((x) < (lo))) ++ ++#define VLYNQ_ALIGN4(x) (x)=(x)&(~3) ++ ++ ++/************************************* ++ * Enums * ++ *************************************/ ++ ++/* Initialization options define what operations are ++ * undertaken during vlynq module initialization */ ++typedef enum ++{ ++ /* Init host local memory regions.This allows ++ * local host access remote memory regions */ ++ VLYNQ_INIT_LOCAL_MEM_REGIONS = 0x01, ++ /* Init host remote memory regions.This allows ++ * remote device access local memory regions */ ++ VLYNQ_INIT_REMOTE_MEM_REGIONS =0x02, ++ /* Init local interrupt config*/ ++ VLYNQ_INIT_LOCAL_INTERRUPTS =0x04, ++ /* Init remote interrupt config*/ ++ VLYNQ_INIT_REMOTE_INTERRUPTS =0x08, ++ /* Check link during initialization*/ ++ VLYNQ_INIT_CHECK_LINK =0x10, ++ /* configure clock during init */ ++ VLYNQ_INIT_CONFIG_CLOCK =0x20, ++ /* Clear errors during init */ ++ VLYNQ_INIT_CLEAR_ERRORS =0x40, ++ /* All options */ ++ VLYNQ_INIT_PERFORM_ALL =0x7F ++}VLYNQ_INIT_OPTIONS; ++ ++ ++/* VLYNQ_DEV_TYPE identifies local or remote device */ ++typedef enum ++{ ++ VLYNQ_LOCAL_DVC = 0, /* vlynq local device (SOC's vlynq module) */ ++ VLYNQ_REMOTE_DVC = 1 /* vlynq remote device (remote vlynq module) */ ++}VLYNQ_DEV_TYPE; ++ ++ ++/* VLYNQ_CLK_SOURCE identifies the vlynq module clock source */ ++typedef enum ++{ ++ VLYNQ_CLK_SOURCE_NONE = 0, /* do not initialize clock generator*/ ++ VLYNQ_CLK_SOURCE_LOCAL = 1, /* clock is generated by local machine */ ++ VLYNQ_CLK_SOURCE_REMOTE = 2 /* clock is generated by remote machine */ ++}VLYNQ_CLK_SOURCE; ++ ++ ++/* VLYNQ_DRV_STATE indicates the current driver state */ ++typedef enum ++{ ++ VLYNQ_DRV_STATE_UNINIT = 0, /* driver is uninitialized */ ++ VLYNQ_DRV_STATE_ININIT = 1, /* VLYNQ is being initialized */ ++ VLYNQ_DRV_STATE_RUN = 2, /* VLYNQ is running properly */ ++ VLYNQ_DRV_STATE_HOLD = 3, /* driver stopped temporarily */ ++ VLYNQ_DRV_STATE_ERROR = 4 /* driver stopped on unrecoverable error */ ++}VLYNQ_DRV_STATE; ++ ++ ++/* VLYNQ_BUS_WIDTH identifies the vlynq module bus width */ ++typedef enum ++{ ++ VLYNQ_BUS_WIDTH_3 = 3, ++ VLYNQ_BUS_WIDTH_5 = 5, ++ VLYNQ_BUS_WIDTH_7 = 7, ++ VLYNQ_BUS_WIDTH_9 = 9 ++}VLYNQ_BUS_WIDTH; ++ ++ ++/* VLYNQ_LOCAL_INT_CONFIG indicates whether the local vlynq ++ * interrupts are processed by the host or passed on to the ++ * remote device. ++ */ ++typedef enum ++{ ++ VLYNQ_INT_REMOTE = 0, /* Interrupt packets sent to remote, intlocal=0 */ ++ VLYNQ_INT_LOCAL = 1 /* Interrupts are handled locally, intlocal=1 */ ++}VLYNQ_LOCAL_INT_CONFIG; ++ ++ ++/* VLYNQ_REMOTE_INT_CONFIG indicates whether the remote ++ * interrupts are to be handled by the SOC system ISR ++ * or via the vlynq root ISR ++ */ ++typedef enum ++{ ++ VLYNQ_INT_ROOT_ISR = 0, /* remote ints handled via vlynq root ISR */ ++ VLYNQ_INT_SYSTEM_ISR = 1 /* remote ints handled via system ISR */ ++}VLYNQ_REMOTE_INT_CONFIG; ++ ++ ++/* VLYNQ_INTR_POLARITY - vlynq interrupt polarity setting */ ++typedef enum ++{ ++ VLYNQ_INTR_ACTIVE_HIGH = 0, ++ VLYNQ_INTR_ACTIVE_LOW = 1 ++}VLYNQ_INTR_POLARITY; ++ ++ ++/* VLYNQ_INTR_TYPE - vlynq interrupt type */ ++typedef enum ++{ ++ VLYNQ_INTR_LEVEL = 0, ++ VLYNQ_INTR_PULSED = 1 ++}VLYNQ_INTR_TYPE; ++ ++ ++/* VLYNQ_RESET_MODE - vlynq reset mode */ ++typedef enum ++{ ++ VLYNQ_RESET_ASSERT, /* hold device in reset state */ ++ VLYNQ_RESET_DEASSERT, /* release device from reset state */ ++ VLYNQ_RESET_INITFAIL, /* handle the device in case driver initialization fails */ ++ VLYNQ_RESET_LINKESTABLISH, /* handle the device in case driver established link */ ++ VLYNQ_RESET_INITFAIL2, /* Driver initialization failed but VLYNQ link exist. */ ++ VLYNQ_RESET_INITOK /* Driver initialization finished OK. */ ++}VLYNQ_RESET_MODE; ++ ++ ++ ++/************************************* ++ * Typedefs * ++ *************************************/ ++ ++struct VLYNQ_DEV_t; /*forward declaration*/ ++ ++/*--------Function Pointers defintions -----------*/ ++ ++/* prototype for interrupt handler definition */ ++typedef void (*VLYNQ_INTR_CNTRL_ISR)(void *arg1,void *arg2,void *arg3); ++ ++typedef void ++(*VLYNQ_RESET_REMOTE)(struct VLYNQ_DEV_t *pDev, VLYNQ_RESET_MODE mode); ++ ++typedef void ++(*VLYNQ_REPORT_CB)( struct VLYNQ_DEV_t *pDev, /* This VLYNQ */ ++ VLYNQ_DEV_TYPE aSrcDvc, /* Event Cause -local/remote? */ ++ UINT32 dwStatRegVal); /* Value of the relevant status register */ ++ ++ ++/*-------Structure Definitions------------*/ ++ ++typedef struct VLYNQ_MEMORY_MAP_t ++{ ++ UINT32 Txmap; ++ UINT32 RxOffset[VLYNQ_MAX_MEMORY_REGIONS]; ++ UINT32 RxSize[VLYNQ_MAX_MEMORY_REGIONS]; ++}VLYNQ_MEMORY_MAP; ++ ++ ++/**VLYNQ_INTERRUPT_CNTRL - defines the vlynq module interrupt ++ * settings in vlynq Control register */ ++typedef struct VLYNQ_INTERRUPT_CNTRL_t ++{ ++ /* vlynq interrupts handled by host or remote - maps to ++ * intLocal bit in vlynq control register */ ++ VLYNQ_LOCAL_INT_CONFIG intLocal; ++ ++ /* remote interrupts handled by vlynq isr or host system ++ * interrupt controller - maps to the int2Cfg in vlynq ++ * control register */ ++ VLYNQ_REMOTE_INT_CONFIG intRemote; ++ ++ /* bit in pending/set register used for module interrupts*/ ++ UINT32 map_vector; ++ ++ /* used only if remote interrupts are to be handled by system ISR*/ ++ UINT32 intr_ptr; ++ ++}VLYNQ_INTERRUPT_CNTRL; ++ ++ ++/* VLYNQ_INTR_CNTRL_ICB - defines the Interrupt control block which hold ++ * the interrupt dispatch table. The vlynq_root_isr() indexes into this ++ * table to identify the ISR to be invoked ++ */ ++typedef struct VLYNQ_INTR_CNTRL_ICB_t ++{ ++ VLYNQ_INTR_CNTRL_ISR isr; /* Clear errors during initialization */ ++ void *arg1 ; /* Arg 1 for the ISR */ ++ void *arg2 ; /* Arg 2 for the ISR */ ++ void *arg3 ; /* Arg 3 for the ISR */ ++ UINT32 isrCount; /* number of ISR invocations so far */ ++ struct VLYNQ_INTR_CNTRL_ICB_t *next; ++}VLYNQ_INTR_CNTRL_ICB; ++ ++/* overlay of vlynq register set */ ++typedef struct VLYNQ_REG_SET_t ++{ ++ UINT32 revision; /*offset : 0x00 */ ++ UINT32 control; /* 0x04*/ ++ UINT32 status; /* 0x08*/ ++ UINT32 pad1; /* 0x0c*/ ++ UINT32 intStatus; /*0x10*/ ++ UINT32 intPending; /*0x14*/ ++ UINT32 intPtr; /*0x18*/ ++ UINT32 txMap; /*0x1C*/ ++ UINT32 rxSize1; /*0x20*/ ++ UINT32 rxOffset1; /*0x24*/ ++ UINT32 rxSize2; /*0x28*/ ++ UINT32 rxOffset2; /*0x2C*/ ++ UINT32 rxSize3; /*0x30*/ ++ UINT32 rxOffset3; /*0x34*/ ++ UINT32 rxSize4; /*0x38*/ ++ UINT32 rxOffset4; /*0x3C*/ ++ UINT32 chipVersion; /*0x40*/ ++ UINT32 pad2[8]; ++ UINT32 ivr30; /*0x60*/ ++ UINT32 ivr74; /*0x64*/ ++ UINT32 pad3[7]; ++}VLYNQ_REG_SET; ++ ++ ++typedef struct VLYNQ_DEV_t ++{ ++ /** module index:1,2,3... used for debugging purposes */ ++ UINT32 dev_idx; ++ ++ /*VLYNQ module base address */ ++ UINT32 module_base; ++ ++ /* clock source selection */ ++ VLYNQ_CLK_SOURCE clk_source; ++ ++ /* Clock Divider.Val=1 to 8. VLYNQ_clk = VBUSCLK/clk_div */ ++ UINT32 clk_div; ++ ++ /* State of the VLYNQ driver, set to VLYNQ_DRV_STATE_UNINIT, when initializing */ ++ VLYNQ_DRV_STATE state; ++ ++ /* Valid VLYNQ bus width, filled by driver */ ++ VLYNQ_BUS_WIDTH width; ++ ++ /* local memory mapping */ ++ VLYNQ_MEMORY_MAP local_mem; ++ ++ /* remote memory mapping */ ++ VLYNQ_MEMORY_MAP remote_mem; ++ ++ /* Local module interrupt params */ ++ VLYNQ_INTERRUPT_CNTRL local_irq; ++ ++ /* remote module interrupt params */ ++ VLYNQ_INTERRUPT_CNTRL remote_irq; ++ ++ /*** ICB related fields **/ ++ ++ /* Sizeof of ICB = VLYNQ_NUM_INT_BITS(for 32 bits in IntPending) + ++ * expansion slots for shared interrupts*/ ++ VLYNQ_INTR_CNTRL_ICB pIntrCB[VLYNQ_NUM_INT_BITS + VLYNQ_IVR_CHAIN_SLOTS]; ++ VLYNQ_INTR_CNTRL_ICB *freelist; ++ ++ /* table holding mapping between intVector and the bit position the interrupt ++ * is mapped to(mapVector)*/ ++ INT8 vector_map[32]; ++ ++ /* user callback for vlynq events, NULL if unused */ ++ VLYNQ_REPORT_CB report_cb; ++ ++ /* user callback for resetting/realeasing remote device */ ++ VLYNQ_RESET_REMOTE reset_cb; ++ ++ /*** Handles provided for direct access to register set if need be ++ * Must be intialized to point to appropriate address during ++ * vlynq_init */ ++ volatile VLYNQ_REG_SET * local; ++ volatile VLYNQ_REG_SET * remote; ++ ++ UINT32 intCount; /* number of interrupts generated so far */ ++ UINT32 isrCount; /* number of ISR invocations so far */ ++}VLYNQ_DEV; ++ ++ ++typedef struct VLYNQ_ISR_ARGS_t ++{ ++ int irq; ++ void * arg; ++ void * regset; ++}VLYNQ_ISR_ARGS; ++ ++ ++/**************************************** ++ * Function Prototypes * ++ * API exported by generic vlynq driver * ++ ****************************************/ ++/* Initialization function */ ++GLOBAL INT32 vlynq_init( VLYNQ_DEV *pdev, VLYNQ_INIT_OPTIONS options); ++ ++/* Check vlynq link */ ++GLOBAL UINT32 vlynq_link_check( VLYNQ_DEV * pdev); ++ ++/* Set interrupt vector in local or remote device */ ++GLOBAL INT32 vlynq_interrupt_vector_set( VLYNQ_DEV *pdev, ++ UINT32 int_vector, ++ UINT32 map_vector, ++ VLYNQ_DEV_TYPE dev, ++ VLYNQ_INTR_POLARITY pol, ++ VLYNQ_INTR_TYPE type); ++ ++ ++GLOBAL INT32 vlynq_interrupt_vector_cntl( VLYNQ_DEV *pdev, ++ UINT32 int_vector, ++ VLYNQ_DEV_TYPE dev, ++ UINT32 enable); ++ ++GLOBAL UINT32 vlynq_interrupt_get_count( VLYNQ_DEV *pdev, ++ UINT32 map_vector); ++ ++GLOBAL INT32 vlynq_install_isr( VLYNQ_DEV *pdev, ++ UINT32 map_vector, ++ VLYNQ_INTR_CNTRL_ISR isr, ++ void *arg1, void *arg2, void *arg3); ++ ++GLOBAL INT32 vlynq_uninstall_isr( VLYNQ_DEV *pdev, ++ UINT32 map_vector, ++ void *arg1, void *arg2, void *arg3); ++ ++ ++GLOBAL void vlynq_root_isr(void *arg); ++ ++GLOBAL void vlynq_delay(UINT32 clktime); ++ ++/* The following functions, provide better granularity in setting ++ * interrupt parameters. (for better support of linux INT Controller) ++ * Note: The interrupt source is identified by "map_vector"- the bit ++ * position in interrupt status register*/ ++ ++GLOBAL INT32 vlynq_interrupt_vector_map(VLYNQ_DEV * pdev, ++ VLYNQ_DEV_TYPE dev, ++ UINT32 int_vector, ++ UINT32 map_vector); ++ ++GLOBAL INT32 vlynq_interrupt_set_polarity(VLYNQ_DEV * pdev, ++ VLYNQ_DEV_TYPE dev, ++ UINT32 map_vector, ++ VLYNQ_INTR_POLARITY pol); ++ ++GLOBAL INT32 vlynq_interrupt_get_polarity( VLYNQ_DEV *pdev , ++ VLYNQ_DEV_TYPE dev_type, ++ UINT32 map_vector); ++ ++GLOBAL INT32 vlynq_interrupt_set_type(VLYNQ_DEV * pdev, ++ VLYNQ_DEV_TYPE dev, ++ UINT32 map_vector, ++ VLYNQ_INTR_TYPE type); ++ ++GLOBAL INT32 vlynq_interrupt_get_type( VLYNQ_DEV *pdev, ++ VLYNQ_DEV_TYPE dev_type, ++ UINT32 map_vector); ++ ++GLOBAL INT32 vlynq_interrupt_enable(VLYNQ_DEV* pdev, ++ VLYNQ_DEV_TYPE dev, ++ UINT32 map_vector); ++ ++GLOBAL INT32 vlynq_interrupt_disable(VLYNQ_DEV * pdev, ++ VLYNQ_DEV_TYPE dev, ++ UINT32 map_vector); ++ ++ ++ ++ ++ ++#endif /* _VLYNQ_HAL_H_ */ +diff -urN linux.old/include/asm-mips/ar7/vlynq_hal_params.h linux.dev/include/asm-mips/ar7/vlynq_hal_params.h +--- linux.old/include/asm-mips/ar7/vlynq_hal_params.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/include/asm-mips/ar7/vlynq_hal_params.h 2005-11-10 01:10:46.095590250 +0100 +@@ -0,0 +1,50 @@ ++/*************************************************************************** ++**+----------------------------------------------------------------------+** ++**| **** |** ++**| **** |** ++**| ******o*** |** ++**| ********_///_**** |** ++**| ***** /_//_/ **** |** ++**| ** ** (__/ **** |** ++**| ********* |** ++**| **** |** ++**| *** |** ++**| |** ++**| Copyright (c) 2003 Texas Instruments Incorporated |** ++**| ALL RIGHTS RESERVED |** ++**| |** ++**| Permission is hereby granted to licensees of Texas Instruments |** ++**| Incorporated (TI) products to use this computer program for the sole |** ++**| purpose of implementing a licensee product based on TI products. |** ++**| No other rights to reproduce, use, or disseminate this computer |** ++**| program, whether in part or in whole, are granted. |** ++**| |** ++**| TI makes no representation or warranties with respect to the |** ++**| performance of this computer program, and specifically disclaims |** ++**| any responsibility for any damages, special or consequential, |** ++**| connected with the use of this program. |** ++**| |** ++**+----------------------------------------------------------------------+** ++***************************************************************************/ ++ ++/* This file defines Vlynq module parameters*/ ++ ++#ifndef _VLYNQ_HAL_PARAMS_H ++#define _VLYNQ_HAL_PARAMS_H ++ ++ /* number of VLYNQ memory regions supported */ ++#define VLYNQ_MAX_MEMORY_REGIONS 0x04 ++ ++ /* Max.number of external interrupt inputs supported by VLYNQ module */ ++#define VLYNQ_IVR_MAXIVR 0x08 ++ ++#define VLYNQ_CLK_DIV_MAX 0x08 ++#define VLYNQ_CLK_DIV_MIN 0x01 ++ ++ ++/*** the total number of entries allocated for ICB would be ++ * 32(for 32 bits in IntPending register) + VLYNQ_IVR_CHAIN_SLOTS*/ ++#define VLYNQ_IVR_CHAIN_SLOTS 10 ++ ++ ++#endif /* _VLYNQ_HAL_PARAMS_H */ +diff -urN linux.old/include/asm-mips/io.h linux.dev/include/asm-mips/io.h +--- linux.old/include/asm-mips/io.h 2003-08-25 13:44:43.000000000 +0200 ++++ linux.dev/include/asm-mips/io.h 2005-11-10 01:14:16.400733500 +0100 +@@ -61,9 +61,9 @@ + * Change "struct page" to physical address. + */ + #ifdef CONFIG_64BIT_PHYS_ADDR +-#define page_to_phys(page) ((u64)(page - mem_map) << PAGE_SHIFT) ++#define page_to_phys(page) (((u64)(page - mem_map) << PAGE_SHIFT) + PHYS_OFFSET) + #else +-#define page_to_phys(page) ((page - mem_map) << PAGE_SHIFT) ++#define page_to_phys(page) (((page - mem_map) << PAGE_SHIFT) + PHYS_OFFSET) + #endif + + #define IO_SPACE_LIMIT 0xffff +diff -urN linux.old/include/asm-mips/irq.h linux.dev/include/asm-mips/irq.h +--- linux.old/include/asm-mips/irq.h 2003-08-25 13:44:43.000000000 +0200 ++++ linux.dev/include/asm-mips/irq.h 2005-11-10 01:12:43.950955750 +0100 +@@ -14,7 +14,20 @@ + #include <linux/config.h> + #include <linux/linkage.h> + ++#ifdef CONFIG_AR7 ++/* MIPS has 8 irqs ++ * AR7 has 40 primary and 32 secondary irqs ++ * vlynq0 has 32 irqs ++ * vlynq1 has 32 irqs ++ */ ++#ifdef CONFIG_AR7_VLYNQ ++#define NR_IRQS (80 + 32 * CONFIG_AR7_VLYNQ_PORTS) ++#else ++#define NR_IRQS 80 ++#endif ++#else + #define NR_IRQS 128 /* Largest number of ints of all machines. */ ++#endif + + #ifdef CONFIG_I8259 + static inline int irq_cannonicalize(int irq) +diff -urN linux.old/include/asm-mips/mips-boards/prom.h linux.dev/include/asm-mips/mips-boards/prom.h +--- linux.old/include/asm-mips/mips-boards/prom.h 2001-09-09 19:43:02.000000000 +0200 ++++ linux.dev/include/asm-mips/mips-boards/prom.h 2005-11-10 01:14:16.436735750 +0100 +@@ -33,7 +33,7 @@ + extern void prom_init_cmdline(void); + extern void prom_meminit(void); + extern void prom_fixup_mem_map(unsigned long start_mem, unsigned long end_mem); +-extern void prom_free_prom_memory (void); ++extern unsigned long prom_free_prom_memory (void); + extern void mips_display_message(const char *str); + extern void mips_display_word(unsigned int num); + extern int get_ethernet_addr(char *ethernet_addr); +diff -urN linux.old/include/asm-mips/page.h linux.dev/include/asm-mips/page.h +--- linux.old/include/asm-mips/page.h 2004-02-18 14:36:32.000000000 +0100 ++++ linux.dev/include/asm-mips/page.h 2005-11-10 01:14:16.436735750 +0100 +@@ -12,6 +12,7 @@ + + #include <linux/config.h> + #include <asm/break.h> ++#include <asm/addrspace.h> + + #ifdef __KERNEL__ + +@@ -129,7 +130,7 @@ + + #define __pa(x) ((unsigned long) (x) - PAGE_OFFSET) + #define __va(x) ((void *)((unsigned long) (x) + PAGE_OFFSET)) +-#define virt_to_page(kaddr) (mem_map + (__pa(kaddr) >> PAGE_SHIFT)) ++#define virt_to_page(kaddr) (mem_map + ((__pa(kaddr)-PHYS_OFFSET) >> PAGE_SHIFT)) + #define VALID_PAGE(page) ((page - mem_map) < max_mapnr) + + #define VM_DATA_DEFAULT_FLAGS (VM_READ | VM_WRITE | VM_EXEC | \ +diff -urN linux.old/include/asm-mips/pgtable-32.h linux.dev/include/asm-mips/pgtable-32.h +--- linux.old/include/asm-mips/pgtable-32.h 2004-02-18 14:36:32.000000000 +0100 ++++ linux.dev/include/asm-mips/pgtable-32.h 2005-11-10 01:14:16.436735750 +0100 +@@ -108,7 +108,7 @@ + * and a page entry and page directory to the page they refer to. + */ + +-#ifdef CONFIG_CPU_VR41XX ++#if defined(CONFIG_CPU_VR41XX) + #define mk_pte(page, pgprot) \ + ({ \ + pte_t __pte; \ +@@ -123,13 +123,14 @@ + ({ \ + pte_t __pte; \ + \ +- pte_val(__pte) = ((phys_t)(page - mem_map) << PAGE_SHIFT) | \ +- pgprot_val(pgprot); \ ++ pte_val(__pte) = (((phys_t)(page - mem_map) << PAGE_SHIFT) + \ ++ PHYS_OFFSET) | pgprot_val(pgprot); \ + \ + __pte; \ + }) + #endif + ++ + static inline pte_t mk_pte_phys(phys_t physpage, pgprot_t pgprot) + { + #ifdef CONFIG_CPU_VR41XX +@@ -175,12 +176,12 @@ + set_pte(ptep, __pte(0)); + } + +-#ifdef CONFIG_CPU_VR41XX ++#if defined(CONFIG_CPU_VR41XX) + #define pte_page(x) (mem_map+((unsigned long)(((x).pte_low >> (PAGE_SHIFT+2))))) + #define __mk_pte(page_nr,pgprot) __pte(((page_nr) << (PAGE_SHIFT+2)) | pgprot_val(pgprot)) + #else +-#define pte_page(x) (mem_map+((unsigned long)(((x).pte_low >> PAGE_SHIFT)))) +-#define __mk_pte(page_nr,pgprot) __pte(((page_nr) << PAGE_SHIFT) | pgprot_val(pgprot)) ++#define pte_page(x) (mem_map+((unsigned long)((((x).pte_low-PHYS_OFFSET) >> PAGE_SHIFT)))) ++#define __mk_pte(page_nr,pgprot) __pte((((page_nr) << PAGE_SHIFT)+PHYS_OFFSET)|pgprot_val(pgprot)) + #endif + + #endif +diff -urN linux.old/include/asm-mips/serial.h linux.dev/include/asm-mips/serial.h +--- linux.old/include/asm-mips/serial.h 2005-01-19 15:10:12.000000000 +0100 ++++ linux.dev/include/asm-mips/serial.h 2005-11-10 01:14:16.436735750 +0100 +@@ -65,6 +65,16 @@ + + #define C_P(card,port) (((card)<<6|(port)<<3) + 1) + ++#ifdef CONFIG_AR7 ++#include <asm/ar7/ar7.h> ++#include <asm/ar7/avalanche_intc.h> ++#define AR7_SERIAL_PORT_DEFNS \ ++ { 0, AR7_BASE_BAUD, AR7_UART0_REGS_BASE, LNXINTNUM(AVALANCHE_UART0_INT), STD_COM_FLAGS }, \ ++ { 0, AR7_BASE_BAUD, AR7_UART1_REGS_BASE, LNXINTNUM(AVALANCHE_UART1_INT), STD_COM_FLAGS }, ++#else ++#define AR7_SERIAL_PORT_DEFNS ++#endif ++ + #ifdef CONFIG_MIPS_JAZZ + #define _JAZZ_SERIAL_INIT(int, base) \ + { .baud_base = JAZZ_BASE_BAUD, .irq = int, .flags = STD_COM_FLAGS, \ +@@ -468,6 +478,7 @@ + #endif + + #define SERIAL_PORT_DFNS \ ++ AR7_SERIAL_PORT_DEFNS \ + ATLAS_SERIAL_PORT_DEFNS \ + AU1000_SERIAL_PORT_DEFNS \ + COBALT_SERIAL_PORT_DEFNS \ diff --git a/target/linux/ar7-2.4/patches/001-flash_map.patch b/target/linux/ar7-2.4/patches/001-flash_map.patch new file mode 100644 index 0000000000..83bc103bef --- /dev/null +++ b/target/linux/ar7-2.4/patches/001-flash_map.patch @@ -0,0 +1,307 @@ +diff -urN linux.old/drivers/mtd/maps/ar7-flash.c linux.dev/drivers/mtd/maps/ar7-flash.c +--- linux.old/drivers/mtd/maps/ar7-flash.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/mtd/maps/ar7-flash.c 2005-07-22 04:35:26.624453992 +0200 +@@ -0,0 +1,267 @@ ++/* ++ * $Id$ ++ * ++ * Normal mappings of chips in physical memory ++ */ ++ ++#include <linux/module.h> ++#include <linux/types.h> ++#include <linux/kernel.h> ++#include <asm/io.h> ++#include <linux/mtd/mtd.h> ++#include <linux/mtd/map.h> ++#include <linux/config.h> ++#include <linux/mtd/partitions.h> ++#include <linux/squashfs_fs.h> ++ ++#define WINDOW_ADDR CONFIG_MTD_AR7_START ++#define WINDOW_SIZE CONFIG_MTD_AR7_LEN ++#define BUSWIDTH CONFIG_MTD_AR7_BUSWIDTH ++ ++#include <asm/mips-boards/prom.h> ++extern char *prom_getenv(char *name); ++ ++static int create_mtd_partitions(void); ++static void __exit ar7_mtd_cleanup(void); ++ ++#define MAX_NUM_PARTITIONS 5 ++static struct mtd_partition ar7_partinfo[MAX_NUM_PARTITIONS]; ++ ++static struct mtd_info *ar7_mtd_info; ++ ++__u8 ar7_read8(struct map_info *map, unsigned long ofs) ++{ ++ return __raw_readb(map->map_priv_1 + ofs); ++} ++ ++__u16 ar7_read16(struct map_info *map, unsigned long ofs) ++{ ++ return __raw_readw(map->map_priv_1 + ofs); ++} ++ ++__u32 ar7_read32(struct map_info *map, unsigned long ofs) ++{ ++ return __raw_readl(map->map_priv_1 + ofs); ++} ++ ++void ar7_copy_from(struct map_info *map, void *to, unsigned long from, ssize_t len) ++{ ++ memcpy_fromio(to, map->map_priv_1 + from, len); ++} ++ ++void ar7_write8(struct map_info *map, __u8 d, unsigned long adr) ++{ ++ __raw_writeb(d, map->map_priv_1 + adr); ++ mb(); ++} ++ ++void ar7_write16(struct map_info *map, __u16 d, unsigned long adr) ++{ ++ __raw_writew(d, map->map_priv_1 + adr); ++ mb(); ++} ++ ++void ar7_write32(struct map_info *map, __u32 d, unsigned long adr) ++{ ++ __raw_writel(d, map->map_priv_1 + adr); ++ mb(); ++} ++ ++void ar7_copy_to(struct map_info *map, unsigned long to, const void *from, ssize_t len) ++{ ++ memcpy_toio(map->map_priv_1 + to, from, len); ++} ++ ++struct map_info ar7_map = { ++ name: "Physically mapped flash", ++ size: WINDOW_SIZE, ++ buswidth: BUSWIDTH, ++ read8: ar7_read8, ++ read16: ar7_read16, ++ read32: ar7_read32, ++ copy_from: ar7_copy_from, ++ write8: ar7_write8, ++ write16: ar7_write16, ++ write32: ar7_write32, ++ copy_to: ar7_copy_to ++}; ++ ++int __init ar7_mtd_init(void) ++{ ++ int partitions; ++ ++ printk(KERN_NOTICE "ar7 flash device: 0x%lx at 0x%lx.\n", (unsigned long)WINDOW_SIZE, (unsigned long)WINDOW_ADDR); ++ ar7_map.map_priv_1 = (unsigned long)ioremap_nocache(WINDOW_ADDR, WINDOW_SIZE); ++ ++ if (!ar7_map.map_priv_1) { ++ printk("Failed to ioremap\n"); ++ return -EIO; ++ } ++ ++ ar7_mtd_info = do_map_probe("cfi_probe", &ar7_map); ++ if (!ar7_mtd_info) ++ { ++ ar7_mtd_cleanup(); ++ return -ENXIO; ++ } ++ ++ ar7_mtd_info->module = THIS_MODULE; ++ ++ if (!(partitions = create_mtd_partitions())) ++ add_mtd_device(ar7_mtd_info); ++ else ++ add_mtd_partitions(ar7_mtd_info, ar7_partinfo, partitions); ++ ++ return 0; ++} ++ ++static char *strdup(char *str) ++{ ++ int n = strlen(str)+1; ++ char *s = kmalloc(n, GFP_KERNEL); ++ if (!s) return NULL; ++ return strcpy(s, str); ++} ++ ++ ++static int create_mtd_partitions(void) ++{ ++ unsigned int offset; ++ unsigned int size; ++ unsigned int found = 0; ++ unsigned int p = 0; ++ unsigned char *flash_base; ++ unsigned char *flash_end; ++ char *env_ptr; ++ char *base_ptr; ++ char *end_ptr; ++ unsigned int adam2_size = 0x20000; ++ unsigned int config_offset = WINDOW_SIZE; ++ unsigned int rootfs_start = 0xe0000; ++ ++ printk("Parsing ADAM2 partition map...\n"); ++ ++ do { ++ char env_name[20]; ++ ++ /* get base and end addresses of flash file system from environment */ ++ sprintf(env_name, "mtd%1u", p); ++ printk("Looking for mtd device :%s:\n", env_name); ++ ++ env_ptr = prom_getenv(env_name); ++ if(env_ptr == NULL) { ++ /* No more partitions to find */ ++ break; ++ } ++ ++ /* Extract the start and stop addresses of the partition */ ++ base_ptr = strtok(env_ptr, ","); ++ end_ptr = strtok(NULL, ","); ++ if ((base_ptr == NULL) || (end_ptr == NULL)) { ++ printk("ADAM2 partition error: Invalid %s start,end.\n", env_name); ++ break; ++ } ++ ++ flash_base = (unsigned char*) simple_strtol(base_ptr, NULL, 0); ++ flash_end = (unsigned char*) simple_strtol(end_ptr, NULL, 0); ++ if((!flash_base) || (!flash_end)) { ++ printk("ADAM2 partition error: Invalid %s start,end.\n", env_name); ++ break; ++ } ++ ++ offset = virt_to_bus(flash_base) - WINDOW_ADDR; ++ size = flash_end - flash_base; ++ printk("Found a %s image (0x%x), with size (0x%x).\n",env_name, offset, size); ++ ++ ++ if (offset == 0) { ++ printk("Assuming adam2 size of 0x%x\n", size); ++ adam2_size = size; // boot loader ++ } else if (offset > 0x120000) { ++ if (config_offset > offset) ++ config_offset = offset; // reserved at the end of the flash chip ++ } else if (offset > 0x30000) { ++ printk("Assuming default rootfs offset of 0x%x\n", offset); ++ rootfs_start = offset; // probably root fs ++ } ++ ++ p++; ++ } while (p < MAX_NUM_PARTITIONS); ++ ++ p = 0; ++ ++ ar7_partinfo[p].name = strdup("adam2"); ++ ar7_partinfo[p].offset = 0; ++ ar7_partinfo[p].size = adam2_size; ++ ar7_partinfo[p++].mask_flags = 0; ++ ++ ar7_partinfo[p].name = strdup("linux"); ++ ar7_partinfo[p].offset = adam2_size; ++ ar7_partinfo[p].size = config_offset - adam2_size; ++ ar7_partinfo[p++].mask_flags = 0; ++ ++ if (ar7_read32(&ar7_map, adam2_size) == 0xfeedfa42) { ++ rootfs_start = ar7_read32(&ar7_map, adam2_size + 4) + adam2_size + 28; ++ printk("Setting new rootfs offset to %08x\n", rootfs_start); ++ } ++ ++ ar7_partinfo[p].name = strdup("rootfs"); ++ ar7_partinfo[p].offset = rootfs_start; ++ ar7_partinfo[p].size = config_offset - rootfs_start; ++ ++ ar7_partinfo[p++].mask_flags = 0; ++ ++ ar7_partinfo[p].name = strdup("config"); ++ ar7_partinfo[p].offset = config_offset; ++ ar7_partinfo[p].size = WINDOW_SIZE - config_offset; ++ ar7_partinfo[p++].mask_flags = 0; ++ ++ if (ar7_read32(&ar7_map, rootfs_start) == SQUASHFS_MAGIC) { ++ int newsize, newoffset; ++ squashfs_super_block sb; ++ ++ ar7_copy_from(&ar7_map, &sb, rootfs_start, sizeof(sb)); ++ printk("Squashfs detected (size = 0x%08x)\n", sb.bytes_used); ++ ++ newoffset = rootfs_start + sb.bytes_used; ++ ++ if ((newoffset % ar7_mtd_info->erasesize) > 0) ++ newoffset += ar7_mtd_info->erasesize - (newoffset % ar7_mtd_info->erasesize); ++ ++ ar7_partinfo[p - 2].size = newoffset - rootfs_start; ++ ++ ar7_partinfo[p].name = strdup("OpenWrt"); ++ ar7_partinfo[p].offset = newoffset; ++ ar7_partinfo[p].size = config_offset - newoffset; ++ ar7_partinfo[p++].mask_flags = 0; ++ } else { ++ printk("Unknown filesystem. Moving rootfs partition to next erase block"); ++ if ((rootfs_start % ar7_mtd_info->erasesize) > 0) { ++ ar7_partinfo[p - 2].offset += ar7_mtd_info->erasesize - (rootfs_start % ar7_mtd_info->erasesize); ++ ar7_partinfo[p - 2].size -= ar7_mtd_info->erasesize - (rootfs_start % ar7_mtd_info->erasesize); ++ } ++ } ++ ++ return p; ++} ++ ++static void __exit ar7_mtd_cleanup(void) ++{ ++ if (ar7_mtd_info) { ++ del_mtd_partitions(ar7_mtd_info); ++ del_mtd_device(ar7_mtd_info); ++ map_destroy(ar7_mtd_info); ++ } ++ ++ if (ar7_map.map_priv_1) { ++ iounmap((void *)ar7_map.map_priv_1); ++ ar7_map.map_priv_1 = 0; ++ } ++} ++ ++module_init(ar7_mtd_init); ++module_exit(ar7_mtd_cleanup); ++ ++MODULE_LICENSE("GPL"); ++MODULE_AUTHOR("Felix Fietkau"); ++MODULE_DESCRIPTION("AR7 CFI map driver"); +diff -urN linux.old/drivers/mtd/maps/Config.in linux.dev/drivers/mtd/maps/Config.in +--- linux.old/drivers/mtd/maps/Config.in 2005-07-21 05:36:32.414242296 +0200 ++++ linux.dev/drivers/mtd/maps/Config.in 2005-07-21 06:29:04.067118232 +0200 +@@ -48,6 +48,21 @@ + fi + + if [ "$CONFIG_MIPS" = "y" ]; then ++ if [ "$CONFIG_AR7" = "y" ]; then ++ dep_tristate ' Flash chip mapping on Texas Instruments AR7' CONFIG_MTD_AR7 $CONFIG_MTD_CFI $CONFIG_MTD_PARTITIONS ++ dep_bool ' Use defaults for Texas Instruments AR7' CONFIG_MTD_AR7_DEFAULTS $CONFIG_MTD_AR7 ++ if [ "$CONFIG_MTD_AR7" = "y" -o "$CONFIG_MTD_AR7" = "m" ]; then ++ if [ "$CONFIG_MTD_AR7_DEFAULTS" = "y" ]; then ++ define_hex CONFIG_MTD_AR7_START 0x10000000 ++ define_hex CONFIG_MTD_AR7_LEN 0x400000 ++ define_int CONFIG_MTD_AR7_BUSWIDTH 2 ++ else ++ hex ' Physical start address of flash mapping' CONFIG_MTD_AR7_START 0x10000000 ++ hex ' Physical length of flash mapping' CONFIG_MTD_AR7_LEN 0x400000 ++ int ' Bus width in octets' CONFIG_MTD_AR7_BUSWIDTH 2 ++ fi ++ fi ++ fi + dep_tristate ' Pb1000 MTD support' CONFIG_MTD_PB1000 $CONFIG_MIPS_PB1000 + dep_tristate ' Pb1500 MTD support' CONFIG_MTD_PB1500 $CONFIG_MIPS_PB1500 + dep_tristate ' Pb1100 MTD support' CONFIG_MTD_PB1100 $CONFIG_MIPS_PB1100 +diff -urN linux.old/drivers/mtd/maps/Makefile linux.dev/drivers/mtd/maps/Makefile +--- linux.old/drivers/mtd/maps/Makefile 2005-07-21 05:36:32.414242296 +0200 ++++ linux.dev/drivers/mtd/maps/Makefile 2005-07-21 06:56:33.265401984 +0200 +@@ -10,6 +10,7 @@ + endif + + # Chip mappings ++obj-$(CONFIG_MTD_AR7) += ar7-flash.o + obj-$(CONFIG_MTD_CDB89712) += cdb89712.o + obj-$(CONFIG_MTD_ARM_INTEGRATOR)+= integrator-flash.o + obj-$(CONFIG_MTD_CFI_FLAGADM) += cfi_flagadm.o diff --git a/target/linux/ar7-2.4/patches/002-led_driver.patch b/target/linux/ar7-2.4/patches/002-led_driver.patch new file mode 100644 index 0000000000..81fe153cc3 --- /dev/null +++ b/target/linux/ar7-2.4/patches/002-led_driver.patch @@ -0,0 +1,1915 @@ +diff -urN linux.dev/drivers/char/Config.in linux.dev2/drivers/char/Config.in +--- linux.dev/drivers/char/Config.in 2005-10-21 17:02:20.199991500 +0200 ++++ linux.dev2/drivers/char/Config.in 2005-10-21 18:03:44.541778750 +0200 +@@ -133,6 +133,10 @@ + fi + fi + fi ++if [ "$CONFIG_AR7" = "y" ]; then ++ bool 'Enable LED support' CONFIG_AR7_LED ++fi ++ + if [ "$CONFIG_EXPERIMENTAL" = "y" -a "$CONFIG_ZORRO" = "y" ]; then + tristate 'Commodore A2232 serial support (EXPERIMENTAL)' CONFIG_A2232 + fi +diff -urN linux.dev/drivers/char/Makefile linux.dev2/drivers/char/Makefile +--- linux.dev/drivers/char/Makefile 2005-10-21 17:02:20.199991500 +0200 ++++ linux.dev2/drivers/char/Makefile 2005-10-21 18:03:44.541778750 +0200 +@@ -190,6 +190,12 @@ + obj-$(CONFIG_PCI) += keyboard.o $(KEYMAP) + endif + ++# ++# Texas Intruments LED driver ++# ++obj-$(CONFIG_AR7_LED) += avalanche_led/avalanche_led.o ++subdir-$(CONFIG_AR7_LED) += avalanche_led ++ + obj-$(CONFIG_HIL) += hp_keyb.o + obj-$(CONFIG_MAGIC_SYSRQ) += sysrq.o + obj-$(CONFIG_ATARI_DSP56K) += dsp56k.o +diff -urN linux.dev/drivers/char/avalanche_led/Makefile linux.dev2/drivers/char/avalanche_led/Makefile +--- linux.dev/drivers/char/avalanche_led/Makefile 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev2/drivers/char/avalanche_led/Makefile 2005-10-21 18:03:44.513777000 +0200 +@@ -0,0 +1,23 @@ ++# File: drivers/char/avalanche_led/Makefile ++# ++# Makefile for the Linux LED device driver. ++# ++ ++ ++O_TARGET := avalanche_led.o ++obj-m := avalanche_led.o ++list-multi := avalanche_led.o ++ ++EXTRA_CFLAGS := -I$(TOPDIR)/include/asm/ar7 ++ ++export-objs := ledmod.o leds.o ++ ++avalanche_led-objs := ledmod.o gpio.o uartled.o leds.o ++ ++include $(TOPDIR)/Rules.make ++ ++avalanche_led.o: $(avalanche_led-objs) ++ $(LD) -r -o $@ $(avalanche_led-objs) ++ ++clean: ++ rm -f core *.o *.a *.s +diff -urN linux.dev/drivers/char/avalanche_led/gpio.c linux.dev2/drivers/char/avalanche_led/gpio.c +--- linux.dev/drivers/char/avalanche_led/gpio.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev2/drivers/char/avalanche_led/gpio.c 2005-10-21 18:03:44.513777000 +0200 +@@ -0,0 +1,382 @@ ++#include <linux/kernel.h> ++#include <asm/uaccess.h> ++#include <linux/spinlock.h> ++#include <linux/proc_fs.h> ++#include <linux/fs.h> ++#include <linux/timer.h> ++#include <linux/module.h> ++ ++#include <asm/ar7/tnetd73xx_err.h> ++#include <asm/ar7/tnetd73xx_misc.h> ++#include <asm/ar7/ledapp.h> ++ ++#define TRUE 1 ++#define FALSE 0 ++ ++#if defined CONFIG_AR7WRD || defined CONFIG_AR7RD ++ ++#define AR7_RESET_FILE "led_mod/ar7reset" ++#define AR7_VERSION_FILE "led_mod/hardware_version" ++#define AR7_RESET_GPIO 11 ++#define RESET_POLL_TIME 1 ++#define RESET_HOLD_TIME 4 ++#define NO_OF_LEDS ++ ++static struct proc_dir_entry *reset_file; ++static int res_state = 0; ++static int count; ++static struct timer_list *pTimer = NULL; ++static ssize_t proc_read_reset_fops(struct file *filp, ++ char *buf,size_t count , loff_t *offp); ++ ++static ssize_t proc_read_hwversion_fops(struct file *filp, ++ char *buf,size_t count , loff_t *offp); ++ ++struct file_operations reset_fops = { ++ read: proc_read_reset_fops ++ }; ++struct file_operations hardware_version_fops = { ++ read: proc_read_hwversion_fops ++ }; ++#endif ++ ++static spinlock_t device_lock; ++led_reg_t temp[15]; ++ ++static void gpio_led_on( unsigned long param ) ++{ ++ unsigned int flags; ++ ++ spin_lock_irqsave(&device_lock, flags); ++ ++ tnetd73xx_gpio_out(param,FALSE); ++ spin_unlock_irqrestore(&device_lock, flags); ++} ++ ++static void gpio_led_off ( unsigned long param ) ++{ ++ unsigned int flags = 0x00; ++ ++ spin_lock_irqsave(&device_lock, flags); ++ ++ tnetd73xx_gpio_out(param,TRUE); ++ spin_unlock_irqrestore(&device_lock, flags); ++} ++ ++static void gpio_led_init( unsigned long param) ++{ ++ tnetd73xx_gpio_ctrl(param,GPIO_PIN,GPIO_OUTPUT_PIN); ++} ++ ++static void board_gpio_reset(void) ++{ ++ /* Initialize the link mask */ ++ device_lock = SPIN_LOCK_UNLOCKED; ++ return; ++} ++ ++#if defined CONFIG_AR7WRD || defined CONFIG_AR7RD ++ ++static ssize_t proc_read_hwversion_fops(struct file *filp, char *buf, ++ size_t count, loff_t *offp) ++{ ++ char line[8]; ++ int len = 0; ++ if( *offp != 0 ) ++ return 0; ++ ++ len = sprintf(line, "%d%d.%d%d%d%d\n", tnetd73xx_gpio_in(20), ++ tnetd73xx_gpio_in(21), tnetd73xx_gpio_in(22), ++ tnetd73xx_gpio_in(23), tnetd73xx_gpio_in(24), ++ tnetd73xx_gpio_in(25)); ++ ++ copy_to_user(buf, line, len); ++ *offp = len; ++ return len; ++} ++ ++static ssize_t proc_read_reset_fops(struct file *filp, ++ char *buf,size_t count , loff_t *offp) ++{ ++ char * pdata = NULL; ++ char line[3]; ++ int len = 0; ++ if( *offp != 0 ) ++ return 0; ++ ++ pdata = buf; ++ len = sprintf(line,"%d\n", res_state ); ++//wwzh ++// res_state = 0; ++ copy_to_user(buf,line,len ); ++ *offp = len; ++ return len; ++} ++ ++static void reset_timer_func(unsigned long data) ++{ ++//wwzh ++#if 0 ++ count = (tnetd73xx_gpio_in(AR7_RESET_GPIO) == 0) ? count + 1: 0; ++ if( count >= RESET_HOLD_TIME/RESET_POLL_TIME ) ++#endif ++ if (tnetd73xx_gpio_in(AR7_RESET_GPIO) == 0) ++ res_state = 1; ++ else ++ res_state = 0; ++ pTimer->expires = jiffies + HZ*RESET_POLL_TIME; ++ add_timer (pTimer); ++ return; ++} ++ ++static void hardware_version_init(void) ++{ ++ static struct proc_dir_entry *hardware_version_file; ++ hardware_version_file = create_proc_entry(AR7_VERSION_FILE, 0777, NULL); ++ if(hardware_version_file == NULL) ++ return; ++ ++ hardware_version_file->owner = THIS_MODULE; ++ hardware_version_file->proc_fops = &hardware_version_fops; ++ ++ tnetd73xx_gpio_ctrl(20,GPIO_PIN,GPIO_INPUT_PIN); ++ tnetd73xx_gpio_ctrl(21,GPIO_PIN,GPIO_INPUT_PIN); ++ tnetd73xx_gpio_ctrl(22,GPIO_PIN,GPIO_INPUT_PIN); ++ tnetd73xx_gpio_ctrl(23,GPIO_PIN,GPIO_INPUT_PIN); ++ tnetd73xx_gpio_ctrl(24,GPIO_PIN,GPIO_INPUT_PIN); ++ tnetd73xx_gpio_ctrl(25,GPIO_PIN,GPIO_INPUT_PIN); ++ ++ return; ++} ++ ++static void reset_init(void) ++{ ++ /* Create board reset proc file */ ++ reset_file = create_proc_entry( AR7_RESET_FILE, 0777, NULL); ++ if( reset_file == NULL) ++ goto reset_file; ++ reset_file->owner = THIS_MODULE; ++ reset_file->proc_fops = &reset_fops; ++ ++ /* Initialise GPIO 11 for input */ ++ tnetd73xx_gpio_ctrl(AR7_RESET_GPIO,GPIO_PIN,GPIO_INPUT_PIN); ++ ++ /* Create a timer which fires every seconds */ ++ pTimer = kmalloc(sizeof(struct timer_list),GFP_KERNEL); ++ init_timer( pTimer ); ++ pTimer->function = reset_timer_func; ++ pTimer->data = 0; ++ /* Start the timer */ ++ reset_timer_func(0); ++ return ; ++ ++ reset_file: ++ remove_proc_entry("AR7_RESET_FILE",NULL); ++ return; ++} ++#endif ++/*************wwzh****************/ ++#if 1 ++extern unsigned int sys_mod_state; ++extern unsigned int wan_mod_state; ++extern unsigned int wlan_mod_state; ++void sys_led_init(void) ++{ ++ tnetd73xx_gpio_ctrl(4, GPIO_PIN, GPIO_OUTPUT_PIN); ++ tnetd73xx_gpio_ctrl(5, GPIO_PIN, GPIO_OUTPUT_PIN); ++ tnetd73xx_gpio_ctrl(8, GPIO_PIN, GPIO_OUTPUT_PIN); ++ ++ tnetd73xx_gpio_out(4, FALSE); ++ tnetd73xx_gpio_out(5, TRUE); ++ tnetd73xx_gpio_out(8, TRUE); ++ ++ ++ sys_mod_state = 2; ++ ++} ++void wan_led_init(void) ++{ ++ ++ tnetd73xx_gpio_ctrl(2, GPIO_PIN, GPIO_OUTPUT_PIN); ++ tnetd73xx_gpio_ctrl(3, GPIO_PIN, GPIO_OUTPUT_PIN); ++ ++ tnetd73xx_gpio_out(2, FALSE); ++ tnetd73xx_gpio_out(3, FALSE); ++ ++ wan_mod_state = 1; ++} ++//wwzh wireless ++#if 0 ++void wlan_led_init(void) ++{ ++ //unsigned long i = 0; ++ tnetd73xx_gpio_ctrl(12, GPIO_PIN, GPIO_OUTPUT_PIN); ++ tnetd73xx_gpio_ctrl(13, GPIO_PIN, GPIO_OUTPUT_PIN); ++ ++ tnetd73xx_gpio_out(12, FALSE); ++ tnetd73xx_gpio_out(13, TRUE); ++ //for (i = 0; i < 0x20000000; i++); ++ wlan_mod_state = 1; ++} ++#endif ++ ++#endif ++/*************end ****************/ ++ ++void board_gpio_init(void) ++{ ++ ++ board_gpio_reset(); ++/**************wwzh*************/ ++ sys_led_init(); ++ wan_led_init(); ++ ++ //junzhao 2004.3.15 ++ hardware_version_init(); ++ ++ //wlan_led_init(); ++ ++ /* Register Device MAX_LED_ID + 1 for reset to factory default */ ++ temp[0].param = 0; ++ temp[0].init = reset_init; ++ temp[0].onfunc = 0; ++ temp[0].offfunc = 0; ++ register_led_drv( MAX_LED_ID + 1 , &temp[0]); ++//wwzh for wireless led ++#if 1 ++ /* Register led 12 WiFi 6 */ ++ temp[1].param = 6; ++ temp[1].init = gpio_led_init; ++ temp[1].onfunc = gpio_led_on; ++ temp[1].offfunc = gpio_led_off; ++ register_led_drv( 12 , &temp[1]); ++ ++#endif ++ ++#if 0 ++/**************end ************/ ++#if defined(CONFIG_AR5D01) ++ /* Register led 1 GPIO0 */ ++ temp[0].param = GPIO_0; ++ temp[0].init = gpio_led_init; ++ temp[0].onfunc = gpio_led_on; ++ temp[0].offfunc = gpio_led_off; ++ register_led_drv( 1 , &temp[0]); ++ ++ /* Register led 2 EINT1 */ ++ temp[1].param = EINT_1; ++ temp[1].init = gpio_led_init; ++ temp[1].onfunc = gpio_led_on; ++ temp[1].offfunc = gpio_led_off; ++ register_led_drv( 2 , &temp[1]); ++ ++ /* Register led 5 EINT1 */ ++ temp[2].param = GPIO_1; ++ temp[2].init = gpio_led_init; ++ temp[2].onfunc = gpio_led_on; ++ temp[2].offfunc = gpio_led_off; ++ register_led_drv( 5 , &temp[2]); ++#endif ++ ++#if defined(CONFIG_AR5W01) ++ /* Register led 5 GPIO_1 */ ++ temp[0].param = GPIO_1; ++ temp[0].init = gpio_led_init; ++ temp[0].onfunc = gpio_led_on; ++ temp[0].offfunc = gpio_led_off; ++ register_led_drv( 5 , &temp[0]); ++ ++ /* Register led 7 GPIO_0 */ ++ temp[1].param = GPIO_0; ++ temp[1].init = gpio_led_init; ++ temp[1].onfunc = gpio_led_on; ++ temp[1].offfunc = gpio_led_off; ++ register_led_drv( 7 , &temp[1]); ++#endif ++ ++//wwzh #if defined(CONFIG_AR7RD) ++#if defined CONFIG_AR7WRD || defined CONFIG_AR7RD ++ /* Register led 5 Green PPPOE GPIO 13 */ ++ temp[0].param = 13; ++ temp[0].init = gpio_led_init; ++ temp[0].onfunc = gpio_led_on; ++ temp[0].offfunc = gpio_led_off; ++ register_led_drv( 5 , &temp[0]); ++ ++ /* Register led 7 Green USB GPIO 12 */ ++ temp[1].param = 12; ++ temp[1].init = gpio_led_init; ++ temp[1].onfunc = gpio_led_on; ++ temp[1].offfunc = gpio_led_off; ++ register_led_drv( 7 , &temp[1]); ++ ++ /* Register Device MAX_LED_ID + 1 for reset to factory default */ ++ temp[2].param = 0; ++ temp[2].init = reset_init; ++ temp[2].onfunc = 0; ++ temp[2].offfunc = 0; ++ register_led_drv( MAX_LED_ID + 1 , &temp[2]); ++ ++ /* Register led 8 RED DSL GPIO 10 */ ++ temp[3].param = 10; ++ temp[3].init = gpio_led_init; ++ temp[3].onfunc = gpio_led_on; ++ temp[3].offfunc = gpio_led_off; ++ register_led_drv( 8 , &temp[3]); ++ ++ /* Register led 9 RED PPPoE down GPIO 9 */ ++ temp[4].param = 9; ++ temp[4].init = gpio_led_init; ++ temp[4].onfunc = gpio_led_on; ++ temp[4].offfunc = gpio_led_off; ++ register_led_drv( 9 , &temp[4]); ++ ++ /* Register led 10 DSL down GPIO 8 */ ++ temp[5].param = 8; ++ temp[5].init = gpio_led_init; ++ temp[5].onfunc = gpio_led_on; ++ temp[5].offfunc = gpio_led_off; ++ register_led_drv( 10 , &temp[5]); ++ ++ /* Register led 11 Power GPIO 7 */ ++ temp[6].param = 7; ++ temp[6].init = gpio_led_init; ++ temp[6].onfunc = gpio_led_on; ++ temp[6].offfunc = gpio_led_off; ++ register_led_drv( 11 , &temp[6]); ++ ++ /* Register led 12 WiFi 6 */ ++ temp[7].param = 6; ++ temp[7].init = gpio_led_init; ++ temp[7].onfunc = gpio_led_on; ++ temp[7].offfunc = gpio_led_off; ++ register_led_drv( 12 , &temp[7]); ++ ++ /* Register led 13 ELINK(AA1313) GPIO 15 */ ++ temp[8].param = 15; ++ temp[8].init = gpio_led_init; ++ temp[8].onfunc = gpio_led_on; ++ temp[8].offfunc = gpio_led_off; ++ register_led_drv( 13 , &temp[8]); ++ ++ /* Register led 14 EACT(Y13) GPIO 16 */ ++ temp[9].param = 16; ++ temp[9].init = gpio_led_init; ++ temp[9].onfunc = gpio_led_on; ++ temp[9].offfunc = gpio_led_off; ++ register_led_drv( 14 , &temp[9]); ++ ++#endif ++/**************wwzh**************/ ++#endif ++/**************end **************/ ++ return; ++} ++ ++ ++ ++ ++ ++ ++ ++ +diff -urN linux.dev/drivers/char/avalanche_led/ledmod.c linux.dev2/drivers/char/avalanche_led/ledmod.c +--- linux.dev/drivers/char/avalanche_led/ledmod.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev2/drivers/char/avalanche_led/ledmod.c 2005-10-21 18:03:44.513777000 +0200 +@@ -0,0 +1,1116 @@ ++#include <linux/config.h> ++#include <linux/init.h> ++#include <linux/kernel.h> ++#include <linux/proc_fs.h> ++#include <asm/uaccess.h> ++#include <linux/fs.h> ++#include <linux/timer.h> ++#include <linux/delay.h> ++#include <linux/spinlock.h> ++#include <asm/ar7/avalanche_regs.h> ++#include <asm/ar7/ledapp.h> ++#include <linux/module.h> ++ ++#define LED_ON 1 ++#define LED_OFF 2 ++#define LED_BLINK 3 ++#define LED_FLASH 4 ++ ++#define LED_BLINK_UP 5 ++#define LED_BLINK_DOWN 6 ++ ++extern void avalanche_leds_init(void); ++ ++/***********wwzh**************/ ++unsigned int sys_mod_state; ++unsigned int wan_mod_state; ++unsigned int wlan_mod_state; ++ ++struct timer_list *pWanTimer = NULL; ++struct timer_list *pWlanTimer = NULL; ++/***********end **************/ ++ ++typedef struct state_entry{ ++ unsigned char mode; ++ unsigned char led; ++ void (*handler)(struct state_entry *pState); ++ unsigned long param; ++}state_entry_t; ++ ++typedef struct mod_entry{ ++ state_entry_t *states[MAX_STATE_ID]; ++}mod_entry_t; ++ ++static mod_entry_t *modArr[MAX_MOD_ID]; ++static struct proc_dir_entry *led_proc_dir,*led_file; ++ ++/* index of the array is the led number HARDWARE SPECIFIC*/ ++typedef struct led_data{ ++ led_reg_t *led; ++ int state; ++ struct timer_list *pTimer; ++ unsigned char timer_running; ++ unsigned long param; ++}led_data_t; ++ ++led_data_t led_arr[MAX_LED_ID + 1]; ++/*!!! The last device is actually being used for ar7 reset to factory default */ ++ ++ ++static spinlock_t config_lock; ++ ++static void board_led_link_up( state_entry_t *pState ); ++static void board_led_link_down( state_entry_t *pState ); ++static void board_led_activity_on( state_entry_t *pState ); ++static void board_led_activity_off( state_entry_t *pState ); ++static void led_timer_func(unsigned long data); ++ ++extern void board_gpio_init(void); ++extern void uart_led_init(void); ++ ++static ssize_t proc_read_led_fops(struct file *filp, ++ char *buf,size_t count , loff_t *offp); ++static ssize_t proc_write_led_fops(struct file *filp,const char *buffer, ++ size_t count , loff_t *offp); ++static int config_led( unsigned long y); ++ ++struct file_operations led_fops = { ++ read: proc_read_led_fops, ++ write: proc_write_led_fops, ++ }; ++ ++static int led_atoi( char *name) ++{ ++ int val = 0; ++ for(;;name++) ++ { ++ switch(*name) ++ { ++ case '0'...'9': ++ val = val*10+(*name - '0'); ++ break; ++ default: ++ return val; ++ } ++ } ++} ++ ++static int free_memory(void) ++{ ++ int i, j; ++ ++ for( i = 0; i < MAX_MOD_ID ; i++) ++ { ++ if( modArr[i] != NULL ) ++ { ++ for( j = 0; j < MAX_STATE_ID ; j++ ) ++ { ++ if( modArr[i]->states[j] != NULL ) ++ kfree( modArr[i]->states[j]); ++ } ++ kfree(modArr[i]); ++ modArr[i] = NULL; ++ } ++ } ++ return 0; ++} ++ ++static int led_on( state_entry_t *pState ) ++{ ++ if( led_arr[pState->led].led == NULL) ++ return -1; ++ led_arr[pState->led].led->onfunc( led_arr[pState->led].led->param); ++ return 0; ++} ++ ++static int led_off( state_entry_t *pState ) ++{ ++ if( led_arr[pState->led].led == NULL) ++ return -1; ++ led_arr[pState->led].led->offfunc( led_arr[pState->led].led->param); ++ return 0; ++} ++ ++static void board_led_link_up( state_entry_t *pState ) ++{ ++ led_arr[pState->led].state = LED_ON; ++ if( led_arr[pState->led].timer_running == 0 ) ++ led_on(pState); ++ return; ++} ++ ++static void board_led_link_down( state_entry_t *pState ) ++{ ++ led_arr[pState->led].state = LED_OFF; ++ if( led_arr[pState->led].timer_running == 0 ) ++ led_off(pState); ++ return; ++} ++ ++static void add_led_timer(state_entry_t *pState) ++{ ++ led_arr[pState->led].pTimer->expires = jiffies + HZ*(pState->param)/1000; ++ led_arr[pState->led].param = pState->param; ++ led_arr[pState->led].pTimer->data = pState; ++ add_timer (led_arr[pState->led].pTimer); ++} ++ ++static void board_led_activity_on(state_entry_t *pState) ++{ ++ if(led_arr[pState->led].timer_running == 0) ++ { ++ led_on(pState); ++ add_led_timer(pState); ++ led_arr[pState->led].timer_running = 1; ++ led_arr[pState->led].state = LED_BLINK_UP; ++ } ++ else if( led_arr[pState->led].timer_running > 0xF0) ++ { ++ led_arr[pState->led].state = LED_BLINK_UP; ++ led_arr[pState->led].pTimer->expires = jiffies + HZ*(pState->param)/1000; ++ led_arr[pState->led].param = pState->param; ++ led_arr[pState->led].pTimer->data = pState; ++ } ++ return; ++} ++ ++static void board_led_activity_off(state_entry_t *pState) ++{ ++ if(led_arr[pState->led].timer_running == 0) ++ { ++ led_off(pState); ++ add_led_timer(pState); ++ led_arr[pState->led].timer_running = 1; ++ led_arr[pState->led].state = LED_BLINK_UP; ++ } ++ else if( led_arr[pState->led].timer_running > 0xF0) ++ { ++ led_arr[pState->led].state = LED_BLINK_UP; ++ led_arr[pState->led].pTimer->expires = jiffies + HZ*(pState->param)/1000; ++ led_arr[pState->led].param = pState->param; ++ led_arr[pState->led].pTimer->data = pState; ++ } ++ return; ++} ++ ++static void board_led_link_flash(state_entry_t *pState) ++{ ++ if(led_on(pState)) ++ return; ++ if(led_arr[pState->led].timer_running == 0) ++ add_led_timer(pState); ++ else ++ led_arr[pState->led].param = pState->param; ++ led_arr[pState->led].timer_running = 0xFF; ++ led_arr[pState->led].state = LED_FLASH; ++ return; ++} ++ ++static void led_timer_func(unsigned long data) ++{ ++ state_entry_t *pState = NULL; ++ mod_entry_t *pMod = NULL; ++ unsigned int flags; ++ ++ spin_lock_irqsave(&config_lock, flags); ++ ++ pState = (state_entry_t *)data; ++ ++ if( led_arr[pState->led].state == LED_BLINK_DOWN ) ++ { ++ led_arr[pState->led].timer_running = 0; ++ if( pState->mode == 2 ) ++ led_arr[pState->led].state = LED_OFF; ++ else ++ led_arr[pState->led].state = LED_ON; ++ } ++ else if( led_arr[pState->led].state == LED_BLINK_UP ) ++ { ++ led_arr[pState->led].pTimer->expires = jiffies + HZ*(led_arr[pState->led].param)/1000; ++ led_arr[pState->led].pTimer->data = pState; ++ add_timer (led_arr[pState->led].pTimer); ++ if( pState->mode == 2 ) ++ { ++ led_off(pState); ++ led_arr[pState->led].state = LED_BLINK_DOWN; ++ } ++ else ++ { ++ led_on(pState); ++ led_arr[pState->led].state = LED_BLINK_DOWN; ++ } ++ led_arr[pState->led].timer_running = 1; ++ } ++ else if( led_arr[pState->led].state == LED_FLASH ) ++ { ++ led_arr[pState->led].pTimer->expires = jiffies + HZ*(led_arr[pState->led].param)/1000; ++ led_arr[pState->led].pTimer->data = pState; ++ add_timer (led_arr[pState->led].pTimer); ++ ++ if( led_arr[pState->led].timer_running == 0xFF ) ++ { ++ led_off(pState); ++ led_arr[pState->led].timer_running--; ++ } ++ else ++ { ++ led_on(pState); ++ led_arr[pState->led].timer_running++; ++ } ++ spin_unlock_irqrestore(&config_lock, flags); ++ return; ++ } ++ else if(led_arr[pState->led].state == LED_OFF) ++ { ++ led_off(pState); ++ led_arr[pState->led].timer_running = 0; ++ } ++ else if( led_arr[pState->led].state == LED_ON ) ++ { ++ led_on(pState); ++ led_arr[pState->led].timer_running = 0; ++ } ++ spin_unlock_irqrestore(&config_lock, flags); ++ return; ++} ++/************wwzh*****************/ ++#if 0 ++/************end *****************/ ++static ssize_t proc_read_led_fops(struct file *filp, ++ char *buf,size_t count , loff_t *offp) ++{ ++ char * pdata = NULL; ++ int i = 0, j = 0, len = 0, totallen = 0; ++ char line[255]; ++ ++ if( *offp != 0 ) ++ return 0; ++ ++ pdata = buf; ++ len += sprintf(line,"LEDS Registered for use are:"); ++ for( i = 0; i< MAX_LED_ID; i++) ++ if( led_arr[i].led != NULL ) ++ len += sprintf(&line[len]," %d ", i ); ++ line[len++] = '\n'; ++ ++ copy_to_user(pdata, line,len ); ++ pdata += len; ++ totallen += len; ++ len = 0; ++ len = sprintf(line,"USER MODULE INFORMATION:\n"); ++ copy_to_user(pdata, line,len ); ++ pdata += len; ++ totallen += len; ++ len = 0; ++ for( i = 0; i< MAX_MOD_ID; i++) ++ { ++ if( modArr[i] != NULL ) ++ { ++ len = sprintf(line," Module ID = %d \n" , i); ++ copy_to_user(pdata, line,len ); ++ pdata += len; ++ totallen += len; ++ len = 0; ++ for( j = 0; j < MAX_STATE_ID; j++) ++ { ++ if( modArr[i]->states[j] != NULL) ++ { ++ len = sprintf(line , ++ " State = %d , Led = %d," , j , modArr[i]->states[j]->led); ++ copy_to_user(pdata, line,len ); ++ pdata += len; ++ totallen += len; ++ ++ len = 0; ++ switch( modArr[i]->states[j]->mode ) ++ { ++ case 1: ++ len = sprintf(line ," Mode = OFF\n"); ++ break; ++ case 2: ++ len = sprintf(line ," Mode = BLINK_ON , On Time(ms) = %d\n" , ++ (unsigned int)modArr[i]->states[j]->param); ++ break; ++ case 3: ++ len = sprintf(line ," Mode = BLINK_OFF , Off Time(ms) = %d\n" , ++ (unsigned int)modArr[i]->states[j]->param); ++ break; ++ case 4: ++ len = sprintf(line ," Mode = ON \n"); ++ break; ++ case 5: ++ len = sprintf(line ," Mode = FLASH , Time Period(ms) = %d\n" , ++ (unsigned int)modArr[i]->states[j]->param); ++ break; ++ default: ++ break; ++ ++ } ++ copy_to_user(pdata, line,len ); ++ pdata += len; ++ totallen += len; ++ ++ len = 0; ++ } ++ } ++ } ++ } ++ /* Return with configuration information for LEDs */ ++ *offp = totallen; ++ return totallen; ++} ++static ssize_t proc_write_led_fops(struct file *filp,const char *buffer, ++ size_t count , loff_t *offp) ++{ ++ char *pdata = NULL, *ptemp = NULL; ++ char line[10],temp[10]; ++ int i = 0; ++ int mod = 0xFFFF , state = 0xFFFF; ++ int flag = 0; ++ ++ /* Check if this write is for configuring stuff */ ++ if( *(int *)(buffer) == 0xFFEEDDCC ) ++ { ++ printk("<1>proc write:Calling Configuration\n"); ++ config_led((unsigned long)(buffer + sizeof(int)) ); ++ return count; ++ } ++ ++ if( count >= 10) ++ { ++ printk("<1>proc write:Input too long,max length = %d\n",10); ++ return count; ++ } ++ memset( temp, 0x00 , 10); ++ memset( line, 0x00 , 10); ++ copy_from_user(line,buffer,count); ++ line[count] = 0x00; ++ pdata = line; ++ ptemp = temp; ++ while( flag == 0) ++ { ++ if( i > 10 ) ++ break; ++ if( ((*pdata) >= '0' ) && ((*pdata) <= '9') ) ++ { ++ *ptemp = *pdata ; ++ ptemp++; ++ } ++ else if( (*pdata) == ',' ) ++ { ++ *ptemp = 0x00; ++ flag = 1; ++ } ++ pdata++; ++ i++; ++ }; ++ if( flag == 1) ++ mod = led_atoi( temp); ++ else ++ return count; ++ ++ ptemp = temp; ++ *ptemp = 0x00; ++ flag = 0; ++ while( flag == 0) ++ { ++ if( i > 10 ) ++ break; ++ if( ((*pdata) >= '0' ) && ((*pdata) <= '9') ) ++ { ++ *ptemp = *pdata ; ++ ptemp++; ++ } ++ else if( (*pdata) == 0x00 ) ++ { ++ *ptemp = 0x00; ++ flag = 1; ++ } ++ pdata++; ++ i++; ++ }; ++ if( flag == 1) ++ state = led_atoi( temp); ++ else ++ return count; ++ if( (mod == 0xFFFF) || (state == 0xFFFF)) ++ return count; ++ else ++ led_operation( mod , state ); ++ return count; ++} ++ ++/************wwzh*******************/ ++#else ++ ++#define TRUE 1 ++#define FALSE 0 ++#define FLICK_TIME (HZ*100/1000) ++static unsigned int wan_txrx_state = 0; ++static unsigned int wlan_txrx_state = 0; ++ ++void led_operation( int mod , int state) ++{ ++ ++ unsigned int flags; ++ ++ spin_lock_irqsave(&config_lock, flags); ++ ++ if( (mod >= MAX_MOD_ID) || ( state >= MAX_STATE_ID) ) ++ { ++ spin_unlock_irqrestore(&config_lock, flags); ++ return; ++ } ++ if ( modArr[mod] == NULL ) ++ { ++ spin_unlock_irqrestore(&config_lock, flags); ++ return; ++ } ++ if( modArr[mod]->states[state] == NULL ) ++ { ++ spin_unlock_irqrestore(&config_lock, flags); ++ return; ++ } ++ /* Call the function handler */ ++ modArr[mod]->states[state]->handler(modArr[mod]->states[state]); ++ ++ spin_unlock_irqrestore(&config_lock, flags); ++} ++ ++static void wan_led_func(unsigned long data) ++{ ++ if (wan_txrx_state == 0) ++ { ++ tnetd73xx_gpio_out(2, TRUE); ++ tnetd73xx_gpio_out(3, FALSE); ++ wan_txrx_state = 1; ++ } ++ else ++ { ++ tnetd73xx_gpio_out(2, FALSE); ++ tnetd73xx_gpio_out(3, FALSE); ++ wan_txrx_state = 0; ++ } ++ pWanTimer->expires = jiffies + FLICK_TIME; ++ add_timer(pWanTimer); ++} ++//wwzh for wireless ++#if 0 ++static void wlan_led_func(unsigned long data) ++{ ++ if (wlan_txrx_state == 0) ++ { ++ tnetd73xx_gpio_out(12, TRUE); ++ tnetd73xx_gpio_out(13, FALSE); ++ wlan_txrx_state = 1; ++ } ++ else ++ { ++ tnetd73xx_gpio_out(12, FALSE); ++ tnetd73xx_gpio_out(13, FALSE); ++ wlan_txrx_state = 0; ++ ++ } ++ pWlanTimer->expires = jiffies + FLICK_TIME; ++ add_timer(pWlanTimer); ++} ++#endif ++ ++void led_active(int mod, int state) ++{ ++ unsigned int flags = 0; ++ ++//printk("mod = %d state = %d\n", mod, state); ++ spin_lock_irqsave(&config_lock, flags); ++ if ((mod >= 5) || (state >= 5)) ++ { ++ spin_unlock_irqrestore(&config_lock, flags); ++ return; ++ } ++ ++ switch (mod) ++ { ++ case 2: /*system led */ ++ sys_mod_state = state; ++ switch (state) ++ { ++ case 1: ++ break; ++ case 2: /*sys led flashing green */ ++ tnetd73xx_gpio_out(4, FALSE); ++ tnetd73xx_gpio_out(5, TRUE); ++ tnetd73xx_gpio_out(8, TRUE); ++ break; ++ case 3: /*sys led solid green */ ++ tnetd73xx_gpio_out(4, TRUE); ++ tnetd73xx_gpio_out(5, TRUE); ++ tnetd73xx_gpio_out(8, TRUE); ++ ++ break; ++ case 4: /*sys fail red */ ++ tnetd73xx_gpio_out(4, TRUE); ++ tnetd73xx_gpio_out(5, FALSE); ++ tnetd73xx_gpio_out(8, FALSE); ++ break; ++ default: ++ break; ++ } ++ break; ++ case 3: /*wan led */ ++ wan_mod_state = state; ++ switch (state) ++ { ++ case 1: /*no wan interface*/ ++ if (pWanTimer) ++ { ++ del_timer(pWanTimer); ++ kfree(pWanTimer); ++ pWanTimer = NULL; ++ } ++ tnetd73xx_gpio_out(2, FALSE); ++ tnetd73xx_gpio_out(3, FALSE); ++ break; ++ case 2: /*wan connected */ ++ if (pWanTimer) ++ { ++ del_timer(pWanTimer); ++ kfree(pWanTimer); ++ pWanTimer = NULL; ++ } ++ tnetd73xx_gpio_out(2, TRUE); ++ tnetd73xx_gpio_out(3, FALSE); ++ break; ++ case 3: /*rx/tx activity */ ++ if (pWanTimer != NULL) ++ break; ++ ++ pWanTimer = kmalloc(sizeof(struct timer_list), GFP_KERNEL); ++ init_timer(pWanTimer); ++ ++ pWanTimer->function = wan_led_func; ++ pWanTimer->data = 0; ++ pWanTimer->expires = jiffies + FLICK_TIME; ++ tnetd73xx_gpio_out(2, FALSE); ++ tnetd73xx_gpio_out(3, FALSE); ++ wan_txrx_state = 0; ++ add_timer(pWanTimer); ++ ++ break; ++ case 4: /*no ipaddress */ ++ if (pWanTimer) ++ { ++ del_timer(pWanTimer); ++ kfree(pWanTimer); ++ pWanTimer = NULL; ++ } ++ tnetd73xx_gpio_out(2, FALSE); ++ tnetd73xx_gpio_out(3, TRUE); ++ break; ++ default: ++ if (pWanTimer) ++ { ++ del_timer(pWanTimer); ++ kfree(pWanTimer); ++ pWanTimer = NULL; ++ } ++ break; ++ } ++ break; ++ //wwzh for wireless ++ #if 0 ++ case 4: /*wlan led */ ++ wlan_mod_state = state; ++ switch (state) ++ { ++ case 1: /* wlan off */ ++ if (pWlanTimer) ++ { ++ del_timer(pWlanTimer); ++ kfree(pWlanTimer); ++ pWlanTimer = NULL; ++ } ++ tnetd73xx_gpio_out(12, FALSE); ++ tnetd73xx_gpio_out(13, FALSE); ++ break; ++ case 2: /* wlan ready */ ++ if (pWlanTimer) ++ { ++ del_timer(pWlanTimer); ++ kfree(pWlanTimer); ++ pWlanTimer = NULL; ++ } ++ tnetd73xx_gpio_out(12, TRUE); ++ tnetd73xx_gpio_out(13, FALSE); ++ break; ++ case 3: /* wlan rx/tx activity */ ++ if (pWlanTimer != NULL) ++ break; ++ ++ pWlanTimer = kmalloc(sizeof(struct timer_list), GFP_KERNEL); ++ init_timer(pWlanTimer); ++ ++ pWlanTimer->function = wlan_led_func; ++ pWlanTimer->data = 0; ++ pWlanTimer->expires = jiffies + FLICK_TIME; ++ tnetd73xx_gpio_out(12, FALSE); ++ tnetd73xx_gpio_out(13, FALSE); ++ wlan_txrx_state = 0; ++ add_timer(pWlanTimer); ++ ++ break; ++ default: ++ if (pWlanTimer) ++ { ++ del_timer(pWlanTimer); ++ kfree(pWlanTimer); ++ pWlanTimer = NULL; ++ } ++ ++ break; ++ } ++ break; ++ #endif //for wireless ++ default: ++ break; ++ } ++ spin_unlock_irqrestore(&config_lock, flags); ++} ++static ssize_t proc_read_led_fops(struct file *filp, ++ char *buf,size_t count , loff_t *offp) ++{ ++ char *pdata = NULL; ++ int i = 0, j = 0, len = 0, totallen = 0; ++ char line[255]; ++ ++ if (*offp != 0) ++ return 0; ++ pdata = buf; ++ len = sprintf(line, "USER MODULE INFORMATION:\n"); ++ copy_to_user(pdata, line, len); ++ pdata += len; ++ totallen += len; ++ len = 0; ++ ++ //*******add Module 1 , this Module is ADSL ********/ ++ for (i = 0; i < MAX_MOD_ID; i++) ++ { ++ if (modArr[i] != NULL) ++ { ++ len = sprintf(line, " Module ID = %d\n", i); ++ copy_to_user(pdata, line, len); ++ pdata += len; ++ totallen += len; ++ len = 0; ++ for(j = 0; j < MAX_STATE_ID; j++) ++ { ++ if (modArr[i]->states[j] != NULL) ++ { ++ len = sprintf(line, "State =%d, Led = %d,", j, modArr[i]->states[j]->led); ++ copy_to_user(pdata, line, len); ++ pdata += len; ++ totallen += len; ++ len = 0; ++ switch(modArr[i]->states[j]->mode) ++ { ++ case 1: ++ len = sprintf(line, "Mode = OFF\n"); ++ break; ++ case 2: ++ len = sprintf(line, "Mode = BLINK_ON, On Time(ms) = %d\n", (unsigned int)modArr[i]->states[j]->param); ++ break; ++ case 3: ++ len = sprintf(line, "Mode = BLINK_OFF, Off Time(ms) = %d\n", (unsigned int)modArr[i]->states[j]->param); ++ break; ++ case 4: ++ len = sprintf(line, "Mode = On\n"); ++ break; ++ case 5: ++ len = sprintf(line, "Mode = FLASH, Time Period(ms) = %d\n", (unsigned int)modArr[i]->states[j]->param); ++ break; ++ default: ++ break; ++ } ++ copy_to_user(pdata, line, len); ++ pdata += len; ++ totallen += len; ++ len = 0; ++ } ++ } ++ } ++ ++ } ++ ++ len = sprintf(line, "Module ID = 2(system led)\n"); ++ copy_to_user(pdata, line, len); ++ pdata += len; ++ totallen += len; ++ len = 0; ++ switch(sys_mod_state) ++ { ++ case 1: ++ len = sprintf(line, "State = OFF\n"); ++ break; ++ case 2: ++ len = sprintf(line, "State = Booting\n"); ++ break; ++ case 3: ++ len = sprintf(line, "State = System Ready\n"); ++ break; ++ case 4: ++ len = sprintf(line, "State = System Failure\n"); ++ break; ++ default: ++ break; ++ } ++ copy_to_user(pdata, line, len); ++ pdata += len; ++ totallen += len; ++ len = 0; ++ ++ len = sprintf(line, "Module ID = 3(WAN led)\n"); ++ copy_to_user(pdata, line, len); ++ pdata += len; ++ totallen += len; ++ len = 0; ++ switch(wan_mod_state) ++ { ++ case 1: ++ len = sprintf(line, "State = OFF\n"); ++ break; ++ case 2: ++ len = sprintf(line, "State = Wan Connected\n"); ++ break; ++ case 3: ++ len = sprintf(line, "State = Wan Tx/Rx Activity\n"); ++ break; ++ case 4: ++ len = sprintf(line, "State = Wan Connect Failure\n"); ++ break; ++ default: ++ break; ++ } ++ copy_to_user(pdata, line, len); ++ pdata += len; ++ totallen += len; ++ len = 0; ++ ++//wwzh for wireless ++#if 0 ++ len = sprintf(line, "Module ID = 4(WLAN led)\n"); ++ copy_to_user(pdata, line, len); ++ pdata += len; ++ totallen += len; ++ len = 0; ++ switch(wlan_mod_state) ++ { ++ case 1: ++ len = sprintf(line, "State = OFF\n"); ++ break; ++ case 2: ++ len = sprintf(line, "State = wlan Ready\n"); ++ break; ++ case 3: ++ len = sprintf(line, "State = wlan rx/tx activity\n"); ++ break; ++ default: ++ break; ++ } ++ copy_to_user(pdata, line, len); ++ pdata += len; ++ totallen += len; ++ len = 0; ++#endif //for wireless ++ ++ *offp = totallen; ++ return totallen; ++} ++static ssize_t proc_write_led_fops(struct file *filp,const char *buffer, ++ size_t count , loff_t *offp) ++{ ++ char *pdata = NULL, *ptemp = NULL; ++ char line[10], temp[10]; ++ int i = 0; ++ int mod = 0xffff, state = 0xffff; ++ int flag = 0; ++ ++ /* Check if this write is for configuring ADSL */ ++ if( *(int *)(buffer) == 0xFFEEDDCC ) ++ { ++ printk("<1>proc write:Calling Configuration\n"); ++ config_led((unsigned long)(buffer + sizeof(int)) ); ++ return count; ++ } ++ ++ if (count > 10) ++ { ++ printk("<1> proc write: Input too long, max length = 10\n"); ++ return count; ++ } ++ memset(temp, 0x00, 10); ++ memset(line, 0x00, 10); ++ copy_from_user(line, buffer, count); ++ line[count] = 0x00; ++ pdata = line; ++ ptemp = temp; ++ ++ while (flag == 0) ++ { ++ if (i > 10) ++ break; ++ if (((*pdata) >= '0') && ((*pdata) <= '9')) ++ { ++ *ptemp = *pdata; ++ ptemp++; ++ } ++ else if ((*pdata) == ',') ++ { ++ *ptemp = 0x00; ++ flag = 1; ++ } ++ pdata++; ++ i++; ++ } ++ if (flag == 1) ++ mod = led_atoi(temp); ++ else ++ return count; ++ ++ ptemp = temp; ++ *ptemp = 0x00; ++ flag = 0; ++ ++ while(flag == 0) ++ { ++ if (i > 10) ++ break; ++ if (((*pdata) >= '0') && ((*pdata) <= '9')) ++ { ++ *ptemp = *pdata; ++ ptemp++; ++ } ++ else if ((*pdata) == 0x00) ++ { ++ *ptemp = 0x00; ++ flag = 1; ++ } ++ pdata++; ++ i++; ++ } ++ if (flag == 1) ++ state = led_atoi(temp); ++ else ++ return count; ++ if ((mod == 0xFFFF) || (state == 0xFFFF)) ++ return count; ++ else ++ { ++ if (mod != 4) ++ led_active(mod, state); ++ else ++ led_operation(mod, state); ++ } ++ return 1; ++} ++#endif ++/************end *******************/ ++static int config_led(unsigned long y) ++{ ++ config_elem_t *pcfg = NULL; ++ char *pdata = NULL; ++ int i; ++ int length = 0 , number = 0; ++ unsigned int flags; ++ ++ spin_lock_irqsave(&config_lock, flags); ++ ++ /* ioctl to configure */ ++ length = *((int*)y); ++ pdata = (char *)y + sizeof(int); ++ number = (length - sizeof(int))/sizeof(config_elem_t); ++ pcfg = (config_elem_t *)(pdata); ++ ++ /* Check if an earlier configuration exists IF yes free it up */ ++ free_memory(); ++ ++ for ( i = 0 ; i < number ; i++ ) ++ { ++ /* If no structure has been allocated for the module do so */ ++ if ( modArr[pcfg->name] == NULL ) ++ { ++ printk("<1>module = %d\n",pcfg->name); ++ if( pcfg->name >= MAX_MOD_ID) ++ { ++ printk("<1>Exiting Configuration: Module ID too large %d\n",pcfg->name); ++ free_memory(); ++ spin_unlock_irqrestore(&config_lock, flags); ++ return -1; ++ } ++ modArr[pcfg->name] = kmalloc(sizeof(mod_entry_t),GFP_KERNEL); ++ if(modArr[pcfg->name] == NULL) ++ { ++ printk("<1>Exiting Configuration: Error in allocating memory\n"); ++ free_memory(); ++ spin_unlock_irqrestore(&config_lock, flags); ++ return -1; ++ } ++ memset( modArr[pcfg->name], 0x00, sizeof(mod_entry_t)); ++ } ++ ++ /* if no structure is allocated previously for this state ++ allocate a structure, if it's already there fill it up */ ++ if( modArr[pcfg->name]->states[pcfg->state] == NULL) ++ { ++ printk("<1>STATE = %d\n",pcfg->state); ++ if( pcfg->state >= MAX_STATE_ID) ++ { ++ printk("<1>Exiting Configuration: State ID too large\n"); ++ free_memory(); ++ spin_unlock_irqrestore(&config_lock, flags); ++ return -1; ++ } ++ modArr[pcfg->name]->states[pcfg->state] = ++ kmalloc(sizeof(state_entry_t),GFP_KERNEL); ++ if( modArr[pcfg->name]->states[pcfg->state] == NULL) ++ { ++ free_memory(); ++ spin_unlock_irqrestore(&config_lock, flags); ++ return -1; ++ } ++ memset( modArr[pcfg->name]->states[pcfg->state], 0x00, sizeof(state_entry_t)); ++ } ++ /* Fill up the fields of the state */ ++ if( pcfg->led >= MAX_LED_ID) ++ { ++ printk("<1>led = %d\n",pcfg->led); ++ free_memory(); ++ spin_unlock_irqrestore(&config_lock, flags); ++ return -1; ++ } ++ modArr[pcfg->name]->states[pcfg->state]->led = pcfg->led; ++ modArr[pcfg->name]->states[pcfg->state]->mode = pcfg->mode; ++ modArr[pcfg->name]->states[pcfg->state]->param = pcfg->param; ++ switch(pcfg->mode) ++ { ++ case 1: ++ modArr[pcfg->name]->states[pcfg->state]->handler = board_led_link_down; ++ break; ++ case 2: ++ case 3: ++ case 5: ++ if( pcfg->mode == 2 ) ++ modArr[pcfg->name]->states[pcfg->state]->handler = board_led_activity_on; ++ else if( pcfg->mode == 3) ++ modArr[pcfg->name]->states[pcfg->state]->handler = board_led_activity_off; ++ else ++ modArr[pcfg->name]->states[pcfg->state]->handler = board_led_link_flash; ++ break; ++ case 4: ++ modArr[pcfg->name]->states[pcfg->state]->handler = board_led_link_up; ++ break; ++ default: ++ printk("<1>Exiting Configuration: Unknown LED Mode\n"); ++ free_memory(); ++ spin_unlock_irqrestore(&config_lock, flags); ++ return -1; ++ } ++ pcfg++; ++ } ++ spin_unlock_irqrestore(&config_lock, flags); ++ return 0; ++} ++ ++ ++int __init led_init(void) ++{ ++ ++ /* Clear our memory */ ++ memset(modArr,0x00,sizeof(mod_entry_t *)*MAX_MOD_ID); ++ memset(led_arr,0x00,sizeof(led_data_t *)*MAX_LED_ID); ++ ++ /* Create spin lock for config data structure */ ++ config_lock=SPIN_LOCK_UNLOCKED; ++ ++ /* Create directory */ ++ led_proc_dir = proc_mkdir("led", NULL); ++ if( led_proc_dir == NULL ) ++ goto out; ++ ++ /* Create adsl file */ ++ led_file = create_proc_entry("led", 0777, led_proc_dir); ++ if( led_file == NULL) ++ goto led_file; ++ led_file->owner = THIS_MODULE; ++ led_file->proc_fops = &led_fops; ++ ++ memset( modArr , 0x00 , sizeof(mod_entry_t *) * MAX_MOD_ID); ++ /* Reset the GPIO pins */ ++ board_gpio_init(); ++ ++ /* Register the UART controlled LEDS */ ++ uart_led_init(); ++ /* Create the usb proc file */ ++ avalanche_leds_init(); ++ return 0; ++ ++ led_file: ++ remove_proc_entry("led",led_proc_dir); ++ out: ++ return 0; ++ ++} ++ ++void led_exit() ++{ ++ remove_proc_entry("led", led_proc_dir); ++} ++ ++module_init(led_init); ++module_exit(led_exit); ++ ++void register_led_drv( int device , led_reg_t *pInfo) ++{ ++ unsigned int flags; ++ struct timer_list *pTimer = NULL; ++ ++ spin_lock_irqsave(&config_lock, flags); ++ ++ led_arr[device].led = pInfo; ++ if( led_arr[device].led->init != 0x00) ++ led_arr[device].led->init(led_arr[device].led->param); ++ if( led_arr[device].led->offfunc != 0x00) ++ led_arr[device].led->offfunc(led_arr[device].led->param); ++ ++ /* Create a timer for blinking */ ++ pTimer = kmalloc(sizeof(struct timer_list),GFP_KERNEL); ++ init_timer( pTimer ); ++ pTimer->function = led_timer_func; ++ pTimer->data = 0; ++ led_arr[device].pTimer = pTimer; ++ led_arr[device].timer_running = 0; ++ ++ spin_unlock_irqrestore(&config_lock, flags); ++ ++ return; ++} ++ ++void deregister_led_drv( int device) ++{ ++ unsigned int flags; ++ ++ spin_lock_irqsave(&config_lock, flags); ++ led_arr[device].led = NULL; ++ ++ if( led_arr[device].pTimer != NULL) ++ { ++ del_timer(led_arr[device].pTimer); ++ kfree(led_arr[device].pTimer); ++ } ++ spin_unlock_irqrestore(&config_lock, flags); ++ ++ return; ++} ++ ++EXPORT_SYMBOL_NOVERS(led_operation); ++EXPORT_SYMBOL_NOVERS(register_led_drv); ++EXPORT_SYMBOL_NOVERS(deregister_led_drv); ++ +diff -urN linux.dev/drivers/char/avalanche_led/leds.c linux.dev2/drivers/char/avalanche_led/leds.c +--- linux.dev/drivers/char/avalanche_led/leds.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev2/drivers/char/avalanche_led/leds.c 2005-10-21 18:03:44.513777000 +0200 +@@ -0,0 +1,133 @@ ++#include <linux/config.h> ++#include <linux/init.h> ++#include <linux/delay.h> ++#include <asm/ar7/avalanche_regs.h> ++#include <linux/spinlock.h> ++#include <linux/timer.h> ++#include <linux/sched.h> ++#include <linux/module.h> ++#include <linux/proc_fs.h> ++#include <asm/uaccess.h> ++#include <linux/fs.h> ++ ++#include <asm/ar7/ledapp.h> ++ ++#if defined(CONFIG_AR5D01) || defined(CONFIG_AR5W01) || defined(CONFIG_AR7) ++ ++#define ETH_MASK 0x01 ++#define USB_MASK 0x02 ++ ++static struct proc_dir_entry *usb_file; ++static ssize_t proc_read_usb_fops(struct file *filp, ++ char *buf,size_t count , loff_t *offp); ++struct file_operations usb_fops = {read: proc_read_usb_fops}; ++ ++typedef struct mod_states{ ++ int module; ++ int activity; ++ int linkup; ++ int idle; ++}mod_states_t; ++ ++mod_states_t state_arr[] = { ++ { MOD_ETH,DEF_ETH_ACTIVITY,DEF_ETH_LINK_UP,DEF_ETH_IDLE }, ++ { MOD_USB,DEF_USB_ACTIVITY,DEF_USB_LINK_UP,DEF_USB_IDLE }, ++ { MOD_LAN,DEF_LAN_ACTIVITY,DEF_LAN_LINK_UP,DEF_LAN_IDLE } ++ }; ++ ++unsigned char device_links = 0; /* Bitmask with the devices that are up */ ++ ++ ++void avalanche_led_activity_pulse(unsigned long device) ++{ ++ /* If device link is not up return */ ++ if( !(device_links & (unsigned char)(1 << device))) ++ return; ++#ifdef MULTIPLEX_LED ++ led_operation( state_arr[2].module, state_arr[2].activity); ++#else ++ led_operation( state_arr[device].module, state_arr[device].activity); ++#endif ++} ++ ++void avalanche_led_link_up( unsigned long device ) ++{ ++ ++ /* If already UP ignore */ ++ if( device_links & (unsigned char)(1 << device)) ++ return; ++ /* Turn on the bit for the device */ ++ device_links |= (unsigned char)(1 << device); ++#ifdef MULTIPLEX_LED ++ led_operation( state_arr[2].module, state_arr[2].linkup); ++#else ++ led_operation( state_arr[device].module, state_arr[device].linkup); ++#endif ++} ++ ++void avalanche_led_link_down ( unsigned long device ) ++{ ++ ++ /* If already DOWN ignore */ ++ if( !(device_links & (unsigned char)(1 << device))) ++ return; ++ ++ /* Turn off the bit for the device */ ++ device_links &= ~(unsigned char)(1 << device); ++#ifdef MULTIPLEX_LED ++ /* If no links, then shut the LED off */ ++ if(!device_links) ++ led_operation( state_arr[2].module, state_arr[2].idle); ++#else ++ led_operation( state_arr[device].module, state_arr[device].idle); ++#endif ++} ++ ++static ssize_t proc_read_usb_fops(struct file *filp, ++ char *buf,size_t count , loff_t *offp) ++{ ++ char * pdata = NULL; ++ char line[3]; ++ if( *offp != 0 ) ++ return 0; ++ pdata = buf; ++ if( device_links & USB_MASK) ++ sprintf(line,"%s\n","1"); ++ else ++ sprintf(line,"%s\n","0"); ++ copy_to_user(pdata,line,2); ++ *offp = 2; ++ return 2; ++} ++ ++ ++void avalanche_leds_init(void) ++{ ++ /* Create usb link proc file */ ++ usb_file = create_proc_entry("avalanche/usb_link", 0444, NULL); ++ if( usb_file == NULL) ++ return; ++ usb_file->owner = THIS_MODULE; ++ usb_file->proc_fops = &usb_fops; ++ return; ++} ++ ++EXPORT_SYMBOL(avalanche_led_activity_pulse); ++EXPORT_SYMBOL(avalanche_led_link_up); ++EXPORT_SYMBOL(avalanche_led_link_down); ++ ++#else ++/* We make a dummy init routine for the platforms that do not support this led ++ API ++*/ ++ ++void avalanche_leds_init(void) ++{ ++} ++ ++#endif ++ ++ ++ ++ ++ +diff -urN linux.dev/drivers/char/avalanche_led/uartled.c linux.dev2/drivers/char/avalanche_led/uartled.c +--- linux.dev/drivers/char/avalanche_led/uartled.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev2/drivers/char/avalanche_led/uartled.c 2005-10-21 18:03:44.529778000 +0200 +@@ -0,0 +1,55 @@ ++#include <linux/kernel.h> ++#include <asm/uaccess.h> ++#include <linux/spinlock.h> ++#include <asm/ar7/avalanche_regs.h> ++#include <asm/ar7/ledapp.h> ++ ++#define UART_LED_REG (*(volatile unsigned int *)(UARTA_BASE + 0x10)) ++ ++static spinlock_t device_lock; ++led_reg_t temp1[2]; ++ ++static void uart_led_on(unsigned long param) ++{ ++ unsigned long flags; ++ ++ spin_lock_irqsave(&device_lock,flags); ++ UART_LED_REG &= 0xFFFD; ++ spin_unlock_irqrestore(&device_lock, flags); ++} ++ ++static void uart_led_off ( unsigned long param ) ++{ ++ unsigned int flags = 0x00; ++ spin_lock_irqsave(&device_lock, flags); ++ UART_LED_REG |= 0x02; ++ spin_unlock_irqrestore(&device_lock, flags); ++} ++ ++void uart_led_init(void) ++{ ++ ++#if defined(CONFIG_AR5D01) ++ /* Register led 6 UART Pin 1 */ ++ temp1[0].param = 0; ++ temp1[0].init = NULL; ++ temp1[0].onfunc = uart_led_on; ++ temp1[0].offfunc = uart_led_off; ++ register_led_drv( 6 , &temp1[0]); ++#endif ++ ++#if defined(CONFIG_AR5W01) ++ /* Register led 8 UART Pin 1 */ ++ temp1[0].param = 0; ++ temp1[0].init = NULL; ++ temp1[0].onfunc = uart_led_on; ++ temp1[0].offfunc = uart_led_off; ++ register_led_drv( 8 , &temp1[0]); ++#endif ++ ++ /* Initialize the link mask */ ++ device_lock = SPIN_LOCK_UNLOCKED; ++ ++ return; ++} ++ +diff -urN linux.dev/include/asm-mips/ar7/led_config.h linux.dev2/include/asm-mips/ar7/led_config.h +--- linux.dev/include/asm-mips/ar7/led_config.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev2/include/asm-mips/ar7/led_config.h 2005-10-21 17:02:25.568327000 +0200 +@@ -0,0 +1,55 @@ ++/****************************************************************************** ++ * FILE PURPOSE: - LED config Header ++ ****************************************************************************** ++ * FILE NAME: led_config.h ++ * ++ * DESCRIPTION: Header file for LED configuration parameters ++ * and data structures ++ * ++ * REVISION HISTORY: ++ * 11 Oct 03 - PSP TII ++ * ++ * (C) Copyright 2002, Texas Instruments, Inc ++ *******************************************************************************/ ++ ++ ++#ifndef __LED_CONFIG__ ++#define __LED_CONFIG__ ++ ++/* LED config parameters */ ++#define MAX_GPIO_PIN_NUM 64 ++#define MAX_GPIOS_PER_STATE 5 ++#define MAX_MODULE_ENTRIES 25 ++#define MAX_MODULE_INSTANCES 4 ++#define MAX_STATE_ENTRIES 25 ++#define MAX_LED_ENTRIES 25 ++ ++ ++/* LED modes */ ++#define LED_OFF 0 ++#define LED_ON 1 ++#define LED_ONESHOT_OFF 2 ++#define LED_ONESHOT_ON 3 ++#define LED_FLASH 4 ++#define LED_BLINK_CODE0 5 /*--- param1: on time, param2: blink nr , (param2 > 100 blink off) ---*/ ++#define LED_BLINK_CODE1 6 ++#define LED_BLINK_CODE2 7 ++ ++#define NUM_LED_MODES 8 ++ ++ ++ ++/* Data structure for LED configuration */ ++typedef struct led_config{ ++ unsigned char name[80]; ++ unsigned int instance; ++ unsigned int state; ++ unsigned int gpio[MAX_GPIOS_PER_STATE]; ++ unsigned int mode[MAX_GPIOS_PER_STATE]; ++ unsigned int gpio_num; ++ unsigned int param1; ++ unsigned int param2; ++}LED_CONFIG_T; ++ ++ ++#endif /* __LED_CONFIG__ */ +diff -urN linux.dev/include/asm-mips/ar7/led_hal.h linux.dev2/include/asm-mips/ar7/led_hal.h +--- linux.dev/include/asm-mips/ar7/led_hal.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev2/include/asm-mips/ar7/led_hal.h 2005-10-21 17:02:25.568327000 +0200 +@@ -0,0 +1,30 @@ ++/****************************************************************************** ++ * FILE PURPOSE: - LED HAL module Header ++ ****************************************************************************** ++ * FILE NAME: led_hal.h ++ * ++ * DESCRIPTION: LED HAL API's. ++ * ++ * REVISION HISTORY: ++ * 11 Oct 03 - PSP TII ++ * ++ * (C) Copyright 2002, Texas Instruments, Inc ++ *******************************************************************************/ ++ ++#ifndef __LED_HAL__ ++#define __LED_HAL__ ++ ++/* Interface prototypes */ ++#include "led_config.h" ++ ++int avalanche_led_hal_init (int *gpio_off_value, int num_gpio_pins); ++int avalanche_led_config_set (LED_CONFIG_T * led_cfg); ++int avalanche_led_config_get (LED_CONFIG_T *led_cfg,int module_id,int instance, int state); ++void *avalanche_led_register (const char *module_name, int instance_num); ++void avalanche_led_action (void *handle, int state_id); ++void avalanche_led_late_actions(void); ++int avalanche_led_unregister (void *handle); ++void avalanche_led_free_all(void); ++void avalanche_led_hal_exit (void); ++ ++#endif /*__LED_HAL__ */ +diff -urN linux.dev/include/asm-mips/ar7/ledapp.h linux.dev2/include/asm-mips/ar7/ledapp.h +--- linux.dev/include/asm-mips/ar7/ledapp.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev2/include/asm-mips/ar7/ledapp.h 2005-10-21 18:03:44.573780750 +0200 +@@ -0,0 +1,59 @@ ++#ifndef __LED_APP__ ++#define __LED_APP__ ++ ++#define CONF_FILE "/etc/led.conf" ++#define LED_PROC_FILE "/proc/led_mod/led" ++ ++#define CONFIG_LED_MODULE ++ ++#define MAX_MOD_ID 25 ++#define MAX_STATE_ID 25 ++#define MAX_LED_ID 25 ++ ++#define MOD_ADSL 1 ++#define DEF_ADSL_IDLE 1 ++#define DEF_ADSL_TRAINING 2 ++#define DEF_ADSL_SYNC 3 ++#define DEF_ADSL_ACTIVITY 4 ++ ++#define MOD_WAN 2 ++#define DEF_WAN_IDLE 1 ++#define DEF_WAN_NEGOTIATE 2 ++#define DEF_WAN_SESSION 3 ++ ++#define MOD_LAN 3 ++#define DEF_LAN_IDLE 1 ++#define DEF_LAN_LINK_UP 2 ++#define DEF_LAN_ACTIVITY 3 ++ ++#define MOD_WLAN 4 ++#define DEF_WLAN_IDLE 1 ++#define DEF_WLAN_LINK_UP 2 ++#define DEF_WLAN_ACTIVITY 3 ++ ++#define MOD_USB 5 ++#define DEF_USB_IDLE 1 ++#define DEF_USB_LINK_UP 2 ++#define DEF_USB_ACTIVITY 3 ++ ++#define MOD_ETH 6 ++#define DEF_ETH_IDLE 1 ++#define DEF_ETH_LINK_UP 2 ++#define DEF_ETH_ACTIVITY 3 ++ ++typedef struct config_elem{ ++ unsigned char name; ++ unsigned char state; ++ unsigned char mode; ++ unsigned char led; ++ int param; ++}config_elem_t; ++ ++typedef struct led_reg{ ++ unsigned int param; ++ void (*init)(unsigned long param); ++ void (*onfunc)(unsigned long param); ++ void (*offfunc)(unsigned long param); ++}led_reg_t; ++ ++#endif diff --git a/target/linux/ar7-2.4/patches/003-net_driver_cpmac.patch b/target/linux/ar7-2.4/patches/003-net_driver_cpmac.patch new file mode 100644 index 0000000000..42b64584da --- /dev/null +++ b/target/linux/ar7-2.4/patches/003-net_driver_cpmac.patch @@ -0,0 +1,13341 @@ +diff -urN linux.old/drivers/net/avalanche_cpmac/cpcommon_cpmac.c linux.dev/drivers/net/avalanche_cpmac/cpcommon_cpmac.c +--- linux.old/drivers/net/avalanche_cpmac/cpcommon_cpmac.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/cpcommon_cpmac.c 2005-07-12 02:48:41.996601000 +0200 +@@ -0,0 +1,728 @@ ++#ifndef _INC_CPCOMMON_C ++#define _INC_CPCOMMON_C ++ ++#ifdef _CPHAL_CPMAC ++#include "cpremap_cpmac.c" ++#endif ++ ++#ifdef _CPHAL_AAL5 ++#include "cpremap_cpaal5.c" ++#endif ++ ++#ifdef _CPHAL_CPSAR ++#include "cpremap_cpsar.c" ++#endif ++ ++#ifdef _CPHAL_AAL2 ++#include "cpremap_cpaal2.c" ++#endif ++ ++/** ++@defgroup Common_Config_Params Common Configuration Parameters ++ ++This section documents the configuration parameters that are valid across ++all CPHAL devices. ++@{ ++*/ ++/** This is the debug level. The field is bit defined, such that the user ++should set to 1 all the bits corresponding to desired debug outputs. The following ++are the meanings for each debug bit: ++- bit0 (LSB): CPHAL Function Trace ++- b1 : OS Function call trace ++- b2 : Critical section entry/exit ++- b3 : Memory allocation/destruction ++- b4 : Detailed information in Rx path ++- b5 : Detailed information in Tx path ++- b6 : Extended error information ++- b7 : General info ++*/ ++static const char pszDebug[] = "debug"; ++/** CPU Frequency. */ ++/*static const char pszCpuFreq[] = "CpuFreq";*/ /*MJH-030403*/ ++/** Base address for the module. */ ++static const char pszBase[] = "base"; ++/** Reset bit for the module. */ ++static const char pszResetBit[] = "reset_bit"; ++/** Reset base address for the module. */ ++static const char pszResetBase[] = "ResetBase"; ++/** Interrupt line for the module. */ ++static const char pszIntLine[] = "int_line"; ++/** VLYNQ offset for the module. Disregard if not using VLYNQ. */ ++static const char pszOffset[] = "offset"; ++/** The OS may "Get" this parameter, which is a pointer ++ to a character string that indicates the version of CPHAL. */ ++static const char pszVer[] = "Version"; ++/*@}*/ ++ ++/** ++@defgroup Common_Control_Params Common Keys for [os]Control() ++ ++This section documents the keys used with the OS @c Control() interface that ++are required by CPHAL devices. ++ ++@{ ++*/ ++/** Used to wait for an integer number of clock ticks, given as an integer ++ pointer in the @p Value parameter. No actions are defined. */ ++static const char pszSleep[] = "Sleep"; ++/** Requests the OS to flush it's IO buffers. No actions are defined. */ ++static const char pszSioFlush[] = "SioFlush"; ++/*@}*/ ++ ++static const char pszStateChange[] = "StateChange"; ++static const char pszStatus[] = "Status"; ++ ++static const char pszGET[] = "Get"; ++static const char pszSET[] = "Set"; ++static const char pszCLEAR[] = "Clear"; ++static const char pszNULL[] = ""; ++static const char pszLocator[] = "Locator"; ++static const char pszOff[] = "Off"; ++static const char pszOn[] = "On"; ++static const char hcMaxFrags[] = "MaxFrags"; ++ ++#ifdef _CPHAL_CPMAC ++ ++/* New method for string constants */ ++const char hcClear[] = "Clear"; ++const char hcGet[] = "Get"; ++const char hcSet[] = "Set"; ++ ++const char hcTick[] = "Tick"; ++ ++static const CONTROL_KEY KeyCommon[] = ++ { ++ {"" , enCommonStart}, ++ {pszStatus , enStatus}, ++ {pszOff , enOff}, ++ {pszOn , enOn}, ++ {pszDebug , enDebug}, ++ {hcCpuFrequency , enCpuFreq}, /*MJH~030403*/ ++ {"" , enCommonEnd} ++ }; ++#endif ++ ++/** ++@defgroup Common_Statistics Statistics ++ ++A broad array of module statistics is available. Statistics values are accessed ++through the @c Control() interface of the CPHAL. There are 5 different levels ++of statistics, each of which correspond to a unique set of data. Furthermore, ++certain statistics data is indexed by using a channel number and Tx queue number. ++The following is a brief description of each statistics level, along with the ++indexes used for the level: ++ ++- Level 0: Hardware Statistics (index with channel) ++- Level 1: CPHAL Software Statistics (channel, queue) ++- Level 2: CPHAL Flags (channel, queue) ++- Level 3: CPHAL Channel Configuration (channel) ++- Level 4: CPHAL General Configuration (no index) ++ ++The caller requests statistics information by providing a Key string to the ++@c Control() API in the following format: "Stats;[Level #];[Ch #];[Queue #]". ++The only valid Action parameter for statistics usage is "Get". ++ ++Code Examples: ++@code ++unsigned int *StatsData; ++ ++# Get Level 0 stats for Channel 1 ++HalFunc->Control(OsDev->HalDev, "Stats;0;1", "Get", &StatsData); ++ ++# Get Level 2 stats for Channel 0, Queue 0 ++HalFunc->Control(OsDev->HalDev, "Stats;2;0;0", "Get", &StatsData); ++ ++# Get Level 4 stats ++HalFunc->Control(OsDev->HalDev, "Stats;4", "Get", &StatsData); ++@endcode ++ ++The information returned in the Value parameter of @c Control() is an ++array of pointers to strings. The pointers are arranged in pairs. ++The first pointer is a pointer to a name string for a particular statistic. ++The next pointer is a pointer to a string containing the representation of ++the integer statistic value corresponding to the first pointer. This is followed ++by another pair of pointers, and so on, until a NULL pointer is encountered. The ++following is example code for processing the statistics data. Note that the OS ++is responsible for freeing the memory passed back through the Value parameter of ++@c Control(). ++ ++@code ++unsigned int *StatsData; ++ ++# Get Level 0 stats for Channel 1 ++HalFunc->Control(OsDev->HalDev, "Stats;0;1", "Get", &StatsData); ++ ++# output Statistics data ++PrintStats(StatsData); ++ ++# the upper layer is responsible for freeing stats info ++free(&StatsPtr); ++ ++... ++ ++void PrintStats(unsigned int *StatsPtr) ++ { ++ while(*StatsPtr) ++ { ++ printf("%20s:", (char *)*StatsPtr); ++ StatsPtr++; ++ printf("%11s\n", (char *)*StatsPtr); ++ StatsPtr++; ++ } ++ MySioFlush(); ++ } ++@endcode ++ ++Within each statistics level, there are several statistics defined. The statistics that ++are common to every CPPI module are listed below. In addition, each module may define ++extra statistics in each level, which will be documented within the module-specific ++documentation appendices. ++ ++- Level 0 Statistics ++ - All level 0 statistics are module-specific. ++- Level 1 Statistics (CPHAL Software Statistics) ++ - DmaLenErrors: Incremented when the port DMA's more data than expected (per channel). (AAL5 Only) ++ - TxMisQCnt: Incremented when host queues a packet for transmission as the port finishes ++transmitting the previous last packet in the queue (per channel and queue). ++ - RxMisQCnt: Incremented when host queues adds buffers to a queue as the port finished the ++reception of the previous last packet in the queue (per channel). ++ - TxEOQCnt: Number of times the port has reached the end of the transmit queue (per channel and queue). ++ - RxEOQCnt: Number of times the port has reached the end of the receive queue (per channel). ++ - RxPacketsServiced: Number of received packets (per channel). ++ - TxPacketsServiced: Number of transmitted packets (per channel and queue). ++ - RxMaxServiced: Maximum number of packets that the CPHAL receive interrupt has serviced at a time (per channel). ++ - TxMaxServiced: Maximum number of packets that the CPHAL transmit interrupt has serviced at a time (per channel and queue). ++ - RxTotal: Total number of received packets, all channels. ++ - TxTotal: Total number of transmitted packets, all channels and queues. ++- Level 2 Statistics (CPHAL Flags) ++ - RcbPool: Pointer to receive descriptor pool (per channel). ++ - RxActQueueCount: Number of buffers currently available for receive (per channel). ++ - RxActQueueHead: Pointer to first buffer in receive queue (per channel). ++ - RxActQueueTail: Pointer to last buffer in receive queue (per channel). ++ - RxActive: 0 if inactive (no buffers available), or 1 if active (buffers available). ++ - RcbStart: Pointer to block of receive descriptors. ++ - RxTeardownPending: 1 if Rx teardown is pending but incomplete, 0 otherwise. ++ - TcbPool: Pointer to transmit descriptor pool (per channel and queue). ++ - TxActQueueCount: Number of buffers currently queued to be transmitted (per channel and queue). ++ - TxActQueueHead: Pointer to first buffer in transmit queue (per channel and queue). ++ - TxActQueueTail: Pointer to last buffer in transmit queue (per channel and queue). ++ - TxActive: 0 if inactive (no buffers to send), or 1 if active (buffers queued to send). ++ - TcbStart: Pointer to block of transmit descriptors. ++ - TxTeardownPending: 1 if Tx teardown is pending but incomplete, 0 otherwise. ++- Level 3 Statistics (CPHAL Channel Configuration) ++ - RxBufSize: Rx buffer size. ++ - RxBufferOffset: Rx buffer offset. ++ - RxNumBuffers: Number of Rx buffers. ++ - RxServiceMax: Maximum number of receive packets to service at a time. ++ - TxNumBuffers: Number of Tx buffer descriptors. ++ - TxNumQueues: Number of Tx queues to use. ++ - TxServiceMax: Maximum number of transmit packets to service at a time. ++- Level 4 Statistics (CPHAL General Configuration) ++ - Base Address: Base address of the module. ++ - Offset (VLYNQ): VLYNQ relative module offset. ++ - Interrupt Line: Interrupt number. ++ - Debug: Debug flag, 1 to enable debug. ++ - Inst: Instance number. ++*/ ++ ++/* ++ Data Type 0 = int display ++ Data Type 1 = hex display ++ Data Type 2 = channel structure, int display ++ Data Type 3 = queue index and int display ++ Data Type 4 = queue index and hex display ++*/ ++#if (defined(_CPHAL_AAL5) || defined(_CPHAL_CPMAC)) /* +GSG 030307 */ ++static STATS_TABLE StatsTable0[] = ++ { ++#ifdef _CPHAL_AAL5 ++ /* Name , Data Ptr, Data Type */ ++ {"Crc Errors", 0, 0}, ++ {"Len Errors", 0, 0}, ++ {"Abort Errors", 0, 0}, ++ {"Starv Errors", 0, 0} ++#endif ++#ifdef _CPHAL_CPMAC ++ {"Rx Good Frames", 0, 0} ++#endif ++ }; ++ ++static STATS_TABLE StatsTable1[] = ++ { ++ /* Name , Data Ptr, Data Type */ ++ {"DmaLenErrors", 0, 0}, ++ {"TxMisQCnt", 0, 3}, ++ {"RxMisQCnt", 0, 0}, ++ {"TxEOQCnt", 0, 3}, ++ {"RxEOQCnt", 0, 0}, ++ {"RxPacketsServiced", 0, 0}, ++ {"TxPacketsServiced", 0, 3}, ++ {"RxMaxServiced", 0, 0}, ++ {"TxMaxServiced", 0, 3}, ++ {"RxTotal", 0, 0}, ++ {"TxTotal", 0, 0}, ++ }; ++ ++static STATS_TABLE StatsTable2[] = ++ { ++ /* Name , Data Ptr, Data Type */ ++ {"RcbPool", 0, 1}, ++ {"RxActQueueCount", 0, 0}, ++ {"RxActQueueHead", 0, 1}, ++ {"RxActQueueTail", 0, 1}, ++ {"RxActive", 0, 0}, ++ {"RcbStart", 0, 1}, ++ {"RxTeardownPending", 0, 0}, ++ {"TcbPool", 0, 4}, ++ {"TxActQueueCount", 0, 3}, ++ {"TxActQueueHead", 0, 4}, ++ {"TxActQueueTail", 0, 4}, ++ {"TxActive", 0, 3}, ++ {"TcbStart", 0, 4}, ++ {"TxTeardownPending", 0, 0} ++ }; ++ ++static STATS_TABLE StatsTable3[] = ++ { ++ /* Name , Data Ptr, Data Type */ ++ {"RxBufSize", 0, 2}, ++ {"RxBufferOffset", 0, 2}, ++ {"RxNumBuffers", 0, 2}, ++ {"RxServiceMax", 0, 2}, ++ {"TxNumBuffers", 0, 2}, ++ {"TxNumQueues", 0, 2}, ++ {"TxServiceMax", 0, 2}, ++#ifdef _CPHAL_AAL5 ++ {"CpcsUU", 0, 2}, ++ {"Gfc", 0, 2}, ++ {"Clp", 0, 2}, ++ {"Pti", 0, 2}, ++ {"DaMask", 0, 2}, ++ {"Priority", 0, 2}, ++ {"PktType", 0, 2}, ++ {"Vci", 0, 2}, ++ {"Vpi", 0, 2}, ++ {"CellRate", 0, 2}, ++ {"QosType", 0, 2}, ++ {"Mbs", 0, 2}, ++ {"Pcr", 0, 2} ++#endif ++ }; ++ ++static STATS_TABLE StatsTable4[] = ++ { ++ {"Base Address", 0, 1}, ++ {"Offset (VLYNQ)", 0, 0}, ++ {"Interrupt Line", 0, 0}, ++ {"Debug", 0, 0}, ++ {"Instance", 0, 0}, ++#ifdef _CPHAL_AAL5 ++ {"UniNni", 0, 0} ++#endif ++ }; ++ ++static STATS_DB StatsDb[] = ++ { ++ {(sizeof(StatsTable0)/sizeof(STATS_TABLE)), StatsTable0}, ++ {(sizeof(StatsTable1)/sizeof(STATS_TABLE)), StatsTable1}, ++ {(sizeof(StatsTable2)/sizeof(STATS_TABLE)), StatsTable2}, ++ {(sizeof(StatsTable3)/sizeof(STATS_TABLE)), StatsTable3}, ++ {(sizeof(StatsTable4)/sizeof(STATS_TABLE)), StatsTable4} ++ }; ++#endif /* +GSG 030307 */ ++ ++#ifdef _CPHAL_CPMAC /* +RC 3.02 */ ++static void resetWait(HAL_DEVICE *HalDev) ++ { /*+RC3.02*/ ++ const int TickReset=64; ++ osfuncSleep((int*)&TickReset); ++ } /*+RC3.02*/ ++#endif /* +RC 3.02 */ ++ ++/* I only define the reset base function for the modules ++ that can perform a reset. The AAL5 and AAL2 modules ++ do not perform a reset, that is done by the shared module ++ CPSAR */ ++#if defined(_CPHAL_CPSAR) || defined(_CPHAL_CPMAC) || defined(_CPHAL_VDMAVT) ++/* ++ * Determines the reset register address to be used for a particular device. ++ * It will search the current device entry for Locator information. If the ++ * device is a root device, there will be no Locator information, and the ++ * function will find and return the root reset register. If a Locator value ++ * is found, the function will search each VLYNQ device entry in the system ++ * looking for a matching Locator. Once it finds a VLYNQ device entry with ++ * a matching Locator, it will extract the "ResetBase" parameter from that ++ * VLYNQ device entry (thus every VLYNQ entry must have the ResetBase parameter). ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * @param ResetBase Pointer to integer address of reset register. ++ * ++ * @return 0 OK, Non-zero not OK ++ */ ++static int ResetBaseGet(HAL_DEVICE *HalDev, bit32u *ResetBase) ++ { ++ char *DeviceInfo = HalDev->DeviceInfo; ++ char *MyLocator, *NextLocator; ++ int Inst=1; ++ bit32u error_code; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpcommon]ResetBaseGet(HalDev:%08x, ResetBase:%08x)\n", (bit32u)HalDev, ResetBase); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ error_code = HalDev->OsFunc->DeviceFindParmValue(DeviceInfo, "Locator", &MyLocator); ++ if (error_code) ++ { ++ /* if no Locator value, device is on the root, so get the "reset" device */ ++ error_code = HalDev->OsFunc->DeviceFindInfo(0, "reset", &DeviceInfo); ++ if (error_code) ++ { ++ return(EC_VAL_DEVICE_NOT_FOUND); ++ } ++ ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, "base", ResetBase); ++ if (error_code) ++ { ++ return(EC_VAL_BASE_ADDR_NOT_FOUND); ++ } ++ ++ *ResetBase = ((bit32u)PhysToVirtNoCache(*ResetBase)); ++ ++ /* found base address for root device, so we're done */ ++ return (EC_NO_ERRORS); ++ } ++ else ++ { ++ /* we have a Locator value, so the device is remote */ ++ ++ /* Find a vlynq device with a matching locator value */ ++ while ((HalDev->OsFunc->DeviceFindInfo(Inst, "vlynq", &DeviceInfo)) == EC_NO_ERRORS) ++ { ++ error_code = HalDev->OsFunc->DeviceFindParmValue(DeviceInfo, "Locator", &NextLocator); ++ if (error_code) ++ { ++ /* no Locator value for this VLYNQ, so move on */ ++ continue; ++ } ++ if (HalDev->OsFunc->Strcmpi(MyLocator, NextLocator)==0) ++ { ++ /* we have found a VLYNQ with a matching Locator, so extract the ResetBase */ ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, "ResetBase", ResetBase); ++ if (error_code) ++ { ++ return(EC_VAL_BASE_ADDR_NOT_FOUND); ++ } ++ *ResetBase = ((bit32u)PhysToVirtNoCache(*ResetBase)); ++ ++ /* found base address for root device, so we're done */ ++ return (EC_NO_ERRORS); ++ } ++ Inst++; ++ } /* while */ ++ } /* else */ ++ ++ return (EC_NO_ERRORS); ++ } ++#endif ++ ++#ifndef _CPHAL_AAL2 /* + RC 3.02 */ ++static bit32u ConfigGetCommon(HAL_DEVICE *HalDev) ++ { ++ bit32u ParmValue; ++ bit32 error_code; ++ char *DeviceInfo = HalDev->DeviceInfo; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpcommon]ConfigGetCommon(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, pszBase, &ParmValue); ++ if (error_code) ++ { ++ return(EC_FUNC_HAL_INIT|EC_VAL_BASE_ADDR_NOT_FOUND); ++ } ++ HalDev->dev_base = ((bit32u)PhysToVirtNoCache(ParmValue)); ++ ++#ifndef _CPHAL_AAL5 ++#ifndef _CPHAL_AAL2 ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, pszResetBit, &ParmValue); ++ if(error_code) ++ { ++ return(EC_FUNC_HAL_INIT|EC_VAL_RESET_BIT_NOT_FOUND); ++ } ++ HalDev->ResetBit = ParmValue; ++ ++ /* Get reset base address */ ++ error_code = ResetBaseGet(HalDev, &ParmValue); ++ if (error_code) ++ return(EC_FUNC_HAL_INIT|EC_VAL_RESET_BASE_NOT_FOUND); ++ HalDev->ResetBase = ParmValue; ++#endif ++#endif ++ ++#ifndef _CPHAL_CPSAR ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, pszIntLine,&ParmValue); ++ if (error_code) ++ { ++ return(EC_FUNC_HAL_INIT|EC_VAL_INTERRUPT_NOT_FOUND); ++ } ++ HalDev->interrupt = ParmValue; ++#endif ++ ++ /* only look for the offset if there is a Locator field, which indicates that ++ the module is a VLYNQ module */ ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, pszLocator,&ParmValue); ++ if (!error_code) ++ { ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, pszOffset,&ParmValue); ++ if (error_code) ++ { ++ return(EC_FUNC_HAL_INIT|EC_VAL_OFFSET_NOT_FOUND); ++ } ++ HalDev->offset = ParmValue; ++ } ++ else ++ HalDev->offset = 0; ++ ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, pszDebug, &ParmValue); ++ if (!error_code) HalDev->debug = ParmValue; ++ ++ return (EC_NO_ERRORS); ++ } ++#endif /* +RC 3.02 */ ++ ++#ifdef _CPHAL_CPMAC /* +RC 3.02 */ ++static void StatsInit(HAL_DEVICE *HalDev) /* +() RC3.02 */ ++ { ++ /* even though these statistics may be for multiple channels and ++ queues, i need only configure the pointer to the beginning ++ of the array, and I can index from there if necessary */ ++ ++#ifdef _CPHAL_AAL5 ++ StatsTable0[0].StatPtr = &HalDev->Stats.CrcErrors[0]; ++ StatsTable0[1].StatPtr = &HalDev->Stats.LenErrors[0]; ++ StatsTable0[2].StatPtr = &HalDev->Stats.AbortErrors[0]; ++ StatsTable0[3].StatPtr = &HalDev->Stats.StarvErrors[0]; ++ ++ StatsTable1[0].StatPtr = &HalDev->Stats.DmaLenErrors[0]; ++ StatsTable1[1].StatPtr = &HalDev->Stats.TxMisQCnt[0][0]; ++ StatsTable1[2].StatPtr = &HalDev->Stats.RxMisQCnt[0]; ++ StatsTable1[3].StatPtr = &HalDev->Stats.TxEOQCnt[0][0]; ++ StatsTable1[4].StatPtr = &HalDev->Stats.RxEOQCnt[0]; ++ StatsTable1[5].StatPtr = &HalDev->Stats.RxPacketsServiced[0]; ++ StatsTable1[6].StatPtr = &HalDev->Stats.TxPacketsServiced[0][0]; ++ StatsTable1[7].StatPtr = &HalDev->Stats.RxMaxServiced; ++ StatsTable1[8].StatPtr = &HalDev->Stats.TxMaxServiced[0][0]; ++ StatsTable1[9].StatPtr = &HalDev->Stats.RxTotal; ++ StatsTable1[10].StatPtr = &HalDev->Stats.TxTotal; ++#endif ++ ++#if (defined(_CPHAL_AAL5) || defined(_CPHAL_CPMAC)) ++ StatsTable2[0].StatPtr = (bit32u *)&HalDev->RcbPool[0]; ++ StatsTable2[1].StatPtr = &HalDev->RxActQueueCount[0]; ++ StatsTable2[2].StatPtr = (bit32u *)&HalDev->RxActQueueHead[0]; ++ StatsTable2[3].StatPtr = (bit32u *)&HalDev->RxActQueueTail[0]; ++ StatsTable2[4].StatPtr = &HalDev->RxActive[0]; ++ StatsTable2[5].StatPtr = (bit32u *)&HalDev->RcbStart[0]; ++ StatsTable2[6].StatPtr = &HalDev->RxTeardownPending[0]; ++ StatsTable2[7].StatPtr = (bit32u *)&HalDev->TcbPool[0][0]; ++ StatsTable2[8].StatPtr = &HalDev->TxActQueueCount[0][0]; ++ StatsTable2[9].StatPtr = (bit32u *)&HalDev->TxActQueueHead[0][0]; ++ StatsTable2[10].StatPtr = (bit32u *)&HalDev->TxActQueueTail[0][0]; ++ StatsTable2[11].StatPtr = &HalDev->TxActive[0][0]; ++ StatsTable2[12].StatPtr = (bit32u *)&HalDev->TcbStart[0][0]; ++ StatsTable2[13].StatPtr = &HalDev->TxTeardownPending[0]; ++ ++ StatsTable3[0].StatPtr = &HalDev->ChData[0].RxBufSize; ++ StatsTable3[1].StatPtr = &HalDev->ChData[0].RxBufferOffset; ++ StatsTable3[2].StatPtr = &HalDev->ChData[0].RxNumBuffers; ++ StatsTable3[3].StatPtr = &HalDev->ChData[0].RxServiceMax; ++ StatsTable3[4].StatPtr = &HalDev->ChData[0].TxNumBuffers; ++ StatsTable3[5].StatPtr = &HalDev->ChData[0].TxNumQueues; ++ StatsTable3[6].StatPtr = &HalDev->ChData[0].TxServiceMax; ++#ifdef _CPHAL_AAL5 ++ StatsTable3[7].StatPtr = &HalDev->ChData[0].CpcsUU; ++ StatsTable3[8].StatPtr = &HalDev->ChData[0].Gfc; ++ StatsTable3[9].StatPtr = &HalDev->ChData[0].Clp; ++ StatsTable3[10].StatPtr = &HalDev->ChData[0].Pti; ++ StatsTable3[11].StatPtr = &HalDev->ChData[0].DaMask; ++ StatsTable3[12].StatPtr = &HalDev->ChData[0].Priority; ++ StatsTable3[13].StatPtr = &HalDev->ChData[0].PktType; ++ StatsTable3[14].StatPtr = &HalDev->ChData[0].Vci; ++ StatsTable3[15].StatPtr = &HalDev->ChData[0].Vpi; ++ StatsTable3[16].StatPtr = &HalDev->ChData[0].TxVc_CellRate; ++ StatsTable3[17].StatPtr = &HalDev->ChData[0].TxVc_QosType; ++ StatsTable3[18].StatPtr = &HalDev->ChData[0].TxVc_Mbs; ++ StatsTable3[19].StatPtr = &HalDev->ChData[0].TxVc_Pcr; ++#endif ++#endif ++ ++ StatsTable4[0].StatPtr = &HalDev->dev_base; ++ StatsTable4[1].StatPtr = &HalDev->offset; ++ StatsTable4[2].StatPtr = &HalDev->interrupt; ++ StatsTable4[3].StatPtr = &HalDev->debug; ++ StatsTable4[4].StatPtr = &HalDev->Inst; ++ } ++#endif /* +RC 3.02 */ ++ ++#ifndef _CPHAL_CPSAR /* +RC 3.02 */ ++#ifndef _CPHAL_AAL2 /* +RC 3.02 */ ++/* ++ * Returns statistics information. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * ++ * @return 0 ++ */ ++static int StatsGet(HAL_DEVICE *HalDev, void **StatPtr, int Index, int Ch, int Queue) ++ { ++ int Size; ++ bit32u *AddrPtr; ++ char *DataPtr; ++ STATS_TABLE *StatsTable; ++ int i, NumberOfStats; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpcommon]StatsGet(HalDev:%08x, StatPtr:%08x)\n", ++ (bit32u)HalDev, (bit32u)StatPtr); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ StatsTable = StatsDb[Index].StatTable; ++ NumberOfStats = StatsDb[Index].NumberOfStats; ++ ++ Size = sizeof(bit32u)*((NumberOfStats*2)+1); ++ Size += (NumberOfStats*11); ++ *StatPtr = (bit32u *)HalDev->OsFunc->Malloc(Size); ++ ++ AddrPtr = (bit32u *) *StatPtr; ++ DataPtr = (char *)AddrPtr; ++ DataPtr += sizeof(bit32u)*((NumberOfStats*2)+1); ++ ++ for (i=0; i<NumberOfStats; i++) ++ { ++ *AddrPtr++ = (bit32u)StatsTable[i].StatName; ++ *AddrPtr++ = (bit32u)DataPtr; ++ if (&StatsTable[i].StatPtr[Ch] != 0) ++ { ++ switch(StatsTable[i].DataType) ++ { ++ case 0: ++ HalDev->OsFunc->Sprintf(DataPtr, "%d", (bit32u *)StatsTable[i].StatPtr[Ch]); ++ break; ++ case 1: ++ HalDev->OsFunc->Sprintf(DataPtr, "0x%x", (bit32u *)StatsTable[i].StatPtr[Ch]); ++ break; ++ case 2: ++ HalDev->OsFunc->Sprintf(DataPtr, "%d", *((bit32u *)StatsTable[i].StatPtr + (Ch * (sizeof(CHANNEL_INFO)/4)))); ++ break; ++ case 3: ++ HalDev->OsFunc->Sprintf(DataPtr, "%d", *((bit32u *)StatsTable[i].StatPtr + (Ch*MAX_QUEUE)+Queue)); ++ break; ++ case 4: ++ HalDev->OsFunc->Sprintf(DataPtr, "0x%x", *((bit32u *)StatsTable[i].StatPtr + (Ch*MAX_QUEUE)+Queue)); ++ break; ++ default: ++ /* invalid data type, due to CPHAL programming error */ ++ break; ++ } ++ } ++ else ++ { ++ /* invalid statistics pointer, probably was not initialized */ ++ } ++ DataPtr += HalDev->OsFunc->Strlen(DataPtr) + 1; ++ } ++ ++ *AddrPtr = (bit32u) 0; ++ ++ return (EC_NO_ERRORS); ++ } ++#endif /* +RC 3.02 */ ++#endif /* +RC 3.02 */ ++ ++#ifdef _CPHAL_CPMAC ++static void gpioFunctional(int base, int bit) ++ { /*+RC3.02*/ ++ bit32u GpioEnr = base + 0xC; ++ /* To make functional, set to zero */ ++ *(volatile bit32u *)(GpioEnr) &= ~(1 << bit); /*+RC3.02*/ ++ } /*+RC3.02*/ ++ ++ ++/*+RC3.02*/ ++/* Common function, Checks to see if GPIO should be in functional mode */ ++static void gpioCheck(HAL_DEVICE *HalDev, void *moduleDeviceInfo) ++ { /*+RC3.02*/ ++ int rc; ++ void *DeviceInfo; ++ char *pszMuxBits; ++ char pszMuxBit[20]; ++ char *pszTmp; ++ char szMuxBit[20]; ++ char *ptr; ++ int base; ++ int reset_bit; ++ int bit; ++ OS_FUNCTIONS *OsFunc = HalDev->OsFunc; ++ ++ rc = OsFunc->DeviceFindParmValue(moduleDeviceInfo, "gpio_mux",&pszTmp); ++ if(rc) return; ++ /* gpio entry found, get GPIO register info and make functional */ ++ ++ /* temp copy until FinParmValue fixed */ ++ ptr = &szMuxBit[0]; ++ while ((*ptr++ = *pszTmp++)); ++ ++ pszMuxBits = &szMuxBit[0]; ++ ++ rc = OsFunc->DeviceFindInfo(0,"gpio",&DeviceInfo); ++ if(rc) return; ++ ++ rc = OsFunc->DeviceFindParmUint(DeviceInfo, "base",&base); ++ if(rc) return; ++ ++ rc = OsFunc->DeviceFindParmUint(DeviceInfo, "reset_bit",&reset_bit); ++ if(rc) return; ++ ++ /* If GPIO still in reset, then exit */ ++ if((VOLATILE32(HalDev->ResetBase) & (1 << reset_bit)) == 0) ++ return; ++ /* format for gpio_mux is gpio_mux = <int>;<int>;<int>...*/ ++ while (*pszMuxBits) ++ { ++ pszTmp = &pszMuxBit[0]; ++ if(*pszMuxBits == ';') pszMuxBits++; ++ while ((*pszMuxBits != ';') && (*pszMuxBits != '\0')) ++ { ++ osfuncSioFlush(); ++ /*If value not a number, skip */ ++ if((*pszMuxBits < '0') || (*pszMuxBits > '9')) ++ pszMuxBits++; ++ else ++ *pszTmp++ = *pszMuxBits++; ++ } ++ *pszTmp = '\0'; ++ bit = OsFunc->Strtoul(pszMuxBit, &pszTmp, 10); ++ gpioFunctional(base, bit); ++ resetWait(HalDev); /* not sure if this is needed */ ++ } ++ } /*+RC3.02*/ ++#endif /* CPMAC */ ++ ++#ifdef _CPHAL_AAL5 ++const char hcSarFrequency[] = "SarFreq"; ++#endif ++ ++#endif /* _INC */ +diff -urN linux.old/drivers/net/avalanche_cpmac/cpcommon_cpmac.h linux.dev/drivers/net/avalanche_cpmac/cpcommon_cpmac.h +--- linux.old/drivers/net/avalanche_cpmac/cpcommon_cpmac.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/cpcommon_cpmac.h 2005-07-12 02:48:41.996601000 +0200 +@@ -0,0 +1,79 @@ ++#ifndef _INC_CPCOMMON_H ++#define _INC_CPCOMMON_H ++ ++#define VOLATILE32(addr) (*(volatile bit32u *)(addr)) ++#ifndef dbgPrintf ++#define dbgPrintf HalDev->OsFunc->Printf ++#endif ++ ++#define ChannelUpdate(Field) if(HalChn->Field != 0xFFFFFFFF) HalDev->ChData[Ch].Field = HalChn->Field ++ ++#define DBG(level) (HalDev->debug & (1<<(level))) ++/* ++#define DBG0() DBG(0) ++#define DBG1() DBG(1) ++#define DBG2() DBG(2) ++#define DBG3() DBG(3) ++#define DBG4() DBG(4) ++#define DBG5() DBG(5) ++#define DBG6() DBG(6) ++#define DBG7() DBG(7) ++*/ ++ ++/* ++ * List of defined actions for use with Control(). ++ */ ++typedef enum ++ { ++ enGET=0, /**< Get the value associated with a key */ ++ enSET, /**< Set the value associates with a key */ ++ enCLEAR, /**<Clear the value */ ++ enNULL /**< No data action, used to initiate a service or send a message */ ++ }ACTION; ++ ++/* ++ * Enumerated hardware states. ++ */ ++typedef enum ++ { ++ enConnected=1, enDevFound, enInitialized, enOpened ++ }DEVICE_STATE; ++ ++typedef enum ++ { ++ enCommonStart=0, ++ /* General */ ++ enOff, enOn, enDebug, ++ /* Module General */ ++ enCpuFreq, ++ enStatus, ++ enCommonEnd ++ }COMMON_KEY; ++ ++typedef struct ++ { ++ const char *strKey; ++ int enKey; ++ }CONTROL_KEY; ++ ++typedef struct ++ { ++ char *StatName; ++ unsigned int *StatPtr; ++ int DataType; /* 0: int, 1: hex int, 2:channel data */ ++ }STATS_TABLE; ++ ++typedef struct ++ { ++ int NumberOfStats; ++ STATS_TABLE *StatTable; ++ }STATS_DB; ++ ++#define osfuncSioFlush() HalDev->OsFunc->Control(HalDev->OsDev,"SioFlush",pszNULL,0) ++#define osfuncSleep(Ticks) HalDev->OsFunc->Control(HalDev->OsDev,pszSleep,pszNULL,Ticks) ++#define osfuncStateChange() HalDev->OsFunc->Control(HalDev->OsDev,pszStateChange,pszNULL,0) ++ ++#define CHANNEL_NAMES {"Ch0","Ch1","Ch2","Ch3","Ch4","Ch5","Ch6","Ch7","Ch8","Ch9","Ch10","Ch11","Ch12","Ch13","Ch14","Ch15"} ++ ++#endif ++ +diff -urN linux.old/drivers/net/avalanche_cpmac/cpmac.c linux.dev/drivers/net/avalanche_cpmac/cpmac.c +--- linux.old/drivers/net/avalanche_cpmac/cpmac.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/cpmac.c 2005-07-22 01:03:12.609318544 +0200 +@@ -0,0 +1,2504 @@ ++/****************************************************************************** ++ * FILE PURPOSE: CPMAC Linux Network Device Driver Source ++ ****************************************************************************** ++ * FILE NAME: cpmac.c ++ * ++ * DESCRIPTION: CPMAC Network Device Driver Source ++ * ++ * REVISION HISTORY: ++ * ++ * Date Description Author ++ *----------------------------------------------------------------------------- ++ * 27 Nov 2002 Initial Creation Suraj S Iyer ++ * 09 Jun 2003 Updates for GA Suraj S Iyer ++ * 30 Sep 2003 Updates for LED, Reset stats Suraj S Iyer ++ * ++ * (C) Copyright 2003, Texas Instruments, Inc ++ *******************************************************************************/ ++#include <linux/kernel.h> ++#include <linux/module.h> ++#include <linux/init.h> ++#include <linux/netdevice.h> ++#include <linux/etherdevice.h> ++#include <linux/delay.h> ++#include <linux/spinlock.h> ++#include <linux/proc_fs.h> ++#include <linux/ioport.h> ++#include <asm/io.h> ++ ++#include <linux/skbuff.h> ++ ++#include <asm/mips-boards/prom.h> ++#include <linux/string.h> ++#include <asm/uaccess.h> ++#include <linux/config.h> ++#include <asm/ar7/if_port.h> ++ ++extern void build_psp_config(void); ++extern void psp_config_cleanup(void); ++ ++#include "cpmacHalLx.h" ++#include "cpmac.h" ++ ++static struct net_device *last_cpmac_device = NULL; ++static int cpmac_devices_installed = 0; ++ ++void xdump( u_char* cp, int length, char* prefix ); ++ ++unsigned int cpmac_cpu_freq = 0; ++ ++char cpmac_version[] = "1.5"; ++ ++char l3_align_array[] = {0x02, 0x01, 0x00, 0x03}; ++#define L3_ALIGN(i) l3_align_array[i] ++ ++char add_for_4byte_align[] = {0x04, 0x03, 0x02, 0x05}; ++#define ADD_FOR_4BYTE_ALIGN(i) add_for_4byte_align[i] ++ ++ ++#define TPID 0x8100 ++#define IS_802_1Q_FRAME(byte_ptr) (*(unsigned short*)byte_ptr == TPID) ++#define TPID_START_OFFSET 12 ++#define TCI_START_OFFSET 14 ++#define TCI_LENGTH 2 ++#define TPID_LENGTH 2 ++#define TPID_END_OFFSET (TPID_START_OFFSET + TPID_LENGTH) ++#define TCI_END_OFFSET (TCI_START_OFFSET + TCI_LENGTH) ++#define IS_VALID_VLAN_ID(byte_ptr) ((*(unsigned short*)byte_ptr) && 0xfff != 0) ++#define MAX_CLASSES 8 ++#define MAX_USER_PRIORITY 8 ++#define CONTROL_802_1Q_SIZE (TCI_LENGTH + TPID_LENGTH) ++ ++unsigned char user_priority_to_traffic_class_map[MAX_CLASSES][MAX_USER_PRIORITY] = ++{ ++ {0, 0, 0, 1, 1, 1, 1, 2}, ++ {0, 0, 0, 0, 0, 0, 0, 0}, ++ {0, 0, 0, 0, 0, 0, 0, 1}, ++ {0, 0, 0, 1, 1, 2, 2, 3}, ++ {0, 1, 1, 2, 2, 3, 3, 4}, ++ {0, 1, 1, 2, 3, 4, 4, 5}, ++ {0, 1, 2, 3, 4, 5, 5, 6}, ++ {0, 1, 2, 3, 4, 5, 6, 7} ++}; ++ ++#define GET_802_1P_CHAN(x,y) user_priority_to_traffic_class_map[x][(y & 0xe0)] ++ ++#if defined(CONFIG_MIPS_SEAD2) ++unsigned long temp_base_address[2] = {0xa8610000, 0xa8612800}; ++unsigned long temp_reset_value[2] = { 1<< 17,1<<21}; ++#define RESET_REG_PRCR (*(volatile unsigned int *)((0xa8611600 + 0x0))) ++#define VERSION(base) (*(volatile unsigned int *)(((base)|0xa0000000) + 0x0)) ++#endif ++ ++MODULE_AUTHOR("Maintainer: Suraj S Iyer <ssiyer@ti.com>"); ++MODULE_DESCRIPTION("Driver for TI CPMAC"); ++ ++static int cfg_link_speed = 0; ++MODULE_PARM(cfg_link_speed, "i"); ++MODULE_PARM_DESC(cfg_link_speed, "Fixed speed of the Link: <100/10>"); ++ ++static char *cfg_link_mode = NULL; ++MODULE_PARM(cfg_link_mode, "1-3s"); ++MODULE_PARM_DESC(cfg_link_mode, "Fixed mode of the Link: <fd/hd>"); ++ ++int cpmac_debug_mode = 0; ++MODULE_PARM(debug_mode, "i"); ++MODULE_PARM_DESC(debug_mode, "Turn on the debug info: <0/1>. Default is 0 (off)"); ++ ++#define dbgPrint if (cpmac_debug_mode) printk ++#define errPrint printk ++ ++static int g_cfg_start_link_params = CFG_START_LINK_SPEED; ++static int g_init_enable_flag = 0; ++static int cfg_start_link_speed; ++static int cpmac_max_frame_size; ++ ++static struct net_device *g_dev_array[2]; ++static struct proc_dir_entry *gp_stats_file = NULL; ++ ++//----------------------------------------------------------------------------- ++// Statistics related private functions. ++//----------------------------------------------------------------------------- ++static int cpmac_p_update_statistics(struct net_device *p_dev, char *buf, int limit, int *len); ++static int cpmac_p_read_rfc2665_stats(char *buf, char **start, off_t offset, int count, int *eof, void *data); ++static int cpmac_p_read_link(char *buf, char **start, off_t offset, int count, int *eof, void *data); ++static int cpmac_p_read_stats(char* buf, char **start, off_t offset, int count, int *eof, void *data); ++static int cpmac_p_write_stats (struct file *fp, const char * buf, unsigned long count, void * data); ++static int cpmac_p_reset_statistics (struct net_device *p_dev); ++static int cpmac_p_get_version(char *buf, char **start, off_t offset, int count, int *eof, void *data); ++ ++static int cpmac_p_detect_manual_cfg(int, char*, int); ++static int cpmac_p_process_status_ind(CPMAC_PRIVATE_INFO_T *p_cpmac_priv); ++ ++//----------------------------------------------------------------------------- ++// Timer related private functions. ++//----------------------------------------------------------------------------- ++static int cpmac_p_timer_init(CPMAC_PRIVATE_INFO_T *p_cpmac_priv); ++// static int cpmac_timer_cleanup(CPMAC_PRIVATE_INFO_T *p_cpmac_priv); ++static void cpmac_p_tick_timer_expiry(unsigned long p_cb_param); ++inline static int cpmac_p_start_timer(struct timer_list *p_timer, unsigned int delay_ticks); ++static int cpmac_p_stop_timer(struct timer_list *p_timer); ++ ++//------------------------------------------------------------------------------ ++// Device configuration and setup related private functions. ++//------------------------------------------------------------------------------ ++static int cpmac_p_probe_and_setup_device(CPMAC_PRIVATE_INFO_T *p_cpmac_priv, unsigned long *p_dev_flags); ++static int cpmac_p_setup_driver_params(CPMAC_PRIVATE_INFO_T *p_cpmac_priv); ++inline static int cpmac_p_rx_buf_setup(CPMAC_RX_CHAN_INFO_T *p_rx_chan); ++ ++//----------------------------------------------------------------------------- ++// Net device related private functions. ++//----------------------------------------------------------------------------- ++static int cpmac_dev_init(struct net_device *p_dev); ++static int cpmac_dev_open( struct net_device *dev ); ++static int cpmac_dev_close(struct net_device *p_dev); ++static void cpmac_dev_mcast_set(struct net_device *p_dev); ++static int cpmac_dev_set_mac_addr(struct net_device *p_dev,void * addr); ++static int cpmac_dev_tx( struct sk_buff *skb, struct net_device *p_dev); ++static struct net_device_stats *cpmac_dev_get_net_stats (struct net_device *dev); ++ ++static int cpmac_p_dev_enable( struct net_device *p_dev); ++ ++ ++ ++/* Max. Reserved headroom in front of each packet so that the headers can be added to ++ * a packet. Worst case scenario would be PPPoE + 2684 LLC Encapsulation + Ethernet ++ * header. */ ++#define MAX_RESERVED_HEADROOM 20 ++ ++/* This is the MAX size of the static buffer for pure data. */ ++#define MAX_SIZE_STATIC_BUFFER 1600 ++ ++typedef struct DRIVER_BUFFER ++{ ++ /* Pointer to the allocated data buffer. This is the static data buffer ++ * allocated for the TI-Cache. 60 bytes out of the below buffer are required ++ * by the SKB shared info. We always reserve at least MAX_RESERVED_HEADROOM bytes ++ * so that the packets always have sufficient headroom. */ ++ char ptr_buffer[MAX_SIZE_STATIC_BUFFER + MAX_RESERVED_HEADROOM + 60]; ++ ++ /* List of the driver buffers. */ ++ struct DRIVER_BUFFER* ptr_next; ++}DRIVER_BUFFER; ++ ++typedef struct DRIVER_BUFFER_MCB ++{ ++ /* List of the driver buffers. */ ++ DRIVER_BUFFER* ptr_available_driver_buffers; ++ ++ /* The number of available buffers. */ ++ int num_available_buffers; ++}DRIVER_BUFFER_MCB; ++ ++DRIVER_BUFFER_MCB driver_mcb; ++int hybrid_mode = 0; ++ ++static union { ++ struct sk_buff_head list; ++ char pad[SMP_CACHE_BYTES]; ++} skb_head_pool[NR_CPUS]; ++ ++/************************************************************************** ++ * FUNCTION NAME : ti_release_skb ++ ************************************************************************** ++ * DESCRIPTION : ++ * This function is called from the ti_alloc_skb when there were no more ++ * data buffers available. The allocated SKB had to released back to the ++ * data pool. The reason why this function was moved from the fast path ++ * below was because '__skb_queue_head' is an inline function which adds ++ * a large code chunk on the fast path. ++ * ++ * NOTES : ++ * This function is called with interrupts disabled. ++ **************************************************************************/ ++static void ti_release_skb (struct sk_buff_head* list, struct sk_buff* skb) ++{ ++ __skb_queue_head(list, skb); ++ return; ++} ++ ++/************************************************************************** ++ * FUNCTION NAME : ti_alloc_skb ++ ************************************************************************** ++ * DESCRIPTION : ++ * The function is called to allocate memory from the static allocated ++ * TI-Cached memory pool. ++ * ++ * RETURNS : ++ * Allocated static memory buffer - Success ++ * NULL - Error. ++ **************************************************************************/ ++struct sk_buff *ti_alloc_skb(unsigned int size,int gfp_mask) ++{ ++ register struct sk_buff* skb; ++ unsigned long flags; ++ struct sk_buff_head* list; ++ DRIVER_BUFFER* ptr_node = NULL; ++ ++ /* Critical Section Begin: Lock out interrupts. */ ++ local_irq_save(flags); ++ ++ /* Get the SKB Pool list associated with the processor and dequeue the head. */ ++ list = &skb_head_pool[smp_processor_id()].list; ++ skb = __skb_dequeue(list); ++ ++ /* Align the data size. */ ++ size = SKB_DATA_ALIGN(size); ++ ++ /* Did we get one. */ ++ if (skb != NULL) ++ { ++ /* YES. Now get a data block from the head of statically allocated block. */ ++ ptr_node = driver_mcb.ptr_available_driver_buffers; ++ if (ptr_node != NULL) ++ { ++ /* YES. Got a data block. Advance the free list pointer to the next available buffer. */ ++ driver_mcb.ptr_available_driver_buffers = ptr_node->ptr_next; ++ ptr_node->ptr_next = NULL; ++ ++ /* Decrement the number of available data buffers. */ ++ driver_mcb.num_available_buffers = driver_mcb.num_available_buffers - 1; ++ } ++ else ++ { ++ /* NO. Was unable to get a data block. So put the SKB back on the free list. ++ * This is slow path. */ ++#ifdef DEBUG_SKB ++ printk ("DEBUG: No Buffer memory available: Number of free buffer:%d.\n", ++ driver_mcb.num_available_buffers); ++#endif ++ ti_release_skb (list, skb); ++ } ++ } ++ ++ /* Critical Section End: Unlock interrupts. */ ++ local_irq_restore(flags); ++ ++ /* Did we get an SKB and data buffer. Proceed only if we were succesful in getting both else drop */ ++ if (skb != NULL && ptr_node != NULL) ++ { ++ /* XXX: does not include slab overhead */ ++ skb->truesize = size + sizeof(struct sk_buff); ++ ++ /* Load the data pointers. */ ++ skb->head = ptr_node->ptr_buffer; ++ skb->data = ptr_node->ptr_buffer + MAX_RESERVED_HEADROOM; ++ skb->tail = ptr_node->ptr_buffer + MAX_RESERVED_HEADROOM; ++ skb->end = ptr_node->ptr_buffer + size + MAX_RESERVED_HEADROOM; ++ ++ /* Set up other state */ ++ skb->len = 0; ++ skb->cloned = 0; ++ skb->data_len = 0; ++ ++ /* Mark the SKB indicating that the SKB is from the TI cache. */ ++ skb->cb[45] = 1; ++ ++ atomic_set(&skb->users, 1); ++ atomic_set(&(skb_shinfo(skb)->dataref), 1); ++ skb_shinfo(skb)->nr_frags = 0; ++ skb_shinfo(skb)->frag_list = NULL; ++ return skb; ++ } ++ else ++ { ++ /* Control comes here only when there is no statically allocated data buffers ++ * available. This case is handled using the mode selected ++ * ++ * 1. Hybrid Mode. ++ * In that case lets jump to the old allocation code. This way we ++ * can allocate a small number of data buffers upfront and the rest will hit ++ * this portion of the code, which is slow path. Note the number of hits here ++ * should be kept as low as possible to satisfy performance requirements. ++ * ++ * 2. Pure Static Mode. ++ * Return NULL the user should have tuned the number of static buffers for ++ * worst case scenario. So return NULL and let the drivers handle the error. */ ++ if (hybrid_mode == 1) ++ { ++ /* Hybrid Mode: Old allocation. */ ++ return dev_alloc_skb(size); ++ } ++ else ++ { ++ /* Pure Static Mode: No buffers available. */ ++ return NULL; ++ } ++ } ++} ++ ++/************************************************************************** ++ * FUNCTION NAME : ti_skb_release_fragment ++ ************************************************************************** ++ * DESCRIPTION : ++ * This function is called to release fragmented packets. This is NOT in ++ * the fast path and this function requires some work. ++ **************************************************************************/ ++static void ti_skb_release_fragment(struct sk_buff *skb) ++{ ++ if (skb_shinfo(skb)->nr_frags) ++ { ++ /* PANKAJ TODO: This portion has not been tested. */ ++ int i; ++#ifdef DEBUG_SKB ++ printk ("DEBUG: Releasing fragments in TI-Cached code.\n"); ++#endif ++ for (i = 0; i < skb_shinfo(skb)->nr_frags; i++) ++ printk ("DEBUG: Fragmented Page = 0x%p.\n", skb_shinfo(skb)->frags[i].page); ++ } ++ ++ /* Check if there were any fragments present and if so clean all the SKB's. ++ * This is required to recursivly clean the SKB's. */ ++ if (skb_shinfo(skb)->frag_list) ++ skb_drop_fraglist(skb); ++ ++ return; ++} ++ ++/************************************************************************** ++ * FUNCTION NAME : ti_skb_release_data ++ ************************************************************************** ++ * DESCRIPTION : ++ * The function is called to release the SKB back into the TI-Cached static ++ * memory pool. ++ **************************************************************************/ ++static void ti_skb_release_data(struct sk_buff *skb) ++{ ++ DRIVER_BUFFER* ptr_node; ++ unsigned long flags; ++ ++ /* The SKB data can be cleaned only if the packet has not been cloned and we ++ * are the only one holding a reference to the data. */ ++ if (!skb->cloned || atomic_dec_and_test(&(skb_shinfo(skb)->dataref))) ++ { ++ /* Are there any fragments associated with the SKB ?*/ ++ if ((skb_shinfo(skb)->nr_frags != 0) || (skb_shinfo(skb)->frag_list != NULL)) ++ { ++ /* Slow Path: Try and clean up the fragments. */ ++ ti_skb_release_fragment (skb); ++ } ++ ++ /* Cleanup the SKB data memory. This is fast path. */ ++ ptr_node = (DRIVER_BUFFER *)skb->head; ++ ++ /* Critical Section: Lock out interrupts. */ ++ local_irq_save(flags); ++ ++ /* Add the data buffer to the list of available buffers. */ ++ ptr_node->ptr_next = driver_mcb.ptr_available_driver_buffers; ++ driver_mcb.ptr_available_driver_buffers = ptr_node; ++ ++ /* Increment the number of available data buffers. */ ++ driver_mcb.num_available_buffers = driver_mcb.num_available_buffers + 1; ++ ++ /* Criticial Section: Unlock interrupts. */ ++ local_irq_restore(flags); ++ } ++ return; ++} ++ ++ ++ ++ ++static unsigned char str2hexnum(unsigned char c) ++{ ++ if(c >= '0' && c <= '9') ++ return c - '0'; ++ if(c >= 'a' && c <= 'f') ++ return c - 'a' + 10; ++ if(c >= 'A' && c <= 'F') ++ return c - 'A' + 10; ++ return 0; ++} ++ ++static void str2eaddr(unsigned char *ea, unsigned char *str) ++{ ++ int i; ++ unsigned char num; ++ for(i = 0; i < 6; i++) { ++ if((*str == '.') || (*str == ':')) ++ str++; ++ num = str2hexnum(*str++) << 4; ++ num |= (str2hexnum(*str++)); ++ ea[i] = num; ++ } ++} ++ ++//----------------------------------------------------------------------------- ++// Statistics related private functions. ++//----------------------------------------------------------------------------- ++static int cpmac_p_update_statistics(struct net_device *p_dev, char *buf, int limit, int *p_len) ++{ ++ int ret_val = -1; ++ unsigned long rx_hal_errors = 0; ++ unsigned long rx_hal_discards = 0; ++ unsigned long tx_hal_errors = 0; ++ unsigned long ifOutDiscards = 0; ++ unsigned long ifInDiscards = 0; ++ unsigned long ifOutErrors = 0; ++ unsigned long ifInErrors = 0; ++ ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv = p_dev->priv; ++ CPMAC_DRV_HAL_INFO_T *p_drv_hal = p_cpmac_priv->drv_hal; ++ CPMAC_DEVICE_MIB_T *p_device_mib = p_cpmac_priv->device_mib; ++ CPMAC_DRV_STATS_T *p_stats = p_cpmac_priv->stats; ++ CPMAC_DEVICE_MIB_T local_mib; ++ CPMAC_DEVICE_MIB_T *p_local_mib = &local_mib; ++ ++ struct net_device_stats *p_net_dev_stats = &p_cpmac_priv->net_dev_stats; ++ ++ int len = 0; ++ int dev_mib_elem_count = 0; ++ ++ /* do not access the hardware if it is in the reset state. */ ++ if(!test_bit(0, &p_cpmac_priv->set_to_close)) ++ { ++ if(p_drv_hal->hal_funcs->Control(p_drv_hal->hal_dev, "StatsDump", "Get", ++ p_local_mib) != 0) ++ { ++ errPrint("The stats dump for %s is failing.\n", p_dev->name); ++ return(ret_val); ++ } ++ ++ p_drv_hal->hal_funcs->Control(p_drv_hal->hal_dev, "StatsClear", "Set", NULL); ++ ++ dev_mib_elem_count = sizeof(CPMAC_DEVICE_MIB_T)/sizeof(unsigned long); ++ ++ /* Update the history of the stats. This takes care of any reset of the ++ * device and stats that might have taken place during the life time of ++ * the driver. ++ */ ++ while(dev_mib_elem_count--) ++ { ++ *((unsigned long*) p_device_mib + dev_mib_elem_count) += ++ *((unsigned long*) p_local_mib + dev_mib_elem_count); ++ } ++ } ++ ++ /* RFC2665, section 3.2.7, page 9 */ ++ rx_hal_errors = p_device_mib->ifInFragments + ++ p_device_mib->ifInCRCErrors + ++ p_device_mib->ifInAlignCodeErrors + ++ p_device_mib->ifInJabberFrames; ++ ++ /* RFC2233 */ ++ rx_hal_discards = p_device_mib->ifRxDMAOverruns; ++ ++ /* RFC2665, section 3.2.7, page 9 */ ++ tx_hal_errors = p_device_mib->ifExcessiveCollisionFrames + ++ p_device_mib->ifLateCollisions + ++ p_device_mib->ifCarrierSenseErrors + ++ p_device_mib->ifOutUnderrun; ++ ++ /* if not set, the short frames (< 64 bytes) are considered as errors */ ++ if(!p_cpmac_priv->flags & IFF_PRIV_SHORT_FRAMES) ++ rx_hal_errors += p_device_mib->ifInUndersizedFrames; ++ ++ /* if not set, the long frames ( > 1518) are considered as errors ++ * RFC2665, section 3.2.7, page 9. */ ++ if(!p_cpmac_priv->flags & IFF_PRIV_JUMBO_FRAMES) ++ rx_hal_errors += p_device_mib->ifInOversizedFrames; ++ ++ /* if not in promiscous, then non addr matching frames are discarded */ ++ /* CPMAC 2.0 Manual Section 2.8.1.14 */ ++ if(!p_dev->flags & IFF_PROMISC) ++ { ++ ifInDiscards += p_device_mib->ifInFilteredFrames; ++ } ++ ++ /* total rx discards = hal discards + driver discards. */ ++ ifInDiscards = rx_hal_discards + p_net_dev_stats->rx_dropped; ++ ifInErrors = rx_hal_errors; ++ ++ ifOutErrors = tx_hal_errors; ++ ifOutDiscards = p_net_dev_stats->tx_dropped; ++ ++ /* Let us update the net device stats struct. To be updated in the later releases.*/ ++ p_cpmac_priv->net_dev_stats.rx_errors = ifInErrors; ++ p_cpmac_priv->net_dev_stats.collisions = p_device_mib->ifCollisionFrames; ++ ++ if(buf == NULL || limit == 0) ++ { ++ return(0); ++ } ++ ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %ld\n", "ifSpeed", (long)p_cpmac_priv->link_speed); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "dot3StatsDuplexStatus", (long)p_cpmac_priv->link_mode); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifAdminStatus", (long)(p_dev->flags & IFF_UP ? 1:2)); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifOperStatus", (long)(((p_dev->flags & IFF_UP) && netif_carrier_ok(p_dev)) ? 1:2)); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifLastChange", p_stats->start_tick); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifInDiscards", ifInDiscards); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifInErrors", ifInErrors); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifOutDiscards", ifOutDiscards); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifOutErrors", ifOutErrors); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifInGoodFrames", p_device_mib->ifInGoodFrames); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifInBroadcasts", p_device_mib->ifInBroadcasts); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifInMulticasts", p_device_mib->ifInMulticasts); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifInPauseFrames", p_device_mib->ifInPauseFrames); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifInCRCErrors", p_device_mib->ifInCRCErrors); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifInAlignCodeErrors", p_device_mib->ifInAlignCodeErrors); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifInOversizedFrames", p_device_mib->ifInOversizedFrames); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifInJabberFrames", p_device_mib->ifInJabberFrames); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifInUndersizedFrames", p_device_mib->ifInUndersizedFrames); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifInFragments", p_device_mib->ifInFragments); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifInFilteredFrames", p_device_mib->ifInFilteredFrames); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifInQosFilteredFrames", p_device_mib->ifInQosFilteredFrames); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifInOctets", p_device_mib->ifInOctets); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifOutGoodFrames", p_device_mib->ifOutGoodFrames); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifOutBroadcasts", p_device_mib->ifOutBroadcasts); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifOutMulticasts", p_device_mib->ifOutMulticasts); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifOutPauseFrames", p_device_mib->ifOutPauseFrames); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifDeferredTransmissions", p_device_mib->ifDeferredTransmissions); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifCollisionFrames", p_device_mib->ifCollisionFrames); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifSingleCollisionFrames", p_device_mib->ifSingleCollisionFrames); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifMultipleCollisionFrames", p_device_mib->ifMultipleCollisionFrames); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifExcessiveCollisionFrames", p_device_mib->ifExcessiveCollisionFrames); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifLateCollisions", p_device_mib->ifLateCollisions); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifOutUnderrun", p_device_mib->ifOutUnderrun); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifCarrierSenseErrors", p_device_mib->ifCarrierSenseErrors); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifOutOctets", p_device_mib->ifOutOctets); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "if64OctetFrames", p_device_mib->if64OctetFrames); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "if65To127POctetFrames", p_device_mib->if65To127OctetFrames); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "if128To255OctetFrames", p_device_mib->if128To255OctetFrames); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "if256To511OctetFrames", p_device_mib->if256To511OctetFrames); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "if512To1023OctetFrames", p_device_mib->if512To1023OctetFrames); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "if1024ToUpOctetFrames", p_device_mib->if1024ToUPOctetFrames); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifNetOctets", p_device_mib->ifNetOctets); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifRxSofOverruns", p_device_mib->ifRxSofOverruns); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifRxMofOverruns", p_device_mib->ifRxMofOverruns); ++ if(len <= limit) ++ len+= sprintf(buf + len, "%-35s: %lu\n", "ifRxDMAOverruns", p_device_mib->ifRxDMAOverruns); ++ ++ *p_len = len; ++ ++ return(0); ++} ++ ++ ++static int cpmac_p_read_rfc2665_stats(char* buf, char **start, off_t offset, ++ int count, int *eof, void *data) ++{ ++ int limit = count - 80; ++ int len = 0; ++ struct net_device *p_dev = (struct net_device*)data; ++ ++ cpmac_p_update_statistics(p_dev, buf, limit, &len); ++ ++ *eof = 1; ++ ++ return len; ++} ++ ++static int cpmac_p_read_link(char *buf, char **start, off_t offset, int count, ++ int *eof, void *data) ++{ ++ int len = 0; ++ ++ struct net_device *p_dev; ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv; ++ struct net_device *cpmac_dev_list[cpmac_devices_installed]; ++ CPMAC_DRV_HAL_INFO_T *p_drv_hal; ++ ++ int i; ++ int phy; /* what phy are we using? */ ++ ++ len += sprintf(buf+len, "CPMAC devices = %d\n",cpmac_devices_installed); ++ ++ p_dev = last_cpmac_device; ++ ++ /* Reverse the the device link list to list eth0,eth1...in correct order */ ++ for(i=0; i< cpmac_devices_installed; i++) ++ { ++ cpmac_dev_list[cpmac_devices_installed -(i+1)] = p_dev; ++ p_cpmac_priv = p_dev->priv; ++ p_dev = p_cpmac_priv->next_device; ++ } ++ ++ for(i=0; i< cpmac_devices_installed; i++) ++ { ++ p_dev = cpmac_dev_list[i]; ++ p_cpmac_priv = p_dev->priv; ++ p_drv_hal = p_cpmac_priv->drv_hal; ++ ++ /* This prints them out from high to low because of how the devices are linked */ ++ if(netif_carrier_ok(p_dev)) ++ { ++ p_drv_hal->hal_funcs->Control(p_drv_hal->hal_dev, "PhyNum", "Get", &phy); ++ ++ ++ len += sprintf(buf+len,"eth%d: Link State: %s Phy:0x%x, Speed = %s, Duplex = %s\n", ++ p_cpmac_priv->instance_num, "UP", phy, ++ (p_cpmac_priv->link_speed == 100000000) ? "100":"10", ++ (p_cpmac_priv->link_mode == 2) ? "Half":"Full"); ++ ++ } ++ else ++ len += sprintf(buf+len,"eth%d: Link State: DOWN\n",p_cpmac_priv->instance_num); ++ ++ p_dev = p_cpmac_priv->next_device; ++ } ++ ++ return len; ++ ++} ++ ++static int cpmac_p_read_stats(char* buf, char **start, off_t offset, int count, ++ int *eof, void *data) ++{ ++ struct net_device *p_dev = last_cpmac_device; ++ int len = 0; ++ int limit = count - 80; ++ int i; ++ struct net_device *cpmac_dev_list[cpmac_devices_installed]; ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv; ++ CPMAC_DEVICE_MIB_T *p_device_mib; ++ ++ /* Reverse the the device link list to list eth0,eth1...in correct order */ ++ for(i=0; i< cpmac_devices_installed; i++) ++ { ++ cpmac_dev_list[cpmac_devices_installed - (i+1)] = p_dev; ++ p_cpmac_priv = p_dev->priv; ++ p_dev = p_cpmac_priv->next_device; ++ } ++ ++ for(i=0; i< cpmac_devices_installed; i++) ++ { ++ p_dev = cpmac_dev_list[i]; ++ ++ if(!p_dev) ++ goto proc_error; ++ ++ /* Get Stats */ ++ cpmac_p_update_statistics(p_dev, NULL, 0, NULL); ++ ++ p_cpmac_priv = p_dev->priv; ++ p_device_mib = p_cpmac_priv->device_mib; ++ ++ /* Transmit stats */ ++ if(len<=limit) ++ len+= sprintf(buf+len, "\nCpmac %d, Address %lx\n",i+1, p_dev->base_addr); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Transmit Stats\n"); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Tx Valid Bytes Sent :%lu\n",p_device_mib->ifOutOctets); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Good Tx Frames (Hardware) :%lu\n",p_device_mib->ifOutGoodFrames); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Good Tx Frames (Software) :%lu\n",p_cpmac_priv->net_dev_stats.tx_packets); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Good Tx Broadcast Frames :%lu\n",p_device_mib->ifOutBroadcasts); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Good Tx Multicast Frames :%lu\n",p_device_mib->ifOutMulticasts); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Pause Frames Sent :%lu\n",p_device_mib->ifOutPauseFrames); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Collisions :%lu\n",p_device_mib->ifCollisionFrames); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Tx Error Frames :%lu\n",p_cpmac_priv->net_dev_stats.tx_errors); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Carrier Sense Errors :%lu\n",p_device_mib->ifCarrierSenseErrors); ++ if(len<=limit) ++ len+= sprintf(buf+len, "\n"); ++ ++ ++ /* Receive Stats */ ++ if(len<=limit) ++ len+= sprintf(buf+len, "\nCpmac %d, Address %lx\n",i+1,p_dev->base_addr); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Receive Stats\n"); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Rx Valid Bytes Received :%lu\n",p_device_mib->ifInOctets); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Good Rx Frames (Hardware) :%lu\n",p_device_mib->ifInGoodFrames); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Good Rx Frames (Software) :%lu\n",p_cpmac_priv->net_dev_stats.rx_packets); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Good Rx Broadcast Frames :%lu\n",p_device_mib->ifInBroadcasts); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Good Rx Multicast Frames :%lu\n",p_device_mib->ifInMulticasts); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Pause Frames Received :%lu\n",p_device_mib->ifInPauseFrames); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Rx CRC Errors :%lu\n",p_device_mib->ifInCRCErrors); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Rx Align/Code Errors :%lu\n",p_device_mib->ifInAlignCodeErrors); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Rx Jabbers :%lu\n",p_device_mib->ifInOversizedFrames); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Rx Filtered Frames :%lu\n",p_device_mib->ifInFilteredFrames); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Rx Fragments :%lu\n",p_device_mib->ifInFragments); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Rx Undersized Frames :%lu\n",p_device_mib->ifInUndersizedFrames); ++ if(len<=limit) ++ len+= sprintf(buf+len, " Rx Overruns :%lu\n",p_device_mib->ifRxDMAOverruns); ++ } ++ ++ ++ return len; ++ ++ proc_error: ++ *eof=1; ++ return len; ++} ++ ++static int cpmac_p_write_stats (struct file *fp, const char * buf, unsigned long count, void * data) ++{ ++ char local_buf[31]; ++ int ret_val = 0; ++ ++ if(count > 30) ++ { ++ printk("Error : Buffer Overflow\n"); ++ printk("Use \"echo 0 > cpmac_stat\" to reset the statistics\n"); ++ return -EFAULT; ++ } ++ ++ copy_from_user(local_buf,buf,count); ++ local_buf[count-1]='\0'; /* Ignoring last \n char */ ++ ret_val = count; ++ ++ if(strcmp("0",local_buf)==0) ++ { ++ struct net_device *p_dev = last_cpmac_device; ++ int i; ++ struct net_device *cpmac_dev_list[cpmac_devices_installed]; ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv; ++ ++ /* Valid command */ ++ printk("Resetting statistics for CPMAC interface.\n"); ++ ++ /* Reverse the the device link list to list eth0,eth1...in correct order */ ++ for(i=0; i< cpmac_devices_installed; i++) ++ { ++ cpmac_dev_list[cpmac_devices_installed - (i+1)] = p_dev; ++ p_cpmac_priv = p_dev->priv; ++ p_dev = p_cpmac_priv->next_device; ++ } ++ ++ for(i=0; i< cpmac_devices_installed; i++) ++ { ++ p_dev = cpmac_dev_list[i]; ++ if(!p_dev) ++ { ++ ret_val = -EFAULT; ++ break; ++ } ++ ++ cpmac_p_reset_statistics(p_dev); ++ } ++ } ++ else ++ { ++ printk("Error: Unknown operation on cpmac statistics\n"); ++ printk("Use \"echo 0 > cpmac_stats\" to reset the statistics\n"); ++ return -EFAULT; ++ } ++ ++ return ret_val; ++} ++ ++static int cpmac_p_reset_statistics(struct net_device *p_dev) ++{ ++ int ret_val = 0; ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv = p_dev->priv; ++ CPMAC_DRV_HAL_INFO_T *p_drv_hal = p_cpmac_priv->drv_hal; ++ ++ memset(p_cpmac_priv->device_mib, 0, sizeof(CPMAC_DEVICE_MIB_T)); ++ memset(p_cpmac_priv->stats, 0, sizeof(CPMAC_DRV_STATS_T)); ++ memset(&p_cpmac_priv->net_dev_stats, 0, sizeof(struct net_device_stats)); ++ ++ p_drv_hal->hal_funcs->Control(p_drv_hal->hal_dev, "StatsClear", "Set", NULL); ++ ++ return(ret_val); ++} ++ ++static int cpmac_p_get_version(char* buf, char **start, off_t offset, int count,int *eof, void *data) ++{ ++ int len = 0; ++ int limit = count - 80; ++ char *hal_version = NULL; ++ struct net_device *p_dev = last_cpmac_device; ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv = p_dev->priv; ++ CPMAC_DRV_HAL_INFO_T *p_drv_hal = p_cpmac_priv->drv_hal; ++ ++ p_drv_hal->hal_funcs->Control(p_drv_hal->hal_dev, "Version", "Get", &hal_version); ++ ++ len += sprintf(buf+len, "Texas Instruments CPMAC driver version: %s\n", cpmac_version); ++ ++ if(len <= limit && hal_version) ++ len += sprintf(buf+len, "Texas Instruments CPMAC HAL version: %s\n", hal_version); ++ ++ return len; ++} ++ ++static struct net_device_stats *cpmac_dev_get_net_stats (struct net_device *p_dev) ++{ ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv = (CPMAC_PRIVATE_INFO_T *) p_dev->priv; ++ ++ cpmac_p_update_statistics(p_dev, NULL, 0, NULL); ++ ++ return &p_cpmac_priv->net_dev_stats; ++} ++ ++static int cpmac_p_detect_manual_cfg(int link_speed, char* link_mode, int debug) ++{ ++ char *pSpeed = NULL; ++ ++ if(debug == 1) ++ { ++ cpmac_debug_mode = 1; ++ dbgPrint("Enabled the debug print.\n"); ++ } ++ ++ if(!link_speed && !link_mode) ++ { ++ dbgPrint("No manual link params, defaulting to auto negotiation.\n"); ++ return (0); ++ } ++ ++ if(!link_speed || (link_speed != 10 && link_speed != 100)) ++ { ++ dbgPrint("Invalid or No value of link speed specified, defaulting to auto speed.\n"); ++ pSpeed = "auto"; ++ } ++ else if(link_speed == 10) ++ { ++ g_cfg_start_link_params &= ~(_CPMDIO_100); ++ pSpeed = "10 Mbps"; ++ } ++ else ++ { ++ g_cfg_start_link_params &= ~(_CPMDIO_10); ++ pSpeed = "100 Mbps"; ++ } ++ ++ if(!link_mode || (!strcmp(link_mode, "fd") && !strcmp(link_mode, "hd"))) ++ { ++ dbgPrint("Invalid or No value of link mode specified, defaulting to auto mode.\n"); ++ } ++ else if(!strcmp(link_mode, "hd")) ++ { ++ g_cfg_start_link_params &= ~(_CPMDIO_FD); ++ } ++ else ++ { ++ g_cfg_start_link_params &= ~(_CPMDIO_HD); ++ } ++ ++ dbgPrint("Link is manually set to the speed of %s speed and %s mode.\n", ++ pSpeed, link_mode ? link_mode : "auto"); ++ ++ return(0); ++} ++ ++//------------------------------------------------------------------------------ ++// Call back from the HAL. ++//------------------------------------------------------------------------------ ++static int cpmac_p_process_status_ind(CPMAC_PRIVATE_INFO_T *p_cpmac_priv) ++{ ++ struct net_device *p_dev = p_cpmac_priv->owner; ++ CPMAC_DRV_HAL_INFO_T *p_drv_hal = p_cpmac_priv->drv_hal; ++ int status; ++ ++ p_drv_hal->hal_funcs->Control(p_drv_hal->hal_dev, "Status", "Get", &status); ++ ++ /* We do not reflect the real link status if in loopback. ++ * After all, we want the packets to reach the hardware so ++ * that Send() should work. */ ++ if(p_dev->flags & IFF_LOOPBACK) ++ { ++ dbgPrint("Maintaining the link up loopback for %s.\n", p_dev->name); ++ netif_carrier_on(p_dev); ++ ++//#if defined (CONFIG_MIPS_AVALANCHE_LED) ++// avalanche_led_action(p_cpmac_priv->led_handle, CPMAC_LINK_ON); ++//#endif ++ ++ return(0); ++ } ++ ++ if(status & CPMAC_STATUS_ADAPTER_CHECK) /* ???? */ ++ { ++ ; /* what to do ? */ ++ } ++ else if(status) ++ { ++ if(!netif_carrier_ok(p_dev)) ++ { ++ netif_carrier_on(p_cpmac_priv->owner); ++ ++//#if defined (CONFIG_MIPS_AVALANCHE_LED) ++// avalanche_led_action(p_cpmac_priv->led_handle, CPMAC_LINK_ON); ++//#endif ++ dbgPrint("Found the Link for the CPMAC instance %s.\n", p_dev->name); ++ } ++ ++ if(netif_running(p_dev) & netif_queue_stopped(p_dev)) ++ { ++ netif_wake_queue(p_dev); ++ } ++ ++ p_cpmac_priv->link_speed = status & CPMAC_STATUS_LINK_SPEED ? 100000000:10000000; ++ p_cpmac_priv->link_mode = status & CPMAC_STATUS_LINK_DUPLEX? 3:2; ++ ++ } ++ else ++ { ++ if(netif_carrier_ok(p_dev)) ++ { ++ /* do we need to register synchronization issues with stats here. */ ++ p_cpmac_priv->link_speed = 100000000; ++ p_cpmac_priv->link_mode = 1; ++ ++ netif_carrier_off(p_dev); ++ ++//#if defined (CONFIG_MIPS_AVALANCHE_LED) ++// avalanche_led_action(p_cpmac_priv->led_handle, CPMAC_LINK_OFF); ++//#endif ++ ++ dbgPrint("Lost the Link for the CPMAC for %s.\n", p_dev->name); ++ } ++ ++ if(!netif_queue_stopped(p_dev)) ++ { ++ netif_stop_queue(p_dev); /* So that kernel does not keep on xmiting pkts. */ ++ } ++ } ++ ++ return(0); ++} ++ ++//----------------------------------------------------------------------------- ++// Timer related private functions. ++//----------------------------------------------------------------------------- ++static int cpmac_p_timer_init(CPMAC_PRIVATE_INFO_T *p_cpmac_priv) ++{ ++ struct timer_list *p_timer = p_cpmac_priv->timer; ++ ++ init_timer(p_timer); ++ ++ p_timer = p_cpmac_priv->timer + TICK_TIMER; ++ p_timer->expires = 0; ++ p_timer->data = (unsigned long)p_cpmac_priv; ++ p_timer->function = cpmac_p_tick_timer_expiry; ++ ++ return(0); ++} ++ ++#if 0 ++static int cpmac_timer_cleanup(CPMAC_PRIVATE_INFO_T *p_cpmac_priv) ++{ ++ struct timer_list *p_timer; ++ ++ p_timer = p_cpmac_priv->timer + TICK_TIMER; ++ ++ /* use spin lock to establish synchronization with the dispatch */ ++ if(p_timer->function) del_timer_sync(p_timer); ++ p_timer->function = NULL; ++ ++ return (0); ++} ++#endif ++ ++static int cpmac_p_start_timer(struct timer_list *p_timer, unsigned int delay_ticks) ++{ ++ p_timer->expires = jiffies + delay_ticks; ++ ++ if(p_timer->function) ++ { ++ add_timer(p_timer); ++ } ++ ++ return(0); ++} ++ ++static void cpmac_p_tick_timer_expiry(unsigned long p_cb_param) ++{ ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv = (CPMAC_PRIVATE_INFO_T*) p_cb_param; ++ CPMAC_DRV_HAL_INFO_T *p_drv_hal = p_cpmac_priv->drv_hal; ++ struct timer_list *p_timer = p_cpmac_priv->timer + TICK_TIMER; ++ ++ if(test_bit(0, &p_cpmac_priv->set_to_close)) ++ { ++ return; ++ } ++ ++ p_drv_hal->hal_funcs->Tick(p_drv_hal->hal_dev); ++ ++ cpmac_p_start_timer(p_timer, p_cpmac_priv->delay_ticks); ++} ++ ++static int cpmac_p_stop_timer(struct timer_list *p_timer) ++{ ++ /* Ideally we need to a set flag indicating not to start the timer again ++ before del_timer_sync() is called up. But here we assume that the ++ caller has set the p_cpmac_priv->set_to_close (ok for now). */ ++ del_timer_sync(p_timer); ++ ++ return(0); ++} ++ ++//------------------------------------------------------------------------------ ++// Device configuration and setup related private functions. ++//------------------------------------------------------------------------------ ++static int cpmac_p_probe_and_setup_device(CPMAC_PRIVATE_INFO_T *p_cpmac_priv, ++ unsigned long *p_dev_flags) ++{ ++ CPMAC_DRV_HAL_INFO_T *p_drv_hal = p_cpmac_priv->drv_hal; ++ HAL_FUNCTIONS *p_hal_funcs = p_drv_hal->hal_funcs; ++ HAL_DEVICE *p_hal_dev = p_drv_hal->hal_dev; ++ CPMAC_ABILITY_INFO_T *p_capability= p_cpmac_priv->ability_info; ++ unsigned int val = 0; ++ int channel = 0; ++ ++ p_cpmac_priv->flags = 0; ++ ++ p_capability->promiscous = CFG_PROMISCOUS; ++ p_capability->broadcast = CFG_BROADCAST; ++ p_capability->multicast = CFG_MULTICAST; ++ p_capability->all_multi = CFG_ALL_MULTI; ++ p_capability->jumbo_frames = CFG_JUMBO_FRAMES; ++ p_capability->short_frames = CFG_SHORT_FRAMES; ++ p_capability->auto_negotiation = CFG_AUTO_NEGOTIATION; ++ p_capability->link_speed = cfg_start_link_speed; ++ p_capability->loop_back = CFG_LOOP_BACK; ++ p_capability->tx_flow_control = CFG_TX_FLOW_CNTL; ++ p_capability->rx_flow_control = CFG_RX_FLOW_CNTL; ++ p_capability->tx_pacing = CFG_TX_PACING; ++ p_capability->rx_pass_crc = CFG_RX_PASS_CRC; ++ p_capability->qos_802_1q = CFG_QOS_802_1Q; ++ p_capability->tx_num_chan = CFG_TX_NUM_CHAN; ++ ++ /* Lets probe the device for the configured capabilities (netdev specific).*/ ++ ++ /* Following are set in the set_multi_list, when indicated by the kernel ++ * Promiscous and all multi. ++ */ ++ ++ if(p_capability->broadcast) ++ { ++ channel = 0; ++ val = 1; ++ if((p_hal_funcs->Control(p_hal_dev, pszRX_BROAD_EN, pszSet, &val) == 0) && ++ (p_hal_funcs->Control(p_hal_dev, pszRX_BROAD_CH, pszSet, &channel) == 0)) ++ *p_dev_flags |= IFF_BROADCAST; ++ else ++ p_capability->broadcast = 0; /* no broadcast capabilities */ ++ } ++ ++ if(p_capability->multicast) ++ { ++ val = 1; ++ channel = 0; ++ if((p_hal_funcs->Control(p_hal_dev, pszRX_MULT_EN, pszSet, &val) == 0) && ++ (p_hal_funcs->Control(p_hal_dev, pszRX_MULT_CH, pszSet, &channel) == 0)) ++ *p_dev_flags |= IFF_MULTICAST; ++ else ++ { ++ p_capability->multicast = 0; ++ p_capability->all_multi = 0; /* no multicast, no all-multi. */ ++ } ++ } ++ ++ if(p_capability->loop_back) ++ { ++ ; /* We do not put the device in loopback, if required use ioctl */ ++ } ++ ++ /* Lets probe the device for the configured capabilities (Non net device specific).*/ ++ ++ if(p_capability->jumbo_frames) ++ { ++ val = 0; ++ if(p_hal_funcs->Control(p_hal_dev, pszRX_NO_CHAIN, pszSet, &val) == 0) ++ p_cpmac_priv->flags |= IFF_PRIV_JUMBO_FRAMES; ++ else ++ p_capability->jumbo_frames = 0; ++ } ++ ++ if(p_capability->short_frames) ++ { ++ val = 1; ++ if(p_hal_funcs->Control(p_hal_dev, pszRX_CSF_EN, pszSet, &val) == 0) ++ p_cpmac_priv->flags |= IFF_PRIV_SHORT_FRAMES; ++ else ++ p_capability->short_frames = 0; ++ } ++ ++ val = g_cfg_start_link_params; ++ ++#ifdef CONFIG_AR7_MDIX ++ if( avalanche_is_mdix_on_chip() ) ++ { ++ val |= _CPMDIO_AUTOMDIX; ++ } ++#endif ++ ++ if(p_hal_funcs->Control(p_hal_dev,pszMdioConnect,pszSet, &val) !=0) ++ { ++ p_capability->link_speed = 0; ++ } ++ else ++ { ++ if(g_cfg_start_link_params & (_CPMDIO_100 | _CPMDIO_HD | _CPMDIO_FD | _CPMDIO_10)) ++ p_cpmac_priv->flags |= IFF_PRIV_AUTOSPEED; ++ else if(g_cfg_start_link_params & (_CPMDIO_100 | _CPMDIO_HD)) ++ p_cpmac_priv->flags |= IFF_PRIV_LINK100_HD; ++ else if(g_cfg_start_link_params & (_CPMDIO_100 | _CPMDIO_FD)) ++ p_cpmac_priv->flags |= IFF_PRIV_LINK100_FD; ++ else if(g_cfg_start_link_params & (_CPMDIO_10 | _CPMDIO_HD)) ++ p_cpmac_priv->flags |= IFF_PRIV_LINK10_HD; ++ else if(g_cfg_start_link_params & (_CPMDIO_10 | _CPMDIO_FD)) ++ p_cpmac_priv->flags |= IFF_PRIV_LINK10_FD; ++ else ++ ; ++ } ++ ++ if(p_capability->tx_flow_control) ++ { ++ val = 1; ++ if(p_hal_funcs->Control(p_hal_dev,pszTX_FLOW_EN, pszSet, &val) ==0) ++ p_cpmac_priv->flags |= IFF_PRIV_TX_FLOW_CNTL; ++ else ++ p_capability->tx_flow_control = 0; ++ } ++ ++ if(p_capability->rx_flow_control) ++ { ++ val = 1; ++ if(p_hal_funcs->Control(p_hal_dev, pszRX_FLOW_EN, pszSet, &val) ==0) ++ p_cpmac_priv->flags |= IFF_PRIV_RX_FLOW_CNTL; ++ else ++ p_capability->rx_flow_control = 0; ++ } ++ ++ if(p_capability->tx_pacing) ++ { ++ val = 1; ++ if(p_hal_funcs->Control(p_hal_dev, pszTX_PACE, pszSet, &val) ==0) ++ p_cpmac_priv->flags |= IFF_PRIV_TX_PACING; ++ else ++ p_capability->tx_pacing = 0; ++ } ++ ++ if(p_capability->rx_pass_crc) ++ { ++ val = 1; ++ if(p_hal_funcs->Control(p_hal_dev, pszRX_PASS_CRC, pszSet, &val) == 0) ++ p_cpmac_priv->flags |= IFF_PRIV_RX_PASS_CRC; ++ else ++ p_capability->rx_pass_crc = 0; ++ } ++ ++ if(p_capability->qos_802_1q) ++ { ++ val = 1; ++ if(p_hal_funcs->Control(p_hal_dev, pszRX_QOS_EN, pszSet, &val) == 0) ++ p_cpmac_priv->flags |= IFF_PRIV_8021Q_EN; ++ else ++ { ++ p_capability->qos_802_1q = 0; ++ p_capability->tx_num_chan= 1; ++ } ++ } ++ ++ if(p_capability->tx_num_chan > 1) ++ { ++ int cfg_tx_num_chan = p_capability->tx_num_chan; ++ val = 0; ++#ifdef TEST ++ if(p_hal_funcs->Control(p_hal_dev, pszTX_NUM_CH, pszGet, &val) == 0) ++ cfg_tx_num_chan = cfg_tx_num_chan > val ? val : cfg_tx_num_chan; ++ else ++ cfg_tx_num_chan = 1; ++#endif ++ p_capability->tx_num_chan = cfg_tx_num_chan; ++ } ++ ++ return(0); ++} ++ ++static int cpmac_p_setup_driver_params(CPMAC_PRIVATE_INFO_T *p_cpmac_priv) ++{ ++ int i=0; ++ int threshold = CFG_TX_NUM_BUF_SERVICE; ++ ++ char *tx_threshold_ptr = prom_getenv("threshold"); ++ ++ CPMAC_TX_CHAN_INFO_T *p_tx_chan_info = p_cpmac_priv->tx_chan_info; ++ CPMAC_RX_CHAN_INFO_T *p_rx_chan_info = p_cpmac_priv->rx_chan_info; ++ CPMAC_ABILITY_INFO_T *p_capability = p_cpmac_priv->ability_info; ++ ++ /* Timer stuff */ ++ p_cpmac_priv->timer_count = 1; /* should be < or = the MAX TIMER */ ++ p_cpmac_priv->timer_created = 0; ++ p_cpmac_priv->timer_access_hal = 1; ++ ++ for(i=0; i < MAX_TIMER; i++) ++ p_cpmac_priv->timer[i].function = NULL; ++ ++ p_cpmac_priv->enable_802_1q = p_capability->qos_802_1q; ++ ++ /* Tx channel related.*/ ++ p_tx_chan_info->cfg_chan = p_capability->tx_num_chan; ++ p_tx_chan_info->opened_chan = 0; ++ ++ if(tx_threshold_ptr) ++ threshold = simple_strtol(tx_threshold_ptr, (char **)NULL, 10); ++ ++ if((threshold <= 0) && tx_threshold_ptr) /* If threshold set to 0 then Enable the TX interrupt */ ++ { ++ threshold = CFG_TX_NUM_BUF_SERVICE; ++ p_tx_chan_info->tx_int_disable = 0; ++ ++ } ++ else ++ { ++ p_tx_chan_info->tx_int_disable = CFG_TX_INT_DISABLE; ++ } ++ ++ for(i=0; i < MAX_TX_CHAN; i++) ++ { ++ ++ ++ ++ p_tx_chan_info->chan[i].state = CHAN_CLOSE; ++ p_tx_chan_info->chan[i].num_BD = CFG_TX_NUM_BUF_DESC; ++ p_tx_chan_info->chan[i].buffer_size = cpmac_max_frame_size; ++ p_tx_chan_info->chan[i].buffer_offset = CFG_TX_BUF_OFFSET; ++ ++ ++ ++ p_tx_chan_info->chan[i].service_max = threshold; ++ } ++ ++ if (p_tx_chan_info->tx_int_disable) ++ printk("Cpmac driver Disable TX complete interrupt setting threshold to %d.\n",threshold); ++ else ++ printk("Cpmac driver Enable TX complete interrupt\n"); ++ ++ ++ /* Assuming just one rx channel for now */ ++ p_rx_chan_info->cfg_chan = 1; ++ p_rx_chan_info->opened_chan = 0; ++ p_rx_chan_info->chan->state = CHAN_CLOSE; ++ p_rx_chan_info->chan->num_BD = CFG_RX_NUM_BUF_DESC; ++ p_rx_chan_info->chan->buffer_size = cpmac_max_frame_size; ++ p_rx_chan_info->chan->buffer_offset = CFG_RX_BUF_OFFSET; ++ p_rx_chan_info->chan->service_max = CFG_RX_NUM_BUF_SERVICE; ++ ++ /* Set as per RFC 2665 */ ++ p_cpmac_priv->link_speed = 100000000; ++ p_cpmac_priv->link_mode = 1; ++ ++ p_cpmac_priv->loop_back = 0; ++ ++ return(0); ++} ++ ++inline static int cpmac_p_rx_buf_setup(CPMAC_RX_CHAN_INFO_T *p_rx_chan) ++{ ++ /* Number of ethernet packets & max pkt length */ ++ p_rx_chan->chan->tot_buf_size = p_rx_chan->chan->buffer_size + ++ 2*(CONTROL_802_1Q_SIZE) + ++ p_rx_chan->chan->buffer_offset + ++ ADD_FOR_4BYTE_ALIGN(p_rx_chan->chan->buffer_offset & 0x3); ++ ++ p_rx_chan->chan->tot_reserve_bytes = CONTROL_802_1Q_SIZE + ++ p_rx_chan->chan->buffer_offset + ++ L3_ALIGN(p_rx_chan->chan->buffer_offset & 0x3); ++ ++ return(0); ++} ++ ++//----------------------------------------------------------------------------- ++// Net device related private functions. ++//----------------------------------------------------------------------------- ++ ++/*************************************************************** ++ * cpmac_dev_init ++ * ++ * Returns: ++ * 0 on success, error code otherwise. ++ * Parms: ++ * dev The structure of the device to be ++ * init'ed. ++ * ++ * This function completes the initialization of the ++ * device structure and driver. It reserves the IO ++ * addresses and assignes the device's methods. ++ * ++ * ++ **************************************************************/ ++ ++static int cpmac_dev_init(struct net_device *p_dev) ++{ ++ int retVal = -1; ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv = p_dev->priv; ++ int instance_num = p_cpmac_priv->instance_num; ++ unsigned long net_flags = 0; ++ char *mac_name = NULL; ++ char *mac_string = NULL; ++ ++ CPMAC_TX_CHAN_INFO_T *p_tx_chan_info; ++ CPMAC_RX_CHAN_INFO_T *p_rx_chan_info; ++ CPMAC_DRV_HAL_INFO_T *p_drv_hal; ++ int i; ++ ++ int mem_size = sizeof(CPMAC_DRV_HAL_INFO_T) ++ + sizeof(CPMAC_TX_CHAN_INFO_T) ++ + sizeof(CPMAC_RX_CHAN_INFO_T) ++ + sizeof(CPMAC_ABILITY_INFO_T) ++ + sizeof(CPMAC_DEVICE_MIB_T) ++ + sizeof(CPMAC_DRV_STATS_T); ++ ++ ++#if defined(CONFIG_MIPS_SEAD2) ++ int prev_reset_val = RESET_REG_PRCR; ++ /* Bring the module out of reset */ ++ RESET_REG_PRCR |= temp_reset_value[p_cpmac_priv->instance_num]; ++ ++ /* Read the version id of the device to check if the device really exists */ ++ if( VERSION(temp_base_address[p_cpmac_priv->instance_num]) == 0) ++ { ++ printk(" CPMAC:Device not found\n"); ++ RESET_REG_PRCR = prev_reset_val; ++ return -ENODEV; ++ } ++ ++ RESET_REG_PRCR = prev_reset_val; ++#endif ++ ++ ++ if((p_drv_hal = kmalloc(mem_size, GFP_KERNEL)) == NULL) ++ { ++ errPrint("Failed to allocate memory; rewinding.\n"); ++ return(-1); ++ } ++ ++ memset(p_drv_hal, 0, mem_size); ++ ++ /* build the cpmac private object */ ++ p_cpmac_priv->drv_hal = p_drv_hal; ++ p_cpmac_priv->tx_chan_info = p_tx_chan_info ++ = (CPMAC_TX_CHAN_INFO_T*)((char*)p_drv_hal ++ + sizeof(CPMAC_DRV_HAL_INFO_T)); ++ p_cpmac_priv->rx_chan_info = p_rx_chan_info ++ = (CPMAC_RX_CHAN_INFO_T*)((char *)p_tx_chan_info ++ + sizeof(CPMAC_TX_CHAN_INFO_T)); ++ p_cpmac_priv->ability_info = (CPMAC_ABILITY_INFO_T *)((char *)p_rx_chan_info ++ + sizeof(CPMAC_RX_CHAN_INFO_T)); ++ p_cpmac_priv->device_mib = (CPMAC_DEVICE_MIB_T *)((char *)p_cpmac_priv->ability_info ++ + sizeof(CPMAC_ABILITY_INFO_T)); ++ p_cpmac_priv->stats = (CPMAC_DRV_STATS_T *)((char *)p_cpmac_priv->device_mib ++ + sizeof(CPMAC_DEVICE_MIB_T)); ++ ++ p_drv_hal->owner = p_cpmac_priv; ++ ++ ++ switch(instance_num) ++ { ++ ++ case 0: ++ mac_name="maca"; ++ ++ /* Also setting port information */ ++ p_dev->if_port = AVALANCHE_CPMAC_LOW_PORT_ID; ++ ++ break; ++ ++ case 1: ++ mac_name="macb"; ++ ++ /* Also setting port information */ ++ p_dev->if_port = AVALANCHE_CPMAC_HIGH_PORT_ID; ++ ++ break; ++ } ++ ++ if(mac_name) ++ mac_string=prom_getenv(mac_name); ++ ++ if(!mac_string) ++ { ++ mac_string="08.00.28.32.06.02"; ++ printk("Error getting mac from Boot enviroment for %s\n",p_dev->name); ++ printk("Using default mac address: %s\n",mac_string); ++ if(mac_name) ++ { ++ printk("Use Bootloader command:\n"); ++ printk(" setenv %s xx.xx.xx.xx.xx.xx\n","<env_name>"); ++ printk("to set mac address\n"); ++ } ++ } ++ ++ str2eaddr(p_cpmac_priv->mac_addr,mac_string); ++ ++ for (i=0; i <= ETH_ALEN; i++) ++ { ++ /* This sets the hardware address */ ++ p_dev->dev_addr[i] = p_cpmac_priv->mac_addr[i]; ++ } ++ ++ p_cpmac_priv->set_to_close = 1; ++ p_cpmac_priv->non_data_irq_expected = 0; ++ ++//#if defined (CONFIG_MIPS_AVALANCHE_LED) ++// if((p_cpmac_priv->led_handle = avalanche_led_register("cpmac", instance_num)) == NULL) ++// { ++// errPrint("Could not allocate handle for CPMAC[%d] LED.\n", instance_num); ++// goto cpmac_init_mod_error; ++// } ++//#endif ++ ++ if(cpmac_drv_init_module(p_drv_hal, p_dev, instance_num) != 0) ++ { ++ errPrint("Could not initialize the HAL for %s.\n", p_dev->name); ++ goto cpmac_init_mod_error; ++ } ++ ++ /* initialize the CPMAC device */ ++ if (cpmac_drv_init(p_drv_hal) == -1) ++ { ++ errPrint("HAL init failed for %s.\n", p_dev->name); ++ goto cpmac_init_device_error; ++ } ++ ++ if(cpmac_p_probe_and_setup_device(p_cpmac_priv, &net_flags) == -1) ++ { ++ errPrint("Failed to configure up %s.\n", p_dev->name); ++ goto cpmac_init_device_error; ++ } ++ ++ if(cpmac_p_setup_driver_params(p_cpmac_priv) == -1) ++ { ++ errPrint("Failed to set driver parameters for %s.\n", p_dev->name); ++ goto cpmac_init_device_error; ++ } ++ ++ cpmac_p_rx_buf_setup(p_rx_chan_info); ++ ++ /* initialize the timers for the net device */ ++ if(cpmac_p_timer_init(p_cpmac_priv) == -1) ++ { ++ errPrint("Failed to set timer(s) for %s.\n", p_dev->name); ++ goto cpmac_timer_init_error; ++ } ++ ++ p_dev->addr_len = 6; ++ ++ p_dev->open = &cpmac_dev_open; /* i.e. Start Device */ ++ p_dev->hard_start_xmit = &cpmac_dev_tx; ++ p_dev->stop = &cpmac_dev_close; ++ p_dev->get_stats = &cpmac_dev_get_net_stats; ++ ++ p_dev->set_multicast_list = &cpmac_dev_mcast_set; ++ p_dev->set_mac_address = cpmac_dev_set_mac_addr; ++ /* Knocking off the default broadcast and multicast flags. Allowing the ++ device configuration to control the flags. */ ++ p_dev->flags &= ~(IFF_BROADCAST | IFF_MULTICAST); ++ p_dev->flags |= net_flags; ++ ++ netif_carrier_off(p_dev); ++ ++//#if defined (CONFIG_MIPS_AVALANCHE_LED) ++// avalanche_led_action(p_cpmac_priv->led_handle, CPMAC_LINK_OFF); ++//#endif ++ ++ /* Tasklet is initialized at the isr registeration time. */ ++ p_drv_hal->hal_funcs->Control(p_drv_hal->hal_dev, "CpmacBase", "Get", &p_dev->base_addr); ++ p_drv_hal->hal_funcs->Control(p_drv_hal->hal_dev, "CpmacSize", "Get", &p_cpmac_priv->dev_size); ++ ++ request_mem_region(p_dev->base_addr, p_cpmac_priv->dev_size, p_dev->name); ++ ++ retVal = 0; ++ ++ if(g_init_enable_flag) ++ cpmac_p_dev_enable(p_dev); ++ ++ return(retVal); ++ ++cpmac_timer_init_error: ++cpmac_init_device_error : ++ cpmac_drv_cleanup(p_drv_hal); ++ ++cpmac_init_mod_error: ++ kfree(p_drv_hal); ++ ++ return (retVal); ++ ++} /* cpmac_dev_init */ ++ ++ ++/*************************************************************** ++ * cpmac_p_dev_enable ++ * ++ * Returns: ++ * 0 on success, error code otherwise. ++ * Parms: ++ * dev Structure of device to be opened. ++ * ++ * This routine puts the driver and CPMAC adapter in a ++ * state where it is ready to send and receive packets. ++ * ++ * ++ **************************************************************/ ++int cpmac_p_dev_enable( struct net_device *p_dev) ++{ ++ int ret_val = 0; ++ int channel = 0; ++ ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv = p_dev->priv; ++ CPMAC_DRV_HAL_INFO_T *p_drv_hal = p_cpmac_priv->drv_hal; ++ CPMAC_RX_CHAN_INFO_T *p_rx_chan_info = p_cpmac_priv->rx_chan_info; ++ int max_length = p_rx_chan_info->chan->tot_buf_size; ++ ++ p_cpmac_priv->set_to_close = 0; ++ ++ if((ret_val = cpmac_drv_start(p_drv_hal, p_cpmac_priv->tx_chan_info, ++ p_cpmac_priv->rx_chan_info, CHAN_SETUP))==-1) ++ { ++ errPrint("%s error: failed to start the device.\n", p_dev->name); ++ ret_val = -1; ++ } ++ else if(p_drv_hal->hal_funcs->Control(p_drv_hal->hal_dev,"RX_UNICAST_SET", ++ "Set", &channel)!=0) ++ { ++ errPrint("%s error: device chan 0 could not be enabled.\n", p_dev->name); ++ ret_val = -1; ++ } ++ else if(p_drv_hal->hal_funcs->Control(p_drv_hal->hal_dev, pszRX_MAXLEN, pszSet, &max_length) != 0) ++ { ++ errPrint(" CPMAC registers can't be written \n"); ++ ret_val = -1; ++ } ++ else if(p_drv_hal->hal_funcs->Control(p_drv_hal->hal_dev, "TxIntDisable", "Set", ++ &p_cpmac_priv->tx_chan_info->tx_int_disable) != 0) ++ { ++ errPrint(" CPMAC registers can't be written \n"); ++ ret_val = -1; ++ } ++ else ++ { ++ ; // Every thing went OK. ++ } ++ ++ return(ret_val); ++} /* cpmac_dev_enable */ ++ ++ ++static int cpmac_dev_open(struct net_device *p_dev) ++{ ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv = p_dev->priv; ++ CPMAC_ISR_INFO_T *p_isr_cb_param = &p_cpmac_priv->cpmac_isr; ++ ++ if(!g_init_enable_flag) ++ cpmac_p_dev_enable(p_dev); ++ ++ if(request_irq(p_isr_cb_param->intr, cpmac_hal_isr, SA_INTERRUPT, ++ "Cpmac Driver", p_isr_cb_param)) ++ { ++ errPrint("Failed to register the irq %d for Cpmac %s.\n", ++ p_isr_cb_param->intr, p_dev->name); ++ return (-1); ++ } ++ ++ netif_start_queue(p_dev); ++ ++ MOD_INC_USE_COUNT; ++ p_cpmac_priv->stats->start_tick = jiffies; ++ dbgPrint("Started the network queue for %s.\n", p_dev->name); ++ return(0); ++} ++ ++/*************************************************************** ++ * cpmac_p_dev_disable ++ * ++ * Returns: ++ * An error code. ++ * Parms: ++ * dev The device structure of the device to ++ * close. ++ * ++ * This function shuts down the adapter. ++ * ++ **************************************************************/ ++int cpmac_p_dev_disable(struct net_device *p_dev) ++{ ++ int ret_val = 0; ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv = p_dev->priv; ++ CPMAC_DRV_HAL_INFO_T *p_drv_hal = p_cpmac_priv->drv_hal; ++ ++ set_bit(0, &p_cpmac_priv->set_to_close); ++ set_bit(0, &p_cpmac_priv->non_data_irq_expected); ++ ++ /* The driver does not re-schedule the tasklet after kill is called. So, this ++ should take care of the bug in the kernel. */ ++ tasklet_kill(&p_cpmac_priv->cpmac_isr.tasklet); ++ ++ if(cpmac_drv_stop(p_drv_hal, p_cpmac_priv->tx_chan_info, ++ p_cpmac_priv->rx_chan_info, ++ CHAN_TEARDOWN | FREE_BUFFER | BLOCKING | COMPLETE) == -1) ++ { ++ ret_val = -1; ++ } ++ else ++ { ++ /* hope that the HAL closes down the tick timer.*/ ++ ++ dbgPrint("Device %s Closed.\n", p_dev->name); ++ p_cpmac_priv->stats->start_tick = jiffies; ++ ++ p_cpmac_priv->link_speed = 100000000; ++ p_cpmac_priv->link_mode = 1; ++ netif_carrier_off(p_dev); ++ ++//#if defined (CONFIG_MIPS_AVALANCHE_LED) ++// avalanche_led_action(p_cpmac_priv->led_handle, CPMAC_LINK_OFF); ++//#endif ++ ++ clear_bit(0, &p_cpmac_priv->non_data_irq_expected); ++ ++ } ++ ++ return (ret_val); ++ ++} /* cpmac_dev_close */ ++ ++ ++/*************************************************************** ++ * cpmac_dev_close ++ * ++ * Returns: ++ * An error code. ++ * Parms: ++ * dev The device structure of the device to ++ * close. ++ * ++ * This function shuts down the adapter. ++ * ++ **************************************************************/ ++static int cpmac_dev_close(struct net_device *p_dev) ++{ ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv = p_dev->priv; ++ CPMAC_ISR_INFO_T *p_isr_cb_param = &p_cpmac_priv->cpmac_isr; ++ ++ /* inform the upper layers. */ ++ netif_stop_queue(p_dev); ++ ++ if(!g_init_enable_flag) ++ cpmac_p_dev_disable(p_dev); ++ else ++ free_irq(p_isr_cb_param->intr, p_isr_cb_param); ++ ++ MOD_DEC_USE_COUNT; ++ ++ return(0); ++} ++ ++static void cpmac_dev_mcast_set(struct net_device *p_dev) ++{ ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv = p_dev->priv; ++ CPMAC_DRV_HAL_INFO_T *p_drv_hal = p_cpmac_priv->drv_hal; ++ CPMAC_ABILITY_INFO_T *p_capability = p_cpmac_priv->ability_info; ++ HAL_FUNCTIONS *p_hal_funcs = p_drv_hal->hal_funcs; ++ HAL_DEVICE *p_hal_dev = p_drv_hal->hal_dev; ++ int val = 1; ++ int channel = 0; ++ ++//#if defined (CONFIG_MIPS_AVALANCHE_LED) ++// if(netif_carrier_ok(p_dev)) ++// avalanche_led_action(p_cpmac_priv->led_handle, CPMAC_LINK_ON); ++//#endif ++ ++ if(p_dev->flags & IFF_PROMISC) ++ { ++ if(p_capability->promiscous) ++ { ++ /* multi mode in the HAL, check this */ ++ val = 0; ++ p_hal_funcs->Control(p_hal_dev, pszRX_MULTI_ALL, "Clear", &val); ++ ++ val = 1; ++ /* set the promiscous mode in the HAL */ ++ p_hal_funcs->Control(p_hal_dev, pszRX_CAF_EN, pszSet, &val); ++ p_hal_funcs->Control(p_hal_dev, pszRX_PROM_CH, pszSet, &channel); ++ ++ dbgPrint("%s set in the Promisc mode.\n", p_dev->name); ++ } ++ else ++ { ++ errPrint("%s not configured for Promisc mode.\n", p_dev->name); ++ } ++ } ++ else if(p_dev->flags & IFF_ALLMULTI) ++ { ++ if(p_capability->all_multi) ++ { ++ val = 0; ++ /* disable the promiscous mode in the HAL */ ++ p_hal_funcs->Control(p_hal_dev, pszRX_CAF_EN, "Clear", &val); ++ ++ val = 1; ++ /* set the all multi mode in the HAL */ ++ p_hal_funcs->Control(p_hal_dev, pszRX_MULTI_ALL, pszSet, &val); ++ p_hal_funcs->Control(p_hal_dev, pszRX_MULT_CH, pszSet, &channel); ++ ++ dbgPrint("%s has been set to the ALL_MULTI mode.\n", p_dev->name); ++ } ++ else ++ { ++ errPrint("%s not configured for ALL MULTI mode.\n", p_dev->name); ++ } ++ } ++ else if(p_dev->mc_count) ++ { ++ if(p_capability->multicast) ++ { ++ struct dev_mc_list *p_dmi = p_dev->mc_list; ++ int count; ++ ++ val = 0; ++ /* clear all the previous data, we are going to populate new ones.*/ ++ p_hal_funcs->Control(p_hal_dev, pszRX_MULTI_ALL, "Clear", &val); ++ /* disable the promiscous mode in the HAL */ ++ p_hal_funcs->Control(p_hal_dev, pszRX_CAF_EN, pszSet, &val); ++ ++ for(count = 0; count < p_dev->mc_count; count++, p_dmi = p_dmi->next) ++ { ++ p_hal_funcs->Control(p_hal_dev, "RX_MULTI_SINGLE", "Set", p_dmi->dmi_addr); ++ } ++ ++ dbgPrint("%s configured for %d multicast addresses.\n", p_dev->name, p_dev->mc_count); ++ } ++ else ++ { ++ errPrint("%s has not been configuted for multicast handling.\n", p_dev->name); ++ } ++ } ++ else ++ { ++ val = 0; ++ /* clear all the previous data, we are going to populate new ones.*/ ++ p_hal_funcs->Control(p_hal_dev, pszRX_MULTI_ALL, "Clear", &val); ++ /* disable the promiscous mode in the HAL */ ++ p_hal_funcs->Control(p_hal_dev, pszRX_CAF_EN, pszSet, &val); ++ dbgPrint("Dev set to Unicast mode.\n"); ++ } ++} ++ ++static int cpmac_dev_set_mac_addr(struct net_device *p_dev,void * addr) ++{ ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv = p_dev->priv; ++ CPMAC_DRV_HAL_INFO_T *p_drv_hal = p_cpmac_priv->drv_hal; ++ HAL_FUNCTIONS *p_hal_funcs = p_drv_hal->hal_funcs; ++ HAL_DEVICE *p_hal_dev = p_drv_hal->hal_dev; ++ struct sockaddr *sa = addr; ++ ++ memcpy(p_cpmac_priv->mac_addr,sa->sa_data,p_dev->addr_len); ++ memcpy(p_dev->dev_addr,sa->sa_data,p_dev->addr_len); ++ p_hal_funcs->Control(p_hal_dev, pszMacAddr, pszSet, p_cpmac_priv->mac_addr); ++ ++ return 0; ++ ++} ++ ++/* VLAN is handled by vlan/vconfig support. Here, we just check for the ++ * 802.1q configuration of the device and en-queue the packet accordingly. ++ * We do not do any 802.1q processing here. ++ */ ++static int cpmac_dev_tx( struct sk_buff *skb, struct net_device *p_dev) ++{ ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv = p_dev->priv; ++ CPMAC_DRV_HAL_INFO_T *p_drv_hal = p_cpmac_priv->drv_hal; ++ int channel = 0; ++ int ret_val = 0; ++ FRAGLIST send_frag_list[1]; ++ ++#ifdef CPMAC_8021Q_SUPPORT ++ if(skb->len < TCI_END_OFFSET) ++ { ++ /* Whee, frame shorter than 14 bytes !! We need to copy ++ * fragments to understand the frame. Too much work. ++ * Hmm, dump it. */ ++ ++ /* Free the buffer */ ++ goto cpmac_dev_tx_drop_pkt; ++ } ++ ++ /* 802.1p/q stuff */ ++ if(IS_802_1Q_FRAME(skb->data + TPID_START_OFFSET)) ++ { ++ /* IEEE 802.1q, section 8.8 and section 8.11.9 */ ++ if(!p_cpmac_priv->enable_802_1q) ++ { ++ /* free the buffer */ ++ goto cpmac_dev_tx_drop_pkt; ++ } ++ ++ channel = GET_802_1P_CHAN(p_cpmac_priv->tx_chan_info->opened_chan, ++ skb->data[TCI_START_OFFSET]); ++ ++ } ++ /* sending a non 802.1q frame, when configured for 802.1q: dump it.*/ ++ else if(p_cpmac_priv->enable_802_1q) ++ { ++ /* free the buffer */ ++ goto cpmac_dev_tx_drop_pkt; ++ } ++ else ++ { ++ ;/* it is the good old non 802.1q */ ++ } ++#endif ++ ++ send_frag_list->len = skb->len; ++ send_frag_list->data = skb->data; ++ ++#ifdef CPMAC_TEST ++ xdump(skb->data, skb->len, "send"); ++#endif ++ ++ dma_cache_wback_inv((unsigned long)skb->data, skb->len); ++ ++ if(p_drv_hal->hal_funcs->Send(p_drv_hal->hal_dev, send_frag_list, 1, ++ skb->len, skb, channel) != 0) ++ { ++ /* code here to stop the queue, when allowing tx timeout, perhaps next release.*/ ++ p_cpmac_priv->net_dev_stats.tx_errors++; ++#ifndef TI_SLOW_PATH ++ /* Free the skb in case of Send return error */ ++ dev_kfree_skb_any(skb); ++ p_cpmac_priv->net_dev_stats.tx_dropped++; ++ return 0; ++#endif ++ goto cpmac_dev_tx_drop_pkt; ++ } ++ ++//#if defined (CONFIG_MIPS_AVALANCHE_LED) ++// avalanche_led_action(p_cpmac_priv->led_handle, CPMAC_TX_ACTIVITY); ++//#endif ++ ++ return(ret_val); ++ ++cpmac_dev_tx_drop_pkt: ++ ++ p_cpmac_priv->net_dev_stats.tx_dropped++; ++ ret_val = -1; ++ return (ret_val); ++ ++} /*cpmac_dev_tx */ ++ ++ ++//------------------------------------------------------------------------------ ++// Public functions : Called by outsiders to this file. ++//------------------------------------------------------------------------------ ++ ++ ++void *cpmac_hal_malloc_buffer(unsigned int size, void* mem_base, unsigned int mem_range, ++ OS_SETUP *p_os_setup, HAL_RECEIVEINFO *HalReceiveInfo, ++ OS_RECEIVEINFO **osReceiveInfo, OS_DEVICE *p_dev) ++{ ++ CPMAC_RX_CHAN_INFO_T *p_rx_chan_info = (CPMAC_RX_CHAN_INFO_T *)p_os_setup; ++ int tot_buf_size = p_rx_chan_info->chan->tot_buf_size; ++ int tot_reserve_bytes = p_rx_chan_info->chan->tot_reserve_bytes; ++ struct sk_buff *p_skb; ++ void *ret_ptr; ++ ++ /* use TI SKB private pool */ ++ p_skb = dev_alloc_skb(tot_buf_size); ++ ++ if(p_skb == NULL) ++ { ++ errPrint("Failed to allocate skb for %s.\n", ((struct net_device*)p_dev)->name); ++ return (NULL); ++ } ++ ++ p_skb->dev = p_dev; ++ skb_reserve(p_skb, tot_reserve_bytes); ++ ++ *osReceiveInfo = p_skb; ++ ++ ret_ptr = skb_put(p_skb, p_rx_chan_info->chan->buffer_size); ++ ++ return(ret_ptr); ++} ++ ++void cpmac_hal_isr(int irq, void *p_param, struct pt_regs *regs) ++{ ++ CPMAC_ISR_INFO_T *p_cb_param = (CPMAC_ISR_INFO_T*) p_param; ++ CPMAC_DRV_HAL_INFO_T *p_drv_hal = p_cb_param->owner; ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv = p_drv_hal->owner; ++ int pkts_to_handle = 0; ++ ++ if(p_cpmac_priv->non_data_irq_expected) ++ { ++ p_cb_param->hal_isr(p_drv_hal->hal_dev, &pkts_to_handle); ++ p_drv_hal->hal_funcs->PacketProcessEnd(p_drv_hal->hal_dev); ++ } ++ else if(!p_cpmac_priv->set_to_close) ++ tasklet_schedule(&((CPMAC_ISR_INFO_T*) p_param)->tasklet); ++ else ++ ; // back off from doing anything more. We are closing down. ++} ++ ++void cpmac_handle_tasklet(unsigned long data) ++{ ++ CPMAC_ISR_INFO_T *p_cb_param = (CPMAC_ISR_INFO_T*) data; ++ CPMAC_DRV_HAL_INFO_T *p_drv_hal = p_cb_param->owner; ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv = p_drv_hal->owner; ++ int pkts_to_handle; ++ ++ p_cb_param->hal_isr(p_drv_hal->hal_dev, &pkts_to_handle); ++ ++ if(test_bit(0, &p_cpmac_priv->non_data_irq_expected) || !pkts_to_handle) ++ p_drv_hal->hal_funcs->PacketProcessEnd(p_drv_hal->hal_dev); ++ else if(!test_bit(0, &p_cpmac_priv->set_to_close)) ++ tasklet_schedule(&p_cb_param->tasklet); ++ else ++ ; // Back off from processing packets we are closing down. ++} ++ ++int cpmac_hal_control(OS_DEVICE *p_dev, const char *key, ++ const char *action, void *value) ++{ ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv = p_dev->priv; ++ int ret_val = -1; ++ ++ if(key == NULL) ++ { ++ dbgPrint("Encountered NULL key.\n"); ++ return (-1); ++ } ++ ++ if(cpmac_ci_strcmp(key, "Sleep") == 0 && value != NULL) ++ { ++ unsigned int clocks_per_tick = cpmac_cpu_freq/HZ; ++ unsigned int requested_clocks = *(unsigned int*)value; ++ unsigned int requested_ticks = (requested_clocks + clocks_per_tick - 1)/clocks_per_tick; ++ mdelay(requested_ticks); ++ ret_val = 0; ++ } ++ else if(cpmac_ci_strcmp(key, "StateChange") == 0) ++ { ++ ret_val = cpmac_p_process_status_ind(p_cpmac_priv); ++ } ++ else if(cpmac_ci_strcmp(key, "Tick") == 0 && action != NULL) ++ { ++ if(cpmac_ci_strcmp(action, "Set") == 0 && value != NULL) ++ { ++ if(*(unsigned int*)value == 0) ++ { ++ cpmac_p_stop_timer(p_cpmac_priv->timer + TICK_TIMER); ++ ret_val = 0; ++ } ++ else ++ { ++ unsigned int clocks_per_tick = cpmac_cpu_freq/HZ; ++ unsigned int requested_clocks = *(unsigned int*)value; ++ unsigned int requested_ticks = (requested_clocks + clocks_per_tick - 1)/clocks_per_tick; ++ ++ p_cpmac_priv->delay_ticks = requested_ticks; /* save it for re-triggering */ ++ ret_val = cpmac_p_start_timer(p_cpmac_priv->timer + TICK_TIMER, ++ p_cpmac_priv->delay_ticks); ++ } ++ } ++ else if(cpmac_ci_strcmp(action, "Clear") == 0) ++ { ++ ret_val = cpmac_p_stop_timer(p_cpmac_priv->timer + TICK_TIMER); ++ } ++ else ++ ; ++ } ++ else if(cpmac_ci_strcmp(key, "MacAddr") == 0 && action != NULL) ++ { ++ if(cpmac_ci_strcmp(action, "Get") == 0 && value != NULL) ++ { ++ *(char **)value = p_cpmac_priv->mac_addr; ++ ret_val = 0; ++ } ++ } ++ else if(cpmac_ci_strcmp(key, "CpuFreq") == 0) ++ { ++ if(cpmac_ci_strcmp(action, "Get") == 0 && value != NULL) ++ { ++ *(unsigned int *)value = cpmac_cpu_freq; ++ dbgPrint("Cpu frequency for cpmacs is %u\n",cpmac_cpu_freq); ++ ret_val = 0; ++ } ++ } ++ else if(cpmac_ci_strcmp(key, "SioFlush") == 0) ++ { ++ ret_val = 0; ++ dbgPrint("\n"); ++ } ++ else if(cpmac_ci_strcmp(key, "CpmacFrequency") == 0) ++ { ++ /* For Sangam cpmac clock is off the PBUS */ ++ /* OS Needs to supply CORRECT frequency */ ++ if(cpmac_ci_strcmp(action, "Get") == 0 && value != NULL) ++ { ++ *(unsigned int *)value = CONFIG_AR7_SYS * 1000 * 1000; ++ ret_val = 0; ++ } ++ } ++ /* For now, providing back the default values. */ ++ else if(cpmac_ci_strcmp(key, "MdioClockFrequency") == 0) ++ { ++ if(cpmac_ci_strcmp(action, "Get") == 0 && value != NULL) ++ { ++ *(unsigned int *)value = 2200000; /*DEFAULT */ ++ ret_val = 0; ++ } ++ } ++ /* For now, providing back the default values. */ ++ else if(cpmac_ci_strcmp(key, "MdioBusFrequency") == 0) ++ { ++ /* For Sangam MdioBusFreq is off the PBUS */ ++ if(cpmac_ci_strcmp(action, "Get") == 0 && value != NULL) ++ { ++ *(unsigned int *)value = CONFIG_AR7_SYS * 1000 * 1000; ++ ret_val = 0; ++ } ++ } ++ ++#if 0 ++#if defined(CONFIG_AVALANCHE_AUTO_MDIX) ++ /* supporting Mdio Mdix switching */ ++ else if(cpmac_ci_strcmp(key, hcMdioMdixSwitch) == 0) ++ { ++ /* For Sangam Mdio-switching action should be always "set"*/ ++ if(cpmac_ci_strcmp(action, hcSet) == 0 && value != NULL ) ++ { ++ unsigned int mdix = *((unsigned int *) value) ; ++ ++ if(mdix) ++ avalanche_set_phy_into_mdix_mode(); ++ ++ else ++ avalanche_set_phy_into_mdi_mode(); ++ ++ ret_val = 0; ++ } ++ ++ } ++#endif ++#endif ++ else if(cpmac_ci_strcmp(key, hcMdioMdixSwitch) == 0) ++ { ++ /* For Sangam Mdio-switching action should be always "set"*/ ++ if(cpmac_ci_strcmp(action, hcSet) == 0 && value != NULL ) ++ { ++ unsigned int mdix = *((unsigned int *) value) ; ++ ++#ifdef CONFIG_AR7_MDIX ++ avalanche_set_mdix_on_chip(0xa8610000 , mdix ? 1: 0); ++#endif ++ ++ ret_val = 0; ++ } ++ ++ } ++ ++ return(ret_val); ++} ++ ++ ++int cpmac_hal_receive(OS_DEVICE *p_dev, FRAGLIST *fragList, ++ unsigned int fragCount, ++ unsigned int packet_size, ++ HAL_RECEIVEINFO *hal_receive_info, ++ unsigned int mode) ++{ ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv = p_dev->priv; ++ CPMAC_DRV_HAL_INFO_T *p_drv_hal = p_cpmac_priv->drv_hal; ++ struct sk_buff *p_skb = fragList[0].OsInfo; ++ p_skb->len = fragList[0].len; ++ ++ /* invalidate the cache. */ ++ dma_cache_inv((unsigned long)p_skb->data, fragList[0].len); ++#ifdef CPMAC_TEST ++ xdump(p_skb->data, p_skb->len, "recv"); ++#endif ++#ifdef CPMAC_8021Q_SUPPORT ++ /* 802.1q stuff, just does the basic checking here. */ ++ if(!p_cpmac_priv->enable_802_1q && ++ p_skb->len > TCI_END_OFFSET && ++ IS_802_1Q_FRAME(p_skb->data + TPID_START_OFFSET)) ++ { ++ goto cpmac_hal_recv_frame_mismatch; ++ } ++#endif ++ if(fragCount > 1) ++ { ++ int len; ++ struct sk_buff *p_temp_skb; ++ CPMAC_RX_CHAN_INFO_T *p_rx_chan_info = p_cpmac_priv->rx_chan_info; ++ int count; ++ ++ dbgPrint("Recv: It is multifragment for %s.\n", p_dev->name); ++ ++ p_skb = dev_alloc_skb(packet_size + ++ p_rx_chan_info->chan->tot_reserve_bytes); ++ if(p_skb == NULL) ++ { ++ p_cpmac_priv->net_dev_stats.rx_errors++; ++ goto cpmac_hal_recv_alloc_failed; ++ } ++ ++ p_skb->dev = p_dev; ++ skb_reserve(p_skb, p_rx_chan_info->chan->tot_reserve_bytes); ++ ++ for(count = 0; count < fragCount; count++) ++ { ++ p_temp_skb = fragList[count].OsInfo; ++ len = fragList[count].len; ++ ++ dma_cache_inv((unsigned long)p_temp_skb->data, len); ++ ++ memcpy(skb_put(p_skb, len), p_temp_skb->data, len); ++ dev_kfree_skb_any(p_temp_skb); ++ } ++ } ++ ++ ++#if defined(CONFIG_MIPS_AVALANCHE_MARVELL) ++ /* Fetch the receiving port information from EGRESS TRAILOR Bytes*/ ++ p_dev->if_port = (unsigned char)p_skb->data[packet_size -(EGRESS_TRAILOR_LEN-1)] + AVALANCHE_MARVELL_BASE_PORT_ID; ++ skb_trim(p_skb, packet_size - EGRESS_TRAILOR_LEN); ++#else ++ /* set length & tail */ ++ skb_trim(p_skb, packet_size); ++#endif ++ ++ p_skb->protocol = eth_type_trans(p_skb, p_dev); ++ ++ netif_rx(p_skb); ++ ++//#if defined (CONFIG_MIPS_AVALANCHE_LED) ++// avalanche_led_action(p_cpmac_priv->led_handle, CPMAC_RX_ACTIVITY); ++//#endif ++ ++ p_cpmac_priv->net_dev_stats.rx_packets++; ++ p_cpmac_priv->net_dev_stats.rx_bytes += packet_size; ++ ++ p_drv_hal->hal_funcs->RxReturn(hal_receive_info,1); ++ ++ return(0); ++ ++cpmac_hal_recv_alloc_failed: ++ ++#ifdef CPMAC_8021Q_SUPPORT ++cpmac_hal_recv_frame_mismatch: ++#endif ++ ++ fragCount--; ++ ++ do ++ { ++ dev_kfree_skb_any(fragList[fragCount].OsInfo); ++ } ++ while(fragCount--); ++ ++ p_cpmac_priv->net_dev_stats.rx_dropped++; ++ ++ return(-1); ++} /*cpmac_receive*/ ++ ++ ++void cpmac_hal_tear_down_complete(OS_DEVICE*a, int b, int ch) ++{ ++ dbgPrint("what to do with this.\n"); ++} ++ ++ ++int cpmac_hal_send_complete(OS_SENDINFO *p_skb) ++{ ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv = p_skb->dev->priv; ++ ++ p_cpmac_priv->net_dev_stats.tx_packets++; ++ p_cpmac_priv->net_dev_stats.tx_bytes += p_skb->len; ++ ++ dev_kfree_skb_any(p_skb); ++ ++ return(0); ++} ++ ++ ++int cpmac_reset(CPMAC_PRIVATE_INFO_T *p_cpmac_priv) ++{ ++ // code here to reset the device/hal. Not now. ++ ++ netif_wake_queue(p_cpmac_priv->owner); ++ return(0); ++} ++ ++#ifdef CPMAC_TEST ++ ++#define isprint(a) ((a >=' ')&&(a<= '~')) ++void xdump( u_char* cp, int length, char* prefix ) ++{ ++ int col, count; ++ u_char prntBuf[120]; ++ u_char* pBuf = prntBuf; ++ count = 0; ++ while(count < length){ ++ pBuf += sprintf( pBuf, "%s", prefix ); ++ for(col = 0;count + col < length && col < 16; col++){ ++ if (col != 0 && (col % 4) == 0) ++ pBuf += sprintf( pBuf, " " ); ++ pBuf += sprintf( pBuf, "%02X ", cp[count + col] ); ++ } ++ while(col++ < 16){ /* pad end of buffer with blanks */ ++ if ((col % 4) == 0) ++ sprintf( pBuf, " " ); ++ pBuf += sprintf( pBuf, " " ); ++ } ++ pBuf += sprintf( pBuf, " " ); ++ for(col = 0;count + col < length && col < 16; col++){ ++ if (isprint((int)cp[count + col])) ++ pBuf += sprintf( pBuf, "%c", cp[count + col] ); ++ else ++ pBuf += sprintf( pBuf, "." ); ++ } ++ sprintf( pBuf, "\n" ); ++ // SPrint(prntBuf); ++ printk(prntBuf); ++ count += col; ++ pBuf = prntBuf; ++ } ++ ++} /* close xdump(... */ ++#endif ++ ++ ++static int __init cpmac_dev_probe(void) ++{ ++ int retVal = 0; ++ int unit; ++ int instance_count = CONFIG_MIPS_CPMAC_PORTS; ++ ++ //cpmac_cpu_freq = avalanche_clkc_get_freq(CLKC_MIPS); ++ cpmac_cpu_freq = CONFIG_AR7_CPU * 1000 * 1000; ++ ++ build_psp_config(); ++ ++ for(unit = 0; unit < instance_count; unit++) ++ { ++ struct net_device *p_dev; ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv; ++ size_t dev_size; ++ int failed; ++ ++ dev_size = sizeof(struct net_device) ++ + sizeof(CPMAC_PRIVATE_INFO_T); ++ ++ ++ if((p_dev = (struct net_device *) kmalloc(dev_size, GFP_KERNEL)) == NULL) ++ { ++ dbgPrint( "Could not allocate memory for device.\n" ); ++ retVal = -ENOMEM; ++ break; ++ } ++ ++ memset(p_dev, 0, dev_size ); ++ ++ p_dev->priv = p_cpmac_priv ++ = (CPMAC_PRIVATE_INFO_T*)(((char *) p_dev) + sizeof(struct net_device)); ++ p_cpmac_priv->owner = p_dev; ++ ++ ether_setup(p_dev); ++ ++ p_cpmac_priv->instance_num = unit; ++ p_dev->init = cpmac_dev_init; ++ ++ g_dev_array[p_cpmac_priv->instance_num] = p_dev; ++ ++#if defined CONFIG_MIPS_CPMAC_INIT_BUF_MALLOC ++ g_init_enable_flag = 1; ++ printk("Cpmac driver is allocating buffer memory at init time.\n"); ++#endif ++ ++ /* This section gives a default value by the number of PHY in order to ++ * replace the default MACRO. */ ++ { ++ char *mac_port = prom_getenv("MAC_PORT"); /* Internal: 0, External: 1 */ ++ if(!mac_port || (0 != strcmp(mac_port, "0"))) { ++ printk("Using the MAC with external PHY\n"); ++ cfg_start_link_speed = _CPMDIO_NOPHY; ++ cpmac_max_frame_size = CPMAC_MAX_FRAME_SIZE + 4; ++ } ++ else { ++ printk("Using the MAC with internal PHY\n"); ++ cfg_start_link_speed = CFG_START_LINK_SPEED; ++ cpmac_max_frame_size = CPMAC_MAX_FRAME_SIZE; ++ } ++ g_cfg_start_link_params = cfg_start_link_speed; ++ } ++ ++ cpmac_p_detect_manual_cfg(cfg_link_speed, cfg_link_mode, cpmac_debug_mode); ++ ++ failed = register_netdev(p_dev); ++ if (failed) ++ { ++ dbgPrint("Could not register device for inst %d because of reason \ ++ code %d.\n", unit, failed); ++ retVal = -1; ++ kfree(p_dev); ++ break; ++ } ++ else ++ { ++ ++ char proc_name[100]; ++ int proc_category_name_len = 0; ++ ++ p_cpmac_priv->next_device = last_cpmac_device; ++ last_cpmac_device = p_dev; ++ ++ dbgPrint(" %s irq=%2d io=%04x\n",p_dev->name, (int) p_dev->irq, ++ (int) p_dev->base_addr); ++ ++ strcpy(proc_name, "avalanche/"); ++ strcat(proc_name, p_dev->name); ++ proc_category_name_len = strlen(proc_name); ++ ++ strcpy(proc_name + proc_category_name_len, "_rfc2665_stats"); ++ create_proc_read_entry(proc_name,0,NULL,cpmac_p_read_rfc2665_stats, p_dev); ++ ++ } ++ } ++ ++ if(retVal == 0) ++ { ++ /* To maintain backward compatibility with NSP. */ ++ gp_stats_file = create_proc_entry("avalanche/cpmac_stats", 0644, NULL); ++ if(gp_stats_file) ++ { ++ gp_stats_file->read_proc = cpmac_p_read_stats; ++ gp_stats_file->write_proc = cpmac_p_write_stats; ++ } ++ create_proc_read_entry("avalanche/cpmac_link", 0, NULL, cpmac_p_read_link, NULL); ++ create_proc_read_entry("avalanche/cpmac_ver", 0, NULL, cpmac_p_get_version, NULL); ++ ++ } ++ ++ cpmac_devices_installed = unit; ++ dbgPrint("Installed %d cpmac instances.\n", unit); ++ return ( (unit >= 0 ) ? 0 : -ENODEV ); ++ ++} /* init_module */ ++ ++ ++/*************************************************************** ++ * cleanup_module ++ * ++ * Returns: ++ * Nothing ++ * Parms: ++ * None ++ * ++ * Goes through the CpmacDevices list and frees the device ++ * structs and memory associated with each device (lists ++ * and buffers). It also ureserves the IO port regions ++ * associated with this device. ++ * ++ **************************************************************/ ++ ++void cpmac_exit(void) ++{ ++ struct net_device *p_dev; ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv; ++ ++ while (cpmac_devices_installed) ++ { ++ char proc_name[100]; ++ int proc_category_name_len = 0; ++ ++ p_dev = last_cpmac_device; ++ p_cpmac_priv = (CPMAC_PRIVATE_INFO_T *) p_dev->priv; ++ ++ dbgPrint("Unloading %s irq=%2d io=%04x\n",p_dev->name, (int) p_dev->irq, (int) p_dev->base_addr); ++ ++ if(g_init_enable_flag) ++ cpmac_p_dev_disable(p_dev); ++ ++ cpmac_drv_cleanup(p_cpmac_priv->drv_hal); ++ ++//#if defined (CONFIG_MIPS_AVALANCHE_LED) ++// avalanche_led_unregister(p_cpmac_priv->led_handle); ++//#endif ++ strcpy(proc_name, "avalanche/"); ++ strcat(proc_name, p_dev->name); ++ proc_category_name_len = strlen(proc_name); ++ ++ strcpy(proc_name + proc_category_name_len, "_rfc2665_stats"); ++ remove_proc_entry(proc_name, NULL); ++ ++ release_mem_region(p_dev->base_addr, p_cpmac_priv->dev_size); ++ unregister_netdev(p_dev); ++ last_cpmac_device = p_cpmac_priv->next_device; ++ ++ kfree(p_cpmac_priv->drv_hal); ++ kfree(p_dev); ++ ++ cpmac_devices_installed--; ++ } ++ ++ if(gp_stats_file) ++ remove_proc_entry("avalanche/cpmac_stats", NULL); ++ ++ remove_proc_entry("avalanche/cpmac_link", NULL); ++ remove_proc_entry("avalanche/cpmac_ver", NULL); ++ ++ psp_config_cleanup(); ++} ++ ++ ++module_init(cpmac_dev_probe); ++module_exit(cpmac_exit); +diff -urN linux.old/drivers/net/avalanche_cpmac/cpmac.h linux.dev/drivers/net/avalanche_cpmac/cpmac.h +--- linux.old/drivers/net/avalanche_cpmac/cpmac.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/cpmac.h 2005-07-12 02:48:42.043594000 +0200 +@@ -0,0 +1,379 @@ ++/****************************************************************************** ++ * FILE PURPOSE: CPMAC Linux Network Device Driver Header ++ ****************************************************************************** ++ * FILE NAME: cpmac.h ++ * ++ * DESCRIPTION: CPMAC Network Device Driver Header ++ * ++ * REVISION HISTORY: ++ * Date Name Details ++ *----------------------------------------------------------------------------- ++ * 27 Nov 2002 Suraj S Iyer Initial Create. ++ * 09 Jun 2003 Suraj S Iyer Preparing for GA. ++ * ++ * (C) Copyright 2003, Texas Instruments, Inc ++ *******************************************************************************/ ++ ++#ifndef CPMAC_H ++#define CPMAC_H ++ ++#include <linux/timer.h> ++#include <linux/netdevice.h> ++#include <asm/semaphore.h> ++#include <linux/ctype.h> ++#include <linux/interrupt.h> ++ ++#include "cpmacHalLx.h" ++/*----------------------------------------------------------------------------- ++ * Config macros. Use these to config the driver. ++ *---------------------------------------------------------------------------*/ ++#define CPMAC_MAX_FRAME_SIZE 1518 ++ ++#if defined(CONFIG_AR7WRD) || defined(CONFIG_AR7WI) || defined(CONFIG_AR7VWI)|| defined(CONFIG_AR7VW) ++#define CFG_RX_NUM_BUF_DESC 64 ++#define CFG_RX_NUM_BUF_SERVICE 32 ++#else ++#define CFG_RX_NUM_BUF_DESC 16 ++#define CFG_RX_NUM_BUF_SERVICE 8 ++#endif ++ ++#define CFG_RX_BUF_OFFSET 0 ++ ++#define CFG_TX_NUM_BUF_DESC 128 ++#define CFG_TX_NUM_BUF_SERVICE 20 ++#define CFG_TX_BUF_OFFSET 0 /* Lets not change this. */ ++#define CFG_TX_TIMEOUT 2000 /* ticks*/ ++#define CFG_TX_INT_DISABLE 1 /* Disable the Tx Complete interrupt */ ++ ++#define CFG_JUMBO_FRAMES 1 ++#define CFG_SHORT_FRAMES 1 ++#define CFG_PROMISCOUS 1 ++#define CFG_BROADCAST 1 ++#define CFG_MULTICAST 1 ++#define CFG_ALL_MULTI (1*(CFG_MULTICAST)) ++#define CFG_AUTO_NEGOTIATION 1 ++ ++#if defined (CONFIG_MIPS_AVALANCHE_MARVELL) ++#define EGRESS_TRAILOR_LEN 4 ++#define CFG_START_LINK_SPEED (_CPMDIO_NOPHY) ++#undef CPMAC_MAX_FRAME_SIZE ++#define CPMAC_MAX_FRAME_SIZE (1518 + EGRESS_TRAILOR_LEN) ++#else ++#define CFG_START_LINK_SPEED (_CPMDIO_10 | _CPMDIO_100 | _CPMDIO_HD | _CPMDIO_FD) /* auto nego */ ++#endif ++ ++#define CFG_LOOP_BACK 1 ++#define CFG_TX_FLOW_CNTL 0 ++#define CFG_RX_FLOW_CNTL 0 ++#define CFG_TX_PACING 0 ++#define CFG_RX_PASS_CRC 0 ++#define CFG_QOS_802_1Q 0 ++#define CFG_TX_NUM_CHAN 1 ++ ++ ++/*----------------------------------------------------------------------------- ++ * Private macros. ++ *---------------------------------------------------------------------------*/ ++#define MAX_TIMER 2 ++#define TX_TIMER 0 ++#define TICK_TIMER 0 ++#define MAX_TX_CHAN 8 ++ ++#define CPMAC_LINK_OFF 0 ++#define CPMAC_LINK_ON 1 ++/*#define CPMAC_SPEED_100 2 ++#define CPMAC_SPEED_10 3 ++#define CPMAC_FULL_DPLX 4 ++#define CPMAC_HALF_DPLX 5*/ ++#define CPMAC_RX_ACTIVITY 2 ++#define CPMAC_TX_ACTIVITY 3 ++ ++struct cpmac_timer_info; ++ ++typedef int (*CPMAC_HAL_ISR_FUNC_T)(HAL_DEVICE*, int*); ++typedef int (*CPMAC_TIMEOUT_CB_T)(struct cpmac_timer_info*); ++ ++typedef struct cpmac_ability_info ++{ ++ int promiscous; ++ int broadcast; ++ int multicast; ++ int all_multi; ++ int loop_back; ++ int jumbo_frames; ++ int short_frames; ++ int auto_negotiation; ++ int tx_flow_control; ++ int rx_flow_control; ++ int tx_pacing; ++ int link_speed; ++ int rx_pass_crc; ++ int qos_802_1q; ++ int tx_num_chan; ++} ++CPMAC_ABILITY_INFO_T; ++ ++#ifdef DEBUG ++typedef struct cpmac_timer_info ++{ ++ void *owner; ++ UINT32 delay_ticks; ++ WDOG_ID timer_id; ++ UINT32 is_running; ++ UINT32 timer_set_at; ++ CPMAC_TIMEOUT_CB_T timeout_CB; ++} CPMAC_TIMER_INFO_T; ++ ++typedef struct ++{ ++ void *owner; ++ unsigned int num_cl_desc; ++ CL_DESC *cl_desc_tbl; ++ M_CL_CONFIG *m_cl_blk_config; ++ NET_POOL *net_pool; ++ CL_POOL_ID clPoolId; ++ ++} CPMAC_NET_MEM_INFO_T; ++ ++#endif ++ ++typedef struct ++{ ++ void *owner; ++ CPMAC_HAL_ISR_FUNC_T hal_isr; ++ struct tasklet_struct tasklet; ++ int intr; ++ ++} CPMAC_ISR_INFO_T; ++ ++typedef struct cpmac_chan ++{ ++ int num_BD; ++ int buffer_size; ++ int buffer_offset; ++ int service_max; ++ int state; ++ int tot_buf_size; ++ int tot_reserve_bytes; ++ ++} CPMAC_CHAN_T; ++ ++#define CHAN_CLOSE 0 ++#define CHAN_OPENED 1 ++ ++typedef struct ++{ ++ int cfg_chan; ++ int dev_chan; ++ int opened_chan; ++ CPMAC_CHAN_T chan[1]; ++ int enable_802_1q; ++ ++} CPMAC_RX_CHAN_INFO_T; ++ ++typedef struct ++{ ++ int cfg_chan; ++ int dev_chan; ++ int opened_chan; ++ int tx_int_disable; ++ CPMAC_CHAN_T chan[MAX_TX_CHAN]; ++ ++} CPMAC_TX_CHAN_INFO_T; ++ ++ ++ ++typedef struct ++{ ++ void *owner; ++ HAL_FUNCTIONS *hal_funcs; ++ HAL_DEVICE *hal_dev; ++ OS_FUNCTIONS *os_funcs; ++// SEM_ID chan_teardown_sem; ++ int non_data_irq_expected; ++} CPMAC_DRV_HAL_INFO_T; ++ ++ ++typedef struct ++{ ++ unsigned long tx_discards; ++ unsigned long rx_discards; ++ unsigned long start_tick; ++ ++} CPMAC_DRV_STATS_T; ++ ++typedef struct ++{ ++ unsigned long ifInGoodFrames; ++ unsigned long ifInBroadcasts; ++ unsigned long ifInMulticasts; ++ unsigned long ifInPauseFrames; ++ unsigned long ifInCRCErrors; ++ unsigned long ifInAlignCodeErrors; ++ unsigned long ifInOversizedFrames; ++ unsigned long ifInJabberFrames; ++ unsigned long ifInUndersizedFrames; ++ unsigned long ifInFragments; ++ unsigned long ifInFilteredFrames; ++ unsigned long ifInQosFilteredFrames; ++ unsigned long ifInOctets; ++ unsigned long ifOutGoodFrames; ++ unsigned long ifOutBroadcasts; ++ unsigned long ifOutMulticasts; ++ unsigned long ifOutPauseFrames; ++ unsigned long ifDeferredTransmissions; ++ unsigned long ifCollisionFrames; ++ unsigned long ifSingleCollisionFrames; ++ unsigned long ifMultipleCollisionFrames; ++ unsigned long ifExcessiveCollisionFrames; ++ unsigned long ifLateCollisions; ++ unsigned long ifOutUnderrun; ++ unsigned long ifCarrierSenseErrors; ++ unsigned long ifOutOctets; ++ unsigned long if64OctetFrames; ++ unsigned long if65To127OctetFrames; ++ unsigned long if128To255OctetFrames; ++ unsigned long if256To511OctetFrames; ++ unsigned long if512To1023OctetFrames; ++ unsigned long if1024ToUPOctetFrames; ++ unsigned long ifNetOctets; ++ unsigned long ifRxSofOverruns; ++ unsigned long ifRxMofOverruns; ++ unsigned long ifRxDMAOverruns; ++ ++} CPMAC_DEVICE_MIB_T; ++ ++ ++typedef struct ++{ ++ void *owner; ++ int timer_count; ++ int timer_created; ++ struct timer_list timer[1]; ++ CPMAC_DRV_HAL_INFO_T *drv_hal; ++ unsigned int num_of_intr; ++ CPMAC_ISR_INFO_T cpmac_isr; ++ unsigned int link_speed; ++ unsigned int link_mode; ++ unsigned int enable_802_1q; ++ unsigned int timer_access_hal; ++ unsigned int loop_back; ++ CPMAC_RX_CHAN_INFO_T *rx_chan_info; ++ CPMAC_TX_CHAN_INFO_T *tx_chan_info; ++ CPMAC_ABILITY_INFO_T *ability_info; ++ CPMAC_DEVICE_MIB_T *device_mib; ++ CPMAC_DRV_STATS_T *stats; ++ unsigned int flags; ++ unsigned int delay_ticks; ++ char mac_addr[6]; ++ struct net_device_stats net_dev_stats; ++// rwlock_t rw_lock; ++ int set_to_close; ++ struct net_device *next_device; ++ unsigned int instance_num; ++ unsigned int non_data_irq_expected; ++ unsigned long dev_size; ++ void* led_handle; ++} CPMAC_PRIVATE_INFO_T; ++ ++ ++/* Private flags */ ++ ++/* bit 0 to 31, bit 32 is used to indicate set or reset */ ++ ++#define IFF_PRIV_SHORT_FRAMES 0x00010000 ++#define IFF_PRIV_JUMBO_FRAMES 0x00020000 ++#define IFF_PRIV_AUTOSPEED 0x00080000 ++#define IFF_PRIV_LINK10_HD 0x00100000 ++#define IFF_PRIV_LINK10_FD 0x00200000 ++#define IFF_PRIV_LINK100_HD 0x00400000 ++#define IFF_PRIV_LINK100_FD 0x00800000 ++#define IFF_PRIV_8021Q_EN 0x01000000 ++#define IFF_PRIV_NUM_TX_CHAN 0x02000000 ++#define IFF_PRIV_TX_FLOW_CNTL 0x04000000 ++#define IFF_PRIV_RX_FLOW_CNTL 0x08000000 ++#define IFF_PRIV_TX_PACING 0x10000000 ++#define IFF_PRIV_RX_PASS_CRC 0x20000000 ++ ++#define PRIVCSFLAGS 0x200 ++#define PRIVCGFLAGS 0x201 ++ ++ ++#define BLOCKING 1 ++#define CHAN_TEARDOWN 2 ++#define CHAN_SETUP 4 ++#define COMPLETE 8 ++#define FREE_BUFFER 16 ++ ++ ++static const char pszStats0[] = "Stats0"; ++static const char pszStats1[] = "Stats1"; ++static const char pszStats2[] = "Stats2"; ++static const char pszStats3[] = "Stats3"; ++static const char pszStats4[] = "Stats4"; ++static const char pszStatsDump[] = "StatsDump"; ++static const char pszStatsClear[] = "StatsClear"; ++static const char pszRX_PASS_CRC[] = "RX_PASS_CRC"; ++static const char pszRX_QOS_EN[] = "RX_QOS_EN"; ++static const char pszRX_NO_CHAIN[] = "RX_NO_CHAIN"; ++static const char pszRX_CMF_EN[] = "RX_CMF_EN"; ++static const char pszRX_CSF_EN[] = "RX_CSF_EN"; ++static const char pszRX_CEF_EN[] = "RX_CEF_EN"; ++static const char pszRX_CAF_EN[] = "RX_CAF_EN"; ++static const char pszRX_PROM_CH[] = "RX_PROM_CH"; ++static const char pszRX_BROAD_EN[] = "RX_BROAD_EN"; ++static const char pszRX_BROAD_CH[] = "RX_BROAD_CH"; ++static const char pszRX_MULT_EN[] = "RX_MULT_EN"; ++static const char pszRX_MULT_CH[] = "RX_MULT_CH"; ++static const char pszTX_PTYPE[] = "TX_PTYPE"; ++static const char pszTX_PACE[] = "TX_PACE"; ++static const char pszMII_EN[] = "MII_EN"; ++static const char pszTX_FLOW_EN[] = "TX_FLOW_EN"; ++static const char pszRX_FLOW_EN[] = "RX_FLOW_EN"; ++static const char pszRX_MAXLEN[] = "RX_MAXLEN"; ++static const char pszRX_FILTERLOWTHRESH[] = "RX_FILTERLOWTHRESH"; ++static const char pszRX0_FLOWTHRESH[] = "RX0_FLOWTHRESH"; ++static const char pszRX_UNICAST_SET[] = "RX_UNICAST_SET"; ++static const char pszRX_UNICAST_CLEAR[] = "RX_UNICAST_CLEAR"; ++static const char pszMdioConnect[] = "MdioConnect"; ++static const char pszMacAddr[] = "MacAddr"; ++static const char pszTick[] = "Tick"; ++static const char pszRX_MULTICAST[] = "RX_MULTICAST"; ++static const char pszRX_MULTI_ALL[] = "RX_MULTI_ALL"; ++static const char pszRX_MULTI_SINGLE[] = "RX_MULTI_SINGLE"; ++ ++static const char pszSet[] = "Set"; ++static const char pszGet[] = "Get"; ++static const char pszClear[] = "Clear"; ++ ++ ++void *cpmac_hal_malloc_buffer(unsigned int size, void *MemBase, unsigned int MemRange, ++ HAL_DEVICE *HalDev, HAL_RECEIVEINFO *HalReceiveInfo, ++ OS_RECEIVEINFO **OsReceiveInfo, OS_DEVICE *OsDev); ++ ++void cpmac_hal_tear_down_complete(OS_DEVICE*, int, int); ++int cpmac_hal_control(OS_DEVICE *p_END_obj, const char *key, ++ const char *action, void *value); ++int cpmac_hal_receive(OS_DEVICE *p_END_obj, FRAGLIST *fragList, ++ unsigned int FragCount, unsigned int pkt_len, ++ HAL_RECEIVEINFO *halReceiveInfo, ++ unsigned int mode); ++int cpmac_hal_send_complete(OS_SENDINFO*); ++ ++void cpmac_hal_isr(int irq, void *p_param, struct pt_regs *p_cb_param); ++void cpmac_handle_tasklet(unsigned long data); ++ ++inline static int cpmac_ci_strcmp(const char *s1, const char *s2) ++{ ++ while(*s1 && *s2) ++ { ++ if(tolower(*s1) != tolower(*s2)) ++ break; ++ s1++; ++ s2++; ++ } ++ ++ return(tolower(*s1) - tolower(*s2)); ++} ++ ++#endif +diff -urN linux.old/drivers/net/avalanche_cpmac/cpmacHalLx.c linux.dev/drivers/net/avalanche_cpmac/cpmacHalLx.c +--- linux.old/drivers/net/avalanche_cpmac/cpmacHalLx.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/cpmacHalLx.c 2005-07-12 02:48:42.044593000 +0200 +@@ -0,0 +1,492 @@ ++/****************************************************************************** ++ * FILE PURPOSE: CPMAC Net Driver HAL support Source ++ ****************************************************************************** ++ * FILE NAME: cpmacHalLx.c ++ * ++ * DESCRIPTION: CPMAC Network Device Driver Source ++ * ++ * REVISION HISTORY: ++ * ++ * Date Description Author ++ *----------------------------------------------------------------------------- ++ * 27 Nov 2002 Initial Creation Suraj S Iyer ++ * 09 Jun 2003 Updates for GA Suraj S Iyer ++ * 18 Dec 2003 Updated for 5.7 Suraj S Iyer ++ * ++ * (C) Copyright 2003, Texas Instruments, Inc ++ *******************************************************************************/ ++#include <linux/kernel.h> ++#include <linux/module.h> ++#include <linux/init.h> ++#include <linux/netdevice.h> ++#include <linux/etherdevice.h> ++#include <linux/delay.h> ++#include <linux/spinlock.h> ++#include <linux/proc_fs.h> ++#include <asm/io.h> ++#include <linux/string.h> ++ ++#include <asm/ar7/avalanche_intc.h> ++ ++#include "cpmacHalLx.h" ++#include "cpmac.h" ++ ++/* PSP config headers */ ++#include "psp_config_parse.h" ++#include "psp_config_mgr.h" ++ ++/* debug */ ++extern int cpmac_debug_mode; ++#define dbgPrint if (cpmac_debug_mode) printk ++#define errPrint printk ++ ++char CpmacSignature[] = "Cpmac driver"; ++static unsigned long irq_flags = 0; ++OS_SETUP *p_os_setup = NULL; ++ ++extern int avalanche_request_intr_pacing(int, unsigned int, unsigned int); ++extern int avalanche_free_intr_pacing(unsigned int blk_num); ++ ++/*---------------------------------------------------------------------------- ++ * Parameter extracting functionalities. ++ *--------------------------------------------------------------------------*/ ++static int os_find_parm_u_int(void *info_ptr, const char *param, unsigned int *val) ++{ ++ int ret_val = 0; ++ ++ if((ret_val = psp_config_get_param_uint(info_ptr, param, val)) == -1) ++ { ++ dbgPrint("Error: could not locate the requested \"%s\" param.\n",param); ++ ret_val = -1; ++ } ++ ++ return(ret_val); ++} ++ ++static int os_find_parm_val(void *info_ptr, const char *param, void *val) ++{ ++ int ret_val = 0; ++ ++ if(psp_config_get_param_string(info_ptr, param, val) == -1) ++ { ++ dbgPrint("Error: could not locate the requested \"%s\" param.\n",param); ++ ret_val = -1; ++ } ++ ++ return(ret_val); ++} ++ ++static int os_find_device(int unit, const char *find_name, void *device_info) ++{ ++ int ret_val = 0; ++ ++ if(psp_config_get((char *)find_name, unit, device_info) == -1) ++ { ++ dbgPrint("Error: could not locate the requested \"%s\" param.\n", find_name); ++ ret_val = -1; ++ } ++ ++ return(ret_val); ++} ++ ++/*--------------------------------------------------------------------------- ++ * Memory related OS abstraction. ++ *--------------------------------------------------------------------------*/ ++void os_free(void *mem_ptr) ++{ ++ kfree(mem_ptr); ++} ++ ++void os_free_buffer(OS_RECEIVEINFO *osReceiveInfo, void *mem_ptr) ++{ ++ dev_kfree_skb_any(osReceiveInfo); ++} ++ ++void os_free_dev(void *mem_ptr) ++{ ++ kfree(mem_ptr); ++} ++ ++void os_free_dma_xfer(void *mem_ptr) ++{ ++ kfree(mem_ptr); ++} ++ ++static void *os_malloc(unsigned int size) ++{ ++ return(kmalloc(size, GFP_KERNEL)); ++} ++ ++static void *os_malloc_dma_xfer(unsigned int size, ++ void *mem_base, ++ unsigned int mem_range) ++{ ++ return(kmalloc(size, GFP_KERNEL)); ++} ++ ++static void *os_malloc_dev(unsigned int size) ++{ ++ return(kmalloc(size, GFP_KERNEL)); ++} ++ ++ ++/*---------------------------------------------------------------------------- ++ * CRITICAL SECTION ENABLING/DISABLING. ++ *--------------------------------------------------------------------------*/ ++static void os_critical_on(void) ++{ ++ save_and_cli(irq_flags); ++} ++ ++static void os_critical_off(void) ++{ ++ restore_flags(irq_flags); ++} ++ ++/*---------------------------------------------------------------------------- ++ * Cache related abstraction ++ *--------------------------------------------------------------------------*/ ++static void os_cache_invalidate(void *mem_ptr, int size) ++{ ++ dma_cache_inv((unsigned long)mem_ptr, size); ++} ++ ++static void os_cache_writeback(void *mem_ptr, int size) ++{ ++ dma_cache_wback_inv((unsigned long)mem_ptr, size); ++} ++ ++/*----------------------------------------------------------------------------- ++ * Support functions. ++ *---------------------------------------------------------------------------*/ ++ ++static void hal_drv_unregister_isr(OS_DEVICE *p_dev, int intr) ++{ ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv = p_dev->priv; ++ CPMAC_ISR_INFO_T *p_isr_cb_param = &p_cpmac_priv->cpmac_isr; ++ intr = LNXINTNUM(intr); ++ ++ free_irq(p_isr_cb_param->intr, p_isr_cb_param); ++ ++ dbgPrint("cpmac_hal_unregister called for the intr %d for unit %x and isr_cb_param %x.\n", ++ intr, p_cpmac_priv->instance_num, (unsigned int )&p_cpmac_priv->cpmac_isr); ++} ++ ++ ++static void hal_drv_register_isr(OS_DEVICE *p_dev, ++ CPMAC_HAL_ISR_FUNC_T hal_isr, int intr) ++{ ++ CPMAC_PRIVATE_INFO_T *p_cpmac_priv = p_dev->priv; ++ CPMAC_DRV_HAL_INFO_T *p_drv_hal = p_cpmac_priv->drv_hal; ++ CPMAC_ISR_INFO_T *p_isr_cb_param = &p_cpmac_priv->cpmac_isr; ++ intr = LNXINTNUM(intr); ++ ++ dbgPrint("osRegister called for the intr %d for device %x and p_isr_cb_param %x.\n", ++ intr, (bit32u)p_dev, (bit32u)p_isr_cb_param); ++ ++ p_isr_cb_param->owner = p_drv_hal; ++ p_isr_cb_param->hal_isr = hal_isr; ++ p_isr_cb_param->intr = intr; ++ ++ tasklet_init(&p_isr_cb_param->tasklet, cpmac_handle_tasklet, (unsigned long)p_isr_cb_param); ++ dbgPrint("Success in registering irq %d for Cpmac unit# %d.\n", intr, p_cpmac_priv->instance_num); ++} ++ ++/*--------------------------------------------------------------------------- ++ * FUNCTIONS called by the CPMAC Net Device. ++ *-------------------------------------------------------------------------*/ ++static int load_os_funcs(OS_FUNCTIONS *os_func) ++{ ++ dbgPrint("os_init_module: Start\n"); ++ if( os_func == 0 ) ++ { ++ return(sizeof(OS_FUNCTIONS)); ++ } ++ ++ os_func->Control = cpmac_hal_control; ++ os_func->CriticalOn = os_critical_on; ++ os_func->CriticalOff = os_critical_off; ++ os_func->DataCacheHitInvalidate = os_cache_invalidate; ++ os_func->DataCacheHitWriteback = os_cache_writeback; ++ os_func->DeviceFindInfo = os_find_device; ++ os_func->DeviceFindParmUint = os_find_parm_u_int; ++ os_func->DeviceFindParmValue= os_find_parm_val; ++ os_func->Free = os_free; ++ os_func->FreeRxBuffer = os_free_buffer; ++ os_func->FreeDev = os_free_dev; ++ os_func->FreeDmaXfer = os_free_dma_xfer; ++ os_func->IsrRegister = hal_drv_register_isr; ++ os_func->IsrUnRegister = hal_drv_unregister_isr; ++ os_func->Malloc = os_malloc; ++ os_func->MallocDev = os_malloc_dev; ++ os_func->MallocDmaXfer = os_malloc_dma_xfer; ++ os_func->MallocRxBuffer = cpmac_hal_malloc_buffer; ++ os_func->Memset = memset; ++ os_func->Printf = printk; ++ os_func->Receive = cpmac_hal_receive; ++ os_func->SendComplete = cpmac_hal_send_complete; ++ os_func->Strcmpi = cpmac_ci_strcmp; ++ os_func->TeardownComplete = cpmac_hal_tear_down_complete; ++ os_func->Strstr = strstr; ++ os_func->Strtoul = simple_strtol; ++ os_func->Sprintf = sprintf; ++ os_func->Strlen = strlen; ++ ++ dbgPrint("os_init_module: Leave\n"); ++ ++ return(0); ++} ++ ++ ++int cpmac_drv_init(CPMAC_DRV_HAL_INFO_T *p_drv_hal) ++{ ++ HAL_DEVICE *p_hal_dev = p_drv_hal->hal_dev; ++ HAL_FUNCTIONS *p_hal_funcs = p_drv_hal->hal_funcs; ++ ++ return(p_hal_funcs->Init(p_hal_dev)); ++} ++ ++int cpmac_drv_cleanup(CPMAC_DRV_HAL_INFO_T *p_drv_hal) ++{ ++ HAL_DEVICE *p_hal_dev = p_drv_hal->hal_dev; ++ HAL_FUNCTIONS *p_hal_funcs = p_drv_hal->hal_funcs; ++ ++ int ret_val = p_hal_funcs->Shutdown(p_hal_dev); ++ ++#if 0 ++ if(ret_val == 0) ++ kfree(p_hal_funcs); ++ else ++ ret_val = -1; ++#endif ++ ++ kfree(p_drv_hal->os_funcs); ++ ++ return (ret_val); ++} ++ ++int cpmac_drv_tx_setup(HAL_FUNCTIONS *p_hal_funcs, ++ HAL_DEVICE *p_hal_dev, ++ CPMAC_TX_CHAN_INFO_T *p_tx_chan_info) ++{ ++ int ret_val = 0; ++ int count = 0; ++ CHANNEL_INFO chan_info; ++ ++ /* Let's setup the TX Channels. */ ++ for(count=0; count < p_tx_chan_info->cfg_chan; count++) ++ { ++ chan_info.Channel = count; ++ chan_info.Direction = DIRECTION_TX; ++ chan_info.TxNumBuffers = p_tx_chan_info->chan[count].num_BD; ++ chan_info.TxServiceMax = p_tx_chan_info->chan[count].service_max; ++ chan_info.TxNumQueues = 0; ++ ++ if((ret_val = p_hal_funcs->ChannelSetup(p_hal_dev, &chan_info, ++ NULL)) != 0) ++ { ++ errPrint("Error in opening channel %d for TX.\n", count); ++ ret_val = -1; ++ break; ++ } ++ ++ p_tx_chan_info->opened_chan++; ++ } ++ ++ return(ret_val); ++} ++ ++int cpmac_drv_rx_setup(HAL_FUNCTIONS *p_hal_funcs, ++ HAL_DEVICE *p_hal_dev, ++ CPMAC_RX_CHAN_INFO_T *p_rx_chan_info) ++{ ++ int ret_val = 0; ++ CHANNEL_INFO chan_info; ++ ++ chan_info.Channel = 0; ++ chan_info.Direction = DIRECTION_RX; ++ chan_info.RxBufSize = p_rx_chan_info->chan[0].buffer_size; ++ chan_info.RxBufferOffset= p_rx_chan_info->chan[0].buffer_offset; ++ chan_info.RxNumBuffers = p_rx_chan_info->chan[0].num_BD; ++ chan_info.RxServiceMax = p_rx_chan_info->chan[0].service_max; ++ ++ if(p_hal_funcs->ChannelSetup(p_hal_dev, &chan_info, p_rx_chan_info) != 0) ++ { ++ errPrint("Error in opening channel %d for RX.\n", 0); ++ ret_val = -1; ++ } ++ ++ return(ret_val); ++} ++ ++int cpmac_drv_start(CPMAC_DRV_HAL_INFO_T *p_drv_hal, ++ CPMAC_TX_CHAN_INFO_T *p_tx_chan_info, ++ CPMAC_RX_CHAN_INFO_T *p_rx_chan_info, ++ unsigned int flags) ++{ ++ int ret_val = 0; ++ HAL_FUNCTIONS *p_hal_funcs = p_drv_hal->hal_funcs; ++ HAL_DEVICE *p_hal_dev = p_drv_hal->hal_dev; ++ ++ dbgPrint("It is in cpmac_drv_start for %x.\n", (unsigned int)p_drv_hal); ++ ++ if(flags & CHAN_SETUP) ++ { ++ if(cpmac_drv_tx_setup(p_hal_funcs, p_hal_dev, ++ p_tx_chan_info)!=0) ++ { ++ errPrint("Failed to set up tx channel(s).\n"); ++ ret_val = -1; ++ } ++ else if(cpmac_drv_rx_setup(p_hal_funcs, p_hal_dev, ++ p_rx_chan_info)!=0) ++ { ++ errPrint("Failed to set up rx channel.\n"); ++ ret_val = -1; ++ } ++ else ++ { ++ ret_val = 0; ++ } ++ } ++ ++ /* Error in setting up the Channels, quit. */ ++ if((ret_val == 0) && (ret_val = p_hal_funcs->Open(p_hal_dev)) != 0) ++ { ++ errPrint("failed to open the HAL!!!.\n"); ++ ret_val = -1; ++ } ++ ++ return (ret_val); ++} /* cpmac_drv_start */ ++ ++ ++ ++int cpmac_drv_tx_teardown(HAL_FUNCTIONS *p_hal_funcs, ++ HAL_DEVICE *p_hal_dev, ++ CPMAC_TX_CHAN_INFO_T *p_tx_chan_info, ++ unsigned int flags) ++{ ++ int ret_val = 0; ++ int count = 0; ++ ++ /* Let's setup the TX Channels. */ ++ for(; p_tx_chan_info->opened_chan > 0; ++ p_tx_chan_info->opened_chan--, count++) ++ { ++ if(p_hal_funcs->ChannelTeardown(p_hal_dev, count, flags) != 0) ++ { ++ errPrint("Error in tearing down channel %d for TX.\n", count); ++ ret_val = -1; ++ break; ++ } ++ } ++ ++ return(ret_val); ++} ++ ++ ++int cpmac_drv_rx_teardown(HAL_FUNCTIONS *p_hal_funcs, ++ HAL_DEVICE *p_hal_dev, ++ unsigned int flags) ++{ ++ int ret_val = 0; ++ ++ if(p_hal_funcs->ChannelTeardown(p_hal_dev, 0, flags) != 0) ++ { ++ errPrint("Error in tearing down channel %d for RX.\n", 0); ++ ret_val = -1; ++ } ++ ++ return(ret_val); ++} ++ ++int cpmac_drv_stop(CPMAC_DRV_HAL_INFO_T *p_drv_hal, ++ CPMAC_TX_CHAN_INFO_T *p_tx_chan_info, ++ CPMAC_RX_CHAN_INFO_T *p_rx_chan_info, ++ unsigned int flags) ++{ ++ HAL_DEVICE *p_hal_dev = p_drv_hal->hal_dev; ++ HAL_FUNCTIONS *p_hal_funcs = p_drv_hal->hal_funcs; ++ int ret_val = 0; ++ ++ if(flags & CHAN_TEARDOWN) ++ { ++ unsigned int chan_flags = 0; ++ ++ if(flags & FREE_BUFFER) chan_flags |= 0x4; /* full tear down */ ++ if(flags & BLOCKING) chan_flags |= 0x8; /* blocking call */ ++ ++ dbgPrint("The teardown flags are %d.\n", flags); ++ dbgPrint("The teardown chan flags are %d.\n", chan_flags); ++ ++ if(cpmac_drv_tx_teardown(p_hal_funcs, p_hal_dev, ++ p_tx_chan_info, chan_flags | 0x1) != 0) ++ { ++ ret_val = -1; ++ errPrint("The tx channel teardown failed.\n"); ++ } ++ else if(cpmac_drv_rx_teardown(p_hal_funcs, p_hal_dev, chan_flags | 0x2) != 0) ++ { ++ ret_val = -1; ++ errPrint("The rx channel teardown failed.\n"); ++ } ++ else ++ { ++ ; ++ } ++ } ++ ++ if(ret_val == 0) ++ { ++ int close_flags = 1; ++ ++ if(flags & FREE_BUFFER) close_flags = 2; ++// if(flags & COMPLETE) close_flags = 3; ++ ++ if(p_hal_funcs->Close(p_hal_dev, close_flags) != 0) ++ { ++ ret_val = -1; ++ } ++ } ++ ++ return(ret_val); ++} ++ ++int cpmac_drv_init_module(CPMAC_DRV_HAL_INFO_T *p_drv_hal, OS_DEVICE *p_os_dev, int inst) ++{ ++ int ret_val = -1; ++ int hal_func_size; ++ ++ dbgPrint("Entering the CpmacInitModule for the inst %d \n", inst); ++ ++ if((p_drv_hal->os_funcs = kmalloc(sizeof(OS_FUNCTIONS), GFP_KERNEL)) == NULL) ++ { ++ errPrint("Failed to allocate memory for OS_FUNCTIONS.\n"); ++ } ++ else if(load_os_funcs(p_drv_hal->os_funcs) != 0) ++ { ++ errPrint("Failed to load OS funcs.\n"); ++ os_free(p_drv_hal->os_funcs); ++ } ++ else if(halCpmacInitModule(&p_drv_hal->hal_dev, p_os_dev, ++ &p_drv_hal->hal_funcs, p_drv_hal->os_funcs, ++ sizeof(*p_drv_hal->os_funcs), ++ &hal_func_size, inst) != 0) ++ { ++ errPrint("halCpmacInitModule failed for inst %d \n", inst); ++ os_free(p_drv_hal->os_funcs); ++ } ++ else if(p_drv_hal->hal_funcs->Probe(p_drv_hal->hal_dev) != 0) ++ { ++ errPrint("halCpmacProbe failed for inst %d \n", inst); ++ os_free(p_drv_hal->os_funcs); ++ } ++ else ++ { ++ /* every thing went well. */ ++ ret_val = 0; ++ } ++ ++ return (ret_val); ++} +diff -urN linux.old/drivers/net/avalanche_cpmac/cpmacHalLx.h linux.dev/drivers/net/avalanche_cpmac/cpmacHalLx.h +--- linux.old/drivers/net/avalanche_cpmac/cpmacHalLx.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/cpmacHalLx.h 2005-07-12 02:48:42.044593000 +0200 +@@ -0,0 +1,51 @@ ++/****************************************************************************** ++ * FILE PURPOSE: CPMAC Linux Device Driver HAL support Header ++ ****************************************************************************** ++ * FILE NAME: cpmacHalVx.h ++ * ++ * DESCRIPTION: CPMAC Linux Device Driver Header ++ * ++ * REVISION HISTORY: ++ * ++ * Date Description Author ++ *----------------------------------------------------------------------------- ++ * 27 Nov 2002 Initial Creation Suraj S Iyer ++ * 09 Jun 2003 Updates for GA Suraj S Iyer ++ * ++ * (C) Copyright 2002, Texas Instruments, Inc ++ *******************************************************************************/ ++ ++#ifndef __CPMAC_HAL_LX_H ++#define __CPMAC_HAL_LX_H ++ ++ ++typedef struct net_device OS_DEVICE; ++typedef struct sk_buff OS_RECEIVEINFO; ++typedef struct sk_buff OS_SENDINFO; ++ ++#ifdef DEBUG ++typedef void HAL_RECEIVEINFO; ++typedef void HAL_DEVICE; ++typedef void OS_SETUP; ++#endif ++ ++#define OS_SETUP void ++#define HAL_DEVICE void ++#define HAL_RECEIVEINFO void ++ ++#define _CPHAL_CPMAC ++ ++#include "cpswhal_cpmac.h" ++#include "cpmac.h" ++ ++int cpmac_drv_start(CPMAC_DRV_HAL_INFO_T *, CPMAC_TX_CHAN_INFO_T*, ++ CPMAC_RX_CHAN_INFO_T *, unsigned int); ++int cpmac_drv_cleanup(CPMAC_DRV_HAL_INFO_T *); ++int cpmac_drv_init(CPMAC_DRV_HAL_INFO_T*); ++int cpmac_drv_close(CPMAC_DRV_HAL_INFO_T*); ++int cpmac_drv_open(CPMAC_DRV_HAL_INFO_T*); ++int cpmac_drv_init_module(CPMAC_DRV_HAL_INFO_T*, OS_DEVICE*, int); ++int cpmac_drv_stop(CPMAC_DRV_HAL_INFO_T *p_drv_hal,CPMAC_TX_CHAN_INFO_T *p_tx_chan_info, ++ CPMAC_RX_CHAN_INFO_T *p_rx_chan_info,unsigned int flags); ++ ++#endif +diff -urN linux.old/drivers/net/avalanche_cpmac/cpmac_reg.h linux.dev/drivers/net/avalanche_cpmac/cpmac_reg.h +--- linux.old/drivers/net/avalanche_cpmac/cpmac_reg.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/cpmac_reg.h 2005-07-12 02:48:42.045593000 +0200 +@@ -0,0 +1,406 @@ ++/**************************************************************************** ++ TNETD73xx Software Support ++ Copyright(c) 2000, Texas Instruments Incorporated. All Rights Reserved. ++ ++ FILE: cpmac_reg.h Register definitions for the CPMAC module ++ ++ DESCRIPTION: ++ This include file contains register definitions for the ++ CPMAC module. ++ ++ HISTORY: ++ 15Nov00 BEGR Original version written ++ 30May02 MICK Added bits for Int Vector ++ 19Sep02 MICK Added INT_ACK per Channel ++ 08Nov02 GDUN Updated to use base ++ 12Nov02 MICK Incorporated into CPHAL ++*****************************************************************************/ ++#ifndef _INC_CPMAC_REG ++#define _INC_CPMAC_REG ++ ++#ifndef MEM_PTR ++#define MEM_PTR volatile bit32u * ++#endif ++ ++/*************************************************************************** ++ * ++ * C P M A C M E M O R Y M A P ++ * ++ **************************************************************************/ ++ ++#define pCPMAC_TX_IDVER(base) ((MEM_PTR)(base+0x000)) ++#define CPMAC_TX_IDVER(base) (*pCPMAC_TX_IDVER(base)) ++#define pCPMAC_TX_CONTROL(base) ((MEM_PTR)(base+0x004)) ++#define CPMAC_TX_CONTROL(base) (*pCPMAC_TX_CONTROL(base)) ++#define pCPMAC_TX_TEARDOWN(base) ((MEM_PTR)(base+0x008)) ++#define CPMAC_TX_TEARDOWN(base) (*pCPMAC_TX_TEARDOWN(base)) ++#define pCPMAC_RX_IDVER(base) ((MEM_PTR)(base+0x010)) ++#define CPMAC_RX_IDVER(base) (*pCPMAC_RX_IDVER(base)) ++#define pCPMAC_RX_CONTROL(base) ((MEM_PTR)(base+0x014)) ++#define CPMAC_RX_CONTROL(base) (*pCPMAC_RX_CONTROL(base)) ++#define pCPMAC_RX_TEARDOWN(base) ((MEM_PTR)(base+0x018)) ++#define CPMAC_RX_TEARDOWN(base) (*pCPMAC_RX_TEARDOWN(base)) ++#define pCPMAC_RX_MBP_ENABLE(base) ((MEM_PTR)(base+0x100)) ++#define CPMAC_RX_MBP_ENABLE(base) (*pCPMAC_RX_MBP_ENABLE(base)) ++#define pCPMAC_RX_UNICAST_SET(base) ((MEM_PTR)(base+0x104)) ++#define CPMAC_RX_UNICAST_SET(base) (*pCPMAC_RX_UNICAST_SET(base)) ++#define pCPMAC_RX_UNICAST_CLEAR(base) ((MEM_PTR)(base+0x108)) ++#define CPMAC_RX_UNICAST_CLEAR(base) (*pCPMAC_RX_UNICAST_CLEAR(base)) ++#define pCPMAC_RX_MAXLEN(base) ((MEM_PTR)(base+0x10C)) ++#define CPMAC_RX_MAXLEN(base) (*pCPMAC_RX_MAXLEN(base)) ++#define pCPMAC_RX_BUFFER_OFFSET(base) ((MEM_PTR)(base+0x110)) ++#define CPMAC_RX_BUFFER_OFFSET(base) (*pCPMAC_RX_BUFFER_OFFSET(base)) ++#define pCPMAC_RX_FILTERLOWTHRESH(base) ((MEM_PTR)(base+0x114)) ++#define CPMAC_RX_FILTERLOWTHRESH(base) (*pCPMAC_RX_FILTERLOWTHRESH(base)) ++#define pCPMAC_RX0_FLOWTHRESH(base) ((MEM_PTR)(base+0x120)) ++#define CPMAC_RX0_FLOWTHRESH(base) (*pCPMAC_RX0_FLOWTHRESH(base)) ++#define pCPMAC_RX1_FLOWTHRESH(base) ((MEM_PTR)(base+0x124)) ++#define CPMAC_RX1_FLOWTHRESH(base) (*pCPMAC_RX1_FLOWTHRESH(base)) ++#define pCPMAC_RX2_FLOWTHRESH(base) ((MEM_PTR)(base+0x128)) ++#define CPMAC_RX2_FLOWTHRESH(base) (*pCPMAC_RX2_FLOWTHRESH(base)) ++#define pCPMAC_RX3_FLOWTHRESH(base) ((MEM_PTR)(base+0x12C)) ++#define CPMAC_RX3_FLOWTHRESH(base) (*pCPMAC_RX3_FLOWTHRESH(base)) ++#define pCPMAC_RX4_FLOWTHRESH(base) ((MEM_PTR)(base+0x130)) ++#define CPMAC_RX4_FLOWTHRESH(base) (*pCPMAC_RX4_FLOWTHRESH(base)) ++#define pCPMAC_RX5_FLOWTHRESH(base) ((MEM_PTR)(base+0x134)) ++#define CPMAC_RX5_FLOWTHRESH(base) (*pCPMAC_RX5_FLOWTHRESH(base)) ++#define pCPMAC_RX6_FLOWTHRESH(base) ((MEM_PTR)(base+0x138)) ++#define CPMAC_RX6_FLOWTHRESH(base) (*pCPMAC_RX6_FLOWTHRESH(base)) ++#define pCPMAC_RX7_FLOWTHRESH(base) ((MEM_PTR)(base+0x13C)) ++#define CPMAC_RX7_FLOWTHRESH(base) (*pCPMAC_RX7_FLOWTHRESH(base)) ++#define pCPMAC_RX0_FREEBUFFER(base) ((MEM_PTR)(base+0x140)) ++#define CPMAC_RX0_FREEBUFFER(base) (*pCPMAC_RX0_FREEBUFFER(base)) ++#define pCPMAC_RX1_FREEBUFFER(base) ((MEM_PTR)(base+0x144)) ++#define CPMAC_RX1_FREEBUFFER(base) (*pCPMAC_RX1_FREEBUFFER(base)) ++#define pCPMAC_RX2_FREEBUFFER(base) ((MEM_PTR)(base+0x148)) ++#define CPMAC_RX2_FREEBUFFER(base) (*pCPMAC_RX2_FREEBUFFER(base)) ++#define pCPMAC_RX3_FREEBUFFER(base) ((MEM_PTR)(base+0x14C)) ++#define CPMAC_RX3_FREEBUFFER(base) (*pCPMAC_RX3_FREEBUFFER(base)) ++#define pCPMAC_RX4_FREEBUFFER(base) ((MEM_PTR)(base+0x150)) ++#define CPMAC_RX4_FREEBUFFER(base) (*pCPMAC_RX4_FREEBUFFER(base)) ++#define pCPMAC_RX5_FREEBUFFER(base) ((MEM_PTR)(base+0x154)) ++#define CPMAC_RX5_FREEBUFFER(base) (*pCPMAC_RX5_FREEBUFFER(base)) ++#define pCPMAC_RX6_FREEBUFFER(base) ((MEM_PTR)(base+0x158)) ++#define CPMAC_RX6_FREEBUFFER(base) (*pCPMAC_RX6_FREEBUFFER(base)) ++#define pCPMAC_RX7_FREEBUFFER(base) ((MEM_PTR)(base+0x15C)) ++#define CPMAC_RX7_FREEBUFFER(base) (*pCPMAC_RX7_FREEBUFFER(base)) ++#define pCPMAC_MACCONTROL(base) ((MEM_PTR)(base+0x160)) ++#define CPMAC_MACCONTROL(base) (*pCPMAC_MACCONTROL(base)) ++#define pCPMAC_MACSTATUS(base) ((MEM_PTR)(base+0x164)) ++#define CPMAC_MACSTATUS(base) (*pCPMAC_MACSTATUS(base)) ++#define pCPMAC_EMCONTROL(base) ((MEM_PTR)(base+0x168)) ++#define CPMAC_EMCONTROL(base) (*pCPMAC_EMCONTROL(base)) ++#define pCPMAC_TX_INTSTAT_RAW(base) ((MEM_PTR)(base+0x170)) ++#define CPMAC_TX_INTSTAT_RAW(base) (*pCPMAC_TX_INTSTAT_RAW(base)) ++#define pCPMAC_TX_INTSTAT_MASKED(base) ((MEM_PTR)(base+0x174)) ++#define CPMAC_TX_INTSTAT_MASKED(base) (*pCPMAC_TX_INTSTAT_MASKED(base)) ++#define pCPMAC_TX_INTMASK_SET(base) ((MEM_PTR)(base+0x178)) ++#define CPMAC_TX_INTMASK_SET(base) (*pCPMAC_TX_INTMASK_SET(base)) ++#define pCPMAC_TX_INTMASK_CLEAR(base) ((MEM_PTR)(base+0x17C)) ++#define CPMAC_TX_INTMASK_CLEAR(base) (*pCPMAC_TX_INTMASK_CLEAR(base)) ++#define pCPMAC_MAC_IN_VECTOR(base) ((MEM_PTR)(base+0x180)) ++#define CPMAC_MAC_IN_VECTOR(base) (*pCPMAC_MAC_IN_VECTOR(base)) ++#define pCPMAC_MAC_EOI_VECTOR(base) ((MEM_PTR)(base+0x184)) ++#define CPMAC_MAC_EOI_VECTOR(base) (*pCPMAC_MAC_EOI_VECTOR(base)) ++#define pCPMAC_RX_INTSTAT_RAW(base) ((MEM_PTR)(base+0x190)) ++#define CPMAC_RX_INTSTAT_RAW(base) (*pCPMAC_RX_INTSTAT_RAW(base)) ++#define pCPMAC_RX_INTSTAT_MASKED(base) ((MEM_PTR)(base+0x194)) ++#define CPMAC_RX_INTSTAT_MASKED(base) (*pCPMAC_RX_INTSTAT_MASKED(base)) ++#define pCPMAC_RX_INTMASK_SET(base) ((MEM_PTR)(base+0x198)) ++#define CPMAC_RX_INTMASK_SET(base) (*pCPMAC_RX_INTMASK_SET(base)) ++#define pCPMAC_RX_INTMASK_CLEAR(base) ((MEM_PTR)(base+0x19C)) ++#define CPMAC_RX_INTMASK_CLEAR(base) (*pCPMAC_RX_INTMASK_CLEAR(base)) ++#define pCPMAC_MAC_INTSTAT_RAW(base) ((MEM_PTR)(base+0x1A0)) ++#define CPMAC_MAC_INTSTAT_RAW(base) (*pCPMAC_MAC_INTSTAT_RAW(base)) ++#define pCPMAC_MAC_INTSTAT_MASKED(base) ((MEM_PTR)(base+0x1A4)) ++#define CPMAC_MAC_INTSTAT_MASKED(base) (*pCPMAC_MAC_INTSTAT_MASKED(base)) ++#define pCPMAC_MAC_INTMASK_SET(base) ((MEM_PTR)(base+0x1A8)) ++#define CPMAC_MAC_INTMASK_SET(base) (*pCPMAC_MAC_INTMASK_SET(base)) ++#define pCPMAC_MAC_INTMASK_CLEAR(base) ((MEM_PTR)(base+0x1AC)) ++#define CPMAC_MAC_INTMASK_CLEAR(base) (*pCPMAC_MAC_INTMASK_CLEAR(base)) ++#define pCPMAC_MACADDRLO_0(base) ((MEM_PTR)(base+0x1B0)) ++#define CPMAC_MACADDRLO_0(base) (*pCPMAC_MACADDRLO_0(base)) ++#define pCPMAC_MACADDRLO_1(base) ((MEM_PTR)(base+0x1B4)) ++#define CPMAC_MACADDRLO_1(base) (*pCPMAC_MACADDRLO_1(base)) ++#define pCPMAC_MACADDRLO_2(base) ((MEM_PTR)(base+0x1B8)) ++#define CPMAC_MACADDRLO_2(base) (*pCPMAC_MACADDRLO_2(base)) ++#define pCPMAC_MACADDRLO_3(base) ((MEM_PTR)(base+0x1BC)) ++#define CPMAC_MACADDRLO_3(base) (*pCPMAC_MACADDRLO_3(base)) ++#define pCPMAC_MACADDRLO_4(base) ((MEM_PTR)(base+0x1C0)) ++#define CPMAC_MACADDRLO_4(base) (*pCPMAC_MACADDRLO_4(base)) ++#define pCPMAC_MACADDRLO_5(base) ((MEM_PTR)(base+0x1C4)) ++#define CPMAC_MACADDRLO_5(base) (*pCPMAC_MACADDRLO_5(base)) ++#define pCPMAC_MACADDRLO_6(base) ((MEM_PTR)(base+0x1C8)) ++#define CPMAC_MACADDRLO_6(base) (*pCPMAC_MACADDRLO_6(base)) ++#define pCPMAC_MACADDRLO_7(base) ((MEM_PTR)(base+0x1CC)) ++#define CPMAC_MACADDRLO_7(base) (*pCPMAC_MACADDRLO_7(base)) ++#define pCPMAC_MACADDRMID(base) ((MEM_PTR)(base+0x1D0)) ++#define CPMAC_MACADDRMID(base) (*pCPMAC_MACADDRMID(base)) ++#define pCPMAC_MACADDRHI(base) ((MEM_PTR)(base+0x1D4)) ++#define CPMAC_MACADDRHI(base) (*pCPMAC_MACADDRHI(base)) ++#define pCPMAC_MACHASH1(base) ((MEM_PTR)(base+0x1D8)) ++#define CPMAC_MACHASH1(base) (*pCPMAC_MACHASH1(base)) ++#define pCPMAC_MACHASH2(base) ((MEM_PTR)(base+0x1DC)) ++#define CPMAC_MACHASH2(base) (*pCPMAC_MACHASH2(base)) ++#define pCPMAC_BOFFTEST(base) ((MEM_PTR)(base+0x1E0)) ++#define CPMAC_BOFFTEST(base) (*pCPMAC_BOFFTEST(base)) ++#define pCPMAC_PACTEST(base) ((MEM_PTR)(base+0x1E4)) ++#define CPMAC_PACTEST(base) (*pCPMAC_PACTEST(base)) ++#define pCPMAC_RXPAUSE(base) ((MEM_PTR)(base+0x1E8)) ++#define CPMAC_RXPAUSE(base) (*pCPMAC_RXPAUSE(base)) ++#define pCPMAC_TXPAUSE(base) ((MEM_PTR)(base+0x1EC)) ++#define CPMAC_TXPAUSE(base) (*pCPMAC_TXPAUSE(base)) ++/* STATISTICS */ ++#define pCPMAC_RXGOODFRAMES(base) ((MEM_PTR)(base+0x200)) ++#define CPMAC_RXGOODFRAMES(base) (*pCPMAC_RXGOODFRAMES(base)) ++#define pCPMAC_RXBROADCASTFRAMES(base) ((MEM_PTR)(base+0x204)) ++#define CPMAC_RXBROADCASTFRAMES(base) (*pCPMAC_RXBROADCASTFRAMES(base)) ++#define pCPMAC_RXMULTICASTFRAMES(base) ((MEM_PTR)(base+0x208)) ++#define CPMAC_RXMULTICASTFRAMES(base) (*pCPMAC_RXMULTICASTFRAMES(base)) ++#define pCPMAC_RXPAUSEFRAMES(base) ((MEM_PTR)(base+0x20C)) ++#define CPMAC_RXPAUSEFRAMES(base) (*pCPMAC_RXPAUSEFRAMES(base)) ++#define pCPMAC_RXCRCERRORS(base) ((MEM_PTR)(base+0x210)) ++#define CPMAC_RXCRCERRORS(base) (*pCPMAC_RXCRCERRORS(base)) ++#define pCPMAC_RXALIGNCODEERRORS(base) ((MEM_PTR)(base+0x214)) ++#define CPMAC_RXALIGNCODEERRORS(base) (*pCPMAC_RXALIGNCODEERRORS(base)) ++#define pCPMAC_RXOVERSIZEDFRAMES(base) ((MEM_PTR)(base+0x218)) ++#define CPMAC_RXOVERSIZEDFRAMES(base) (*pCPMAC_RXOVERSIZEDFRAMES(base)) ++#define pCPMAC_RXJABBERFRAMES(base) ((MEM_PTR)(base+0x21C)) ++#define CPMAC_RXJABBERFRAMES(base) (*pCPMAC_RXJABBERFRAMES(base)) ++#define pCPMAC_RXUNDERSIZEDFRAMES(base) ((MEM_PTR)(base+0x220)) ++#define CPMAC_RXUNDERSIZEDFRAMES(base) (*pCPMAC_RXUNDERSIZEDFRAMES(base)) ++#define pCPMAC_RXFRAGMENTS(base) ((MEM_PTR)(base+0x224)) ++#define CPMAC_RXFRAGMENTS(base) (*pCPMAC_RXFRAGMENTS(base)) ++#define pCPMAC_RXFILTEREDFRAMES(base) ((MEM_PTR)(base+0x228)) ++#define CPMAC_RXFILTEREDFRAMES(base) (*pCPMAC_RXFILTEREDFRAMES(base)) ++#define pCPMAC_RXQOSFILTEREDFRAMES(base) ((MEM_PTR)(base+0x22C)) ++#define CPMAC_RXQOSFILTEREDFRAMES(base) (*pCPMAC_RXQOSFILTEREDFRAMES(base)) ++#define pCPMAC_RXOCTETS(base) ((MEM_PTR)(base+0x230)) ++#define CPMAC_RXOCTETS(base) (*pCPMAC_RXOCTETS(base)) ++#define pCPMAC_TXGOODFRAMES(base) ((MEM_PTR)(base+0x234)) ++#define CPMAC_TXGOODFRAMES(base) (*pCPMAC_TXGOODFRAMES(base)) ++#define pCPMAC_TXBROADCASTFRAMES(base) ((MEM_PTR)(base+0x238)) ++#define CPMAC_TXBROADCASTFRAMES(base) (*pCPMAC_TXBROADCASTFRAMES(base)) ++#define pCPMAC_TXMULTICASTFRAMES(base) ((MEM_PTR)(base+0x23C)) ++#define CPMAC_TXMULTICASTFRAMES(base) (*pCPMAC_TXMULTICASTFRAMES(base)) ++#define pCPMAC_TXPAUSEFRAMES(base) ((MEM_PTR)(base+0x240)) ++#define CPMAC_TXPAUSEFRAMES(base) (*pCPMAC_TXPAUSEFRAMES(base)) ++#define pCPMAC_TXDEFERREDFRAMES(base) ((MEM_PTR)(base+0x244)) ++#define CPMAC_TXDEFERREDFRAMES(base) (*pCPMAC_TXDEFERREDFRAMES(base)) ++#define pCPMAC_TXCOLLISIONFRAMES(base) ((MEM_PTR)(base+0x248)) ++#define CPMAC_TXCOLLISIONFRAMES(base) (*pCPMAC_TXCOLLISIONFRAMES(base)) ++#define pCPMAC_TXSINGLECOLLFRAMES(base) ((MEM_PTR)(base+0x24C)) ++#define CPMAC_TXSINGLECOLLFRAMES(base) (*pCPMAC_TXSINGLECOLLFRAMES(base)) ++#define pCPMAC_TXMULTCOLLFRAMES(base) ((MEM_PTR)(base+0x250)) ++#define CPMAC_TXMULTCOLLFRAMES(base) (*pCPMAC_TXMULTCOLLFRAMES(base)) ++#define pCPMAC_TXEXCESSIVECOLLISIONS(base) ((MEM_PTR)(base+0x254)) ++#define CPMAC_TXEXCESSIVECOLLISIONS(base) (*pCPMAC_TXEXCESSIVECOLLISIONS(base)) ++#define pCPMAC_TXLATECOLLISIONS(base) ((MEM_PTR)(base+0x258)) ++#define CPMAC_TXLATECOLLISIONS(base) (*pCPMAC_TXLATECOLLISIONS(base)) ++#define pCPMAC_TXUNDERRUN(base) ((MEM_PTR)(base+0x25C)) ++#define CPMAC_TXUNDERRUN(base) (*pCPMAC_TXUNDERRUN(base)) ++#define pCPMAC_TXCARRIERSENSEERRORS(base) ((MEM_PTR)(base+0x260)) ++#define CPMAC_TXCARRIERSENSEERRORS(base) (*pCPMAC_TXCARRIERSENSEERRORS(base)) ++#define pCPMAC_TXOCTETS(base) ((MEM_PTR)(base+0x264)) ++#define CPMAC_TXOCTETS(base) (*pCPMAC_TXOCTETS(base)) ++#define pCPMAC_64OCTETFRAMES(base) ((MEM_PTR)(base+0x268)) ++#define CPMAC_64OCTETFRAMES(base) (*pCPMAC_64OCTETFRAMES(base)) ++#define pCPMAC_65T127OCTETFRAMES(base) ((MEM_PTR)(base+0x26C)) ++#define CPMAC_65T127OCTETFRAMES(base) (*pCPMAC_65T127OCTETFRAMES(base)) ++#define pCPMAC_128T255OCTETFRAMES(base) ((MEM_PTR)(base+0x270)) ++#define CPMAC_128T255OCTETFRAMES(base) (*pCPMAC_128T255OCTETFRAMES(base)) ++#define pCPMAC_256T511OCTETFRAMES(base) ((MEM_PTR)(base+0x274)) ++#define CPMAC_256T511OCTETFRAMES(base) (*pCPMAC_256T511OCTETFRAMES(base)) ++#define pCPMAC_512T1023OCTETFRAMES(base) ((MEM_PTR)(base+0x278)) ++#define CPMAC_512T1023OCTETFRAMES(base) (*pCPMAC_512T1023OCTETFRAMES(base)) ++#define pCPMAC_1024TUPOCTETFRAMES(base) ((MEM_PTR)(base+0x27C)) ++#define CPMAC_1024TUPOCTETFRAMES(base) (*pCPMAC_1024TUPOCTETFRAMES(base)) ++#define pCPMAC_NETOCTETS(base) ((MEM_PTR)(base+0x280)) ++#define CPMAC_NETOCTETS(base) (*pCPMAC_NETOCTETS(base)) ++#define pCPMAC_RXSOFOVERRUNS(base) ((MEM_PTR)(base+0x284)) ++#define CPMAC_RXSOFOVERRUNS(base) (*pCPMAC_RXSOFOVERRUNS(base)) ++#define pCPMAC_RXMOFOVERRUNS(base) ((MEM_PTR)(base+0x288)) ++#define CPMAC_RXMOFOVERRUNS(base) (*pCPMAC_RXMOFOVERRUNS(base)) ++#define pCPMAC_RXDMAOVERRUNS(base) ((MEM_PTR)(base+0x28C)) ++#define CPMAC_RXDMAOVERRUNS(base) (*pCPMAC_RXDMAOVERRUNS(base)) ++ ++#define CPMAC_TX_HDP(base,ch) (*(MEM_PTR)(base+0x600+(4*ch))) ++#define pCPMAC_TX0_HDP(base) ((MEM_PTR)(base+0x600)) ++#define CPMAC_TX0_HDP(base) (*pCPMAC_TX0_HDP(base)) ++#define pCPMAC_TX1_HDP(base) ((MEM_PTR)(base+0x604)) ++#define CPMAC_TX1_HDP(base) (*pCPMAC_TX1_HDP(base)) ++#define pCPMAC_TX2_HDP(base) ((MEM_PTR)(base+0x608)) ++#define CPMAC_TX2_HDP(base) (*pCPMAC_TX2_HDP(base)) ++#define pCPMAC_TX3_HDP(base) ((MEM_PTR)(base+0x60C)) ++#define CPMAC_TX3_HDP(base) (*pCPMAC_TX3_HDP(base)) ++#define pCPMAC_TX4_HDP(base) ((MEM_PTR)(base+0x610)) ++#define CPMAC_TX4_HDP(base) (*pCPMAC_TX4_HDP(base)) ++#define pCPMAC_TX5_HDP(base) ((MEM_PTR)(base+0x614)) ++#define CPMAC_TX5_HDP(base) (*pCPMAC_TX5_HDP(base)) ++#define pCPMAC_TX6_HDP(base) ((MEM_PTR)(base+0x618)) ++#define CPMAC_TX6_HDP(base) (*pCPMAC_TX6_HDP(base)) ++#define pCPMAC_TX7_HDP(base) ((MEM_PTR)(base+0x61C)) ++#define CPMAC_TX7_HDP(base) (*pCPMAC_TX7_HDP(base)) ++#define CPMAC_RX_HDP(base,ch) (*(MEM_PTR)(base+0x620+(4*ch))) ++#define pCPMAC_RX0_HDP(base) ((MEM_PTR)(base+0x620)) ++#define CPMAC_RX0_HDP(base) (*pCPMAC_RX0_HDP(base)) ++#define pCPMAC_RX1_HDP(base) ((MEM_PTR)(base+0x624)) ++#define CPMAC_RX1_HDP(base) (*pCPMAC_RX1_HDP(base)) ++#define pCPMAC_RX2_HDP(base) ((MEM_PTR)(base+0x628)) ++#define CPMAC_RX2_HDP(base) (*pCPMAC_RX2_HDP(base)) ++#define pCPMAC_RX3_HDP(base) ((MEM_PTR)(base+0x62C)) ++#define CPMAC_RX3_HDP(base) (*pCPMAC_RX3_HDP(base)) ++#define pCPMAC_RX4_HDP(base) ((MEM_PTR)(base+0x630)) ++#define CPMAC_RX4_HDP(base) (*pCPMAC_RX4_HDP(base)) ++#define pCPMAC_RX5_HDP(base) ((MEM_PTR)(base+0x634)) ++#define CPMAC_RX5_HDP(base) (*pCPMAC_RX5_HDP(base)) ++#define pCPMAC_RX6_HDP(base) ((MEM_PTR)(base+0x638)) ++#define CPMAC_RX6_HDP(base) (*pCPMAC_RX6_HDP(base)) ++#define pCPMAC_RX7_HDP(base) ((MEM_PTR)(base+0x63C)) ++#define CPMAC_RX7_HDP(base) (*pCPMAC_RX7_HDP(base)) ++ ++ ++#define CPMAC_TX_INT_ACK(base,ch) (*(MEM_PTR)(base+0x640+(4*ch))) ++ ++#define pCPMAC_TX0_INT_ACK(base) ((MEM_PTR)(base+0x640)) ++#define CPMAC_TX0_INT_ACK(base) (*pCPMAC_TX0_INT_ACK(base)) ++#define pCPMAC_TX1_INT_ACK(base) ((MEM_PTR)(base+0x644)) ++#define CPMAC_TX1_INT_ACK(base) (*pCPMAC_TX1_INT_ACK(base)) ++#define pCPMAC_TX2_INT_ACK(base) ((MEM_PTR)(base+0x648)) ++#define CPMAC_TX2_INT_ACK(base) (*pCPMAC_TX2_INT_ACK(base)) ++#define pCPMAC_TX3_INT_ACK(base) ((MEM_PTR)(base+0x64C)) ++#define CPMAC_TX3_INT_ACK(base) (*pCPMAC_TX3_INT_ACK(base)) ++#define pCPMAC_TX4_INT_ACK(base) ((MEM_PTR)(base+0x650)) ++#define CPMAC_TX4_INT_ACK(base) (*pCPMAC_TX4_INT_ACK(base)) ++#define pCPMAC_TX5_INT_ACK(base) ((MEM_PTR)(base+0x654)) ++#define CPMAC_TX5_INT_ACK(base) (*pCPMAC_TX5_INT_ACK(base)) ++#define pCPMAC_TX6_INT_ACK(base) ((MEM_PTR)(base+0x658)) ++#define CPMAC_TX6_INT_ACK(base) (*pCPMAC_TX6_INT_ACK(base)) ++#define pCPMAC_TX7_INT_ACK(base) ((MEM_PTR)(base+0x65C)) ++#define CPMAC_TX7_INT_ACK(base) (*pCPMAC_TX7_INT_ACK(base)) ++#define CPMAC_RX_INT_ACK(base,ch) (*(MEM_PTR)(base+0x660+(4*ch))) ++ ++#define pCPMAC_RX0_INT_ACK(base) ((MEM_PTR)(base+0x660)) ++#define CPMAC_RX0_INT_ACK(base) (*pCPMAC_RX0_INT_ACK(base)) ++#define pCPMAC_RX1_INT_ACK(base) ((MEM_PTR)(base+0x664)) ++#define CPMAC_RX1_INT_ACK(base) (*pCPMAC_RX1_INT_ACK(base)) ++#define pCPMAC_RX2_INT_ACK(base) ((MEM_PTR)(base+0x668)) ++#define CPMAC_RX2_INT_ACK(base) (*pCPMAC_RX2_INT_ACK(base)) ++#define pCPMAC_RX3_INT_ACK(base) ((MEM_PTR)(base+0x66C)) ++#define CPMAC_RX3_INT_ACK(base) (*pCPMAC_RX3_INT_ACK(base)) ++#define pCPMAC_RX4_INT_ACK(base) ((MEM_PTR)(base+0x670)) ++#define CPMAC_RX4_INT_ACK(base) (*pCPMAC_RX4_INT_ACK(base)) ++#define pCPMAC_RX5_INT_ACK(base) ((MEM_PTR)(base+0x674)) ++#define CPMAC_RX5_INT_ACK(base) (*pCPMAC_RX5_INT_ACK(base)) ++#define pCPMAC_RX6_INT_ACK(base) ((MEM_PTR)(base+0x678)) ++#define CPMAC_RX6_INT_ACK(base) (*pCPMAC_RX6_INT_ACK(base)) ++#define pCPMAC_RX7_INT_ACK(base) ((MEM_PTR)(base+0x67C)) ++#define CPMAC_RX7_INT_ACK(base) (*pCPMAC_RX7_INT_ACK(base)) ++ ++/****************************************************************************/ ++/* */ ++/* R E G I S T E R B I T D E F I N I T I O N S */ ++/* */ ++/****************************************************************************/ ++ ++/* TX_CONTROL */ ++ ++#define TX_EN (1 << 0) ++ ++/* RX_CONTROL */ ++ ++#define RX_EN (1 << 0) ++ ++/* RX_MBP_ENABLE */ ++ ++#define RX_PASS_CRC (1 << 30) ++#define RX_QOS_EN (1 << 29) ++#define RX_NO_CHAIN (1 << 28) ++ ++#define RX_CMF_EN (1 << 24) ++#define RX_CSF_EN (1 << 23) ++#define RX_CEF_EN (1 << 22) ++#define RX_CAF_EN (1 << 21) ++ ++#define RX_PROM_CH(n) (n << 16) ++#define RX_PROM_CH_MASK RX_PROM_CH(7) ++#define RX_PROM_CH_7 RX_PROM_CH(7) ++#define RX_PROM_CH_6 RX_PROM_CH(6) ++#define RX_PROM_CH_5 RX_PROM_CH(5) ++#define RX_PROM_CH_4 RX_PROM_CH(4) ++#define RX_PROM_CH_3 RX_PROM_CH(3) ++#define RX_PROM_CH_2 RX_PROM_CH(2) ++#define RX_PROM_CH_1 RX_PROM_CH(1) ++#define RX_PROM_CH_0 RX_PROM_CH(0) ++ ++#define RX_BROAD_EN (1 << 13) ++ ++#define RX_BROAD_CH(n) (n << 8) ++#define RX_BROAD_CH_MASK RX_BROAD_CH(7) ++#define RX_BROAD_CH_7 RX_BROAD_CH(7) ++#define RX_BROAD_CH_6 RX_BROAD_CH(6) ++#define RX_BROAD_CH_5 RX_BROAD_CH(5) ++#define RX_BROAD_CH_4 RX_BROAD_CH(4) ++#define RX_BROAD_CH_3 RX_BROAD_CH(3) ++#define RX_BROAD_CH_2 RX_BROAD_CH(2) ++#define RX_BROAD_CH_1 RX_BROAD_CH(1) ++#define RX_BROAD_CH_0 RX_BROAD_CH(0) ++ ++#define RX_MULT_EN (1 << 5) ++ ++#define RX_MULT_CH(n) (n << 0) ++#define RX_MULT_CH_MASK RX_MULT_CH(7) ++#define RX_MULT_CH_7 RX_MULT_CH(7) ++#define RX_MULT_CH_6 RX_MULT_CH(6) ++#define RX_MULT_CH_5 RX_MULT_CH(5) ++#define RX_MULT_CH_4 RX_MULT_CH(4) ++#define RX_MULT_CH_3 RX_MULT_CH(3) ++#define RX_MULT_CH_2 RX_MULT_CH(2) ++#define RX_MULT_CH_1 RX_MULT_CH(1) ++#define RX_MULT_CH_0 RX_MULT_CH(0) ++ ++ ++ ++/* RX_UNICAST_SET */ ++ ++#define RX_CH7_EN (1 << 7) ++#define RX_CH6_EN (1 << 6) ++#define RX_CH5_EN (1 << 5) ++#define RX_CH4_EN (1 << 4) ++#define RX_CH3_EN (1 << 3) ++#define RX_CH2_EN (1 << 2) ++#define RX_CH1_EN (1 << 1) ++#define RX_CH0_EN (1 << 0) ++ ++ ++ ++/* MAC control */ ++#define TX_PTYPE (1 << 9) ++#define TX_PACE (1 << 6) ++#define MII_EN (1 << 5) ++#define TX_FLOW_EN (1 << 4) ++#define RX_FLOW_EN (1 << 3) ++#define MTEST (1 << 2) ++#define CTRL_LOOPBACK (1 << 1) ++#define FULLDUPLEX (1 << 0) ++ ++ ++/* IntVec definitions */ ++#define MAC_IN_VECTOR_STATUS_INT (1 << 19) ++#define MAC_IN_VECTOR_HOST_INT (1 << 18) ++#define MAC_IN_VECTOR_RX_INT_OR (1 << 17) ++#define MAC_IN_VECTOR_TX_INT_OR (1 << 16) ++#define MAC_IN_VECTOR_RX_INT_VEC (7 << 8) ++#define MAC_IN_VECTOR_TX_INT_VEC (7) ++ ++ ++/* MacStatus */ ++ ++#define TX_HOST_ERR_CODE (0xF << 20) ++#define TX_ERR_CH (0x7 << 16) ++#define RX_HOST_ERR_CODE (0xF << 12) ++#define RX_ERR_CH (0x7 << 8) ++#define RX_QOS_ACT (1 << 2) ++#define RX_FLOW_ACT (1 << 1) ++#define TX_FLOW_ACT (1 << 0) ++#endif _INC_CPMAC_REG +diff -urN linux.old/drivers/net/avalanche_cpmac/cpmdio.c linux.dev/drivers/net/avalanche_cpmac/cpmdio.c +--- linux.old/drivers/net/avalanche_cpmac/cpmdio.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/cpmdio.c 2005-07-12 02:48:42.046593000 +0200 +@@ -0,0 +1,960 @@ ++/*************************************************************************** ++** TNETD53xx Software Support ++** Copyright(c) 2002, Texas Instruments Incorporated. All Rights Reserved. ++** ++** FILE: cpmdio.c ++** ++** DESCRIPTION: ++** MDIO Polling State Machine API. Functions will enable mii-Phy ++** negotiation. ++** ++** HISTORY: ++** 01Jan01 Denis, Bill Original ++** 27Mar02 Michael Hanrahan (modified from emacmdio.c) ++** 07May02 Michael Hanrahan replaced clockwait for code delay ++** 10Jul02 Michael Hanrahan more debug, if fallback link is selected ++*****************************************************************************/ ++#define __CPHAL_CPMDIO ++ ++#include "mdio_reg.h" ++ ++#ifdef _CPHAL_CPMAC ++#define mdioPrintf PhyDev->HalDev->OsFunc->Printf ++#else ++#define mdioPrintf printf ++#endif ++ ++typedef struct _phy_device ++{ ++ bit32u miibase; ++ bit32u inst; ++ bit32u PhyState; ++ bit32u MdixMask; ++ bit32u PhyMask; ++ bit32u MLinkMask; ++ bit32u PhyMode; ++#ifdef _CPHAL_CPMAC ++ HAL_DEVICE *HalDev; ++#endif ++} _PHY_DEVICE; ++ ++static void _mdioDelayEmulate(PHY_DEVICE *PhyDev, int ClockWait); ++static void _mdioWaitForAccessComplete(PHY_DEVICE *PhyDev); ++static void _mdioUserAccess(PHY_DEVICE *PhyDev, bit32u method, bit32u regadr, bit32u phyadr, bit32u data); ++static bit32u _mdioUserAccessRead(PHY_DEVICE *PhyDev, bit32u regadr, bit32u phyadr); ++static void _mdioUserAccessWrite(PHY_DEVICE *PhyDev, bit32u regadr, bit32u phyadr, bit32u data); ++ ++static void _mdioDisablePhy(PHY_DEVICE *PhyDev,bit32u PhyNum); ++static void _mdioPhyTimeOut(PHY_DEVICE *PhyDev); ++static void _mdioResetPhy(PHY_DEVICE *PhyDev,bit32u PhyNum); ++ ++static void _mdioDumpPhy(PHY_DEVICE *PhyDev, bit32u p); ++static void _mdioDumpState(PHY_DEVICE *PhyDev); ++ ++/* Auto Mdix */ ++static void _mdioMdixDelay(PHY_DEVICE *PhyDev); ++static int _mdioMdixSupported(PHY_DEVICE *PhyDev); ++ ++static void _MdioDefaultState (PHY_DEVICE *PhyDev); ++static void _MdioFindingState (PHY_DEVICE *PhyDev); ++static void _MdioFoundState (PHY_DEVICE *PhyDev); ++static void _MdioInitState (PHY_DEVICE *PhyDev); ++static void _MdioLinkedState (PHY_DEVICE *PhyDev); ++static void _MdioLinkWaitState (PHY_DEVICE *PhyDev); ++static void _MdioLoopbackState (PHY_DEVICE *PhyDev); ++static void _MdioNwayStartState(PHY_DEVICE *PhyDev); ++static void _MdioNwayWaitState (PHY_DEVICE *PhyDev); ++ ++ ++ ++#ifndef TRUE ++#define TRUE (1==1) ++#endif ++ ++#ifndef FALSE ++#define FALSE (1==2) ++#endif ++ ++#define PHY_NOT_FOUND 0xFFFF /* Used in Phy Detection */ ++ ++/*PhyState breakout */ ++ ++#define PHY_DEV_OFFSET (0) ++#define PHY_DEV_SIZE (5) /* 5 Bits used */ ++#define PHY_DEV_MASK (0x1f<<PHY_DEV_OFFSET) ++ ++#define PHY_STATE_OFFSET (PHY_DEV_SIZE+PHY_DEV_OFFSET) ++#define PHY_STATE_SIZE (5) /* 10 Bits used */ ++#define PHY_STATE_MASK (0x1f<<PHY_STATE_OFFSET) ++ #define INIT (1<<PHY_STATE_OFFSET) ++ #define FINDING (2<<PHY_STATE_OFFSET) ++ #define FOUND (3<<PHY_STATE_OFFSET) ++ #define NWAY_START (4<<PHY_STATE_OFFSET) ++ #define NWAY_WAIT (5<<PHY_STATE_OFFSET) ++ #define LINK_WAIT (6<<PHY_STATE_OFFSET) ++ #define LINKED (7<<PHY_STATE_OFFSET) ++ #define LOOPBACK (8<<PHY_STATE_OFFSET) ++ ++#define PHY_SPEED_OFFSET (PHY_STATE_OFFSET+PHY_STATE_SIZE) ++#define PHY_SPEED_SIZE (1) /* 11 Bits used */ ++#define PHY_SPEED_MASK (1<<PHY_SPEED_OFFSET) ++ ++#define PHY_DUPLEX_OFFSET (PHY_SPEED_OFFSET+PHY_SPEED_SIZE) ++#define PHY_DUPLEX_SIZE (1) /* 12 Bits used */ ++#define PHY_DUPLEX_MASK (1<<PHY_DUPLEX_OFFSET) ++ ++#define PHY_TIM_OFFSET (PHY_DUPLEX_OFFSET+PHY_DUPLEX_SIZE) ++#define PHY_TIM_SIZE (10) /* 22 Bits used */ ++#define PHY_TIM_MASK (0x3ff<<PHY_TIM_OFFSET) ++ #define PHY_FIND_TO ( 2<<PHY_TIM_OFFSET) ++ #define PHY_RECK_TO (200<<PHY_TIM_OFFSET) ++ #define PHY_LINK_TO (500<<PHY_TIM_OFFSET) ++ #define PHY_NWST_TO (500<<PHY_TIM_OFFSET) ++ #define PHY_NWDN_TO (800<<PHY_TIM_OFFSET) ++ #define PHY_MDIX_TO (274<<PHY_TIM_OFFSET) /* 2.74 Seconds <--Spec and empirical */ ++ ++#define PHY_SMODE_OFFSET (PHY_TIM_OFFSET+PHY_TIM_SIZE) ++#define PHY_SMODE_SIZE (5) /* 27 Bits used */ ++#define PHY_SMODE_MASK (0x1f<<PHY_SMODE_OFFSET) ++ #define SMODE_AUTO (0x10<<PHY_SMODE_OFFSET) ++ #define SMODE_FD100 (0x08<<PHY_SMODE_OFFSET) ++ #define SMODE_HD100 (0x04<<PHY_SMODE_OFFSET) ++ #define SMODE_FD10 (0x02<<PHY_SMODE_OFFSET) ++ #define SMODE_HD10 (0x01<<PHY_SMODE_OFFSET) ++ #define SMODE_ALL (0x1f<<PHY_SMODE_OFFSET) ++ ++#define PHY_CHNG_OFFSET (PHY_SMODE_OFFSET+PHY_SMODE_SIZE) ++#define PHY_CHNG_SIZE (1) /* 28 Bits used */ ++#define PHY_CHNG_MASK (1<<PHY_CHNG_OFFSET) ++ #define PHY_CHANGE (1<<PHY_CHNG_OFFSET) ++ ++#define PHY_TIMEDOUT_OFFSET (PHY_CHNG_OFFSET+PHY_CHNG_SIZE) ++#define PHY_TIMEDOUT_SIZE (1) /* 29 Bits used */ ++#define PHY_TIMEDOUT_MASK (1<<PHY_TIMEDOUT_OFFSET) ++ #define PHY_MDIX_SWITCH (1<<PHY_TIMEDOUT_OFFSET) ++ ++#define PHY_MDIX_OFFSET (PHY_TIMEDOUT_OFFSET+PHY_TIMEDOUT_SIZE) ++#define PHY_MDIX_SIZE (1) /* 30 Bits used */ ++#define PHY_MDIX_MASK (1<<PHY_MDIX_OFFSET) ++ #define PHY_MDIX (1<<PHY_MDIX_OFFSET) ++ ++static char *lstate[]={"NULL","INIT","FINDING","FOUND","NWAY_START","NWAY_WAIT","LINK_WAIT","LINKED", "LOOPBACK"}; ++static int cpMacDebug; ++ ++/* Local MDIO Register Macros */ ++ ++#define myMDIO_ALIVE MDIO_ALIVE (PhyDev->miibase) ++#define myMDIO_CONTROL MDIO_CONTROL (PhyDev->miibase) ++#define myMDIO_LINK MDIO_LINK (PhyDev->miibase) ++#define myMDIO_LINKINT MDIO_LINKINT (PhyDev->miibase) ++#define myMDIO_USERACCESS MDIO_USERACCESS(PhyDev->miibase, PhyDev->inst) ++#define myMDIO_USERPHYSEL MDIO_USERPHYSEL(PhyDev->miibase, PhyDev->inst) ++#define myMDIO_VER MDIO_VER (PhyDev->miibase) ++ ++#ifndef VOLATILE32 ++#define VOLATILE32(addr) (*((volatile bit32u *)(addr))) ++#endif ++ ++/************************************ ++*** ++*** Delays at least ClockWait cylces ++*** before returning ++*** ++**************************************/ ++void _mdioDelayEmulate(PHY_DEVICE *PhyDev, int ClockWait) ++ { ++#ifdef _CPHAL_CPMAC /*+RC3.02*/ ++ HAL_DEVICE *HalDev = PhyDev->HalDev; /*+RC3.02*/ ++ osfuncSleep((int*)&ClockWait); /*+RC3.02*/ ++#else /*+RC3.02*/ ++ volatile bit32u i=0; ++ while(ClockWait--) ++ { ++ i |= myMDIO_LINK; /* MDIO register access to burn cycles */ ++ } ++#endif ++ } ++ ++void _mdioWaitForAccessComplete(PHY_DEVICE *PhyDev) ++ { ++ while((myMDIO_USERACCESS & MDIO_USERACCESS_GO)!=0) ++ { ++ } ++ } ++ ++void _mdioUserAccess(PHY_DEVICE *PhyDev, bit32u method, bit32u regadr, bit32u phyadr, bit32u data) ++ { ++ bit32u control; ++ ++ control = MDIO_USERACCESS_GO | ++ (method) | ++ (((regadr) << 21) & MDIO_USERACCESS_REGADR) | ++ (((phyadr) << 16) & MDIO_USERACCESS_PHYADR) | ++ ((data) & MDIO_USERACCESS_DATA); ++ ++ myMDIO_USERACCESS = control; ++ } ++ ++ ++ ++/************************************ ++*** ++*** Waits for MDIO_USERACCESS to be ready and reads data ++*** If 'WaitForData' set, waits for read to complete and returns Data, ++*** otherwise returns 0 ++*** Note: 'data' is 16 bits but we use 32 bits ++*** to be consistent with rest of the code. ++*** ++**************************************/ ++bit32u _mdioUserAccessRead(PHY_DEVICE *PhyDev, bit32u regadr, bit32u phyadr) ++ { ++ ++ _mdioWaitForAccessComplete(PhyDev); /* Wait until UserAccess ready */ ++ _mdioUserAccess(PhyDev, MDIO_USERACCESS_READ, regadr, phyadr, 0); ++ _mdioWaitForAccessComplete(PhyDev); /* Wait for Read to complete */ ++ ++ return(myMDIO_USERACCESS & MDIO_USERACCESS_DATA); ++ } ++ ++ ++/************************************ ++*** ++*** Waits for MDIO_USERACCESS to be ready and writes data ++*** ++**************************************/ ++void _mdioUserAccessWrite(PHY_DEVICE *PhyDev, bit32u regadr, bit32u phyadr, bit32u data) ++ { ++ _mdioWaitForAccessComplete(PhyDev); /* Wait until UserAccess ready */ ++ _mdioUserAccess(PhyDev, MDIO_USERACCESS_WRITE, regadr, phyadr, data); ++ } ++ ++void _mdioDumpPhyDetailed(PHY_DEVICE *PhyDev) ++{ ++ bit32u *PhyState = &PhyDev->PhyState; ++ bit32u PhyNum; ++ int RegData; ++ ++ PhyNum=(*PhyState&PHY_DEV_MASK)>>PHY_DEV_OFFSET; ++ ++ RegData = _mdioUserAccessRead(PhyDev, 0, PhyNum); ++ mdioPrintf("PhyControl: %04X, Lookback=%s, Speed=%s, Duplex=%s\n", ++ RegData, ++ RegData&PHY_LOOP?"On":"Off", ++ RegData&PHY_100?"100":"10", ++ RegData&PHY_FD?"Full":"Half"); ++ RegData = _mdioUserAccessRead(PhyDev, 1, PhyNum); ++ mdioPrintf("PhyStatus: %04X, AutoNeg=%s, Link=%s\n", ++ RegData, ++ RegData&NWAY_COMPLETE?"Complete":"NotComplete", ++ RegData&PHY_LINKED?"Up":"Down"); ++ RegData = _mdioUserAccessRead(PhyDev, 4, PhyNum); ++ mdioPrintf("PhyMyCapability: %04X, 100FD=%s, 100HD=%s, 10FD=%s, 10HD=%s\n", ++ RegData, ++ RegData&NWAY_FD100?"Yes":"No", ++ RegData&NWAY_HD100?"Yes":"No", ++ RegData&NWAY_FD10?"Yes":"No", ++ RegData&NWAY_HD10?"Yes":"No"); ++ ++ RegData = _mdioUserAccessRead(PhyDev, 5, PhyNum); ++ mdioPrintf("PhyPartnerCapability: %04X, 100FD=%s, 100HD=%s, 10FD=%s, 10HD=%s\n", ++ RegData, ++ RegData&NWAY_FD100?"Yes":"No", ++ RegData&NWAY_HD100?"Yes":"No", ++ RegData&NWAY_FD10?"Yes":"No", ++ RegData&NWAY_HD10?"Yes":"No"); ++} ++void _mdioDumpPhy(PHY_DEVICE *PhyDev, bit32u p) ++ { ++ bit32u j,n,PhyAcks; ++ bit32u PhyRegAddr; ++ bit32u phy_num; ++ bit32u PhyMask = PhyDev->PhyMask; ++ ++ PhyAcks=myMDIO_ALIVE; ++ PhyAcks&=PhyMask; /* Only interested in 'our' Phys */ ++ ++ for(phy_num=0,j=1;phy_num<32;phy_num++,j<<=1) ++ { ++ if (PhyAcks&j) ++ { ++ mdioPrintf("%2d%s:",phy_num,(phy_num==p)?">":" "); ++ for(PhyRegAddr=0;PhyRegAddr<6;PhyRegAddr++) ++ { ++ n = _mdioUserAccessRead(PhyDev, PhyRegAddr, phy_num); ++ mdioPrintf(" %04x",n&0x0ffff); ++ } ++ mdioPrintf("\n"); ++ } ++ } ++ _mdioDumpPhyDetailed(PhyDev); ++ } ++ ++void _mdioDumpState(PHY_DEVICE *PhyDev) ++ { ++ bit32u state = PhyDev->PhyState; ++ ++ if (!cpMacDebug) return; ++ ++ mdioPrintf("Phy: %d, ",(state&PHY_DEV_MASK)>>PHY_DEV_OFFSET); ++ mdioPrintf("State: %d/%s, ",(state&PHY_STATE_MASK)>>PHY_STATE_OFFSET,lstate[(state&PHY_STATE_MASK)>>PHY_STATE_OFFSET]); ++ mdioPrintf("Speed: %d, ",(state&PHY_SPEED_MASK)>>PHY_SPEED_OFFSET); ++ mdioPrintf("Dup: %d, ",(state&PHY_DUPLEX_MASK)>>PHY_DUPLEX_OFFSET); ++ mdioPrintf("Tim: %d, ",(state&PHY_TIM_MASK)>>PHY_TIM_OFFSET); ++ mdioPrintf("SMode: %d, ",(state&PHY_SMODE_MASK)>>PHY_SMODE_OFFSET); ++ mdioPrintf("Chng: %d",(state&PHY_CHNG_MASK)>>PHY_CHNG_OFFSET); ++ mdioPrintf("\n"); ++ ++ if (((state&PHY_STATE_MASK)!=FINDING)&&((state&PHY_STATE_MASK)!=INIT)) ++ _mdioDumpPhy(PhyDev, (state&PHY_DEV_MASK)>>PHY_DEV_OFFSET); ++ } ++ ++ ++void _mdioResetPhy(PHY_DEVICE *PhyDev,bit32u PhyNum) ++ { ++ bit16u PhyControlReg; ++ ++ _mdioUserAccessWrite(PhyDev, PHY_CONTROL_REG, PhyNum, PHY_RESET); ++ if (cpMacDebug) ++ mdioPrintf("cpMacMdioPhYReset(%d)\n",PhyNum); ++ ++ /* Read control register until Phy Reset is complete */ ++ do ++ { ++ PhyControlReg = _mdioUserAccessRead(PhyDev, PHY_CONTROL_REG, PhyNum); ++ } ++ while (PhyControlReg & PHY_RESET); /* Wait for Reset to clear */ ++ } ++ ++void _mdioDisablePhy(PHY_DEVICE *PhyDev,bit32u PhyNum) ++ { ++ _mdioUserAccessWrite(PhyDev, PHY_CONTROL_REG, PhyNum, PHY_ISOLATE|PHY_PDOWN); ++ ++ if (cpMacDebug) ++ mdioPrintf("cpMacMdioDisablePhy(%d)\n",PhyNum); ++ ++ } ++ ++void _MdioInitState(PHY_DEVICE *PhyDev) ++ { ++ bit32u *PhyState = &PhyDev->PhyState; ++ bit32u CurrentState; ++ ++ CurrentState=*PhyState; ++ CurrentState=(CurrentState&~PHY_TIM_MASK)|(PHY_FIND_TO); ++ CurrentState=(CurrentState&~PHY_STATE_MASK)|(FINDING); ++ CurrentState=(CurrentState&~PHY_SPEED_MASK); ++ CurrentState=(CurrentState&~PHY_DUPLEX_MASK); ++ CurrentState|=PHY_CHANGE; ++ ++ *PhyState=CurrentState; ++ ++ } ++ ++void _MdioFindingState(PHY_DEVICE *PhyDev) ++ { ++ bit32u *PhyState = &PhyDev->PhyState; ++ bit32u PhyMask = PhyDev->PhyMask; ++ bit32u PhyNum,i,j,PhyAcks; ++ ++ ++ PhyNum=PHY_NOT_FOUND; ++ ++ if (*PhyState&PHY_TIM_MASK) ++ { ++ *PhyState=(*PhyState&~PHY_TIM_MASK)|((*PhyState&PHY_TIM_MASK)-(1<<PHY_TIM_OFFSET)); ++ } ++ else ++ { ++ PhyAcks=myMDIO_ALIVE; ++ PhyAcks&=PhyMask; /* Only interested in 'our' Phys */ ++ ++ for(i=0,j=1;(i<32)&&((j&PhyAcks)==0);i++,j<<=1); ++ ++ if ((PhyAcks)&&(i<32)) PhyNum=i; ++ if (PhyNum!=PHY_NOT_FOUND) ++ { ++ /* Phy Found! */ ++ *PhyState=(*PhyState&~PHY_DEV_MASK)|((PhyNum&PHY_DEV_MASK)<<PHY_DEV_OFFSET); ++ *PhyState=(*PhyState&~PHY_STATE_MASK)|(FOUND); ++ *PhyState|=PHY_CHANGE; ++ if (cpMacDebug) ++ mdioPrintf("cpMacMdioFindingState: PhyNum: %d\n",PhyNum); ++ } ++ else ++ { ++ if (cpMacDebug) ++ mdioPrintf("cpMacMdioFindingState: Timed Out looking for a Phy!\n"); ++ *PhyState|=PHY_RECK_TO; /* This state currently has no support?*/ ++ } ++ } ++ } ++ ++void _MdioFoundState(PHY_DEVICE *PhyDev) ++ { ++ bit32u *PhyState = &PhyDev->PhyState; ++ bit32u PhyMask = PhyDev->PhyMask; ++ bit32u MLinkMask = PhyDev->MLinkMask; ++ bit32u PhyNum,PhyStatus,NWAYadvertise,m,phynum,i,j,PhyAcks; ++ bit32u PhySel; ++ ++ if ((*PhyState&PHY_SMODE_MASK)==0) return; ++ ++ PhyNum=(*PhyState&PHY_DEV_MASK)>>PHY_DEV_OFFSET; ++ ++ PhyAcks=myMDIO_ALIVE; ++ PhyAcks&=PhyMask; /* Only interested in 'our' Phys */ ++ ++ /* Will now isolate all our Phys, except the one we have decided to use */ ++ for(phynum=0,j=1;phynum<32;phynum++,j<<=1) ++ { ++ if (PhyAcks&j) ++ { ++ if (phynum!=PhyNum) /* Do not disabled Found Phy */ ++ _mdioDisablePhy(PhyDev,phynum); ++ } ++ } ++ ++ /* Reset the Phy and proceed with auto-negotiation */ ++ _mdioResetPhy(PhyDev,PhyNum); ++ ++ /* Now setup the MDIOUserPhySel register */ ++ ++ PhySel=PhyNum; /* Set the phy address */ ++ ++ /* Set the way Link will be Monitored */ ++ /* Check the Link Selection Method */ ++ if ((1 << PhyNum) & MLinkMask) ++ PhySel |= MDIO_USERPHYSEL_LINKSEL; ++ ++ myMDIO_USERPHYSEL = PhySel; /* update PHYSEL */ ++ ++ /* Get the Phy Status */ ++ PhyStatus = _mdioUserAccessRead(PhyDev, PHY_STATUS_REG, PhyNum); ++ ++ ++#ifdef _CPHAL_CPMAC ++ /* For Phy Internal loopback test, need to wait until Phy ++ found, then set Loopback */ ++ if (PhyDev->HalDev->MdioConnect & _CPMDIO_LOOPBK) ++ { ++ /* Set Phy in Loopback */ ++ _mdioUserAccessWrite(PhyDev, PHY_CONTROL_REG, PhyNum, PHY_LOOP|PHY_FD); ++ /* Do a read to ensure PHY_LOOP has completed */ ++ _mdioUserAccessRead(PhyDev, PHY_STATUS_REG, PhyNum); ++ *PhyState=(*PhyState&~PHY_STATE_MASK)|(LOOPBACK); ++ *PhyState|=PHY_CHANGE; ++ return; ++ } ++#endif ++ ++ ++ if (cpMacDebug) ++ mdioPrintf("Enable Phy to negotiate external connection\n"); ++ ++ NWAYadvertise=NWAY_SEL; ++ if (*PhyState&SMODE_FD100) NWAYadvertise|=NWAY_FD100; ++ if (*PhyState&SMODE_HD100) NWAYadvertise|=NWAY_HD100; ++ if (*PhyState&SMODE_FD10) NWAYadvertise|=NWAY_FD10; ++ if (*PhyState&SMODE_HD10) NWAYadvertise|=NWAY_HD10; ++ ++ *PhyState&=~(PHY_TIM_MASK|PHY_STATE_MASK); ++ if ((PhyStatus&NWAY_CAPABLE)&&(*PhyState&SMODE_AUTO)) /*NWAY Phy Detected*/ ++ { ++ /*For NWAY compliant Phys */ ++ ++ _mdioUserAccessWrite(PhyDev, NWAY_ADVERTIZE_REG, PhyNum, NWAYadvertise); ++ ++ if (cpMacDebug) ++ { ++ mdioPrintf("NWAY Advertising: "); ++ if (NWAYadvertise&NWAY_FD100) mdioPrintf("FullDuplex-100 "); ++ if (NWAYadvertise&NWAY_HD100) mdioPrintf("HalfDuplex-100 "); ++ if (NWAYadvertise&NWAY_FD10) mdioPrintf("FullDuplex-10 "); ++ if (NWAYadvertise&NWAY_HD10) mdioPrintf("HalfDuplex-10 "); ++ mdioPrintf("\n"); ++ } ++ ++ _mdioUserAccessWrite(PhyDev, PHY_CONTROL_REG, PhyNum, AUTO_NEGOTIATE_EN); ++ ++ _mdioUserAccessWrite(PhyDev, PHY_CONTROL_REG, PhyNum, AUTO_NEGOTIATE_EN|RENEGOTIATE); ++ ++ *PhyState|=PHY_CHANGE|PHY_NWST_TO|NWAY_START; ++ } ++ else ++ { ++ *PhyState&=~SMODE_AUTO; /*The Phy is not capable of auto negotiation! */ ++ m=NWAYadvertise; ++ for(j=0x8000,i=0;(i<16)&&((j&m)==0);i++,j>>=1); ++ m=j; ++ j=0; ++ if (m&(NWAY_FD100|NWAY_HD100)) ++ { ++ j=PHY_100; ++ m&=(NWAY_FD100|NWAY_HD100); ++ } ++ if (m&(NWAY_FD100|NWAY_FD10)) ++ j |= PHY_FD; ++ if (cpMacDebug) ++ mdioPrintf("Requested PHY mode %s Duplex %s Mbps\n",(j&PHY_FD)?"Full":"Half",(j&PHY_100)?"100":"10"); ++ _mdioUserAccessWrite(PhyDev, PHY_CONTROL_REG, PhyNum, j); ++ *PhyState&=~PHY_SPEED_MASK; ++ if (j&PHY_100) ++ *PhyState|=(1<<PHY_SPEED_OFFSET); ++ *PhyState&=~PHY_DUPLEX_MASK; ++ if (j&PHY_FD) ++ *PhyState|=(1<<PHY_DUPLEX_OFFSET); ++ *PhyState|=PHY_CHANGE|PHY_LINK_TO|LINK_WAIT; ++ } ++ _mdioMdixDelay(PhyDev); /* If AutoMdix add delay */ ++ } ++ ++void _MdioNwayStartState(PHY_DEVICE *PhyDev) ++ { ++ bit32u *PhyState = &PhyDev->PhyState; ++ bit32u PhyNum,PhyMode; ++ ++ PhyNum=(*PhyState&PHY_DEV_MASK)>>PHY_DEV_OFFSET; ++ ++ /*Wait for Negotiation to start */ ++ ++ PhyMode=_mdioUserAccessRead(PhyDev, PHY_CONTROL_REG, PhyNum); ++ ++ if((PhyMode&RENEGOTIATE)==0) ++ { ++ _mdioUserAccessRead(PhyDev, PHY_STATUS_REG, PhyNum); /*Flush pending latch bits*/ ++ *PhyState&=~(PHY_STATE_MASK|PHY_TIM_MASK); ++ *PhyState|=PHY_CHANGE|NWAY_WAIT|PHY_NWDN_TO; ++ _mdioMdixDelay(PhyDev); /* If AutoMdix add delay */ ++ } ++ else ++ { ++ if (*PhyState&PHY_TIM_MASK) ++ *PhyState=(*PhyState&~PHY_TIM_MASK)|((*PhyState&PHY_TIM_MASK)-(1<<PHY_TIM_OFFSET)); ++ else ++ _mdioPhyTimeOut(PhyDev); ++ } ++ } ++ ++void _MdioNwayWaitState(PHY_DEVICE *PhyDev) ++ { ++ bit32u *PhyState = &PhyDev->PhyState; ++ bit32u PhyNum,PhyStatus,NWAYadvertise,NWAYREadvertise,NegMode,i,j; ++ ++ PhyNum=(*PhyState&PHY_DEV_MASK)>>PHY_DEV_OFFSET; ++ ++ PhyStatus=_mdioUserAccessRead(PhyDev, PHY_STATUS_REG, PhyNum); ++ ++ if (PhyStatus&NWAY_COMPLETE) ++ { ++ *PhyState|=PHY_CHANGE; ++ *PhyState&=~PHY_SPEED_MASK; ++ *PhyState&=~PHY_DUPLEX_MASK; ++ ++ NWAYadvertise =_mdioUserAccessRead(PhyDev, NWAY_ADVERTIZE_REG, PhyNum); ++ NWAYREadvertise =_mdioUserAccessRead(PhyDev, NWAY_REMADVERTISE_REG, PhyNum); ++ ++ /* Negotiated mode is we and the remote have in common */ ++ NegMode = NWAYadvertise & NWAYREadvertise; ++ ++ if (cpMacDebug) ++ { ++ mdioPrintf("Phy: %d, ",(*PhyState&PHY_DEV_MASK)>>PHY_DEV_OFFSET); ++ mdioPrintf("NegMode %04X, NWAYadvertise %04X, NWAYREadvertise %04X\n", ++ NegMode, NWAYadvertise, NWAYREadvertise); ++ } ++ ++ /* Limit negotiation to fields below */ ++ NegMode &= (NWAY_FD100|NWAY_HD100|NWAY_FD10|NWAY_HD10); ++ ++ if (NegMode==0) ++ { ++ NegMode=(NWAY_HD100|NWAY_HD10)&NWAYadvertise; /*or 10 ?? who knows, Phy is not MII compliant*/ ++ if(cpMacDebug) ++ { ++ mdioPrintf("Mdio:WARNING: Negotiation complete but NO agreement, default is HD\n"); ++ _mdioDumpPhyDetailed(PhyDev); ++ } ++ } ++ for(j=0x8000,i=0;(i<16)&&((j&NegMode)==0);i++,j>>=1); ++ ++ ++ NegMode=j; ++ if (cpMacDebug) ++ { ++ mdioPrintf("Negotiated connection: "); ++ if (NegMode&NWAY_FD100) mdioPrintf("FullDuplex 100 Mbs\n"); ++ if (NegMode&NWAY_HD100) mdioPrintf("HalfDuplex 100 Mbs\n"); ++ if (NegMode&NWAY_FD10) mdioPrintf("FullDuplex 10 Mbs\n"); ++ if (NegMode&NWAY_HD10) mdioPrintf("HalfDuplex 10 Mbs\n"); ++ } ++ if (NegMode!=0) ++ { ++ if (PhyStatus&PHY_LINKED) ++ *PhyState=(*PhyState&~PHY_STATE_MASK)|LINKED; ++ else ++ *PhyState=(*PhyState&~PHY_STATE_MASK)|LINK_WAIT; ++ if (NegMode&(NWAY_FD100|NWAY_HD100)) ++ *PhyState=(*PhyState&~PHY_SPEED_MASK)|(1<<PHY_SPEED_OFFSET); ++ if (NegMode&(NWAY_FD100|NWAY_FD10)) ++ *PhyState=(*PhyState&~PHY_DUPLEX_MASK)|(1<<PHY_DUPLEX_OFFSET); ++ } ++ } ++ else ++ { ++ if (*PhyState&PHY_TIM_MASK) ++ *PhyState=(*PhyState&~PHY_TIM_MASK)|((*PhyState&PHY_TIM_MASK)-(1<<PHY_TIM_OFFSET)); ++ else ++ _mdioPhyTimeOut(PhyDev); ++ } ++ } ++ ++void _MdioLinkWaitState(PHY_DEVICE *PhyDev) ++ { ++ bit32u *PhyState = &PhyDev->PhyState; ++ bit32u PhyStatus; ++ bit32u PhyNum; ++ ++ PhyNum=(*PhyState&PHY_DEV_MASK)>>PHY_DEV_OFFSET; ++ ++ PhyStatus=_mdioUserAccessRead(PhyDev, PHY_STATUS_REG, PhyNum); ++ ++ if (PhyStatus&PHY_LINKED) ++ { ++ *PhyState=(*PhyState&~PHY_STATE_MASK)|LINKED; ++ *PhyState|=PHY_CHANGE; ++ } ++ else ++ { ++ if (*PhyState&PHY_TIM_MASK) ++ *PhyState=(*PhyState&~PHY_TIM_MASK)|((*PhyState&PHY_TIM_MASK)-(1<<PHY_TIM_OFFSET)); ++ else ++ _mdioPhyTimeOut(PhyDev); ++ } ++ } ++ ++void _mdioPhyTimeOut(PHY_DEVICE *PhyDev) ++ { ++ bit32u *PhyState; ++ ++ if(_mdioMdixSupported(PhyDev) == 0) ++ return; /* AutoMdix not supported */ ++ ++ PhyState = &PhyDev->PhyState; ++ ++ /* Indicate MDI/MDIX mode switch is needed */ ++ *PhyState|=PHY_MDIX_SWITCH; ++ ++ /* Toggle the MDIX mode indicatir */ ++ if(*PhyState & PHY_MDIX) ++ *PhyState &= ~PHY_MDIX_MASK; /* Current State is MDIX, set to MDI */ ++ else ++ *PhyState |= PHY_MDIX_MASK; /* Current State is MDI, set to MDIX */ ++ ++ /* Reset state machine to FOUND */ ++ *PhyState=(*PhyState&~PHY_STATE_MASK)|(FOUND); ++ } ++ ++void _MdioLoopbackState(PHY_DEVICE *PhyDev) ++ { ++ return; ++ } ++ ++void _MdioLinkedState(PHY_DEVICE *PhyDev) ++ { ++ bit32u *PhyState = &PhyDev->PhyState; ++ bit32u PhyNum = (*PhyState&PHY_DEV_MASK)>>PHY_DEV_OFFSET; ++ ++ if (myMDIO_LINK&(1<<PhyNum)) return; /* if still Linked, exit*/ ++ ++ /* Not Linked */ ++ *PhyState&=~(PHY_STATE_MASK|PHY_TIM_MASK); ++ if (*PhyState&SMODE_AUTO) ++ *PhyState|=PHY_CHANGE|NWAY_WAIT|PHY_NWDN_TO; ++ else ++ *PhyState|=PHY_CHANGE|PHY_LINK_TO|LINK_WAIT; ++ ++ _mdioMdixDelay(PhyDev); /* If AutoMdix add delay */ ++ } ++ ++void _MdioDefaultState(PHY_DEVICE *PhyDev) ++ { ++ bit32u *PhyState = &PhyDev->PhyState; ++ /*Awaiting a cpMacMdioInit call */ ++ *PhyState|=PHY_CHANGE; ++ } ++ ++ ++/*User Calls********************************************************* */ ++ ++void cpMacMdioClose(PHY_DEVICE *PhyDev, int Full) ++ { ++ } ++ ++ ++int cpMacMdioInit(PHY_DEVICE *PhyDev, bit32u miibase, bit32u inst, bit32u PhyMask, bit32u MLinkMask, bit32u MdixMask, bit32u ResetReg, bit32u ResetBit, bit32u MdioBusFreq, bit32u MdioClockFreq, int verbose, void *Info) ++ { ++ bit32u HighestChannel; ++ bit32u ControlState; ++ bit32u *PhyState = &PhyDev->PhyState; ++ bit32u clkdiv; /*MJH+030328*/ ++ ++ cpMacDebug=verbose; ++ ++ PhyDev->miibase = miibase; ++ PhyDev->inst = inst; ++ PhyDev->PhyMask = PhyMask; ++ PhyDev->MLinkMask = MLinkMask; ++ PhyDev->MdixMask = MdixMask; ++#ifdef _CPHAL_CPMAC ++ PhyDev->HalDev = (HAL_DEVICE*) Info; ++#endif ++ ++ *PhyState &= ~PHY_MDIX_MASK; /* Set initial State to MDI */ ++ ++ /* Check that the channel supplied is within range */ ++ HighestChannel = (myMDIO_CONTROL & MDIO_CONTROL_HIGHEST_USER_CHANNEL) > 8; ++ if(inst > HighestChannel) ++ return(HighestChannel); ++ ++ /*Setup MII MDIO access regs */ ++ ++ /* Calculate the correct value for the mclkdiv */ ++ /* See PITS #14 */ ++ if (MdioClockFreq) /*MJH+030402*/ ++ clkdiv = (MdioBusFreq / MdioClockFreq) - 1; /*MJH+030402*/ ++ else /*MJH+030402*/ ++ clkdiv = 0xFF; /*MJH+030402*/ ++ ++ ControlState = MDIO_CONTROL_ENABLE; ++ ControlState |= (clkdiv & MDIO_CONTROL_CLKDIV); /*MJH+030328*/ ++ ++ /* ++ If mii is not out of reset or if the Control Register is not set correctly ++ then initalize ++ */ ++ if( !(VOLATILE32(ResetReg) & (1 << ResetBit)) || ++ ((myMDIO_CONTROL & (MDIO_CONTROL_CLKDIV | MDIO_CONTROL_ENABLE)) != ControlState) )/*GSG~030404*/ ++ { ++ /* MII not setup, Setup initial condition */ ++ VOLATILE32(ResetReg) &= ~(1 << ResetBit); ++ _mdioDelayEmulate(PhyDev, 64); ++ VOLATILE32(ResetReg) |= (1 << ResetBit); /* take mii out of reset */ ++ _mdioDelayEmulate(PhyDev, 64); ++ myMDIO_CONTROL = ControlState; /* Enable MDIO */ ++ } ++ ++ *PhyState=INIT; ++ ++ if (cpMacDebug) ++ mdioPrintf("cpMacMdioInit\n"); ++ _mdioDumpState(PhyDev); ++ return(0); ++ } ++ ++void cpMacMdioSetPhyMode(PHY_DEVICE *PhyDev,bit32u PhyMode) ++ { ++ bit32u *PhyState = &PhyDev->PhyState; ++ bit32u CurrentState; ++ ++ PhyDev->PhyMode = PhyMode; /* used for AUTOMIDX, planned to replace PhyState fields */ ++ ++ *PhyState&=~PHY_SMODE_MASK; ++ ++ if (PhyMode&NWAY_AUTO) *PhyState|=SMODE_AUTO; ++ if (PhyMode&NWAY_FD100) *PhyState|=SMODE_FD100; ++ if (PhyMode&NWAY_HD100) *PhyState|=SMODE_HD100; ++ if (PhyMode&NWAY_FD10) *PhyState|=SMODE_FD10; ++ if (PhyMode&NWAY_HD10) *PhyState|=SMODE_HD10; ++ ++ CurrentState=*PhyState&PHY_STATE_MASK; ++ if ((CurrentState==NWAY_START)|| ++ (CurrentState==NWAY_WAIT) || ++ (CurrentState==LINK_WAIT) || ++ (CurrentState==LINKED) ) ++ *PhyState=(*PhyState&~PHY_STATE_MASK)|FOUND|PHY_CHANGE; ++ if (cpMacDebug) ++ mdioPrintf("cpMacMdioSetPhyMode:%08X Auto:%d, FD10:%d, HD10:%d, FD100:%d, HD100:%d\n", PhyMode, ++ PhyMode&NWAY_AUTO, PhyMode&NWAY_FD10, PhyMode&NWAY_HD10, PhyMode&NWAY_FD100, ++ PhyMode&NWAY_HD100); ++ _mdioDumpState(PhyDev); ++ } ++ ++/* cpMacMdioTic is called every 10 mili seconds to process Phy states */ ++ ++int cpMacMdioTic(PHY_DEVICE *PhyDev) ++ { ++ bit32u *PhyState = &PhyDev->PhyState; ++ bit32u CurrentState; ++ ++ /*Act on current state of the Phy */ ++ ++ CurrentState=*PhyState; ++ switch(CurrentState&PHY_STATE_MASK) ++ { ++ case INIT: _MdioInitState(PhyDev); break; ++ case FINDING: _MdioFindingState(PhyDev); break; ++ case FOUND: _MdioFoundState(PhyDev); break; ++ case NWAY_START: _MdioNwayStartState(PhyDev); break; ++ case NWAY_WAIT: _MdioNwayWaitState(PhyDev); break; ++ case LINK_WAIT: _MdioLinkWaitState(PhyDev); break; ++ case LINKED: _MdioLinkedState(PhyDev); break; ++ case LOOPBACK: _MdioLoopbackState(PhyDev); break; ++ default: _MdioDefaultState(PhyDev); break; ++ } ++ ++ /*Dump state info if a change has been detected */ ++ ++ if ((CurrentState&~PHY_TIM_MASK)!=(*PhyState&~PHY_TIM_MASK)) ++ _mdioDumpState(PhyDev); ++ ++ /* Check is MDI/MDIX mode switch is needed */ ++ if(*PhyState & PHY_MDIX_SWITCH) ++ { ++ bit32u Mdix; ++ ++ *PhyState &= ~PHY_MDIX_SWITCH; /* Clear Mdix Flip indicator */ ++ ++ if(*PhyState & PHY_MDIX) ++ Mdix = 1; ++ else ++ Mdix = 0; ++ return(_MIIMDIO_MDIXFLIP|Mdix); ++ } ++ ++ /*Return state change to user */ ++ ++ if (*PhyState&PHY_CHNG_MASK) ++ { ++ *PhyState&=~PHY_CHNG_MASK; ++ return(1); ++ } ++ else ++ return(0); ++ } ++ ++/* cpMacMdioGetDuplex is called to retrieve the Duplex info */ ++ ++int cpMacMdioGetDuplex(PHY_DEVICE *PhyDev) ++ { ++ bit32u *PhyState = &PhyDev->PhyState; ++ return((*PhyState&PHY_DUPLEX_MASK)?1:0); /* return 0 or a 1 */ ++ } ++ ++/* cpMacMdioGetSpeed is called to retreive the Speed info */ ++ ++int cpMacMdioGetSpeed(PHY_DEVICE *PhyDev) ++ { ++ bit32u *PhyState = &PhyDev->PhyState; ++ return(*PhyState&PHY_SPEED_MASK); ++ } ++ ++/* cpMacMdioGetPhyNum is called to retreive the Phy Device Adr info */ ++ ++int cpMacMdioGetPhyNum(PHY_DEVICE *PhyDev) ++ { ++ bit32u *PhyState = &PhyDev->PhyState; ++ return((*PhyState&PHY_DEV_MASK)>>PHY_DEV_OFFSET); ++ } ++ ++/* cpMacMdioGetLoopback is called to Determine if the LOOPBACK state has been reached*/ ++ ++int cpMacMdioGetLoopback(PHY_DEVICE *PhyDev) ++ { ++ bit32u *PhyState = &PhyDev->PhyState; ++ return((*PhyState&PHY_STATE_MASK)==LOOPBACK); ++ } ++/* cpMacMdioGetLinked is called to Determine if the LINKED state has been reached*/ ++ ++int cpMacMdioGetLinked(PHY_DEVICE *PhyDev) ++ { ++ bit32u *PhyState = &PhyDev->PhyState; ++ return((*PhyState&PHY_STATE_MASK)==LINKED); ++ } ++ ++void cpMacMdioLinkChange(PHY_DEVICE *PhyDev) ++ { ++ bit32u *PhyState = &PhyDev->PhyState; ++ bit32u PhyNum,PhyStatus; ++ ++ PhyNum=(*PhyState&PHY_DEV_MASK)>>PHY_DEV_OFFSET; ++ ++ if (cpMacMdioGetLinked(PhyDev)) ++ { ++ PhyStatus=_mdioUserAccessRead(PhyDev, PHY_STATUS_REG, PhyNum); ++ ++ if ((PhyStatus&PHY_LINKED)==0) ++ { ++ *PhyState&=~(PHY_TIM_MASK|PHY_STATE_MASK); ++ if (*PhyState&SMODE_AUTO) ++ { ++ _mdioUserAccessWrite(PhyDev, PHY_CONTROL_REG, PhyNum, AUTO_NEGOTIATE_EN|RENEGOTIATE); ++ *PhyState|=PHY_CHANGE|PHY_NWST_TO|NWAY_START; ++ } ++ else ++ { ++ *PhyState|=PHY_CHANGE|PHY_LINK_TO|LINK_WAIT; ++ } ++ } ++ } ++ } ++ ++void cpMacMdioGetVer(bit32u miibase, bit32u *ModID, bit32u *RevMaj, bit32u *RevMin) ++ { ++ bit32u Ver; ++ ++ Ver = MDIO_VER(miibase); ++ ++ *ModID = (Ver & MDIO_VER_MODID) >> 16; ++ *RevMaj = (Ver & MDIO_VER_REVMAJ) >> 8; ++ *RevMin = (Ver & MDIO_VER_REVMIN); ++ } ++ ++int cpMacMdioGetPhyDevSize(void) ++ { ++ return(sizeof(PHY_DEVICE)); ++ } ++ ++ /* returns 0 if current Phy has AutoMdix support, otherwise 0 */ ++int _mdioMdixSupported(PHY_DEVICE *PhyDev) ++ { ++ bit32u *PhyState = &PhyDev->PhyState; ++ bit32u PhyNum; ++ ++ if((PhyDev->PhyMode & NWAY_AUTOMDIX) == 0) ++ return(0); /* AutoMdix not turned on */ ++ ++ PhyNum=(*PhyState&PHY_DEV_MASK)>>PHY_DEV_OFFSET; ++ if( ((1<<PhyNum) & PhyDev->MdixMask) == 0) ++ return(0); /* Phy does not support AutoMdix*/ ++ ++ return(1); ++ } ++ ++/* If current Phy has AutoMdix support add Mdix Delay to the Timer State Value */ ++void _mdioMdixDelay(PHY_DEVICE *PhyDev) ++ { ++ int Delay; ++ bit32u *PhyState = &PhyDev->PhyState; ++#ifdef _CPHAL_CPMAC ++ HAL_DEVICE *HalDev = PhyDev->HalDev; ++#endif ++ ++ if(_mdioMdixSupported(PhyDev) == 0) ++ return; /* AutoMdix not supported */ ++/* Currently only supported when used with the CPMAC */ ++#ifdef _CPHAL_CPMAC ++ /* Get the Delay value in milli-seconds and convert to ten-milli second value */ ++ Delay = cpmacRandomRange(HalDev, _AUTOMDIX_DELAY_MIN, _AUTOMDIX_DELAY_MAX); ++ Delay /= 10; ++ ++ /* Add AutoMidx Random Switch Delay to AutoMdix Link Delay */ ++ ++ Delay += (PHY_MDIX_TO>>PHY_TIM_OFFSET); ++ ++ /* Change Timeout value to AutoMdix standard */ ++ *PhyState &= ~(PHY_TIM_MASK); /* Clear current Time out value */ ++ *PhyState |= (Delay<<PHY_TIM_OFFSET); /* Set new value */ ++#endif ++ } ++ ++ +diff -urN linux.old/drivers/net/avalanche_cpmac/cpmdio.h linux.dev/drivers/net/avalanche_cpmac/cpmdio.h +--- linux.old/drivers/net/avalanche_cpmac/cpmdio.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/cpmdio.h 2005-07-12 02:48:42.047593000 +0200 +@@ -0,0 +1,73 @@ ++/***************************************************************************** ++** TNETD53xx Software Support ++** Copyright(c) 2002, Texas Instruments Incorporated. All Rights Reserved. ++** ++** FILE: cpmdio.h User Include for MDIO API Access ++** ++** DESCRIPTION: ++** This include file contains definitions for the the MDIO API ++** ++** HISTORY: ++** 27Mar02 Michael Hanrahan Original (modified from emacmdio.h) ++** 04Apr02 Michael Hanrahan Added Interrupt Support ++*****************************************************************************/ ++#ifndef _INC_CPMDIO ++#define _INC_CPMDIO ++ ++ ++#ifndef __CPHAL_CPMDIO ++typedef void PHY_DEVICE; ++#endif ++ ++ ++/*Version Information */ ++ ++void cpMacMdioGetVer(bit32u miiBase, bit32u *ModID, bit32u *RevMaj, bit32u *RevMin); ++ ++/*Called once at the begining of time */ ++ ++int cpMacMdioInit(PHY_DEVICE *PhyDev, bit32u miibase, bit32u inst, bit32u PhyMask, bit32u MLinkMask, bit32u MdixMask, bit32u ResetBase, bit32u ResetBit, bit32u MdioBusFreq, bit32u MdioClockFreq, int verbose, void *Info); ++int cpMacMdioGetPhyDevSize(void); ++ ++ ++/*Called every 10 mili Seconds, returns TRUE if there has been a mode change */ ++ ++int cpMacMdioTic(PHY_DEVICE *PhyDev); ++ ++/*Called to set Phy mode */ ++ ++void cpMacMdioSetPhyMode(PHY_DEVICE *PhyDev,bit32u PhyMode); ++ ++/*Calls to retreive info after a mode change! */ ++ ++int cpMacMdioGetDuplex(PHY_DEVICE *PhyDev); ++int cpMacMdioGetSpeed(PHY_DEVICE *PhyDev); ++int cpMacMdioGetPhyNum(PHY_DEVICE *PhyDev); ++int cpMacMdioGetLinked(PHY_DEVICE *PhyDev); ++void cpMacMdioLinkChange(PHY_DEVICE *PhyDev); ++ ++/* Shot Down */ ++ ++void cpMacMdioClose(PHY_DEVICE *PhyDev, int Full); ++ ++ ++/* Phy Mode Values */ ++#define NWAY_AUTOMDIX (1<<16) ++#define NWAY_FD100 (1<<8) ++#define NWAY_HD100 (1<<7) ++#define NWAY_FD10 (1<<6) ++#define NWAY_HD10 (1<<5) ++#define NWAY_AUTO (1<<0) ++ ++/* ++ * ++ * Tic() return values ++ * ++ */ ++ ++#define _MIIMDIO_MDIXFLIP (1<<28) ++ ++#define _AUTOMDIX_DELAY_MIN 80 /* milli-seconds*/ ++#define _AUTOMDIX_DELAY_MAX 200 /* milli-seconds*/ ++ ++#endif /* _INC_CPMDIO */ +diff -urN linux.old/drivers/net/avalanche_cpmac/cppi_cpmac.c linux.dev/drivers/net/avalanche_cpmac/cppi_cpmac.c +--- linux.old/drivers/net/avalanche_cpmac/cppi_cpmac.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/cppi_cpmac.c 2005-07-12 02:48:42.048593000 +0200 +@@ -0,0 +1,1345 @@ ++/************************************************************************* ++ * TNETDxxxx Software Support ++ * Copyright (c) 2002,2003 Texas Instruments Incorporated. All Rights Reserved. ++ * ++ * FILE: cppi.c ++ * ++ * DESCRIPTION: ++ * This file contains shared code for all CPPI modules. ++ * ++ * HISTORY: ++ * 7Aug02 Greg RC1.00 Original Version created. ++ * 27Sep02 Mick RC1.01 Merged for use by CPMAC/CPSAR ++ * 16Oct02 Mick RC1.02 Performance Tweaks (see cppihist.txt) ++ * 12Nov02 Mick RC1.02 Updated to use cpmac_reg.h ++ * 09Jan03 Mick RC3.01 Removed modification to RxBuffer ptr ++ * 28Mar03 Mick 1.03 RxReturn now returns error if Malloc Fails ++ * 10Apr03 Mick 1.03.02 Added Needs Buffer Support ++ * 11Jun03 Mick 1.06.02 halSend() errors corrected ++ * 23Aug04 Mick 1.07.08 cpmac only - Send: bypass threshold check if TxInts re-enabled ++ * ++ * @author Greg Guyotte ++ * @version 1.00 ++ * @date 7-Aug-2002 ++ *****************************************************************************/ ++/* each CPPI module must modify this file, the rest of the ++ code in cppi.c should be totally shared *//* Each CPPI module MUST properly define all constants shown below */ ++ ++/* CPPI registers */ ++ ++/* the following defines are not CPPI specific */ ++ ++static int TxInt(HAL_DEVICE *HalDev, int Ch, int Queue, int *MoreWork); ++ ++static void FreeRx(HAL_DEVICE *HalDev, int Ch) ++ { ++ HAL_RCB *rcb_ptr; /*+GSG 030303*/ ++ int rcbSize = (sizeof(HAL_RCB)+0xf)&~0xf; /*+GSG 030303*/ ++ int Num = HalDev->ChData[Ch].RxNumBuffers, i; /*+GSG 030303*/ ++ ++ /* Free Rx data buffers attached to descriptors, if necessary */ ++ if (HalDev->RcbStart[Ch] != 0) /*+GSG 030303*/ ++ { /*+GSG 030303*/ ++ for(i=0;i<Num;i++) /*+GSG 030303*/ ++ { /*+GSG 030303*/ ++ rcb_ptr = (HAL_RCB *)(HalDev->RcbStart[Ch] + (i*rcbSize)); /*+GSG 030303*/ ++ ++ /* free the data buffer */ ++ if (rcb_ptr->DatPtr != 0) ++ { ++ ++ HalDev->OsFunc->FreeRxBuffer((void *)rcb_ptr->OsInfo, (void *)rcb_ptr->DatPtr); ++ rcb_ptr->OsInfo=0; /*MJH+030522*/ ++ rcb_ptr->DatPtr=0; /*MJH+030522*/ ++ } ++ } /*+GSG 030303*/ ++ } /*+GSG 030303*/ ++ ++ /* free up all desciptors at once */ ++ HalDev->OsFunc->FreeDmaXfer(HalDev->RcbStart[Ch]); ++ ++ /* mark buffers as freed */ ++ HalDev->RcbStart[Ch] = 0; ++ } ++ ++static void FreeTx(HAL_DEVICE *HalDev, int Ch, int Queue) ++ { ++ ++/*+GSG 030303*/ ++ ++ /* free all descriptors at once */ ++ HalDev->OsFunc->FreeDmaXfer(HalDev->TcbStart[Ch][Queue]); ++ ++ HalDev->TcbStart[Ch][Queue] = 0; ++ } ++ ++/* return of 0 means that this code executed, -1 means the interrupt was not ++ a teardown interrupt */ ++static int RxTeardownInt(HAL_DEVICE *HalDev, int Ch) ++ { ++ bit32u base = HalDev->dev_base; ++ ++ /* check to see if the interrupt is a teardown interrupt */ ++ if (((CPMAC_RX_INT_ACK( base , Ch )) & TEARDOWN_VAL) == TEARDOWN_VAL) ++ { ++ /* finish channel teardown */ ++ ++ /* Free channel resources on a FULL teardown */ ++ if (HalDev->RxTeardownPending[Ch] & FULL_TEARDOWN) ++ { ++ FreeRx(HalDev, Ch); ++ } ++ ++ /* bug fix - clear Rx channel pointers on teardown */ ++ HalDev->RcbPool[Ch] = 0; ++ HalDev->RxActQueueHead[Ch] = 0; ++ HalDev->RxActQueueCount[Ch] = 0; ++ HalDev->RxActive[Ch] = FALSE; ++ ++ /* write completion pointer */ ++ (CPMAC_RX_INT_ACK( base , Ch )) = TEARDOWN_VAL; ++ ++ /* use direction bit as a teardown pending bit! May be able to ++ use only one teardown pending integer in HalDev */ ++ ++ HalDev->RxTeardownPending[Ch] &= ~RX_TEARDOWN; ++ ++ HalDev->ChIsOpen[Ch][DIRECTION_RX] = 0; ++ ++ HalDev->ChIsOpen[Ch][DIRECTION_RX] = 0; ++ CPMAC_RX_INTMASK_CLEAR(HalDev->dev_base) = (1<<Ch); ++ if ((HalDev->RxTeardownPending[Ch] & BLOCKING_TEARDOWN) == 0) ++ { ++ ++ HalDev->OsFunc->TeardownComplete(HalDev->OsDev, Ch, DIRECTION_RX); ++ } ++ HalDev->RxTeardownPending[Ch] = 0; ++ ++ return (EC_NO_ERRORS); ++ } ++ return (-1); ++ } ++ ++/* return of 0 means that this code executed, -1 means the interrupt was not ++ a teardown interrupt. Note: this code is always called with Queue == 0 (hi priority). */ ++static int TxTeardownInt(HAL_DEVICE *HalDev, int Ch, int Queue) ++ { ++ bit32u base = HalDev->dev_base; ++ HAL_TCB *Last, *Curr, *First; /*+GSG 030303*/ ++ int i; ++ ++ if (((CPMAC_TX_INT_ACK( base , Ch )) & TEARDOWN_VAL) == TEARDOWN_VAL) ++ { ++ /* perform all actions for both queues (+GSG 040212) */ ++ for (i=0; i<HalDev->ChData[Ch].TxNumQueues; i++) ++ { ++ /* return outstanding buffers to OS +RC3.02*/ ++ Curr = HalDev->TxActQueueHead[Ch][i]; /*+GSG 030303*/ ++ First = Curr; /*+GSG 030303*/ ++ while (Curr) /*+GSG 030303*/ ++ { /*+GSG 030303*/ ++ /* Pop TCB(s) for packet from the stack */ /*+GSG 030303*/ ++ Last = Curr->Eop; /*+GSG 030303*/ ++ HalDev->TxActQueueHead[Ch][i] = Last->Next; /*+GSG 030303*/ ++ /*+GSG 030303*/ ++ /* return to OS */ /*+GSG 030303*/ ++ HalDev->OsFunc->SendComplete(Curr->OsInfo); /*+GSG 030303*/ ++ /*+GSG 030303*/ ++ /* Push Tcb(s) back onto the stack */ /*+GSG 030303*/ ++ Curr = Last->Next; /*+GSG 030303*/ ++ Last->Next = HalDev->TcbPool[Ch][i]; /*+GSG 030303*/ ++ HalDev->TcbPool[Ch][i] = First; /*+GSG 030303*/ ++ /*+GSG 030303*/ ++ /* set the first(SOP) pointer for the next packet */ /*+GSG 030303*/ ++ First = Curr; /*+GSG 030303*/ ++ } /*+GSG 030303*/ ++ } ++ ++ /* finish channel teardown */ ++ ++ if (HalDev->TxTeardownPending[Ch] & FULL_TEARDOWN) ++ { ++ FreeTx(HalDev, Ch, 0); ++ ++ if (HalDev->ChData[Ch].TxNumQueues == 2) ++ FreeTx(HalDev, Ch, 1); ++ } /* if FULL teardown */ ++ ++ /* perform all actions for both queues (+GSG 040212) */ ++ for (i=0; i<HalDev->ChData[Ch].TxNumQueues; i++) ++ { ++ /* bug fix - clear Tx channel pointers on teardown */ ++ HalDev->TcbPool[Ch][i] = 0; ++ HalDev->TxActQueueHead[Ch][i] = 0; ++ HalDev->TxActQueueCount[Ch][i] = 0; ++ HalDev->TxActive[Ch][i] = FALSE; ++ } ++ ++ /* write completion pointer, only needed for the high priority queue */ ++ (CPMAC_TX_INT_ACK( base , Ch )) = TEARDOWN_VAL; ++ ++ /* no longer pending teardown */ ++ HalDev->TxTeardownPending[Ch] &= ~TX_TEARDOWN; ++ ++ HalDev->ChIsOpen[Ch][DIRECTION_TX] = 0; ++ ++ HalDev->ChIsOpen[Ch][DIRECTION_TX] = 0; ++ CPMAC_TX_INTMASK_CLEAR(HalDev->dev_base) = (1<<Ch); ++ if ((HalDev->TxTeardownPending[Ch] & BLOCKING_TEARDOWN) == 0) ++ { ++ ++ HalDev->OsFunc->TeardownComplete(HalDev->OsDev, Ch, DIRECTION_TX); ++ } ++ HalDev->TxTeardownPending[Ch] = 0; ++ ++ return (EC_NO_ERRORS); ++ } ++ return (-1); ++ } ++ ++/* +GSG 030421 */ ++static void AddToRxQueue(HAL_DEVICE *HalDev, HAL_RCB *FirstRcb, HAL_RCB *LastRcb, int FragCount, int Ch) ++ { ++ if (HalDev->RxActQueueHead[Ch]==0) ++ { ++ ++ HalDev->RxActQueueHead[Ch]=FirstRcb; ++ HalDev->RxActQueueTail[Ch]=LastRcb; ++ if (!HalDev->RxActive[Ch]) ++ { ++ /* write Rx Queue Head Descriptor Pointer */ ++ ((CPMAC_RX_HDP( HalDev->dev_base , Ch )) ) = VirtToPhys(FirstRcb) - HalDev->offset; ++ HalDev->RxActive[Ch]=TRUE; ++ } ++ } ++ else ++ { ++ register HAL_RCB *OldTailRcb; ++ register bit32u rmode; ++ ++ HalDev->OsFunc->CriticalOn(); ++ OldTailRcb=HalDev->RxActQueueTail[Ch]; ++ OldTailRcb->Next=(void *)FirstRcb; ++ OldTailRcb=VirtToVirtNoCache(OldTailRcb); ++ OldTailRcb->HNext=VirtToPhys(FirstRcb) - HalDev->offset; ++ HalDev->RxActQueueTail[Ch]=LastRcb; ++ rmode=OldTailRcb->mode; ++ if (rmode&CB_EOQ_BIT) ++ { ++ rmode&=~CB_EOQ_BIT; ++ ((CPMAC_RX_HDP( HalDev->dev_base , Ch )) ) = VirtToPhys(FirstRcb) - HalDev->offset; ++ OldTailRcb->mode=rmode; ++ } ++ HalDev->OsFunc->CriticalOff(); ++ } ++ } ++ ++/** ++ * @ingroup CPHAL_Functions ++ * This function is called to indicate to the CPHAL that the upper layer ++ * software has finished processing the receive data (given to it by ++ * osReceive()). The CPHAL will then return the appropriate receive buffers ++ * and buffer descriptors to the available pool. ++ * ++ * @param HalReceiveInfo Start of receive buffer descriptor chain returned to ++ * CPHAL. ++ * @param StripFlag Flag indicating whether the upper layer software has ++ * retained ownership of the receive data buffers. ++ *<BR> ++ * 'FALSE' means that the CPHAL can reuse the receive data buffers. ++ *<BR> ++ * 'TRUE' : indicates the data buffers were retained by the OS ++ *<BR> ++ * NOTE: If StripFlag is TRUE, it is the responsibility of the upper layer software to free the buffers when they are no longer needed. ++ * ++ * @return EC_NO_ERRORS (ok). <BR> ++ * Possible Error Codes:<BR> ++ * @ref EC_VAL_INVALID_STATE "EC_VAL_INVALID_STATE"<BR> ++ * @ref EC_VAL_RCB_NEEDS_BUFFER "EC_VAL_RCB_NEEDS_BUFFER"<BR> ++ * @ref EC_VAL_RCB_DROPPED "EC_VAL_RCB_DROPPED"<BR> ++ */ ++static int halRxReturn(HAL_RECEIVEINFO *HalReceiveInfo, ++ int StripFlag) ++ { ++ int Ch, i; ++ HAL_RCB *LastRcb; ++ HAL_DEVICE *HalDev; ++ int RcbSize; ++ int FragCount; ++ ++ Ch = HalReceiveInfo->mode&0x0ff; ++ HalDev = (HAL_DEVICE *)HalReceiveInfo->Off_BLen; ++ FragCount = HalReceiveInfo->mode>>8; ++ ++ if (HalDev->State != enOpened) ++ return(EC_CPMAC |EC_FUNC_RXRETURN|EC_VAL_INVALID_STATE); ++ ++ LastRcb=(HAL_RCB *)HalReceiveInfo->Eop; ++ LastRcb->HNext=0; ++ LastRcb->Next=0; ++ RcbSize = HalDev->ChData[Ch].RxBufSize; ++ ++ if (FragCount>1) ++ { ++ LastRcb->Off_BLen=RcbSize; ++ LastRcb->mode=CB_OWNERSHIP_BIT; ++ } ++ ++ HalReceiveInfo->Off_BLen=RcbSize; ++ HalReceiveInfo->mode=CB_OWNERSHIP_BIT; ++ ++ /* If OS has kept the buffers for this packet, attempt to alloc new buffers */ ++ if (StripFlag) ++ { ++ int rc=0; /*MJH+030417*/ ++ int GoodCount=0; /*GSG+030421*/ ++ HAL_RCB *TempRcb; ++ char *pBuf; ++ HAL_RCB *CurrHeadRcb = HalReceiveInfo, *LastGoodRcb=0; /* +GSG 030421 */ ++ ++ TempRcb = HalReceiveInfo; ++ for (i=0; i<FragCount; i++) ++ { ++ if (TempRcb == 0) ++ { ++ dbgPrintf("Rx Return error while allocating new buffers\n"); ++ dbgPrintf("Rcb = %08x, Rcb->Eop = %08x, FragCount = %d:%d\n", ++ (bit32u)HalReceiveInfo, (bit32u)HalReceiveInfo->Eop, FragCount,i); ++ osfuncSioFlush(); ++ ++ return(EC_CPPI|EC_FUNC_RXRETURN|EC_VAL_CORRUPT_RCB_CHAIN); ++ } ++ ++ pBuf= (char *) HalDev->OsFunc->MallocRxBuffer(RcbSize,0, ++ 0xF,HalDev->ChData[Ch].OsSetup, ++ (void *)TempRcb, ++ (void *)&TempRcb->OsInfo, ++ (void *) HalDev->OsDev); ++ if (!pBuf) ++ { ++ /* malloc failed, add this RCB to Needs Buffer List */ ++ (HAL_RCB *)TempRcb->Eop = TempRcb; /* GSG +030430 */ ++ TempRcb->mode=1<<8|Ch; ++ TempRcb->Off_BLen=(bit32u)HalDev; ++ ++ if(HalDev->NeedsCount < MAX_NEEDS) /* +MJH 030410 */ ++ { /* +MJH 030410 */ ++ HalDev->Needs[HalDev->NeedsCount] = (HAL_RECEIVEINFO *) TempRcb; /* +MJH 030410 */ ++ HalDev->NeedsCount++; /* +MJH 030410 */ ++ rc = (EC_CPPI|EC_FUNC_RXRETURN|EC_VAL_RCB_NEEDS_BUFFER); /* ~MJH 030417 */ ++ } /* +MJH 030410 */ ++ else /* +MJH 030410 */ ++ rc = (EC_CPPI|EC_FUNC_RXRETURN|EC_VAL_RCB_DROPPED); /* ~MJH 030417 */ ++ ++ /* requeue any previous RCB's that were ready to go before this one */ ++ if (GoodCount > 0) /* +GSG 030421 */ ++ { /* +GSG 030421 */ ++ LastGoodRcb->HNext=0; /* +GSG 030430 */ ++ LastGoodRcb->Next=0; /* +GSG 030430 */ ++ osfuncDataCacheHitWritebackAndInvalidate((void *)LastGoodRcb, 16); /* +GSG 030430 */ ++ ++ AddToRxQueue(HalDev, CurrHeadRcb, LastGoodRcb, GoodCount, Ch); /* +GSG 030421 */ ++ GoodCount = 0; /* +GSG 030421 */ ++ } /* +GSG 030421 */ ++ ++ CurrHeadRcb = TempRcb->Next; /* +GSG 030421 */ ++ } ++ else /* +GSG 030421 */ ++ { /* +GSG 030421 */ ++ /* malloc succeeded, requeue the RCB to the hardware */ ++ TempRcb->BufPtr=VirtToPhys(pBuf) - HalDev->offset; ++ TempRcb->DatPtr=pBuf; ++ /* Emerald fix 10/29 */ ++ osfuncDataCacheHitWritebackAndInvalidate((void *)TempRcb, 16); ++ ++ /* i store the last good RCB in case the malloc fails for the ++ next fragment. This ensures that I can go ahead and return ++ a partial chain of RCB's to the hardware */ ++ LastGoodRcb = TempRcb; /* +GSG 030421 */ ++ GoodCount++; /* +GSG 030421 */ ++ } /* +GSG 030421 */ ++ TempRcb = TempRcb->Next; ++ } /* end of Frag loop */ ++ /* if there any good RCB's to requeue, do so here */ ++ if (GoodCount > 0) /* +GSG 030421 */ ++ { ++ AddToRxQueue(HalDev, CurrHeadRcb, LastGoodRcb, GoodCount, Ch); /* +GSG 030421 */ ++ } ++ return(rc); /* ~GSG 030421 */ ++ } ++ else ++ { ++ /* Not Stripping */ ++ /* Emerald */ ++ /* Write Back SOP and last RCB */ ++ osfuncDataCacheHitWritebackAndInvalidate((void *)HalReceiveInfo, 16); ++ ++ if (FragCount > 1) ++ { ++ osfuncDataCacheHitWritebackAndInvalidate((void *)LastRcb, 16); ++ } ++ /* if not stripping buffers, always add to queue */ ++ AddToRxQueue(HalDev, HalReceiveInfo, LastRcb, FragCount, Ch); /*MJH~030520*/ ++ } ++ ++ return(EC_NO_ERRORS); ++ } ++ ++/* +MJH 030410 ++ Trys to liberate an RCB until liberation fails. ++ Note: If liberation fails then RxReturn will re-add the RCB to the ++ Needs list. ++*/ ++static void NeedsCheck(HAL_DEVICE *HalDev) ++{ ++ HAL_RECEIVEINFO* HalRcb; ++ int rc; ++ HalDev->OsFunc->CriticalOn(); ++ while(HalDev->NeedsCount) ++ { ++ HalDev->NeedsCount--; ++ HalRcb = HalDev->Needs[HalDev->NeedsCount]; ++ rc = halRxReturn(HalRcb, 1); ++ /* short circuit if RxReturn starts to fail */ ++ if (rc != 0) ++ break; ++ } ++ HalDev->OsFunc->CriticalOff(); ++} ++ ++/* ++ * This function allocates transmit buffer descriptors (internal CPHAL function). ++ * It creates a high priority transmit queue by default for a single Tx ++ * channel. If QoS is enabled for the given CPHAL device, this function ++ * will also allocate a low priority transmit queue. ++ * ++ * @param HalDev CPHAL module instance. (set by cphalInitModule()) ++ * @param Ch Channel number. ++ * ++ * @return 0 OK, Non-Zero Not OK ++ */ ++static int InitTcb(HAL_DEVICE *HalDev, int Ch) ++ { ++ int i, Num = HalDev->ChData[Ch].TxNumBuffers; ++ HAL_TCB *pTcb=0; ++ char *AllTcb; ++ int tcbSize, Queue; ++ int SizeMalloc; ++ ++ tcbSize = (sizeof(HAL_TCB)+0xf)&~0xf; ++ SizeMalloc = (tcbSize*Num)+0xf; ++ ++ for (Queue=0; Queue < HalDev->ChData[Ch].TxNumQueues; Queue++) ++ { ++ if (HalDev->TcbStart[Ch][Queue] == 0) ++ { ++ ++ /* malloc all TCBs at once */ ++ AllTcb = (char *)HalDev->OsFunc->MallocDmaXfer(SizeMalloc,0,0xffffffff); ++ if (!AllTcb) ++ { ++ return(EC_CPPI|EC_FUNC_HAL_INIT|EC_VAL_TCB_MALLOC_FAILED); ++ } ++ ++ HalDev->OsFunc->Memset(AllTcb, 0, SizeMalloc); ++ ++ /* keep this address for freeing later */ ++ HalDev->TcbStart[Ch][Queue] = AllTcb; ++ } ++ else ++ { ++ /* if the memory has already been allocated, simply reuse it! */ ++ AllTcb = HalDev->TcbStart[Ch][Queue]; ++ } ++ ++ /* align to cache line */ ++ AllTcb = (char *)(((bit32u)AllTcb + 0xf) &~ 0xf); /*PITS #143 MJH~030522*/ ++ ++ /* default High priority transmit queue */ ++ HalDev->TcbPool[Ch][Queue]=0; ++ for(i=0;i<Num;i++) ++ { ++ /*pTcb=(HAL_TCB *) OsFunc->MallocDmaXfer(sizeof(HAL_TCB),0,0xffffffff); */ ++ pTcb= (HAL_TCB *)(AllTcb + (i*tcbSize)); ++ pTcb->mode=0; ++ pTcb->BufPtr=0; ++ pTcb->Next=HalDev->TcbPool[Ch][Queue]; ++ pTcb->Off_BLen=0; ++ HalDev->TcbPool[Ch][Queue]=pTcb; ++ } ++ /*HalDev->TcbEnd = pTcb;*/ ++ } ++ ++ return(EC_NO_ERRORS); ++ } ++ ++/* ++ * This function allocates receive buffer descriptors (internal CPHAL function). ++ * After allocation, the function 'queues' (gives to the hardware) the newly ++ * created receive buffers to enable packet reception. ++ * ++ * @param HalDev CPHAL module instance. (set by cphalInitModule()) ++ * @param Ch Channel number. ++ * ++ * @return 0 OK, Non-Zero Not OK ++ */ ++static int InitRcb(HAL_DEVICE *HalDev, int Ch) ++ { ++ int i, Num = HalDev->ChData[Ch].RxNumBuffers; ++ int Size = HalDev->ChData[Ch].RxBufSize; ++ HAL_RCB *pRcb; ++ char *pBuf; ++ char *AllRcb; ++ int rcbSize; ++ int DoMalloc = 0; ++ int SizeMalloc; ++ int MallocSize; ++ ++ rcbSize = (sizeof(HAL_RCB)+0xf)&~0xf; ++ SizeMalloc = (rcbSize*Num)+0xf; ++ ++ if (HalDev->RcbStart[Ch] == 0) ++ { ++ DoMalloc = 1; ++ ++ /* malloc all RCBs at once */ ++ AllRcb= (char *)HalDev->OsFunc->MallocDmaXfer(SizeMalloc,0,0xffffffff); ++ if (!AllRcb) ++ { ++ return(EC_CPPI|EC_FUNC_HAL_INIT|EC_VAL_RCB_MALLOC_FAILED); ++ } ++ ++ HalDev->OsFunc->Memset(AllRcb, 0, SizeMalloc); ++ ++ /* keep this address for freeing later */ ++ HalDev->RcbStart[Ch] = AllRcb; ++ } ++ else ++ { ++ /* if the memory has already been allocated, simply reuse it! */ ++ AllRcb = HalDev->RcbStart[Ch]; ++ } ++ ++ /* align to cache line */ ++ AllRcb = (char *)(((bit32u)AllRcb + 0xf)&~0xf); /*PITS #143 MJH~030522*/ ++ ++ HalDev->RcbPool[Ch]=0; ++ for(i=0;i<Num;i++) ++ { ++ pRcb = (HAL_RCB *)(AllRcb + (i*rcbSize)); ++ ++ if (DoMalloc == 1) ++ { ++ ++ MallocSize = Size; /*~3.01 */ ++ pBuf= (char *) HalDev->OsFunc->MallocRxBuffer(MallocSize,0,0xF,HalDev->ChData[Ch].OsSetup, (void *)pRcb, (void *)&pRcb->OsInfo, (void *) HalDev->OsDev); ++ if(!pBuf) ++ { ++ return(EC_CPPI|EC_FUNC_HAL_INIT|EC_VAL_RX_BUFFER_MALLOC_FAILED); ++ } ++ /* -RC3.01 pBuf = (char *)(((bit32u)pBuf+0xF) & ~0xF); */ ++ pRcb->BufPtr=VirtToPhys(pBuf) - HalDev->offset; ++ pRcb->DatPtr=pBuf; ++ } ++ pRcb->mode=(1<<8)|Ch; /* One Frag for Ch */ ++ pRcb->Next=(void *)HalDev->RcbPool[Ch]; ++ pRcb->Off_BLen=(bit32u)HalDev; ++ HalDev->RcbPool[Ch]=pRcb; ++ } ++ ++ /* Give all of the Rx buffers to hardware */ ++ ++ while(HalDev->RcbPool[Ch]) ++ { ++ pRcb=HalDev->RcbPool[Ch]; ++ HalDev->RcbPool[Ch]=pRcb->Next; ++ pRcb->Eop=(void*)pRcb; ++ pRcb->mode=(1<<8)|Ch; ++ halRxReturn((HAL_RECEIVEINFO *)pRcb, 0); ++ } ++ ++ return(EC_NO_ERRORS); ++ } ++ ++/** ++ * @ingroup CPHAL_Functions ++ * This function transmits the data in FragList using available transmit ++ * buffer descriptors. More information on the use of the Mode parameter ++ * is available in the module-specific appendices. Note: The OS should ++ * not call Send() for a channel that has been requested to be torndown. ++ * ++ * @param HalDev CPHAL module instance. (set by cphalInitModule()) ++ * @param FragList Fragment List structure. ++ * @param FragCount Number of fragments in FragList. ++ * @param PacketSize Number of bytes to transmit. ++ * @param OsSendInfo OS Send Information structure. <BR> ++ * @param Mode 32-bit value with the following bit fields: <BR> ++ * 31-16: Mode (used for module specific data). <BR> ++ * 15-08: Queue (transmit queue to send on). <BR> ++ * 07-00: Channel (channel number to send on). ++ * ++ * @return EC_NO_ERRORS (ok). <BR> ++ * Possible Error Codes:<BR> ++ * @ref EC_VAL_INVALID_STATE "EC_VAL_INVALID_STATE"<BR> ++ * @ref EC_VAL_NOT_LINKED "EC_VAL_NOT_LINKED"<BR> ++ * @ref EC_VAL_INVALID_CH "EC_VAL_INVALID_CH"<BR> ++ * @ref EC_VAL_OUT_OF_TCBS "EC_VAL_OUT_OF_TCBS"<BR> ++ * @ref EC_VAL_NO_TCBS "EC_VAL_NO_TCBS"<BR> ++ */ ++static int halSend(HAL_DEVICE *HalDev,FRAGLIST *FragList, ++ int FragCount,int PacketSize, OS_SENDINFO *OsSendInfo, ++ bit32u Mode) ++ { ++ HAL_TCB *tcb_ptr, *head; ++ int i; ++ int rc = EC_NO_ERRORS; ++ int Ch = Mode & 0xFF; ++ int Queue = (Mode>>8)&0xFF; ++ /*int DoThresholdCheck=1; */ /* Used when TxIntDisable is set and TxInts are re-enabled */ ++ ++ if (HalDev->State != enOpened) ++ return(EC_CPPI|EC_FUNC_SEND|EC_VAL_INVALID_STATE); ++ ++ if (!HalDev->Linked) ++ { ++ rc = EC_CPPI|EC_FUNC_SEND|EC_VAL_NOT_LINKED; ++ return(rc); ++ } ++ ++ if (HalDev->ChIsOpen[Ch][DIRECTION_TX] == 0) /*MJH~030611*/ /*PITS 148*/ ++ return(EC_CPMAC |EC_FUNC_SEND|EC_VAL_INVALID_CH); /*+GSG 030303*/ ++ ++ HalDev->OsFunc->CriticalOn(); ++ ++ /* Setup Tx mode and size */ ++ if (PacketSize<60) ++ { ++ FragList[FragCount-1].len += (60 - PacketSize); /*MJH~030506*//*PITS 132*/ ++ PacketSize = 60; /*MJH~030506*/ ++ } ++ Mode &= CB_PASSCRC_BIT; ++ ++ tcb_ptr = head = HalDev->TcbPool[Ch][Queue]; ++ ++ if (tcb_ptr) ++ { ++ ++ Mode|=PacketSize|CB_SOF_BIT|CB_OWNERSHIP_BIT; ++ ++ for (i=0; i<FragCount; i++) ++ ++ { ++ /* Setup Tx mode and size */ ++ tcb_ptr->Off_BLen = FragList[i].len; ++ ++ tcb_ptr->mode = Mode; ++ tcb_ptr->BufPtr = VirtToPhys((bit32 *)FragList[i].data) - HalDev->offset; ++ tcb_ptr->OsInfo = OsSendInfo; ++ ++ if (i == (FragCount - 1)) ++ { ++ /* last fragment */ ++ tcb_ptr->mode |= CB_EOF_BIT; ++ ++ /* since this is the last fragment, set the TcbPool pointer before ++ nulling out the Next pointers */ ++ ++ HalDev->TcbPool[Ch][Queue] = tcb_ptr->Next; ++ ++ tcb_ptr->Next = 0; ++ tcb_ptr->HNext = 0; ++ ++ /* In the Tx Interrupt handler, we will need to know which TCB is EOP, ++ so we can save that information in the SOP */ ++ head->Eop = tcb_ptr; ++ ++ /* Emerald fix 10/29 */ ++ osfuncDataCacheHitWritebackAndInvalidate((void *)tcb_ptr, 16); ++ ++ } ++ else ++ { ++ Mode=CB_OWNERSHIP_BIT; ++ tcb_ptr->HNext = VirtToPhys((bit32 *)tcb_ptr->Next) - HalDev->offset; ++ ++ /* Emerald fix 10/29 */ ++ osfuncDataCacheHitWritebackAndInvalidate((void *)tcb_ptr, 16); ++ ++ tcb_ptr = tcb_ptr->Next; /* what about the end of TCB list?? */ ++ ++ if (tcb_ptr == 0) ++ { ++ rc = EC_CPPI|EC_FUNC_SEND|EC_VAL_OUT_OF_TCBS; ++ goto ExitSend; ++ } ++ } ++ } /* for */ ++ ++ /* put it on the high priority queue */ ++ if (HalDev->TxActQueueHead[Ch][Queue] == 0) ++ { ++ HalDev->TxActQueueHead[Ch][Queue]=head; ++ HalDev->TxActQueueTail[Ch][Queue]=tcb_ptr; ++/*+GSG 030303*//*+GSG 030303*/ ++ if (!HalDev->TxActive[Ch][Queue]) ++ { ++ ++ bit32u base = HalDev->dev_base; ++ ++ /* write CPPI TX HDP */ ++ (CPMAC_TX_HDP( base , Ch )) = VirtToPhys(head) - HalDev->offset; ++ HalDev->TxActive[Ch][Queue]=TRUE; ++ ++ } ++ } ++ else ++ { ++ register volatile HAL_TCB *pTailTcb; ++ register bit32u tmode; ++ register bit32u pCurrentTcb; ++ ++ HalDev->TxActQueueTail[Ch][Queue]->Next=head; ++ /* Emerald fix 10/29 */ ++ ++ pTailTcb=(HAL_TCB *)VirtToVirtNoCache(&HalDev->TxActQueueTail[Ch][Queue]->HNext); ++ pCurrentTcb=VirtToPhys(head) - HalDev->offset; ++ pTailTcb->HNext=pCurrentTcb; ++ HalDev->TxActQueueTail[Ch][Queue]=tcb_ptr; ++/*+GSG 030303*/ ++ tmode=pTailTcb->mode; ++ if (tmode&CB_EOQ_BIT) ++ { ++ bit32u base = HalDev->dev_base; ++ ++ tmode&=~CB_EOQ_BIT; ++ pTailTcb->mode=tmode; ++ ((CPMAC_TX_HDP( base , Ch )) ) = pCurrentTcb; ++ } ++ ++ else ++ { ++ if(HalDev->TxIntDisable) ++ { ++ /* Enable Interrupts, to ensure packet goes out on wire */ ++ CPMAC_TX_INTMASK_SET(HalDev->dev_base) = (1<<Ch); ++ halPacketProcessEnd(HalDev); /* Allow Interrupt to be seen at the OS */ ++ /*DoThresholdCheck = 0; */ /* Disable Threshold Check */ ++ ++ } ++ } ++ ++ } ++ rc = EC_NO_ERRORS; ++ goto ExitSend; ++ } /* if (tcb_ptr) */ ++ else ++ { ++ rc = EC_CPPI|EC_FUNC_SEND|EC_VAL_NO_TCBS; ++ goto ExitSend; ++ } ++ExitSend: ++ ++/* 15 June 2004 - NSP Performance Update : If Tx Ints are disabled then process them here */ ++/* 29 June 2004 - NSP Performance Update : Moved to end at request of BCIL */ ++/* 23 Aug 2004 - NSP Performance Update : If Tx Ints are re-enabled do not do Threshold check */ ++ ++ if(HalDev->TxIntDisable /*&& DoThresholdCheck*/) ++ { ++ if(--HalDev->TxIntThreshold[Ch] <= 0) ++ { ++ int MoreWork; ++ TxInt(HalDev, Ch, 0, &MoreWork); ++ HalDev->TxIntThreshold[Ch] = HalDev->TxIntThresholdMaster[Ch]; ++ } ++ } ++ HalDev->OsFunc->CriticalOff(); ++ ++ return(rc); ++ } ++ ++/* ++ * This function processes receive interrupts. It traverses the receive ++ * buffer queue, extracting the data and passing it to the upper layer software via ++ * osReceive(). It handles all error conditions and fragments without valid data by ++ * immediately returning the RCB's to the RCB pool. ++ * ++ * @param HalDev CPHAL module instance. (set by cphalInitModule()) ++ * @param Ch Channel Number. ++ * @param MoreWork Flag that indicates that there is more work to do when set to 1. ++ * ++ * @return 0 if OK, non-zero otherwise. ++ */ ++static int RxInt(HAL_DEVICE *HalDev, int Ch, int *MoreWork) ++ { ++ HAL_RCB *CurrentRcb, *SopRcb, *EofRcb, *EopRcb; ++ bit32u RxBufStatus,PacketsServiced, RxPktLen = 0, RxSopStatus, ++ FrmFrags, TotalFrags, FrmLen; ++ int base = HalDev->dev_base, Ret; ++ OS_FUNCTIONS *OsFunc = HalDev->OsFunc; ++ int RxServiceMax = HalDev->ChData[Ch].RxServiceMax; ++ int FragIndex; /* +GSG 030508 */ ++ ++ if(HalDev->NeedsCount) /* +MJH 030410 */ ++ NeedsCheck(HalDev); /* +MJH 030410 */ ++ ++ /* Handle case of teardown interrupt */ ++ if (HalDev->RxTeardownPending[Ch] != 0) ++ { ++ Ret = RxTeardownInt(HalDev, Ch); ++ if (Ret == 0) ++ { /*+GSG 030303*/ ++ *MoreWork = 0; ++ return (EC_NO_ERRORS); ++ } /*+GSG 030303*/ ++ } ++ ++ /* Examine first RCB on the software active queue */ ++ CurrentRcb=HalDev->RxActQueueHead[Ch]; ++ osfuncDataCacheHitInvalidate((void*)CurrentRcb, 16); ++ RxBufStatus=CurrentRcb->mode; ++ PacketsServiced=0; ++ ++ /* Process received packets until we find hardware owned descriptors ++ or until we hit RxServiceMax */ ++ while((CurrentRcb)&&((RxBufStatus&CB_OWNERSHIP_BIT)==0)&& ++ (PacketsServiced<RxServiceMax)) /* ~GSG 030307 */ ++ { ++ ++ PacketsServiced++; /* ~GSG 030307 */ ++ SopRcb=CurrentRcb; ++ RxSopStatus=RxBufStatus; ++ RxPktLen = RxSopStatus&CB_SIZE_MASK; ++ ++ FrmFrags=0; ++ TotalFrags=0; ++ FragIndex=0; ++ FrmLen=0; ++ EofRcb=0; ++ ++/* +GSG 030508 *//* +GSG 030508 */ ++ ++ /* Loop through all fragments that comprise current packet. Build ++ fraglist and exit when the end of the packet is reached, or the ++ end of the descriptor list is reached. */ ++ do ++ { ++ bit32u DmaLen; ++ ++ ++ DmaLen=CurrentRcb->Off_BLen; ++ ++ FrmLen+=DmaLen; ++ TotalFrags++; ++ if (!EofRcb) ++ { ++ HalDev->fraglist[FragIndex].data=((char *)CurrentRcb->DatPtr); /* ~GSG 030508 */ ++ ++ HalDev->fraglist[FragIndex].len=DmaLen; /* ~GSG 030508 */ ++ ++ /* GSG 12/9 */ ++ HalDev->fraglist[FragIndex].OsInfo = CurrentRcb->OsInfo; /* ~GSG 030508 */ ++ ++ /* Upper layer must do the data invalidate */ ++ ++ FrmFrags++; ++ FragIndex++; /* ~GSG 030508 */ ++ if (FrmLen>=RxPktLen) ++ EofRcb=CurrentRcb; ++ } ++ EopRcb=CurrentRcb; ++ CurrentRcb=EopRcb->Next; ++ if (CurrentRcb) ++ { ++ osfuncDataCacheHitInvalidate((void*)CurrentRcb,16); ++ } ++ }while(((EopRcb->mode&CB_EOF_BIT)==0)&&(CurrentRcb)); ++ ++ /* Write the completion pointer for interrupt acknowledgement*/ ++ (CPMAC_RX_INT_ACK( base , Ch )) = VirtToPhys(EopRcb) - HalDev->offset; ++ ++ EopRcb->Next=0; ++ ++ if (CurrentRcb == 0) ++ { ++ /* If we are out of RCB's we must not send this packet ++ to the OS. */ ++ int RcbSize = HalDev->ChData[Ch].RxBufSize; ++ ++ if (TotalFrags>1) ++ { ++ EopRcb->Off_BLen=RcbSize; ++ EopRcb->mode=CB_OWNERSHIP_BIT; ++ osfuncDataCacheHitWritebackAndInvalidate((void *)EopRcb, 16); ++ } ++ ++ SopRcb->Off_BLen=RcbSize; ++ SopRcb->mode=CB_OWNERSHIP_BIT; ++ osfuncDataCacheHitWritebackAndInvalidate((void *)SopRcb, 16); ++ ++ ((CPMAC_RX_HDP( base , Ch )) ) = VirtToPhys(SopRcb); ++ } ++ else ++ { ++ /* Dequeue packet and send to OS */ ++ int mode; ++ ++ /* setup SopRcb for the packet */ ++ SopRcb->Eop=(void*)EopRcb; ++ ++ /* dequeue packet */ ++ HalDev->RxActQueueHead[Ch]=CurrentRcb; ++ ++ if (EopRcb->mode&CB_EOQ_BIT) ++ { ++ /* Next pointer is non-null and EOQ bit is set, which ++ indicates misqueue packet in CPPI protocol. */ ++ ++ ((CPMAC_RX_HDP( base , Ch )) ) = EopRcb->HNext; ++ } ++ ++ mode = (SopRcb->mode & 0xFFFF0000) | Ch; ++ ++ SopRcb->mode=(FrmFrags<<8)|Ch; ++ SopRcb->Off_BLen=(bit32u)HalDev; ++ ++ /* send packet up the higher layer driver */ ++ OsFunc->Receive(HalDev->OsDev,HalDev->fraglist,FragIndex,RxPktLen, /* ~GSG 030508 */ ++ (HAL_RECEIVEINFO *)SopRcb,mode); ++ ++ RxBufStatus=CurrentRcb->mode; ++ } ++ } /* while loop */ ++ ++ if ((CurrentRcb)&&((RxBufStatus&CB_OWNERSHIP_BIT)==0)) /*~GSG 030307*/ ++ { ++ *MoreWork = 1; ++ } ++ else ++ { ++ *MoreWork = 0; ++ } ++ ++ return (EC_NO_ERRORS); ++} ++ ++/* ++ * This function processes transmit interrupts. It traverses the ++ * transmit buffer queue, detecting sent data buffers and notifying the upper ++ * layer software via osSendComplete(). (for SAR, i originally had this split ++ * into two functions, one for each queue, but joined them on 8/8/02) ++ * ++ * @param HalDev CPHAL module instance. (set by cphalInitModule()) ++ * @param Queue Queue number to service (always 0 for MAC, Choose 1 for SAR to service low priority queue) ++ * @param MoreWork Flag that indicates that there is more work to do when set to 1. ++ * ++ * @return 0 if OK, non-zero otherwise. ++ */ ++int TxInt(HAL_DEVICE *HalDev, int Ch, int Queue, int *MoreWork) ++ { ++ HAL_TCB *CurrentTcb,*LastTcbProcessed,*FirstTcbProcessed; ++ int PacketsServiced; ++ bit32u TxFrameStatus; ++ int base; ++ int TxServiceMax = HalDev->ChData[Ch].TxServiceMax; ++ OS_FUNCTIONS *OsFunc = HalDev->OsFunc; ++ ++/*+GSG 030303*//*+GSG 030303*/ ++ ++ /* load the module base address */ ++ base = HalDev->dev_base; ++ ++ /* Handle case of teardown interrupt. This must be checked at ++ the top of the function rather than the bottom, because ++ the normal data processing can wipe out the completion ++ pointer which is used to determine teardown complete. */ ++ if (HalDev->TxTeardownPending[Ch] != 0) ++ { ++ int Ret; ++ ++ Ret = TxTeardownInt(HalDev, Ch, Queue); ++ if (Ret == 0) ++ { /*+GSG 030303*/ ++ *MoreWork = 0; /* bug fix 1/6 */ /*+GSG 030303*/ ++ return (EC_NO_ERRORS); ++ } /*+GSG 030303*/ ++ } ++ ++ OsFunc->CriticalOn(); /* 240904 */ ++ ++ CurrentTcb = HalDev->TxActQueueHead[Ch][Queue]; ++ FirstTcbProcessed=CurrentTcb; ++ ++ if (CurrentTcb==0) ++ { ++ /* I saw this error a couple of times when multi-channels were added */ ++ dbgPrintf("[cppi TxInt()]TxH int with no TCB in queue!\n"); ++ dbgPrintf(" Ch=%d, CurrentTcb = 0x%08x\n", Ch, (bit32u)CurrentTcb); ++ dbgPrintf(" HalDev = 0x%08x\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ OsFunc->CriticalOff(); ++ return(EC_CPPI|EC_FUNC_TXINT|EC_VAL_NULL_TCB); ++ } ++ ++ osfuncDataCacheHitInvalidate((void *)CurrentTcb, 16); ++ TxFrameStatus=CurrentTcb->mode; ++ PacketsServiced=0; ++ ++ /* should the ownership bit check be inside of the loop?? could make it a ++ while-do loop and take this check away */ ++ if ((TxFrameStatus&CB_OWNERSHIP_BIT)==0) ++ { ++ do ++ { ++ /* Pop TCB(s) for packet from the stack */ ++ LastTcbProcessed=CurrentTcb->Eop; ++ ++ /* new location for acknowledge */ ++ /* Write the completion pointer */ ++ (CPMAC_TX_INT_ACK( base , Ch )) = VirtToPhys(LastTcbProcessed) - HalDev->offset; ++ ++ HalDev->TxActQueueHead[Ch][Queue] = LastTcbProcessed->Next; ++ ++/*+GSG 030303*//*+GSG 030303*/ ++ ++ osfuncDataCacheHitInvalidate((void *)LastTcbProcessed, 16); ++ ++ if (LastTcbProcessed->mode&CB_EOQ_BIT) ++ { ++ if (LastTcbProcessed->Next) ++ { ++ /* Misqueued packet */ ++ ++ (CPMAC_TX_HDP( base , Ch )) = LastTcbProcessed->HNext; ++ ++ } ++ else ++ { ++ /* Tx End of Queue */ ++ ++ HalDev->TxActive[Ch][Queue]=FALSE; ++ } ++ } ++ ++ OsFunc->SendComplete(CurrentTcb->OsInfo); ++ ++ /* Push Tcb(s) back onto the stack */ ++ CurrentTcb = LastTcbProcessed->Next; ++ ++ LastTcbProcessed->Next=HalDev->TcbPool[Ch][Queue]; ++ ++ HalDev->TcbPool[Ch][Queue]=FirstTcbProcessed; ++ ++ PacketsServiced++; ++ ++ TxFrameStatus=CB_OWNERSHIP_BIT; ++ /* set the first(SOP) pointer for the next packet */ ++ FirstTcbProcessed = CurrentTcb; ++ if (CurrentTcb) ++ { ++ osfuncDataCacheHitInvalidate((void *)CurrentTcb, 16); ++ TxFrameStatus=CurrentTcb->mode; ++ } ++ ++ }while(((TxFrameStatus&CB_OWNERSHIP_BIT)==0) ++ &&(PacketsServiced<TxServiceMax)); ++ ++ if (((TxFrameStatus&CB_OWNERSHIP_BIT)==0) ++ &&(PacketsServiced==TxServiceMax)) ++ { ++ *MoreWork = 1; ++ } ++ else ++ { ++ *MoreWork = 0; ++ } ++ } ++ OsFunc->CriticalOff(); ++ ++ return(EC_NO_ERRORS); ++ } ++ ++/** ++ * @ingroup CPHAL_Functions ++ * This function performs a teardown for the given channel. The value of the ++ * Mode parameter controls the operation of the function, as documented below. ++ * ++ * Note: If bit 3 of Mode is set, this call is blocking, and will not return ++ * until the teardown interrupt has occurred and been processed. While waiting ++ * for a blocking teardown to complete, ChannelTeardown() will signal the OS ++ * (via Control(.."Sleep"..)) to allow the OS to perform other tasks if ++ * necessary. If and only if bit 3 of Mode is clear, the CPHAL will call the ++ * OS TeardownComplete() function to indicate that the teardown has completed. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * @param Ch Channel number. ++ * @param Mode Bit 0 (LSB): Perform Tx teardown (if set).<BR> ++ * Bit 1: Perform Rx teardown (if set). <BR> ++ * Bit 2: If set, perform full teardown (free buffers/descriptors). ++ * If clear, perform partial teardown (keep buffers). <BR> ++ * Bit 3 (MSB): If set, call is blocking. ++ * If clear, call is non-blocking. ++ * ++ * @return EC_NO_ERRORS (ok). <BR> ++ * Possible Error Codes:<BR> ++ * @ref EC_VAL_INVALID_STATE "EC_VAL_INVALID_STATE"<BR> ++ * @ref EC_VAL_INVALID_CH "EC_VAL_INVALID_CH"<BR> ++ * @ref EC_VAL_TX_TEARDOWN_ALREADY_PEND "EC_VAL_TX_TEARDOWN_ALREADY_PEND"<BR> ++ * @ref EC_VAL_RX_TEARDOWN_ALREADY_PEND "EC_VAL_RX_TEARDOWN_ALREADY_PEND"<BR> ++ * @ref EC_VAL_TX_CH_ALREADY_TORNDOWN "EC_VAL_TX_CH_ALREADY_TORNDOWN"<BR> ++ * @ref EC_VAL_RX_CH_ALREADY_TORNDOWN "EC_VAL_RX_CH_ALREADY_TORNDOWN"<BR> ++ * @ref EC_VAL_TX_TEARDOWN_TIMEOUT "EC_VAL_TX_TEARDOWN_TIMEOUT"<BR> ++ * @ref EC_VAL_RX_TEARDOWN_TIMEOUT "EC_VAL_RX_TEARDOWN_TIMEOUT"<BR> ++ * @ref EC_VAL_LUT_NOT_READY "EC_VAL_LUT_NOT_READY"<BR> ++ */ ++static int halChannelTeardown(HAL_DEVICE *HalDev, int Ch, bit32 Mode) ++ { ++ int DoTx, DoRx, Sleep=2048, timeout=0; /*MJH~030306*/ ++ bit32u base = HalDev->dev_base; ++ ++/* Set the module, used for error returns */ ++ ++ DoTx = (Mode & TX_TEARDOWN); ++ DoRx = (Mode & RX_TEARDOWN); ++ ++ if (HalDev->State < enInitialized) ++ return(EC_CPMAC |EC_FUNC_CHTEARDOWN|EC_VAL_INVALID_STATE); ++ ++ if ((Ch < 0) || (Ch > (MAX_CHAN-1) )) ++ { ++ return(EC_CPMAC |EC_FUNC_CHTEARDOWN|EC_VAL_INVALID_CH); ++ } ++ ++ /* set teardown pending bits before performing the teardown, because they ++ will be used in the int handler (this is done for AAL5) */ ++ if (DoTx) ++ { ++ if (HalDev->TxTeardownPending[Ch] != 0) ++ return(EC_CPMAC |EC_FUNC_CHTEARDOWN|EC_VAL_TX_TEARDOWN_ALREADY_PEND); ++ ++ /* If a full teardown, this also means that the user must ++ setup all channels again to use them */ ++ if (Mode & FULL_TEARDOWN) ++ HalDev->ChIsSetup[Ch][DIRECTION_TX] = 0; ++ ++ if (HalDev->State < enOpened) ++ { ++ /* if the hardware has never been opened, the channel has never actually ++ been setup in the hardware, so I just need to reset the software flag ++ and leave */ ++ HalDev->ChIsSetup[Ch][DIRECTION_TX] = 0; ++ return (EC_NO_ERRORS); ++ } ++ else ++ { ++ if (HalDev->ChIsOpen[Ch][DIRECTION_TX] == 0) ++ { ++ return(EC_CPMAC |EC_FUNC_CHTEARDOWN|EC_VAL_TX_CH_ALREADY_TORNDOWN); ++ } ++ ++ /* set teardown flag */ ++ HalDev->TxTeardownPending[Ch] = Mode; ++ } ++ } ++ ++ if (DoRx) ++ { ++ if (HalDev->RxTeardownPending[Ch] != 0) ++ return(EC_CPMAC |EC_FUNC_CHTEARDOWN|EC_VAL_RX_TEARDOWN_ALREADY_PEND); ++ ++ if (Mode & FULL_TEARDOWN) ++ HalDev->ChIsSetup[Ch][DIRECTION_RX] = 0; ++ ++ if (HalDev->State < enOpened) ++ { ++ HalDev->ChIsSetup[Ch][DIRECTION_RX] = 0; ++ return (EC_NO_ERRORS); ++ } ++ else ++ { ++ if (HalDev->ChIsOpen[Ch][DIRECTION_RX] == 0) ++ return(EC_CPMAC |EC_FUNC_CHTEARDOWN|EC_VAL_RX_CH_ALREADY_TORNDOWN); ++ ++ HalDev->RxTeardownPending[Ch] = Mode; ++ } ++ } ++ ++ /* Perform Tx Teardown Duties */ ++ if ((DoTx) && (HalDev->State == enOpened)) ++ { ++ /* Request TX channel teardown */ ++ (CPMAC_TX_TEARDOWN( base )) = Ch; ++ ++ /* wait until teardown has completed */ ++ if (Mode & BLOCKING_TEARDOWN) ++ { ++ timeout = 0; ++ while (HalDev->ChIsOpen[Ch][DIRECTION_TX] == TRUE) ++ { ++ osfuncSleep(&Sleep); ++ ++ timeout++; ++ if (timeout > 100000) ++ { ++ return(EC_CPMAC |EC_FUNC_CHTEARDOWN|EC_VAL_TX_TEARDOWN_TIMEOUT); ++ } ++ } ++ } ++ } /* if DoTx */ ++ ++ /* Perform Rx Teardown Duties */ ++ if ((DoRx) && (HalDev->State == enOpened)) ++ { ++ ++ /* perform CPMAC specific RX channel teardown */ ++ CPMAC_RX_TEARDOWN(base) = Ch; ++ ++ if (Mode & BLOCKING_TEARDOWN) ++ { ++ timeout = 0; ++ while (HalDev->ChIsOpen[Ch][DIRECTION_RX] == TRUE) ++ { ++ osfuncSleep(&Sleep); ++ ++ timeout++; ++ if (timeout > 100000) ++ { ++ return(EC_CPMAC |EC_FUNC_CHTEARDOWN|EC_VAL_RX_TEARDOWN_TIMEOUT); ++ } ++ } ++ } ++ } /* if DoRx */ ++ ++ return (EC_NO_ERRORS); ++ } ++ ++/** ++ * @ingroup CPHAL_Functions ++ * This function closes the CPHAL module. The module will be reset. ++ * The Mode parameter should be used to determine the actions taken by ++ * Close(). ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * @param Mode Indicates actions to take on close. The following integer ++ * values are valid: <BR> ++ * 1: Does not free buffer resources, init parameters remain ++ * intact. User can then call Open() without calling Init() ++ * to attempt to reset the device and bring it back to the ++ * last known state.<BR> ++ * 2: Frees the buffer resources, but keeps init parameters. This ++ * option is a more aggressive means of attempting a device reset. ++ * 3: Frees the buffer resources, and clears all init parameters. <BR> ++ * At this point, the caller would have to call to completely ++ * reinitialize the device (Init()) before being able to call ++ * Open(). Use this mode if you are shutting down the module ++ * and do not plan to restart. ++ * ++ * @return EC_NO_ERRORS (ok).<BR> ++ * Possible Error Codes:<BR> ++ * @ref EC_VAL_INVALID_STATE "EC_VAL_INVALID_STATE"<BR> ++ * Any error code from halChannelTeardown().<BR> ++ */ ++static int halClose(HAL_DEVICE *HalDev, bit32 Mode) ++ { ++ int Ch, Inst, Ret; ++ OS_DEVICE *TmpOsDev; ++ OS_FUNCTIONS *TmpOsFunc; ++ HAL_FUNCTIONS *TmpHalFunc; ++ char *TmpDeviceInfo; ++ ++ int Ticks; /*MJH~030306*/ ++ ++ /* Verify proper device state */ ++ if (HalDev->State != enOpened) ++ return (EC_CPMAC | EC_FUNC_CLOSE|EC_VAL_INVALID_STATE); ++ ++ /* Teardown all open channels */ ++ for (Ch = 0; Ch <= (MAX_CHAN-1) ; Ch++) ++ { ++ if (HalDev->ChIsOpen[Ch][DIRECTION_TX] == TRUE) ++ { ++ if (Mode == 1) ++ { ++ Ret = halChannelTeardown(HalDev, Ch, TX_TEARDOWN | PARTIAL_TEARDOWN | BLOCKING_TEARDOWN); ++ if (Ret) return (Ret); ++ } ++ else ++ { ++ Ret = halChannelTeardown(HalDev, Ch, TX_TEARDOWN | FULL_TEARDOWN | BLOCKING_TEARDOWN); ++ if (Ret) return (Ret); ++ } ++ } ++ ++ if (HalDev->ChIsOpen[Ch][DIRECTION_RX] == TRUE) ++ { ++ if (Mode == 1) ++ { ++ Ret = halChannelTeardown(HalDev, Ch, RX_TEARDOWN | PARTIAL_TEARDOWN | BLOCKING_TEARDOWN); ++ if (Ret) return (Ret); ++ } ++ else ++ { ++ Ret = halChannelTeardown(HalDev, Ch, RX_TEARDOWN | FULL_TEARDOWN | BLOCKING_TEARDOWN); ++ if (Ret) return (Ret); ++ } ++ } ++ } ++ ++ /* free fraglist in HalDev */ ++ HalDev->OsFunc->Free(HalDev->fraglist); ++ HalDev->fraglist = 0; ++ ++ /* unregister the interrupt */ ++ HalDev->OsFunc->IsrUnRegister(HalDev->OsDev, HalDev->interrupt); ++ ++ Ticks = 0; /* Disable Tick Timer */ /*MJH+030306*/ ++ HalDev->OsFunc->Control(HalDev->OsDev, hcTick, hcClear, &Ticks); /*MJH+030306*/ ++ ++ /* Free the Phy Information Structure */ ++ if(HalDev->PhyDev) ++ { ++ HalDev->OsFunc->Free(HalDev->PhyDev); /*MJH+030513*/ ++ HalDev->PhyDev = 0; /*MJH+030522*/ ++ } ++ ++ /* Perform CPMAC specific closing functions */ ++ CPMAC_MACCONTROL(HalDev->dev_base) &= ~MII_EN; ++ CPMAC_TX_CONTROL(HalDev->dev_base) &= ~TX_EN; ++ CPMAC_RX_CONTROL(HalDev->dev_base) &= ~RX_EN; ++ ++ /* put device back into reset */ ++ (*(volatile bit32u *)(HalDev->ResetBase)) &=~ (1<<HalDev->ResetBit); ++ Ticks = 64; /*MJH~030306*/ ++ osfuncSleep(&Ticks); ++ ++ /* If mode is 3, than clear the HalDev and set next state to DevFound*/ ++ if (Mode == 3) ++ { ++ /* I need to keep the HalDev parameters that were setup in InitModule */ ++ TmpOsDev = HalDev->OsDev; ++ TmpOsFunc = HalDev->OsFunc; ++ TmpDeviceInfo = HalDev->DeviceInfo; ++ ++ TmpHalFunc = HalDev->HalFuncPtr; ++ Inst = HalDev->Inst; ++ ++ /* Clear HalDev */ ++ ++ HalDev->OsFunc->Memset(HalDev, 0, sizeof(HAL_DEVICE)); ++ ++ /* Restore key parameters */ ++ HalDev->OsDev = TmpOsDev; ++ HalDev->OsFunc = TmpOsFunc; ++ HalDev->DeviceInfo = TmpDeviceInfo; ++ ++ HalDev->HalFuncPtr = TmpHalFunc; ++ HalDev->Inst = Inst; ++ ++ HalDev->State = enDevFound; ++ } ++ else ++ { ++ HalDev->State = enInitialized; ++ } ++ ++ return(EC_NO_ERRORS); ++ } +diff -urN linux.old/drivers/net/avalanche_cpmac/cpremap_cpmac.c linux.dev/drivers/net/avalanche_cpmac/cpremap_cpmac.c +--- linux.old/drivers/net/avalanche_cpmac/cpremap_cpmac.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/cpremap_cpmac.c 2005-07-12 02:48:42.049593000 +0200 +@@ -0,0 +1,28 @@ ++#ifndef _INC_CPREMAP_C ++#define _INC_CPREMAP_C ++ ++#ifdef __ADAM2 ++static inline void osfuncDataCacheHitInvalidate(void *ptr, int Size) ++ { ++ asm(" cache 17, (%0)" : : "r" (ptr)); ++ } ++ ++static inline void osfuncDataCacheHitWriteback(void *ptr, int Size) ++ { ++ asm(" cache 25, (%0)" : : "r" (ptr)); ++ } ++ ++static inline void osfuncDataCacheHitWritebackAndInvalidate(void *ptr, int Size) ++ { ++ asm(" cache 21, (%0)" : : "r" (ptr)); ++ } ++ ++#else ++ ++#define osfuncDataCacheHitInvalidate(MemPtr, Size) __asm__(" .set mips3; cache 17, (%0); .set mips0" : : "r" (MemPtr)) ++#define osfuncDataCacheHitWritebackAndInvalidate(MemPtr, Size) __asm__(" .set mips3; cache 21, (%0); .set mips0" : : "r" (MemPtr)) ++#define osfuncDataCacheHitWriteback(MemPtr, Size) __asm__(" .set mips3; cache 25, (%0); .set mips0" : : "r" (MemPtr)) ++ ++#endif ++ ++#endif +diff -urN linux.old/drivers/net/avalanche_cpmac/cpswhal_cpmac.h linux.dev/drivers/net/avalanche_cpmac/cpswhal_cpmac.h +--- linux.old/drivers/net/avalanche_cpmac/cpswhal_cpmac.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/cpswhal_cpmac.h 2005-07-12 02:48:42.050593000 +0200 +@@ -0,0 +1,632 @@ ++/************************************************************************ ++ * TNETDxxxx Software Support ++ * Copyright (c) 2002 Texas Instruments Incorporated. All Rights Reserved. ++ * ++ * FILE: cphal.h ++ * ++ * DESCRIPTION: ++ * User include file, contains data definitions shared between the CPHAL ++ * and the upper-layer software. ++ * ++ * HISTORY: ++ * Date Modifier Ver Notes ++ * 28Feb02 Greg 1.00 Original ++ * 06Mar02 Greg 1.01 Documentation enhanced ++ * 18Jul02 Greg 1.02 Many updates (OAM additions, general reorg) ++ * 22Nov02 Mick RC2 Additions from Denis' input on Control ++ * ++ * author Greg Guyotte ++ * version 1.02 ++ * date 18-Jul-2002 ++ *****************************************************************************/ ++#ifndef _INC_CPHAL_H ++#define _INC_CPHAL_H ++ ++#ifdef _CPHAL_CPMAC ++#include "ec_errors_cpmac.h" ++#endif ++ ++#ifdef _CPHAL_AAL5 ++#include "ec_errors_cpaal5.h" ++#endif ++ ++#ifdef _CPHAL_CPSAR ++#include "ec_errors_cpsar.h" ++#endif ++ ++#ifdef _CPHAL_AAL2 ++#include "ec_errors_cpaal2.h" ++#endif ++ ++#ifndef __ADAM2 ++typedef char bit8; ++typedef short bit16; ++typedef int bit32; ++ ++typedef unsigned char bit8u; ++typedef unsigned short bit16u; ++typedef unsigned int bit32u; ++ ++/* ++typedef char INT8; ++typedef short INT16; ++typedef int INT32; ++typedef unsigned char UINT8; ++typedef unsigned short UINT16; ++typedef unsigned int UINT32; ++*/ ++/*typedef unsigned int size_t;*/ ++#endif ++ ++#ifdef _CPHAL ++ ++#ifndef TRUE ++#define TRUE (1==1) ++#endif ++ ++#ifndef FALSE ++#define FALSE (1==2) ++#endif ++ ++#ifndef NULL ++#define NULL 0 ++#endif ++ ++#endif ++ ++#define VirtToPhys(a) (((int)a)&~0xe0000000) ++#define VirtToVirtNoCache(a) ((void*)((VirtToPhys(a))|0xa0000000)) ++#define VirtToVirtCache(a) ((void*)((VirtToPhys(a))|0x80000000)) ++#define PhysToVirtNoCache(a) ((void*)(((int)a)|0xa0000000)) ++#define PhysToVirtCache(a) ((void*)(((int)a)|0x80000000)) ++/* ++#define DataCacheHitInvalidate(a) {__asm__(" cache 17, (%0)" : : "r" (a));} ++#define DataCacheHitWriteback(a) {__asm__(" cache 25, (%0)" : : "r" (a));} ++*/ ++ ++#define PARTIAL 1 /**< Used in @c Close() and @c ChannelTeardown() */ ++#define FULL 2 /**< Used in @c Close() and @c ChannelTeardown() */ ++ ++/* Channel Teardown Defines */ ++#define RX_TEARDOWN 2 ++#define TX_TEARDOWN 1 ++#define BLOCKING_TEARDOWN 8 ++#define FULL_TEARDOWN 4 ++#define PARTIAL_TEARDOWN 0 ++ ++#define MAX_DIR 2 ++#define DIRECTION_TX 0 ++#define DIRECTION_RX 1 ++#define TX_CH 0 ++#define RX_CH 1 ++#define HAL_ERROR_DEVICE_NOT_FOUND 1 ++#define HAL_ERROR_FAILED_MALLOC 2 ++#define HAL_ERROR_OSFUNC_SIZE 3 ++#define HAL_DEFAULT 0xFFFFFFFF ++#define VALID(val) (val!=HAL_DEFAULT) ++ ++/* ++ERROR REPORTING ++ ++HAL Module Codes. Each HAL module reporting an error code ++should OR the error code with the respective Module error code ++from the list below. ++*/ ++#define EC_AAL5 EC_HAL|EC_DEV_AAL5 ++#define EC_AAL2 EC_HAL|EC_DEV_AAL2 ++#define EC_CPSAR EC_HAL|EC_DEV_CPSAR ++#define EC_CPMAC EC_HAL|EC_DEV_CPMAC ++#define EC_VDMA EC_HAL|EC_DEV_VDMA ++#define EC_VLYNQ EC_HAL|EC_DEV_VLYNQ ++#define EC_CPPI EC_HAL|EC_DEV_CPPI ++ ++/* ++HAL Function Codes. Each HAL module reporting an error code ++should OR the error code with one of the function codes from ++the list below. ++*/ ++#define EC_FUNC_HAL_INIT EC_FUNC(1) ++#define EC_FUNC_CHSETUP EC_FUNC(2) ++#define EC_FUNC_CHTEARDOWN EC_FUNC(3) ++#define EC_FUNC_RXRETURN EC_FUNC(4) ++#define EC_FUNC_SEND EC_FUNC(5) ++#define EC_FUNC_RXINT EC_FUNC(6) ++#define EC_FUNC_TXINT EC_FUNC(7) ++#define EC_FUNC_AAL2_VDMA EC_FUNC(8) ++#define EC_FUNC_OPTIONS EC_FUNC(9) ++#define EC_FUNC_PROBE EC_FUNC(10) ++#define EC_FUNC_OPEN EC_FUNC(11) ++#define EC_FUNC_CONTROL EC_FUNC(12) ++#define EC_FUNC_DEVICE_INT EC_FUNC(13) ++#define EC_FUNC_STATUS EC_FUNC(14) ++#define EC_FUNC_TICK EC_FUNC(15) ++#define EC_FUNC_CLOSE EC_FUNC(16) ++#define EC_FUNC_SHUTDOWN EC_FUNC(17) ++#define EC_FUNC_DEVICE_INT_ALT EC_FUNC(18) /* +GSG 030306 */ ++ ++/* ++HAL Error Codes. The list below defines every type of error ++used in all HAL modules. DO NOT CHANGE THESE VALUES! Add new ++values in integer order to the bottom of the list. ++*/ ++#define EC_VAL_PDSP_LOAD_FAIL EC_ERR(0x01)|EC_CRITICAL ++#define EC_VAL_FIRMWARE_TOO_LARGE EC_ERR(0x02)|EC_CRITICAL ++#define EC_VAL_DEVICE_NOT_FOUND EC_ERR(0x03)|EC_CRITICAL ++#define EC_VAL_BASE_ADDR_NOT_FOUND EC_ERR(0x04)|EC_CRITICAL ++#define EC_VAL_RESET_BIT_NOT_FOUND EC_ERR(0x05)|EC_CRITICAL ++#define EC_VAL_CH_INFO_NOT_FOUND EC_ERR(0x06) ++#define EC_VAL_RX_STATE_RAM_NOT_CLEARED EC_ERR(0x07)|EC_CRITICAL ++#define EC_VAL_TX_STATE_RAM_NOT_CLEARED EC_ERR(0x08)|EC_CRITICAL ++#define EC_VAL_MALLOC_DEV_FAILED EC_ERR(0x09) ++#define EC_VAL_OS_VERSION_NOT_SUPPORTED EC_ERR(0x0A)|EC_CRITICAL ++#define EC_VAL_CPSAR_VERSION_NOT_SUPPORTED EC_ERR(0x0B)|EC_CRITICAL ++#define EC_VAL_NULL_CPSAR_DEV EC_ERR(0x0C)|EC_CRITICAL ++ ++#define EC_VAL_LUT_NOT_READY EC_ERR(0x0D) ++#define EC_VAL_INVALID_CH EC_ERR(0x0E) ++#define EC_VAL_NULL_CH_STRUCT EC_ERR(0x0F) ++#define EC_VAL_RX_TEARDOWN_ALREADY_PEND EC_ERR(0x10) ++#define EC_VAL_TX_TEARDOWN_ALREADY_PEND EC_ERR(0x11) ++#define EC_VAL_RX_CH_ALREADY_TORNDOWN EC_ERR(0x12) ++#define EC_VAL_TX_CH_ALREADY_TORNDOWN EC_ERR(0x13) ++#define EC_VAL_TX_TEARDOWN_TIMEOUT EC_ERR(0x14) ++#define EC_VAL_RX_TEARDOWN_TIMEOUT EC_ERR(0x15) ++#define EC_VAL_CH_ALREADY_TORNDOWN EC_ERR(0x16) ++#define EC_VAL_VC_SETUP_NOT_READY EC_ERR(0x17) ++#define EC_VAL_VC_TEARDOWN_NOT_READY EC_ERR(0x18) ++#define EC_VAL_INVALID_VC EC_ERR(0x19) ++#define EC_VAL_INVALID_LC EC_ERR(0x20) ++#define EC_VAL_INVALID_VDMA_CH EC_ERR(0x21) ++#define EC_VAL_INVALID_CID EC_ERR(0x22) ++#define EC_VAL_INVALID_UUI EC_ERR(0x23) ++#define EC_VAL_INVALID_UUI_DISCARD EC_ERR(0x24) ++#define EC_VAL_CH_ALREADY_OPEN EC_ERR(0x25) ++ ++#define EC_VAL_RCB_MALLOC_FAILED EC_ERR(0x26) ++#define EC_VAL_RX_BUFFER_MALLOC_FAILED EC_ERR(0x27) ++#define EC_VAL_OUT_OF_TCBS EC_ERR(0x28) ++#define EC_VAL_NO_TCBS EC_ERR(0x29) ++#define EC_VAL_NULL_RCB EC_ERR(0x30)|EC_CRITICAL ++#define EC_VAL_SOP_ERROR EC_ERR(0x31)|EC_CRITICAL ++#define EC_VAL_EOP_ERROR EC_ERR(0x32)|EC_CRITICAL ++#define EC_VAL_NULL_TCB EC_ERR(0x33)|EC_CRITICAL ++#define EC_VAL_CORRUPT_RCB_CHAIN EC_ERR(0x34)|EC_CRITICAL ++#define EC_VAL_TCB_MALLOC_FAILED EC_ERR(0x35) ++ ++#define EC_VAL_DISABLE_POLLING_FAILED EC_ERR(0x36) ++#define EC_VAL_KEY_NOT_FOUND EC_ERR(0x37) ++#define EC_VAL_MALLOC_FAILED EC_ERR(0x38) ++#define EC_VAL_RESET_BASE_NOT_FOUND EC_ERR(0x39)|EC_CRITICAL ++#define EC_VAL_INVALID_STATE EC_ERR(0x40) ++#define EC_VAL_NO_TXH_WORK_TO_DO EC_ERR(0x41) ++#define EC_VAL_NO_TXL_WORK_TO_DO EC_ERR(0x42) ++#define EC_VAL_NO_RX_WORK_TO_DO EC_ERR(0x43) ++#define EC_VAL_NOT_LINKED EC_ERR(0x44) ++#define EC_VAL_INTERRUPT_NOT_FOUND EC_ERR(0x45) ++#define EC_VAL_OFFSET_NOT_FOUND EC_ERR(0x46) ++#define EC_VAL_MODULE_ALREADY_CLOSED EC_ERR(0x47) ++#define EC_VAL_MODULE_ALREADY_SHUTDOWN EC_ERR(0x48) ++#define EC_VAL_ACTION_NOT_FOUND EC_ERR(0x49) ++#define EC_VAL_RX_CH_ALREADY_SETUP EC_ERR(0x50) ++#define EC_VAL_TX_CH_ALREADY_SETUP EC_ERR(0x51) ++#define EC_VAL_RX_CH_ALREADY_OPEN EC_ERR(0x52) ++#define EC_VAL_TX_CH_ALREADY_OPEN EC_ERR(0x53) ++#define EC_VAL_CH_ALREADY_SETUP EC_ERR(0x54) ++#define EC_VAL_RCB_NEEDS_BUFFER EC_ERR(0x55) /* +GSG 030410 */ ++#define EC_VAL_RCB_DROPPED EC_ERR(0x56) /* +GSG 030410 */ ++#define EC_VAL_INVALID_VALUE EC_ERR(0x57) ++ ++/** ++@defgroup shared_data Shared Data Structures ++ ++The data structures documented here are shared by all modules. ++*/ ++ ++/** ++ * @ingroup shared_data ++ * This is the fragment list structure. Each fragment list entry contains a ++ * length and a data buffer. ++ */ ++typedef struct ++ { ++ bit32u len; /**< Length of the fragment in bytes (lower 16 bits are valid). For SOP, upper 16 bits is the buffer offset. */ ++ void *data; /**< Pointer to fragment data. */ ++ void *OsInfo; /**< Pointer to OS defined data. */ ++ }FRAGLIST; ++ ++#if defined (_CPHAL_CPMAC) ++#define CB_PASSCRC_BIT (1<<26) ++ ++/* CPMAC CPHAL STATUS */ ++#define CPMAC_STATUS_LINK (1 << 0) ++#define CPMAC_STATUS_LINK_DUPLEX (1 << 1) /* 0 - HD, 1 - FD */ ++#define CPMAC_STATUS_LINK_SPEED (1 << 2) /* 0 - 10, 1 - 100 */ ++ ++/* ADAPTER CHECK Codes */ ++ ++#define CPMAC_STATUS_ADAPTER_CHECK (1 << 7) ++#define CPMAC_STATUS_HOST_ERR_DIRECTION (1 << 8) ++#define CPMAC_STATUS_HOST_ERR_CODE (0xF << 9) ++#define CPMAC_STATUS_HOST_ERR_CH (0x7 << 13) ++ ++#define _CPMDIO_DISABLE (1 << 0) ++#define _CPMDIO_HD (1 << 1) ++#define _CPMDIO_FD (1 << 2) ++#define _CPMDIO_10 (1 << 3) ++#define _CPMDIO_100 (1 << 4) ++#define _CPMDIO_NEG_OFF (1 << 5) ++#define _CPMDIO_LOOPBK (1 << 16) ++#define _CPMDIO_AUTOMDIX (1 << 17) /* Bit 16 and above not used by MII register */ ++#define _CPMDIO_NOPHY (1 << 20) ++#endif ++ ++/** ++ * @ingroup shared_data ++ * Channel specific configuration information. This structure should be ++ * populated by upper-layer software prior to calling @c ChannelSetup(). Any ++ * configuration item that can be changed on a per channel basis should ++ * be represented here. Each module may define this structure with additional ++ * module-specific members. ++ */ ++typedef struct ++ { ++ int Channel; /**< Channel number. */ ++ int Direction; /**< DIRECTION_RX(1) or DIRECTION_TX(0). */ ++ OS_SETUP *OsSetup; /**< OS defined information associated with this channel. */ ++ ++#if defined(_CPHAL_AAL5) || defined (_CPHAL_CPSAR) || defined (_CPHAL_CPMAC) ++ int RxBufSize; /**< Size (in bytes) for each Rx buffer.*/ ++ int RxBufferOffset; /**< Number of bytes to offset rx data from start of buffer (must be less than buffer size). */ ++ int RxNumBuffers; /**< The number of Rx buffer descriptors to allocate for Ch. */ ++ int RxServiceMax; /**< Maximum number of packets to service at one time. */ ++ ++ int TxNumBuffers; /**< The number of Tx buffer descriptors to allocate for Ch. */ ++ int TxNumQueues; /**< Number of Tx queues for this channel (1-2). Choosing 2 enables a low priority SAR queue. */ ++ int TxServiceMax; /**< Maximum number of packets to service at one time. */ ++#endif ++ ++#if defined(_CPHAL_AAL5) || defined(_CPHAL_CPSAR) ++ int CpcsUU; /**< The 2-byte CPCS UU and CPI information. */ ++ int Gfc; /**< Generic Flow Control. */ ++ int Clp; /**< Cell Loss Priority. */ ++ int Pti; /**< Payload Type Indication. */ ++#endif ++ ++#if defined(_CPHAL_AAL2) || defined(_CPHAL_AAL5) || defined(_CPHAL_CPSAR) ++ int DaMask; /**< Specifies whether credit issuance is paused when Tx data not available. */ ++ int Priority; /**< Priority bin this channel will be scheduled within. */ ++ int PktType; /**< 0=AAL5,1=Null AAL,2=OAM,3=Transparent,4=AAL2. */ ++ int Vci; /**< Virtual Channel Identifier. */ ++ int Vpi; /**< Virtual Path Identifier. */ ++ int FwdUnkVc; /**< Enables forwarding of unknown VCI/VPI cells to host. 1=enable, 0=disable. */ ++ ++ /* Tx VC State */ ++ int TxVc_CellRate; /**< Tx rate, set as clock ticks between transmissions (SCR for VBR, CBR for CBR). */ ++ int TxVc_QosType; /**< 0=CBR,1=VBR,2=UBR,3=UBRmcr. */ ++ int TxVc_Mbs; /**< Min Burst Size in cells.*/ ++ int TxVc_Pcr; /**< Peak Cell Rate for VBR in clock ticks between transmissions. */ ++ ++ bit32 TxVc_AtmHeader; /**< ATM Header placed on firmware gen'd OAM cells for this Tx Ch (must be big endian with 0 PTI). */ ++ int TxVc_OamTc; /**< TC Path to transmit OAM cells for TX connection (0,1). */ ++ int TxVc_VpOffset; /**< Offset to the OAM VP state table. */ ++ /* Rx VC State */ ++ int RxVc_OamCh; /**< Ch to terminate rx'd OAM cells to be forwarded to the host. */ ++ int RxVc_OamToHost; /**< 0=do not pass, 1=pass. */ ++ bit32 RxVc_AtmHeader; /**< ATM Header placed on firmware gen'd OAM cells for this Rx conn (must be big endian with 0 PTI). */ ++ int RxVc_OamTc; /**< TC Path to transmit OAM cells for RX connection (0,1). */ ++ int RxVc_VpOffset; /**< Offset to the OAM VP state table. */ ++ /* Tx VP State */ ++ int TxVp_OamTc; /**< TC Path to transmit OAM cells for TX VP connection (0,1). */ ++ bit32 TxVp_AtmHeader; /**< ATM Header placed on firmware gen'd VP OAM cells for this Tx VP conn (must be big endian with 0 VCI). */ ++ /* Rx VP State */ ++ int RxVp_OamCh; /**< Ch to terminate rx'd OAM cells to be forwarded to the host. */ ++ int RxVp_OamToHost; /**< 0=do not pass, 1=pass. */ ++ bit32 RxVp_AtmHeader; /**< ATM Header placed on firmware gen'd OAM cells for this Rx VP conn (must be big endian with 0 VCI). */ ++ int RxVp_OamTc; /**< TC Path to transmit OAM cells for RX VP connection (0,1). */ ++ int RxVp_OamVcList; /**< Indicates all VC channels associated with this VP channel (one-hot encoded). */ ++#endif ++ ++ ++#ifdef _CPHAL_VDMAVT ++ bit32u RemFifoAddr; /* Mirror mode only. */ ++ bit32u FifoAddr; ++ bit32 PollInt; ++ bit32 FifoSize; ++ int Ready; ++#endif ++ ++ }CHANNEL_INFO; ++ ++/* ++ * This structure contains each statistic value gathered by the CPHAL. ++ * Applications may access statistics data by using the @c StatsGet() routine. ++ */ ++/* STATS */ ++#if defined(_CPHAL_AAL2) || defined(_CPHAL_AAL5) || defined(_CPHAL_CPSAR) ++typedef struct ++ { ++ bit32u CrcErrors[16]; ++ bit32u LenErrors[16]; ++ bit32u DmaLenErrors[16]; ++ bit32u AbortErrors[16]; ++ bit32u StarvErrors[16]; ++ bit32u TxMisQCnt[16][2]; ++ bit32u RxMisQCnt[16]; ++ bit32u RxEOQCnt[16]; ++ bit32u TxEOQCnt[16][2]; ++ bit32u RxPacketsServiced[16]; ++ bit32u TxPacketsServiced[16][2]; ++ bit32u RxMaxServiced; ++ bit32u TxMaxServiced[16][2]; ++ bit32u RxTotal; ++ bit32u TxTotal; ++ } STAT_INFO; ++#endif ++ ++/* ++ * VDMA Channel specific configuration information ++ */ ++#ifdef _CPHAL_AAL2 ++typedef struct ++ { ++ int Ch; /**< Channel Number */ ++ int RemoteEndian; /**< Endianness of remote VDMA-VT device */ ++ int CpsSwap; /**< When 0, octet 0 in CPS pkt located in LS byte of 16-bit word sent to rem VDMA device. When 1, in MS byte. */ ++ }VdmaChInfo; ++#endif ++ ++#ifndef _CPHAL ++ typedef void HAL_DEVICE; ++ typedef void HAL_PRIVATE; ++ typedef void HAL_RCB; ++ typedef void HAL_RECEIVEINFO; ++#endif ++ ++/** ++ * @ingroup shared_data ++ * The HAL_FUNCTIONS struct defines the function pointers used by upper layer ++ * software. The upper layer software receives these pointers through the ++ * call to xxxInitModule(). ++ */ ++typedef struct ++ { ++ int (*ChannelSetup) (HAL_DEVICE *HalDev, CHANNEL_INFO *Channel, OS_SETUP *OsSetup); ++ int (*ChannelTeardown) (HAL_DEVICE *HalDev, int Channel, int Mode); ++ int (*Close) (HAL_DEVICE *HalDev, int Mode); ++ int (*Control) (HAL_DEVICE *HalDev, const char *Key, const char *Action, void *Value); ++ int (*Init) (HAL_DEVICE *HalDev); ++ int (*Open) (HAL_DEVICE *HalDev); ++ int (*PacketProcessEnd) (HAL_DEVICE *HalDev); ++ int (*Probe) (HAL_DEVICE *HalDev); ++ int (*RxReturn) (HAL_RECEIVEINFO *HalReceiveInfo, int StripFlag); ++ int (*Send) (HAL_DEVICE *HalDev, FRAGLIST *FragList, int FragCount, int PacketSize, OS_SENDINFO *OsSendInfo, bit32u Mode); ++ int (*Shutdown) (HAL_DEVICE *HalDev); ++ int (*Tick) (HAL_DEVICE *HalDev); ++ ++#ifdef _CPHAL_AAL5 ++ int (*Kick) (HAL_DEVICE *HalDev, int Queue); ++ void (*OamFuncConfig) (HAL_DEVICE *HalDev, unsigned int OamConfig); ++ void (*OamLoopbackConfig) (HAL_DEVICE *HalDev, unsigned int OamConfig, unsigned int *LLID, unsigned int CorrelationTag); ++ volatile bit32u* (*RegAccess)(HAL_DEVICE *HalDev, bit32u RegOffset); ++ STAT_INFO* (*StatsGetOld)(HAL_DEVICE *HalDev); ++#endif ++ } HAL_FUNCTIONS; ++ ++/** ++ * @ingroup shared_data ++ * The OS_FUNCTIONS struct defines the function pointers for all upper layer ++ * functions accessible to the CPHAL. The upper layer software is responsible ++ * for providing the correct OS-specific implementations for the following ++ * functions. It is populated by calling InitModule() (done by the CPHAL in ++ * xxxInitModule(). ++ */ ++typedef struct ++ { ++ int (*Control)(OS_DEVICE *OsDev, const char *Key, const char *Action, void *Value); ++ void (*CriticalOn)(void); ++ void (*CriticalOff)(void); ++ void (*DataCacheHitInvalidate)(void *MemPtr, int Size); ++ void (*DataCacheHitWriteback)(void *MemPtr, int Size); ++ int (*DeviceFindInfo)(int Inst, const char *DeviceName, void *DeviceInfo); ++ int (*DeviceFindParmUint)(void *DeviceInfo, const char *Parm, bit32u *Value); ++ int (*DeviceFindParmValue)(void *DeviceInfo, const char *Parm, void *Value); ++ void (*Free)(void *MemPtr); ++ void (*FreeRxBuffer)(OS_RECEIVEINFO *OsReceiveInfo, void *MemPtr); ++ void (*FreeDev)(void *MemPtr); ++ void (*FreeDmaXfer)(void *MemPtr); ++ void (*IsrRegister)(OS_DEVICE *OsDev, int (*halISR)(HAL_DEVICE*, int*), int InterruptBit); ++ void (*IsrUnRegister)(OS_DEVICE *OsDev, int InterruptBit); ++ void* (*Malloc)(bit32u size); ++ void* (*MallocDev)(bit32u Size); ++ void* (*MallocDmaXfer)(bit32u size, void *MemBase, bit32u MemRange); ++ void* (*MallocRxBuffer)(bit32u size, void *MemBase, bit32u MemRange, ++ OS_SETUP *OsSetup, HAL_RECEIVEINFO *HalReceiveInfo, ++ OS_RECEIVEINFO **OsReceiveInfo, OS_DEVICE *OsDev); ++ void* (*Memset)(void *Dest, int C, bit32u N); ++ int (*Printf)(const char *Format, ...); ++ int (*Receive)(OS_DEVICE *OsDev,FRAGLIST *FragList,bit32u FragCount, ++ bit32u PacketSize,HAL_RECEIVEINFO *HalReceiveInfo, bit32u Mode); ++ int (*SendComplete)(OS_SENDINFO *OsSendInfo); ++ int (*Sprintf)(char *S, const char *Format, ...); ++ int (*Strcmpi)(const char *Str1, const char *Str2); ++ unsigned int (*Strlen)(const char *S); ++ char* (*Strstr)(const char *S1, const char *S2); ++ unsigned long (*Strtoul)(const char *Str, char **Endptr, int Base); ++ void (*TeardownComplete)(OS_DEVICE *OsDev, int Ch, int Direction); ++ } OS_FUNCTIONS; ++ ++/************** MODULE SPECIFIC STUFF BELOW **************/ ++ ++#ifdef _CPHAL_CPMAC ++ ++/* ++int halCpmacInitModule(HAL_DEVICE **HalDev, OS_DEVICE *OsDev, HAL_FUNCTIONS *HalFunc, int (*osBridgeInitModule)(OS_FUNCTIONS *), void* (*osMallocDev) (bit32u), int *Size, int inst); ++*/ ++ ++int halCpmacInitModule(HAL_DEVICE **HalDev, ++ OS_DEVICE *OsDev, ++ HAL_FUNCTIONS **HalFunc, ++ OS_FUNCTIONS *OsFunc, ++ int OsFuncSize, ++ int *HalFuncSize, ++ int Inst); ++#endif ++ ++#ifdef _CPHAL_AAL5 ++/* ++ * @ingroup shared_data ++ * The AAL5_FUNCTIONS struct defines the AAL5 function pointers used by upper layer ++ * software. The upper layer software receives these pointers through the ++ * call to cphalInitModule(). ++ */ ++/* ++typedef struct ++ { ++ int (*ChannelSetup)(HAL_DEVICE *HalDev, CHANNEL_INFO *HalCh, OS_SETUP *OsSetup); ++ int (*ChannelTeardown)(HAL_DEVICE *HalDev, int Ch, int Mode); ++ int (*Close)(HAL_DEVICE *HalDev, int Mode); ++ int (*Init)(HAL_DEVICE *HalDev); ++ int (*ModeChange)(HAL_DEVICE *HalDev, char *DeviceParms); ++ int (*Open)(HAL_DEVICE *HalDev); ++ int (*InfoGet)(HAL_DEVICE *HalDev, int Key, void *Value); ++ int (*Probe)(HAL_DEVICE *HalDev); ++ int (*RxReturn)(HAL_RECEIVEINFO *HalReceiveInfo, int StripFlag); ++ int (*Send)(HAL_DEVICE *HalDev,FRAGLIST *FragList,int FragCount, ++ int PacketSize,OS_SENDINFO *OsSendInfo,int Ch, int Queue, ++ bit32u Mode); ++ int (*StatsClear)(HAL_DEVICE *HalDev); ++ STAT_INFO* (*StatsGet)(HAL_DEVICE *HalDev); ++ int (*Status)(HAL_DEVICE *HalDev); ++ void (*Tick)(HAL_DEVICE *HalDev); ++ int (*Kick)(HAL_DEVICE *HalDev, int Queue); ++ volatile bit32u* (*RegAccess)(HAL_DEVICE *HalDev, bit32u RegOffset); ++ } AAL5_FUNCTIONS; ++*/ ++ ++int cpaal5InitModule(HAL_DEVICE **HalDev, ++ OS_DEVICE *OsDev, ++ HAL_FUNCTIONS **HalFunc, ++ OS_FUNCTIONS *OsFunc, ++ int OsFuncSize, ++ int *HalFuncSize, ++ int Inst); ++#endif ++ ++#ifdef _CPHAL_AAL2 ++/** ++ * @ingroup shared_data ++ * The AAL2_FUNCTIONS struct defines the AAL2 function pointers used by upper layer ++ * software. The upper layer software receives these pointers through the ++ * call to cphalInitModule(). ++ */ ++typedef struct ++ { ++ int (*ChannelSetup)(HAL_DEVICE *HalDev, CHANNEL_INFO *HalCh, OS_SETUP *OsSetup); ++ int (*ChannelTeardown)(HAL_DEVICE *HalDev, int Ch, int Mode); ++ int (*Close)(HAL_DEVICE *HalDev, int Mode); ++ int (*Init)(HAL_DEVICE *HalDev); ++ int (*ModeChange)(HAL_DEVICE *HalDev, char *DeviceParms); ++ int (*Open)(HAL_DEVICE *HalDev); ++ int (*OptionsGet)(HAL_DEVICE *HalDev, char *Key, bit32u *Value); ++ int (*Probe)(HAL_DEVICE *HalDev); ++ ++ int (*StatsClear)(HAL_DEVICE *HalDev); ++ STAT_INFO* (*StatsGet)(HAL_DEVICE *HalDev); ++ int (*Status)(HAL_DEVICE *HalDev); ++ void (*Tick)(HAL_DEVICE *HalDev); ++ int (*Aal2UuiMappingSetup)(HAL_DEVICE *HalDev, int VC, int UUI, ++ int VdmaCh, int UUIDiscard); ++ int (*Aal2RxMappingSetup)(HAL_DEVICE *HalDev, int VC, int CID, ++ int LC); ++ int (*Aal2TxMappingSetup)(HAL_DEVICE *HalDev, int VC, int LC, int VdmaCh); ++ int (*Aal2VdmaChSetup)(HAL_DEVICE *HalDev, bit32u RemVdmaVtAddr, ++ VdmaChInfo *VdmaCh); ++ volatile bit32u* (*RegAccess)(HAL_DEVICE *HalDev, bit32u RegOffset); ++ int (*Aal2ModeChange)(HAL_DEVICE *HalDev, int Vc, int RxCrossMode, ++ int RxMultiMode, int TxMultiMode, int SchedMode, ++ int TcCh); ++ void (*Aal2VdmaEnable)(HAL_DEVICE *HalDev, int Ch); ++ int (*Aal2VdmaDisable)(HAL_DEVICE *HalDev, int Ch); ++ } AAL2_FUNCTIONS; ++ ++int cpaal2InitModule(HAL_DEVICE **HalDev, ++ OS_DEVICE *OsDev, ++ AAL2_FUNCTIONS **HalFunc, ++ OS_FUNCTIONS *OsFunc, ++ int OsFuncSize, ++ int *HalFuncSize, ++ int Inst); ++#endif ++ ++#ifdef _CPHAL_VDMAVT ++/** ++ * @ingroup shared_data ++ * The VDMA_FUNCTIONS struct defines the HAL function pointers used by upper layer ++ * software. The upper layer software receives these pointers through the ++ * call to InitModule(). ++ * ++ * Note that this list is still under definition. ++ */ ++typedef struct ++ { ++ bit32 (*Init)( HAL_DEVICE *VdmaVtDev); ++ /* bit32 (*SetupTxFifo)(HAL_DEVICE *VdmaVtDev, bit32u LclRem, ++ bit32u Addr, bit32u Size, bit32u PollInt); ++ bit32 (*SetupRxFifo)(HAL_DEVICE *VdmaVtDev, bit32u LclRem, ++ bit32u Addr, bit32u Size, bit32u PollInt); */ ++ bit32 (*Tx)(HAL_DEVICE *VdmaVtDev); ++ bit32 (*Rx)(HAL_DEVICE *VdmaVtDev); ++ bit32 (*SetRemoteChannel)(HAL_DEVICE *VdmaVtDev, bit32u RemAddr, ++ bit32u RemDevID); ++ bit32 (*ClearRxInt)(HAL_DEVICE *VdmaVtDev); ++ bit32 (*ClearTxInt)(HAL_DEVICE *VdmaVtDev); ++ bit32 (*Open)(HAL_DEVICE *VdmaVtDev); ++ bit32 (*Close)(HAL_DEVICE *VdmaVtDev); ++ int (*Control) (HAL_DEVICE *HalDev, const char *Key, const char *Action, void *Value); ++ int (*ChannelSetup)(HAL_DEVICE *VdmaVtDev, CHANNEL_INFO *HalCh, OS_SETUP *OsSetup); ++ int (*ChannelTeardown)(HAL_DEVICE *VdmaVtDev, int Ch, int Mode); ++ int (*Send)(HAL_DEVICE *VdmaVtDev,FRAGLIST *FragList,int FragCount, ++ int PacketSize,OS_SENDINFO *OsSendInfo,bit32u Mode); ++ } VDMA_FUNCTIONS; ++ ++int VdmaInitModule(HAL_DEVICE **VdmaVt, ++ OS_DEVICE *OsDev, ++ VDMA_FUNCTIONS **VdmaVtFunc, ++ OS_FUNCTIONS *OsFunc, ++ int OsFuncSize, ++ int *HalFuncSize, ++ int Inst); ++#endif ++ ++/* ++extern int cphalInitModule(MODULE_TYPE ModuleType, HAL_DEVICE **HalDev, OS_DEVICE *OsDev, HAL_FUNCTIONS *HalFunc, ++ int (*osInitModule)(OS_FUNCTIONS *), void* (*osMallocDev)(bit32u), ++ int *Size, int Inst); ++*/ ++ ++ ++#ifdef _CPHAL_AAL5 ++extern const char hcSarFrequency[]; ++#endif ++ ++#ifdef _CPHAL_CPMAC ++/* following will be common, once 'utl' added */ ++extern const char hcClear[]; ++extern const char hcGet[]; ++extern const char hcSet[]; ++extern const char hcTick[]; ++ ++extern const char hcCpuFrequency[]; ++extern const char hcCpmacFrequency[]; ++extern const char hcMdioBusFrequency[]; ++extern const char hcMdioClockFrequency[]; ++extern const char hcCpmacBase[]; ++extern const char hcPhyNum[]; ++extern const char hcSize[]; ++extern const char hcCpmacSize[]; ++extern const char hcPhyAccess[]; ++extern const char hcMdixMask[]; ++extern const char hcMdioMdixSwitch[]; ++#endif ++ ++#endif /* end of _INC_ */ +diff -urN linux.old/drivers/net/avalanche_cpmac/dox_cpmac.h linux.dev/drivers/net/avalanche_cpmac/dox_cpmac.h +--- linux.old/drivers/net/avalanche_cpmac/dox_cpmac.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/dox_cpmac.h 2005-07-12 02:48:42.050593000 +0200 +@@ -0,0 +1,842 @@ ++/***************************************************************************** ++ * TNETDxxxx Software Support ++ * Copyright (c) 2002,2003 Texas Instruments Incorporated. All Rights Reserved. ++ * ++ * FILE: ++ * ++ * DESCRIPTION: ++ * This file contains documentation for the CPMAC ++ * ++ * HISTORY: ++ * @author Michael Hanrahan/Greg Guyotte ++ * @version 1.00 ++ * @date 03-Dec-2002 ++ *****************************************************************************/ ++#ifndef _DOX_CPMAC_H ++#define _DOX_CPMAC_H ++/** ++@page CPMAC_Implementation_Details Version ++ ++@copydoc CPMAC_Version ++*/ ++ ++/** ++@page cpmac_intro Introduction ++ ++The CPMAC implementation will support 8 channels for transmit and 8 channel for ++receive. Each of the 8 transmit channels has 1 queue associated with it. It is ++recommended that only 1 channel is used for @c Receive() per processor. ++*/ ++ ++/** ++@page cpmac_details API Implementation Details ++@par osReceive ++@p Mode parameter ++- The Upper 16 bits of Mode match Word 3 of the Rx Buffer Descriptor ++ ++@par halSend ++@p Mode parameter ++- Bits 0-7 contain the Channel Number ++- Bits 8-25 are reserved ++- Bit 26 - if 0, the CRC will be calculated, if 1 the CRC will be Passed ++- Bits 27-31 : reserved ++@section cpmac_keys Control Keys ++ ++@par StateChange ++CPHAL calls the OS when a state change is detected. ++OS should check the CPMAC Status. See the Control Key 'Status' for more details. ++ ++@par Status ++OS calls the CPHAL to obtain Status information. The Returned status is as follows ++ ++@par MaxFrags ++The OS may "Set" or "Get" this value. This defines the maximum ++number of fragments that can be received by the CPMAC Rx port. The default ++value for CPMAC is 2. This provides enough space to receive a maximum ++length packet (1,518 bytes) with the default buffer size of 1518 and any ++amount of RxBufferOffset. If the buffer size is configured to be smaller, ++the OS *MUST* modify this parameter according to the following formula: ++((System Max packet length)/(RxBufSize)) + 1. (The extra 1 fragment is to ++allow for RxBufferOffset) ++ ++@code ++// Following defined in "cpswhal_cpmac.h" ++// CPMAC CPHAL STATUS ++#define CPMAC_STATUS_LINK (1 << 0) ++#define CPMAC_STATUS_LINK_DUPLEX (1 << 1) // 0 - HD, 1 - FD ++#define CPMAC_STATUS_LINK_SPEED (1 << 2) // 0 - 10, 1 - 100 ++ ++// ADAPTER CHECK Codes ++#define CPMAC_STATUS_ADAPTER_CHECK (1 << 7) ++#define CPMAC_STATUS_HOST_ERR_DIRECTION (1 << 8) // 0 - Tx, 1 - Rx ++#define CPMAC_STATUS_HOST_ERR_CODE (0xF << 9) See CPMAC Guide ++#define CPMAC_STATUS_HOST_ERR_CH (0x7 << 13) See CPMAC Guide ++@endcode ++ ++@code ++void osStateChange(OS_DEVICE *OsDev) ++ { ++ int status; ++ OsDev->HalFunc->Control(OsDev->HalDev, "Status", hcGet, &status); ++ if(status & CPMAC_STATUS_ADAPTER_CHECK) ++ { ++ printf("[osStateChange[%d]] HAL notified OS of AdapterCheck (Link Status 0x%08X)\n", OsDev->port, status); ++ adaptercheck(OsDev->port); ++ } ++ else ++ { ++ printf("[osStateChange[%d]] HAL notified OS of State Change (Link Status %s)\n", OsDev->port, (status & CPMAC_STATUS_LINK) ? "Up" : "Down"); ++ if(status & CPMAC_STATUS_LINK) ++ { ++ printf("Speed %s, Duplex %s\n", ++ status & CPMAC_STATUS_LINK_SPEED ? "100" : "10", ++ status & CPMAC_STATUS_LINK_DUPLEX ? "FD" : "HD"); ++ } ++ } ++@endcode ++ ++@par Tick ++ The CPHAL calls the OS to set the interval for calling halTick()<BR> ++ Note: Predefined value hcTick now recommended for use. ++@code ++*** Example Code *** ++ ++*** CPHAL code *** ++int Ticks; ++HalDev->OsFunc->Control(HalDev->OsDev, hcTick, hcSet, &Ticks); ++ ++*** OS code *** ++ .. ++ if(osStrcmpi(pszKey, hcTick) == 0) ++ { ++ if(osStrcmpi(pszAction, hcSet) == 0) ++ { ++ // Enable the Tick Interval ++ if(*(unsigned int *) ParmValue) ++ printf("osTickSet: Interval = %d ticks\n", Interval); ++ } ++ else ++ if(osStrcmpi(pszAction, hcClear) == 0) ++ { ++ // Request disabling of the Tick Timer, ParmValue is ignored ++ } ++ } ++@endcode ++ ++@par The following information can be obtained by the OS via 'Get' ++ ++- StatsDump : OS supplies pointer to an 36 element unsigned int array ++CPHAL will populate the array with the current Statistics values.<BR> ++Note: all hcXXXX values are predefined and should be used by the OS. ++ ++- hcPhyNum : Returns the PHY number. ++- hcCpmacBase : Returns the base-address of the CPMAC device ++- hcCpmacSize : Returns size of the CPMAC memory map ++ ++ ++@par Phy Register Communication ++ ++halControl() is used to read and write the Phy Registers via the key hcPhyAccess ++ ++Both reading and writing the Phy registers involve setting the Value parameter of halControl() ++<BR> ++Value is a 32-bit value with bits partioned as follows ++<BR> ++ ++ 0 - 4 Phy Number <BR> ++ 5 - 9 Phy Register <BR> ++ 10 - 15 reserved <BR> ++ 16 - 31 Data (write only) ++<BR> ++ ++ ++<B>Reading the Phy register</B> ++ ++@code ++ bit32u Value; ++ bit32u RegAddr; ++ bit32u PhyNum; ++ bit32u PhyRegisterData; ++ ++ // Read Phy 31, register 20 ++ ++ PhyNum = 31; ++ RegAddr = 20; ++ ++ Value = (RegAddr << 5); ++ Value |= (PhyNum & 0x1F); ++ ++ rc = HalFunc->Control(HalDev, hcPhyAccess, hcGet, (bit32u *) &Value) ++ If(rc == 0) ++ { ++ // Value is overwriten with the value in Register 20 of Phy number 31. ++ PhyRegisterData = Value; ++ } ++@endcode ++ ++<B>Writing the Phy register</B> ++@code ++ bit32u Value; ++ bit32u RegAddr; ++ bit32u PhyNum; ++ bit32u PhyRegisterData; ++ ++ // Reset Phy 23 ++ ++ PhyNum = 23; ++ RegAddr = 0; ++ PhyRegisterData = 0x8000; // Reset bit set ++ ++ Value = (RegAddr << 5); ++ Value |= (PhyNum & 0x1F); ++ Value |= (PhyRegisterData << 16); ++ ++ rc = HalFunc->Control(HalDev, hcPhyAccess, hcSet, (bit32u *) &Value) ++ ++ // Check is reset if done ++ ++ PhyNum = 23; ++ RegAddr = 0; ++ ++ Value = (RegAddr << 5); ++ Value |= (PhyNum & 0x1F); ++ ++ rc = HalFunc->Control(HalDev, hcPhyAccess, hcGet, (bit32u *) &Value) ++ ++ If(rc == 0) ++ { ++ // Value is overwriten with the value in Register 0 of Phy number 23. ++ PhyRegisterData = Value; ++ if((PhyRegisterData & 0x8000) == 0) ++ ResetIsComplete; ++ } ++ ++@endcode ++<B> ++*** Example Showing turning values off/on *** ++<BR> ++</B> ++ ++@code ++ ++int On=1; ++int Off=0; ++ # Turn On loopback ++ OsDev->HalFunc->Control(OsDev->HalDev, "CTRL_LOOPBACK", hcSet, (int*) &On); ++ ++ # Turn off RX Flow ++ OsDev->HalFunc->Control(OsDev->HalDev, "RX_FLOW_EN", hcSet, (int*) &Off); ++@endcode ++ ++@par CPMAC Configurable Parameters ++ ++- RX_PASS_CRC : See MBP_Enable description ++- RX_QOS_EN : See MBP_Enable description ++- RX_NO_CHAIN : See MBP_Enable description ++- RX_CMF_EN : See MBP_Enable description ++- RX_CSF_EN : See MBP_Enable description ++- RX_CEF_EN : See MBP_Enable description ++- RX_CAF_EN : See MBP_Enable description ++- RX_PROM_CH : See MBP_Enable description ++- RX_BROAD_EN : See MBP_Enable description ++- RX_BROAD_CH : See MBP_Enable description ++- RX_MULT_EN : See MBP_Enable description ++- RX_MULT_CH : See MBP_Enable description ++ ++- TX_PTYPE : See MacControl description ++- TX_PACE : See MacControl description ++- TX_FLOW_EN : See MacControl description ++- RX_FLOW_EN : See MacControl description ++- CTRL_LOOPBACK : See MacControl description ++ ++- RX_MAXLEN : See CPMAC Guide ++- RX_FILTERLOWTHRESH : See CPMAC Guide ++- RX0_FLOWTHRESH : See CPMAC Guide ++- RX_UNICAST_SET : See CPMAC Guide ++- RX_UNICAST_CLEAR : See CPMAC Guide ++ ++@par Multicast Support ++- RX_MULTI_ALL : When used with hcSet, sets all the Hash Bits. When used ++with hcClear clears all the Hash Bits. ++- RX_MULTI_SINGLE : When used with hcSet, adds the Hashed Mac Address. When used ++with hcClear deletes the Hashed Mac Address. ++Note: Support will be added to keep track of Single additions and deletions. ++ ++@code ++*** Example Code *** ++ ++*** OS code *** ++ bit8u MacAddress[6]; ++ MacAddress[0] = 0x80; ++ MacAddress[1] = 0x12; ++ MacAddress[2] = 0x34; ++ MacAddress[3] = 0x56; ++ MacAddress[4] = 0x78; ++ MacAddress[5] = 0x78; ++ OsDev->HalFunc->Control(OsDev->HalDev, "RX_MULTI_SINGLE", hcSet, (bit8u*) &MacAddress); ++ OsDev->HalFunc->Control(OsDev->HalDev, "RX_MULTI_SINGLE", hcClear, (bit8u*) &MacAddress); ++ OsDev->HalFunc->Control(OsDev->HalDev, "RX_MULTI_ALL", hcSet, NULL); ++ OsDev->HalFunc->Control(OsDev->HalDev, "RX_MULTI_ALL", hcClear, NULL); ++@endcode ++@par MdioConnect Fields ++<BR> ++- "MdioConnect" : The OS can set the Phy connection using this key. The default connection is Auto-Negotiation ON, All modes possible. ++ ++ ++- _CPMDIO_HD <----- Allow Half Duplex, default is 1 (On) ++- _CPMDIO_FD <----- Allow Full Duplex, default is 1 (On) ++- _CPMDIO_10 <----- Allow 10 Mbs, default is 1 (On) ++- _CPMDIO_100 <----- Allow 100 Mbs, default is 1 (On) ++- _CPMDIO_NEG_OFF <----- Turn off Auto Negotiation, default is 0 (Auto Neg is on) ++- _CPMDIO_NOPHY <----- Set for use with Marvel-type switch, default is 0 (Phy present) ++- _CPMDIO_AUTOMDIX <---- Enables Auto Mdix (in conjunction with MdixMask), default is 1 (On) ++ ++Note: When _CPMDIO_NOPHY is set, CPMAC will report being linked at 100/FD. Reported PhyNum will be 0xFFFFFFFF ++ ++@par Setting CPMAC for use with a Marvel-type Switch ++@code ++ bit32u MdioConnect; ++ ++ MdioConnect = _CPMDIO_NOPHY; ++ OsDev->HalFunc->Control(OsDev->HalDev, "MdioConnect", hcSet, (bit32u*) &MdioConnect); ++@endcode ++ ++@par OS Support for MDIO ++@p The OS will need to supply the following values which the CPHAL will request via halControl() ++<BR> ++- MdioBusFrequency : The frequency of the BUS that MDIO is on (requested via hcMdioBusFrequency) ++<BR> ++- MdioClockFrequency : The desired Clock Frequency that MDIO qill operate at (requested via hcMdioClockFrequency) ++*/ ++ ++/** ++@page cpmac_conf DeviceFindxxx() Parameters ++ ++These are some of the parameters that the CPMAC will request via the DeviceFindxxx() functions - ++<BR> ++- "Mlink" : bit mask indicating what link status method Phy is using. Default is MDIO state machine (0x0) ++- "PhyMask" : bit mask indicating PhyNums used by this CPMAC (e.g 0x8000000, PhyNum is 31) ++- "MdixMask" : bit mask indicating which Phys support AutoMdix. Default is 0x0 (None) ++<BR> ++@par Example cpmac definition from the options.conf for the Sangam VDB ++<BR> ++- cpmac( id=eth0, base=0xA8610000, size=0x800, reset_bit=17, int_line=19, PhyMask=0x80000000, MLink=0, MdixMask=0 ) ++*/ ++ ++/** ++@page auto_mdix Auto Mdix Support ++ ++Auto Mdix selection is controlled by two elements in the CPMAC. First the OS can turn Auto Midx On or Off by the use of the ++MdioConnect field, _CPMDIO_AUTOMDIX. This is defaulted ON. For actual Auto Mdix operation the Phy must also be Auto Mdix capable. ++This is specified by the DeviceFindxxx() field, "MdixMask" (supplied as the variable hcMdixMask). ++If both these fields are set then the CPMDIO state machine will be enabled for Auto Mdix checking. ++If a switch to MDI or MDIX mode is needed, the CPMAC will signal this to the OS via Control() using ++the hcMdioMdixSwitch key. ++ ++@par OS example for responding to a Mdix Switch Request ++<BR> ++@code ++if(osStrcmpi(pszKey, hcMdioMdixSwitch) == 0) // See if key is Mdix Switch Request ++ { ++ if(osStrcmpi(pszAction, hcSet) == 0) // Only respond to Set requests ++ { ++ ++ bit32u Mdix; ++ ++ Mdix = *(bit32u *) ParmValue; // Extract requested Mode ++ // 0 : MDI ++ // 1 : MDIX ++ if(Mdix) ++ osSetPhyIntoMdixMode(); // Device specific logic ++ else ++ osSetPhyIntoMdiMode(); // Device specific logic ++ rc = 0; // Set return code as Successfull ++ } ++@endcode ++*/ ++ ++/** ++@page cpmac_stats CPMAC Specific Statistics ++ ++Statistics level '0' contains all CPMAC specific statistics. ++ ++ ++*/ ++ ++/** ++@page Example_Driver_Code ++ ++@section example_intro Introduction ++This section provides an in-depth code example for driver implementations. The code ++below illustrates the use of the CPMAC HAL, but is equally applicable to any CPHAL ++implementation. Note: the CPHAl constants hcGet, hcSet etc., are currently available for use with teh CPMAC module. ++Other modules should continue to use pszGET, etc. until these are made generally available. ++ ++@par Pull Model Example ++ ++@code ++ ++#define _CPHAL_CPMAC ++ ++typedef struct _os_device_s OS_DEVICE; ++typedef struct _os_receive_s OS_RECEIVEINFO; ++typedef struct _os_send_s OS_SENDINFO; ++typedef struct _os_setup_s OS_SETUP; ++ ++#include "cpswhal_cpmac.h" ++ ++#define dbgPrintf printf ++ ++typedef struct _os_device_s ++{ ++ HAL_DEVICE *HalDev; ++ HAL_FUNCTIONS *HalFunc; ++ OS_FUNCTIONS *OsFunc; ++ OS_SETUP *OsSetup; ++ bit32u Interrupt; ++ int (*halIsr)(HAL_DEVICE *HalDev, int*); ++ int ModulePort; ++ int Protocol; ++ int LinkStatus; // 0-> down, otherwise up ++}os_device_s; ++ ++typedef struct _os_receive_s ++{ ++ HAL_RECEIVEINFO *HalReceiveInfo; ++ char *ReceiveBuffer; ++ OS_DEVICE *OsDev; ++}os_receive_s; ++ ++typedef struct _os_send_s ++{ ++ OS_DEVICE *OsDev; ++}os_send_s; ++ ++typedef struct _os_setup_s ++{ ++ OS_DEVICE *OsDev; ++}os_setup_s; ++ ++ ++ ++void FlowForCphal(OS_DEVICE *OsDev) ++{ ++ CHANNEL_INFO ChannelInfo; ++ int nChannels = 200; ++ int halFuncSize; ++ int rc; ++ ++ // Populate OsFunc structure ++ rc = osInitModule(OsDev); ++ ++ if(rc) ++ { ++ sprintf(bufTmp, "%s: return code from osInitModule:'0x%08X'", __FUNCTION__, rc); ++ errorout(bufTmp); ++ } ++ ++ ++ // OS-Cphal handshake ++ rc = halCpmacInitModule(&OsDev->HalDev, OsDev, &OsDev->HalFunc, OsDev->OsFunc, ++ sizeof(OS_FUNCTIONS), &halFuncSize, OsDev->ModulePort); ++ ++ if(rc) ++ { ++ sprintf(bufTmp, "%s: return code from halCpmacInitModule:'0x%08X'", __FUNCTION__, rc); ++ errorout(bufTmp); ++ } ++ ++ // See if hardware module exists ++ rc = OsDev->HalFunc->Probe(OsDev->HalDev); ++ ++ if(rc) ++ { ++ sprintf(bufTmp, "%s: return code from Probe:'0x%08X'", __FUNCTION__, rc); ++ errorout(bufTmp); ++ } ++ ++ // Initialize hardware module ++ rc = OsDev->HalFunc->Init(OsDev->HalDev); ++ ++ if(rc) ++ { ++ sprintf(bufTmp, "%s: return code from Init:'0x%08X'", __FUNCTION__, rc); ++ errorout(bufTmp); ++ } ++ ++ // Setup Channel Information (Tranmsit, channel 0) ++ ChannelInfo.Channel = 0; ++ ChannelInfo.Direction = DIRECTION_TX; ++ ChannelInfo.TxNumBuffers = nChannels; ++ ChannelInfo.TxNumQueues = 1; ++ ChannelInfo.TxServiceMax = nChannels/3; ++ ++ rc = OsDev->HalFunc->ChannelSetup(OsDev->HalDev, &ChannelInfo, OsDev->OsSetup); ++ ++ // Setup Channel Information (Receive, channel 0) ++ ChannelInfo.Channel = 0; ++ ChannelInfo.Direction = DIRECTION_RX; ++ ChannelInfo.RxBufSize = 1518; ++ ChannelInfo.RxBufferOffset = 0; ++ ChannelInfo.RxNumBuffers = 2*nChannels; ++ ChannelInfo.RxServiceMax = nChannels/3; ++ ++ rc = OsDev->HalFunc->ChannelSetup(OsDev->HalDev, &ChannelInfo, OsDev->OsSetup); ++ ++ // Open the hardware module ++ rc = OsDev->HalFunc->Open(OsDev->HalDev); ++ ++ // Module now ready to Send/Receive data ++} ++ ++ ++int osInitModule(OS_FUNCTIONS **pOsFunc) ++ { ++ OS_FUNCTIONS *OsFunc; ++ ++ OsFunc = (OS_FUNCTIONS *) malloc(sizeof(OS_FUNCTIONS)); ++ if (!OsFunc) ++ return (-1); ++ ++ *pOsFunc = OsFunc; ++ ++ OsFunc->CriticalOff = osCriticalOff; ++ OsFunc->CriticalOn = osCriticalOn; ++ OsFunc->DataCacheHitInvalidate = osDataCacheHitInvalidate; ++ OsFunc->DataCacheHitWriteback = osDataCacheHitWriteback; ++ OsFunc->DeviceFindInfo = osDeviceFindInfo; ++ OsFunc->DeviceFindParmUint = osDeviceFindParmUint; ++ OsFunc->DeviceFindParmValue = osDeviceFindParmValue; ++ OsFunc->Free = osFree; ++ OsFunc->FreeDev = osFreeDev; ++ OsFunc->FreeDmaXfer = osFreeDmaXfer; ++ OsFunc->FreeRxBuffer = osFreeRxBuffer; ++ OsFunc->IsrRegister = osIsrRegister; ++ OsFunc->IsrUnRegister = osIsrUnRegister; ++ OsFunc->Malloc = osMalloc; ++ OsFunc->MallocDev = osMallocDev; ++ OsFunc->MallocDmaXfer = osMallocDmaXfer; ++ OsFunc->MallocRxBuffer = osMallocRxBuffer; ++ ++ ++ OsFunc->Memset = memset; ++ OsFunc->Printf = printf; ++ OsFunc->Sprintf = sprintf; ++ OsFunc->Strcmpi = osStrcmpi; ++ OsFunc->Strlen = strlen; ++ OsFunc->Strstr = strstr; ++ OsFunc->Strtoul = strtoul; ++ ++ OsFunc->Control = osControl; ++ OsFunc->Receive = osReceive; ++ OsFunc->SendComplete = osSendComplete; ++ OsFunc->TeardownComplete = osTearDownComplete; ++ ++ return(0); ++ } ++ ++ ++int osReceive(OS_DEVICE *OsDev,FRAGLIST *Fraglist,bit32u FragCount,bit32u PacketSize,HAL_RECEIVEINFO *halInfo, bit32u mode) ++ { ++ OS_RECEIVEINFO *skb = (OS_RECEIVEINFO *)Fraglist[0].OsInfo; ++ dcache_i((char *)Fraglist->data, Fraglist->len); ++ OsDev->HalFunc->RxReturn(halInfo,0); ++ return(0); ++ } ++ ++int osSendComplete(OS_SENDINFO *skb) ++ { ++ return(0); ++ } ++ ++ ++static void *osMallocRxBuffer(bit32u Size,void *MemBase, bit32u MemRange, ++ OS_SETUP *OsSetup, HAL_RECEIVEINFO *HalReceiveInfo, ++ OS_RECEIVEINFO **OsReceiveInfo, OS_DEVICE *OsDev ) ++ { ++ void *HalBuffer; ++ OS_RECEIVEINFO *OsPriv; ++ ++ HalBuffer=malloc(Size); ++ if (!HalBuffer) ++ { ++ return(0); ++ } ++ ++ // Malloc the OS block ++ *OsReceiveInfo = malloc(sizeof(OS_RECEIVEINFO)); ++ if (!*OsReceiveInfo) ++ { ++ free(HalBuffer); ++ return(0); ++ } ++ ++ // Initialize the new buffer descriptor ++ OsPriv = *OsReceiveInfo; ++ OsPriv->OsDev = OsDev; ++ OsPriv->ReceiveBuffer = HalBuffer; ++ OsPriv->HalReceiveInfo = HalReceiveInfo; ++ ++ return(HalBuffer); ++ } ++ ++ ++void SendBuffer(OS_DEVICE *OsDev, char *Buffer, int Size) ++{ ++ FRAGLIST Fraglist; ++ bit32u FragCount; ++ ++ tcb_pending++; ++ Fraglist.len = Size; ++ Fraglist.data = (unsigned *) Buffer; ++ FragCount = 1; ++ mode = 0; // Channel 0 ++ ++ dcache_wb(Fraglist.data, Fraglist.len); ++ OsDev->HalFunc->Send(OsDev->HalDev, &Fraglist, FragCount, Size, (OS_SENDINFO *) Buffer, mode); ++} ++ ++ ++void osStateChange(OS_DEVICE *OsDev) ++ { ++ int status; ++ int LinkStatus; ++ OsDev->HalFunc->Control(OsDev->HalDev, "Status", hcGet, &status); ++ if(status & CPMAC_STATUS_ADAPTER_CHECK) ++ { ++ // Adapter Check, take appropiate action ++ } ++ else ++ { ++ LinkStatus = status & CPMAC_STATUS_LINK; ++ if(LinkStatus != OsDev->LinkStatus) ++ { ++ dbgPrintf("\n%s:Link %s for inst %d Speed %s, Duplex %s\n", ++ __FUNCTION__, ++ LinkStatus ? "up" : "down", ++ OsDev->ModulePort, ++ status & CPMAC_STATUS_LINK_SPEED ? "100" : "10", ++ status & CPMAC_STATUS_LINK_DUPLEX ? "FD" : "HD"); ++ OsDev->LinkStatus = LinkStatus; ++ } ++ } ++ } ++ ++ ++int osControl(OS_DEVICE *OsDev, const char *pszKey, const char* pszAction, void *ParmValue) ++ { ++ int rc=-1; ++ ++ if (osStrcmpi(pszKey, hcCpuFrequency) == 0) ++ { ++ if(osStrcmpi(pszAction, hcGet) == 0) ++ { ++ *(bit32u*) ParmValue = cpufreq; ++ rc = 0; ++ } ++ } ++ if (osStrcmpi(pszKey, hcMdioBusFrequency) == 0) ++ { ++ if(osStrcmpi(pszAction, hcGet) == 0) ++ { ++ *(bit32u *)ParmValue = MdioBusFrequency; ++ rc = 0; ++ } ++ } ++if (osStrcmpi(pszKey, hcMdioClockFrequency) == 0) ++ { ++ if(osStrcmpi(pszAction, hcGet) == 0) ++ { ++ *(bit32u *)ParmValue = MdioClockFrequency; ++ rc = 0; ++ } ++ } ++ ++ if (osStrcmpi(pszKey, hcTick) == 0) ++ { ++ if(osStrcmpi(pszAction, hcSet) == 0) ++ { ++ osTickSetInterval(OsDev, *(unsigned int *) ParmValue); ++ rc = 0; ++ } ++ else ++ if(osStrcmpi(pszAction, hcClear) == 0) ++ { ++ osTickDisable(OsDev); ++ rc = 0; ++ } ++ } ++ ++ if (osStrcmpi(pszKey, "SioFlush") == 0) ++ { ++ MySioFlush(); ++ rc = 0; ++ } ++ ++ if (osStrcmpi(pszKey, "StateChange") == 0) ++ { ++ osStateChange(OsDev); ++ rc = 0; ++ } ++ ++ if (osStrcmpi(pszKey, "Sleep") == 0) ++ { ++ osSleep(*(int *)ParmValue); ++ rc = 0; ++ } ++ return(rc); ++ } ++ ++@endcode ++ ++ ++@par Push Model Example (Currently Eswitch ONLY) ++ ++@code ++ ++typedef struct _os_device_s OS_DEVICE; ++typedef struct _os_receive_s OS_RECEIVEINFO; ++typedef struct _os_send_s OS_SENDINFO; ++typedef struct _os_setup_s OS_SETUP; ++ ++#include "cpswhal.h" //Get glogal HAL stuff ++#include "cpswhaleswitch.h" //Get device specific hal stuff ++ ++ ++typedef struct _os_device_s ++{ ++ HAL_DEVICE *HalDev; ++ HAL_FUNCTIONS *HalFunc; ++ OS_FUNCTIONS *OsFunc; ++ OS_SETUP *OsSetup; ++ bit32u Interrupt; ++ int (*halIsr)(HAL_DEVICE *HalDev, int*); ++ int ModulePort; ++ int Protocol; ++ int LinkStatus; // 0-> down, otherwise up ++}os_device_s; ++ ++typedef struct _os_receive_s ++{ ++ HAL_RECEIVEINFO *HalReceiveInfo; ++ char *ReceiveBuffer; ++ OS_DEVICE *OsDev; ++}os_receive_s; ++ ++typedef struct _os_send_s ++{ ++ OS_DEVICE *OsDev; ++}os_send_s; ++ ++typedef struct _os_setup_s ++{ ++ OS_DEVICE *OsDev; ++}os_setup_s; ++ ++ ++ ++void FlowForCphal(OS_DEVICE *OsDev) ++{ ++CHANNEL_INFO ChannelInfo; ++ int nChannels = 200; ++ int halFuncSize; ++ int rc; ++ ++ // Populate OsFunc structure ++ rc = osInitModule(OsDev); ++ ++ if(rc) ++ { ++ sprintf(bufTmp, "%s: return code from osInitModule:'0x%08X'", __FUNCTION__, rc); ++ errorout(bufTmp); ++ } ++ ++ ++ // OS-Cphal handshake ++ rc = cpswHalEswitchInitModule(&OsDev->HalDev, OsDev, &OsDev->HalFunc, OsDev->OsFunc, ++ sizeof(OS_FUNCTIONS), &halFuncSize, OsDev->ModulePort); ++ ++ if(rc) ++ { ++ sprintf(bufTmp, "%s: return code from cpswHalEswitchInitModule:'0x%08X'", __FUNCTION__, rc); ++ errorout(bufTmp); ++ } ++ ++ ++ ChannelInfo.Channel = 7; ++ ChannelInfo.Direction = DIRECTION_RX; ++ ChanInfo.Receive = osReceiveSS; // Specify function to receive data for this channel ++ ++ rc = OsDev->HalFunc->ChannelSetup(OsDev->HalDev, &ChannelInfo, OsDev->OsSetup); ++ ++ MyConfig.debug=0; ++ MyConfig.CpuFrequency = CpuFreq; ++ MyConfig.EswitchFrequency = EswitchFreq; ++ MyConfig.ResetBase = 0xa8611600; ++ MyConfig.MacAddress = MacAddr; ++ ++ MyConfig.EswitchResetBit= 27; ++ MyConfig.Cpmac0ResetBit = 17; ++ MyConfig.Cpmac1ResetBit = 21; ++ MyConfig.MdioResetBit = 22; ++ MyConfig.Phy0ResetBit = 26; ++ MyConfig.Phy1ResetBit = 28; ++ MyConfig.HdmaResetBit = 13; ++ MyConfig.Cpmac0IntBit = 19; ++ MyConfig.Cpmac1IntBit = 33; ++ MyConfig.EswitchIntBit = 27; ++ MyConfig.EswitchBase = 0xa8640000; ++ MyConfig.EswitchBufferSize = 64; ++ MyConfig.EswitchHostBufCount = 0; ++ MyConfig.EswitchDefaultCamSize = 64; ++ MyConfig.EswitchOverFlowCount = 200; ++ MyConfig.EswitchOverFlowSize = 256; ++ ++ ++ ++ ++ rc=EswitchConfig(HalDev,HalFunc,&MyConfig); ++ ++ ++ // Open the hardware module ++ rc = OsDev->HalFunc->Open(OsDev->HalDev); ++ ++ // Module now ready to Send/Receive data ++} ++ ++ ++int EswitchConfig(HAL_DEVICE *HalDev, HAL_FUNCTIONS *HalFunc, ESWITCH_CONFIG *Config) ++{ ++ bit32u sts; ++ sts = 0; ++ ++ sts |= cpswhalPushBin(hcdebug, Config->debug); ++ sts |= cpswhalPushBin(hcCpuFrequency , Config->CpuFrequency ); ++ sts |= cpswhalPushBin(hcEswitchFrequency , Config->EswitchFrequency ); ++ sts |= cpswhalPushBin(hcResetBase , Config->ResetBase ); ++ sts |= cpswhalPushBin(hcMacAddress , Config->MacAddress ); ++ sts |= cpswhalPushBin(hcEswitchResetBit, Config->EswitchResetBit); ++ sts |= cpswhalPushBin(hcCpmac0ResetBit , Config->Cpmac0ResetBit ); ++ sts |= cpswhalPushBin(hcCpmac1ResetBit , Config->Cpmac1ResetBit ); ++ sts |= cpswhalPushBin(hcMdioResetBit , Config->MdioResetBit ); ++ sts |= cpswhalPushBin(hcPhy0ResetBit , Config->Phy0ResetBit ); ++ sts |= cpswhalPushBin(hcPhy1ResetBit , Config->Phy1ResetBit ); ++ sts |= cpswhalPushBin(hcHdmaResetBit , Config->HdmaResetBit ); ++ sts |= cpswhalPushBin(hcCpmac0IntBit , Config->Cpmac0IntBit ); ++ sts |= cpswhalPushBin(hcCpmac1IntBit , Config->Cpmac1IntBit ); ++ sts |= cpswhalPushBin(hcEswitchIntBit , Config->EswitchIntBit ); ++ sts |= cpswhalPushBin(hcEswitchBase , Config->EswitchBase ); ++ sts |= cpswhalPushBin(hcEswitchBufferSize , Config->EswitchBufferSize ); ++ sts |= cpswhalPushBin(hcEswitchHostBufCount , Config->EswitchHostBufCount ); ++ sts |= cpswhalPushBin(hcEswitchDefaultCamSize , Config->EswitchDefaultCamSize ); ++ sts |= cpswhalPushBin(hcEswitchOverFlowCount , Config->EswitchOverFlowCount ); ++ sts |= cpswhalPushBin(hcEswitchOverFlowSize , Config->EswitchOverFlowSize ); ++ return(sts); ++} ++ ++ ++ ++@endcode ++*/ ++ ++#endif +diff -urN linux.old/drivers/net/avalanche_cpmac/ec_errors_cpmac.h linux.dev/drivers/net/avalanche_cpmac/ec_errors_cpmac.h +--- linux.old/drivers/net/avalanche_cpmac/ec_errors_cpmac.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/ec_errors_cpmac.h 2005-07-12 02:48:42.051592000 +0200 +@@ -0,0 +1,118 @@ ++/*************************************************************************** ++ Copyright(c) 2001, Texas Instruments Incorporated. All Rights Reserved. ++ ++ FILE: ec_errors.h ++ ++ DESCRIPTION: ++ This file contains definitions and function declarations for ++ error code support. ++ ++ HISTORY: ++ 14Dec00 MJH Added masking to EC_CLASS etc macros ++ 17Sep02 GSG Added HAL support (new class&devices) ++ 03Oct02 GSG Removed C++ style comments ++***************************************************************************/ ++#ifndef _INC_EC_ERRORS ++#define _INC_EC_ERRORS ++ ++/* ++ 31 - CRITICAL ++ 30-28 - CLASS (ie. DIAG, KERNEL, FLASH, etc) ++ 27-24 - INSTANCE (ie. 1, 2, 3, etc ) ++ 23-16 - DEVICE (ie. EMAC, IIC, etc) ++ 15-08 - FUNCTION (ie. RX, TX, INIT, etc) ++ 07-00 - ERROR CODE (ie. NO_BASE, FILE_NOT_FOUND, etc ) ++*/ ++ ++/*--------------------------------------------------------------------------- ++ Useful defines for accessing fields within error code ++---------------------------------------------------------------------------*/ ++#define CRITICAL_SHIFT 31 ++#define CLASS_SHIFT 28 ++#define INST_SHIFT 24 ++#define DEVICE_SHIFT 16 ++#define FUNCTION_SHIFT 8 ++#define ERROR_CODE_SHIFT 0 ++ ++#define CRITICAL_MASK 1 ++#define CLASS_MASK 0x07 ++#define DEVICE_MASK 0xFF ++#define INST_MASK 0x0F ++#define FUNCTION_MASK 0xFF ++#define ERROR_CODE_MASK 0xFF ++ ++#define EC_CLASS(val) ((val&CLASS_MASK) << CLASS_SHIFT) ++#define EC_DEVICE(val) ((val&DEVICE_MASK) << DEVICE_SHIFT) ++#define EC_INST(val) ((val&INST_MASK) << INST_SHIFT) ++#define EC_FUNC(val) ((val&FUNCTION_MASK) << FUNCTION_SHIFT) ++#define EC_ERR(val) ((val&ERROR_CODE_MASK) << ERROR_CODE_SHIFT) ++ ++/*--------------------------------------------------------------------------- ++ Operation classes ++---------------------------------------------------------------------------*/ ++#define EC_HAL EC_CLASS(0) ++#define EC_DIAG EC_CLASS(8) ++ ++/*--------------------------------------------------------------------------- ++ Device types ++---------------------------------------------------------------------------*/ ++#define EC_DEV_EMAC EC_DEVICE(1) ++#define EC_DEV_IIC EC_DEVICE(2) ++#define EC_DEV_RESET EC_DEVICE(3) ++#define EC_DEV_ATMSAR EC_DEVICE(4) ++#define EC_DEV_MEM EC_DEVICE(5) ++#define EC_DEV_DES EC_DEVICE(6) ++#define EC_DEV_DMA EC_DEVICE(7) ++#define EC_DEV_DSP EC_DEVICE(8) ++#define EC_DEV_TMR EC_DEVICE(9) ++#define EC_DEV_WDT EC_DEVICE(10) ++#define EC_DEV_DCL EC_DEVICE(11) ++#define EC_DEV_BBIF EC_DEVICE(12) ++#define EC_DEV_PCI EC_DEVICE(13) ++#define EC_DEV_XBUS EC_DEVICE(14) ++#define EC_DEV_DSLIF EC_DEVICE(15) ++#define EC_DEV_USB EC_DEVICE(16) ++#define EC_DEV_CLKC EC_DEVICE(17) ++#define EC_DEV_RAPTOR EC_DEVICE(18) ++#define EC_DEV_DSPC EC_DEVICE(19) ++#define EC_DEV_INTC EC_DEVICE(20) ++#define EC_DEV_GPIO EC_DEVICE(21) ++#define EC_DEV_BIST EC_DEVICE(22) ++#define EC_DEV_HDLC EC_DEVICE(23) ++#define EC_DEV_UART EC_DEVICE(24) ++#define EC_DEV_VOIC EC_DEVICE(25) ++/* 9.17.02 (new HAL modules) */ ++#define EC_DEV_CPSAR EC_DEVICE(0x1A) ++#define EC_DEV_AAL5 EC_DEVICE(0x1B) ++#define EC_DEV_AAL2 EC_DEVICE(0x1C) ++#define EC_DEV_CPMAC EC_DEVICE(0x1D) ++#define EC_DEV_VDMA EC_DEVICE(0x1E) ++#define EC_DEV_VLYNQ EC_DEVICE(0x1F) ++#define EC_DEV_CPPI EC_DEVICE(0x20) ++#define EC_DEV_CPMDIO EC_DEVICE(0x21) ++ ++/*--------------------------------------------------------------------------- ++ Function types ++---------------------------------------------------------------------------*/ ++#define EC_FUNC_READ_CONF EC_FUNC(1) ++#define EC_FUNC_INIT EC_FUNC(2) ++ ++/*--------------------------------------------------------------------------- ++ Error codes ++---------------------------------------------------------------------------*/ ++#define EC_CRITICAL (1<<CRITICAL_SHIFT) ++#define EC_NO_ERRORS 0 ++#define EC_VAL_NO_BASE EC_ERR(1) ++#define EC_VAL_NO_RESET_BIT EC_ERR(2) ++#define EC_VAL_NO_RESET EC_ERR(3) ++#define EC_VAL_BAD_BASE EC_ERR(4) ++#define EC_VAL_MALLOCFAILED EC_ERR(5) ++#define EC_VAL_NO_RESETBASE EC_ERR(6) ++#define EC_DEVICE_NOT_FOUND EC_ERR(7) ++ ++/*--------------------------------------------------------------------------- ++ Function declarations ++---------------------------------------------------------------------------*/ ++extern void ec_log_error( unsigned int ); ++ ++#endif /* _INC_EC_ERRORS */ +diff -urN linux.old/drivers/net/avalanche_cpmac/hcpmac.c linux.dev/drivers/net/avalanche_cpmac/hcpmac.c +--- linux.old/drivers/net/avalanche_cpmac/hcpmac.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/hcpmac.c 2005-07-12 02:48:42.174574000 +0200 +@@ -0,0 +1,1878 @@ ++/****************************************************************************** ++ * TNETDxxxx Software Support ++ * Copyright (c) 2002-2004 Texas Instruments Incorporated. All Rights Reserved. ++ * ++ * FILE: ++ * ++ * DESCRIPTION: ++ * This file contains the code for the HAL EMAC Bridge Test ++ * ++ * HISTORY: ++ * xxXxx01 Denis RC1.00 Original Version created. ++ * 22Jan02 Denis/Mick RC1.01 Modified for HAL EMAC API ++ * 24Jan02 Denis/Mick RC1.02 Speed Improvements ++ * 28Jan02 Denis/Mick RC1.16 Made function calls pointers ++ * 28Jan02 Mick RC1.18 Split into separate modules ++ * 29Jan02 Mick RC1.19 Hal include file cleaned up ++ * 15Jul02 Michael Hanrahan RC1.20 Synch'd with Linux Version ++ * 23Sep02 Michael Hanrahan RC1.21 Added CPPI.C ++ * 16Oct02 Michael Hanrahan RC1.22 Added CAF etc to Options.Conf ++ * 09Jan03 Michael Hanrahan RC3.01 Fixed incorrect MDIO check ++ * 01Feb03 Michael Hanrahan RC3.02 Updated for GPIO/PBUSFREQ ++ * 29Mar03 Michael Hanrahan 1.03 Corrected ChannelConfigGet ++ * 29Mar03 Michael Hanrahan 1.03 Removed user setting of TxNumQueues ++ * 23Aug04 Michael Hanrahan 1.7.8 Support for Setting Mac Address ++ * @author Michael Hanrahan ++ * @version 1.02 ++ * @date 24-Jan-2002 ++ *****************************************************************************/ ++#define _HAL_CPMAC ++#define _CPHAL_CPMAC ++#define _CPHAL ++#define __CPHAL_CPMDIO ++ ++#include "dox_cpmac.h" /* Documentation information */ ++ ++/* OS Data Structure definitions */ ++ ++typedef void OS_PRIVATE; ++typedef void OS_DEVICE; ++typedef void OS_SENDINFO; ++typedef void OS_RECEIVEINFO; ++typedef void OS_SETUP; ++ ++/* HAL Data Structure definitions */ ++ ++typedef struct _phy_device PHY_DEVICE; ++typedef struct hal_device HAL_DEVICE; ++typedef struct hal_private HAL_PRIVATE; ++typedef struct hal_private HAL_RECEIVEINFO; ++ ++#include "cpcommon_cpmac.h" ++#include "cpswhal_cpmac.h" ++#include "cpmdio.h" ++#include "hcpmac.h" ++#include "cpmac_reg.h" ++ ++ ++#define EC_MODULE ++ ++/* MDIO Clock Frequency Default Value */ ++ ++/* Rcb/Tcb Constants */ ++ ++#define CB_SOF_BIT (1<<31) ++#define CB_EOF_BIT (1<<30) ++#define CB_SOF_AND_EOF_BIT (CB_SOF_BIT|CB_EOF_BIT) ++#define CB_OWNERSHIP_BIT (1<<29) ++#define CB_EOQ_BIT (1<<28) ++#define CB_SIZE_MASK 0x0000ffff ++#define RCB_ERRORS_MASK 0x03fe0000 ++ ++static char *channel_names[] = CHANNEL_NAMES; /* GSG 11/22 (may change this implementation) */ ++ ++#define scFound(Module) if (HalDev->State != enDevFound) return (Module|EC_FUNC_CHSETUP|EC_VAL_INVALID_STATE) ++#define scInit(Module) if (HalDev->State < enInitialized) return (Module|EC_FUNC_CHSETUP|EC_VAL_INVALID_STATE) ++#define scOpen(Module) if (HalDev->State < enOpened) return (Module|EC_FUNC_CHSETUP|EC_VAL_INVALID_STATE) ++ ++ ++ ++/******************************************************************** ++** ++** L O C A L F U N C T I O N S ++** ++********************************************************************/ ++static int halIsr(HAL_DEVICE *HalDev, int *MorePackets); ++static int cpmacRandom(HAL_DEVICE *HalDev); ++static int cpmacRandomRange(HAL_DEVICE *HalDev, int min, int max); ++static int halPacketProcessEnd(HAL_DEVICE *HalDev); ++ ++#include "cpcommon_cpmac.c" /*~RC3.02*/ ++#include "cppi_cpmac.c" ++#include "cpmdio.c" /*~RC3.02*/ ++ ++static int MacAddressSave(HAL_DEVICE *HalDev, unsigned char *MacAddr) ++ { ++ int i; ++ int inst = HalDev->inst; ++ ++ HalDev->MacAddr = MacAddr; ++ ++ if(HalDev->debug) ++ { ++ dbgPrintf("MacAddrSave[%d]: ", inst); ++ for (i=0;i<6;i++) ++ dbgPrintf("%X", HalDev->MacAddr[i]); ++ dbgPrintf("\n"); ++ osfuncSioFlush(); ++ } ++ return(EC_NO_ERRORS); ++ } ++static int MacAddressSet(HAL_DEVICE *HalDev) ++ { ++ unsigned char *macadr = &HalDev->MacAddr[0]; ++ int base = HalDev->dev_base; ++ ++ scOpen(EC_CPMAC); ++ CPMAC_MACADDRLO_0(base) = macadr[5]; ++ CPMAC_MACADDRMID(base) = macadr[4]; ++ CPMAC_MACADDRHI(base) = (macadr[0])|(macadr[1]<<8)|(macadr[2]<<16)|(macadr[3]<<24); ++ if(HalDev->debug) ++ { ++ dbgPrintf("MacAddrSet: MacAddr(%d) %X %X %X\n", HalDev->inst, CPMAC_MACADDRLO_0(base), ++ CPMAC_MACADDRMID(base), ++ CPMAC_MACADDRHI(base)); ++ ++ dbgPrintf("Start MAC: %d\n",HalDev->dev_base); ++ osfuncSioFlush(); ++ } ++ return(EC_NO_ERRORS); ++ } ++ ++ ++/* ++ Updates the MacHash registers ++*/ ++static void MacHashSet(HAL_DEVICE *HalDev) ++ { ++ if(HalDev->State < enOpened) ++ return; ++ ++ CPMAC_MACHASH1(HalDev->dev_base) = HalDev->MacHash1; ++ CPMAC_MACHASH2(HalDev->dev_base) = HalDev->MacHash2; ++ if (DBG(11)) ++ dbgPrintf("CPMAC[%X]: MacHash1 0x%08X, MacHash2 0x%08X\n", HalDev->dev_base, CPMAC_MACHASH1(HalDev->dev_base), CPMAC_MACHASH2(HalDev->dev_base)); ++ } ++ ++/* ++ Reads the MacControl register and updates ++ the changable bits. (See MACCONTROL_MASK) ++*/ ++static void RxMBP_EnableSet(HAL_DEVICE *HalDev) ++ { ++ bit32u RxMbpEnable; ++ if(HalDev->State < enOpened) ++ return; ++ RxMbpEnable = CPMAC_RX_MBP_ENABLE(HalDev->dev_base); ++ RxMbpEnable &= ~RX_MBP_ENABLE_MASK; /* Clear out updatable bits */ ++ RxMbpEnable |= HalDev->RxMbpEnable; ++ CPMAC_RX_MBP_ENABLE(HalDev->dev_base) = RxMbpEnable; ++ } ++/* ++ Reads the MacControl register and updates ++ the changable bits. (See MACCONTROL_MASK) ++*/ ++static void MacControlSet(HAL_DEVICE *HalDev) ++ { ++ bit32u MacControl; ++ if(HalDev->State < enOpened) ++ return; ++ MacControl = CPMAC_MACCONTROL(HalDev->dev_base); ++ MacControl &= ~MACCONTROL_MASK; /* Clear out updatable bits */ ++ MacControl |= HalDev->MacControl; ++ if(!(MacControl & MII_EN)) /* If Enable is not set just update register */ ++ CPMAC_MACCONTROL(HalDev->dev_base) = MacControl; ++ else ++ { ++ if(MacControl & CTRL_LOOPBACK) /* Loopback Set */ ++ { ++ /* mii_en is set and loopback is needed, ++ clear mii_en, set loopback, then set mii_en ++ */ ++ MacControl &= ~MII_EN; /* Clear MII_EN */ ++ CPMAC_MACCONTROL(HalDev->dev_base) = MacControl; ++ CPMAC_MACCONTROL(HalDev->dev_base) |= MII_EN; /* Set MII_EN */ ++ HalDev->Linked = 1; /* if in loopback the logically linked */ ++ } ++ else /* If Loopback not set just update */ ++ { ++ CPMAC_MACCONTROL(HalDev->dev_base) = MacControl; ++ } ++ } ++ if(DBG(0)) ++ dbgPrintf("[halMacControlSet]MacControl:%08X\n", CPMAC_MACCONTROL(HalDev->dev_base)); ++ } ++static int UnicastSet(HAL_DEVICE *HalDev) ++ { ++ CPMAC_RX_UNICAST_SET(HalDev->dev_base) = HalDev->RxUnicastSet; ++ CPMAC_RX_UNICAST_CLEAR(HalDev->dev_base) = HalDev->RxUnicastClear; ++ return(EC_NO_ERRORS); ++ } ++ ++ ++static bit32u HashGet(bit8u *Address) ++ { ++ bit32u hash; ++ bit8u tmpval; ++ int i; ++ ++ hash = 0; ++ for( i=0; i<2; i++ ) ++ { ++ tmpval = *Address++; ++ hash ^= (tmpval>>2)^(tmpval<<4); ++ tmpval = *Address++; ++ hash ^= (tmpval>>4)^(tmpval<<2); ++ tmpval = *Address++; ++ hash ^= (tmpval>>6)^(tmpval); ++ } ++ ++ return( hash & 0x3F ); ++ } ++ ++static void HashAdd(HAL_DEVICE *HalDev, bit8u *MacAddress) ++{ ++ bit32u HashValue; ++ bit32u HashBit; ++ ++ HashValue = HashGet(MacAddress); ++ ++ if(HashValue < 32) ++ { ++ HashBit = (1 << HashValue); ++ HalDev->MacHash1 |= HashBit; ++ } ++ else ++ { ++ HashBit = (1 << (HashValue-32)); ++ HalDev->MacHash2 |= HashBit; ++ } ++} ++ ++static void HashDel(HAL_DEVICE *HalDev, bit8u *MacAddress) ++{ ++ bit32u HashValue; ++ bit32u HashBit; ++ ++ HashValue = HashGet(MacAddress); ++ ++ if(HashValue < 32) ++ { ++ HashBit = (1 << HashValue); ++ HalDev->MacHash1 &= ~HashBit; ++ } ++ else ++ { ++ HashBit = (1 << (HashValue-32)); ++ HalDev->MacHash2 &= ~HashBit; ++ } ++} ++ ++/* Replace with an array based on key, with a ptr to the code to do */ ++/* e.g. [enRX_PASS_CRC] = {Set, MBP_UPDATE() } */ ++static void DuplexUpdate(HAL_DEVICE *HalDev) ++{ ++ int base = HalDev->dev_base; ++ PHY_DEVICE *PhyDev = HalDev->PhyDev; ++ ++ if(HalDev->State < enOpened) ++ return; ++ ++ /* No Phy Condition */ ++ if(HalDev->MdioConnect & _CPMDIO_NOPHY) /*MJH+030805*/ ++ { ++ /* No Phy condition, always linked */ ++ HalDev->Linked = 1; ++ HalDev->EmacSpeed = 1; ++ HalDev->EmacDuplex = 1; ++ HalDev->PhyNum = 0xFFFFFFFF; /* No Phy Num */ ++ CPMAC_MACCONTROL(base) |= FULLDUPLEX; /*MJH+030909*/ ++ osfuncStateChange(); ++ return; ++ } ++ ++ if(HalDev->MacControl & CTRL_LOOPBACK) /* Loopback Set */ ++ { ++ HalDev->Linked = 1; ++ return; ++ } ++ ++ if (HalDev->MdioConnect & _CPMDIO_LOOPBK) ++ { ++ HalDev->Linked = cpMacMdioGetLoopback(HalDev->PhyDev); ++ } ++ else ++ { ++ HalDev->Linked = cpMacMdioGetLinked(HalDev->PhyDev); ++ } ++ if (HalDev->Linked) ++ { ++ /* Retreive Duplex and Speed and the Phy Number */ ++ if(HalDev->MdioConnect & _CPMDIO_LOOPBK) ++ HalDev->EmacDuplex = 1; ++ else ++ HalDev->EmacDuplex = cpMacMdioGetDuplex(PhyDev); ++ HalDev->EmacSpeed = cpMacMdioGetSpeed(PhyDev); ++ HalDev->PhyNum = cpMacMdioGetPhyNum(PhyDev); ++ ++ if(HalDev->EmacDuplex) ++ CPMAC_MACCONTROL(base) |= FULLDUPLEX; ++ else ++ CPMAC_MACCONTROL(base) &= ~FULLDUPLEX; ++ if(HalDev->debug) ++ dbgPrintf("%d: Phy= %d, Speed=%s, Duplex=%s\n",HalDev->inst,HalDev->PhyNum,(HalDev->EmacSpeed)?"100":"10",(HalDev->EmacDuplex)?"Full":"Half"); ++ } ++ if(HalDev->debug) ++ dbgPrintf("DuplexUpdate[%d]: MACCONTROL 0x%08X, %s\n", HalDev->inst, CPMAC_MACCONTROL(base),(HalDev->Linked)?"Linked":"Not Linked"); ++} ++static void MdioSetPhyMode(HAL_DEVICE *HalDev) ++ { ++ unsigned int PhyMode; ++ /* Verify proper device state */ ++ if (HalDev->State < enOpened) ++ return; ++ ++ PhyMode = NWAY_AUTO|NWAY_FD100|NWAY_HD100|NWAY_FD10|NWAY_HD10; ++ if(DBG(0)) ++ { ++ dbgPrintf("halSetPhyMode1: MdioConnect:%08X ,", HalDev->MdioConnect); ++ dbgPrintf("PhyMode:%08X Auto:%d, FD10:%d, HD10:%d, FD100:%d, HD100:%d\n", PhyMode, ++ PhyMode&NWAY_AUTO, PhyMode&NWAY_FD10, PhyMode&NWAY_HD10, PhyMode&NWAY_FD100, ++ PhyMode&NWAY_HD100); ++ } ++ ++ ++ if ( HalDev->MdioConnect & _CPMDIO_NEG_OFF) /* ~RC3.01 */ ++ PhyMode &= ~(NWAY_AUTO); /* Disable Auto Neg */ ++ if (!(HalDev->MdioConnect & _CPMDIO_HD)) ++ PhyMode &= ~(NWAY_HD100|NWAY_HD10); /* Cannot support HD */ ++ if (!(HalDev->MdioConnect & _CPMDIO_FD)) ++ PhyMode &= ~(NWAY_FD100|NWAY_FD10); /* Cannot support FD */ ++ if (!(HalDev->MdioConnect & _CPMDIO_10)) ++ PhyMode &= ~(NWAY_HD10|NWAY_FD10); /* Cannot support 10 Mbs */ ++ if (!(HalDev->MdioConnect & _CPMDIO_100)) ++ PhyMode &= ~(NWAY_HD100|NWAY_FD100); /* Cannot support 100 Mbs */ ++ ++ if(HalDev->MdioConnect & _CPMDIO_AUTOMDIX) PhyMode |= NWAY_AUTOMDIX; /* Set AutoMdix */ ++ ++ if (HalDev->CpmacFrequency <= 50000000) ++ PhyMode &= ~(NWAY_FD100|NWAY_HD100); /* Cannot support 100 MBS */ ++ if(DBG(7)) ++ dbgPrintf("halNeg: PhyMode[0x%08X] %d\n", HalDev->dev_base, PhyMode); ++ ++ if(DBG(0)) ++ { ++ dbgPrintf("halSetPhyMode2: MdioConnect:%08X ,", HalDev->MdioConnect); ++ dbgPrintf("PhyMode:%08X Auto:%d, FD10:%d, HD10:%d, FD100:%d, HD100:%d\n", PhyMode, ++ PhyMode&NWAY_AUTO, PhyMode&NWAY_FD10, PhyMode&NWAY_HD10, PhyMode&NWAY_FD100, ++ PhyMode&NWAY_HD100); ++ } ++ ++ ++ cpMacMdioSetPhyMode(HalDev->PhyDev,PhyMode); ++ DuplexUpdate(HalDev); ++ } ++static int StatsClear(HAL_DEVICE *HalDev) ++{ ++ int i; ++ MEM_PTR pStats; ++ ++ scOpen(EC_CPMAC); ++ ++ pStats = pCPMAC_RXGOODFRAMES(HalDev->dev_base); ++ for (i=0;i<STATS_MAX;i++) ++ { ++ *(MEM_PTR)(pStats) = 0xFFFFFFFF; ++ pStats++; ++ } ++ ++ return(EC_NO_ERRORS); ++} ++static void StatsDump(HAL_DEVICE *HalDev, void *Value) ++ { ++ MEM_PTR ptrStats; ++ MEM_PTR ptrValue; ++ int i; ++ ptrStats = pCPMAC_RXGOODFRAMES(HalDev->dev_base); ++ ptrValue = (bit32u*) Value; ++ for (i=0; i<STATS_MAX; i++) ++ { ++ *ptrValue = *ptrStats; ++ if(DBG(4)) ++ { ++ dbgPrintf("halStatsDump: Stat[%d:0x%08X] %d 0x%08X %d\n", i, ptrStats, *ptrStats, ptrValue, *ptrValue); ++ osfuncSioFlush(); ++ } ++ ptrStats++; ++ ptrValue++; ++ } ++ } ++static void ConfigApply(HAL_DEVICE *HalDev) ++ { ++ CPMAC_RX_MAXLEN(HalDev->dev_base) = HalDev->RxMaxLen; ++ CPMAC_RX_FILTERLOWTHRESH(HalDev->dev_base) = HalDev->RxFilterLowThresh; ++ CPMAC_RX0_FLOWTHRESH(HalDev->dev_base) = HalDev->Rx0FlowThresh; ++ UnicastSet(HalDev); ++ MacAddressSet(HalDev); ++ RxMBP_EnableSet(HalDev); ++ MacHashSet(HalDev); ++ MacControlSet(HalDev); ++ if(DBG(0)) ++ dbgPrintf("ValuesUpdate[%d]: MBP_ENABLE 0x%08X\n", HalDev->inst, CPMAC_RX_MBP_ENABLE(HalDev->dev_base)); ++ } ++static int halStatus(HAL_DEVICE *HalDev) ++{ ++ int status; ++ ++ if(HalDev->State < enOpened) ++ return (EC_CPMAC|EC_FUNC_STATUS|EC_VAL_INVALID_STATE); /*MJH+030805*/ ++ ++ /* No Phy Condition */ ++ if(HalDev->MdioConnect & _CPMDIO_NOPHY) /*MJH+030805*/ ++ { ++ /* No Phy condition, always linked */ ++ status = HalDev->Linked; ++ status |= CPMAC_STATUS_LINK_DUPLEX; ++ status |= CPMAC_STATUS_LINK_SPEED; ++ return(status); ++ } ++ ++ ++ if (HalDev->HostErr) /* Adapter Check */ ++ { ++ bit32u tmp; ++ status = CPMAC_STATUS_ADAPTER_CHECK; ++ if(HalDev->MacStatus & RX_HOST_ERR_CODE) ++ { ++ status |= CPMAC_STATUS_HOST_ERR_DIRECTION; ++ tmp = (HalDev->MacStatus & RX_HOST_ERR_CODE) >> 12; /* Code */ ++ status |= (tmp << 9); /* Code */ ++ tmp = (HalDev->MacStatus & RX_ERR_CH) >> 8; /* Channel */ ++ status |= (tmp << 13); ++ } ++ else ++ if(HalDev->MacStatus & TX_HOST_ERR_CODE) ++ { ++ status |= CPMAC_STATUS_HOST_ERR_DIRECTION; ++ tmp = (HalDev->MacStatus & TX_HOST_ERR_CODE) >> 20; /* Code */ ++ status |= (tmp << 9); /* Code */ ++ tmp = (HalDev->MacStatus & TX_ERR_CH) >> 16; /* Channel */ ++ status |= (tmp << 13); ++ } ++ } ++ else ++ { ++ status = HalDev->Linked; ++ if(status) ++ { ++ status = CPMAC_STATUS_LINK; ++ if(cpMacMdioGetDuplex(HalDev->PhyDev)) ++ status |= CPMAC_STATUS_LINK_DUPLEX; ++ if(cpMacMdioGetSpeed(HalDev->PhyDev)) ++ status |= CPMAC_STATUS_LINK_SPEED; ++ } ++ } ++ if(HalDev->debug) ++ dbgPrintf("[halStatus] Link Status is %d for 0x%X\n", status, HalDev->dev_base); ++ return(status); ++} ++static int InfoAccess(HAL_DEVICE *HalDev, int Key, int Action, void *ParmValue) ++ { ++ int rc = 0; ++ int Update=0; ++ ++ switch (Key) ++ { ++ /********************************************************************/ ++ /* */ ++ /* GENERAL */ ++ /* */ ++ /********************************************************************/ ++ ++ case enVersion : ++ if(Action==enGET) ++ { ++ *(const char **)ParmValue = pszVersion_CPMAC; ++ } ++ break; ++ case enDebug : ++ if(Action==enSET) ++ { ++ HalDev->debug = *(unsigned int *)ParmValue; ++ } ++ break; ++ ++ case enStatus : ++ if(Action==enGET) ++ { ++ int status; ++ status = halStatus(HalDev); ++ *(int *)ParmValue = status; ++ } ++ break; ++ /********************************************************************/ ++ /* */ ++ /* RX_MBP_ENABLE */ ++ /* */ ++ /********************************************************************/ ++ ++ case enRX_PASS_CRC : ++ if(Action==enSET) ++ { ++ UPDATE_RX_PASS_CRC(*(unsigned int *)ParmValue); ++ Update=1; ++ } ++ break; ++ case enRX_QOS_EN : ++ if(Action==enSET) ++ { ++ UPDATE_RX_QOS_EN(*(unsigned int *)ParmValue); ++ Update=1; ++ } ++ break; ++ case enRX_NO_CHAIN : ++ if(Action==enSET) ++ { ++ UPDATE_RX_NO_CHAIN(*(unsigned int *)ParmValue); ++ Update=1; ++ } ++ break; ++ case enRX_CMF_EN : ++ if(Action==enSET) ++ { ++ UPDATE_RX_CMF_EN(*(unsigned int *)ParmValue); ++ Update=1; ++ } ++ break; ++ case enRX_CSF_EN : ++ if(Action==enSET) ++ { ++ UPDATE_RX_CSF_EN(*(unsigned int *)ParmValue); ++ Update=1; ++ } ++ break; ++ case enRX_CEF_EN : ++ if(Action==enSET) ++ { ++ UPDATE_RX_CEF_EN(*(unsigned int *)ParmValue); ++ Update=1; ++ } ++ break; ++ case enRX_CAF_EN : ++ if(Action==enSET) ++ { ++ UPDATE_RX_CAF_EN(*(unsigned int *)ParmValue); ++ Update=1; ++ } ++ break; ++ case enRX_PROM_CH : ++ if(Action==enSET) ++ { ++ UPDATE_RX_PROM_CH(*(unsigned int *)ParmValue); ++ Update=1; ++ } ++ break; ++ case enRX_BROAD_EN : ++ if(Action==enSET) ++ { ++ UPDATE_RX_BROAD_EN(*(unsigned int *)ParmValue); ++ Update=1; ++ } ++ break; ++ case enRX_BROAD_CH : ++ if(Action==enSET) ++ { ++ UPDATE_RX_BROAD_CH(*(unsigned int *)ParmValue); ++ Update=1; ++ } ++ break; ++ case enRX_MULT_EN : ++ if(Action==enSET) ++ { ++ UPDATE_RX_MULT_EN(*(unsigned int *)ParmValue); ++ Update=1; ++ } ++ break; ++ case enRX_MULT_CH : ++ if(Action==enSET) ++ { ++ UPDATE_RX_MULT_CH(*(unsigned int *)ParmValue); ++ Update=1; ++ } ++ break; ++ ++ /********************************************************************/ ++ /* */ ++ /* MAC_CONTROL */ ++ /* */ ++ /********************************************************************/ ++ ++ case enTX_PTYPE : ++ if(Action==enSET) ++ { ++ UPDATE_TX_PTYPE(*(unsigned int *)ParmValue); ++ Update=1; ++ } ++ break; ++ case enTX_PACE : ++ if(Action==enSET) ++ { ++ UPDATE_TX_PACE(*(unsigned int *)ParmValue); ++ Update=1; ++ } ++ break; ++ case enTX_FLOW_EN : ++ if(Action==enSET) ++ { ++ UPDATE_TX_FLOW_EN(*(unsigned int *)ParmValue); ++ Update=1; ++ } ++ break; ++ case enRX_FLOW_EN : ++ if(Action==enSET) ++ { ++ UPDATE_RX_FLOW_EN(*(unsigned int *)ParmValue); ++ Update=1; ++ } ++ break; ++ ++ case enCTRL_LOOPBACK : ++ if(Action==enSET) ++ { ++ UPDATE_CTRL_LOOPBACK(*(unsigned int *)ParmValue); ++ Update=1; ++ } ++ break; ++ /********************************************************************/ ++ /* */ ++ /* RX_UNICAST_SET */ ++ /* */ ++ /********************************************************************/ ++ ++ case enRX_UNICAST_SET : ++ if(Action==enSET) ++ { ++ HalDev->RxUnicastSet |= (1 << *(unsigned int *)ParmValue); ++ HalDev->RxUnicastClear &= ~(1 << *(unsigned int *)ParmValue); ++ Update=1; ++ } ++ break; ++ case enRX_UNICAST_CLEAR : ++ if(Action==enSET) ++ { ++ HalDev->RxUnicastClear |= (1 << *(unsigned int *)ParmValue); ++ HalDev->RxUnicastSet &= ~(1 << *(unsigned int *)ParmValue); ++ Update=1; ++ } ++ break; ++ ++ case enRX_MAXLEN : ++ if(Action==enSET) ++ { ++ HalDev->RxMaxLen = *(unsigned int *)ParmValue; ++ Update=1; ++ } ++ break; ++ ++ case enRX_FILTERLOWTHRESH : ++ if(Action==enSET) ++ { ++ HalDev->RxFilterLowThresh = *(unsigned int *)ParmValue; ++ Update=1; ++ } ++ break; ++ case enRX0_FLOWTHRESH : ++ if(Action==enSET) ++ { ++ HalDev->Rx0FlowThresh = *(unsigned int *)ParmValue; ++ Update=1; ++ } ++ break; ++ /********************************************************************/ ++ /* */ ++ /* RX_MULTICAST */ ++ /* */ ++ /********************************************************************/ ++ ++ case enRX_MULTICAST : ++ break; ++ case enRX_MULTI_SINGLE : ++ if(DBG(11)) ++ { ++ int tmpi; ++ bit8u *MacAddress; ++ MacAddress = (bit8u *) ParmValue; ++ dbgPrintf("CPMAC[%X]: MacAddress '", HalDev->dev_base); ++ for (tmpi=0; tmpi<6; tmpi++) ++ dbgPrintf("%02X:", MacAddress[tmpi]); ++ dbgPrintf("\n"); ++ } ++ if(Action==enCLEAR) ++ { ++ HashDel(HalDev, ParmValue); ++ Update=1; ++ } ++ else ++ if(Action==enSET) ++ { ++ HashAdd(HalDev, ParmValue); ++ Update=1; ++ } ++ break; ++ case enRX_MULTI_ALL : ++ if(Action==enCLEAR) ++ { ++ HalDev->MacHash1 = 0; ++ HalDev->MacHash2 = 0; ++ Update=1; ++ } ++ else ++ if(Action==enSET) ++ { ++ HalDev->MacHash1 = 0xFFFFFFFF; ++ HalDev->MacHash2 = 0xFFFFFFFF; ++ Update=1; ++ } ++ break; ++ ++ /********************************************************************/ ++ /* */ ++ /* MDIO */ ++ /* */ ++ /********************************************************************/ ++ ++ case enMdioConnect : ++ if(Action==enSET) ++ { ++ HalDev->MdioConnect = *(unsigned int *)ParmValue; ++ MdioSetPhyMode(HalDev); ++ } ++ if(Action==enGET) ++ { ++ *(unsigned int *)ParmValue = HalDev->MdioConnect; ++ } ++ break; ++ ++ ++ /********************************************************************/ ++ /* */ ++ /* STATISTICS */ ++ /* */ ++ /********************************************************************/ ++ case enStatsClear : ++ StatsClear(HalDev); ++ break; ++ case enStatsDump : ++ if(Action==enGET) ++ { ++ StatsDump(HalDev, ParmValue); ++ } ++ break; ++ ++/* Not implemented ++ case enStats1 : ++ if(Action==enGET) ++ { ++ StatsGet(HalDev, ParmValue, 1); ++ } ++ break; ++ ++ case enStats2 : ++ if(Action==enGET) ++ { ++ StatsGet(HalDev, ParmValue, 2); ++ } ++ break; ++ case enStats3 : ++ if(Action==enGET) ++ { ++ StatsGet(HalDev, ParmValue, 3); ++ } ++ break; ++ case enStats4 : ++ if(Action==enGET) ++ { ++ StatsGet(HalDev, ParmValue, 4); ++ } ++ break; ++ ++*/ ++ ++ default: ++ rc = EC_CPMAC|EC_FUNC_OPTIONS|EC_VAL_KEY_NOT_FOUND; ++ break; ++ } ++ ++ /* Verify proper device state */ ++ if (HalDev->State == enOpened) ++ switch (Update) ++ { ++ case 1 : ++ ConfigApply(HalDev); ++ break; ++ default: ++ break; ++ } ++ ++ return (rc); ++ } ++static const char pszStats[] = "Stats;"; ++ ++static int halControl(HAL_DEVICE *HalDev, const char *pszKey, const char *pszAction, void *Value) ++ { ++ int i; ++ int rc=0; ++ int Action; ++ int ActionFound; ++ int KeyFound; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(1)) ++ { ++ dbgPrintf("\nhalControl-HalDev:%08X,Action:%s,Key:%s\n", (bit32u)HalDev, pszAction, pszKey); ++ } ++#endif ++ ++ /* 23Aug04 - BCIL needs to set Mac Address */ ++ if(HalDev->OsFunc->Strcmpi(pszKey, pszMacAddr) == 0) ++ { ++ KeyFound=1; ++ if(HalDev->OsFunc->Strcmpi(pszAction, hcSet) == 0) ++ { ++ unsigned char *MacAddr; ++ MacAddr = (unsigned char *) Value; ++ MacAddressSave(HalDev, MacAddr); ++ MacAddressSet(HalDev); ++ return(0); ++ } ++ else ++ { ++ return(-1); ++ } ++ } ++ ++ if(HalDev->OsFunc->Strcmpi(pszKey, hcLinked) == 0) ++ { ++ KeyFound=1; ++ if(HalDev->OsFunc->Strcmpi(pszAction, hcSet) == 0) ++ { ++ HalDev->Linked = *(int *)Value; ++ return(0); ++ } ++ else ++ { ++ return(-1); ++ } ++ } ++ ++ if(HalDev->OsFunc->Strcmpi(pszKey, "TxIntDisable") == 0) ++ { ++ KeyFound=1; ++ if(HalDev->OsFunc->Strcmpi(pszAction, hcSet) == 0) ++ { ++ HalDev->TxIntDisable = *(int *)Value; ++ if(HalDev->TxIntDisable && (HalDev->State == enOpened)) ++ { ++ /* if Opened and need TxIntDisabled, clear Ints for Channel 0 */ ++ CPMAC_TX_INTMASK_CLEAR(HalDev->dev_base) = 1; ++ } ++ return(0); ++ } ++ else ++ { ++ return(-1); ++ } ++ } ++ ++ if(HalDev->OsFunc->Strcmpi(pszKey, hcPhyAccess) == 0) ++ { ++ bit32u RegAddr; ++ bit32u PhyNum; ++ bit32u Data; ++ bit32u ValueIn; ++ ++ ValueIn = *(bit32u*) Value; ++ ++ KeyFound=1; ++ /* Cannot access MII if not opended */ ++ ++ if(HalDev->State < enOpened) ++ return(-1); ++ ++ if(HalDev->OsFunc->Strcmpi(pszAction, hcGet) == 0) ++ { ++ ++ PhyNum = (ValueIn & 0x1F); /* Phynum 0-32 */ ++ RegAddr = (ValueIn >> 5) & 0xFF; /* RegAddr in upper 11 bits */ ++ ++ *(bit32u*)Value = _mdioUserAccessRead(HalDev->PhyDev, RegAddr, PhyNum); ++ ++ return(0); ++ } /* end of hcGet */ ++ ++ ++ if(HalDev->OsFunc->Strcmpi(pszAction, hcSet) == 0) ++ { ++ PhyNum = (ValueIn & 0x1F); /* Phynum 0-32 */ ++ RegAddr = (ValueIn >> 5) & 0xFF; /* RegAddr in upper 11 bits of lower 16 */ ++ ++ Data = ValueIn >> 16; /* Data store in upper 16 bits */ ++ ++ _mdioUserAccessWrite(HalDev->PhyDev, RegAddr, PhyNum, Data); ++ return(0); ++ } ++ } /* End of hcPhyAccess */ ++ ++ if(HalDev->OsFunc->Strcmpi(pszKey, hcPhyNum) == 0) ++ { ++ KeyFound=1; ++ if(!HalDev->Linked) ++ return(-1); /* if not linked the no Phy Connected */ ++ if(HalDev->OsFunc->Strcmpi(pszAction, hcGet) == 0) ++ { ++ *(int *)Value = HalDev->PhyNum; ++ return(0); ++ } ++ } ++ ++ if(HalDev->OsFunc->Strcmpi(pszKey, hcCpmacSize) == 0) ++ { ++ KeyFound=1; ++ if(HalDev->OsFunc->Strcmpi(pszAction, hcGet) == 0) ++ { ++ *(bit32u *)Value = HalDev->CpmacSize; ++ return(0); ++ } ++ } ++ ++ if(HalDev->OsFunc->Strcmpi(pszKey, hcCpmacBase) == 0) ++ { ++ KeyFound=1; ++ if(HalDev->OsFunc->Strcmpi(pszAction, hcGet) == 0) ++ { ++ *(int *)Value = HalDev->dev_base; ++ return(0); ++ } ++ } ++ ++ if(HalDev->OsFunc->Strcmpi(pszKey, hcFullDuplex) == 0) ++ { ++ KeyFound=1; ++ if(HalDev->OsFunc->Strcmpi(pszAction, hcSet) == 0) ++ { ++ UPDATE_FULLDUPLEX(*(unsigned int *)Value); ++ if(HalDev->State == enOpened) ++ ConfigApply(HalDev); ++ return(0); ++ } ++ else ++ return(-1); ++ } ++ ++ if(HalDev->OsFunc->Strcmpi(pszKey, pszDebug) == 0) ++ { ++ KeyFound=1; ++ if(HalDev->OsFunc->Strcmpi(pszAction, hcSet) == 0) ++ { ++ ActionFound=1; ++ HalDev->debug = *(int *)Value; ++ } ++ } ++ ++ if(HalDev->OsFunc->Strcmpi(pszKey, hcMaxFrags) == 0) ++ { ++ KeyFound=1; ++ if(HalDev->OsFunc->Strcmpi(pszAction, hcSet) == 0) ++ { ++ ActionFound=1; ++ ++ if ((*(int *)Value) > 0) ++ HalDev->MaxFrags = *(int *)Value; ++ else ++ rc = (EC_AAL5|EC_FUNC_CONTROL|EC_VAL_INVALID_VALUE); ++ } ++ ++ if (HalDev->OsFunc->Strcmpi(pszAction, hcGet) == 0) ++ { ++ ActionFound=1; ++ ++ *(int *)Value = HalDev->MaxFrags; ++ } ++ } ++ ++ if(HalDev->OsFunc->Strstr(pszKey, pszStats) != 0) ++ { ++ KeyFound=1; ++ if(HalDev->OsFunc->Strcmpi(pszAction, hcGet) == 0) ++ { ++ int Level; ++ int Ch; ++ char *TmpKey = (char *)pszKey; ++ ActionFound=1; ++ TmpKey += HalDev->OsFunc->Strlen(pszStats); ++ Level = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ TmpKey++; ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ TmpKey++; ++ osfuncSioFlush(); ++#ifdef __CPHAL_DEBUG ++ if (DBG(1)) ++ { ++ dbgPrintf("\nhalControl-HalDev:%08X, Level:%d, Ch:%d\n", (bit32u)HalDev, Level, Ch); ++ } ++#endif ++ StatsGet(HalDev, (void **)Value, Level, Ch, 0); ++ osfuncSioFlush(); ++ } ++ } ++ ++ ++ if(HalDev->OsFunc->Strcmpi(pszAction, hcSet) == 0) ++ Action = enSET; ++ else ++ if(HalDev->OsFunc->Strcmpi(pszAction, hcClear) == 0) ++ Action = enCLEAR; ++ else ++ if(HalDev->OsFunc->Strcmpi(pszAction, hcGet) == 0) ++ Action = enGET; ++ else ++ Action = enNULL; ++ ++ ++ ++ for(i=enCommonStart+1;i<enCommonEnd;i++) ++ { ++ if(HalDev->OsFunc->Strcmpi(KeyCommon[i].strKey, pszKey)==0) ++ { ++ rc = InfoAccess(HalDev, KeyCommon[i].enKey, Action, Value); ++ } ++ } ++ for(i=enCpmacStart+1;i<enCpmacEnd;i++) ++ { ++ if(HalDev->OsFunc->Strcmpi(KeyCpmac[i].strKey, pszKey)==0) ++ { ++ rc = InfoAccess(HalDev, KeyCpmac[i].enKey, Action, Value); ++ } ++ } ++/* ++ if (KeyFound == 0) ++ rc = (EC_MODULE|EC_FUNC_CONTROL|EC_VAL_KEY_NOT_FOUND); ++ ++ if (ActionFound == 0) ++ rc = (EC_MODULE|EC_FUNC_CONTROL|EC_VAL_ACTION_NOT_FOUND); ++*/ ++ ++ return(rc); ++ } ++static bit32u ConfigGet(HAL_DEVICE *HalDev) ++ { ++ OS_FUNCTIONS *OsFunc = HalDev->OsFunc; ++ char *DeviceInfo = HalDev->DeviceInfo; ++ int i = HalDev->inst; ++ bit32u Value; ++ int Error; ++ ++ /* get the configuration parameters common to all modules */ ++ Error = ConfigGetCommon(HalDev); ++ if (Error) return (EC_CPMAC|Error); ++ ++ if (HalDev->debug) ++ { ++ dbgPrintf("ConfigGet: haldev:0x%08X inst:%d base:0x%08X reset:%d\n", (bit32u) &HalDev, HalDev->inst, HalDev->dev_base, HalDev->ResetBit); ++ osfuncSioFlush(); ++ } ++ ++ Error = OsFunc->DeviceFindParmUint(DeviceInfo, pszMdioConnect,&Value); /*MJH+030805*/ ++ if(!Error) HalDev->MdioConnect = Value; ++ ++ Error = OsFunc->DeviceFindParmUint(DeviceInfo, "PhyMask",&Value); ++ if(!Error) HalDev->PhyMask = Value; ++ ++ Error = OsFunc->DeviceFindParmUint(DeviceInfo, "MLink",&Value); ++ if(!Error) HalDev->MLinkMask = Value; ++ ++ Error = OsFunc->DeviceFindParmUint(DeviceInfo, hcMdixMask, &Value); ++ if(!Error) ++ HalDev->MdixMask = Value; ++ else ++ HalDev->MdixMask = 0; ++ ++ Error = OsFunc->DeviceFindParmUint(DeviceInfo, hcSize, &Value); /*MJH+030425*/ ++ if(!Error) HalDev->CpmacSize = Value; ++ ++ for(i=enCommonStart+1;i<enCommonEnd;i++) ++ { ++ Error = OsFunc->DeviceFindParmUint(DeviceInfo, KeyCommon[i].strKey, (bit32u*)&Value); ++ if(!Error) ++ { ++ InfoAccess(HalDev, KeyCommon[i].enKey, enSET, (bit32u*)&Value); ++ } ++ } ++ for(i=enCpmacStart+1;i<enCpmacEnd;i++) ++ { ++ Error = OsFunc->DeviceFindParmUint(DeviceInfo, KeyCpmac[i].strKey, (bit32u*)&Value); ++ if(!Error) ++ { ++ InfoAccess(HalDev, KeyCpmac[i].enKey, enSET, (bit32u*)&Value); ++ } ++ } ++ return (EC_NO_ERRORS); ++ } ++ ++ ++static void ConfigInit(HAL_DEVICE *HalDev) ++ { ++ if(HalDev->inst == 0) ++ { ++ HalDev->dev_base = 0xA8610000; ++ HalDev->ResetBit = 17; ++ HalDev->interrupt = 19; ++ HalDev->MLinkMask = 0; ++ HalDev->PhyMask = 0xAAAAAAAA; ++ } ++ else ++ { ++ HalDev->dev_base = 0xA8612800; ++ HalDev->ResetBit = 21; ++ HalDev->interrupt = 33; /*~RC3.02*/ ++ HalDev->MLinkMask = 0; ++ HalDev->PhyMask = 0x55555555; ++ } ++ HalDev->RxMaxLen = 1518; ++ HalDev->MaxFrags = 2; ++ HalDev->MdioConnect = _CPMDIO_HD|_CPMDIO_FD|_CPMDIO_10|_CPMDIO_100|_CPMDIO_AUTOMDIX; ++ HalDev->debug=0xFFFFFFFF; ++ HalDev->debug=0; ++ } ++/* Shuts down the EMAC device ++ * ++ *@param HalDev EMAC instance. This was returned by halOpen() ++ *@param mode Indicates actions to tak on close. ++ <br> ++ *PARTIAL - Disable EMAC ++ <br> ++ *FULL - Disable EMAC and call OS to free all allocated memory ++ * ++ *@retval ++ * 0 OK ++ <br> ++ * Non-Zero Not OK ++ * ++ */ ++static int halInit( HAL_DEVICE *HalDev) ++ { ++ int rc; ++ ++ /* Verify proper device state */ ++ if (HalDev->State != enDevFound) ++ return(EC_CPMAC|EC_FUNC_HAL_INIT|EC_VAL_INVALID_STATE); ++ ++ /* Configure HAL defaults */ ++ ConfigInit(HalDev); ++ ++ /* Retrieve HAL configuration parameters from data store */ ++ rc = ConfigGet(HalDev); ++ if (rc) return (rc); ++ ++ /* Updated 030403*/ ++ rc = HalDev->OsFunc->Control(HalDev->OsDev, hcCpuFrequency, hcGet, &HalDev->CpuFrequency); /*MJH+030403*/ ++ if(rc) ++ HalDev->CpuFrequency = 20000000; /*20 Mhz default */ /*MJH+030403*/ ++ ++ rc = HalDev->OsFunc->Control(HalDev->OsDev, hcCpmacFrequency, hcGet, &HalDev->CpmacFrequency); /*MJH+030331*/ ++ if(rc) ++ HalDev->CpmacFrequency = HalDev->CpuFrequency/2; /*MJH~030404*/ ++ ++ rc = HalDev->OsFunc->Control(HalDev->OsDev, hcMdioBusFrequency, hcGet, &HalDev->MdioBusFrequency); /*MJH+030402*/ ++ if(rc) ++ HalDev->MdioBusFrequency = HalDev->CpmacFrequency; ++ ++ rc = HalDev->OsFunc->Control(HalDev->OsDev, hcMdioClockFrequency, hcGet, &HalDev->MdioClockFrequency); /*MJH+030402*/ ++ if(rc) ++ HalDev->MdioClockFrequency = 2200000; /* 2.2 Mhz PITS #14 */ ++ ++ ++ /* update device state */ ++ HalDev->State = enInitialized; ++ ++ /* initialize statistics */ ++ StatsInit(HalDev); /* +RC3.02 */ ++ ++ /* -RC3.02 ++ StatsTable3[0].StatPtr = &HalDev->ChData[0].RxBufSize; ++ StatsTable3[1].StatPtr = &HalDev->ChData[0].RxBufferOffset; ++ StatsTable3[2].StatPtr = &HalDev->ChData[0].RxNumBuffers; ++ StatsTable3[3].StatPtr = &HalDev->ChData[0].RxServiceMax; ++ StatsTable3[4].StatPtr = &HalDev->ChData[0].TxNumBuffers; ++ StatsTable3[5].StatPtr = &HalDev->ChData[0].TxNumQueues; ++ StatsTable3[6].StatPtr = &HalDev->ChData[0].TxServiceMax; ++ */ ++ ++ return(EC_NO_ERRORS); ++ } ++static int halProbe(HAL_DEVICE *HalDev) ++ { ++ int inst = HalDev->inst; ++ OS_FUNCTIONS *OsFunc = HalDev->OsFunc; ++ int error_code; ++ ++ if (HalDev->State != enConnected) ++ return (EC_CPMAC|EC_FUNC_PROBE|EC_VAL_INVALID_STATE); ++ ++ if(HalDev->debug) dbgPrintf("halProbe: %d ",inst); ++ ++ error_code = OsFunc->DeviceFindInfo(inst,"cpmac",&HalDev->DeviceInfo); ++ ++ if(error_code) ++ return (EC_CPMAC|EC_FUNC_PROBE|EC_VAL_DEVICE_NOT_FOUND ); ++ ++ /* Set device state to DevFound */ ++ HalDev->State = enDevFound; ++ return(EC_NO_ERRORS); ++ } ++static void ChannelConfigInit(HAL_DEVICE *HalDev, CHANNEL_INFO *HalChn) ++ { ++ int Ch = HalChn->Channel; ++ int Direction = HalChn->Direction; ++ int nTxBuffers = 256; ++ ++ if (Direction == DIRECTION_TX) ++ { ++ HalDev->ChData[Ch].TxNumBuffers = nTxBuffers; ++ HalDev->ChData[Ch].TxNumQueues = 1; ++ HalDev->ChData[Ch].TxServiceMax = nTxBuffers/3; ++ HalDev->TxIntThreshold[Ch] = HalDev->ChData[Ch].TxServiceMax; ++ HalDev->TxIntThresholdMaster[Ch] = HalDev->TxIntThreshold[Ch]; ++ } ++ ++ if (Direction == DIRECTION_RX) ++ { ++ HalDev->ChData[Ch].RxNumBuffers = nTxBuffers*2; ++ HalDev->ChData[Ch].RxBufferOffset = 0; ++ HalDev->ChData[Ch].RxBufSize = 1518; ++ HalDev->ChData[Ch].RxServiceMax = nTxBuffers/3; /*Not a typo*/ ++ } ++ } ++static int ChannelConfigApply(HAL_DEVICE *HalDev, CHANNEL_INFO *HalChn) ++ { ++ int Ch = HalChn->Channel; ++ int Direction = HalChn->Direction; ++ ++ if (DBG(11)) ++ { ++ dbgPrintf("halChannelConfigApply[%d:%d] haldev:0x%08X inst:%d base:0x%08X reset:%d\n", Ch, Direction, (bit32u) &HalDev, HalDev->inst, HalDev->dev_base, HalDev->ResetBit); ++ osfuncSioFlush(); ++ } ++ ++ if (Direction == DIRECTION_TX) ++ { ++ if (HalDev->ChIsOpen[Ch][Direction] == TRUE) ++ { ++ return(EC_CPMAC|EC_FUNC_CHSETUP|EC_VAL_TX_CH_ALREADY_OPEN); ++ } ++ ++ /* Initialize Queue Data */ ++ HalDev->TxActQueueHead[Ch][0] = 0; ++ HalDev->TxActQueueCount[Ch][0] = 0; ++ HalDev->TxActive[Ch][0] = FALSE; ++ ++ /* Need to use a macro that takes channel as input */ ++ CPMAC_TX0_HDP(HalDev->dev_base)=0; ++ ++ /* Initialize buffer memory for the channel */ ++ InitTcb(HalDev, Ch); ++ ++ if(!HalDev->TxIntDisable) ++ CPMAC_TX_INTMASK_SET(HalDev->dev_base) = (1<<Ch); /* GSG 11/22 */ ++ } ++ else ++ { ++ if (HalDev->ChIsOpen[Ch][Direction] == TRUE) ++ { ++ return(EC_CPMAC|EC_FUNC_CHSETUP|EC_VAL_RX_CH_ALREADY_OPEN); ++ } ++ ++ /* Initialize Queue Data */ ++ HalDev->RxActQueueHead[Ch] = 0; ++ HalDev->RxActQueueCount[Ch] = 0; ++ ++ HalDev->RxActive[Ch] = FALSE; ++ ++ /* Need to use a macro that takes channel as input */ ++ CPMAC_RX0_HDP(HalDev->dev_base)=0; ++ ++ /* Initialize buffer memory for the channel */ ++ InitRcb(HalDev, Ch); ++ ++ CPMAC_RX_INTMASK_SET(HalDev->dev_base) = (1<<Ch); /* GSG 11/22 */ ++ } ++ ++ HalDev->ChIsOpen[Ch][Direction] = TRUE; /* channel is open */ ++ ++ return (EC_NO_ERRORS); ++ } ++ ++/* GSG 11/22 ++ * Retrieves channel parameters from configuration file. Any parameters ++ * which are not found are ignored, and the HAL default value will apply, ++ * unless a new value is given through the channel structure in the call ++ * to ChannelSetup. ++ */ ++static int ChannelConfigGet(HAL_DEVICE *HalDev, CHANNEL_INFO *HalChn) ++ { ++ int Ch = HalChn->Channel; ++ int Direction = HalChn->Direction; ++ OS_FUNCTIONS *OsFunc = HalDev->OsFunc; ++ unsigned int rc, Value; ++ void *ChInfo; ++ ++ rc=OsFunc->DeviceFindParmValue(HalDev->DeviceInfo, channel_names[Ch], &ChInfo); ++ /* Do not fail if Channel Info not available for RC2 */ ++ if (rc) return(0); ++/* if (rc) return(EC_CPMAC|EC_FUNC_CHSETUP|EC_VAL_CH_INFO_NOT_FOUND);*/ ++ ++ /* i don't care if a value is not found because they are optional */ ++ if(Direction == DIRECTION_TX) ++ { ++ rc=OsFunc->DeviceFindParmUint(ChInfo, "TxNumBuffers", &Value); ++ if (!rc) HalDev->ChData[Ch].TxNumBuffers = Value; ++ ++ /*rc=OsFunc->DeviceFindParmUint(ChInfo, "TxNumQueues", &Value);*/ /*MJH-030329*/ ++ /*if (!rc) HalDev->ChData[Ch].TxNumQueues = Value;*/ /*MJH-030329*/ ++ ++ rc=OsFunc->DeviceFindParmUint(ChInfo, "TxServiceMax", &Value); ++ if (!rc) ++ { ++ HalDev->ChData[Ch].TxServiceMax = Value; ++ HalDev->TxIntThreshold[Ch] = HalDev->ChData[Ch].TxServiceMax; ++ HalDev->TxIntThresholdMaster[Ch] = HalDev->TxIntThreshold[Ch]; ++ } ++ } ++ if(Direction == DIRECTION_RX) ++ { ++ rc=OsFunc->DeviceFindParmUint(ChInfo, "RxNumBuffers", &Value); ++ if (!rc) HalDev->ChData[Ch].RxNumBuffers = Value; ++ ++ rc=OsFunc->DeviceFindParmUint(ChInfo, "RxBufferOffset", &Value); ++ if (!rc) HalDev->ChData[Ch].RxBufferOffset = Value; ++ ++ rc=OsFunc->DeviceFindParmUint(ChInfo, "RxBufSize", &Value); ++ if (!rc) HalDev->ChData[Ch].RxBufSize = Value; ++ ++ rc=OsFunc->DeviceFindParmUint(ChInfo, "RxServiceMax", &Value); ++ if (!rc) HalDev->ChData[Ch].RxServiceMax = Value; ++ } ++ return (EC_NO_ERRORS); ++ } ++#define ChannelUpdate(Field) if(HalChn->Field != 0xFFFFFFFF) HalDev->ChData[Ch].Field = HalChn->Field ++ ++static void ChannelConfigUpdate(HAL_DEVICE *HalDev, CHANNEL_INFO *HalChn) ++ { ++ int Ch = HalChn->Channel; ++ int Direction = HalChn->Direction; ++#ifdef __CPHAL_DEBUG ++ if (DBG(1)) ++ { ++ dbgPrintf("\nChnUpd-HalDev:%08X,Chn:%d:%d\n", (bit32u)HalDev, Ch, Direction); osfuncSioFlush(); ++ } ++#endif ++ if (Direction == DIRECTION_TX) ++ { ++ ChannelUpdate(TxNumBuffers); ++ /*ChannelUpdate(TxNumQueues);*/ /*MJH~030329*/ ++ ChannelUpdate(TxServiceMax); ++ HalDev->TxIntThreshold[Ch] = HalDev->ChData[Ch].TxServiceMax; ++ HalDev->TxIntThresholdMaster[Ch] = HalDev->TxIntThreshold[Ch]; ++ } ++ else ++ if (Direction == DIRECTION_RX) ++ { ++ ChannelUpdate(RxBufferOffset); ++ ChannelUpdate(RxBufSize); ++ ChannelUpdate(RxNumBuffers); ++ ChannelUpdate(RxServiceMax); ++#ifdef __CPHAL_DEBUG ++ if (DBG(1)) ++ { ++ dbgPrintf("\nRxNumBuffers %d\n",HalChn->RxNumBuffers); osfuncSioFlush(); ++ } ++#endif ++ } ++ } ++static int halChannelSetup(HAL_DEVICE *HalDev, CHANNEL_INFO *HalChn, OS_SETUP *OsSetup) ++ { ++ int Direction; ++ int Ch; ++ int rc; ++ ++ /* Verify proper device state */ ++ if (HalDev->State < enInitialized) ++ return (EC_CPMAC|EC_FUNC_CHSETUP|EC_VAL_INVALID_STATE); ++ ++ /* We require the channel structure to be passed, even if it only contains ++ the channel number */ ++ if (HalChn == NULL) ++ { ++ return(EC_CPMAC|EC_FUNC_CHSETUP|EC_VAL_NULL_CH_STRUCT); ++ } ++ ++ Ch = HalChn->Channel; ++ Direction = HalChn->Direction; ++ ++ /* This should check on Maximum Channels for RX or TX, ++ they might be different Mick 021124 */ ++ if ((Ch < 0) || (Ch > (MAX_CHAN-1))) ++ { ++ return(EC_CPMAC|EC_FUNC_CHSETUP|EC_VAL_INVALID_CH); ++ } ++ ++ /* if channel is already open, this call is invalid */ ++ if (HalDev->ChIsOpen[Ch][Direction] == TRUE) ++ { ++ return(EC_CPMAC|EC_FUNC_CHSETUP|EC_VAL_CH_ALREADY_OPEN); ++ } ++ ++ /* channel is closed, but might be setup. If so, reopen the hardware channel. */ ++ if (HalDev->ChIsSetup[Ch][Direction] == FALSE) ++ { ++ /* Setup channel configuration */ ++ HalDev->ChData[Ch].Channel = Ch; ++ ++ /* Store OS_SETUP */ ++ HalDev->ChData[Ch].OsSetup = OsSetup; ++ ++ /* Framework : ++ Set Default Values ++ Update with options.conf ++ Apply driver updates ++ */ ++ ChannelConfigInit(HalDev, HalChn); ++ ChannelConfigGet(HalDev, HalChn); ++ ChannelConfigUpdate(HalDev, HalChn); ++ ++ /* cppi.c needs to use Rx/TxServiceMax */ ++ HalDev->BuffersServicedMax = 169; /* TEMP */ ++ ++ HalDev->ChIsSetup[Ch][Direction] = TRUE; ++ } ++ ++ rc = EC_NO_ERRORS; ++ ++ /* If the hardware has been opened (is out of reset), then configure the channel ++ in the hardware. NOTE: ChannelConfigApply calls the CPSAR ChannelSetup()! */ ++ if (HalDev->State == enOpened) ++ { ++ rc = ChannelConfigApply(HalDev, HalChn); ++ } ++ ++ return (rc); ++ } ++ ++ ++static int miiInfoGet(HAL_DEVICE *HalDev, bit32u *miiBaseAddress, bit32u *miiResetBit) ++ { ++ int rc; ++ void *DeviceInfo; ++ OS_FUNCTIONS *OsFunc = HalDev->OsFunc; ++ ++ /* Only one instance of cpmdio */ ++ rc = OsFunc->DeviceFindInfo(0,"cpmdio",&DeviceInfo); /*~RC3.02*/ ++ ++ if(rc) ++ return (EC_DEV_CPMDIO|EC_FUNC_OPEN|EC_VAL_DEVICE_NOT_FOUND ); ++ ++ rc = OsFunc->DeviceFindParmUint(DeviceInfo, "base",miiBaseAddress); ++ if(rc) ++ rc=EC_DEV_CPMDIO|EC_FUNC_OPEN|EC_VAL_NO_BASE; ++ ++ rc = OsFunc->DeviceFindParmUint(DeviceInfo, "reset_bit",miiResetBit); ++ if(rc) ++ rc=EC_DEV_CPMDIO|EC_FUNC_OPEN|EC_VAL_NO_BASE; ++ ++ ++ /* See if need to make mdio functional in GPIO */ ++ gpioCheck(HalDev, DeviceInfo); ++ ++ if(DBG(0)) ++ dbgPrintf("miiBase: 0x%08X %u\n", *miiBaseAddress, *miiResetBit); ++ return(rc); ++ } ++static void ephyCheck(HAL_DEVICE *HalDev) ++ { /*+RC3.02*/ ++ int rc; ++ void *DeviceInfo; ++ int mii_phy; ++ int reset_bit; ++ OS_FUNCTIONS *OsFunc = HalDev->OsFunc; ++ ++ rc = OsFunc->DeviceFindInfo(0,"ephy",&DeviceInfo); ++ if(rc) return; ++ ++ rc = OsFunc->DeviceFindParmUint(DeviceInfo, "mii_phy",&mii_phy); ++ if(rc) return; ++ ++ rc = OsFunc->DeviceFindParmUint(DeviceInfo, "reset_bit",&reset_bit); ++ if(rc) return; ++ ++ if (HalDev->PhyMask & (1 << mii_phy)) ++ { ++ *(volatile bit32u *)(HalDev->ResetBase) |= (1 << reset_bit); /*+RC3.02*/ ++ resetWait(HalDev); ++ } ++ } /*+RC3.02*/ ++static void AutoNegotiate(HAL_DEVICE *HalDev) ++ { ++ int size; ++ bit32u ModID, RevMaj, RevMin; ++ PHY_DEVICE *PhyDev; ++ bit32u miiBaseAddress; ++ bit32u miiResetBit; ++ ++ /* Verify proper device state */ ++ if (HalDev->State < enOpened) ++ return; ++ ++ miiInfoGet(HalDev, &miiBaseAddress, &miiResetBit); ++ ++ cpMacMdioGetVer(miiBaseAddress, &ModID, &RevMaj, &RevMin); ++ if(HalDev->debug) ++ dbgPrintf("Mdio Module Id %d, Version %d.%d\n", ModID, RevMaj, RevMin); ++ ++ size = cpMacMdioGetPhyDevSize(); ++ PhyDev = (PHY_DEVICE *) HalDev->OsFunc->Malloc( size ); ++ ++ HalDev->PhyDev = PhyDev; ++ ++ ephyCheck(HalDev); ++ ++ cpMacMdioInit( PhyDev, miiBaseAddress, HalDev->inst, HalDev->PhyMask, HalDev->MLinkMask, HalDev->MdixMask, HalDev->ResetBase, miiResetBit, HalDev->MdioBusFrequency, HalDev->MdioClockFrequency, HalDev->debug, HalDev); /*MJH~030402*/ ++ MdioSetPhyMode(HalDev); ++ ++ return; ++ } ++static int halOpen(HAL_DEVICE *HalDev) ++ { ++ unsigned char *MacAddr; ++ int i; ++ int j; ++ int rc, Ticks; ++ ++ if (HalDev->debug) ++ { ++ dbgPrintf("halOpen: haldev:0x%08X inst:%d base:0x%08X reset:%d\n", (bit32u) &HalDev, HalDev->inst, HalDev->dev_base, HalDev->ResetBit); ++ osfuncSioFlush(); ++ } ++ ++ /* Verify proper device state */ ++ if (HalDev->State < enInitialized) ++ return (EC_CPMAC|EC_FUNC_OPEN|EC_VAL_INVALID_STATE); ++ ++ ++ /* take CPMAC out of reset - GSG 11/20*/ ++ if ((VOLATILE32(HalDev->ResetBase) & (1 << HalDev->ResetBit)) != 0) ++ { ++ /* perform normal close duties */ ++ CPMAC_MACCONTROL(HalDev->dev_base) &= ~MII_EN; ++ CPMAC_TX_CONTROL(HalDev->dev_base) &= ~TX_EN; ++ CPMAC_RX_CONTROL(HalDev->dev_base) &= ~RX_EN; ++ ++ /* disable interrupt masks */ ++ CPMAC_TX_INTMASK_CLEAR(HalDev->dev_base) = 0xFF; ++ CPMAC_RX_INTMASK_CLEAR(HalDev->dev_base) = 0xFF; ++ } ++ ++ /* take CPMAC out of reset */ ++ *(volatile bit32u *)(HalDev->ResetBase) &= ~(1 << HalDev->ResetBit); ++ resetWait(HalDev); ++ *(volatile bit32u *)(HalDev->ResetBase) |= (1 << HalDev->ResetBit); ++ resetWait(HalDev); ++ ++ /* After Reset clear the Transmit and Receive DMA Head Descriptor Pointers */ ++ ++ CPMAC_TX0_HDP(HalDev->dev_base)=0; ++ CPMAC_TX1_HDP(HalDev->dev_base)=0; ++ CPMAC_TX2_HDP(HalDev->dev_base)=0; ++ CPMAC_TX3_HDP(HalDev->dev_base)=0; ++ CPMAC_TX4_HDP(HalDev->dev_base)=0; ++ CPMAC_TX5_HDP(HalDev->dev_base)=0; ++ CPMAC_TX6_HDP(HalDev->dev_base)=0; ++ CPMAC_TX7_HDP(HalDev->dev_base)=0; ++ ++ /* Rx Init */ ++ ++ CPMAC_RX0_HDP(HalDev->dev_base) = 0; ++ CPMAC_RX1_HDP(HalDev->dev_base) = 0; ++ CPMAC_RX2_HDP(HalDev->dev_base) = 0; ++ CPMAC_RX3_HDP(HalDev->dev_base) = 0; ++ CPMAC_RX4_HDP(HalDev->dev_base) = 0; ++ CPMAC_RX5_HDP(HalDev->dev_base) = 0; ++ CPMAC_RX6_HDP(HalDev->dev_base) = 0; ++ CPMAC_RX7_HDP(HalDev->dev_base) = 0; ++ ++ CPMAC_RX_BUFFER_OFFSET(HalDev->dev_base) = 0; ++ ++ /* Init Tx and Rx DMA */ ++ ++ CPMAC_TX_CONTROL(HalDev->dev_base) |= TX_EN; ++ CPMAC_RX_CONTROL(HalDev->dev_base) |= RX_EN; ++ ++ CPMAC_MAC_INTMASK_SET(HalDev->dev_base) |=2; /* Enable Adaptercheck Ints */ ++ HalDev->OsFunc->Control(HalDev->OsDev, pszMacAddr, hcGet, &MacAddr); /* GSG 11/22 */ ++ MacAddressSave(HalDev, MacAddr); ++ ++ HalDev->HostErr = 0; /* Clear Adapter Check indicator */ ++ HalDev->State = enOpened; /* Change device state */ ++ ++ /* Start MDIO Negotiation */ ++ AutoNegotiate(HalDev); ++ ++ /* Enable the Os Timer */ ++ Ticks = HalDev->CpuFrequency / 100; /* 10 milli-secs */ /*MJH~030402*/ ++ HalDev->OsFunc->Control(HalDev->OsDev, pszTick, hcSet, &Ticks); /* GSG 11/22 */ ++ HalDev->OsFunc->IsrRegister(HalDev->OsDev, halIsr, HalDev->interrupt); ++ ++ /* GSG +030523 Malloc space for the Rx fraglist */ ++ HalDev->fraglist = HalDev->OsFunc->Malloc(HalDev->MaxFrags * sizeof(FRAGLIST)); ++ ++ /* Any pre-open configuration */ ++ ++ /* For any channels that have been pre-initialized, set them up now */ ++ /* Note : This loop should not use MAX_CHN, it should only ++ loop through Channels Setup, memory should not be reserved ++ until Channel is Setup ++ */ ++ for(i=0; i<MAX_CHAN; i++) /* i loops through Channels */ ++ for(j=0; j<2; j++) /* j loops through DIRECTION values, 0 and 1 */ ++ { ++ if(HalDev->ChIsSetup[i][j]==TRUE) /* If the Channel and Direction have been Setup */ ++ if(HalDev->ChIsOpen[i][j]==FALSE) /* but not opened, then Apply Values now */ ++ { ++ CHANNEL_INFO HalChn; ++ HalChn.Channel = i; ++ HalChn.Direction = j; ++ rc = ChannelConfigApply(HalDev, &HalChn); ++ if(rc != EC_NO_ERRORS) ++ return(rc); ++ } ++ } /* End of looping through Channel/Direction */ ++ ++ ConfigApply(HalDev); /* Apply Configuration Values to Device */ ++ CPMAC_MACCONTROL(HalDev->dev_base) |= MII_EN; /* MAC_EN */ ++ if(DBG(0)) ++ dbgPrintf("[halOpen]MacControl:%08X\n", CPMAC_MACCONTROL(HalDev->dev_base)); ++ return(EC_NO_ERRORS); ++ } ++ ++#define INT_PENDING (MAC_IN_VECTOR_TX_INT_OR | MAC_IN_VECTOR_RX_INT_OR | MAC_IN_VECTOR_HOST_INT) ++static int halShutdown(HAL_DEVICE *HalDev) ++ { ++ int Ch, Queue; /*GSG+030514*/ ++ ++ /* Verify proper device state */ ++ if (HalDev->State == enOpened) ++ halClose(HalDev, 3); /* GSG ~030429 */ ++ ++ /* Buffer/descriptor resources may still need to be freed if a Close ++ Mode 1 was performed prior to Shutdown - clean up here */ /*GSG+030514*/ ++ for (Ch=0; Ch<MAX_CHAN; Ch++) ++ { ++ if (HalDev->RcbStart[Ch] != 0) ++ FreeRx(HalDev,Ch); ++ ++ for(Queue=0; Queue<MAX_QUEUE; Queue++) ++ { ++ if (HalDev->TcbStart[Ch][Queue] != 0) ++ FreeTx(HalDev,Ch,Queue); ++ } ++ } ++ ++ /* free the HalFunc */ ++ HalDev->OsFunc->Free(HalDev->HalFuncPtr); ++ ++ /* free the HAL device */ ++ HalDev->OsFunc->Free(HalDev); ++ ++ return(EC_NO_ERRORS); ++ } ++int halIsr(HAL_DEVICE *HalDev, int *MorePackets) ++{ ++ bit32u IntVec; ++ int Serviced; ++ int PacketsServiced=0; ++ int Channel; ++ int TxMorePackets=0; ++ int RxMorePackets=0; ++ ++ /* Verify proper device state - important because a call prior to Open would ++ result in a lockup */ ++ if (HalDev->State != enOpened) ++ return(EC_CPMAC|EC_FUNC_DEVICE_INT|EC_VAL_INVALID_STATE); ++ ++ IntVec = CPMAC_MAC_IN_VECTOR(HalDev->dev_base); ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("\nhalIsr: inst %d, IntVec 0x%X\n", HalDev->inst, IntVec); osfuncSioFlush();/* GSG 11/22 */ ++ } ++#endif ++ ++ HalDev->IntVec = IntVec; ++ if (IntVec & MAC_IN_VECTOR_TX_INT_OR) ++ { ++ int TxServiceMax=0; /* Compiler complains if not initialized */ ++ ++ Channel = (IntVec & 0x7); ++ ++ if(HalDev->TxIntDisable) ++ { ++ CPMAC_TX_INTMASK_CLEAR(HalDev->dev_base) = (1<<Channel); /* Disable Interrupt for Channel */ ++ TxServiceMax = HalDev->ChData[Channel].TxServiceMax; ++ HalDev->ChData[Channel].TxServiceMax = 10000; /* Need to service all packets in the Queue */ ++ } ++ ++ PacketsServiced |= TxInt(HalDev, Channel, 0, &TxMorePackets); ++ ++ if(HalDev->TxIntDisable) ++ HalDev->ChData[Channel].TxServiceMax = TxServiceMax; ++ } ++ ++ if (IntVec & MAC_IN_VECTOR_RX_INT_OR) ++ { ++ Channel = (IntVec >> 8) & 0x7; ++ Serviced = RxInt(HalDev, Channel, &RxMorePackets); ++ PacketsServiced |= (Serviced<<16); ++ } ++ ++ if (IntVec & MAC_IN_VECTOR_HOST_INT) ++ { ++ /* Adaptercheck */ ++ HalDev->HostErr = 1; ++ HalDev->MacStatus = CPMAC_MACSTATUS(HalDev->dev_base); ++ osfuncStateChange(); /*MJH+030328*/ ++ if(DBG(0)) ++ { ++ dbgPrintf("Adaptercheck: %08x for base:%X\n",HalDev->MacStatus, (bit32u)HalDev->dev_base); ++ osfuncSioFlush(); ++ } ++ } ++ *MorePackets = (TxMorePackets | RxMorePackets); ++ return (PacketsServiced); ++} ++ ++int halPacketProcessEnd(HAL_DEVICE *HalDev) ++{ ++ int base = HalDev->dev_base; ++ CPMAC_MAC_EOI_VECTOR(base) = 0; ++ return(0); ++} ++ ++ ++ ++static int PhyCheck(HAL_DEVICE *HalDev) ++ { ++ return(cpMacMdioTic(HalDev->PhyDev)); ++ } ++static int halTick(HAL_DEVICE *HalDev) ++{ ++ int TickChange; ++ ++ if(HalDev->State < enOpened) ++ return (EC_CPMAC|EC_FUNC_TICK|EC_VAL_INVALID_STATE); ++ ++ /* if NO Phy no need to check Link */ ++ if(HalDev->MdioConnect & _CPMDIO_NOPHY) ++ return(EC_NO_ERRORS); /* No change in Phy State detected */ ++ ++ TickChange = PhyCheck(HalDev); ++ /* Phy State Change Detected */ ++ if(TickChange == 1) ++ { ++ /* MDIO indicated a change */ ++ DuplexUpdate(HalDev); ++ osfuncStateChange(); ++ return(EC_NO_ERRORS); ++ } ++ ++ /* if in AutoMdix mode, and Flip request received, inform OS */ ++ if( (HalDev->MdioConnect & _CPMDIO_AUTOMDIX) && ++ (TickChange & _MIIMDIO_MDIXFLIP)) ++ { ++ bit32u Mdix; ++ Mdix = TickChange & 0x1; /* Mdix mode stored in bit 0 */ ++ HalDev->OsFunc->Control(HalDev->OsDev, hcMdioMdixSwitch, hcSet, &Mdix); ++ return(EC_NO_ERRORS); ++ } ++ ++ return(EC_NO_ERRORS); ++} ++ ++int halCpmacInitModule(HAL_DEVICE **pHalDev, OS_DEVICE *OsDev, HAL_FUNCTIONS **pHalFunc, ++ OS_FUNCTIONS *OsFunc, int OsFuncSize, int *HalFuncSize, int Inst) ++ { ++ HAL_DEVICE *HalDev; ++ HAL_FUNCTIONS *HalFunc; ++ ++ if (OsFuncSize < sizeof(OS_FUNCTIONS)) ++ return (EC_CPMAC|EC_FUNC_HAL_INIT|EC_VAL_OS_VERSION_NOT_SUPPORTED); ++ ++ HalDev = (HAL_DEVICE *) OsFunc->MallocDev(sizeof(HAL_DEVICE)); ++ if (!HalDev) ++ return (EC_CPMAC|EC_FUNC_HAL_INIT|EC_VAL_MALLOC_DEV_FAILED); ++ ++ /* clear the HalDev area */ ++ OsFunc->Memset(HalDev, 0, sizeof(HAL_DEVICE)); ++ ++ /* Initialize the size of hal functions */ ++ *HalFuncSize = sizeof (HAL_FUNCTIONS); ++ ++ HalFunc = (HAL_FUNCTIONS *) OsFunc->Malloc(sizeof(HAL_FUNCTIONS)); ++ if (!HalFunc) ++ return (EC_CPMAC|EC_FUNC_HAL_INIT|EC_VAL_MALLOC_FAILED); ++ ++ /* clear the function pointers */ ++ OsFunc->Memset(HalFunc, 0, sizeof(HAL_FUNCTIONS)); ++ ++ HalDev->OsDev = OsDev; ++ HalDev->OsOpen = OsDev; ++ HalDev->inst = Inst; ++ HalDev->OsFunc = OsFunc; ++ HalDev->HalFunc = HalFunc; ++ /* Remove the following from cppi, replace with HalFunc */ ++ HalDev->HalFuncPtr = HalFunc; /* GSG 11/20 changed name to match cppi */ ++ ++ /****************************************************************/ ++ /* POPULATE HALFUNC */ ++ /****************************************************************/ ++ HalFunc->ChannelSetup = halChannelSetup; ++ HalFunc->ChannelTeardown = halChannelTeardown; /* GSG 11/20 */ ++ HalFunc->Close = halClose; /* GSG 11/20 */ ++ HalFunc->Control = halControl; /* GSG 11/22 */ ++ HalFunc->Init = halInit; ++ HalFunc->Open = halOpen; ++ HalFunc->PacketProcessEnd = halPacketProcessEnd; ++ HalFunc->Probe = halProbe; ++ HalFunc->RxReturn = halRxReturn; ++ HalFunc->Send = halSend; ++ HalFunc->Shutdown = halShutdown; ++ HalFunc->Tick = halTick; ++ ++ /* HalFunc->Status = halStatus;*/ /* GSG 11/22 */ ++ /* pass the HalDev and HalFunc back to the caller */ ++ ++ *pHalDev = HalDev; ++ *pHalFunc = HalFunc; ++ ++ HalDev->State = enConnected; /* Initialize the hardware state */ ++ ++ if (HalDev->debug) HalDev->OsFunc->Printf("halCpmacInitModule: Leave\n"); ++ return(0); ++ } ++ ++int cpmacRandomRange(HAL_DEVICE *HalDev, int min, int max) ++{ ++ int iTmp; ++ iTmp = cpmacRandom(HalDev); ++ iTmp %= ((max-min)+1); ++ iTmp += min; ++ return(iTmp); ++} ++ ++int cpmacRandom(HAL_DEVICE *HalDev) ++{ ++ int iTmp; ++ iTmp = CPMAC_BOFFTEST(HalDev->dev_base); ++ iTmp >>= 16; /* get rndnum field */ ++ iTmp &= (0x3FF); /* field is 10 bits wide */ ++ return(iTmp); ++} +diff -urN linux.old/drivers/net/avalanche_cpmac/hcpmac.h linux.dev/drivers/net/avalanche_cpmac/hcpmac.h +--- linux.old/drivers/net/avalanche_cpmac/hcpmac.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/hcpmac.h 2005-07-12 02:48:42.175574000 +0200 +@@ -0,0 +1,383 @@ ++/** @file*********************************************************************** ++ * TNETDxxxx Software Support ++ * Copyright (c) 2002 Texas Instruments Incorporated. All Rights Reserved. ++ * ++ * FILE: ++ * ++ * DESCRIPTION: ++ * This file contains definitions for the HAL EMAC API ++ * ++ * HISTORY: ++ * xxXxx01 Denis 1.00 Original Version created. ++ * 22Jan02 Denis/Mick 1.01 Modified for HAL EMAC API ++ * 24Jan02 Denis/Mick 1.02 Speed Improvements ++ * 28Jan02 Denis/Mick 1.16 Made function calls pointers ++ * 28Jan02 Mick 1.18 Split into separate modules ++ * @author Michael Hanrahan ++ * @version 1.02 ++ * @date 24-Jan-2002 ++ *****************************************************************************/ ++#ifndef _INC_HCPMAC ++#define _INC_HCPMAC ++ ++/** \namespace CPMAC_Version ++This documents version 01.07.04 of the CPMAC CPHAL. ++*/ ++const char *pszVersion_CPMAC="CPMAC 01.07.08 "__DATE__" "__TIME__; ++ ++/* CHECK THESE LOCATIONS */ ++#define TEARDOWN_VAL 0xfffffffc ++#define CB_OFFSET_MASK 0xFFFF0000 ++ ++ ++#define MAX_CHAN 8 ++#define MAX_QUEUE 1 ++ ++typedef struct ++ { ++ bit32 HNext; /*< Hardware's pointer to next buffer descriptor */ ++ bit32 BufPtr; /*< Pointer to the data buffer */ ++ bit32 Off_BLen; /*< Contains buffer offset and buffer length */ ++ bit32 mode; /*< SOP, EOP, Ownership, EOQ, Teardown, Q Starv, Length */ ++ void *Next; ++ void *OsInfo; ++ void *Eop; ++#ifdef __CPHAL_DEBUG ++ bit32 DbgSop; ++ bit32 DbgData; ++ bit32 DbgFraglist; ++#endif ++ }HAL_TCB; ++ ++typedef volatile struct hal_private ++ { ++ bit32 HNext; /*< Hardware's pointer to next buffer descriptor */ ++ bit32 BufPtr; /*< Pointer to the data buffer */ ++ bit32 Off_BLen; /*< Contains buffer offset and buffer length */ ++ bit32 mode; /*< SOP, EOP, Ownership, EOQ, Teardown Complete bits */ ++ void *DatPtr; ++ void *Next; ++ void *OsInfo; ++ void *Eop; ++ }HAL_RCB; ++ ++#define MAX_NEEDS 512 /*MJH+030409*/ ++/* HAL */ ++ ++typedef struct hal_device ++ { ++ OS_DEVICE *OsDev; ++ OS_FUNCTIONS *OsFunc; ++ /*OS_SETUP *OsSetup;*/ /* -GSG 030508 */ ++ int inst; ++ bit32u rxbufseq; ++ ++ ++ bit32 dev_base; ++ bit32 offset; ++ ++ bit32u ResetBase; /* GSG 10/20 */ ++ int ResetBit; ++ void *OsOpen; ++ bit32u IntVec; ++ PHY_DEVICE *PhyDev; ++ bit32u EmacDuplex; ++ bit32u EmacSpeed; ++ bit32u PhyNum; ++ bit32u MLinkMask; ++ bit32u PhyMask; ++ bit32u MdixMask; ++ ++ bit32u Linked; ++ DEVICE_STATE State; ++ unsigned char *MacAddr; ++ HAL_FUNCTIONS *HalFuncPtr; /* GSG 11/20 changed name to match cppi */ ++ HAL_FUNCTIONS *HalFunc; ++/* unsigned int CpuFreq;*/ /*MJH-030402*/ ++ unsigned int MdioConnect; ++ unsigned int HostErr; ++ ++/************************************************************************/ ++/* */ ++/* R E G I S T E R S */ ++/* */ ++/************************************************************************/ ++ ++ bit32u RxMbpEnable; ++ bit32u RxUnicastSet; ++ bit32u RxUnicastClear; ++ bit32u RxMaxLen; ++ bit32u RxFilterLowThresh; ++ bit32u Rx0FlowThresh; ++ bit32u MacControl; ++ bit32u MacStatus; ++ bit32u MacHash1; ++ bit32u MacHash2; ++ ++/************************************************************************/ ++/* */ ++/* O P T I O N S */ ++/* */ ++/************************************************************************/ ++ ++ char *DeviceInfo; ++ bit32u interrupt; ++ ++ ++ bit32u RxPassCrc; ++ bit32u RxCaf; ++ bit32u RxCef; ++ bit32u RxBcast; ++ bit32u RxBcastCh; ++ HAL_RCB *RcbPool[MAX_CHAN]; ++ bit32 RxActQueueCount[MAX_CHAN]; ++ HAL_RCB *RxActQueueHead[MAX_CHAN]; ++ HAL_RCB *RxActQueueTail[MAX_CHAN]; ++ bit32 RxActive[MAX_CHAN]; ++ HAL_TCB *TcbPool[MAX_CHAN][MAX_QUEUE]; ++ bit32 TxActQueueCount[MAX_CHAN][MAX_QUEUE]; ++ HAL_TCB *TxActQueueHead[MAX_CHAN][MAX_QUEUE]; ++ HAL_TCB *TxActQueueTail[MAX_CHAN][MAX_QUEUE]; ++ bit32 TxActive[MAX_CHAN][MAX_QUEUE]; ++ bit32 TxTeardownPending[MAX_CHAN]; ++ bit32 RxTeardownPending[MAX_CHAN]; ++ bit32 ChIsOpen[MAX_CHAN][2]; ++ bit32 ChIsSetup[MAX_CHAN][2]; ++ FRAGLIST *fraglist; ++ char *TcbStart[MAX_CHAN][MAX_QUEUE]; ++ char *RcbStart[MAX_CHAN]; ++ bit32 RcbSize[MAX_CHAN]; ++/* STAT_INFO Stats; */ ++ bit32 Inst; ++ bit32u BuffersServicedMax; ++ CHANNEL_INFO ChData[MAX_CHAN]; ++ bit32u MdioClockFrequency; /*MJH+030402*/ ++ bit32u MdioBusFrequency; /*MJH+030402*/ ++ bit32u CpuFrequency; /*MJH+030402*/ ++ bit32u CpmacFrequency; /*MJH+030403*/ ++ bit32u CpmacSize; /*MJH+030425*/ ++ int debug; ++ bit32u NeedsCount; /*MJH+030409*/ ++ HAL_RECEIVEINFO *Needs[MAX_NEEDS]; /*MJH+030409*/ ++ int MaxFrags; ++ int TxIntThreshold[MAX_CHAN]; /* MJH 040621 NSP Performance Update */ ++ int TxIntThresholdMaster[MAX_CHAN]; /* MJH 040827 NSP Performance Update */ ++ int TxIntDisable; /* MJH 040621 NSP Performance Update */ ++ }HALDEVICE; ++ ++#define STATS_MAX 36 ++ ++#define MACCONTROL_MASK (TX_PTYPE|TX_PACE|TX_FLOW_EN|RX_FLOW_EN|CTRL_LOOPBACK) ++#define RX_MBP_ENABLE_MASK \ ++ (RX_PASS_CRC|RX_QOS_EN|RX_NO_CHAIN| \ ++ RX_CMF_EN|RX_CSF_EN|RX_CEF_EN|RX_CAF_EN|RX_PROM_CH_MASK| \ ++ RX_BROAD_EN|RX_BROAD_CH_MASK|RX_MULT_EN|RX_MULT_CH_MASK) ++ ++ ++#define MBP_UPDATE(Mask, On) \ ++ if(On) HalDev->RxMbpEnable |= Mask; \ ++ else HalDev->RxMbpEnable &= ~Mask ++ ++#define CONTROL_UPDATE(Mask, On) \ ++ if(On) HalDev->MacControl |= Mask; \ ++ else HalDev->MacControl &= ~Mask ++ ++ ++#define UPDATE_TX_PTYPE(Value) CONTROL_UPDATE(TX_PTYPE,Value) ++#define UPDATE_TX_PACE(Value) CONTROL_UPDATE(TX_PACE,Value) ++#define UPDATE_MII_EN(Value) CONTROL_UPDATE(MII_EN,Value) ++#define UPDATE_TX_FLOW_EN(Value) CONTROL_UPDATE(TX_FLOW_EN,Value) ++#define UPDATE_RX_FLOW_EN(Value) CONTROL_UPDATE(RX_FLOW_EN,Value) ++#define UPDATE_CTRL_LOOPBACK(Value) CONTROL_UPDATE(CTRL_LOOPBACK,Value) ++#define UPDATE_FULLDUPLEX(Value) CONTROL_UPDATE(FULLDUPLEX,(Value)) ++ ++#define UPDATE_RX_PASS_CRC(Value) MBP_UPDATE(RX_PASS_CRC, Value) ++#define UPDATE_RX_QOS_EN(Value) MBP_UPDATE(RX_QOS_EN, Value) ++#define UPDATE_RX_NO_CHAIN(Value) MBP_UPDATE(RX_NO_CHAIN, Value) ++#define UPDATE_RX_CMF_EN(Value) MBP_UPDATE(RX_CMF_EN, Value) ++#define UPDATE_RX_CSF_EN(Value) MBP_UPDATE(RX_CSF_EN, Value) ++#define UPDATE_RX_CEF_EN(Value) MBP_UPDATE(RX_CEF_EN, Value) ++#define UPDATE_RX_CAF_EN(Value) MBP_UPDATE(RX_CAF_EN, Value) ++#define UPDATE_RX_BROAD_EN(Value) MBP_UPDATE(RX_BROAD_EN, Value) ++#define UPDATE_RX_MULT_EN(Value) MBP_UPDATE(RX_MULT_EN, Value) ++ ++#define UPDATE_RX_PROM_CH(Value) \ ++ HalDev->RxMbpEnable &= ~RX_PROM_CH_MASK; \ ++ HalDev->RxMbpEnable |= RX_PROM_CH(Value) ++ ++#define UPDATE_RX_BROAD_CH(Value) \ ++ HalDev->RxMbpEnable &= ~RX_BROAD_CH_MASK; \ ++ HalDev->RxMbpEnable |= RX_BROAD_CH(Value) ++ ++#define UPDATE_RX_MULT_CH(Value) \ ++ HalDev->RxMbpEnable &= ~RX_MULT_CH_MASK; \ ++ HalDev->RxMbpEnable |= RX_MULT_CH(Value) ++ ++ ++ ++typedef enum ++ { ++ /* CPMAC */ ++ enCpmacStart=0, ++ enStats0, ++ enStats1, ++ enStats2, ++ enStats3, ++ enStats4, ++ enStatsDump, ++ enStatsClear, ++ enRX_PASS_CRC, ++ enRX_QOS_EN, ++ enRX_NO_CHAIN, ++ enRX_CMF_EN, ++ enRX_CSF_EN, ++ enRX_CEF_EN, ++ enRX_CAF_EN, ++ enRX_PROM_CH, ++ enRX_BROAD_EN, ++ enRX_BROAD_CH, ++ enRX_MULT_EN, ++ enRX_MULT_CH, ++ ++ enTX_PTYPE, ++ enTX_PACE, ++ enMII_EN, ++ enTX_FLOW_EN, ++ enRX_FLOW_EN, ++ enCTRL_LOOPBACK, ++ ++ enRX_MAXLEN, ++ enRX_FILTERLOWTHRESH, ++ enRX0_FLOWTHRESH, ++ enRX_UNICAST_SET, ++ enRX_UNICAST_CLEAR, ++ enMdioConnect, ++ enMAC_ADDR_GET, ++ enTick, ++ enRX_MULTICAST, ++ enRX_MULTI_ALL, ++ enRX_MULTI_SINGLE, ++ enVersion, ++ enCpmacEnd /* Last entry */ ++ }INFO_KEY_CPMAC; ++ ++static const char pszVersion[] = "Version"; ++static const char pszStats0[] = "Stats0"; ++static const char pszStats1[] = "Stats1"; ++static const char pszStats2[] = "Stats2"; ++static const char pszStats3[] = "Stats3"; ++static const char pszStats4[] = "Stats4"; ++static const char pszStatsDump[] = "StatsDump"; ++static const char pszStatsClear[] = "StatsClear"; ++ ++/******************************************************************** ++** ++** RX MBP ENABLE ++** ++********************************************************************/ ++static const char pszRX_PASS_CRC[] = "RX_PASS_CRC"; ++static const char pszRX_QOS_EN[] = "RX_QOS_EN"; ++static const char pszRX_NO_CHAIN[] = "RX_NO_CHAIN"; ++static const char pszRX_CMF_EN[] = "RX_CMF_EN"; ++static const char pszRX_CSF_EN[] = "RX_CSF_EN"; ++static const char pszRX_CEF_EN[] = "RX_CEF_EN"; ++static const char pszRX_CAF_EN[] = "RX_CAF_EN"; ++static const char pszRX_PROM_CH[] = "RX_PROM_CH"; ++static const char pszRX_BROAD_EN[] = "RX_BROAD_EN"; ++static const char pszRX_BROAD_CH[] = "RX_BROAD_CH"; ++static const char pszRX_MULT_EN[] = "RX_MULT_EN"; ++static const char pszRX_MULT_CH[] = "RX_MULT_CH"; ++ ++ ++/******************************************************************** ++** ++** MAC CONTROL ++** ++********************************************************************/ ++static const char pszTX_PTYPE[] = "TX_PTYPE"; ++static const char pszTX_PACE[] = "TX_PACE"; ++static const char pszMII_EN[] = "MII_EN"; ++static const char pszTX_FLOW_EN[] = "TX_FLOW_EN"; ++static const char pszRX_FLOW_EN[] = "RX_FLOW_EN"; ++static const char pszCTRL_LOOPBACK[] = "CTRL_LOOPBACK"; ++ ++static const char pszRX_MAXLEN[] = "RX_MAXLEN"; ++static const char pszRX_FILTERLOWTHRESH[] = "RX_FILTERLOWTHRESH"; ++static const char pszRX0_FLOWTHRESH[] = "RX0_FLOWTHRESH"; ++static const char pszRX_UNICAST_SET[] = "RX_UNICAST_SET"; ++static const char pszRX_UNICAST_CLEAR[] = "RX_UNICAST_CLEAR"; ++static const char pszMdioConnect[] = "MdioConnect"; ++static const char pszMacAddr[] = "MacAddr"; ++static const char pszTick[] = "Tick"; ++ ++/******************************************************************** ++** ++** MULTICAST ++** ++********************************************************************/ ++ ++static const char pszRX_MULTICAST[] = "RX_MULTICAST"; ++static const char pszRX_MULTI_ALL[] = "RX_MULTI_ALL"; ++static const char pszRX_MULTI_SINGLE[] = "RX_MULTI_SINGLE"; ++ ++/* ++static const char* pszGFHN = "GFHN"; ++*/ ++ ++static const CONTROL_KEY KeyCpmac[] = ++ { ++ {"" , enCpmacStart}, ++ {pszStats0 , enStats0}, ++ {pszStats1 , enStats1}, ++ {pszStats2 , enStats2}, ++ {pszStats3 , enStats3}, ++ {pszStats4 , enStats4}, ++ {pszStatsClear , enStatsClear}, ++ {pszStatsDump , enStatsDump}, ++ {pszRX_PASS_CRC , enRX_PASS_CRC}, ++ {pszRX_QOS_EN , enRX_QOS_EN}, ++ {pszRX_NO_CHAIN , enRX_NO_CHAIN}, ++ {pszRX_CMF_EN , enRX_CMF_EN}, ++ {pszRX_CSF_EN , enRX_CSF_EN}, ++ {pszRX_CEF_EN , enRX_CEF_EN}, ++ {pszRX_CAF_EN , enRX_CAF_EN}, ++ {pszRX_PROM_CH , enRX_PROM_CH}, ++ {pszRX_BROAD_EN , enRX_BROAD_EN}, ++ {pszRX_BROAD_CH , enRX_BROAD_CH}, ++ {pszRX_MULT_EN , enRX_MULT_EN}, ++ {pszRX_MULT_CH , enRX_MULT_CH}, ++ ++ {pszTX_PTYPE , enTX_PTYPE}, ++ {pszTX_PACE , enTX_PACE}, ++ {pszMII_EN , enMII_EN}, ++ {pszTX_FLOW_EN , enTX_FLOW_EN}, ++ {pszRX_FLOW_EN , enRX_FLOW_EN}, ++ {pszCTRL_LOOPBACK , enCTRL_LOOPBACK}, ++ {pszRX_MAXLEN , enRX_MAXLEN}, ++ {pszRX_FILTERLOWTHRESH , enRX_FILTERLOWTHRESH}, ++ {pszRX0_FLOWTHRESH , enRX0_FLOWTHRESH}, ++ {pszRX_UNICAST_SET , enRX_UNICAST_SET}, ++ {pszRX_UNICAST_CLEAR , enRX_UNICAST_CLEAR}, ++ {pszMdioConnect , enMdioConnect}, ++ {pszRX_MULTICAST , enRX_MULTICAST}, ++ {pszRX_MULTI_ALL , enRX_MULTI_ALL}, ++ {pszRX_MULTI_SINGLE , enRX_MULTI_SINGLE}, ++ {pszTick , enTick}, ++ {pszVersion , enVersion}, ++ {"" , enCpmacEnd} ++ }; ++ ++const char hcCpuFrequency[] = "CpuFreq"; ++const char hcCpmacFrequency[] = "CpmacFrequency"; ++const char hcMdioBusFrequency[] = "MdioBusFrequency"; ++const char hcMdioClockFrequency[] = "MdioClockFrequency"; ++const char hcCpmacBase[] = "CpmacBase"; ++const char hcPhyNum[] = "PhyNum"; ++const char hcSize[] = "size"; ++const char hcCpmacSize[] = "CpmacSize"; ++const char hcPhyAccess[] = "PhyAccess"; ++const char hcLinked[] = "Linked"; ++const char hcFullDuplex[] = "FullDuplex"; ++const char hcMdixMask[] = "MdixMask"; ++const char hcMdioMdixSwitch[] = "MdixSet"; ++#endif +diff -urN linux.old/drivers/net/avalanche_cpmac/Makefile linux.dev/drivers/net/avalanche_cpmac/Makefile +--- linux.old/drivers/net/avalanche_cpmac/Makefile 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/Makefile 2005-07-12 02:48:42.175574000 +0200 +@@ -0,0 +1,26 @@ ++# File: drivers/net/avalanche_cpmac/Makefile ++# ++# Makefile for the Linux network (CPMAC) device drivers. ++# ++ ++O_TARGET := avalanche_cpmac.o ++ ++ ++list-multi := avalanche_cpmac.o ++obj-$(CONFIG_MIPS_AVALANCHE_CPMAC) := avalanche_cpmac.o ++ ++avalanche_cpmac-objs += cpmac.o cpmacHalLx.o hcpmac.o \ ++ psp_config_build.o psp_config_mgr.o \ ++ psp_config_parse.o psp_config_util.o ++ ++ ++include $(TOPDIR)/Rules.make ++ ++ ++avalanche_cpmac.o: $(avalanche_cpmac-objs) ++ $(LD) -r -o $@ $(avalanche_cpmac-objs) ++ ++ ++ ++clean: ++ rm -f core *.o *.a *.s +diff -urN linux.old/drivers/net/avalanche_cpmac/mdio_reg.h linux.dev/drivers/net/avalanche_cpmac/mdio_reg.h +--- linux.old/drivers/net/avalanche_cpmac/mdio_reg.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/mdio_reg.h 2005-07-12 02:48:42.176573000 +0200 +@@ -0,0 +1,121 @@ ++/**************************************************************************** ++** TNETD53xx Software Support ++** Copyright(c) 2002, Texas Instruments Incorporated. All Rights Reserved. ++** ++** FILE: mdio_reg.h Register definitions for the VBUS MII module ++** ++** DESCRIPTION: ++** This include file contains register definitions for the ++** VBUS MII module. ++** ++** HISTORY: ++** 27Mar02 Michael Hanrahan Original (modified from emacmdio.h) ++** 01Apr02 Michael Hanrahan Modified to include all regs. in spec ++** 03Apr02 Michael Hanrahan Updated to Version 0.6 of spec ++** 05Apr02 Michael Hanrahan Moved Phy Mode values into here ++** 30Apr02 Michael Hanrahan Updated to Version 0.8 of spec ++** 30Apr02 Michael Hanrahan Updated to recommended format ++** 10May02 Michael Hanrahan Updated to Version 0.9 of spec ++*****************************************************************************/ ++#ifndef _INC_MDIO_REG ++#define _INC_MDIO_REG ++ ++/*************************************************************************** ++** ++** M D I O M E M O R Y M A P ++** ++***************************************************************************/ ++ ++ ++#define pMDIO_VER(base) ((volatile bit32u *)(base+0x00)) ++#define pMDIO_CONTROL(base) ((volatile bit32u *)(base+0x04)) ++#define pMDIO_ALIVE(base) ((volatile bit32u *)(base+0x08)) ++#define pMDIO_LINK(base) ((volatile bit32u *)(base+0x0C)) ++#define pMDIO_LINKINTRAW(base) ((volatile bit32u *)(base+0x10)) ++#define pMDIO_LINKINTMASKED(base) ((volatile bit32u *)(base+0x14)) ++#define pMDIO_USERINTRAW(base) ((volatile bit32u *)(base+0x20)) ++#define pMDIO_USERINTMASKED(base) ((volatile bit32u *)(base+0x24)) ++#define pMDIO_USERINTMASKED_SET(base) ((volatile bit32u *)(base+0x28)) ++#define pMDIO_USERINTMASKED_CLR(base) ((volatile bit32u *)(base+0x2C)) ++#define pMDIO_USERACCESS(base, channel) ((volatile bit32u *)(base+(0x80+(channel*8)))) ++#define pMDIO_USERPHYSEL(base, channel) ((volatile bit32u *)(base+(0x84+(channel*8)))) ++ ++ ++/*************************************************************************** ++** ++** M D I O R E G I S T E R A C C E S S M A C R O S ++** ++***************************************************************************/ ++ ++ ++#define MDIO_ALIVE(base) (*(pMDIO_ALIVE(base))) ++#define MDIO_CONTROL(base) (*(pMDIO_CONTROL(base))) ++#define MDIO_CONTROL_IDLE (1 << 31) ++#define MDIO_CONTROL_ENABLE (1 << 30) ++#define MDIO_CONTROL_PREAMBLE (1 << 20) ++#define MDIO_CONTROL_FAULT (1 << 19) ++#define MDIO_CONTROL_FAULT_DETECT_ENABLE (1 << 18) ++#define MDIO_CONTROL_INT_TEST_ENABLE (1 << 17) ++#define MDIO_CONTROL_HIGHEST_USER_CHANNEL (0x1F << 8) ++#define MDIO_CONTROL_CLKDIV (0xFF) ++#define MDIO_LINK(base) (*(pMDIO_LINK(base))) ++#define MDIO_LINKINTRAW(base) (*(pMDIO_LINKINTRAW(base))) ++#define MDIO_LINKINTMASKED(base) (*(pMDIO_LINKINTMASKED(base))) ++#define MDIO_USERINTRAW(base) (*(pMDIO_USERINTRAW(base))) ++#define MDIO_USERINTMASKED(base) (*(pMDIO_USERINTMASKED(base))) ++#define MDIO_USERINTMASKED_CLR(base) (*(pMDIO_USERINTMASKED_CLR(base))) ++#define MDIO_USERINTMASKED_SET(base) (*(pMDIO_USERINTMASKED_SET(base))) ++#define MDIO_USERINTRAW(base) (*(pMDIO_USERINTRAW(base))) ++#define MDIO_USERACCESS(base, channel) (*(pMDIO_USERACCESS(base, channel))) ++#define MDIO_USERACCESS_GO (1 << 31) ++#define MDIO_USERACCESS_WRITE (1 << 30) ++#define MDIO_USERACCESS_READ (0 << 30) ++#define MDIO_USERACCESS_ACK (1 << 29) ++#define MDIO_USERACCESS_REGADR (0x1F << 21) ++#define MDIO_USERACCESS_PHYADR (0x1F << 16) ++#define MDIO_USERACCESS_DATA (0xFFFF) ++#define MDIO_USERPHYSEL(base, channel) (*(pMDIO_USERPHYSEL(base, channel))) ++#define MDIO_USERPHYSEL_LINKSEL (1 << 7) ++#define MDIO_USERPHYSEL_LINKINT_ENABLE (1 << 6) ++#define MDIO_USERPHYSEL_PHYADR_MON (0x1F) ++#define MDIO_VER(base) (*(pMDIO_VER(base))) ++#define MDIO_VER_MODID (0xFFFF << 16) ++#define MDIO_VER_REVMAJ (0xFF << 8) ++#define MDIO_VER_REVMIN (0xFF) ++ ++ ++ ++ ++/****************************************************************************/ ++/* */ ++/* P H Y R E G I S T E R D E F I N I T I O N S */ ++/* */ ++/****************************************************************************/ ++ ++ ++#define PHY_CONTROL_REG 0 ++ #define PHY_RESET (1<<15) ++ #define PHY_LOOP (1<<14) ++ #define PHY_100 (1<<13) ++ #define AUTO_NEGOTIATE_EN (1<<12) ++ #define PHY_PDOWN (1<<11) ++ #define PHY_ISOLATE (1<<10) ++ #define RENEGOTIATE (1<<9) ++ #define PHY_FD (1<<8) ++ ++#define PHY_STATUS_REG 1 ++ #define NWAY_COMPLETE (1<<5) ++ #define NWAY_CAPABLE (1<<3) ++ #define PHY_LINKED (1<<2) ++ ++#define NWAY_ADVERTIZE_REG 4 ++#define NWAY_REMADVERTISE_REG 5 ++ #define NWAY_FD100 (1<<8) ++ #define NWAY_HD100 (1<<7) ++ #define NWAY_FD10 (1<<6) ++ #define NWAY_HD10 (1<<5) ++ #define NWAY_SEL (1<<0) ++ #define NWAY_AUTO (1<<0) ++ ++ ++#endif _INC_MDIO_REG +diff -urN linux.old/drivers/net/avalanche_cpmac/psp_config_build.c linux.dev/drivers/net/avalanche_cpmac/psp_config_build.c +--- linux.old/drivers/net/avalanche_cpmac/psp_config_build.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/psp_config_build.c 2005-07-12 02:48:42.176573000 +0200 +@@ -0,0 +1,335 @@ ++/****************************************************************************** ++ * FILE PURPOSE: PSP Config Manager - Configuration Build Source ++ ****************************************************************************** ++ * FILE NAME: psp_config_build.c ++ * ++ * DESCRIPTION: Configuration Build API Implementation ++ * ++ * REVISION HISTORY: ++ * 27 Nov 02 - PSP TII ++ * ++ * (C) Copyright 2002, Texas Instruments, Inc ++ *******************************************************************************/ ++ ++#ifdef INCLUDE_FFS ++#include "ffs.h" ++#endif /* INCLUDE_FFS */ ++ ++#include "psp_config_mgr.h" ++#include "psp_config_build.h" ++#include "psp_config_util.h" ++ ++#define MAX_DEVICE_NAME_LEN 16 ++#define MAX_DEVICE_STR_LEN 512 ++ ++#ifndef NULL ++#define NULL (char *)0 ++#endif ++ ++#include <asm/ar7/sangam.h> ++#include <linux/slab.h> ++#include <linux/config.h> ++ ++ ++#define os_malloc(size) kmalloc(size, GFP_KERNEL) ++ ++int psp_run_enumerator(void) ++{ ++ return(0); ++} ++ ++#if defined (CONFIG_AVALANCHE_CPMAC_AUTO) ++ ++static int auto_detect_cpmac_phy(void) ++{ ++ ++#define SELECT_INT_PHY_MAC 0 ++#define SELECT_EXT_PHY_MAC 1 ++ ++ volatile unsigned long *reset_cntl = AVALANCHE_RESET_CONTROL_BASE, *mdio_cntl = ((int)AVALANCHE_MDIO_BASE + 0x4); ++ unsigned int j= 0, detected_phy_map = 0, auto_select = SELECT_INT_PHY_MAC; ++ ++ *reset_cntl |= (1 << AVALANCHE_MDIO_RESET_BIT) | (1 << AVALANCHE_LOW_CPMAC_RESET_BIT) | (1 << AVALANCHE_HIGH_CPMAC_RESET_BIT) | (1 << AVALANCHE_LOW_EPHY_RESET_BIT); ++ *mdio_cntl = (1 << 30) | ((CONFIG_AR7_SYS * 1000)/2200); ++ ++ for(j=0;j < 300000; j++) ++ { ++ if(j%100000) continue; ++ ++ detected_phy_map = *(mdio_cntl + 1); ++ if(detected_phy_map) ++ { ++ detected_phy_map &= ~AVALANCHE_LOW_CPMAC_PHY_MASK; ++ ++ if(detected_phy_map && !(detected_phy_map & (detected_phy_map - 1))) ++ { ++ auto_select = SELECT_EXT_PHY_MAC; ++ break; ++ } ++ } ++ } ++ ++ return(auto_select); ++ ++} ++ ++#endif ++ ++ ++#ifndef AVALANCHE_LOW_CPMAC_MDIX_MASK ++#define AVALANCHE_LOW_CPMAC_MDIX_MASK 0 ++#endif ++ ++void psp_load_default_static_cfg(void) ++{ ++ char s2[100], s3[100]; ++ char s4[2000], s6[2000]; ++ int threshold = 20; ++ char *tx_threshold_ptr = prom_getenv("threshold"); ++ ++ if(tx_threshold_ptr) ++ threshold = simple_strtol(tx_threshold_ptr, (char **)NULL, 10); ++ ++ /* Static configuration if options.conf not present */ ++ sprintf(s3,"cpmdio(id=mii, base=%u, reset_bit=%d)", AVALANCHE_MDIO_BASE, 22); ++ sprintf(s2, "reset( id=[ResetRegister], base=%u)", AVALANCHE_RESET_CONTROL_BASE); ++ ++ sprintf(s4, "cpmac(id=[cpmac], unit=0, base=%u, size=0x800, reset_bit=%d, PhyMask=%u, MdixMask=%u, MLink=0, int_line=%d, memory_offset=0, RX_CAF=1, RX_PASSCRC=0, RX_CEF=1, RX_BCAST=0, RX_BCASTCH=0, Ch0=[TxNumBuffers=256, TxNumQueues=1, TxServiceMax=%d, RxNumBuffers=256, RxBufferOffset=0, RxBufSize=1000, RxServiceMax=128], Ch1=[TxNumBuffers=256, TxNumQueues=1, TxServiceMax=%d, RxNumBuffers=256, RxBufferOffset=0, RxBufSize=1000, RxServiceMax=128], Ch2=[TxNumBuffers=256, TxNumQueues=1, TxServiceMax=%d, RxNumBuffers=256, RxBufferOffset=0, RxBufSize=1000, RxServiceMax=128])", AVALANCHE_LOW_CPMAC_BASE, AVALANCHE_LOW_CPMAC_RESET_BIT, AVALANCHE_LOW_CPMAC_PHY_MASK, AVALANCHE_LOW_CPMAC_MDIX_MASK, AVALANCHE_LOW_CPMAC_INT,threshold,threshold,threshold); ++ ++ sprintf(s6, "cpmac(id=[cpmac], unit=1, base=%u, size=0x800, reset_bit=%d, PhyMask=%u, MLink=0, int_line=%d, memory_offset=0, RX_CAF=1, RX_PASSCRC=0, RX_CEF=1, RX_BCAST=0, RX_BCASTCH=0, Ch0=[TxNumBuffers=256, TxNumQueues=1, TxServiceMax=%d, RxNumBuffers=256, RxBufferOffset=0, RxBufSize=1000, RxServiceMax=128], Ch1=[TxNumBuffers=256, TxNumQueues=1, TxServiceMax=%d, RxNumBuffers=256, RxBufferOffset=0, RxBufSize=1000, RxServiceMax=128], Ch2=[TxNumBuffers=256, TxNumQueues=1, TxServiceMax=%d, RxNumBuffers=256, RxBufferOffset=0, RxBufSize=1000, RxServiceMax=128])", AVALANCHE_HIGH_CPMAC_BASE, AVALANCHE_HIGH_CPMAC_RESET_BIT, AVALANCHE_HIGH_CPMAC_PHY_MASK, AVALANCHE_HIGH_CPMAC_INT,threshold,threshold,threshold); ++ ++ psp_config_add("reset", s2, psp_config_strlen(s2), en_compile); ++ ++ ++#if defined (CONFIG_AVALANCHE_LOW_CPMAC) ++ ++ psp_config_add("cpmdio", s3, psp_config_strlen(s3), en_compile); ++ psp_config_add("cpmac", s4, psp_config_strlen(s4), en_compile); ++ ++#endif ++ ++ ++#if defined (CONFIG_AVALANCHE_HIGH_CPMAC) ++ ++ psp_config_add("cpmdio", s3, psp_config_strlen(s3), en_compile); ++ psp_config_add("cpmac", s6, psp_config_strlen(s6), en_compile); ++ ++#endif ++ ++#if defined (CONFIG_AVALANCHE_CPMAC_AUTO) ++ { ++ char *phy_sel_ptr = prom_getenv("mac_phy_sel"); ++ int phy_sel = SELECT_EXT_PHY_MAC; ++ char *mac_port = prom_getenv("MAC_PORT"); /* Internal: 0, External: 1 */ ++ ++ if(phy_sel_ptr && (0 == strcmp(phy_sel_ptr, "int"))) ++ { ++ phy_sel = SELECT_INT_PHY_MAC; ++ } ++ ++ //if(phy_sel == auto_detect_cpmac_phy()) ++ if(!mac_port || (0 != strcmp(mac_port, "0"))) ++ { ++ printk("Using the MAC with external PHY\n"); ++ psp_config_add("cpmdio", s3, psp_config_strlen(s3), en_compile); ++ psp_config_add("cpmac", s6, psp_config_strlen(s6), en_compile); ++ } ++ else ++ { ++ printk("Using the MAC with internal PHY\n"); ++ psp_config_add("cpmdio", s3, psp_config_strlen(s3), en_compile); ++ psp_config_add("cpmac", s4, psp_config_strlen(s4), en_compile); ++ } ++ } ++ ++#endif ++ ++} ++ ++char* psp_conf_read_file(char *p_file_name) ++{ ++#ifdef INCLUDE_FFS ++ ++ char *p_file_data = NULL; ++ unsigned int file_size; ++ FFS_FILE *p_file = NULL; ++ ++ if(p_file_name == NULL) ++ { ++ return (NULL); ++ } ++ ++ if(!(p_file = ffs_fopen(p_file_name, "r"))) ++ { ++ return(NULL); ++ } ++ ++ file_size = p_file->_AvailableBytes; ++ ++ p_file_data = os_malloc(file_size + 1); ++ ++ if(ffs_fread(p_file_data, file_size, 1, p_file) == 0) ++ { ++ kfree(p_file_data); ++ return(NULL); ++ } ++ ++ ffs_fclose(p_file); ++ ++ p_file_data[file_size] = '\0'; ++ ++ return(p_file_data); ++ ++#else /* NO FFS */ ++ return(NULL); ++#endif /* INCLUDE_FFS */ ++} ++ ++int psp_conf_get_line(char *p_in_data, char **next_line) ++{ ++ char *p = p_in_data; ++ ++ while(*p && *p++ != '\n') ++ { ++ ++ } ++ ++ *next_line = p; ++ ++ return(p - 1 - p_in_data); ++} ++ ++ ++int psp_conf_is_data_line(char *line) ++{ ++ int ret_val = 1; ++ ++ if(*line == '\0' || *line == '\n' || *line == '#') ++ ret_val = 0; ++ ++ return(ret_val); ++} ++ ++int psp_conf_get_key_size(char *data) ++{ ++ char *p = data; ++ ++ while(*p && *p != '\n' && *p != '(' && *p != ' ') ++ p++; ++ ++ return(p - data); ++} ++ ++char* psp_conf_eat_white_spaces(char *p) ++{ ++ while(*p && *p != '\n' && *p == ' ') ++ p++; ++ ++ return (p); ++} ++ ++int psp_build_from_opt_conf(void) ++{ ++ char *data = NULL; ++ char *data_hold = NULL; ++ char *next_line = NULL; ++ int line_size = 0; ++ ++ if((data = psp_conf_read_file("/etc/options.conf")) == NULL) ++ return(-1); ++ ++ data_hold = data; ++ ++ while((line_size=psp_conf_get_line(data, &next_line)) != -1) ++ { ++ ++ char *name = NULL; ++ int name_size; ++ ++ data = psp_conf_eat_white_spaces(data); ++ ++ if(psp_conf_is_data_line(data)) ++ { ++ data[line_size] = '\0'; ++ ++ name_size = psp_conf_get_key_size(data); ++ ++ if(name_size > 0) ++ { ++ name = (char *) os_malloc(name_size + 1); ++ if(name == NULL) break; ++ ++ psp_config_memcpy(name, data, name_size); ++ name[name_size] = '\0'; ++ ++ psp_config_add(name, data, line_size, en_opt_conf); ++ ++ kfree(name); ++ } ++ ++ data[line_size] = '\n'; ++ } ++ ++ data = next_line; ++ } ++ ++ kfree(data_hold); ++ return (0); ++} ++ ++ ++int psp_write_conf_file(char *p_write_file, char * dev_cfg_string) ++{ ++#ifdef INCLUDE_FFS ++ int bytes_written=0; ++ FFS_FILE *file_ptr=NULL; ++ ++ /* ++ * NOTE: In current implementation of FFS in ADAM2 if the file exists beforehand, it ++ * can't be opened for write. ++ */ ++ if(!(file_ptr=ffs_fopen(p_write_file, "w"))) { ++ return(-1); ++ } ++ ++ /* Write into the file "output.con" the character string */ ++ /* write a \n before a writing a line */ ++ if(!(bytes_written = ffs_fwrite("\n", 1, sizeof(char), file_ptr))) { ++ return (-1); ++ } ++ ++ if(!(bytes_written = ffs_fwrite(dev_cfg_string, psp_config_strlen(dev_cfg_string), sizeof(char), file_ptr))) { ++ return (-1); ++ } ++ ffs_fclose(file_ptr); ++ return (bytes_written+1); ++#else /* NO FFS */ ++ return(-1); ++#endif /* INCLUDE_FFS */ ++} ++ ++void build_psp_config(void) ++{ ++ ++ /* initialize the repository. */ ++ psp_config_init(); ++ ++#ifdef INCLUDE_FFS ++ ffs_init(); ++#endif /* INCLUDE_FFS */ ++ ++ /* read the configuration from the options.conf to override default ones */ ++ psp_build_from_opt_conf(); ++ ++ /* read the configuration which were not over ridden in options.conf */ ++ psp_load_default_static_cfg(); ++ ++ /* let the vlynq be enumerated. Enumerator will add cfg info ++ of the discovered device instances to the repository.*/ ++ psp_run_enumerator(); ++ ++ /* dump the repository*/ ++ dump_device_cfg_pool(); ++ ++} ++ +diff -urN linux.old/drivers/net/avalanche_cpmac/psp_config_build.h linux.dev/drivers/net/avalanche_cpmac/psp_config_build.h +--- linux.old/drivers/net/avalanche_cpmac/psp_config_build.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/psp_config_build.h 2005-07-12 02:48:42.176573000 +0200 +@@ -0,0 +1,138 @@ ++/****************************************************************************** ++ * FILE PURPOSE: PSP Config Manager - Configuration Build Header ++ ****************************************************************************** ++ * FILE NAME: psp_config_build.h ++ * ++ * DESCRIPTION: Configuration Build API's. ++ * ++ * REVISION HISTORY: ++ * 27 Nov 02 - PSP TII ++ * ++ * (C) Copyright 2002, Texas Instruments, Inc ++ *******************************************************************************/ ++ ++#ifndef __PSP_CONF_BUILD_H__ ++#define __PSP_CONF_BUILD_H__ ++ ++/*------------------------------------------------------------------------------ ++ * Name: psp_conf_read_file ++ * ++ * Parameters: ++ * in: p_file_name - the name of the file to read from. ++ * ++ * Description: ++ * Reads the entire file in one shot. This function opens the ++ * file, determines the size of the data to be read, allocates ++ * the required memory, NULL terminates the data and closes the ++ * file. ++ * ++ * It is responsibily of the callee to free the memory after it is ++ * done with that data. ++ * ++ * ++ * Returns: ++ * A NULL pointer, if failed to read the data otherwise, a valid ++ * pointer referring to the data read from the file. ++ * ++ * Example: ++ * ++ * psp_conf_read_file("/etc/options.conf"); ++ *---------------------------------------------------------------------------*/ ++ char *psp_conf_read_file(char *p_file_name); ++ ++ /*---------------------------------------------------------------------------- ++ * Function : psp_conf_write_file ++ * ++ * Parameters: ++ * in: p_file_name - the file to which data is to be written. ++ * in: data - the NULL terminated data string. ++ * ++ * Description: ++ * Write the indicated data into the file. This function opens the file, ++ * appends the data to end of the file, closes the file. ++ * ++ * Returns: ++ * ++ * The number of bytes on success. ++ * 0 on failure. ++ * ++ * Example: ++ * ++ * psp_conf_write_file("/etc/outcon.conf", data); ++ *--------------------------------------------------------------------------*/ ++ int psp_conf_write_file(char *p_file_name, char *data); ++ ++ /*---------------------------------------------------------------------------- ++ * Function: psp_conf_get_line ++ * ++ * Parameters: ++ * in: data - the data from which the line is to identified. ++ * out: next_line - the pointer to start of the next line. ++ * ++ * Description: ++ * Expects the data to be '\n' separated segments and data is NULL ++ * terminated. Parses the given data for '\n' or '\0'. Provides a pointer ++ * to the start of next line in the next_line. ++ * ++ * Returns: ++ * -1 on error. ++ * 0 or more to indicate the number of bytes in the line starting at ++ * data. ++ *--------------------------------------------------------------------------*/ ++ int psp_get_conf_line(char *p_in_data, char **next_line); ++ ++ /*---------------------------------------------------------------------------- ++ * Function: psp_conf_is_data_line ++ * ++ * Parameters: ++ * in: line - the array of bytes. ++ * ++ * Description: ++ * Tests the first byte in the array for '\0' or '\n' or '#'. Lines ++ * starting with these characters are not considered data. ++ * ++ * Returns: ++ * 1 if the line has data. ++ * 0 otherwise. ++ * ++ *--------------------------------------------------------------------------*/ ++ int psp_conf_is_data_line(char *line); ++ ++ /*---------------------------------------------------------------------------- ++ * Function: psp_conf_eat_white_spaces ++ * ++ * Parameters: ++ * in: line - the array of bytes. ++ * ++ * Description: ++ * Eats white spaces at the begining of the line while looking out for ++ * '\0' or '\n' or ' '. ++ * ++ * Returns: ++ * Pointer to the begining of the non white space character. ++ * NULL if '\0' or '\n' is found. ++ * ++ *--------------------------------------------------------------------------*/ ++ char *psp_conf_eat_white_spaces(char *line); ++ ++ /*--------------------------------------------------------------------------- ++ * Function: psp_conf_get_key_size ++ * ++ * Parameters: ++ * in: line - the array of bytes. ++ * ++ * Description: ++ * Identifies the size of the 'key' in array formatted as ++ * key(id=[key1]....). This function also checks out for '\0' and '\n'. ++ * ++ * Returns: ++ * On success, The number of bytes that forms the key. ++ * 0 otherwise. ++ * ++ *-------------------------------------------------------------------------*/ ++ int psp_conf_get_key_size(char *line); ++ ++ ++ ++#endif /* __PSP_CONF_BUILD_H__ */ ++ +diff -urN linux.old/drivers/net/avalanche_cpmac/psp_config_mgr.c linux.dev/drivers/net/avalanche_cpmac/psp_config_mgr.c +--- linux.old/drivers/net/avalanche_cpmac/psp_config_mgr.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/psp_config_mgr.c 2005-07-12 02:48:42.177573000 +0200 +@@ -0,0 +1,464 @@ ++/****************************************************************************** ++ * FILE PURPOSE: PSP Config Manager Source ++ ****************************************************************************** ++ * FILE NAME: psp_config_mgr.c ++ * ++ * DESCRIPTION: ++ * ++ * Manages configuration information. The repository is managed on the basis of ++ * <key, info> pair. It is possible to have multiple occurrence of the same key. ++ * Multiple occurences of the same keys are referred to as 'instances'. ++ * 'instances' are assigned in the order of configuration arrival. The first ++ * config for a 'key' added to the repository would be treated as instance 0 and ++ * next config to arrive for the same key would be treated as instance '1' and ++ * so on. ++ * ++ * Info is retrieved from the repository based on the 'key' and 'instance' value. ++ * ++ * No assumption is made about the format of the information that is put in the ++ * repository. The only requirement is that 'key' should be NULL terminated ++ * string. ++ * ++ * REVISION HISTORY: ++ * 27 Nov 02 - PSP TII ++ * ++ * (C) Copyright 2002, Texas Instruments, Inc ++ *******************************************************************************/ ++ ++//#include <stdio.h> ++//#include <stdlib.h> ++#include "psp_config_mgr.h" ++#include "psp_config_util.h" ++ ++#include <linux/slab.h> ++ ++/*----------------------------------------------------------- ++ Implemented elsewhere ++ -----------------------------------------------------------*/ ++extern int sys_read_options_conf(void); ++extern int sys_write_options_conf(char *cfg_info); ++extern int sys_load_default_static_cfg(void); ++extern int sys_run_enumerator(void); ++ ++#define os_malloc(size) kmalloc(size, GFP_KERNEL) ++ ++/*--------------------------------------------------------- ++ * Data structures. ++ *--------------------------------------------------------*/ ++struct device_cfg_data; ++ ++typedef struct device_instance_cfg_data ++{ ++ struct device_instance_cfg_data *next; ++ char locale[100]; ++ unsigned int data_size; ++ char *data; ++ ++} DEV_INSTANCE_CFG_DATA_T; ++ ++struct device_cfg_collection; ++ ++typedef struct device_cfg_collection ++{ ++ struct device_cfg_collection *next; ++ char *device_name; ++ CFG_TYPE_T cfg_type; ++ int count; ++ DEV_INSTANCE_CFG_DATA_T *dev_inst_list_begin; ++ DEV_INSTANCE_CFG_DATA_T *dev_inst_list_end; ++} DEVICE_CFG_T; ++ ++ ++typedef struct device_cfg_list ++{ ++ DEVICE_CFG_T *device_cfg_begin; ++ int count; ++} DEVICE_CFG_LIST_T; ++ ++/*----------------------------------------------------------------------------- ++ * Functions used locally with in the file. ++ *---------------------------------------------------------------------------*/ ++static void p_init_device_cfg_list(void); ++static int p_add_instance_cfg_data(DEVICE_CFG_T *p_dev_cfg, ++ DEV_INSTANCE_CFG_DATA_T *p_dev_inst_data); ++static DEVICE_CFG_T* p_create_dev_cfg(char *device_name); ++static DEVICE_CFG_T* p_get_dev_cfg(char *device_name); ++static int p_set_device_cfg_type(DEVICE_CFG_T *p_dev_cfg, ++ CFG_TYPE_T cfg_type); ++ ++/* PSP Config manager debug */ ++#define PSP_CFG_MGR_DEBUG 0 ++ ++#define dbgPrint if (PSP_CFG_MGR_DEBUG) printk ++ ++/*----------------------------------------------------------------------------- ++ * The repository. ++ *---------------------------------------------------------------------------*/ ++static DEVICE_CFG_LIST_T g_device_cfg_list; ++ ++/*--------------------------------------------- ++ * Initialize the device collection pool. ++ *--------------------------------------------*/ ++void p_init_device_cfg_list(void) ++{ ++ g_device_cfg_list.count = 0; ++ g_device_cfg_list.device_cfg_begin = NULL; ++} ++ ++/*---------------------------------------------------------------------- ++ * Add the device cfg into the device linked list. ++ *---------------------------------------------------------------------*/ ++int p_add_dev_cfg_to_list(DEVICE_CFG_LIST_T *p_dev_list, ++ DEVICE_CFG_T *p_dev_cfg) ++{ ++ if(p_dev_list->count != 0) ++ p_dev_cfg->next = p_dev_list->device_cfg_begin; ++ ++ p_dev_list->device_cfg_begin = p_dev_cfg; ++ ++ p_dev_list->count++; ++ ++ return (0); ++} ++ ++/*------------------------------------------------------------------ ++ * Add the cfg data into the cfg data linked list of the collection. ++ *------------------------------------------------------------------*/ ++int p_add_instance_cfg_data(DEVICE_CFG_T *p_dev_cfg, ++ DEV_INSTANCE_CFG_DATA_T *p_dev_inst_data) ++{ ++ if(p_dev_cfg->count == 0) ++ p_dev_cfg->dev_inst_list_begin = p_dev_inst_data; ++ else ++ p_dev_cfg->dev_inst_list_end->next = p_dev_inst_data; ++ ++ p_dev_cfg->dev_inst_list_end = p_dev_inst_data; ++ ++ p_dev_cfg->count++; ++ ++ return (0); ++} ++ ++/*----------------------------------------------------------------------------- ++ * Create the device cfg. ++ *---------------------------------------------------------------------------*/ ++DEVICE_CFG_T *p_create_dev_cfg(char *device_name) ++{ ++ DEVICE_CFG_T *p_dev_cfg = NULL; ++ ++ if((p_dev_cfg = os_malloc(sizeof(DEVICE_CFG_T))) == NULL) ++ { ++ dbgPrint("Failed to allocate memory for DEVICE_CFG_T.\n"); ++ } ++ else if((p_dev_cfg->device_name = os_malloc(psp_config_strlen(device_name) + 1))==NULL) ++ { ++ dbgPrint("Failed to allocate memory for device name.\n"); ++ } ++ else ++ { ++ psp_config_strcpy(p_dev_cfg->device_name, device_name); ++ p_dev_cfg->cfg_type = en_raw; ++ p_dev_cfg->count = 0; ++ p_dev_cfg->dev_inst_list_begin = NULL; ++ p_dev_cfg->dev_inst_list_end = NULL; ++ p_dev_cfg->next = NULL; ++ } ++ ++ return(p_dev_cfg); ++} ++ ++/*------------------------------------------------------------------------------ ++ * Get the device cfg collection. ++ *-----------------------------------------------------------------------------*/ ++DEVICE_CFG_T *p_get_dev_cfg(char *device_name) ++{ ++ int count = 0; ++ DEVICE_CFG_T *p_dev_cfg = g_device_cfg_list.device_cfg_begin; ++ ++ for(count=0; count < g_device_cfg_list.count; count++) ++ { ++ if(psp_config_strcmp(device_name, p_dev_cfg->device_name) == 0) ++ { ++ break; ++ } ++ ++ p_dev_cfg = p_dev_cfg->next; ++ } ++ ++ return(p_dev_cfg); ++} ++ ++/*------------------------------------------------------------------------- ++ * Gets the name for the static cfg type. Utility function. Debug purposes. ++ *-------------------------------------------------------------------------*/ ++char *p_get_cfg_type_name_for_en(CFG_TYPE_T cfg_type) ++{ ++ static char raw_str [] = "still raw"; ++ static char compile_str [] = "configured at compile time"; ++ static char optconf_str [] = "configured by options.conf"; ++ static char vlynq_str [] = "configured by VLYNQ"; ++ static char no_static_str[] = "no static configuration"; ++ ++ if(cfg_type == en_raw) ++ return (raw_str); ++ else if(cfg_type == en_compile) ++ return (compile_str); ++ else if(cfg_type == en_opt_conf) ++ return (optconf_str); ++ else if(cfg_type == en_vlynq) ++ return (vlynq_str); ++ else ++ return (no_static_str); ++ ++} ++ ++/*----------------------------------------------------------------------------- ++ * Sets the static cfg status of the device collection. ++ * ++ * If the collection is en_virgin then, the collection is assigned to cfg_type. ++ * If the cfg_type is en_vlynq then, the old cfg_type is retained. ++ * en_compile and en_opt_conf are mutually exclusive. One of these can be ++ * accomodated. ++ * ++ *---------------------------------------------------------------------------*/ ++int p_set_device_cfg_type(DEVICE_CFG_T *p_dev_cfg, ++ CFG_TYPE_T cfg_type) ++{ ++ int ret_val = 0; ++ ++ if(p_dev_cfg->cfg_type == en_raw) ++ p_dev_cfg->cfg_type = cfg_type; ++ else if((cfg_type == en_vlynq) || (p_dev_cfg->cfg_type == cfg_type)) ++ ; ++ else ++ { ++ dbgPrint("Device %s has been %s which overrides %s.\n", ++ p_dev_cfg->device_name, ++ p_get_cfg_type_name_for_en(p_dev_cfg->cfg_type), ++ p_get_cfg_type_name_for_en(cfg_type)); ++ ret_val = -1; ++ } ++ ++ return(ret_val); ++} ++ ++/*------------------------------------------------------------------------ ++ * Add the config str into the repository. The cfg type indicates ++ * whether the device has been configured statically, from options.conf or ++ * by vlynq enumeration. ++ *------------------------------------------------------------------------*/ ++int psp_config_add(char *key, void *p_cfg_str, unsigned int cfg_len, ++ CFG_TYPE_T cfg_type) ++{ ++ int ret_val = -1; ++ DEVICE_CFG_T *p_dev_cfg = NULL; ++ DEV_INSTANCE_CFG_DATA_T *p_dev_inst_data = NULL; ++ ++ if(p_cfg_str == NULL || key == NULL) ++ { ++ dbgPrint("Null input pointer(s).\n"); ++ } ++ /* check if there exist a dev_cfg for the given key, if not, ++ then create one and add it to the device list. */ ++ else if(((p_dev_cfg = p_get_dev_cfg(key)) == NULL) && ++ (((p_dev_cfg = p_create_dev_cfg(key)) == NULL) || ++ p_add_dev_cfg_to_list(&g_device_cfg_list, p_dev_cfg) != 0)) ++ { ++ dbgPrint("Failed to allocate mem or add dev cfg for %s.\n", key); ++ } ++ /* make sure that we can add this cfg type to the repository */ ++ else if(p_set_device_cfg_type(p_dev_cfg, cfg_type) == -1) ++ { ++ dbgPrint("Ignoring \"%s\" for device \"%s\".\n", ++ p_get_cfg_type_name_for_en(cfg_type), ++ p_dev_cfg->device_name); ++ } ++ else if((p_dev_inst_data = os_malloc(sizeof(DEV_INSTANCE_CFG_DATA_T)))== NULL) ++ { ++ dbgPrint("Failed to allocate memory for DEV_INSTANCE_CFG_DATA_T.\n"); ++ } ++ else if((p_dev_inst_data->data = os_malloc(cfg_len) + 1) == NULL) ++ { ++ dbgPrint("Failed to allocate memory for the config data.\n"); ++ } ++ else ++ { ++ p_dev_inst_data->next = NULL; ++ ++ if(cfg_type == en_opt_conf || cfg_type == en_compile) ++ psp_config_strcpy(p_dev_inst_data->locale, "dev on chip "); ++ else if(cfg_type == en_vlynq) ++ psp_config_strcpy(p_dev_inst_data->locale, "dev on vlynq"); ++ else ++ psp_config_strcpy(p_dev_inst_data->locale, "dev locale ?"); ++ ++ psp_config_memcpy(p_dev_inst_data->data, p_cfg_str, cfg_len); ++ p_dev_inst_data->data_size = cfg_len; ++ *(p_dev_inst_data->data + cfg_len) = '\0'; ++ ++ ret_val = p_add_instance_cfg_data(p_dev_cfg, p_dev_inst_data); ++ } ++ ++ return(ret_val); ++} ++ ++/*------------------------------------------------------------- ++ * Get the total number of device instances in the repository ++ *------------------------------------------------------------*/ ++int psp_config_get_num_keys(void) ++{ ++ return(g_device_cfg_list.count); ++} ++ ++ ++/*-------------------------------------------------------------------- ++ * Get the device configuration info from the repository. ++ *-------------------------------------------------------------------*/ ++int psp_config_get(char *key, int instance, char **cfg_data_out) ++{ ++ int ret_val = -1; ++ DEVICE_CFG_T *p_dev_cfg = NULL; ++ *cfg_data_out = NULL; ++ ++ if(key == NULL && cfg_data_out == NULL) ++ { ++ dbgPrint("Key has a NULL value.\n"); ++ } ++ else if((p_dev_cfg = p_get_dev_cfg(key)) == NULL) ++ { ++ dbgPrint("cfg information for %s could not be found.\n", key); ++ } ++ else if(p_dev_cfg->count) ++ { ++ DEV_INSTANCE_CFG_DATA_T *p_dev_inst_data = ++ p_dev_cfg->dev_inst_list_begin; ++ int index = 0; ++ for(index = 0; ++ index != instance && index < p_dev_cfg->count; ++ index++) ++ { ++ p_dev_inst_data = p_dev_inst_data->next; ++ } ++ ++ if(p_dev_inst_data != NULL && p_dev_inst_data->data != NULL) ++ { ++ *cfg_data_out = p_dev_inst_data->data; ++ ret_val = p_dev_inst_data->data_size; ++ } ++ } ++ ++ return (ret_val); ++} ++ ++/*---------------------------------------------------------------- ++ * Returns the number of instances found in the repository for the ++ * specified key. ++ *---------------------------------------------------------------*/ ++int psp_config_get_num_instances(char *key) ++{ ++ int ret_val = 0; ++ DEVICE_CFG_T *p_dev_cfg = NULL; ++ ++ if(key == NULL) ++ { ++ dbgPrint("Key has a NULL value.\n"); ++ } ++ else if((p_dev_cfg = p_get_dev_cfg(key)) == NULL) ++ { ++ dbgPrint("cfg information for %s could not be found.\n", key); ++ } ++ else ++ { ++ ret_val = p_dev_cfg->count; ++ } ++ ++ return (ret_val); ++} ++ ++/*------------------------------------------------------------------ ++ * Dump the configuration repository. ++ * Caution: DO NOT USE THIS FOR ANY NON NBU specified config format. ++ *-----------------------------------------------------------------*/ ++void psp_config_print(char *key) ++{ ++ DEVICE_CFG_T *p_dev_cfg = NULL; ++ ++ if(key == NULL) ++ { ++ dbgPrint("Key has a NULL value.\n"); ++ } ++ else if((p_dev_cfg = p_get_dev_cfg(key)) == NULL) ++ { ++ dbgPrint("cfg information for %s could not be found.\n", key); ++ } ++ else if(p_dev_cfg && p_dev_cfg->count) ++ { ++ DEV_INSTANCE_CFG_DATA_T *p_dev_inst_data; ++ ++ p_dev_inst_data = p_dev_cfg->dev_inst_list_begin; ++ ++ do ++ { ++ dbgPrint("%s : %s\n", p_dev_inst_data->locale, ++ p_dev_inst_data->data); ++ p_dev_inst_data = p_dev_inst_data->next; ++ ++ } while(p_dev_inst_data); ++ } ++ else ++ { ++ dbgPrint("Nothing was found for %s.\n", key); ++ } ++} ++ ++void dump_device_cfg_pool(void) ++{ ++ DEVICE_CFG_T *p_dev_cfg = g_device_cfg_list.device_cfg_begin; ++ ++ if(p_dev_cfg != NULL && g_device_cfg_list.count) ++ { ++ int index=0; ++ ++ for(index=0; index < g_device_cfg_list.count; index++) ++ { ++ psp_config_print(p_dev_cfg->device_name); ++ p_dev_cfg = p_dev_cfg->next; ++ } ++ } ++ else ++ { ++ dbgPrint("repository is empty.\n"); ++ } ++} ++ ++void psp_config_init(void) ++{ ++ p_init_device_cfg_list(); ++} ++ ++void psp_config_cleanup() ++{ ++ int dev_count = 0; ++ int inst_count = 0; ++ DEVICE_CFG_T *p = g_device_cfg_list.device_cfg_begin; ++ DEV_INSTANCE_CFG_DATA_T *q = NULL; ++ ++ for(dev_count = 0; dev_count < g_device_cfg_list.count; dev_count++) ++ { ++ DEVICE_CFG_T *p_temp = NULL; ++ if(p) q = p->dev_inst_list_begin; ++ ++ for(inst_count = 0; inst_count < p->count && q != NULL; inst_count++) ++ { ++ DEV_INSTANCE_CFG_DATA_T *q_temp = q; ++ q_temp = q->next; ++ kfree(q->data); ++ kfree(q); ++ q = q_temp; ++ } ++ ++ p_temp = p->next; ++ kfree(p); ++ p = p_temp; ++ } ++} +diff -urN linux.old/drivers/net/avalanche_cpmac/psp_config_mgr.h linux.dev/drivers/net/avalanche_cpmac/psp_config_mgr.h +--- linux.old/drivers/net/avalanche_cpmac/psp_config_mgr.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/psp_config_mgr.h 2005-07-12 02:48:42.177573000 +0200 +@@ -0,0 +1,110 @@ ++/****************************************************************************** ++ * FILE PURPOSE: PSP Config Manager Header ++ ****************************************************************************** ++ * FILE NAME: psp_config_mgr.h ++ * ++ * DESCRIPTION: Storing and retrieving the configuration based on key ++ * A set of APIs to be used by one and sundry (including drivers and enumerator) to build ++ * and read cfg information of the devices for an avalanche SOC. ++ * ++ * This set of APIs isolates the configuration management from the world and provides simple ++ * access convinience. ++ * ++ * Device in this set refers to the peripherals that can be found on the SOC or on VLYNQ. ++ * The configuration is stored in the form of string and drivers can use these APIs to get ++ * a particular parameter value. ++ * ++ * The memory allocation for the pass back parameters is done by the caller. ++ * ++ * 0 is returned for SUCCESS or TRUE. ++ * -1 is returned for FAILURE or FALSE. ++ * ++ * REVISION HISTORY: ++ * 27 Nov 02 - PSP TII ++ * ++ * (C) Copyright 2002, Texas Instruments, Inc ++ *******************************************************************************/ ++ ++#ifndef __PSP_CONFIG_MGR_H__ ++#define __PSP_CONFIG_MGR_H__ ++ ++typedef enum cfg_type ++{ ++ en_raw = 0, ++ en_compile, ++ en_opt_conf, ++ en_vlynq ++} CFG_TYPE_T; ++ ++/* Build psp configuration */ ++void build_psp_config(void); ++ ++/******************************************************** ++ * Access Operations. ++ ********************************************************/ ++ ++/*------------------------------------------------------------------------- ++ initializes the configuration repository. ++ -------------------------------------------------------------------------*/ ++void psp_config_init(void); ++ ++/*-------------------------------------------------------------------------- ++ Adds the configuration information into the repository. 'key' is required ++ to be NULL terminated string. 'cfg_ptr' points to the configuration data. ++ 'cfg_len' is the length of the data pointed to by 'cfg_ptr' in bytes. ++ 'cfg_type' indicates the type of config information. ++ ++ psp_config_mgr copies the 'cfg_len' bytes of data pointed to by 'cfg_ptr' ++ into its internal repository. ++ ++ Returns: 0 on success, -1 on failure. ++ -------------------------------------------------------------------------*/ ++int psp_config_add(char *key, void *cfg_ptr, ++ unsigned int cfg_len, CFG_TYPE_T cfg_type); ++ ++ ++/* -------------------------------------------------------------------------- ++ Passes back, in "*cfg_out_val" a pointer to the config data in the repository ++ for the specified 'key' and 'instance'. It returns the size of the config ++ info ++ ++ psp_config_mgr passes back a pointer in '*cfg_out_val' which refers to ++ some location in its internal repository. It is strongly recommended that ++ if the user intends to modify the contents of the config info for reasons ++ whatsoever, then, user should allocate memory of size returned by this ++ routine and copy the contents from '*cfg_out_val'. ++ ++ Any, modification carried out on the repository would lead to un-expected ++ results. ++ ++ Returns: 0 or more for the size of config info, -1 on error. ++ --------------------------------------------------------------------------*/ ++int psp_config_get(char *key, int instance, char **cfg_out_val); ++ ++ ++/*-------------------------------------------------------------------------- ++ Get the number of keys that have been added in the repository so far. ++ ++ Returns: 0 or more for the num of keys, -1 on error. ++ -------------------------------------------------------------------------*/ ++int psp_config_get_num_keys(void); ++ ++ ++/*-------------------------------------------------------------------------- ++ Get the number of instances that are present in the repository for the ++ given 'key'. ++ ++ Returns: 0 or more for the num of instances, -1 on error. ++ -------------------------------------------------------------------------*/ ++int psp_config_get_num_instances(char *key); ++ ++ ++/*-------------------------------------------------------------------------- ++ Prints the config data for all instances associated with the specified ++ 'key'. ++ -------------------------------------------------------------------------*/ ++void psp_config_print(char *key); ++ ++void dump_device_cfg_pool(void); ++ ++#endif /* __PSP_CONFIG_MGR_H__ */ +diff -urN linux.old/drivers/net/avalanche_cpmac/psp_config_parse.c linux.dev/drivers/net/avalanche_cpmac/psp_config_parse.c +--- linux.old/drivers/net/avalanche_cpmac/psp_config_parse.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/psp_config_parse.c 2005-07-12 02:48:42.178573000 +0200 +@@ -0,0 +1,362 @@ ++/****************************************************************************** ++ * FILE PURPOSE: PSP Config Manager - Parse API Source ++ ****************************************************************************** ++ * FILE NAME: psp_config_parse.c ++ * ++ * DESCRIPTION: These APIs should be used only for scanvenging parameters which ++ * are stored in the following format. ++ * ++ * str[] = "module(id=[module], k1=v1, k2=[k3=v3, k4=v4], k5=v5)" ++ * ++ * REVISION HISTORY: ++ * 27 Nov 02 - PSP TII ++ * ++ * (C) Copyright 2002, Texas Instruments, Inc ++ *******************************************************************************/ ++ ++//#include <stdio.h> ++#include <linux/stddef.h> ++ ++/*-------------------------------------------------- ++ * MACROS. ++ *-------------------------------------------------*/ ++#define my_isdigit(c) (c >= '0' && c <= '9') ++#define my_isoct(c) (c >= '0' && c <= '7') ++#define my_xtod(c) ((c) <= '9' ? (c) - '0' : (c) - 'a' + 10) ++#define my_ifupper(c) (c >= 'A' && c <= 'F') ++#define XTOD(c) ((c) - 'A' + 10) ++#define my_ishex(c) ((c >= 'a' && c <='f') || (c >= 'A' && c<='F') || my_isdigit(c) ) ++ ++/*--------------------------------------------------- ++ * Local Functions. ++ *--------------------------------------------------*/ ++static int p_get_substr_from_str(char *p_in_str, char begin_delimiter, ++ char end_delimiter, int pair_flag, ++ char **p_out_str); ++static int p_get_u_int_from_str(char *p_in_str, char begin_delimiter, ++ char end_delimiter, unsigned long *out_val); ++ ++/*--------------------------------------------------- ++ * Return pointer to first instance of the char. ++ *--------------------------------------------------*/ ++static char* psp_config_strchr(char *str, char chr) ++{ ++ while(*str) ++ { ++ if(*str == chr) ++ break; ++ str++; ++ } ++ ++ return((*str) ? str : NULL); ++} ++ ++/*------------------------------------------------------------------------ ++ * Convert the string upto delimiter to unsigned long. ++ *-----------------------------------------------------------------------*/ ++unsigned long my_atoul(char *p, char end_delimiter, unsigned long *out_val) ++{ ++ unsigned long n; ++ int c; ++ ++ /* check the for null input */ ++ if (!p) ++ return -1; ++ ++ c = *p; ++ ++ /* pass through the leading spaces */ ++ if (!my_isdigit(c)) ++ { ++ while ( c == ' ') ++ c = *++p; ++ ++ } ++ ++ if (c == '0') ++ { ++ if(*(p + 1) == 'x' || *(p+1) == 'X' ) ++ { ++ /* string is in hex format */ ++ ++ p += 2; ++ c = *p; ++ ++ if(my_ishex(c)) ++ { ++ if(my_ifupper(c)) ++ n = XTOD(c); ++ else ++ n = my_xtod(c); ++ } ++ else ++ return -1; /* invalid hex string format */ ++ ++ while ((c = *++p) && my_ishex(c)) ++ { ++ n *= 16; ++ if(my_ifupper(c)) ++ n += XTOD(c); ++ else ++ n += my_xtod(c); ++ } ++ } ++ else ++ { ++ /* string is in octal format */ ++ ++ if( my_isoct(c) ) ++ n = c - '0'; ++ else ++ return -1; /* invalid octal string format */ ++ ++ while ((c = *++p) && my_isoct(c)) ++ { ++ n *= 8; ++ n += c - '0'; ++ } ++ } ++ ++ } ++ else ++ { ++ /* string is in decimal format */ ++ ++ if( my_isdigit(c) ) ++ n = c - '0'; ++ else ++ return -1; /* invalid decimal string format */ ++ ++ while ((c = *++p) && my_isdigit(c)) ++ { ++ n *= 10; ++ n += c - '0'; ++ } ++ } ++ ++ /* move through the trailing spaces */ ++ while(*p == ' ') ++ p++; ++ ++ if(*p == end_delimiter) ++ { ++ *out_val = n; ++ return 0; ++ } ++ ++ else ++ return -1; /* invalid string format */ ++} ++ ++/*--------------------------------------------------------------------------------- ++ * Gets the substring de-limited by the 'begin_delimiter' and 'end_delimiter'. ++ * and returns the size of the substring. ++ * ++ * Parses the NULL terminated p_in_str for a character array delimited by ++ * begin_delimiter and end_delimiter, passes back the pointer to the character ++ * array in ' *p_out_str '. The passed pointer ' *p_out_str ' should point to ++ * the location next (byte) to the begin_delimiter. The function routine returns ++ * the number of characters excluding the begin_delimiter and end_delimiter, ++ * found in the array delimited by the said delimiters. ++ * ++ * If the pair_flag is set to 1, then, number of begin_delimiter and end_delimiter ++ * found in the parsing should match (equal) and this routine passes back the ++ * pointer to the character array, starting at a location next (byte) to the ++ * first begin_delimiter, inclusive of all intermediate matching delimiter ++ * characters found between outer delimiters. If the pair flag is set and if ++ * begin_delimiter and end_delimiter happens to be same, then error (-1) is ++ * returned. ++ * ++ * Return: 0 or more to indicate the size of the substring, -1 on error. ++ *-------------------------------------------------------------------------------*/ ++int p_get_substr_from_str(char *p_in_str, char begin_delimiter, ++ char end_delimiter, int pair_flag, ++ char **p_out_str) ++{ ++ int cnt,pos; ++ ++ if(pair_flag && begin_delimiter == end_delimiter) ++ return -1; ++ ++ if((p_in_str = psp_config_strchr(p_in_str, begin_delimiter)) == 0) ++ return -1; /* no start delimiter found */ ++ ++ p_in_str++; ++ *p_out_str = p_in_str; ++ ++ for(pos = 0,cnt =1; cnt && p_in_str[pos] ; pos++) ++ { ++ if(p_in_str[pos] == end_delimiter) ++ { ++ if(pair_flag == 0) ++ return pos; ++ ++ cnt--; ++ } ++ else if(p_in_str[pos] == begin_delimiter) ++ cnt++; ++ else ++ ; /* We do nothing */ ++ ++ } ++ ++ if( cnt == 0) ++ return pos - 1; ++ else ++ return -1; /* no corresponding end delimiter found */ ++} ++ ++/*-------------------------------------------------------------------------- ++ * Parses the NULL terminated p_in_str for unsigned long value delimited by ++ * begin_delimiter and end_delimiter, passes back the found in ' *out_val '. ++ * The function routine returns 0 on success and returns -1 on failure. ++ * The first instance of the de-limiter should be accounted for the parsing. ++ * ++ * The base for unsigned value would 10, octal and hex. The value passed back ++ * would be of the base 10. Spaces at the begining of the byte array are valid ++ * and should be ingnored in the calculation of the value. Space character in ++ * the middle of the byte array or any character other than the valid ones ++ * (based on base type) should return error. The octal value begins with '0', ++ * the hex value begins with "0x" or "0X", the base value can begin with ++ * '1' to '9'. ++ * ++ * Returns: 0 on success, -1 on failure. ++ *-------------------------------------------------------------------------*/ ++int p_get_u_int_from_str(char *p_in_str, char begin_delimiter, ++ char end_delimiter, unsigned long *out_val) ++{ ++ char *start; ++ unsigned long num; ++ ++ num = p_get_substr_from_str(p_in_str, begin_delimiter, end_delimiter, ++ 0, &start); ++ ++ if(num == (unsigned long)-1) ++ return -1; ++ ++ return my_atoul(start,end_delimiter,out_val); ++} ++ ++/*-------------------------------------------------------------------------- ++ * Finds the first occurrence of the substring p_find_str in the string ++ * p_in_str. ++ *-------------------------------------------------------------------------*/ ++char *my_strstr(char *p_in_str, const char *p_find_str) ++{ ++ char *p = (char *)p_find_str; ++ char *ret = NULL; ++ ++ while(*p_in_str) ++ { ++ if(!(*p)) ++ return (ret); ++ else if(*p_in_str == *p) ++ { ++ if(!ret) ret = p_in_str; ++ p++; ++ p_in_str++; ++ } ++ else if(ret) ++ { ++ p = (char *)p_find_str; ++ p_in_str = ret + 1; ++ ret = NULL; ++ } ++ else ++ p_in_str++; ++ } ++ ++ if(*p_in_str != *p) ret = NULL; ++ ++ return (ret); ++ ++} ++ ++/*------------------------------------------------------------------------------ ++ * Gets the value of the config param in the unsigned int format. The value is ++ * stored in the following format in the string. ++ * str[] = "module(id=[module], k1=v1, k2=[k3=v3, k4=v4], k5=v5)" ++ *-----------------------------------------------------------------------------*/ ++int psp_config_get_param_uint(char *p_in_str, const char *param, unsigned int *out_val) ++{ ++ int ret_val = -1; ++ char *p_strstr; ++ ++ if(!p_in_str || !param || !out_val) ++ { ++ ; ++ } ++ else if((p_strstr = my_strstr(p_in_str, param)) == NULL) ++ { ++ ; ++ } ++ else if(p_get_u_int_from_str(p_strstr, '=', ',', (unsigned long *)out_val) == 0) ++ { ++ ret_val = 0; ++ } ++ else if(p_get_u_int_from_str(p_strstr, '=', ']', (unsigned long*)out_val) == 0) ++ { ++ ret_val = 0; ++ } ++ else if(p_get_u_int_from_str(p_strstr, '=', ')', (unsigned long*)out_val) == 0) ++ { ++ ret_val = 0; ++ } ++ else ++ { ++ /* we failed */ ++ } ++ ++ return (ret_val); ++} ++ ++/*------------------------------------------------------------------------------ ++ * Gets the value of the config param in the Non NULL terminated format. The value ++ * is stored in the following format in the string. ++ * str[] = "module(id=[module], k1=v1, k2=[k3=v3, k4=v4], k5=v5)" ++ *-----------------------------------------------------------------------------*/ ++int psp_config_get_param_string(char *p_in_str, const char *param, char **out_val) ++{ ++ int ret_val = -1; ++ char *p_strstr; ++ ++ if(!p_in_str || !param || !(out_val)) ++ ; ++ else if((p_strstr = my_strstr(p_in_str, param)) == NULL) ++ { ++ ; ++ } ++ else if((ret_val = p_get_substr_from_str(p_strstr, '[', ']', 1, out_val)) == -1) ++ { ++ ; ++ } ++ else ++ { ++ ; /* we got the value */ ++ } ++ ++ return (ret_val); ++} ++ ++#ifdef PSP_CONFIG_MGR_DEBUG_TEST ++main() ++{ ++ unsigned long num =999; ++ int ret = 0; ++ char *val1 = NULL; ++ char val[30]; ++ char str1[] = "cpmac(id=[cpmac], k0=[a1=[a2=[test], a3=2], k1=100, k2=[k3=300, k4=200], k7=722)"; ++ ++ psp_config_get_param_uint(str1, "k7", &num); ++ printf("%u.\n", num); ++ ret = psp_config_get_param_string(str1, "a1", &val1); ++ if(ret >= 0) { printf("%d.\n", ret); strncpy(val, val1, ret); val[ret] = '\0';} ++ ++ printf("val = \"%s\", and size = %d \n", val, ret); ++ ++ if(val[ret]) ; else printf("jeee.\n"); ++} ++#endif /* PSP_CONFIG_MGR_DEBUG_TEST */ ++ ++ ++ +diff -urN linux.old/drivers/net/avalanche_cpmac/psp_config_parse.h linux.dev/drivers/net/avalanche_cpmac/psp_config_parse.h +--- linux.old/drivers/net/avalanche_cpmac/psp_config_parse.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/psp_config_parse.h 2005-07-12 02:48:42.178573000 +0200 +@@ -0,0 +1,32 @@ ++/****************************************************************************** ++ * FILE PURPOSE: PSP Config Manager - Parse API Header ++ ****************************************************************************** ++ * FILE NAME: psp_config_parse.h ++ * ++ * DESCRIPTION: Parsing for params from string available in the NBU format. ++ * These APIs should be used only for scanvenging parameters which ++ * are stored in the following format. ++ * ++ * str[] = "module(id=[module], k1=v1, k2=[k3=v3, k4=v4], k5=v5)" ++ * ++ * REVISION HISTORY: ++ * 27 Nov 02 - PSP TII ++ * ++ * (C) Copyright 2002, Texas Instruments, Inc ++ *******************************************************************************/ ++ ++#ifndef __PSP_CONFIG_PARSER_H__ ++#define __PSP_CONFIG_PARSER_H__ ++ ++/*------------------------------------------------------------------ ++ * These APIs should be used only for scanvenging parameters which ++ * are stored in the following format. ++ * ++ * str[] = "module(id=[module], k1=v1, k2=[k3=v3, k4=v4], k5=v5)" ++ *-----------------------------------------------------------------*/ ++int psp_config_get_param_uint(char *p_in_str, const char *param, ++ unsigned int *out_val); ++int psp_config_get_param_string(char *p_in_str, const char *param, ++ char **out_val); ++ ++#endif /* __PSP_CONFIG_PARSER_H__ */ +diff -urN linux.old/drivers/net/avalanche_cpmac/psp_config_util.c linux.dev/drivers/net/avalanche_cpmac/psp_config_util.c +--- linux.old/drivers/net/avalanche_cpmac/psp_config_util.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/psp_config_util.c 2005-07-12 02:48:42.178573000 +0200 +@@ -0,0 +1,106 @@ ++/****************************************************************************** ++ * FILE PURPOSE: PSP Config Manager - Utilities API Source ++ ****************************************************************************** ++ * FILE NAME: psp_config_util.c ++ * ++ * DESCRIPTION: These APIs provide the standard "C" string interfaces. ++ * Provided here to reduce dependencies on the standard libraries ++ * and for cases where psp_config would required to run before ++ * the whole system is loaded or outside the scope of the OS. ++ * ++ * REVISION HISTORY: ++ * 27 Nov 02 - PSP TII ++ * ++ * (C) Copyright 2002, Texas Instruments, Inc ++ *******************************************************************************/ ++ ++//#include <stdio.h> ++#include "psp_config_util.h" ++#include <linux/stddef.h> ++ ++/*--------------------------------------------- ++ * strlen. ++ *-------------------------------------------*/ ++int psp_config_strlen(char *p) ++{ ++ char *p_orig = p; ++ while(*p) ++ p++; ++ return(p - p_orig); ++} ++ ++/*-------------------------------------------- ++ * strcmp. ++ *-------------------------------------------*/ ++int psp_config_strcmp(char *s1, char *s2) ++{ ++ while(*s1 && *s2) ++ { ++ if(*s1 != *s2) ++ break; ++ s1++; ++ s2++; ++ } ++ ++ return(*s1 - *s2); ++} ++ ++/*-------------------------------------------- ++ * strcpy. ++ *------------------------------------------*/ ++char* psp_config_strcpy(char *dest, char *src) ++{ ++ char *dest_orig = dest; ++ ++ while(*src) ++ { ++ *dest++ = *src++; ++ } ++ ++ *dest = '\0'; ++ ++ return(dest_orig); ++} ++ ++/*---------------------------------------------- ++ * psp_config_memcpy. ++ *--------------------------------------------*/ ++void* psp_config_memcpy(void* dest, void* src, unsigned int n) ++{ ++ void *dest_orig = dest; ++ ++ while(n) ++ { ++ *(char *)dest++ = *(char *)src++; ++ n--; ++ } ++ ++ return (dest_orig); ++} ++ ++/*--------------------------------------------------- ++ * Return pointer to first instance of the char. ++ *--------------------------------------------------*/ ++char* psp_config_strchr(char *str, char chr) ++{ ++ while(*str) ++ { ++ if(*str == chr) ++ break; ++ str++; ++ } ++ ++ return((*str) ? str : NULL); ++} ++ ++#ifdef PSP_CONFIG_MGR_DEBUG_TEST ++ ++int main( ) ++{ ++ char s[] = "hello "; ++ printf("%d.\n", psp_config_strlen("hello\n")); ++ printf("%d.\n", psp_config_strcmp("hells", "hellq")); ++ printf("%s %s.\n", psp_config_strcpy(s + 6, "test1"), s); ++} ++ ++#endif /* PSP_CONFIG_MGR_DEBUG_TEST */ +diff -urN linux.old/drivers/net/avalanche_cpmac/psp_config_util.h linux.dev/drivers/net/avalanche_cpmac/psp_config_util.h +--- linux.old/drivers/net/avalanche_cpmac/psp_config_util.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/psp_config_util.h 2005-07-12 02:48:42.179573000 +0200 +@@ -0,0 +1,26 @@ ++/****************************************************************************** ++ * FILE PURPOSE: PSP Config Manager - Utilities API Header ++ ****************************************************************************** ++ * FILE NAME: psp_config_util.h ++ * ++ * DESCRIPTION: These APIs provide the standard "C" string interfaces. ++ * Provided here to reduce dependencies on the standard libraries ++ * and for cases where psp_config would required to run before ++ * the whole system is loaded or outside the scope of the OS. ++ * ++ * REVISION HISTORY: ++ * 27 Nov 02 - PSP TII ++ * ++ * (C) Copyright 2002, Texas Instruments, Inc ++ *******************************************************************************/ ++ ++#ifndef __PSP_CONFIG_UTIL_H__ ++#define __PSP_CONFIG_UTIL_H__ ++ ++extern int psp_config_strlen(char*); ++extern int psp_config_strcmp(char*, char*); ++extern char* psp_config_strcpy(char*, char*); ++extern void* psp_config_memcpy(void*, void*, unsigned int n); ++extern char* psp_config_strchr(char*, char); ++ ++#endif /* __PSP_CONFIG_UTIL_H__ */ +diff -urN linux.old/drivers/net/avalanche_cpmac/readme.txt linux.dev/drivers/net/avalanche_cpmac/readme.txt +--- linux.old/drivers/net/avalanche_cpmac/readme.txt 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/net/avalanche_cpmac/readme.txt 2005-07-12 02:48:42.179573000 +0200 +@@ -0,0 +1,545 @@ ++23 August 2004 CPMAC 1.7.8 (NSP Performance Team Release) ++ ++CC Labels: REL_20040823_HALdallas_cpmac_01.07.08 ++ ++New features: Key "MacAddr" can now be used to set the Mac Address after Open. ++ ++ unsigned char MacAddr[6]; ++ ++ // Set Mac Address to "00.B0.D0.10.80.C1" ++ MacAddr[0] = 0x00; ++ MacAddr[1] = 0xB0; ++ MacAddr[2] = 0xD0; ++ MacAddr[3] = 0x10; ++ MacAddr[4] = 0x80; ++ MacAddr[5] = 0xC1; ++ ++ HalFunc->Control(HalDev, "MacAddr", hcSet, &MacAddr); ++ ++Bug fixes: in Send(), Threshold is not checked if Tx Ints are re-enabled. ++ ++Modules affected: hcpmac.c, hcpmac.h, cppi_cpmac.c ++ ++22 June 2004 CPMAC 1.7.6 (NSP Performance Team Release) ++ ++CC Labels: REL_20040622_HALdallas_cpmac_01.07.06 ++ ++New features: Key "TxIntDisable" used to disable Tx Interrupts. If it is set, then Tx Interrupts will be processed on Send() controlled by Tx ServiceMax Setting. ++ ++ int On = 1; ++ HalFunc->Control(HalDev, "TxIntDisable", "Set", &On); ++ ++Bug fixes: NTR ++ ++10 June 2004 CPMAC 1.7.5 (external release) ++ ++CC Labels: REL_20040610_HALdallas_cpmac_01.07.05 ++ ++New features: NTR ++ ++Bug fixes: Fixed an issue with calculation for the multicast hash. ++ ++27 May 2004 CPSAR 1.7.4, CPMAC 1.7.4 (external release) ++ ++CC Labels: REL_20040527_HALdallas_cpsar_01.07.04 ++ REL_20040527_HALdallas_cpmac_01.07.04 ++ ++New features: NTR ++ ++Bug fixes: A flaw was fixed in the critical sectioning of the CPPI file, affecting both ++ the MAC and the SAR releases. This flaw was detected on Titan PSP 4.7 BFT2. ++ ++05 May 2004 CPSAR 1.7.3, CPMAC 1.7.3 (external release) ++ ++CC Labels: REL_20040505_HALdallas_cpsar_01.07.03 ++ REL_20040505_HALdallas_cpmac_01.07.03 ++ ++New features: NTR ++ ++Bug fixes: 1) Firmware has been updated to fix a problem with Host OAM mode operation. ++ 2) Cache macros have been fixed. ++ ++Notes: This release contains all performance enhancements currently available for CPHAL 1.x. ++ ++19 April 2004 CPSAR 1.7.2, CPMAC 1.7.2 (external release) ++ ++CC Labels: REL_20040419_HALdallas_cpsar_01.07.02 ++ REL_20040419_HALdallas_cpmac_01.07.02 ++ ++New features: NTR ++ ++Bug fixes: Fixes merge problem in 1.7.1. ++ ++Notes: This is a branch release which contains only a subset of the performance improvements. ++ The remaining performance improvements are stiill being qualified at this time. ++ ++1 April 2004 CPSAR 1.7.1, CPMAC 1.7.1 (external release) ++ ++NOTICE: DO NOT USE 1.7.1. It has a known problem (see 1.7.2 notes) ++ ++CC Labels: REL_20040401_HALdallas_cpsar_01.07.01 ++ REL_20040401_HALdallas_cpmac_01.07.01 ++ ++New features: Performance improvement in CPPI layer, affecting both CPSAR and CPMAC. ++ ++Bug fixes: NTR ++ ++17 Februrary 2004 CPSAR 1.7.0 (external release) ++ ++CC Labels: REL_20040217_HALdallas_cpsar_01.07.00 ++ ++New features: Added support for "TxFlush" feature. This allows the upper ++ layer to flush all or part of a given Tx queue for a given ++ channel. This is to be used during call setup for a voice ++ connection. ++ ++30 January 2004 CPMAC 1.7.0 (external release) ++ ++CC Labels: REL_20040130_HALdallas_cpmac_01.07.00 ++ ++Bug fixes: CPMDIO - When in manual negotiate mode and linked, dropping link would move into NWAY state rather than manual state. ++ CPMDIO - Extraneous debug message corrected ++New features: CPMDIO - Support for AutoMdix usage added. ++ ++25 September 2003 CPSAR 1.6.6 (external release) ++ ++CC Labels: REL_20030925_HALdallas_cpsar_01.06.06 ++ ++Bug fixes: PDSP firmware has been updated to fix the OAM padding problem. It previously ++ wrote pad bytes into a reserved field of the OAM cell. There is a small ++ change to the CPSAR configuration code which corresponds to the PDSP spec ++ change. ++ ++New features: NTR ++ ++09 September 2003 CPMAC 1.6.6 (external release) ++ ++CC Labels: REL_20030909_HALdallas_cpmac_01.06.06 ++ ++Bug fixes: CPMAC : When _CPMDIO_NOPHY is set, Cpmac COntrol is set to Full Duplex ++ Bridge loopback test does not show a problem using 1.6.5 if packet rate is ++ below 50,000 pbs. Now testing with a 100% send from Ixia. ++ ++New features: NTR ++ ++05 August 2003 CPHAL 1.6.5 (external release) ++ ++CC Labels: REL_20030805_HALdallas_cpmac_01.06.05 ++ ++Bug fixes: NTR ++ ++New features: CPMAC : Added support for CPMAC modules that do not have a Phy connected. ++ The CPMAC is informed of this by the MdioConnect option ++ _CPMDIO_NOPHY. This is the only driver change needed to ++ receive and transmit packets through the Marvel switch. ++ Note In this mode Link status will reported linked at 100/FD to ++ PhyNum 0xFFFFFFFF. ++ ++ ALL: Cleaned up some Vlynq support logic. ++ ++16 July 2003 CPSAR 1.6.3 (external release), no CPMAC release ++ ++CC Labels: REL_20030716_HALdallas_cpsar_01.06.03 ++ ++Bug fixes: 1) Changed default value of CPCS_UU from 0x5aa5 to 0. The old default value caused ++ problems with Cisco routers. ++ ++New features: NTR ++ ++Known issues not addressed in this release: NTR. ++ ++01 July 2003 CPHAL 1.6.2 (external release) ++ ++CC Labels: REL_20030701_HALdallas_cpmac_01.06.02 ++ REL_20030701_HALdallas_cpsar_01.06.02 ++ ++Bug fixes: 1) A previous firmware upgrade caused firmware OAM loopback cells to only work on every other ++ command. This has been fixed in the new firmware version (0.47). ++ 2) Problem with PTI values changing on transparent mode packets has been resolved. ++ 3) Previously, successful firmware OAM loopback cells waited 5 seconds before notifying the ++ OS of success, rather that notifying immediately. This has been resolved in firmware. ++ 4) PITS #148 (MAC and SAR), #149 (MAC) have been fixed. ++ ++New features: 1) AAL5 HAL now capable of receiving unknown VCI/VPI cells on a single transparent channel. ++ See updated HAL document (AAL5 appendix) for implementation details. ++ 2) AAL5 HAL now allows OS to modify the OAM loopback timeout window. Previously, failed ++ OAM loopback attempts timed out after a nominal 5 seconds (based on the SAR frequency ++ provided by the OS). Now, the default is 5 seconds, but the OS may change the ++ value via halControl() to any integer number of milliseconds. See updated HAL document ++ (AAL5 appendix) for implementation details. ++ 3) MAC (cpmdio): added loopback to Istate. Used for debug. ++ ++Known issues not addressed in this release: NTR. ++ ++09 June 2003 CPSAR 1.6.1 (external release), CPMAC 1.6.1 (internal release - no functional change) ++ ++Note: This is the same set of fixes being applied to 1.6.0 that were applied to 1.5.3. The only difference ++ between 1.6.1 and 1.5.4 is that 1.6.1 has the TurboDSL fix. ++ ++CC Labels: REL_20030609_HALdallas_cpmac_01.06.01 ++ REL_20030609_HALdallas_cpsar_01.06.01 ++ ++Bug fixes: 1) Bug in OamLoopbackConfig fixed. ++ 2) New firmware version (.43) to fix Westell issue of dropped downstream packets in ++ presence of OAM traffic when operating at or near line rate. ++ ++New features: NTR. ++ ++09 June 2003 CPSAR 1.5.4 (external release), CPMAC 1.5.4 (internal release - no functional change) ++ ++Note: This is a branch release from 1.5.3. This does not contain anything from 1.6.0. The CPMAC is ++only being labeled to keep the release flow consistent. ++ ++CC Labels: REL_20030609_HALdallas_cpmac_01.05.04 ++ REL_20030609_HALdallas_cpsar_01.05.04 ++ ++Bug fixes: 1) Bug in OamLoopbackConfig fixed. ++ 2) New firmware version (.43) to fix Westell issue of dropped downstream packets in ++ presence of OAM traffic when operating at or near line rate. ++ ++New features: NTR. ++ ++30 May 2003 CPSAR 1.6.0 (external release), CPMAC 1.6.0 (internal release - no functional change) ++ ++CC Labels: REL_20030530_HALdallas_cpmac_01.06.00 ++ REL_20030530_HALdallas_cpsar_01.06.00 ++ ++Bug fixes: 1) TurboDSL issue has been fixed with a software workaround in TxInt. This workaround ++ has been verified under Adam2 ONLY at this point. Testing remains to be done on ++ Linux and VxWorks. ++ ++New features: NTR. ++ ++Known issues not addressed in this release: NTR. ++ ++30 May 2003 CPSAR 1.5.3 (external release), CPMAC 1.5.3 (internal release - no functional change) ++ ++CC Labels: REL_20030530_HALdallas_cpmac_01.05.03 ++ REL_20030530_HALdallas_cpsar_01.05.03 ++ ++Bug fixes: NTR. ++ ++New features: 1) AAL5 Send() has been modified to accept an ATM Header either in the first ++ fragment by itself, or in the first fragment directly in front of payload data. ++ The API() does not change. ++ 2) Documentation updates throughout, reflected in latest version of CPHAL user's ++ guide. ++ 3) AAL5 MaxFrags default value is now 46. This is based upon the default AAL5 ++ RxBufSize of 1518 (MaxFrags = (65568/1518) + 2). IF THE OS CHOOSES A SMALLER ++ RxBufSize, IT MUST INCREASE THE VALUE OF MaxFrags ACCORDINGLY. This is done ++ via halControl(), prior to Open(). ++ ++Known issues not addressed in this release: ++ 1) The Linux SAR driver is seeing an issue in which it cannot ++ reliably send traffic simultaneously on both the high and ++ low priority queues of a single AAL5 channel. (TurboDSL) ++ ++23 May 2003 CPHAL 1.5.2 (external release) ++ ++CC Labels: REL_20030523_HALdallas_cpmac_01.05.02 ++ REL_20030523_HALdallas_cpsar_01.05.02 ++ ++Bug fixes: 1) PITS #138: CPMAC flooding issue resolved. ++ 2) PITS #142: OS may now set "MaxFrags" via Control(). This controls the ++ maximum number of fragments expected by the CPHAL. The default value is 2 for ++ CPMAC and 1028 for AAL5. If the OS chooses a RxBufSize that will cause more ++ fragments than the defaults, the OS must set "MaxFrags" to a correct value ++ ((maximum packet length / RxBufSize) + 2). ++ 3) PITS #143: Fixed. ++ 4) Firmware OAM bug fixed. (new firmware release in this version) ++ ++New features: NTR. ++ ++Known issues not addressed in this release: ++ 1) The Linux SAR driver is seeing an issue in which it cannot ++ reliably send traffic simultaneously on both the high and ++ low priority queues of a single AAL5 channel. (TurboDSL) ++ ++14 May 2003 CPHAL 1.5.1 (external release) ++ ++CC Labels: REL_20030514_HALdallas_cpmac_01.05.01 ++ REL_20030514_HALdallas_cpsar_01.05.01 ++ ++Bug fixes: 1) PITS 132 - (CPMAC) Frames < 60 bytes and split into ++ multi-fragments. ++ 2) BCIL MR PSP00000353 - (CPMAC) PhyDev not free'd on halClose() ++ 3) PITS 113 - OsSetup bug in ChannelSetup fixed. ++ 4) Fixed AAL5 to check return values of InitTcb/InitRcb. ++ 5) Fixed Shutdown to properly free resources in the case of a Close ++ mode 1 followed by Shutdown. Previously, buffer and descriptor ++ resources were left unfreed in this case. ++ ++New features: 1) AAL5 Send() modified to be capable of accepting ATM header as first four ++ bytes of first fragment. This allows the OS to "override" the ++ default ATM header which is constructed from preconfigured channel ++ parameters. ++ 2) AAL5 Receive() modified to be capable of passing the received ATM header (4 bytes, no HEC) ++ in the first fragment (by itself). It also passes up the OS an indication ++ of what the received packet type was. For Host OAM and transparent mode ++ packets, the ATM header is passed in this manner, and for other types of packets ++ (AAL5, NULL AAL) no ATM header is passed currently. ++ ++Known issues not addressed in this release: ++ 1) The Linux SAR driver is seeing an issue in which it cannot ++ reliably send traffic simultaneously on both the high and ++ low priority queues of a single AAL5 channel. ++ ++30 April 2003 CPHAL 1.5.0 (external release) ++ ++CC Labels: REL_20030430_HALdallas_cpmac_01.05.00 ++ REL_20030430_HALdallas_cpsar_01.05.00 ++ ++Bug fixes: 1) Fixed AAL5 bug that rendered the low priority queue ++ unusable. ++ 2) Fixed a bug in AAL5's Oam Rate calculations. ++ 3) Fixed use of "DeviceCPID" key in AAL5's halControl(). ++ 4) Fixed RxReturn logic in HAL. The HAL now can handle ++ failing MallocRxBuffer calls when multiple fragments ++ are being used. ++ ++New features: 1) AAL5 Stats now available on a per queue basis. ++ 2) AAL5 adds two new keys to halControl() for "Set" actions: ++ RxVc_OamCh and RxVp_OamCh. ++ 3) Shutdown() has been modified for both AAL5 and CPMAC to ++ call Close() if the module is still in the Open state. ++ 4) CPMAC adds the following access keys to halControl(): ++ hcPhyAccess,hcPhyNum,hcCpmacBase,hcSize,and hcCpmacSize. ++ 5) CPHAL no longer requests an extra 15 bytes on data buffer ++ mallocs. ++ ++Known issues not addressed in this release: ++ 1) The Linux SAR driver is seeing an issue in which it cannot ++ reliably send traffic simultaneously on both the high and ++ low priority queues of a single AAL5 channel. ++ ++21 April 2003 CPHAL 1.4.1 (external release) ++ ++CC Labels: REL_20030421_HALdallas_cpmac_01.04.01 ++ REL_20030421_HALdallas_cpsar_01.04.01 ++ ++Bug fixes: 1) Fixed OAM logic in SAR portion of CPHAL. ++ ++New features: 1) OAM loopback counters exposed through halControl. ++ 2) Host OAM Send() can now use a single channel to send ++ OAM cells on unlimited number of VP's/VC's. ++ 3) CPHAL now requests "SarFreq" through osControl. ++ 4) CPHAL now calculates all OAM function rates based on ++ "SarFreq"; function OamRateConfig removed for API. ++ 5) New OAM function OamLoopbackConfig, used for configuring ++ loopback functions in firmware OAM mode. ++ ++Known issues not addressed in this release: Bug fix 1) in release 1.4 ++ (see below) does not work properly for multiple fragments. ++ ++10 April 2003 CPHAL 1.4 (external release) ++ ++CC Labels: REL_20030410_HALdallas_cpmac_01.04.00 ++ REL_20030410_HALdallas_cpsar_01.04.00 ++ ++This release is for SAR and MAC. ++ ++ Bug fixes: 1) Implemented logic in HAL to re-request buffer mallocs ++ in the case of MallocRxBuffer failing. The HAL now maintains ++ a NeedsBuffer queue of all RCB's that are without buffers. ++ On interrupts, or on Send(), the HAL checks to see if any ++ RCB's are on the queue, and if so, calls MallocRxBuffer ++ to attempt to get a new buffer and return the RCB to ++ circulation. ++ 2) SAR now properly returns all error codes from halOpen and ++ halChannelSetup. ++ ++ New features: NTR ++ ++ Known issues not addressed in this release: NTR ++ ++08 April 2003 CPHAL 1.3.1 (internal release - SAR only) ++ ++ CC Labels: REL_20030408_HALdallas_cpsar_01.03.01 ++ ++ This is a SAR only release. The current CPMAC release is still 1.3. ++ ++ Bug fixes: 1) PDSP State RAM / Scratchpad RAM is now completely cleared after reset. ++ This resolves a stability issue. ++ ++ New features: 1) OamMode is now a parameter in halControl(). Both "Set" and "Get" ++ actions are available. The value may be "0" (Host OAM), or "1" ++ (Firmware OAM). ++ ++ Known issues not addressed in this release: ++ 1) Appropriate action for HAL in the case of MallocRxBuffer failing. We ++ are investigating whether the HAL should implement a needs buffer ++ queue. ++ ++04 April 2003 CPHAL 1.3 (external release) ++ ++ CC Labels: REL_20030404_HALdallas_cpmac_01.03.00 ++ REL_20030404_HALdallas_cpsar_01.03.00 ++ REL_20030404_HALdallas_cpaal5_01.03.00 ++ REL_20030404_HALdallas_cpaal2_01.03.00 ++ ++ This release requires no changes for the ethernet end driver. The changes necessary ++ for the sar driver (firmware file name changes) have already been implemented. ++ ++ Bug fixes: 1) RxReturn now returns an error if MallocRxBuffer fails. On RxReturn error, the driver should ++ call RxReturn again at a later time (when the malloc may succeed) in order for the CPHAL ++ to maintain a full complement of Rx buffers. We recommend holding off making this driver ++ change until we verify that this condition occurs. ++ ++ New features: 1) Removed benign compiler warnings. ++ 2) PITS 122: http://www.nbu.sc.ti.com/cgi-bin/pits/redisplay_archive?product=cphal_dev&report=122 ++ 3) Cpsar label (above) now is applied to everything ++ beneath /cpsar. ++ 4) PITS 14: http://www.nbu.sc.ti.com/cgi-bin/pits/redisplay_archive?product=cphal_dev&report=14 ++ Transferred to MR PSP 00000089. ++ 5) PITS 120: http://www.nbu.sc.ti.com/cgi-bin/pits/redisplay_archive?product=cphal_dev&report=120 ++ ++ Known issues not addressed in this release: ++ 1) PITS 102 (as relating to OamMode configuration): ++ http://www.nbu.sc.ti.com/cgi-bin/pits/redisplay_archive?product=cphal_dev&report=102 ++ Future release will make OamMode configurable ++ through halControl(), not on per channel basis. ++ ++20 March 2003 CPHAL 1.2.1 (internal release) ++ ++ CC Labels: REL_20030320_HALdallas_cpmac_01.02.01 ++ REL_20030320_HALdallas_cpsar_01.02.01 ++ REL_20030320_HALdallas_cpaal5_01.02.01 ++ REL_20030320_HALdallas_cpaal2_01.02.01 ++ ++ Bug fixes: 1. Fixed modification of buffer pointer following ++ MallocRxBuffer in cppi.c. ++ 2. Removed extra firmware files from /cpsar. ++ ++ New features: NTR. ++ ++ Known issues not addressed in this release: NTR. ++ ++07 March 2003 CPHAL 1.2 (external release) ++ ++ CPMAC/CPSAR feature complete release. SAR added ++ several features including full OAM support and various ++ other features and bug fixes to address PITS 99-106, and ++ 114. CPMAC cleaned up details raised by India PSP ++ team. ++ ++29 January 2003 CPHAL RC 3.01a (external release) ++ ++ Corrects non-static functions to be static in cppi.c. ++ ++09 Janurary 2003 CPHAL RC 3.01 (external release) ++ ++ PITS 88: Fixed MDIO re-connection problem (hcpmac.c) ++ PITS 90: Corrected Rx Buffer Pointer modification (cppi.c) ++ ++ Corrected error in cpremap.c ++ ++20 December 2002 CPHAL RC 3 (external release) ++ ++ Statistics support via halControl(). See Appendix A of guide. ++ Fixed errors in ChannelTeardown/ChannelSetup CPHAL logic. ++ Added multicast support as requested. ++ Several new OS string functions added to OS_FUNCTIONS. ++ "DebugLevel" configuration parameter changed to "Debug". ++ "Stats0" changed to "StatsDump" for CPMAC. ++ ++13 December 2002 CPHAL RC 2.03 (internal release) ++ ++ Performance improvements. ++ More debug statements implemented (esp AAL5). ++ Updated makefile with "make debug" option. ++ Hbridge performance: [debug library] 15774 tps (53% line rate) ++ [non-debug library] 13700 tps (46%) ++ ++10 December 2002 CPHAL Release Candidate 2.02 (internal release) ++ ++ Much of the configuration code internal to CPMAC and AAL5 has been made common. ++ [os]Receive API had been modified to remove OsReceiveInfo. This information is now ++ available as third member of the FRAGLIST structure, on a per buffer basis. ++ Successfully tested multi-fragment support on CPMAC, using 32 byte buffers. ++ Code is now Emerald compliant - all buffer descriptors now aligned to cache-line ++ boundaries. ++ ++2 December 2002 CPHAL Release Candidate 2.01 ++ ++ Updates to comments in hcpmac.c, cpmdio.c, hcpmac.h ++ Nested comment in hcpmac.c in RC2 can cause compile errors. ++ ++25 November 2002 CPHAL Release Candidate 2 ++ ++Project Items not completed for RC2 ++#6 Ship as Library - Once under CC. Moved to RC3 ++#8 Under Clearcase - Moved to RC3 ++#25 Emerald compliant - Moved to RC3 ++#26 Statistics support - Moved to RC3 (some support in RC2) ++#36 Debug scheme implemented - Moved to RC3 (some support in RC2) ++ ++8 November 2002 CPHAL Release Candidate 1 ++ ++Notes: ++ ++Project Items not completed for RC1 ++ ++#8 Under Clearcase - Clearcase server failure this week. Moved to RC2 ++#6 Ship as Library - Once under CC. Moved to RC2 ++#13 Verify Datatypes. Moved to RC2 ++#14 Review APIs. Moved to RC2 ++ ++APIs under review for RC2 ++ ++halIsr() ++hslRxReturn() ++halSend() ++osSendComplete() ++osReceive() ++ ++ ++CPMAC Build Instructions ++ ++Compile the file 'hcpmac.c'. ++ ++ ++AAL5 Build Instructions ++ ++The AAL5 build is composed of the source files aal5sar.c and cpsar.c. ++Refer to the provided makefile for an example of compiling these files ++into a library. ++ ++Example CPHAL Code ++ ++CPMAC: ++ ++Example CPMAC code is provided in the file hbridge.c. ++This program is provided simply as an example of using the CPHAL API. ++It is not intended to be compiled and executed in your environment. ++ ++AAL5: ++ ++Example AAL5 code is provided in the file loopback.c. This program ++is provided simply as an example of using the CPHAL API. It is not ++intended to be compiled and executed in your environment. ++ ++ ++Performance Baseline ++ ++ ++Cpmac ++ ++RC1: hbridge.bin, running with IXIA cpahl_1.cfg. ++ This sends 64-byte packets from each Ixia port, with mac destination the other Ixia port. ++ MIPS core 4Kc. ++ ++RC2: hbridge.bin, running with IXIA cpahl_1.cfg. ++ This sends 64-byte packets from each Ixia port, with mac destination the other Ixia port. ++ MIPS core 4Ke. ++ CPHAL now includes Emerald support, but this has been disabled by using 'cache -wt' to emulate 4Kc. ++ ++RC3: hbridge.bin, running with IXIA cpahl_1.cfg. ++ This sends 64-byte packets from each Ixia port, with mac destination the other Ixia port. ++ MIPS core 4Ke. ++ Running as Emerald processor. ++ ++Release Total Receive Rate Throughput Setting ++ ++RC1 11300 38% ++RC2 9524 32% ++RC3 15190 51% +diff -urN linux.old/drivers/net/Config.in linux.dev/drivers/net/Config.in +--- linux.old/drivers/net/Config.in 2005-07-12 03:20:45.726149872 +0200 ++++ linux.dev/drivers/net/Config.in 2005-07-12 02:48:42.180573000 +0200 +@@ -25,6 +25,24 @@ + comment 'Ethernet (10 or 100Mbit)' + bool 'Ethernet (10 or 100Mbit)' CONFIG_NET_ETHERNET + if [ "$CONFIG_NET_ETHERNET" = "y" ]; then ++ if [ "$CONFIG_MIPS_TITAN" = "y" -o "$CONFIG_AR7" = "y" ]; then ++ tristate ' Texas Instruments Avalanche CPMAC support' CONFIG_MIPS_AVALANCHE_CPMAC ++ fi ++ if [ "$CONFIG_MIPS_AVALANCHE_CPMAC" != "n" ]; then ++ if [ "$CONFIG_AR7WRD" = "y" -o "$CONFIG_AR7VWI" = "y" -o "$CONFIG_AR7VW" = "y" ]; then ++ define_bool CONFIG_MIPS_CPMAC_INIT_BUF_MALLOC y ++ define_int CONFIG_MIPS_CPMAC_PORTS 1 ++ if [ "$CONFIG_MIPS_AVALANCHE_MARVELL" = "y" ]; then ++ define_bool CONFIG_AVALANCHE_LOW_CPMAC n ++ define_bool CONFIG_AVALANCHE_HIGH_CPMAC y ++ else ++ define_bool CONFIG_AVALANCHE_CPMAC_AUTO y ++ define_bool CONFIG_AVALANCHE_LOW_CPMAC n ++ define_bool CONFIG_AVALANCHE_HIGH_CPMAC n ++ fi ++ fi ++ fi ++ + if [ "$CONFIG_ARM" = "y" ]; then + dep_bool ' ARM EBSA110 AM79C961A support' CONFIG_ARM_AM79C961A $CONFIG_ARCH_EBSA110 + tristate ' Cirrus Logic CS8900A support' CONFIG_ARM_CIRRUS +diff -urN linux.old/drivers/net/Makefile linux.dev/drivers/net/Makefile +--- linux.old/drivers/net/Makefile 2005-07-12 03:20:45.726149872 +0200 ++++ linux.dev/drivers/net/Makefile 2005-07-12 02:48:42.181573000 +0200 +@@ -56,6 +56,16 @@ + subdir-$(CONFIG_BONDING) += bonding + + # ++# Texas Instruments AVALANCHE CPMAC driver ++# ++ ++subdir-$(CONFIG_MIPS_AVALANCHE_CPMAC) += avalanche_cpmac ++#obj-$(CONFIG_MIPS_AVALANCHE_CPMAC) += avalanche_cpmac/avalanche_cpmac.o ++ifeq ($(CONFIG_MIPS_AVALANCHE_CPMAC),y) ++ obj-y += avalanche_cpmac/avalanche_cpmac.o ++endif ++ ++# + # link order important here + # + obj-$(CONFIG_PLIP) += plip.o +--- linux.old/drivers/net/avalanche_cpmac/cpmac.c 2005-08-25 10:56:33.702931008 +0200 ++++ linux.dev/drivers/net/avalanche_cpmac/cpmac.c 2005-08-25 11:08:45.027451520 +0200 +@@ -2158,17 +2158,16 @@ + CPMAC_PRIVATE_INFO_T *p_cpmac_priv = p_dev->priv; + CPMAC_DRV_HAL_INFO_T *p_drv_hal = p_cpmac_priv->drv_hal; + struct sk_buff *p_skb = fragList[0].OsInfo; +- p_skb->len = fragList[0].len; + + /* invalidate the cache. */ + dma_cache_inv((unsigned long)p_skb->data, fragList[0].len); + #ifdef CPMAC_TEST +- xdump(p_skb->data, p_skb->len, "recv"); ++ xdump(p_skb->data, fragList[0].len, "recv"); + #endif + #ifdef CPMAC_8021Q_SUPPORT + /* 802.1q stuff, just does the basic checking here. */ + if(!p_cpmac_priv->enable_802_1q && +- p_skb->len > TCI_END_OFFSET && ++ fragList[0].len > TCI_END_OFFSET && + IS_802_1Q_FRAME(p_skb->data + TPID_START_OFFSET)) + { + goto cpmac_hal_recv_frame_mismatch; diff --git a/target/linux/ar7-2.4/patches/004-atm_driver.patch b/target/linux/ar7-2.4/patches/004-atm_driver.patch new file mode 100644 index 0000000000..f6a920853a --- /dev/null +++ b/target/linux/ar7-2.4/patches/004-atm_driver.patch @@ -0,0 +1,27232 @@ +diff -urN linux.old/drivers/atm/Config.in linux.dev/drivers/atm/Config.in +--- linux.old/drivers/atm/Config.in 2005-08-22 23:18:37.773532032 +0200 ++++ linux.dev/drivers/atm/Config.in 2005-08-23 04:46:50.076846888 +0200 +@@ -99,4 +99,10 @@ + bool 'Use S/UNI PHY driver' CONFIG_ATM_HE_USE_SUNI + fi + fi ++# ++# Texas Instruments SANGAM ADSL/ATM support ++# ++if [ "$CONFIG_AR7" = "y" ]; then ++ tristate 'Texas Instruments SANGAM ATM/ADSL support' CONFIG_MIPS_SANGAM_ATM ++fi + endmenu +diff -urN linux.old/drivers/atm/Makefile linux.dev/drivers/atm/Makefile +--- linux.old/drivers/atm/Makefile 2005-08-22 23:18:37.773532032 +0200 ++++ linux.dev/drivers/atm/Makefile 2005-08-23 04:46:50.077846736 +0200 +@@ -14,6 +14,32 @@ + obj-$(CONFIG_ATM_NICSTAR) += nicstar.o + obj-$(CONFIG_ATM_IDT77252) += idt77252.o + ++ifeq ($(CONFIG_AR7),y) ++ ++subdir-$(CONFIG_MIPS_SANGAM_ATM) += sangam_atm ++ ++EXTRA_CFLAGS += -DEL -I$(TOPDIR)/drivers/atm/sangam_atm -DPOST_SILICON -DCOMMON_NSP -DCONFIG_LED_MODULE -DDEREGISTER_LED -DNO_ACT ++#EXTRA_CFLAGS += -DEL -I$(TOPDIR)/drivers/atm/sangam_atm -DPOST_SILICON -DCOMMON_NSP ++ ++ifeq ($(ANNEX),B) ++EXTRA_CFLAGS += -DANNEX_B -DB ++else ++ifeq ($(ANNEX),C) ++EXTRA_CFLAGS += -DANNEX_C -DC ++else ++EXTRA_CFLAGS += -DANNEX_A -DP ++endif ++endif ++ ++list-multi := tiatm.o ++tiatm-objs := sangam_atm/tn7atm.o sangam_atm/tn7dsl.o sangam_atm/tn7sar.o \ ++ sangam_atm/dsl_hal_api.o sangam_atm/dsl_hal_support.o sangam_atm/cpsar.o \ ++ sangam_atm/aal5sar.o ++ ++obj-$(CONFIG_MIPS_SANGAM_ATM) += sangam_atm/tiatm.o ++ ++endif ++ + ifeq ($(CONFIG_ATM_NICSTAR_USE_SUNI),y) + obj-$(CONFIG_ATM_NICSTAR) += suni.o + endif +diff -urN linux.old/drivers/atm/sangam_atm/aal5sar.c linux.dev/drivers/atm/sangam_atm/aal5sar.c +--- linux.old/drivers/atm/sangam_atm/aal5sar.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/aal5sar.c 2005-08-23 04:46:50.080846280 +0200 +@@ -0,0 +1,2962 @@ ++ ++/** ++ * ++ * aal5sar.c ++ * ++ * TNETDxxxx Software Support\n ++ * Copyright (c) 2002 Texas Instruments Incorporated. All Rights Reserved. ++ * ++ * version ++ * 28Feb02 Greg 1.00 Original Version created.\n ++ * 06Mar02 Greg 1.01 Documentation (Doxygen-style) enhanced ++ * 06May02 Greg 1.02 AAL2 added ++ * 06Jun02 Greg 1.03 Multiple API and bug fixes from emulation ++ * 12Jul02 Greg 1.04 API Update ++ */ ++ ++/** ++@defgroup CPHAL_Functions CPHAL Functions ++ ++These are the CPHAL Functions. ++*/ ++ ++/** ++@page CPHAL_Implementation_Details ++ ++@section cphal_intro Introduction ++ ++The CPHAL API described above is generally applicable to all modules. Any ++implementation differences will be described in the following module-specific ++appendix sections. ++ ++Included for your reference is a diagram showing the internal architecture ++of the CPHAL: ++ ++@image html SangamSoftware.jpg "HAL Architecture" ++@image latex SangamSoftware.jpg "HAL Architecture" height=2.8in ++ ++*/ ++ ++/** ++@defgroup AAL5_Functions Additional Functions for AAL5 Implementation ++ ++These functions are used only by the AAL5 module. ++*/ ++ ++/* ++@defgroup CPMAC_Functions Additional Functions for CPMAC Implementation ++ ++No additional functions currently defined. ++*/ ++ ++/** ++@page VDMA_Implementation_Details ++ ++@section vdma_intro Introduction ++ ++The VDMA-VT module facilitates efficient transfer of data (especially voice) ++between two devices, as shown in the figure below. ++ ++@image html vdma.jpg "VDMA System Block Diagram" ++@image latex vdma.jpg "VDMA System Block Diagram" height=1in ++ ++The VDMA-VT module supports two modes of operation: mirror mode and credit mode. ++Mirror mode is intended for systems in which the remote device does not have a ++VDMA-based module. Credit mode is intended for highest performance when VDMA-based ++modules exist on both ends of an interface. ++ ++For more detailed information on the operation of the VDMA module, please ++reference the VDMA Module Guide. ++ ++@section vdma_channels VDMA Channels ++ ++The VDMA-VT module is a single channel, single transmit queue device. Therefore, ++when using the CHANNEL_INFO structure, the correct value for @c Ch is always 0. ++Correspondingly, the correct value for the @c Ch parameter in @c ChannelTeardown() is ++always 0. Further, when calling @c Send(), the driver should always supply the value ++of 0 for both the @c Ch and @c Queue parameters. ++ ++For the VDMA-VT, configuring the channel requires the configuration of either 2 FIFO ++elements (in credit mode) or 4 FIFO elements (in mirror mode). For credit mode, the ++driver must configure just the local Tx and Rx FIFOs. For mirror mode, the driver must ++configure the Tx and Rx FIFOs for both the remote and local ends of the interface. ++ ++This channel configuration is accomplished through multiple calls to @c ChannelSetup(). ++Each call configures a single FIFO, according to the parameters in the CHANNEL_INFO ++structure. The members of VDMA-VT's CHANNEL_INFO structure are defined below. ++ ++ ++- int RemFifoAddr; Address of remote FIFO (mirror mode only). Set to 0 for credit mode. ++- int FifoAddr; Address of the local FIFO. If 0, the CPHAL will allocate the FIFO. ++- int FifoSize; Size of the FIFO. ++- int PollInt; Polling interval for the FIFO. ++- int Endianness; Endianness of the FIFO. If 1, big endian. If 0, little endian. ++- int RemAddr; Used only in credit mode. This is the base address of the remote ++ remote VDMA-based device (VDMA-VT or AAL2) ++- int RemDevID; Used only in credit mode. Identifies the type of remote VDMA-based device. ++ 0=VDMAVT, 1=AAL2 Ch0, 2=AAL2 Ch1, 3=AAL2 Ch2, 4= AAL2 Ch3. ++ ++For the VDMA-VT module, the driver must make all calls to @c ChannelSetup() prior to calling ++@c Open(). This is because several of the channel specific parameters may not be changed ++while the VDMA-VT module is operational. ++ ++@section vdma_params VDMA Parameters ++ ++Defined here are the set of parameters for the VDMA-VT module. Default settings for ++each parameter should be represented in the device configuration file (options.conf). ++During @c Init(), the CPHAL will reference the device configuration file and load all ++default settings. The @c Control() interface gives the driver an opportunity to ++modify any default settings before the module becomes operational during the @c Open() ++call. ++ ++@param NoTxIndication If 1, the CPHAL will not call @c SendComplete(). 0 is default. ++@param NoRxIndication If 1, the CPHAL will not call @c Receive(). 0 is default. ++@param RemoteCPU If 1, the CPHAL will not directly manipulate data in FIFO's, leaving ++ that task for a remote CPU. 0 is default. ++@param RxIntEn If 1, enables Rx interrupts. 0 is default. ++@param TxIntEn If 1, enables Tx interrupts. 0 is default. ++@param Mirror If 1, enables mirror mode. 0 selects credit mode (default). ++@param RxIntCtl Valid only in mirror mode. If 1, interrupts will occur when the Rx FIFO ++ RdIndex is updated. If 0, interrupts occur when the Rx FIFO WrIndex ++ is updated. ++@param TxIntCtl Valid only in mirror mode. If 1, interrupts will occur when the Rx FIFO ++ RdIndex is updated. If 0, interrupts occur when the Rx FIFO WrIndex ++ is updated. ++@param RBigEn Remote big endian mode. If 1, remote is big endian. ++@param LBigEn Local big endian mode. If 1, local is big endian. ++ ++@section vdma_polling Using VDMA-VT without interrupts ++ ++If your system configuration does not utilize VDMA interrupts, the ability to process the ++Tx and Rx FIFOs is supported. To process the Tx FIFO, call @c CheckTx(). If the CPHAL is ++able to process any complete data transmissions, it will call @c SendComplete() as usual. ++To process the Rx FIFO, call @c CheckRx(). If the CPHAL has received any data, it will ++call @c Receive() to pass the driver the data. Please reference @ref VDMA_Functions for more ++information on these interfaces. ++ ++@section vdma_details VDMA Implementation Details ++ ++The following functions are not defined for use with VDMA: @c Status(), @c Tick(), @c StatsGet(), ++and @c StatsClear(). ++ ++*/ ++ ++/** ++@page AAL5_Implementation_Details ++ ++@section aal5_ver Version ++ ++@copydoc AAL5_Version ++ ++@section aal5_intro Introduction ++ ++The AAL5 implementation will support 16 channels for transmit and 16 channels for ++receive. Each of the transmit channels may have up to two transmit queues ++associated with it. If two queues are used, Queue 0 is the high priority queue, ++and Queue 1 is the low priority queue. ++ ++@section aal5_params AAL5 Configuration Parameters ++ ++AAL5 requires two device entries to be available in the configuration repository, named ++@p "aal5" and @p "sar". The @p aal5 device entry must contain @p base (base address) ++and @p int_line (interrupt number). The @p sar device entry must have both @p base ++(base address) and @p reset_bit (reset bit). ++ ++@par Device Level Configuration Parameters ++ ++The following parameters are device-level parameters, which apply across all ++channels. The value for these parameters may be modified by changing the value in the ++configuration repository. ++ ++- "UniNni": ++AAL5 network setting. 0 = UNI (default), 1 = NNI. ++ ++@par Channel Configuration Parameters ++ ++All AAL5 channel parameters may also be configured through the @c ChannelSetup() interface. ++Following is the list of @p CHANNEL_INFO members that may be modified by the driver when ++calling @c ChannelSetup(). The driver may provide a value of 0xFFFFFFFF for any channel ++parameter to select a default value for the parameter. The driver should at a minimum ++configure @p Vci and @p Vpi. The usage of all parameters beginning with TxVc_, ++TxVp_, RxVc_, RxVp_ is described in greater detail in the SAR Firmware Spec. ++These parameters are mainly associated with QoS and OAM functionality. ++ ++- "RxNumBuffers": ++The number of Rx buffer descriptors to allocate for Ch. ++- "RxBufSize": ++Size (in bytes) for each Rx buffer. ++- "RxBufferOffset": ++Number of bytes to offset rx data from start of buffer (must be less than buffer size). ++- "RxServiceMax": ++Maximum number of packets to service at one time. ++- "TxNumBuffers": ++The number of Tx buffer descriptors to allocate for Ch. ++- "TxNumQueues": ++Number of Tx queues for this channel (1-2). Choosing 2 enables a low priority SAR queue. ++- "TxServiceMax": ++Maximum number of packets to service at one time. ++- "CpcsUU": ++The 2-byte CPCS UU and CPI information. ++- "Gfc": ++Generic Flow Control. Used in ATM header of Tx packets. ++- "Clp": ++Cell Loss Priority. Used in ATM header of Tx packets. ++- "Pti": ++Payload Type Indication. Used in ATM header of Tx packets. ++- "DaMask": ++Specifies whether credit issuance is paused when Tx data not available. ++- "Priority": ++Priority bin this channel will be scheduled within. ++- "PktType": ++0=AAL5,1=Null AAL,2=OAM,3=Transparent,4=AAL2. ++- "Vci": ++Virtual Channel Identifier. ++- "Vpi": ++Virtual Path Identifier. ++- "TxVc_AtmHeader": ++In firmware OAM mode, this ++is the ATM header to be appended to front of firmware generated VC OAM cells for ++this channel. Note: To generate host OAM cells, call @c Send() with ++the appropriate mode. ++- "TxVc_CellRate": ++Tx rate, set as clock ticks between transmissions (SCR for VBR, CBR for CBR). ++- "TxVc_QosType": ++0=CBR,1=VBR,2=UBR,3=UBRmcr. ++- "TxVc_Mbs": ++Min Burst Size in cells. ++- "TxVc_Pcr": ++Peak Cell Rate for VBR in clock ticks between transmissions. ++- "TxVc_OamTc": ++TC Path to transmit OAM cells for TX connections (0,1). ++- "TxVc_VpOffset": ++Offset to the OAM VP state table for TX connections. Channels with the same ++VPI must have the same VpOffset value. Channels with different VPIs ++must have unique VpOffset values. ++- "RxVc_OamCh": ++Channel to which to terminate received OAM cells to be forwarded to the Host ++for either Host OAM mode, or when RxVc_OamToHost is enabled during Firmware ++OAM mode. ++- "RxVc_OamToHost": ++Indicates whether to pass received unmatched OAM loopback cells to the host; ++0=do not pass, 1=pass. ++- "RxVc_AtmHeader": ++ATM Header placed on firmware gen'd OAM cells for this channel on a Rx ++connection (must be big endian with 0 PTI). ++- "RxVc_OamTc": ++TC Path to transmit OAM cells for RX connections (0,1). ++- "RxVc_VpOffset": ++Offset to the OAM VP state table for RX connections. Channels with the same ++VPI must have the same VpOffset value. Channels with different VPIs ++must have unique VpOffset values. ++- "TxVp_OamTc": ++TC Path to transmit OAM cells for TX VP connections (0,1). ++- "TxVp_AtmHeader": ++ATM Header placed on firmware gen'd VP OAM cells for this channel on a Tx VP ++connection (must be big endian with 0 VCI). ++- "RxVp_OamCh": ++Channel to which to terminate received OAM cells to be forwarded to the Host ++for either Host OAM mode, or when RxVc_OamToHost is enabled during Firmware ++OAM mode. ++- "RxVp_OamToHost": ++Indicates whether to pass received unmatched OAM loopback cells to the host; ++0=do not pass, 1=pass. ++- "RxVp_AtmHeader": ++In firmware OAM mode, this ++is the ATM header to be appended to front of firmware generated VP OAM cells for ++this channel. Note: To generate host OAM cells, call @c Send() with ++the appropriate mode. ++- "RxVp_OamTc": ++TC Path to transmit OAM cells for RX VP connections (0,1). ++- "RxVp_OamVcList": ++This 32-bit field is one-hot encoded to indicate all the VC channels that are ++associated with this VP channel. A value of 21 will indicate that VC ++channels 0, 2, and 4 are associated with this VP channel. ++- "FwdUnkVc": ++Indicates whether or not to forward unknown VCI/VPI cells to the host. This ++parameter only takes effect if the channel's PktType is Transparent(3). ++1=forwarding enabled, 0=forwarding disabled. ++ ++@section aal5_details API Implementation Details ++ ++ATTENTION: Documentation given here supplements the documentation given in the general ++CPHAL API section. The following details are crucial to correct usage of the ++AAL5 CPHAL. ++ ++@par Receive() ++The least significant byte of @p Mode contains the channel number. Bit 31 ++indicates whether or not the ATM header is present in the first fragment of ++the packet. If bit 31 is set, the 4 byte ATM header (minus HEC) will be provided ++in the first fragment, with the payload beginning in the second fragment. Currently, ++this is the default behavior for host OAM and transparent mode packets. ++Bits 17-16 indicate the packet type that is being received. ++Mode Parameter Breakdown: <BR> ++- 31 ATM Header In First Fragment (1=true, 0=false) <BR> ++- 30-18 Unused. <BR> ++- 17-16 Pkt Type. <BR> ++ - 0=AAL5 <BR> ++ - 1=PTI Based Null AAL <BR> ++ - 2=OAM <BR> ++ - 3=Transparent <BR> ++- 15-08 Unused. <BR> ++- 07-00 Channel Number. ++ ++@par Send() ++The most significant 16 bits of the first fragment 'len' is used as the Offset ++to be added to the packet. @c Send() will reserve this many bytes at the ++beginning of the transmit buffer prior to the first byte of valid data. ++For the @p Mode parameter, Bit 31 must be set if the user has sent a packet with ++the ATM Header (minus HEC) embedded in the first 4 bytes of the first fragment data buffer. ++The OS has the option of using a 4 byte first fragment containing only ATM header, ++or concatenating the ATM Header in front of the data payload. ++If Bit 31 is set, the ATM Header in the buffer is preserved and sent with ++each cell of the packet. Otherwise, Send() will build the ATM header based on the ++values of the Pti, Gfc, Clp, Vpi, and Vci parameters for the given channel. ++Bits 17-16 are defined as the packet type. Bits 15-08 may be used to specify the ++transmit queue to send the packet on. Only values 0 (high priority) and 1 (low ++priority) are accepted. Bits 07-00 should be used to indicate the channel number ++for the @c Send() operation. Valid channel numbers are 0-15. ++Mode Parameter Breakdown: <BR> ++- 31 ATM Header In Packet (1=true, 0=false) <BR> ++- 30-18 Unused. <BR> ++- 17-16 Pkt Type. <BR> ++ - 0=AAL5 <BR> ++ - 1=PTI Based Null AAL <BR> ++ - 2=OAM <BR> ++ - 3=Transparent <BR> ++- 15-08 Transmit Queue. <BR> ++- 07-00 Channel Number. ++ ++@par ChannelSetup() ++The AAL5 @c ChannelSetup() always configures both the Tx and Rx side of the channel ++connection in the same call. ++ ++@par ChannelTeardown() ++Regardless of the channel teardown direction selected, the AAL5 CPHAL will always ++teardown both the Tx and Rx side of the channel connection. ++ ++@par TeardownComplete() ++The value for the @p Direction parameter should be ignored for the AAL5 implementation, ++since both directions (Tx and Rx) are always torndown in response to a @c ChannelTeardown() ++command. ++ ++@par Control() (HAL version) ++Defined keys and actions. Unless otherwise stated, the data type ++for Value is pointer to unsigned integer. The list is broken into ++three groups, one group which can be used anytime, one group that should ++be used before halOpen(), and one group which can only be used after ++halOpen() (but before halClose()). For channelized parameters, replace ++'Ch' with the integer number of a channel (ex. "Gfc.4" can be used to set ++Gfc for channel 4). ++ ++MAY USE ANYTIME AFTER INIT (after halInit() is called): ++ ++- "Gfc.Ch". The OS may "Set" this value. Changing this value causes ++the Gfc in each Tx ATM header for this channel to take on the new Gfc value. ++ ++- "Clp.Ch". The OS may "Set" this value. Changing this value causes ++the Clp in each Tx ATM header for this channel to take on the new Clp value. ++ ++- "Pti.Ch". The OS may "Set" this value. Changing this value causes ++the Pti in each Tx ATM header for this channel to take on the new Pti value. ++ ++- "CpcsUU.Ch". The OS may "Set" this value. Changing this value causes ++the CpcsUU in each Tx ATM header for this channel to take on the new CpcsUU value. ++ ++- "OamMode". Specifies if host or firmware is performing OAM functions; 0 = Host OAM, ++1 = Firmware OAM. When set, all SAR channels will be configured for ++the selection, including AAL2 channels. ++ ++- "OamLbTimeout". Specifies the firmware OAM loopback timeout, in milliseconds. ++ ++- "DeviceCPID". The OS may "Set" this value. This is the OAM connection ++point identifier. The OS should provide a pointer to an array of 4 32-bit ++integers. Each word must be configured in big endian format. ++ ++- "FwdUnkVc.Ch". Indicates whether or not to forward unknown VCI/VPI cells to the host. ++This parameter only takes effect if the channel's PktType is Transparent(3). ++1=forwarding enabled, 0=forwarding disabled. ++ ++MAY USE ONLY BEFORE HAL IS OPEN (before halOpen() call): ++- "StrictPriority". The OS may "Set" this value. Setting to 1 causes ++a different interrupt processing routine to be used, which gives strict ++priority to channels with lower numbers (channel 0 has highest priority). ++The default handler gives equal priority to all channels. ++ ++- "MaxFrags". The OS may "Set" or "Get" this value. This defines the maximum ++number of fragments that can be received by the AAL5 Rx port. The default ++value for AAL5 is 46. This provides enough space to receive a maximum ++length AAL5 packet (65,568 bytes) with the default buffer size of 1518 bytes, and ++any amount of RxBufferOffset. If the buffer size is configured to be smaller, ++the OS *MUST* modify this parameter according to the following formula: ++((System Max AAL5 packet length)/(RxBufSize)) + 2. (The extra two fragments in ++the formula allow for RxBufferOffset and one fragment for the ATM Header, used ++when receiving host OAM or transparent mode packets) ++ ++MAY USE ONLY AFTER HAL IS 'OPEN' (after halOpen() call): ++- "Stats;Level;Ch;Queue". The OS may "Get" Stats groups with this key, where ++'Level' is an integer from 0-4, Ch is an integer from 0-15, and Queue is ++an integer from 0-1. Note that Ch is not required for Level 4 stats, and Queue ++is not required for Level 0, 3, and 4. The statistics functionality and return ++value is described in the appendix entitled "Configuration and Control". ++ ++- "TxVc_CellRate.Ch". The OS may "Set" this value. Can be used to modify ++CellRate for a channel on the fly. ++ ++- "TxVc_Mbs.Ch". The OS may "Set" this value. Can be used to modify ++Mbs for a channel on the fly. ++ ++- "TxVc_Pcr.Ch". The OS may "Set" this value. Can be used to modify ++Pcr for a channel on the fly. ++ ++- "PdspEnable". The OS may "Set" this value. Value 0 disables the PDSP. ++Value 1 enables to PDSP. ++ ++- "DeviceCPID". The OS may "Set" this value. The Value should be an array ++of 4 32-bit integers that comprise the CPID. ++ ++- "RxVc_RDICount.Ch". The OS may "Get" or "Set" this value. Get returns ++the current RDI count for the VC channel. Set clears the counter, and the Value ++is ignored. ++ ++- "RxVp_RDICount.Ch". The OS may "Get" or "Set" this value. Get returns ++the current RDI count for the VP channel. Set clears the counter, and the Value ++is ignored. ++ ++- "RxVc_AISseg.Ch". The OS may "Get" this value. This is an indication of ++AIS segment error for the VC channel. ++ ++- "RxVp_AISseg.Ch". The OS may "Get" this value. This is an indication of ++AIS segment error for the VP channel. ++ ++- "RxVc_AISetoe.Ch". The OS may "Get" this value. This is an indication of ++AIS end-to-end error for the VC channel. ++ ++- "RxVp_AISetoe.Ch". The OS may "Get" this value. This is an indication of ++AIS end-to-end error for the VP channel. ++ ++- "RxVc_OamCh.Ch". The OS may "Set" this value. Channel to which to terminate ++received OAM cells to be forwarded to the Host for either Host OAM mode, or when ++RxVc_OamToHost is enabled during Firmware OAM mode. ++ ++- "RxVp_OamCh.Ch". The OS may "Set" this value. Channel to which to terminate ++received OAM cells to be forwarded to the Host for either Host OAM mode, or when ++RxVp_OamToHost is enabled during Firmware OAM mode. ++ ++- "F4_LB_Counter". The OS may "Get" this value. This is a count of the number ++ of near-end F4 loopbacks performed by the PDSP in firmware OAM mode. ++ ++- "F5_LB_Counter". The OS may "Get" this value. This is a count of the number ++ of near-end F5 loopbacks performed by the PDSP in firmware OAM mode. ++ ++- "TxVc_AtmHeader.Ch". The OS may "Set" this value. In firmware OAM mode, this ++is the ATM header to be appended to front of firmware generated VC OAM cells for ++this channel. In host OAM mode, this is used as the ATM header to be appended ++to front of host generated VC OAM cells for this channel. It must be configured ++as big endian with PTI=0. Note: To generate host OAM cells, call @c Send() with ++the appropriate mode. ++ ++- "TxVp_AtmHeader.Ch". The OS may "Set" this value. In firmware OAM mode, this ++is the ATM header to be appended to front of firmware generated VP OAM cells for ++this channel. In host OAM mode, this is used as the ATM header to be appended ++to front of host generated VP OAM cells for this channel. It must be configured ++as big endian with VCI=0. Note: To generate host OAM cells, call @c Send() with ++the appropriate mode. ++ ++- "PdspEnable". The OS may "Set" this value. Controls whether or not the PDSP is ++allowed to fetch new instructions. The PDSP is enabled by the CPHAL during Open(), ++and disabled during Close(). 0 = disabled, 1 = enabled. ++ ++@par Control() (OS version) ++Defined keys and actions: ++ ++- "Firmware". The CPHAL will perform a "Get" action for the key "Firmware". A pointer ++to a pointer is passed in @p Value. The OS must modify the referenced pointer to point ++to the firmware. ++ ++- "FirmwareSize". The CPHAL will perform a "Get" action for the key "FirmwareSize". ++The OS must place the firmware size in the memory pointed at by @p Value. ++ ++- "OamLbResult". When a channel that is in firmware OAM mode is commanded to perform ++a loopback function, the result of the loopback generates an interrupt that is handled ++by the OS like any other interrupt. The CPHAL, upon servicing the interrupt, will call ++osControl with this key, and an action of "Set". The @p Value parameter will be a ++pointer to the integer result. 1 = pass, 0 = fail. ++ ++- "SarFreq". The CPHAL will perform a "Get" action for this key. The OS should place ++the SAR frequency (in Hz) in the memory pointed at by @p Value. ++ ++@section aal5_stats AAL5 Specific Statistics ++ ++Statistics level '0' contains all AAL5 specific statistics. The following values will ++be obtained when requesting stats level 0: ++ ++- "Crc Errors". Number of CRC errors reported by SAR hardware. Incremented for received ++packets that contain CRC errors. ++ ++- "Len Errors". Number of length errors reported by SAR hardware. Incremented for received ++packets that are in excess of 1366 cells. ++ ++- "Abort Errors". Number of abort errors reported by SAR hardware. ++ ++- "Starv Errors". Number of buffer starvation errors reported by SAR hardware. Incremented ++when a part or all of a buffer cannot be received due to lack of RX buffer resources. The SAR ++drops all cells associated with the packet for each buffer starvation error that occurs. ++ ++*/ ++ ++/* register files */ ++#include "cp_sar_reg.h" ++ ++#define _CPHAL_AAL5 ++#define _CPHAL ++#define _CPPI_TEST /** @todo remove for release */ ++#define __CPHAL_CPPI_OFFSET /* support use of offset */ ++ ++/* OS Data Structure definitions */ ++ ++typedef void OS_PRIVATE; ++typedef void OS_DEVICE; ++typedef void OS_SENDINFO; ++typedef void OS_RECEIVEINFO; ++typedef void OS_SETUP; ++ ++/* CPHAL Data Structure definitions */ ++ ++typedef struct hal_device HAL_DEVICE; ++typedef struct hal_private HAL_PRIVATE; ++typedef struct hal_private HAL_RECEIVEINFO; ++ ++/* include CPHAL header files here */ ++#include "cpcommon_cpaal5.h" ++#include "cpswhal_cpaal5.h" ++#include "aal5sar.h" ++#include "cpcommon_cpaal5.c" ++ ++#define CR_SERVICE (170-1) ++#define UTOPIA_PAUSE_REG (*(volatile bit32u *)0xa4000000) ++ ++/* ++these masks are for the mode parameter used in halSend/OsReceive ++(may move these elsewhere) ++*/ ++#define CH_MASK 0xff ++#define PRI_MASK 0x10000 ++ ++/* Rcb/Tcb Constants */ ++#define CB_SOF_BIT (1<<31) ++#define CB_EOF_BIT (1<<30) ++#define CB_SOF_AND_EOF_BIT (CB_SOF_BIT|CB_EOF_BIT) ++#define CB_OWNERSHIP_BIT (1<<29) ++#define CB_EOQ_BIT (1<<28) ++#define CB_SIZE_MASK 0x0000ffff ++#define CB_OFFSET_MASK 0xffff0000 ++#define RCB_ERRORS_MASK 0x03fe0000 ++#define RX_ERROR_MASK 0x000f0000 ++#define CRC_ERROR_MASK 0x00010000 ++#define LENGTH_ERROR_MASK 0x00020000 ++#define ABORT_ERROR_MASK 0x00040000 ++#define STARV_ERROR_MASK 0x00080000 ++#define TEARDOWN_VAL 0xfffffffc ++ ++/* interrupt vector masks */ ++#define TXH_PEND 0x01000000 ++#define TXL_PEND 0x02000000 ++#define RX_PEND 0x04000000 ++#define STS_PEND 0x08000000 ++#define AAL2_PEND 0x10000000 ++#define INT_PENDING (TXH_PEND | TXL_PEND | RX_PEND | STS_PEND | AAL2_PEND) ++#define STS_PEND_INVEC 0x0001F000 ++#define RX_PEND_INVEC 0x00000F00 ++#define TXL_PEND_INVEC 0x000000F0 ++#define TXH_PEND_INVEC 0x0000000F ++#define AIS_SEG_MASK 0x1 /* +01.02.00 */ ++#define AIS_SEG_SHIFT 0 /* +01.02.00 */ ++#define AIS_ETOE_MASK 0x20000 /* +01.02.00 */ ++#define AIS_ETOE_SHIFT 17 /* +01.02.00 */ ++#define RDI_CNT_MASK 0xffff0000 /* +01.02.00 */ ++#define RDI_CNT_SHIFT 16 /* +01.02.00 */ ++ ++/* ++ * This function takes a vpi/vci pair and computes the 4 byte atm header ++ * (minus the HEC). ++ * ++ * @param vpi Virtual Path Identifier. ++ * @param vci Virtual Channel Identifier. ++ * ++ * @return A properly formatted ATM header, without the HEC. ++ */ ++static int atmheader(int gfc, int vpi, int vci, int pti, int clp) ++ { ++ int itmp; ++ ++ itmp=0; ++ ++ /* UNI Mode uses the GFC field */ ++ itmp |= ((gfc & 0xF) << 28); ++ itmp |= ((vpi & 0xFF) << 20); ++ ++ /* if NNI Mode, no gfc and larger VPI */ ++ /*itmp |= ((vpi & 0xFFF) << 20);*/ ++ ++ itmp|=((vci & 0xFFFF) << 4); ++ itmp|=((pti & 0x7) << 1); ++ itmp|=(clp & 0x1); ++ return(itmp); ++ } ++ ++#include "cppi_cpaal5.c" ++ ++/* ++ * Re-entrancy Issues ++ * In order to ensure successful re-entrancy certain sections of the ++ * CPHAL code will be bracketed as Critical. ++ * The OS will provide the function Os.CriticalSection(BOOL), which ++ * will be passed a TRUE to enter the Critical Section and FALSE to exit. ++ */ ++ ++/* ++ * @ingroup CPHAL_Functions ++ * Clears the statistics information. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * ++ * @return 0 OK, Non-zero not OK ++ */ ++static int StatsClear(HAL_DEVICE *HalDev) ++ { ++ int i; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[aal5]StatsClear(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* clear stats */ ++ for (i=0; i<NUM_AAL5_CHAN; i++) ++ { ++ HalDev->Stats.CrcErrors[i]=0; ++ HalDev->Stats.LenErrors[i]=0; ++ HalDev->Stats.DmaLenErrors[i]=0; ++ HalDev->Stats.AbortErrors[i]=0; ++ HalDev->Stats.StarvErrors[i]=0; ++ HalDev->Stats.TxMisQCnt[i][0]=0; ++ HalDev->Stats.TxMisQCnt[i][1]=0; ++ HalDev->Stats.RxMisQCnt[i]=0; ++ HalDev->Stats.RxEOQCnt[i]=0; ++ HalDev->Stats.TxEOQCnt[i][0]=0; ++ HalDev->Stats.TxEOQCnt[i][1]=0; ++ HalDev->Stats.RxPacketsServiced[i]=0; ++ HalDev->Stats.TxPacketsServiced[i][0]=0; ++ HalDev->Stats.TxPacketsServiced[i][1]=0; ++ HalDev->Stats.TxMaxServiced[i][0]=0; ++ HalDev->Stats.TxMaxServiced[i][1]=0; ++ } ++ HalDev->Stats.RxTotal=0; ++ HalDev->Stats.TxTotal=0; ++ HalDev->Stats.RxMaxServiced=0; ++ return (EC_NO_ERRORS); ++ } ++ ++/* ++ * Returns statistics information. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * ++ * @return 0 ++ */ ++/* ++static STAT_INFO* StatsGet(HAL_DEVICE *HalDev) ++ { ++ STAT_INFO* MyStats = &HalDev->Stats; ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[aal5]StatsGet(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ dbgPrintf("HAL Stats:\n"); ++ DispStat(HalDev, "Rx Total",MyStats->RxTotal); ++ DispStat(HalDev, "Tx Total",MyStats->TxTotal); ++ DispStat(HalDev, "Rx Peak",MyStats->RxMaxServiced); ++ DispStat(HalDev, "TxH Peak",MyStats->TxMaxServiced[0][0]); ++ DispStat(HalDev, "TxL Peak",MyStats->TxMaxServiced[0][1]); ++ DispChStat(HalDev, "CrcErr",&MyStats->CrcErrors[0],1); ++ DispChStat(HalDev, "LenErr",&MyStats->LenErrors[0],1); ++ DispChStat(HalDev, "DmaLenErr",&MyStats->DmaLenErrors[0],1); ++ DispChStat(HalDev, "AbortErr",&MyStats->AbortErrors[0],1); ++ DispChStat(HalDev, "StarvErr",&MyStats->StarvErrors[0],1); ++ DispChStat(HalDev, "TxH MisQ Cnt",&MyStats->TxMisQCnt[0][0],2); ++ DispChStat(HalDev, "TxL MisQ Cnt",&MyStats->TxMisQCnt[0][1],2); ++ DispChStat(HalDev, "Rx MisQ Cnt",&MyStats->RxMisQCnt[0],1); ++ DispChStat(HalDev, "Rx EOQ Cnt",&MyStats->RxEOQCnt[0],1); ++ DispChStat(HalDev, "TxH EOQ Cnt",&MyStats->TxEOQCnt[0][0],2); ++ DispChStat(HalDev, "TxL EOQ Cnt",&MyStats->TxEOQCnt[0][1],2); ++ DispChStat(HalDev, "Rx Pkts",&MyStats->RxPacketsServiced[0],1); ++ DispChStat(HalDev, "TxH Pkts",&MyStats->TxPacketsServiced[0][0],2); ++ DispChStat(HalDev, "TxL Pkts",&MyStats->TxPacketsServiced[0][1],2); ++ ++ return (&HalDev->Stats); ++ } ++*/ ++ ++#ifdef __CPHAL_DEBUG ++void dbgChannelConfigDump(HAL_DEVICE *HalDev, int Ch) ++ { ++ CHANNEL_INFO *HalCh = &HalDev->ChData[Ch]; ++ dbgPrintf(" [aal5 Inst %d, Ch %d] Config Dump:\n", HalDev->Inst, Ch); ++ dbgPrintf(" TxNumBuffers :%08d, TxNumQueues :%08d\n", ++ HalCh->TxNumBuffers, HalCh->TxNumQueues); ++ dbgPrintf(" RxNumBuffers :%08d, RxBufSize :%08d\n", ++ HalCh->RxNumBuffers, HalCh->RxBufSize); ++ dbgPrintf(" TxServiceMax :%08d, RxServiceMax:%08d\n", ++ HalCh->TxServiceMax, HalCh->RxServiceMax); ++ dbgPrintf(" RxBufferOffset:%08d, DaMask :%08d\n", ++ HalCh->RxBufferOffset, HalCh->DaMask); ++ dbgPrintf(" CpcsUU :%08d, Gfc :%08d\n", ++ HalCh->CpcsUU, HalCh->Gfc); ++ dbgPrintf(" Clp :%08d, Pti :%08d\n", ++ HalCh->Clp, HalCh->Pti); ++ dbgPrintf(" Priority :%08d, PktType :%08d\n", ++ HalCh->Priority, HalCh->PktType); ++ dbgPrintf(" Vci :%08d, Vpi :%08d\n", ++ HalCh->Vci, HalCh->Vpi); ++ dbgPrintf(" TxVc_CellRate :%08d, TxVc_QosType:%08d\n", ++ HalCh->TxVc_CellRate, HalCh->TxVc_QosType); ++ dbgPrintf(" TxVc_Mbs :%08d, TxVc_Pcr :%08d\n", ++ HalCh->TxVc_Mbs, HalCh->TxVc_Pcr); ++ dbgPrintf(" TxVc_AtmHeader:%08d\n", ++ HalCh->TxVc_AtmHeader); ++ osfuncSioFlush(); ++ } ++#endif ++ ++/* ++ * Retrieves channel parameters from configuration file. Any parameters ++ * which are not found are ignored, and the HAL default value will apply, ++ * unless a new value is given through the channel structure in the call ++ * to ChannelSetup. ++ */ ++static int ChannelConfigGet(HAL_DEVICE *HalDev, CHANNEL_INFO *HalChn) ++ { ++ unsigned int Ret, Value, Ch = HalChn->Channel; ++ OS_FUNCTIONS *OsFunc = HalDev->OsFunc; ++ void *ChInfo; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[aal5]ChannelConfigGet(HalDev:%08x, HalChn:%08x)\n", (bit32u)HalDev, ++ (bit32u)HalChn); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ Ret=OsFunc->DeviceFindParmValue(HalDev->DeviceInfo, channel_names[Ch], &ChInfo); ++ if (Ret) return (EC_AAL5|EC_FUNC_CHSETUP|EC_VAL_CH_INFO_NOT_FOUND); ++ ++ /* i don't care if a value is not found because they are optional */ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "TxNumBuffers", &Value); ++ if (!Ret) HalDev->ChData[Ch].TxNumBuffers = Value; ++ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "TxNumQueues", &Value); ++ if (!Ret) HalDev->ChData[Ch].TxNumQueues = Value; ++ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "TxServiceMax", &Value); ++ if (!Ret) HalDev->ChData[Ch].TxServiceMax = Value; ++ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "RxNumBuffers", &Value); ++ if (!Ret) HalDev->ChData[Ch].RxNumBuffers = Value; ++ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "RxBufferOffset", &Value); ++ if (!Ret) HalDev->ChData[Ch].RxBufferOffset = Value; ++ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "RxBufSize", &Value); ++ if (!Ret) HalDev->ChData[Ch].RxBufSize = Value; ++ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "RxServiceMax", &Value); ++ if (!Ret) HalDev->ChData[Ch].RxServiceMax = Value; ++ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "CpcsUU", &Value); ++ if (!Ret) HalDev->ChData[Ch].CpcsUU = Value; ++ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "Gfc", &Value); ++ if (!Ret) HalDev->ChData[Ch].Gfc = Value; ++ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "Clp", &Value); ++ if (!Ret) HalDev->ChData[Ch].Clp = Value; ++ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "Pti", &Value); ++ if (!Ret) HalDev->ChData[Ch].Pti = Value; ++ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "DaMask", &Value); ++ if (!Ret) HalDev->ChData[Ch].DaMask = Value; ++ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "Priority", &Value); ++ if (!Ret) HalDev->ChData[Ch].Priority = Value; ++ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "PktType", &Value); ++ if (!Ret) HalDev->ChData[Ch].PktType = Value; ++ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "Vci", &Value); ++ if (!Ret) HalDev->ChData[Ch].Vci = Value; ++ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "Vpi", &Value); ++ if (!Ret) HalDev->ChData[Ch].Vpi = Value; ++ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "TxVc_CellRate", &Value); ++ if (!Ret) HalDev->ChData[Ch].TxVc_CellRate = Value; ++ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "TxVc_QosType", &Value); ++ if (!Ret) HalDev->ChData[Ch].TxVc_QosType = Value; ++ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "TxVc_Mbs", &Value); ++ if (!Ret) HalDev->ChData[Ch].TxVc_Mbs = Value; ++ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "TxVc_Pcr", &Value); ++ if (!Ret) HalDev->ChData[Ch].TxVc_Pcr = Value; ++ ++ Ret=OsFunc->DeviceFindParmUint(ChInfo, "TxVc_AtmHeader", &Value); ++ if (!Ret) HalDev->ChData[Ch].TxVc_AtmHeader = Value; ++ ++ return (EC_NO_ERRORS); ++ } ++ ++/* ++ * Sets up channel parameters in the hardware, and initializes the CPPI ++ * TX and RX buffer descriptors and buffers. ++ */ ++static int ChannelConfigApply(HAL_DEVICE *HalDev, CHANNEL_INFO *HalChn) ++ { ++ int j, Ch = HalChn->Channel; ++ volatile bit32u *pTmp; ++ int Ret; /* +GSG 030410 */ ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[aal5]ChannelConfigApply(HalDev:%08x, HalChn:%08x)\n", (bit32u)HalDev, ++ (bit32u)HalChn); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ if ((HalDev->ChIsOpen[Ch][DIRECTION_TX] == TRUE) || (HalDev->ChIsOpen[Ch][DIRECTION_RX] == TRUE)) ++ { ++ return(EC_AAL5|EC_FUNC_CHSETUP|EC_VAL_CH_ALREADY_OPEN); ++ } ++ ++ HalDev->InRxInt[Ch]=FALSE; ++ ++ /* Initialize Queue Data */ ++ HalDev->RxActQueueHead[Ch]=0; ++ HalDev->RxActQueueCount[Ch]=0; ++ HalDev->TxActQueueHead[Ch][0]=0; ++ HalDev->TxActQueueHead[Ch][1]=0; ++ HalDev->TxActQueueCount[Ch][0]=0; ++ HalDev->TxActQueueCount[Ch][1]=0; ++ HalDev->RxActive[Ch] = FALSE; ++ HalDev->TxActive[Ch][0] = FALSE; ++ HalDev->TxActive[Ch][1] = FALSE; ++ ++ /* Clear Rx State RAM */ ++ pTmp = pRX_DMA_STATE_WORD_0(HalDev->dev_base) + (Ch*64); ++ for (j=0; j<NUM_RX_STATE_WORDS; j++) ++ *pTmp++ = 0; ++ ++ /* Check that Rx DMA State RAM was cleared */ ++ pTmp -= NUM_RX_STATE_WORDS; ++ for (j=0; j<NUM_RX_STATE_WORDS; j++) ++ { ++ if (*pTmp++ != 0) ++ { ++ return(EC_AAL5|EC_FUNC_CHSETUP|EC_VAL_RX_STATE_RAM_NOT_CLEARED); ++ } ++ } ++ ++ /* Clear Tx State RAM */ ++ pTmp = pTX_DMA_STATE_WORD_0(HalDev->dev_base) + (Ch*64); ++ for (j=0; j<NUM_TX_STATE_WORDS; j++) ++ *pTmp++ = 0; ++ ++ /* Check that Tx DMA State RAM was cleared */ ++ pTmp -= NUM_TX_STATE_WORDS; ++ for (j=0; j<NUM_TX_STATE_WORDS; j++) ++ { ++ if (*pTmp++ != 0) ++ { ++ return(EC_AAL5|EC_FUNC_CHSETUP|EC_VAL_TX_STATE_RAM_NOT_CLEARED); ++ } ++ } ++ ++ /* Initialize Tx State RAM (Nothing to do) */ ++ ++ /* Initialize Rx State RAM */ ++ /* Configure the Rx buffer offset */ ++ pTmp=(pRX_DMA_STATE_WORD_0(HalDev->dev_base) + (Ch*64)); ++ *pTmp |= (HalDev->ChData[Ch].RxBufferOffset & 0xFF); ++ ++ /* Initialize buffer memory for the channel */ ++ Ret = InitTcb(HalDev, Ch); ++ if (Ret) return (Ret); ++ ++ Ret = InitRcb(HalDev, Ch); ++ if (Ret) return (Ret); ++ ++ /* setup interrupt mask/enable for the channel */ ++ SAR_TX_MASK_SET(HalDev->dev_base) = (1<<Ch); ++ ++ /* if using the low priority queue, set up mask for it */ ++ if (HalDev->ChData[Ch].TxNumQueues == 2) /* +GSG 030421 */ ++ SAR_TX_MASK_SET(HalDev->dev_base) = (1<<Ch)<<16; /* +GSG 030421 */ ++ ++ SAR_RX_MASK_SET(HalDev->dev_base) = (1<<Ch); ++ ++ /* call SAR layer to complete the channel setup - hardware configuration of ch */ ++ Ret = HalDev->SarFunc->ChannelSetup(HalDev->SarDev, &HalDev->ChData[Ch]); /* ~GSG 030410 */ ++ if (Ret) /* +GSG 030410 */ ++ return (Ret); /* +GSG 030410 */ ++ ++ /* channel officially open for business */ ++ HalDev->ChIsOpen[Ch][DIRECTION_TX] = TRUE; ++ HalDev->ChIsOpen[Ch][DIRECTION_RX] = TRUE; ++ ++ return (EC_NO_ERRORS); ++ } ++ ++/* ++ * Sets up HAL default channel configuration parameter values. ++ */ ++static void ChannelConfigInit(HAL_DEVICE *HalDev, CHANNEL_INFO *HalChn) ++ { ++ int Ch = HalChn->Channel; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[aal5]ChannelConfigInit(HalDev:%08x, HalChn:%08x)\n", (bit32u)HalDev, ++ (bit32u)HalChn); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ HalDev->ChData[Ch].Channel = Ch; ++ HalDev->ChData[Ch].TxNumBuffers = cfg_tx_num_bufs[Ch]; ++ HalDev->ChData[Ch].RxNumBuffers = cfg_rx_num_bufs[Ch]; ++ HalDev->ChData[Ch].RxBufSize = cfg_rx_buf_size[Ch]; ++ HalDev->ChData[Ch].RxBufferOffset = cfg_rx_buf_offset[Ch]; ++ HalDev->ChData[Ch].TxNumQueues = cfg_tx_num_queues[Ch]; ++ HalDev->ChData[Ch].CpcsUU = cfg_cpcs_uu[Ch]; ++ HalDev->ChData[Ch].DaMask = cfg_da_mask[Ch]; ++ HalDev->ChData[Ch].Priority = cfg_priority[Ch]; ++ HalDev->ChData[Ch].PktType = cfg_pkt_type[Ch]; ++ HalDev->ChData[Ch].Vci = cfg_vci[Ch]; ++ HalDev->ChData[Ch].Vpi = cfg_vpi[Ch]; ++ HalDev->ChData[Ch].TxVc_CellRate = cfg_cell_rate[Ch]; ++ HalDev->ChData[Ch].TxVc_QosType = cfg_qos_type[Ch]; ++ HalDev->ChData[Ch].TxVc_Mbs = cfg_mbs[Ch]; ++ HalDev->ChData[Ch].TxVc_Pcr = cfg_pcr[Ch]; ++ HalDev->ChData[Ch].Gfc = cfg_gfc[Ch]; ++ HalDev->ChData[Ch].Clp = cfg_clp[Ch]; ++ HalDev->ChData[Ch].Pti = cfg_pti[Ch]; ++ HalDev->ChData[Ch].RxServiceMax = cfg_rx_max_service[Ch]; ++ HalDev->ChData[Ch].TxServiceMax = cfg_tx_max_service[Ch]; ++ } ++ ++/* ++ * Update per channel data in the HalDev based channel structure. ++ * If a certain channel parameter has been passed with the HAL_DEFAULT ++ * value (0xFFFFFFFF), then do not copy it. ++ */ ++static void ChannelConfigUpdate(HAL_DEVICE *HalDev, CHANNEL_INFO *HalChn) ++ { ++ int Ch = HalChn->Channel; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[aal5]ChannelConfigUpdate(HalDev:%08x, HalChn:%08x)\n", (bit32u)HalDev, ++ (bit32u)HalChn); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ HalDev->ChData[Ch].Channel = Ch; ++ ++ /* ChannelUpdate is a macro defined in cpcommon.h. It requires ++ the presence of the variables named 'Ch' and 'HalChn'.*/ ++ ChannelUpdate(DaMask); ++ ChannelUpdate(Priority); ++ ChannelUpdate(PktType); ++ ChannelUpdate(Vci); ++ ChannelUpdate(Vpi); ++ ChannelUpdate(CpcsUU); ++ ChannelUpdate(Gfc); ++ ChannelUpdate(Clp); ++ ChannelUpdate(Pti); ++ /* AAL5 Stuff */ ++ ChannelUpdate(TxNumBuffers); ++ ChannelUpdate(RxNumBuffers); ++ ChannelUpdate(RxBufSize); ++ ChannelUpdate(RxBufferOffset); ++ ChannelUpdate(TxNumQueues); ++ ChannelUpdate(TxServiceMax); ++ ChannelUpdate(RxServiceMax); ++ /* PDSP STATE RAM */ ++ ChannelUpdate(TxVc_CellRate); ++ ChannelUpdate(TxVc_QosType); ++ ChannelUpdate(TxVc_Mbs); ++ ChannelUpdate(TxVc_Pcr); ++ /* OAM */ ++ ChannelUpdate(TxVc_AtmHeader); ++ ChannelUpdate(TxVc_OamTc); ++ ChannelUpdate(TxVc_VpOffset); ++ ChannelUpdate(RxVc_OamCh); ++ ChannelUpdate(RxVc_OamToHost); ++ ChannelUpdate(RxVc_AtmHeader); ++ ChannelUpdate(RxVc_VpOffset); ++ ChannelUpdate(RxVc_OamTc); ++ ChannelUpdate(TxVp_AtmHeader); ++ ChannelUpdate(TxVp_OamTc); ++ ChannelUpdate(RxVp_AtmHeader); ++ ChannelUpdate(RxVp_OamCh); ++ ChannelUpdate(RxVp_OamTc); ++ ChannelUpdate(RxVp_OamToHost); ++ ChannelUpdate(RxVp_OamVcList); ++ ChannelUpdate(FwdUnkVc); ++ } ++ ++/** ++ * @ingroup CPHAL_Functions ++ * This function opens the specified channel. The caller must populate ++ * the @p HalCh structure. CPHAL default values may be requested for any or all ++ * members of the @p HalCh structure by supplying a value of 0xFFFFFFFF for the ++ * given member. The @p OsSetup parameter is a pointer to an OS defined ++ * data structure. If the CPHAL later calls @c MallocRxBuffer(), this pointer ++ * is returned in that call. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * @param HalCh Per channel information structure. Implementation specific. ++ * @param OsSetup Pointer to an OS-defined data structure. ++ * ++ * @return EC_NO_ERRORS (ok). <BR> ++ * Possible Error Codes:<BR> ++ * @ref EC_VAL_INVALID_STATE "EC_VAL_INVALID_STATE"<BR> ++ * @ref EC_VAL_NULL_CH_STRUCT "EC_VAL_NULL_CH_STRUCT"<BR> ++ * @ref EC_VAL_INVALID_CH "EC_VAL_INVALID_CH"<BR> ++ * @ref EC_VAL_CH_ALREADY_OPEN "EC_VAL_CH_ALREADY_OPEN"<BR> ++ * @ref EC_VAL_RX_STATE_RAM_NOT_CLEARED "EC_VAL_RX_STATE_RAM_NOT_CLEARED"<BR> ++ * @ref EC_VAL_TX_STATE_RAM_NOT_CLEARED "EC_VAL_TX_STATE_RAM_NOT_CLEARED"<BR> ++ * @ref EC_VAL_TCB_MALLOC_FAILED "EC_VAL_TCB_MALLOC_FAILED"<BR> ++ * @ref EC_VAL_RCB_MALLOC_FAILED "EC_VAL_RCB_MALLOC_FAILED"<BR> ++ * @ref EC_VAL_RX_BUFFER_MALLOC_FAILED "EC_VAL_RX_BUFFER_MALLOC_FAILED"<BR> ++ * @ref EC_VAL_LUT_NOT_READY "EC_VAL_LUT_NOT_READY"<BR> ++ */ ++static int halChannelSetup(HAL_DEVICE *HalDev, CHANNEL_INFO *HalCh, OS_SETUP *OsSetup) ++ { ++ int Ch, Ret; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[aal5]halChannelSetup(HalDev:%08x, HalCh:%08x, OsSetup:%08x)\n", (bit32u)HalDev, ++ (bit32u)HalCh, (bit32u)OsSetup); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* Verify proper device state */ ++ if (HalDev->State < enInitialized) ++ return (EC_AAL5|EC_FUNC_CHSETUP|EC_VAL_INVALID_STATE); ++ ++ /* We require the channel structure to be passed, even if it only contains ++ the channel number */ ++ if (HalCh == NULL) ++ { ++ return(EC_AAL5|EC_FUNC_CHSETUP|EC_VAL_NULL_CH_STRUCT); ++ } ++ ++ Ch = HalCh->Channel; ++ ++ if ((Ch < 0) || (Ch > MAX_AAL5_CHAN)) ++ { ++ return(EC_AAL5|EC_FUNC_CHSETUP|EC_VAL_INVALID_CH); ++ } ++ ++ /* if channel is already open, this call is invalid */ ++ if ((HalDev->ChIsOpen[Ch][DIRECTION_TX] == TRUE) || (HalDev->ChIsOpen[Ch][DIRECTION_RX] == TRUE)) ++ { ++ return(EC_AAL5|EC_FUNC_CHSETUP|EC_VAL_CH_ALREADY_OPEN); ++ } ++ ++ /* channel is closed, but might be setup. If so, reopen the hardware channel. */ ++ if ((HalDev->ChIsSetup[Ch][DIRECTION_TX] == FALSE) && (HalDev->ChIsSetup[Ch][DIRECTION_RX] == FALSE)) ++ { ++ /* Setup channel configuration */ ++ /* Store OS_SETUP */ ++ HalDev->ChData[Ch].OsSetup = OsSetup; /* ~GSG 030508 */ ++ ++ /* setup HAL default values for this channel first */ ++ ChannelConfigInit(HalDev, HalCh); ++ ++ /* retrieve options.conf channel parameters */ ++ /* currently ignoring return value, making the choice that it's okay if ++ the user does not supply channel configuration in the data store */ ++ ChannelConfigGet(HalDev, HalCh); ++ ++ /* update HalDev with data given in HalCh */ ++ ChannelConfigUpdate(HalDev, HalCh); ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(8)) ++ { ++ dbgChannelConfigDump(HalDev, Ch); ++ } ++#endif ++ ++ /* HalDev->ChIsSetup[Ch][0] = TRUE; */ ++ HalDev->ChIsSetup[Ch][DIRECTION_TX] = TRUE; ++ HalDev->ChIsSetup[Ch][DIRECTION_RX] = TRUE; ++ ++ /* I don't initialize RcbStart or TcbStart here because their values may be ++ reused across several Setup/Teardown calls */ ++ } ++ ++ /* If the hardware has been opened (is out of reset), then configure the channel ++ in the hardware. NOTE: ChannelConfigApply calls the CPSAR ChannelSetup()! */ ++ if (HalDev->State == enOpened) ++ { ++ Ret = ChannelConfigApply(HalDev, HalCh); ++ if (Ret) return (Ret); ++ } ++ ++ return (EC_NO_ERRORS); ++ } ++ ++/* ++ * This function configures the rate at which the OAM timer scheduler ++ * channels will be scheduled. The value of OamRate is the number of ++ * clock ticks between cell transmissions (if OAM function is sourcing ++ * cells), or the number of clock ticks between events or absence of events ++ * (if OAM function is sinking cells). The value of i indicates ++ * which OAM function to apply the rate to. A list is given below. ++ * ++ * @par Oam Function Values ++ * - 0 : Loopback source ++ * - 1 : F4 CC source ++ * - 2 : F5 CC source ++ * - 3 : F4 CC sink ++ * - 4 : F5 CC sink ++ * - 5 : F4 TX AIS source ++ * - 6 : F5 TX AIS source ++ * - 7 : F4 RX RDI source ++ * - 8 : F5 RX RDI source ++ * - 9 : F4 AIS monitor ++ * - 10 : F5 AIS monitor ++ * ++ * The following is information on how to calculate the OAM rate. There ++ * is only one OAM timer that is shared among all channels. Therefore, if ++ * you wanted an OAM source function (ex. F4 CC source) to generate 1 cell/sec ++ * across 8 channels, you would need to configure the OAM timer to schedule 8 ++ * cells/sec. In addition, the credits are shared between segment and end-to-end ++ * type OAM cells, so if you were sending both types of cells, you would ++ * need to configure the OAM timer for 16 cells/sec. However, the clock ++ * rate must be specified in clock ticks between events. Using an example ++ * clock rate of 125 MHz, the rate in clock ticks can be calculated by ++ * dividing 125 Mhz by 16 cells/sec. The results is 7812500 ticks. Thus, ++ * every 7812500 clock cycles, an OAM cell will be generated for the F4 CC ++ * Source function. ++ */ ++static void OamRateConfig(HAL_DEVICE *HalDev) ++ { ++ int i; ++ bit32u OamRate, Freq = HalDev->SarFrequency; ++ ++ /* Configure OAM Timer State Block */ ++ for (i=0; i<NUM_OAM_RATES; i++) ++ { ++ switch(i) ++ { ++ case 0: OamRate = ((Freq/1000)*HalDev->OamLbTimeout); ++ break; ++ case 1: ++ case 2: ++ case 5: ++ case 6: ++ case 7: ++ case 8: OamRate = (Freq/38); ++ break; ++ case 3: ++ case 4: OamRate = ((Freq*3) + (Freq/2))/38; ++ break; ++ case 9: ++ case 10: OamRate = ((Freq*2) + (Freq/2))/38; ++ break; ++ default: OamRate = (Freq*5); ++ break; ++ } ++ ++ *(pOAM_TIMER_STATE_WORD_0(HalDev->dev_base) + (i*64) + 1) = OamRate; ++ } ++ } ++ ++/** ++ * @ingroup AAL5_Functions ++ * This function is used to enable OAM functions (other than loopback) for a ++ * particular channel. The channel (embedded within OamConfig - see below) must ++ * have been configured for firmware OAM (not host OAM) for these configurations ++ * to take effect. More than one function may be enabled at one time. ++ * If more than one function is enabled, they must all be of the same level, all ++ * F4(VP) or all F5(VC). ++ * ++ * The usage of the OamConfig parameter is described through the table below. To ++ * initiate firmware OAM, set one or more bits in OamConfig corresponding to the ++ * various OAM functions. To disable firmware OAM functions, set bit 30 along ++ * with any other combination of bits to shutdown various OAM functions at once. ++ * ++ * Acronyms: ++ * e2e - end to end, seg - segment, CC - continuity check, ++ * AIS - Alarm Indication Signal ++ * ++ * @par Bit: Function: Description ++ * - 31: Reserved: ++ * - 30: Setup/Teardown: 0 - enable, 1 - disable (Note 1) ++ * - 29: F4 CC Source seg: 0 - no action, 1 - configure ++ * - 28: F4 CC Source e2e: 0 - no action, 1 - configure ++ * - 27: F4 AIS Source seg: 0 - no action, 1 - configure ++ * - 26: F4 AIS Source e2e: 0 - no action, 1 - configure ++ * - 25: F5 CC Source seg: 0 - no action, 1 - configure ++ * - 24: F5 CC Source e2e: 0 - no action, 1 - configure ++ * - 23: F5 AIS Source seg: 0 - no action, 1 - configure ++ * - 22: F5 AIS Source e2e: 0 - no action, 1 - configure ++ * - 21: F4 CC Sink seg: 0 - no action, 1 - configure ++ * - 20: F4 CC Sink e2e: 0 - no action, 1 - configure ++ * - 19: F5 CC Sink seg: 0 - no action, 1 - configure ++ * - 18: F5 CC Sink e2e: 0 - no action, 1 - configure ++ * - 17:8: Reserved: ++ * - 7:0: Channel: AAL5/AAL2 VC/VP channel (Note 2) ++ * ++ * ++ * Note 1: This bit must be clear to enable the specified OAM function. ++ * Note 2: This must specify the VC channel for F5 functions, and the VP ++ * channel for F4 functions. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * @param OamConfig A 32-bit integer field defined as follows: ++ */ ++static void halOamFuncConfig(HAL_DEVICE *HalDev, unsigned int OamConfig) ++ { ++ /* GPR 0 */ ++ SAR_PDSP_HOST_OAM_CONFIG_REG(HalDev->dev_base) = OamConfig; ++ } ++ ++/** ++ * @ingroup AAL5_Functions ++ * This function is used to enable OAM loopback functions for a particular ++ * channel. The channel (embedded within OamConfig - see below) must have been ++ * configured for firmware OAM (not host OAM) for these configurations to take ++ * effect. Only one loopback function can be enabled at a time. ++ * ++ * The LLID is inserted into to the OAM cell's LLID field, and it specifies the ++ * LLID of the connection point in the network where the generated loopback cell ++ * should be turned around. The LLID is composed of 4 32-bit words, and this ++ * function expects the caller to pass an array of 4 words in the LLID field. ++ * The CorrelationTag is a 32-bit word that the PDSP uses to correlate loopback ++ * commands with loopback responses. It should simply be changed for each ++ * call, and there is no restriction on the value used for CorrelationTag. ++ * ++ * The usage of the OamConfig parameter is described through the table below. To ++ * initiate firmware OAM, set one of the bits corresponding to the ++ * various loopback OAM functions. Note that only one loopback source may be ++ * commanded at a time. ++ * ++ * Acronyms: ++ * e2e - end to end, seg - segment, LB - loopback ++ * ++ * @par Bit: Function: Description ++ * - 31:16: Reserved: ++ * - 15: F4 LB Source seg: 0 - no action, 1 - configure (Note 1) ++ * - 14: F4 LB Source seg: 0 - no action, 1 - configure (Note 1) ++ * - 13: F4 LB Source e2e: 0 - no action, 1 - configure (Note 1) ++ * - 12: F4 LB Source e2e: 0 - no action, 1 - configure (Note 1) ++ * - 11:8: Reserved: ++ * - 7:0: Channel: AAL5/AAL2 VC/VP channel (Note 2) ++ * ++ * ++ * Note 1: Only one LB function may be enabled at one time. Once enabled, ++ * the PDSP will time out after 5 seconds. The host must wait until it ++ * has received the result of the current LB request before initiating ++ * a new request. <BR> ++ * Note 2: This must specify the VC channel for F5 functions, and the VP ++ * channel for F4 functions. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * @param OamConfig A 32-bit integer field defined as follows: ++ * @param LLID Loopback Location Identifier (passed as 4 word array). ++ * Must be configured in big endian format. ++ * @param CorrelationTag 32-bit tag correlates loopback commands with loopback ++ * responses. Must be configured in big endian format. ++ * ++ */ ++static void halOamLoopbackConfig(HAL_DEVICE *HalDev, unsigned int OamConfig, unsigned int *LLID, unsigned int CorrelationTag) ++ { ++ volatile bit32u *tmp; ++ ++ /* test to see if this is a loopback command */ ++ if (OamConfig & 0xf000) ++ { ++ /* write the OAM correlation tag (GPR 1) */ ++ SAR_PDSP_OAM_CORR_REG(HalDev->dev_base) = CorrelationTag; ++ ++ /* write the LLID */ ++ tmp = pOAM_CONFIG_BLOCK_WORD_0(HalDev->dev_base); ++ ++ /* advance past the CPID */ ++ tmp += 4; ++ ++ *tmp++ = LLID[0]; ++ *tmp++ = LLID[1]; ++ *tmp++ = LLID[2]; ++ *tmp = LLID[3]; ++ ++ /* GPR 0 */ ++ SAR_PDSP_HOST_OAM_CONFIG_REG(HalDev->dev_base) = OamConfig; ++ } ++ } ++ ++/* ++ * This function allows the host software to access any register directly. ++ * Primarily used for debug. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * @param RegOffset Hexadecimal offset to desired register (from device base addr) ++ * ++ * @return Volatile pointer to desired register. ++ */ ++static volatile bit32u* halRegAccess(HAL_DEVICE *HalDev, bit32u RegOffset) ++ { ++ /* compute the register address */ ++ return ((volatile bit32u *)(HalDev->dev_base + RegOffset)); ++ } ++ ++#ifdef __CPHAL_DEBUG ++static void dbgConfigDump(HAL_DEVICE *HalDev) ++ { ++ dbgPrintf(" AAL5 Inst %d Config Dump:\n", HalDev->Inst); ++ dbgPrintf(" Base :%08x, offset:%08d\n", ++ HalDev->dev_base, HalDev->offset); ++ dbgPrintf(" Interrupt:%08d, debug :%08d\n", ++ HalDev->interrupt, HalDev->debug); ++ osfuncSioFlush(); ++ } ++#endif ++ ++/** ++ * @ingroup CPHAL_Functions ++ * Performs a variety of control functions on the CPHAL module. It is used to ++ * modify/read configuration parameters and to initiate internal functions. ++ * The @p Key indicates the function to perform or the parameter to access (note ++ * that these Keys are identical to those used in accessing the configuration data ++ * store). @p Action is applicable to parameters only, and indicates what the ++ * CPHAL should do with the parameter (i.e. "Set", "Get", etc..). The actions ++ * for each parameter are defined in the module specific documentation. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * @param Key Key specifying the parameter to change or internal function to initiate. See module specific documentation for available keys. ++ * @param Action Specifies the action to take. See module specific documentation for available actions. ++ * @param Value Pointer to new value for given @p Key parameter ("Set"), or returned value of Key ("Get"). ++ * ++ * @return EC_NO_ERRORS (ok).<BR> ++ * Possible Error Codes:<BR> ++ * @ref EC_VAL_INVALID_STATE "EC_VAL_INVALID_STATE"<BR> ++ * @ref EC_VAL_KEY_NOT_FOUND "EC_VAL_KEY_NOT_FOUND"<BR> ++ * @ref EC_VAL_ACTION_NOT_FOUND "EC_VAL_ACTION_NOT_FOUND"<BR> ++ */ ++static int halControl(HAL_DEVICE *HalDev, const char *Key, const char *Action, void *Value) ++ { ++ int Level, Ch, KeyFound=0, ActionFound=0, rc=EC_NO_ERRORS, Queue; ++ char *TmpKey = (char *)Key; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[aal5]halControl(HalDev:%08x, Key:%s, Action:%s, Value:%08x)\n", (bit32u)HalDev, ++ Key, Action, (bit32u)Value); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* Verify proper device state */ ++ if (HalDev->State < enInitialized) ++ return (EC_AAL5|EC_FUNC_CONTROL|EC_VAL_INVALID_STATE); ++ ++ if (HalDev->OsFunc->Strcmpi(Key, "Debug") == 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ HalDev->debug = *(int *)Value; ++ /* also setup debug variable in CPSAR module */ ++ rc = HalDev->SarFunc->Control(HalDev->SarDev, "Debug", "Set", Value); ++ } ++ } ++ ++ if (HalDev->OsFunc->Strstr(Key, "FwdUnkVc.") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("FwdUnkVc."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ HalDev->ChData[Ch].FwdUnkVc = *(int *)Value; ++ ++ if ((HalDev->State == enOpened) && (HalDev->ChData[Ch].PktType == 3)) ++ rc = HalDev->SarFunc->Control(HalDev->SarDev, Key, Action, Value); ++ } ++ } ++ ++ /* +GSG 030407 */ ++ if (HalDev->OsFunc->Strcmpi(Key, "OamMode") == 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ rc = HalDev->SarFunc->Control(HalDev->SarDev, Key, Action, Value); ++ } ++ ++ if (HalDev->OsFunc->Strcmpi(Action, "Get") == 0) ++ { ++ ActionFound=1; ++ rc = HalDev->SarFunc->Control(HalDev->SarDev, Key, Action, Value); ++ } ++ } ++ ++ /* +GSG 030307 */ ++ if (HalDev->OsFunc->Strcmpi(Key, "Version") == 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Get") == 0) ++ { ++ ActionFound=1; ++ *(const char **)Value = pszVersion_CPAAL5; ++ } ++ } ++ ++ /* +GSG 030529 */ ++ if (HalDev->OsFunc->Strcmpi(Key, "TurboDslErrors") == 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Get") == 0) ++ { ++ ActionFound=1; ++ *(int *)Value = HalDev->TurboDslErrors; ++ } ++ } ++ ++ /* +GSG 030416 */ ++ if (HalDev->OsFunc->Strcmpi(Key, "F4_LB_Counter") == 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Get") == 0) ++ { ++ ActionFound=1; ++ *(int *)Value = SAR_PDSP_OAM_F4_LB_COUNT_REG(HalDev->dev_base); ++ } ++ } ++ ++ /* +GSG 030416 */ ++ if (HalDev->OsFunc->Strcmpi(Key, "F5_LB_Counter") == 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Get") == 0) ++ { ++ ActionFound=1; ++ *(int *)Value = SAR_PDSP_OAM_F5_LB_COUNT_REG(HalDev->dev_base); ++ } ++ } ++ ++ if (HalDev->OsFunc->Strstr(Key, "Stats;") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Get") == 0) ++ { ++ ActionFound=1; ++ TmpKey += HalDev->OsFunc->Strlen("Stats;"); ++ Level = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ TmpKey++; ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ TmpKey++; ++ Queue = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ TmpKey++; ++ StatsGet(HalDev, (void **)Value, Level, Ch, Queue); ++ } ++ } ++ ++ /* +GSG 030306 */ ++ /* Fixes PITS #100 */ ++ if (HalDev->OsFunc->Strstr(Key, "Gfc.") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("Gfc."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ /* first, store new value in our channel structure */ ++ HalDev->ChData[Ch].Gfc = *(int *)Value; ++ } ++ } ++ ++ /* +GSG 030306 */ ++ /* Fixes PITS #100 */ ++ if (HalDev->OsFunc->Strstr(Key, "Clp.") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("Clp."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ /* first, store new value in our channel structure */ ++ HalDev->ChData[Ch].Clp = *(int *)Value; ++ } ++ } ++ ++ /* +GSG 030306 */ ++ /* Fixes PITS #100 */ ++ if (HalDev->OsFunc->Strstr(Key, "Pti.") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("Pti."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ /* first, store new value in our channel structure */ ++ HalDev->ChData[Ch].Pti = *(int *)Value; ++ } ++ } ++ ++ /* +GSG 030306 */ ++ /* Fixes PITS #100 */ ++ if (HalDev->OsFunc->Strstr(Key, "CpcsUU.") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("CpcsUU."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ /* first, store new value in our channel structure */ ++ HalDev->ChData[Ch].CpcsUU = *(int *)Value; ++ } ++ } ++ ++ /* +GSG 030306 */ ++ /* Fixes PITS #100 */ ++ if (HalDev->OsFunc->Strstr(Key, "TxVc_CellRate.") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("TxVc_CellRate."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ /* first, store new value in our channel structure */ ++ HalDev->ChData[Ch].TxVc_CellRate = *(int *)Value; ++ ++ /* now, apply to PDSP state RAM */ ++ if (HalDev->State == enOpened) ++ *(pPDSP_AAL5_TX_STATE_WORD_0(HalDev->dev_base)+(Ch*64))= HalDev->ChData[Ch].TxVc_CellRate; ++ } ++ } ++ ++ /* +GSG 030306 */ ++ /* Fixes PITS #100 */ ++ if (HalDev->OsFunc->Strstr(Key, "TxVc_Mbs.") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("TxVc_Mbs."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ /* first, store new value in our channel structure */ ++ HalDev->ChData[Ch].TxVc_Mbs = *(int *)Value; ++ ++ /* now, apply to PDSP state RAM */ ++ if (HalDev->State == enOpened) ++ *(pPDSP_AAL5_TX_STATE_WORD_0(HalDev->dev_base)+(Ch*64)+2)= HalDev->ChData[Ch].TxVc_Mbs; ++ } ++ } ++ ++ if (HalDev->OsFunc->Strstr(Key, "TxVc_AtmHeader.") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("TxVc_AtmHeader."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ /* first, store new value in our channel structure */ ++ HalDev->ChData[Ch].TxVc_AtmHeader = *(int *)Value; ++ ++ /* now, apply to PDSP state RAM */ ++ if (HalDev->State == enOpened) ++ *(pPDSP_AAL5_TX_STATE_WORD_0(HalDev->dev_base)+(Ch*64)+6)= HalDev->ChData[Ch].TxVc_AtmHeader; ++ } ++ } ++ ++ if (HalDev->OsFunc->Strstr(Key, "TxVp_AtmHeader.") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("TxVp_AtmHeader."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ /* first, store new value in our channel structure */ ++ HalDev->ChData[Ch].TxVp_AtmHeader = *(int *)Value; ++ ++ /* now, apply to PDSP state RAM */ ++ if (HalDev->State == enOpened) ++ *(pPDSP_AAL5_TX_VP_STATE_WORD_0(HalDev->dev_base)+(Ch*64))= HalDev->ChData[Ch].TxVp_AtmHeader; ++ } ++ } ++ ++ /* +GSG 030306 */ ++ /* Fixes PITS #100 */ ++ if (HalDev->OsFunc->Strstr(Key, "TxVc_Pcr.") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("TxVc_Pcr."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ /* first, store new value in our channel structure */ ++ HalDev->ChData[Ch].TxVc_Pcr = *(int *)Value; ++ ++ /* now, apply to PDSP state RAM */ ++ if (HalDev->State == enOpened) ++ *(pPDSP_AAL5_TX_STATE_WORD_0(HalDev->dev_base)+(Ch*64)+4)= HalDev->ChData[Ch].TxVc_Pcr; ++ } ++ } ++ ++ /* +GSG 030428 */ ++ if (HalDev->OsFunc->Strstr(Key, "RxVc_OamCh.") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("RxVc_OamCh."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ /* first, store new value in our channel structure */ ++ HalDev->ChData[Ch].RxVc_OamCh = (*(int *)Value) & 0xff; ++ ++ /* now, apply to PDSP state RAM */ ++ if (HalDev->State == enOpened) ++ *(pPDSP_AAL5_RX_STATE_WORD_0(HalDev->dev_base)+(Ch*64)) |= HalDev->ChData[Ch].RxVc_OamCh; ++ } ++ } ++ ++ /* +GSG 030428 */ ++ if (HalDev->OsFunc->Strstr(Key, "RxVp_OamCh.") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("RxVp_OamCh."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ /* first, store new value in our channel structure */ ++ HalDev->ChData[Ch].RxVp_OamCh = (*(int *)Value) & 0xff; ++ ++ /* now, apply to PDSP state RAM */ ++ if (HalDev->State == enOpened) ++ *(pPDSP_AAL5_RX_VP_STATE_WORD_0(HalDev->dev_base)+(Ch*64)+1) |= HalDev->ChData[Ch].RxVp_OamCh; ++ } ++ } ++ ++ /* +GSG 030304 */ ++ /* Fixes PITS #98 */ ++ if (HalDev->OsFunc->Strstr(Key, "PdspEnable") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ ++ /* this variable is controlled by the CPSAR module */ ++ if (HalDev->State == enOpened) ++ { ++ rc=HalDev->SarFunc->Control(HalDev->SarDev, "PdspEnable", "Set", Value); ++ } ++ } ++ } ++ ++ if (HalDev->OsFunc->Strstr(Key, "OamLbTimeout") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ ++ HalDev->OamLbTimeout = *(int *)Value; ++ /* this variable is controlled by the CPSAR module */ ++ if (HalDev->State == enOpened) ++ { ++ *(pOAM_TIMER_STATE_WORD_0(HalDev->dev_base) + 1) = ++ ((HalDev->SarFrequency/1000) * HalDev->OamLbTimeout); ++ } ++ } ++ } ++ ++ /* +GSG 030306 (PITS #114) */ ++ if (HalDev->OsFunc->Strstr(Key, "DeviceCPID") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ unsigned int* local = (unsigned int *)Value; ++ ActionFound=1; ++ /* first, store new value in our hal structure */ ++ HalDev->DeviceCPID[0] = local[0]; ++ HalDev->DeviceCPID[1] = local[1]; ++ HalDev->DeviceCPID[2] = local[2]; ++ HalDev->DeviceCPID[3] = local[3]; ++ ++ /* now, apply to PDSP state RAM */ ++ if (HalDev->State == enOpened) ++ { ++ *(bit32u *)(pOAM_CONFIG_BLOCK_WORD_0(HalDev->dev_base) + 0) = HalDev->DeviceCPID[0]; ++ *(bit32u *)(pOAM_CONFIG_BLOCK_WORD_0(HalDev->dev_base) + 1) = HalDev->DeviceCPID[1]; ++ *(bit32u *)(pOAM_CONFIG_BLOCK_WORD_0(HalDev->dev_base) + 2) = HalDev->DeviceCPID[2]; ++ *(bit32u *)(pOAM_CONFIG_BLOCK_WORD_0(HalDev->dev_base) + 3) = HalDev->DeviceCPID[3]; ++ } ++ } ++ } ++ ++ /* +GSG 030304 */ ++ /* Fixes PITS #99 */ ++ if (HalDev->OsFunc->Strstr(Key, "StrictPriority") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ ++ /* used in halOpen to decide which interrupt handler to use */ ++ HalDev->StrictPriority = *(int *)Value; ++ } ++ } ++ ++ if (HalDev->OsFunc->Strstr(Key, hcMaxFrags) != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ ++ if ((*(int *)Value) > 0) ++ HalDev->MaxFrags = *(int *)Value; ++ else ++ rc = (EC_AAL5|EC_FUNC_CONTROL|EC_VAL_INVALID_VALUE); ++ } ++ ++ if (HalDev->OsFunc->Strcmpi(Action, "Get") == 0) ++ { ++ ActionFound=1; ++ ++ *(int *)Value = HalDev->MaxFrags; ++ } ++ } ++ ++ /* +GSG 030306 */ ++ /* Fixes PITS #103 */ ++ if (HalDev->OsFunc->Strstr(Key, "RxVc_RDICount.") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Get") == 0) ++ { ++ ActionFound=1; ++ ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("RxVc_RDICount."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ /* PDSP's Rx VC State word 3 contains the value */ ++ if (HalDev->State == enOpened) ++ { ++ *(int *)Value = (((*(pPDSP_AAL5_RX_STATE_WORD_0(HalDev->dev_base)+(Ch*64))) & RDI_CNT_MASK)>>RDI_CNT_SHIFT); ++ } ++ } ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("RxVc_RDICount."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ /* All sets write 0, this action is a clear only */ ++ if (HalDev->State == enOpened) ++ { ++ (*(pPDSP_AAL5_RX_STATE_WORD_0(HalDev->dev_base)+(Ch*64))) &=~ RDI_CNT_MASK; ++ } ++ } ++ } ++ ++ /* +GSG 030306 */ ++ /* Fixes PITS #103 */ ++ if (HalDev->OsFunc->Strstr(Key, "RxVc_AISseg.") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Get") == 0) ++ { ++ ActionFound=1; ++ ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("RxVc_AISseg."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ /* PDSP's Rx VC State word 3 contains the value */ ++ if (HalDev->State == enOpened) ++ { ++ *(int *)Value = (((*(pPDSP_AAL5_RX_STATE_WORD_0(HalDev->dev_base)+(Ch*64)+3)) & AIS_SEG_MASK)>>AIS_SEG_SHIFT); ++ } ++ } ++ } ++ ++ /* +GSG 030306 */ ++ /* Fixes PITS #103 */ ++ if (HalDev->OsFunc->Strstr(Key, "RxVc_AISetoe.") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Get") == 0) ++ { ++ ActionFound=1; ++ ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("RxVc_AISetoe."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ /* PDSP's Rx VC State word 3 contains the value */ ++ if (HalDev->State == enOpened) ++ { ++ *(int *)Value = (((*(pPDSP_AAL5_RX_STATE_WORD_0(HalDev->dev_base)+(Ch*64)+3)) & AIS_ETOE_MASK)>>AIS_ETOE_SHIFT); ++ } ++ } ++ } ++ ++ /* +GSG 030306 */ ++ /* Fixes PITS #103 */ ++ if (HalDev->OsFunc->Strstr(Key, "RxVp_RDICount.") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Get") == 0) ++ { ++ ActionFound=1; ++ ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("RxVp_RDICount."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ /* PDSP's Rx VC State word 3 contains the value */ ++ if (HalDev->State == enOpened) ++ { ++ *(int *)Value = (((*(pPDSP_AAL5_RX_VP_STATE_WORD_0(HalDev->dev_base)+(Ch*64)+1)) & RDI_CNT_MASK)>>RDI_CNT_SHIFT); ++ } ++ } ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("RxVp_RDICount."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ /* All sets write 0, this action is a clear only */ ++ if (HalDev->State == enOpened) ++ { ++ (*(pPDSP_AAL5_RX_VP_STATE_WORD_0(HalDev->dev_base)+(Ch*64)+1)) &=~ RDI_CNT_MASK; ++ } ++ } ++ } ++ ++ /* +GSG 030306 */ ++ /* Fixes PITS #103 */ ++ if (HalDev->OsFunc->Strstr(Key, "RxVp_AISseg.") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Get") == 0) ++ { ++ ActionFound=1; ++ ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("RxVp_AISseg."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ /* PDSP's Rx VC State word 3 contains the value */ ++ if (HalDev->State == enOpened) ++ { ++ *(int *)Value = (((*(pPDSP_AAL5_RX_VP_STATE_WORD_0(HalDev->dev_base)+(Ch*64)+2)) & AIS_SEG_MASK)>>AIS_SEG_SHIFT); ++ } ++ } ++ } ++ ++ /* +GSG 030306 */ ++ /* Fixes PITS #103 */ ++ if (HalDev->OsFunc->Strstr(Key, "RxVp_AISetoe.") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Get") == 0) ++ { ++ ActionFound=1; ++ ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("RxVp_AISetoe."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ /* PDSP's Rx VC State word 3 contains the value */ ++ if (HalDev->State == enOpened) ++ { ++ *(int *)Value = (((*(pPDSP_AAL5_RX_VP_STATE_WORD_0(HalDev->dev_base)+(Ch*64)+2)) & AIS_ETOE_MASK)>>AIS_ETOE_SHIFT); ++ } ++ } ++ } ++ ++ if (KeyFound == 0) ++ rc = (EC_AAL5|EC_FUNC_CONTROL|EC_VAL_KEY_NOT_FOUND); ++ ++ if (ActionFound == 0) ++ rc = (EC_AAL5|EC_FUNC_CONTROL|EC_VAL_ACTION_NOT_FOUND); ++ ++ return(rc); ++ } ++ ++/* ++ * Sets up HAL default configuration parameter values. ++ */ ++static void ConfigInit(HAL_DEVICE *HalDev) ++ { ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[aal5]ConfigInit(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* configure some defaults with tnetx7300 values */ ++ HalDev->dev_base = 0xa3000000; ++ HalDev->offset = 0; ++ HalDev->interrupt = 15; ++ HalDev->debug = 0; ++ HalDev->MaxFrags = 46; ++ HalDev->OamLbTimeout = 5000; ++ } ++ ++/* ++ * Retrieve HAL configuration parameter values. ++ */ ++static bit32u ConfigGet(HAL_DEVICE *HalDev) ++ { ++ bit32u Ret; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[aal5]ConfigGet(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* get the configuration parameters common to all modules */ ++ Ret = ConfigGetCommon(HalDev); ++ if (Ret) return (EC_AAL5|Ret); ++ ++ /* get AAL5 specific configuration parameters here */ ++ Ret = HalDev->OsFunc->Control(HalDev->OsDev, hcSarFrequency, pszGET, &HalDev->SarFrequency); /* GSG +030416*/ ++ if (Ret) /* GSG +030416*/ ++ HalDev->SarFrequency = 200000000; /* 200 Mhz default */ /* GSG +030416*/ ++ ++ return (EC_NO_ERRORS); ++ } ++ ++/** ++ * @ingroup CPHAL_Functions ++ * This function initializes the CPHAL module. It gathers all ++ * necessary global configuration info from the configuration file, and ++ * performs initialization and configuration of the device. Note that ++ * the device operation is not started until the OS calls @c Open(). ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * ++ * @return EC_NO_ERRORS (ok). <BR> ++ * Possible Error Codes:<BR> ++ * @ref EC_VAL_INVALID_STATE "EC_VAL_INVALID_STATE"<BR> ++ * @ref EC_VAL_BASE_ADDR_NOT_FOUND "EC_VAL_BASE_ADDR_NOT_FOUND"<BR> ++ * @ref EC_VAL_RESET_BIT_NOT_FOUND "EC_VAL_RESET_BIT_NOT_FOUND"<BR> ++ * @ref EC_VAL_INTERRUPT_NOT_FOUND "EC_VAL_INTERRUPT_NOT_FOUND"<BR> ++ * @ref EC_VAL_OFFSET_NOT_FOUND "EC_VAL_OFFSET_NOT_FOUND"<BR> ++ */ ++static int halInit(HAL_DEVICE *HalDev) ++ { ++ int i; ++ bit32u error_code; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[aal5]halInit(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* Verify proper device state */ ++ if (HalDev->State != enDevFound) ++ return(EC_AAL5|EC_FUNC_HAL_INIT|EC_VAL_INVALID_STATE); ++ ++ /* Configure HAL defaults */ ++ ConfigInit(HalDev); ++ ++ /* Retrieve HAL configuration parameters from data store */ ++ error_code = ConfigGet(HalDev); ++ if (error_code) return (error_code); ++ ++ /* Other items (OAM related) that need to be passed in somehow */ ++ HalDev->DeviceCPID[0] = 0xffffffff; ++ HalDev->DeviceCPID[1] = 0xffffffff; ++ HalDev->DeviceCPID[2] = 0xffffffff; ++ HalDev->DeviceCPID[3] = 0xffffffff; ++ HalDev->LBSourceLLID[0] = 0xffffffff; ++ HalDev->LBSourceLLID[1] = 0xffffffff; ++ HalDev->LBSourceLLID[2] = 0xffffffff; ++ HalDev->LBSourceLLID[3] = 0xffffffff; ++ ++ /* Initialize SAR layer*/ ++ error_code = HalDev->SarFunc->Init(HalDev->SarDev); ++ if (error_code) return (error_code); ++ ++ /* Initialize various HalDev members. This is probably overkill, since these ++ are initialized in ChannelSetup() and HalDev is cleared in InitModule(). */ ++ for (i=0; i<NUM_AAL5_CHAN; i++) ++ { ++ HalDev->InRxInt[i]=FALSE; ++ HalDev->ChIsOpen[i][DIRECTION_TX] = FALSE; ++ HalDev->ChIsOpen[i][DIRECTION_RX] = FALSE; ++ HalDev->TcbStart[i][0] = 0; ++ HalDev->TcbStart[i][1] = 0; ++ HalDev->RcbStart[i] = 0; ++ } ++ ++ /* initialize SAR stats */ ++ StatsClear(HalDev); ++ ++ /* init Stat pointers */ ++ ++ /* even though these statistics may be for multiple channels/queues, i need ++ only configure the pointer to the beginning of the array, and I can index ++ from there if necessary */ ++ StatsTable0[0].StatPtr = &HalDev->Stats.CrcErrors[0]; ++ StatsTable0[1].StatPtr = &HalDev->Stats.LenErrors[0]; ++ StatsTable0[2].StatPtr = &HalDev->Stats.AbortErrors[0]; ++ StatsTable0[3].StatPtr = &HalDev->Stats.StarvErrors[0]; ++ ++ StatsTable1[0].StatPtr = &HalDev->Stats.DmaLenErrors[0]; ++ StatsTable1[1].StatPtr = &HalDev->Stats.TxMisQCnt[0][0]; ++ StatsTable1[2].StatPtr = &HalDev->Stats.RxMisQCnt[0]; ++ StatsTable1[3].StatPtr = &HalDev->Stats.TxEOQCnt[0][0]; ++ StatsTable1[4].StatPtr = &HalDev->Stats.RxEOQCnt[0]; ++ StatsTable1[5].StatPtr = &HalDev->Stats.RxPacketsServiced[0]; ++ StatsTable1[6].StatPtr = &HalDev->Stats.TxPacketsServiced[0][0]; ++ StatsTable1[7].StatPtr = &HalDev->Stats.RxMaxServiced; ++ StatsTable1[8].StatPtr = &HalDev->Stats.TxMaxServiced[0][0]; ++ StatsTable1[9].StatPtr = &HalDev->Stats.RxTotal; ++ StatsTable1[10].StatPtr = &HalDev->Stats.TxTotal; ++ ++ StatsTable2[0].StatPtr = (bit32u *)&HalDev->RcbPool[0]; ++ StatsTable2[1].StatPtr = &HalDev->RxActQueueCount[0]; ++ StatsTable2[2].StatPtr = (bit32u *)&HalDev->RxActQueueHead[0]; ++ StatsTable2[3].StatPtr = (bit32u *)&HalDev->RxActQueueTail[0]; ++ StatsTable2[4].StatPtr = &HalDev->RxActive[0]; ++ StatsTable2[5].StatPtr = (bit32u *)&HalDev->RcbStart[0]; ++ StatsTable2[6].StatPtr = &HalDev->RxTeardownPending[0]; ++ StatsTable2[7].StatPtr = (bit32u *)&HalDev->TcbPool[0][0]; ++ StatsTable2[8].StatPtr = &HalDev->TxActQueueCount[0][0]; ++ StatsTable2[9].StatPtr = (bit32u *)&HalDev->TxActQueueHead[0][0]; ++ StatsTable2[10].StatPtr = (bit32u *)&HalDev->TxActQueueTail[0][0]; ++ StatsTable2[11].StatPtr = &HalDev->TxActive[0][0]; ++ StatsTable2[12].StatPtr = (bit32u *)&HalDev->TcbStart[0][0]; ++ StatsTable2[13].StatPtr = &HalDev->TxTeardownPending[0]; ++ ++ StatsTable4[0].StatPtr = &HalDev->dev_base; ++ StatsTable4[1].StatPtr = &HalDev->offset; ++ StatsTable4[2].StatPtr = &HalDev->interrupt; ++ StatsTable4[3].StatPtr = &HalDev->debug; ++ StatsTable4[4].StatPtr = &HalDev->Inst; ++ ++ StatsTable3[0].StatPtr = &HalDev->ChData[0].RxBufSize; ++ StatsTable3[1].StatPtr = &HalDev->ChData[0].RxBufferOffset; ++ StatsTable3[2].StatPtr = &HalDev->ChData[0].RxNumBuffers; ++ StatsTable3[3].StatPtr = &HalDev->ChData[0].RxServiceMax; ++ StatsTable3[4].StatPtr = &HalDev->ChData[0].TxNumBuffers; ++ StatsTable3[5].StatPtr = &HalDev->ChData[0].TxNumQueues; ++ StatsTable3[6].StatPtr = &HalDev->ChData[0].TxServiceMax; ++ StatsTable3[7].StatPtr = &HalDev->ChData[0].CpcsUU; ++ StatsTable3[8].StatPtr = &HalDev->ChData[0].Gfc; ++ StatsTable3[9].StatPtr = &HalDev->ChData[0].Clp; ++ StatsTable3[10].StatPtr = &HalDev->ChData[0].Pti; ++ StatsTable3[11].StatPtr = &HalDev->ChData[0].DaMask; ++ StatsTable3[12].StatPtr = &HalDev->ChData[0].Priority; ++ StatsTable3[13].StatPtr = &HalDev->ChData[0].PktType; ++ StatsTable3[14].StatPtr = &HalDev->ChData[0].Vci; ++ StatsTable3[15].StatPtr = &HalDev->ChData[0].Vpi; ++ StatsTable3[16].StatPtr = &HalDev->ChData[0].TxVc_CellRate; ++ StatsTable3[17].StatPtr = &HalDev->ChData[0].TxVc_QosType; ++ StatsTable3[18].StatPtr = &HalDev->ChData[0].TxVc_Mbs; ++ StatsTable3[19].StatPtr = &HalDev->ChData[0].TxVc_Pcr; ++ ++ /* update device state */ ++ HalDev->State = enInitialized; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(9)) ++ dbgConfigDump(HalDev); ++#endif ++ ++ return(EC_NO_ERRORS); ++ } ++ ++/* ++ * Use this function to actually send after queuing multiple packets using ++ * Send(). This is a debug only function that should be removed - it was ++ * necessary to properly implement my loopback tests. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * @param Queue Queue number to kick. ++ * ++ * @return 0 OK, Non-Zero Not OK ++ */ ++static int halKick(HAL_DEVICE *HalDev, int Queue) ++ { ++ int Ch; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[aal5]halKick(HalDev:%08x. Queue:%d)\n", (bit32u)HalDev, Queue); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ for (Ch = 0; Ch < 16; Ch ++) ++ { ++ if ((!HalDev->TxActive[Ch][Queue]) && (HalDev->TxActQueueHead[Ch][Queue] != 0)) ++ { ++ *(pTX_DMA_STATE_WORD_0(HalDev->dev_base)+(Ch*64)+Queue)= ++ VirtToPhys(HalDev->TxActQueueHead[Ch][Queue]); ++ HalDev->TxActive[Ch][Queue]=TRUE; ++ } ++ } ++ ++ return (EC_NO_ERRORS); ++ } ++ ++/* +GSG 030305 For PITS #99 ++ * Alternate interrupt handler that uses the INT_VECTOR in order to ++ * provide strict priority handling among channels, beginning with Ch 0. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * @param MoreWork (Output) When set to 1, indicates that there is more work to do. ++ * Caller should ensure that the value pointed at is set to 0 ++ * prior to the call. ++ * @return 0 OK, non-zero error. ++ */ ++static int DeviceIntAlt(HAL_DEVICE *HalDev, int *MoreWork) ++ { ++ int tmp, Ch, WorkFlag; ++ bit32u rc; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[aal5]DeviceIntAlt(HalDev:%08x, MoreWork:%08x)\n", (bit32u)HalDev, (bit32u)MoreWork); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* Verify proper device state - important because a call prior to Open would ++ result in a lockup */ ++ if (HalDev->State != enOpened) ++ return(EC_AAL5|EC_FUNC_DEVICE_INT_ALT|EC_VAL_INVALID_STATE); ++ ++ if ((tmp=SAR_INTR_VECTOR(HalDev->dev_base))&INT_PENDING) ++ { ++ /*printf("\015 %d RxQ",HalDev->RxActQueueCount[0]); ++ HalDev->OsFunc->Control(HalDev->OsDev, enSIO_FLUSH, enNULL, 0); */ ++ ++ if (tmp&TXH_PEND) ++ { ++ /* decide which channel to service */ ++ Ch = (SAR_INTR_VECTOR(HalDev->dev_base) & TXH_PEND_INVEC); ++ ++ rc = TxInt(HalDev,Ch,0,&WorkFlag); ++ if (rc) return (rc); ++ ++ if (WorkFlag == 1) ++ *MoreWork = 1; ++ } ++ ++ if (tmp&TXL_PEND) ++ { ++ /* decide which channel to service */ ++ Ch = ((SAR_INTR_VECTOR(HalDev->dev_base) & TXL_PEND_INVEC) >> 4); ++ ++ rc = TxInt(HalDev,Ch,1,&WorkFlag); ++ if (rc) return (rc); ++ ++ if (WorkFlag == 1) ++ *MoreWork = 1; ++ } ++ ++ if (tmp&RX_PEND) ++ { ++ /* decide which channel to service */ ++ Ch = ((SAR_INTR_VECTOR(HalDev->dev_base) & RX_PEND_INVEC) >> 8); ++ ++ rc = RxInt(HalDev,Ch,&WorkFlag); ++ if (rc) return (rc); ++ ++ if (WorkFlag == 1) ++ *MoreWork = 1; ++ } ++ ++ if (tmp&STS_PEND) ++ { ++ /* GPR 2 code added for PITS 103 */ ++ /* determine interrupt source */ ++ Ch = ((SAR_INTR_VECTOR(HalDev->dev_base) & STS_PEND_INVEC) >> 12); ++ ++ /* only if this is GPR 2 interrupt do we take action */ ++ if (Ch == 26) ++ { ++ /* pass loopback result back to OS */ ++ HalDev->OsFunc->Control(HalDev->OsDev, "OamLbResult", "Set", ++ (bit32u *)pSAR_PDSP_OAM_LB_RESULT_REG(HalDev->dev_base)); ++ } ++ ++ /* clear the interrupt */ ++ SAR_STATUS_CLR_REG(HalDev->dev_base) |= 0x04000000; ++ } ++ ++ if (tmp&AAL2_PEND) ++ { ++ /* no action defined */ ++ } ++ ++ SAR_INTR_VECTOR(HalDev->dev_base) = 0; ++ } ++ ++ return (EC_NO_ERRORS); ++ } ++ ++/* ++ * Called to service a module interrupt. This function determines ++ * what type of interrupt occurred and dispatches the correct handler. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * @param MoreWork (Output) When set to 1, indicates that there is more work to do. ++ * Caller should ensure that the value pointed at is set to 0 ++ * prior to the call. ++ * @return 0 OK, non-zero error. ++ */ ++static int DeviceInt(HAL_DEVICE *HalDev, int *MoreWork) ++ { ++ /*static int NextRxCh=0; ++ static int NextTxCh[2]={0,0};*/ ++ ++ int tmp, Ch, FirstCh, WorkFlag; ++ int NextTxLCh, NextTxHCh, NextRxCh; ++ bit32u rc; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[aal5]DeviceInt(HalDev:%08x, MoreWork:%08x)\n", (bit32u)HalDev, (bit32u)MoreWork); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* Verify proper device state - important because a call prior to Open would ++ result in a lockup */ ++ if (HalDev->State != enOpened) ++ return(EC_AAL5|EC_FUNC_DEVICE_INT|EC_VAL_INVALID_STATE); ++ ++ NextTxHCh = HalDev->NextTxCh[0]; ++ NextTxLCh = HalDev->NextTxCh[1]; ++ NextRxCh = HalDev->NextRxCh; ++ ++ /* service interrupts while there is more work to do */ ++ /*while (((tmp=SAR_INTR_VECTOR(HalDev->dev_base))&INT_PENDING) && (TotalPkts < 500))*/ ++ if ((tmp=SAR_INTR_VECTOR(HalDev->dev_base))&INT_PENDING) ++ { ++ /*printf("\015 %d RxQ",HalDev->RxActQueueCount[0]); ++ HalDev->OsFunc->Control(HalDev->OsDev, enSIO_FLUSH, enNULL, 0); */ ++ ++ if (tmp&TXH_PEND) ++ { ++ /* decide which channel to service */ ++ FirstCh = NextTxHCh; ++ while (1) ++ { ++ Ch = NextTxHCh++; ++ if (NextTxHCh == 16) ++ NextTxHCh = 0; ++ if (SAR_TX_MASKED_STATUS(HalDev->dev_base) & (1<<Ch)) ++ break; ++ if (FirstCh == NextTxHCh) ++ { ++ /* we checked every channel and still haven't found anything to do */ ++ return (EC_AAL5|EC_FUNC_DEVICE_INT|EC_VAL_NO_TXH_WORK_TO_DO); ++ } ++ } ++ ++ rc = TxInt(HalDev,Ch,0,&WorkFlag); ++ if (rc) return (rc); ++ ++ if (WorkFlag == 1) ++ *MoreWork = 1; ++ } ++ ++ if (tmp&TXL_PEND) ++ { ++ /* decide which channel to service */ ++ FirstCh = NextTxLCh; ++ while (1) ++ { ++ Ch = NextTxLCh++; ++ if (NextTxLCh == 16) ++ NextTxLCh = 0; ++ if (SAR_TX_MASKED_STATUS(HalDev->dev_base) & (1<<(Ch+16))) ++ break; ++ if (FirstCh == NextTxLCh) ++ { ++ /* we checked every channel and still haven't found anything to do */ ++ return (EC_AAL5|EC_FUNC_DEVICE_INT|EC_VAL_NO_TXL_WORK_TO_DO); ++ } ++ } ++ ++ rc = TxInt(HalDev,Ch,1,&WorkFlag); ++ if (rc) return (rc); ++ ++ if (WorkFlag == 1) ++ *MoreWork = 1; ++ } ++ ++ if (tmp&RX_PEND) ++ { ++ FirstCh = NextRxCh; ++ while (1) ++ { ++ Ch = NextRxCh++; ++ if (NextRxCh == 16) ++ NextRxCh = 0; ++ if (SAR_RX_MASKED_STATUS(HalDev->dev_base) & (1 << Ch)) ++ break; /* found a channel to service */ ++ if (FirstCh == NextRxCh) ++ { ++ /* we checked every channel and still haven't found anything to do */ ++ return (EC_AAL5|EC_FUNC_DEVICE_INT|EC_VAL_NO_RX_WORK_TO_DO); ++ } ++ } ++ ++ rc = RxInt(HalDev,Ch, &WorkFlag); ++ if (rc) return (rc); ++ ++ if (WorkFlag == 1) ++ *MoreWork = 1; ++ } ++ ++ if (tmp&STS_PEND) ++ { ++ /* +GSG 030305 */ ++ /* GPR 2 code added for PITS 103 */ ++ /* determine interrupt source */ ++ Ch = ((SAR_INTR_VECTOR(HalDev->dev_base) & STS_PEND_INVEC) >> 12); ++ ++ /* only if this is GPR 2 interrupt do we take action */ ++ if (Ch == 26) ++ { ++ /* pass loopback result back to OS */ ++ HalDev->OsFunc->Control(HalDev->OsDev, "OamLbResult", "Set", ++ (bit32u *)pSAR_PDSP_OAM_LB_RESULT_REG(HalDev->dev_base)); ++ } ++ ++ /* clear the interrupt */ ++ SAR_STATUS_CLR_REG(HalDev->dev_base) |= 0x04000000; ++ } ++ ++ if (tmp&AAL2_PEND) ++ { ++ /* no action defined */ ++ } ++ ++ SAR_INTR_VECTOR(HalDev->dev_base) = 0; ++ } ++ ++ HalDev->NextTxCh[0] = NextTxHCh; ++ HalDev->NextTxCh[1] = NextTxLCh; ++ HalDev->NextRxCh = NextRxCh; ++ ++ /* This must be done by the upper layer */ ++ /* SAR_EOI(HalDev->dev_base) = 0; */ ++ ++ return (EC_NO_ERRORS); ++ } ++ ++/** ++ * @ingroup CPHAL_Functions ++ * This function starts the operation of the CPHAL device. It takes the device ++ * out of reset, and calls @c IsrRegister(). This function should be called after ++ * calling the @c Init() function. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * ++ * @return EC_NO_ERRORS (ok).<BR> ++ * Possible Error Codes:<BR> ++ * @ref EC_VAL_INVALID_STATE "EC_VAL_INVALID_STATE"<BR> ++ * @ref EC_VAL_KEY_NOT_FOUND "EC_VAL_KEY_NOT_FOUND"<BR> ++ * @ref EC_VAL_FIRMWARE_TOO_LARGE "EC_VAL_FIRMWARE_TOO_LARGE"<BR> ++ * @ref EC_VAL_PDSP_LOAD_FAIL "EC_VAL_PDSP_LOAD_FAIL"<BR> ++ * @ref EC_VAL_RX_STATE_RAM_NOT_CLEARED "EC_VAL_RX_STATE_RAM_NOT_CLEARED"<BR> ++ * @ref EC_VAL_TX_STATE_RAM_NOT_CLEARED "EC_VAL_TX_STATE_RAM_NOT_CLEARED"<BR> ++ * @ref EC_VAL_TCB_MALLOC_FAILED "EC_VAL_TCB_MALLOC_FAILED"<BR> ++ * @ref EC_VAL_RCB_MALLOC_FAILED "EC_VAL_RCB_MALLOC_FAILED"<BR> ++ * @ref EC_VAL_RX_BUFFER_MALLOC_FAILED "EC_VAL_RX_BUFFER_MALLOC_FAILED"<BR> ++ * @ref EC_VAL_LUT_NOT_READY "EC_VAL_LUT_NOT_READY"<BR> ++ */ ++static int halOpen(HAL_DEVICE *HalDev) ++ { ++ int i,Ret; ++ bit32 SarBase = HalDev->dev_base; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[aal5]halOpen(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* Verify proper device state */ ++ if (HalDev->State < enInitialized) ++ return (EC_AAL5|EC_FUNC_OPEN|EC_VAL_INVALID_STATE); ++ ++ /* Open the SAR (this brings the whole device out of reset */ ++ Ret = HalDev->SarFunc->Open(HalDev->SarDev); /* ~GSG 030410 */ ++ if (Ret) /* +GSG 030410 */ ++ return (Ret); /* +GSG 030410 */ ++ ++ /* Change device state */ ++ HalDev->State = enOpened; ++ ++ ++#ifdef __CPHAL_DEBUG ++ /* print out the version information */ ++ if (DBG(7)) ++ { ++ dbgPrintf("[aal5 halOpen()]Module ID(AAL5-CPSAR):%d, Version:%2d.%02d\n", ++ (SAR_ID_REG(SarBase)&0xffff0000)>>16, ++ (SAR_ID_REG(SarBase)&0xff00)>>8, ++ SAR_ID_REG(SarBase)&0xff); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* GREG 11/1/02: The State RAM clearing code was previously in cpsar.c, ++ directly after device reset. I moved it here because I believe it is ++ AAL5 specific code. Also the MAX_CHAN was set to 19 in cpsar.c, which ++ would have caused this code to clear too much memory! */ ++ ++ /* NOTE: State RAM must be cleared prior to initializing the PDSP!! */ ++ ++ /* GSG 030416: Removed all of this. All PDSP State RAM is cleared ++ in CPSAR Open(). On Close(), all channels are torndown, thus all ++ AAL5 channel state RAM is cleared. */ ++ ++ /* Clear Rx State RAM */ ++ /*for (i=0; i<NUM_AAL5_CHAN; i++) ++ for (j=0; j<NUM_RX_STATE_WORDS; j++) ++ *(pRX_DMA_STATE_WORD_0(SarBase) + (i*64) + j) = 0; */ ++ ++ /* Check that Rx DMA State RAM was cleared */ ++ /*for (i=0; i<NUM_AAL5_CHAN; i++) ++ for (j=0; j<NUM_RX_STATE_WORDS; j++) ++ { ++ if (*(pRX_DMA_STATE_WORD_0(SarBase) + (i*64) + j) != 0) ++ { ++ return(EC_AAL5|EC_FUNC_HAL_INIT|EC_VAL_RX_STATE_RAM_NOT_CLEARED); ++ } ++ }*/ ++ ++ /* Clear Tx State RAM */ ++ /*for (i=0; i<NUM_AAL5_CHAN; i++) ++ for (j=0; j<NUM_TX_STATE_WORDS; j++) ++ { ++ *(pTX_DMA_STATE_WORD_0(SarBase) + (i*64) + j) = 0; ++ }*/ ++ ++ /* Check that Tx DMA State RAM was cleared */ ++ /*for (i=0; i<NUM_AAL5_CHAN; i++) ++ for (j=0; j<NUM_TX_STATE_WORDS; j++) ++ { ++ if (*(pTX_DMA_STATE_WORD_0(SarBase) + (i*64) + j) != 0) ++ { ++ return(EC_AAL5|EC_FUNC_HAL_INIT|EC_VAL_TX_STATE_RAM_NOT_CLEARED); ++ } ++ }*/ ++ ++ /* GSG +030523 Malloc space for the Rx fraglist */ ++ HalDev->fraglist = HalDev->OsFunc->Malloc(HalDev->MaxFrags * sizeof(FRAGLIST)); ++ ++ /* For any channels that have been pre-initialized, set them up now */ ++ for (i=0; i<NUM_AAL5_CHAN; i++) ++ { ++ if ((HalDev->ChIsSetup[i][0]==TRUE) && (HalDev->ChIsOpen[i][0]==FALSE)) ++ { ++ CHANNEL_INFO HalChn; ++ HalChn.Channel = i; ++ Ret = ChannelConfigApply(HalDev, &HalChn); ++ if (Ret) return (Ret); ++ } ++ } ++ ++ /* OAM code would be a candidate to go into ConfigApply */ ++ ++ /* Configure OAM Timer State Block */ ++ OamRateConfig(HalDev); /* +GSG 030416 */ ++ ++ /* Setup OAM Configuration Block */ ++ for (i=0; i<8; i++) /* ~GSG 030603 4->8 */ ++ { ++ if (i < 4) ++ *(pOAM_CONFIG_BLOCK_WORD_0(SarBase) + i) = HalDev->DeviceCPID[i]; ++ else ++ *(pOAM_CONFIG_BLOCK_WORD_0(SarBase) + i) = HalDev->LBSourceLLID[i-4]; ++ } ++ ++ /* Setup OAM Padding Block */ ++ for (i=0; i<12; i++) ++ { ++ *(pOAM_PADDING_BLOCK_WORD_0(SarBase) + i) = ((i==11)?0x6a6a0000:0x6a6a6a6a); ++ } ++ ++ /* Enable Tx CPPI DMA */ ++ TX_CPPI_CTL_REG(HalDev->dev_base) = 1; ++ ++ /* Enable Rx CPPI DMA */ ++ RX_CPPI_CTL_REG(HalDev->dev_base) = 1; ++ ++ /* +GSG 030306 */ ++ /* Fix for PITS 103 */ ++ /* Enable Host Interrupt for GPR 2 (OAM LB result register) */ ++ SAR_HOST_INT_EN_SET_REG(HalDev->dev_base) |= 0x04000000; ++ ++ /* +GSG 030304 to fix PITS 99 (if block is new)*/ ++ if (HalDev->StrictPriority == 1) ++ { ++#ifdef __CPHAL_DEBUG ++ if (DBG(1)) ++ { ++ dbgPrintf("[aal5->os]IsrRegister(OsDev:%08x, halIsr:%08x, Interrupt:%d)\n", ++ (bit32u)HalDev->OsDev, (bit32u)DeviceIntAlt, HalDev->interrupt); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* "register" the interrupt handler */ ++ HalDev->OsFunc->IsrRegister(HalDev->OsDev, DeviceIntAlt, HalDev->interrupt); ++ } ++ else /* +GSG 030306 */ ++ { /* +GSG 030306 */ ++#ifdef __CPHAL_DEBUG ++ if (DBG(1)) ++ { ++ dbgPrintf("[aal5->os]IsrRegister(OsDev:%08x, halIsr:%08x, Interrupt:%d)\n", ++ (bit32u)HalDev->OsDev, (bit32u)DeviceInt, HalDev->interrupt); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* "register" the interrupt handler */ ++ HalDev->OsFunc->IsrRegister(HalDev->OsDev, DeviceInt, HalDev->interrupt); ++ } /* +GSG 030306 */ ++ ++ return(EC_NO_ERRORS); ++ } ++ ++/** ++ * @ingroup CPHAL_Functions ++ * Called to retrigger the interrupt mechanism after packets have been ++ * processed. Call this function when the HalISR function indicates that ++ * there is no more work to do. Proper use of this function will guarantee ++ * that interrupts are never missed. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * ++ * @return EC_NO_ERRORS (ok). <BR> ++ */ ++static int halPacketProcessEnd(HAL_DEVICE *HalDev) ++ { ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[aal5]halPacketProcessEnd(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ SAR_EOI(HalDev->dev_base) = 0; ++ return (EC_NO_ERRORS); ++ } ++ ++/** ++ * @ingroup CPHAL_Functions ++ * This function probes for the instance of the CPHAL module. It will call ++ * the OS function @c DeviceFindInfo() to get the information required. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * ++ * @return EC_NO_ERRORS (ok). <BR> ++ * Possible Error Codes:<BR> ++ * @ref EC_VAL_INVALID_STATE "EC_VAL_INVALID_STATE"<BR> ++ * @ref EC_VAL_DEVICE_NOT_FOUND "EC_VAL_DEVICE_NOT_FOUND"<BR> ++ */ ++static int halProbe(HAL_DEVICE *HalDev) ++ { ++ int Ret; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[aal5]halProbe(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* Verify hardware state is "enConnected */ ++ if (HalDev->State != enConnected) ++ return (EC_AAL5|EC_FUNC_PROBE|EC_VAL_INVALID_STATE); ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(1)) ++ { ++ dbgPrintf("[aal5->os]DeviceFindInfo(Inst:%d, DeviceName:%s, DeviceInfo:%08x)\n", ++ HalDev->Inst, "aal5", (bit32u)&HalDev->DeviceInfo); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* Attempt to find the device information */ ++ Ret = HalDev->OsFunc->DeviceFindInfo(HalDev->Inst, "aal5", &HalDev->DeviceInfo); ++ if (Ret) ++ return(EC_AAL5|EC_FUNC_PROBE|EC_VAL_DEVICE_NOT_FOUND); ++ ++ /* Call Probe for supporting CPSAR layer */ ++ Ret = HalDev->SarFunc->Probe(HalDev->SarDev); ++ if (Ret) ++ return(Ret); ++ ++ /* Set device state to DevFound */ ++ HalDev->State = enDevFound; ++ ++ return(EC_NO_ERRORS); ++ } ++ ++/** ++ * @ingroup CPHAL_Functions ++ * This function shuts down the CPHAL module completely. The caller must call ++ * Close() to put the device in reset prior shutting down. This call will free ++ * the HalDev and the HAL function pointer structure, effectively ending ++ * communications between the driver and the CPHAL. Further use of the module ++ * must be initiated by a call to xxxInitModule(), which starts the entire process ++ * over again. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * ++ * @return EC_NO_ERRORS (ok). <BR> ++ * Possible Error Codes:<BR> ++ * Any error code from halClose().<BR> ++ */ ++static int halShutdown(HAL_DEVICE *HalDev) ++ { ++ int Ch, Queue; /*GSG+030514*/ ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[aal5]halShutdown(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* Verify proper device state */ ++ if (HalDev->State == enOpened) ++ halClose(HalDev, 3); /*GSG+030429*/ ++ ++ /* Buffer/descriptor resources may still need to be freed if a Close ++ Mode 1 was performed prior to Shutdown - clean up here */ /*GSG+030514*/ ++ for (Ch=0; Ch<NUM_AAL5_CHAN; Ch++) ++ { ++ if (HalDev->RcbStart[Ch] != 0) ++ FreeRx(HalDev,Ch); ++ ++ for(Queue=0; Queue<MAX_QUEUE; Queue++) ++ { ++ if (HalDev->TcbStart[Ch][Queue] != 0) ++ FreeTx(HalDev,Ch,Queue); ++ } ++ } ++ ++ /* shutdown the CPSAR layer */ ++ HalDev->SarFunc->Shutdown(HalDev->SarDev); ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(6)) ++ { ++ dbgPrintf(" [aal5 halShutdown()]Free AAL5 function pointers\n"); ++ osfuncSioFlush(); ++ } ++ if (DBG(1)||DBG(3)) ++ { ++ dbgPrintf("[aal5->os]Free(MemPtr:%08x)\n", (bit32u)HalDev->HalFuncPtr); ++ osfuncSioFlush(); ++ } ++#endif ++ /* free the HalFunc */ ++ HalDev->OsFunc->Free(HalDev->HalFuncPtr); ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(6)) ++ { ++ dbgPrintf(" [aal5 halShutdown]Free HalDev\n"); ++ osfuncSioFlush(); ++ } ++ if (DBG(1)||DBG(3)) ++ { ++ dbgPrintf("[aal5->os]Free(MemPtr:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ /* free the HAL device */ ++ HalDev->OsFunc->FreeDev(HalDev); ++ ++ return(EC_NO_ERRORS); ++ } ++ ++/** ++ * @ingroup CPHAL_Functions ++ * Used to perform regular checks on the device. This function should be ++ * called at a regular interval specified by the @c Tick parameter. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * ++ * @return EC_NO_ERRORS (ok).<BR> ++ * Possible Error Codes:<BR> ++ * @ref EC_VAL_INVALID_STATE "EC_VAL_INVALID_STATE"<BR> ++ */ ++static int halTick(HAL_DEVICE *HalDev) ++ { ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[aal5]halTick(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ if (HalDev->State != enOpened) ++ return(EC_AAL5|EC_FUNC_TICK|EC_VAL_INVALID_STATE); ++ ++ return(EC_NO_ERRORS); ++ } ++ ++/** ++ * @ingroup CPHAL_Functions ++ * ++ * This function will: ++ * -# allocate a HalDev that will be used by the OS for future communications with the device ++ * -# save OsDev for use when calling OS functions ++ * -# allocate and populate HalFunc with the addresses of CPHAL functions. ++ * -# check OsFuncSize to see if it meets the minimum requirement. ++ * -# return the size of the HAL_FUNCTIONS structure through the HalFuncSize pointer. The OS ++ * should check this value to ensure that the HAL meets its minimum requirement. ++ * ++ * Version checking between the OS and the CPHAL is done using the OsFuncSize and ++ * HalFuncSize. Future versions of the CPHAL may add new functions to either ++ * HAL_FUNCTIONS or OS_FUNCTIONS, but will never remove functionality. This enables ++ * both the HAL and OS to check the size of the function structure to ensure that ++ * the current OS and CPHAL are compatible. ++ * ++ * Note: This is the only function exported by a CPHAL module. ++ * ++ * Please refer to the section "@ref hal_init" for example code. ++ * ++ * @param HalDev Pointer to pointer to CPHAL module information. This will ++ * be used by the OS when communicating to this module via ++ * CPHAL. Allocated during the call. ++ * @param OsDev Pointer to OS device information. This will be saved by ++ * the CPHAL and returned to the OS when required. ++ * @param HalFunc Pointer to pointer to structure containing function pointers for all CPHAL ++ * interfaces. Allocated during the call. ++ * @param OsFunc Pointer to structure containing function pointers for all OS ++ * provided interfaces. Must be allocated by OS prior to call. ++ * @param OsFuncSize Size of OS_FUNCTIONS structure. ++ * @param HalFuncSize Pointer to the size of the HAL_FUNCTIONS structure. ++ * @param Inst The instance number of the module to initialize. (start at ++ * 0). ++ * ++ * @return EC_NO_ERRORS (ok). <BR> ++ * Possible Error Codes:<BR> ++ * @ref EC_VAL_OS_VERSION_NOT_SUPPORTED "EC_VAL_OS_VERSION_NOT_SUPPORTED"<BR> ++ * @ref EC_VAL_MALLOC_DEV_FAILED "EC_VAL_MALLOC_DEV_FAILED"<BR> ++ * @ref EC_VAL_MALLOC_FAILED "EC_VAL_MALLOC_FAILED"<BR> ++ */ ++int xxxInitModule(HAL_DEVICE **HalDev, ++ OS_DEVICE *OsDev, ++ HAL_FUNCTIONS **HalFunc, ++ OS_FUNCTIONS *OsFunc, ++ int OsFuncSize, ++ int *HalFuncSize, ++ int Inst); ++ ++int cpaal5InitModule(HAL_DEVICE **HalDev, ++ OS_DEVICE *OsDev, ++ HAL_FUNCTIONS **HalFunc, ++ OS_FUNCTIONS *OsFunc, ++ int OsFuncSize, ++ int *HalFuncSize, ++ int Inst) ++ { ++ int rc, SarFuncSize; ++ HAL_DEVICE *HalPtr; ++ HAL_FUNCTIONS *HalFuncPtr; ++ ++ /* NEW CODE */ ++ if (OsFuncSize < sizeof(OS_FUNCTIONS)) ++ return (EC_AAL5|EC_FUNC_HAL_INIT|EC_VAL_OS_VERSION_NOT_SUPPORTED); ++ ++ HalPtr = (HAL_DEVICE *) OsFunc->MallocDev(sizeof(HAL_DEVICE)); ++ if (!HalPtr) ++ return (EC_AAL5|EC_FUNC_HAL_INIT|EC_VAL_MALLOC_DEV_FAILED); ++ ++ HalFuncPtr = (HAL_FUNCTIONS *) OsFunc->Malloc(sizeof(HAL_FUNCTIONS)); ++ if (!HalFuncPtr) ++ return (EC_AAL5|EC_FUNC_HAL_INIT|EC_VAL_MALLOC_FAILED); ++ ++ /* Initialize the size of hal functions */ ++ *HalFuncSize = sizeof (HAL_FUNCTIONS); ++ ++ /* clear the device structure */ ++ OsFunc->Memset(HalPtr, 0, sizeof(HAL_DEVICE)); ++ ++ /* clear the function pointers */ ++ OsFunc->Memset(HalFuncPtr, 0, sizeof(HAL_FUNCTIONS)); ++ ++ /* initialize the HAL_DEVICE structure */ ++ HalPtr->OsDev = OsDev; ++ /*HalPtr->OsOpen = OsDev;*/ ++ HalPtr->Inst = Inst; ++ HalPtr->OsFunc = OsFunc; ++ ++ /* Supply pointers for the CPHAL API functions */ ++ HalFuncPtr->RxReturn = halRxReturn; ++ HalFuncPtr->Init = halInit; ++ HalFuncPtr->Close = halClose; ++ HalFuncPtr->Send = halSend; ++ HalFuncPtr->ChannelSetup = halChannelSetup; ++ HalFuncPtr->ChannelTeardown = halChannelTeardown; ++ HalFuncPtr->Open = halOpen; ++ HalFuncPtr->Kick = halKick; ++ HalFuncPtr->RegAccess = halRegAccess; ++ HalFuncPtr->Probe = halProbe; ++ HalFuncPtr->Control = halControl; ++ HalFuncPtr->Tick = halTick; ++ HalFuncPtr->Shutdown = halShutdown; ++ HalFuncPtr->OamFuncConfig = halOamFuncConfig; /* +GSG 030306 */ ++ HalFuncPtr->OamLoopbackConfig = halOamLoopbackConfig; /* ~GSG 030416 */ ++ ++ /* Temporary */ ++ /*HalFuncPtr->StatsGetOld = StatsGet;*/ ++ HalFuncPtr->PacketProcessEnd = halPacketProcessEnd; ++ ++ /* Now, AAL5 must connect to the CPSAR layer */ ++ ++ /* Attach to SAR HAL Functions */ ++ /* ++ cpsarInitModule(NULL, NULL, 0, NULL, &SarFuncSize, Inst); ++ ++ if (SarFuncSize!=sizeof(CPSAR_FUNCTIONS)) ++ return(EC_AAL5|EC_FUNC_HAL_INIT|EC_VAL_CPSAR_VERSION_NOT_SUPPORTED); ++ ++ HalPtr->SarFunc = (CPSAR_FUNCTIONS *) OsFunc->Malloc(SarFuncSize); ++ */ ++ ++ rc = cpsarInitModule(&HalPtr->SarDev, OsDev, &HalPtr->SarFunc, OsFunc, sizeof(OS_FUNCTIONS), &SarFuncSize, Inst); ++ ++ /* pass back the error value from the CPSAR layer if necessary */ ++ if (rc) ++ return(rc); ++ ++ /* ++ if (!HalPtr->SarDev) ++ return(EC_AAL5|EC_FUNC_HAL_INIT|EC_VAL_NULL_CPSAR_DEV); ++ */ ++ ++ /* Initialize the hardware state */ ++ HalPtr->State = enConnected; ++ ++ /* keep a reference to HalFuncPtr so I can free it later */ ++ HalPtr->HalFuncPtr = HalFuncPtr; ++ ++ /* pass the HalPtr back to the caller */ ++ *HalDev = HalPtr; ++ *HalFunc = HalFuncPtr; ++ ++ return(EC_NO_ERRORS); ++ } +diff -urN linux.old/drivers/atm/sangam_atm/aal5sar.h linux.dev/drivers/atm/sangam_atm/aal5sar.h +--- linux.old/drivers/atm/sangam_atm/aal5sar.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/aal5sar.h 2005-08-23 04:46:50.080846280 +0200 +@@ -0,0 +1,198 @@ ++/**@file************************************************************************ ++ * TNETDxxxx Software Support ++ * Copyright (c) 2002 Texas Instruments Incorporated. All Rights Reserved. ++ * ++ * FILE: aal5sar.h ++ * ++ * DESCRIPTION: ++ * This file contains data structure definitions for the AAL5 HAL SAR. ++ * ++ * HISTORY: ++ * 28Feb02 Greg 1.00 Original Version created. ++ * 06Mar02 Greg 1.01 Documented structures. ++ * 18Jul02 Greg 1.02 Major reorganization ++ * ++ *****************************************************************************/ ++#ifndef _INC_AAL5SAR ++#define _INC_AAL5SAR ++ ++/** \namespace AAL5_Version ++This documents version 01.06.06 of the AAL5 CPHAL. ++*/ ++const char *pszVersion_CPAAL5="CPAAL5 01.06.06 "__DATE__" "__TIME__; ++ ++#include "cpsar_cpaal5.h" ++ ++#define NUM_AAL5_CHAN 16 ++#define MAX_AAL5_CHAN 15 ++#define MAX_QUEUE 2 ++#define MAX_DIRECTION 2 ++ ++#define PKT_TYPE_AAL5 0 /* +GSG 030508 */ ++#define PKT_TYPE_NULL 1 /* +GSG 030508 */ ++#define PKT_TYPE_OAM 2 /* +GSG 030508 */ ++#define PKT_TYPE_TRANS 3 /* +GSG 030508 */ ++#define ATM_HEADER_SIZE 4 /* +GSG 030508 */ ++ ++/* ++ * HAL Default Parameter Values ++ */ ++#define CFG_TX_NUM_BUFS {256,256,256,256,256,256,256,256, 256,256,256,256,256,256,256,256} ++#define CFG_RX_NUM_BUFS {256,256,256,256,256,256,256,256, 256,256,256,256,256,256,256,256} ++#define CFG_RX_BUF_SIZE {1518,1518,1518,1518,1518,1518,1518,1518, 1518,1518,1518,1518,1518,1518,1518,1518} ++#define CFG_RX_BUF_OFFSET {0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0} ++#define CFG_TX_NUM_QUEUES {1,1,1,1,1,1,1,1, 1,1,1,1,1,1,1,1} ++#define CFG_CPCS_UU {0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0} ++#define CFG_DA_MASK {0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0} ++#define CFG_PRIORITY {0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0} ++#define CFG_PKT_TYPE {0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0} ++#define CFG_VCI {100,101,102,103,104,105,106,107, 108,109,110,111,112,113,114,115} ++#define CFG_VPI {0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0} ++#define CFG_CELL_RATE {0x30d4,0x30d4,0x30d4,0x30d4,0x30d4,0x30d4,0x30d4,0x30d4, 0x30d4,0x30d4,0x30d4,0x30d4,0x30d4,0x30d4,0x30d4,0x30d4} ++#define CFG_QOS_TYPE {0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0} ++#define CFG_MBS {8,8,8,8,8,8,8,8, 8,8,8,8,8,8,8,8} ++#define CFG_PCR {1,1,1,1,1,1,1,1, 1,1,1,1,1,1,1,1} ++#define CFG_GFC {0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0} ++#define CFG_CLP {0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0} ++#define CFG_PTI {0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0} ++#define CFG_RX_MAX_SERVICE {170,170,170,170,170,170,170,170, 170,170,170,170,170,170,170,170} ++#define CFG_TX_MAX_SERVICE {170,170,170,170,170,170,170,170, 170,170,170,170,170,170,170,170} ++ ++static int cfg_tx_num_bufs[NUM_AAL5_CHAN] = CFG_TX_NUM_BUFS; ++static int cfg_rx_num_bufs[NUM_AAL5_CHAN] = CFG_RX_NUM_BUFS; ++static int cfg_rx_buf_size[NUM_AAL5_CHAN] = CFG_RX_BUF_SIZE; ++static int cfg_rx_buf_offset[NUM_AAL5_CHAN] = CFG_RX_BUF_OFFSET; ++static int cfg_tx_num_queues[NUM_AAL5_CHAN] = CFG_TX_NUM_QUEUES; ++static bit32u cfg_cpcs_uu[NUM_AAL5_CHAN] = CFG_CPCS_UU; ++static int cfg_da_mask[NUM_AAL5_CHAN] = CFG_DA_MASK; ++static int cfg_priority[NUM_AAL5_CHAN] = CFG_PRIORITY; ++static int cfg_pkt_type[NUM_AAL5_CHAN] = CFG_PKT_TYPE; ++static int cfg_vci[NUM_AAL5_CHAN] = CFG_VCI; ++static int cfg_vpi[NUM_AAL5_CHAN] = CFG_VPI; ++static bit32u cfg_cell_rate[NUM_AAL5_CHAN] = CFG_CELL_RATE; ++static int cfg_qos_type[NUM_AAL5_CHAN] = CFG_QOS_TYPE; ++static int cfg_mbs[NUM_AAL5_CHAN] = CFG_MBS; ++static int cfg_pcr[NUM_AAL5_CHAN] = CFG_PCR; ++static int cfg_gfc[NUM_AAL5_CHAN] = CFG_GFC; ++static int cfg_clp[NUM_AAL5_CHAN] = CFG_CLP; ++static int cfg_pti[NUM_AAL5_CHAN] = CFG_PTI; ++static int cfg_rx_max_service[NUM_AAL5_CHAN]= CFG_RX_MAX_SERVICE; ++static int cfg_tx_max_service[NUM_AAL5_CHAN]= CFG_TX_MAX_SERVICE; ++static char *channel_names[] = CHANNEL_NAMES; ++ ++/* ++ * The HAL_FUNCTIONS struct defines the function pointers for all HAL functions ++ * accessible to upper layer software. It is populated by calling ++ * halInitModules(). ++ * ++ * Note that this list is still under definition. ++ */ ++ ++/* ++ * This is the data structure for a transmit buffer descriptor. The first ++ * four 32-bit words of the BD represent the CPPI 3.0 defined buffer descriptor ++ * words. The other words are SAR/HAL implementation specific. ++ */ ++typedef struct ++ { ++ bit32 HNext; /**< Hardware's pointer to next buffer descriptor */ ++ bit32 BufPtr; /**< Pointer to the data buffer */ ++ bit32 Off_BLen; /**< Contains buffer offset and buffer length */ ++ bit32 mode; /**< SOP, EOP, Ownership, EOQ, Teardown Complete bits */ ++ bit32 AtmHeader; /**< Atm Header to be used for each fragment */ ++ bit32 Word5; /**< General control information for the packet */ ++ bit32 Res6; ++ bit32 Res7; ++ void *Next; ++ void *OsInfo; ++#ifdef __CPHAL_DEBUG ++ bit32 DbgSop; ++ bit32 DbgData; ++ bit32 DbgFraglist; ++#endif ++ void *Eop; ++ }HAL_TCB; ++ ++/* ++ * This is the data structure for a receive buffer descriptor. The first ++ * six 32-bit words of the BD represent the CPPI 3.0 defined buffer descriptor ++ * words. The other words are HAL implementation specific. ++ */ ++typedef volatile struct hal_private ++ { ++ bit32 HNext; /**< Hardware's pointer to next buffer descriptor */ ++ bit32 BufPtr; /**< Pointer to the data buffer */ ++ bit32 Off_BLen; /**< Contains buffer offset and buffer length */ ++ bit32 mode; /**< SOP, EOP, Ownership, EOQ, Teardown, Q Starv, Length */ ++ bit32 AtmHeader; ++ bit32 UuCpi; ++ bit32 Res6; ++ bit32 Res7; ++ void *DatPtr; ++ void *Next; ++ void *OsInfo; ++ void *Eop; ++ bit32 FragCount; ++ bit32 Ch; ++ HAL_DEVICE *HalDev; ++ }HAL_RCB; ++ ++ ++#define MAX_NEEDS 512 /*MJH+030409*/ ++/* ++ * This is the data structure for a generic HAL device. It contains all device ++ * specific data for a single instance of that device. This includes Rx/Tx ++ * buffer queues, device base address, reset bit, and other information. ++ */ ++typedef struct hal_device ++ { ++ HAL_RCB *RcbPool[NUM_AAL5_CHAN]; ++ bit32u rxbufseq; ++ bit32 RxActQueueCount[NUM_AAL5_CHAN]; ++ HAL_RCB *RxActQueueHead[NUM_AAL5_CHAN]; ++ HAL_RCB *RxActQueueTail[NUM_AAL5_CHAN]; ++ bit32 RxActive[NUM_AAL5_CHAN]; ++ bit32 dev_base; ++ HAL_TCB *TcbPool[NUM_AAL5_CHAN][MAX_QUEUE]; ++ bit32 offset; ++ bit32 TxActQueueCount[NUM_AAL5_CHAN][MAX_QUEUE]; ++ HAL_TCB *TxActQueueHead[NUM_AAL5_CHAN][MAX_QUEUE]; ++ HAL_TCB *TxActQueueTail[NUM_AAL5_CHAN][MAX_QUEUE]; ++ bit32 TxActive[NUM_AAL5_CHAN][MAX_QUEUE]; ++ bit32 TxTeardownPending[NUM_AAL5_CHAN]; ++ bit32 RxTeardownPending[NUM_AAL5_CHAN]; ++ bit32 ChIsOpen[NUM_AAL5_CHAN][MAX_DIRECTION]; ++ bit32 ChIsSetup[NUM_AAL5_CHAN][MAX_DIRECTION]; ++ bit32 interrupt; ++ bit32 debug; ++ OS_DEVICE *OsDev; ++ OS_FUNCTIONS *OsFunc; ++ CPSAR_FUNCTIONS *SarFunc; ++ CPSAR_DEVICE *SarDev; ++ /*void *OsOpen;*/ ++ /*FRAGLIST fraglist[MAX_FRAG];*/ ++ FRAGLIST *fraglist; ++ char *TcbStart[NUM_AAL5_CHAN][MAX_QUEUE]; ++ char *RcbStart[NUM_AAL5_CHAN]; ++ /*bit32 RcbSize[NUM_AAL5_CHAN];*/ ++ bit32 InRxInt[NUM_AAL5_CHAN]; ++ STAT_INFO Stats; ++ bit32 Inst; ++ bit32u DeviceCPID[4]; ++ bit32u LBSourceLLID[4]; ++ CHANNEL_INFO ChData[NUM_AAL5_CHAN]; ++ DEVICE_STATE State; ++ char *DeviceInfo; ++ HAL_FUNCTIONS *HalFuncPtr; ++ int NextRxCh; ++ int NextTxCh[2]; ++ int StrictPriority; /* +GSG 030304 */ ++ bit32u NeedsCount; /*MJH+030409*/ ++ HAL_RECEIVEINFO *Needs[MAX_NEEDS]; /*MJH+030409*/ ++ bit32u SarFrequency; /* +GSG 030416 */ ++ int MaxFrags; ++ bit32u TurboDslErrors; ++ bit32u OamLbTimeout; ++ }HALDEVICE; ++ ++#endif +diff -urN linux.old/drivers/atm/sangam_atm/cpcommon_cpaal5.c linux.dev/drivers/atm/sangam_atm/cpcommon_cpaal5.c +--- linux.old/drivers/atm/sangam_atm/cpcommon_cpaal5.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/cpcommon_cpaal5.c 2005-08-23 04:46:50.081846128 +0200 +@@ -0,0 +1,728 @@ ++#ifndef _INC_CPCOMMON_C ++#define _INC_CPCOMMON_C ++ ++#ifdef _CPHAL_CPMAC ++#include "cpremap_cpmac.c" ++#endif ++ ++#ifdef _CPHAL_AAL5 ++#include "cpremap_cpaal5.c" ++#endif ++ ++#ifdef _CPHAL_CPSAR ++#include "cpremap_cpsar.c" ++#endif ++ ++#ifdef _CPHAL_AAL2 ++#include "cpremap_cpaal2.c" ++#endif ++ ++/** ++@defgroup Common_Config_Params Common Configuration Parameters ++ ++This section documents the configuration parameters that are valid across ++all CPHAL devices. ++@{ ++*/ ++/** This is the debug level. The field is bit defined, such that the user ++should set to 1 all the bits corresponding to desired debug outputs. The following ++are the meanings for each debug bit: ++- bit0 (LSB): CPHAL Function Trace ++- b1 : OS Function call trace ++- b2 : Critical section entry/exit ++- b3 : Memory allocation/destruction ++- b4 : Detailed information in Rx path ++- b5 : Detailed information in Tx path ++- b6 : Extended error information ++- b7 : General info ++*/ ++static const char pszDebug[] = "debug"; ++/** CPU Frequency. */ ++/*static const char pszCpuFreq[] = "CpuFreq";*/ /*MJH-030403*/ ++/** Base address for the module. */ ++static const char pszBase[] = "base"; ++/** Reset bit for the module. */ ++static const char pszResetBit[] = "reset_bit"; ++/** Reset base address for the module. */ ++static const char pszResetBase[] = "ResetBase"; ++/** Interrupt line for the module. */ ++static const char pszIntLine[] = "int_line"; ++/** VLYNQ offset for the module. Disregard if not using VLYNQ. */ ++static const char pszOffset[] = "offset"; ++/** The OS may "Get" this parameter, which is a pointer ++ to a character string that indicates the version of CPHAL. */ ++static const char pszVer[] = "Version"; ++/*@}*/ ++ ++/** ++@defgroup Common_Control_Params Common Keys for [os]Control() ++ ++This section documents the keys used with the OS @c Control() interface that ++are required by CPHAL devices. ++ ++@{ ++*/ ++/** Used to wait for an integer number of clock ticks, given as an integer ++ pointer in the @p Value parameter. No actions are defined. */ ++static const char pszSleep[] = "Sleep"; ++/** Requests the OS to flush it's IO buffers. No actions are defined. */ ++static const char pszSioFlush[] = "SioFlush"; ++/*@}*/ ++ ++static const char pszStateChange[] = "StateChange"; ++static const char pszStatus[] = "Status"; ++ ++static const char pszGET[] = "Get"; ++static const char pszSET[] = "Set"; ++static const char pszCLEAR[] = "Clear"; ++static const char pszNULL[] = ""; ++static const char pszLocator[] = "Locator"; ++static const char pszOff[] = "Off"; ++static const char pszOn[] = "On"; ++static const char hcMaxFrags[] = "MaxFrags"; ++ ++#ifdef _CPHAL_CPMAC ++ ++/* New method for string constants */ ++const char hcClear[] = "Clear"; ++const char hcGet[] = "Get"; ++const char hcSet[] = "Set"; ++ ++const char hcTick[] = "Tick"; ++ ++static const CONTROL_KEY KeyCommon[] = ++ { ++ {"" , enCommonStart}, ++ {pszStatus , enStatus}, ++ {pszOff , enOff}, ++ {pszOn , enOn}, ++ {pszDebug , enDebug}, ++ {hcCpuFrequency , enCpuFreq}, /*MJH~030403*/ ++ {"" , enCommonEnd} ++ }; ++#endif ++ ++/** ++@defgroup Common_Statistics Statistics ++ ++A broad array of module statistics is available. Statistics values are accessed ++through the @c Control() interface of the CPHAL. There are 5 different levels ++of statistics, each of which correspond to a unique set of data. Furthermore, ++certain statistics data is indexed by using a channel number and Tx queue number. ++The following is a brief description of each statistics level, along with the ++indexes used for the level: ++ ++- Level 0: Hardware Statistics (index with channel) ++- Level 1: CPHAL Software Statistics (channel, queue) ++- Level 2: CPHAL Flags (channel, queue) ++- Level 3: CPHAL Channel Configuration (channel) ++- Level 4: CPHAL General Configuration (no index) ++ ++The caller requests statistics information by providing a Key string to the ++@c Control() API in the following format: "Stats;[Level #];[Ch #];[Queue #]". ++The only valid Action parameter for statistics usage is "Get". ++ ++Code Examples: ++@code ++unsigned int *StatsData; ++ ++# Get Level 0 stats for Channel 1 ++HalFunc->Control(OsDev->HalDev, "Stats;0;1", "Get", &StatsData); ++ ++# Get Level 2 stats for Channel 0, Queue 0 ++HalFunc->Control(OsDev->HalDev, "Stats;2;0;0", "Get", &StatsData); ++ ++# Get Level 4 stats ++HalFunc->Control(OsDev->HalDev, "Stats;4", "Get", &StatsData); ++@endcode ++ ++The information returned in the Value parameter of @c Control() is an ++array of pointers to strings. The pointers are arranged in pairs. ++The first pointer is a pointer to a name string for a particular statistic. ++The next pointer is a pointer to a string containing the representation of ++the integer statistic value corresponding to the first pointer. This is followed ++by another pair of pointers, and so on, until a NULL pointer is encountered. The ++following is example code for processing the statistics data. Note that the OS ++is responsible for freeing the memory passed back through the Value parameter of ++@c Control(). ++ ++@code ++unsigned int *StatsData; ++ ++# Get Level 0 stats for Channel 1 ++HalFunc->Control(OsDev->HalDev, "Stats;0;1", "Get", &StatsData); ++ ++# output Statistics data ++PrintStats(StatsData); ++ ++# the upper layer is responsible for freeing stats info ++free(&StatsPtr); ++ ++... ++ ++void PrintStats(unsigned int *StatsPtr) ++ { ++ while(*StatsPtr) ++ { ++ printf("%20s:", (char *)*StatsPtr); ++ StatsPtr++; ++ printf("%11s\n", (char *)*StatsPtr); ++ StatsPtr++; ++ } ++ MySioFlush(); ++ } ++@endcode ++ ++Within each statistics level, there are several statistics defined. The statistics that ++are common to every CPPI module are listed below. In addition, each module may define ++extra statistics in each level, which will be documented within the module-specific ++documentation appendices. ++ ++- Level 0 Statistics ++ - All level 0 statistics are module-specific. ++- Level 1 Statistics (CPHAL Software Statistics) ++ - DmaLenErrors: Incremented when the port DMA's more data than expected (per channel). (AAL5 Only) ++ - TxMisQCnt: Incremented when host queues a packet for transmission as the port finishes ++transmitting the previous last packet in the queue (per channel and queue). ++ - RxMisQCnt: Incremented when host queues adds buffers to a queue as the port finished the ++reception of the previous last packet in the queue (per channel). ++ - TxEOQCnt: Number of times the port has reached the end of the transmit queue (per channel and queue). ++ - RxEOQCnt: Number of times the port has reached the end of the receive queue (per channel). ++ - RxPacketsServiced: Number of received packets (per channel). ++ - TxPacketsServiced: Number of transmitted packets (per channel and queue). ++ - RxMaxServiced: Maximum number of packets that the CPHAL receive interrupt has serviced at a time (per channel). ++ - TxMaxServiced: Maximum number of packets that the CPHAL transmit interrupt has serviced at a time (per channel and queue). ++ - RxTotal: Total number of received packets, all channels. ++ - TxTotal: Total number of transmitted packets, all channels and queues. ++- Level 2 Statistics (CPHAL Flags) ++ - RcbPool: Pointer to receive descriptor pool (per channel). ++ - RxActQueueCount: Number of buffers currently available for receive (per channel). ++ - RxActQueueHead: Pointer to first buffer in receive queue (per channel). ++ - RxActQueueTail: Pointer to last buffer in receive queue (per channel). ++ - RxActive: 0 if inactive (no buffers available), or 1 if active (buffers available). ++ - RcbStart: Pointer to block of receive descriptors. ++ - RxTeardownPending: 1 if Rx teardown is pending but incomplete, 0 otherwise. ++ - TcbPool: Pointer to transmit descriptor pool (per channel and queue). ++ - TxActQueueCount: Number of buffers currently queued to be transmitted (per channel and queue). ++ - TxActQueueHead: Pointer to first buffer in transmit queue (per channel and queue). ++ - TxActQueueTail: Pointer to last buffer in transmit queue (per channel and queue). ++ - TxActive: 0 if inactive (no buffers to send), or 1 if active (buffers queued to send). ++ - TcbStart: Pointer to block of transmit descriptors. ++ - TxTeardownPending: 1 if Tx teardown is pending but incomplete, 0 otherwise. ++- Level 3 Statistics (CPHAL Channel Configuration) ++ - RxBufSize: Rx buffer size. ++ - RxBufferOffset: Rx buffer offset. ++ - RxNumBuffers: Number of Rx buffers. ++ - RxServiceMax: Maximum number of receive packets to service at a time. ++ - TxNumBuffers: Number of Tx buffer descriptors. ++ - TxNumQueues: Number of Tx queues to use. ++ - TxServiceMax: Maximum number of transmit packets to service at a time. ++- Level 4 Statistics (CPHAL General Configuration) ++ - Base Address: Base address of the module. ++ - Offset (VLYNQ): VLYNQ relative module offset. ++ - Interrupt Line: Interrupt number. ++ - Debug: Debug flag, 1 to enable debug. ++ - Inst: Instance number. ++*/ ++ ++/* ++ Data Type 0 = int display ++ Data Type 1 = hex display ++ Data Type 2 = channel structure, int display ++ Data Type 3 = queue index and int display ++ Data Type 4 = queue index and hex display ++*/ ++#if (defined(_CPHAL_AAL5) || defined(_CPHAL_CPMAC)) /* +GSG 030307 */ ++static STATS_TABLE StatsTable0[] = ++ { ++#ifdef _CPHAL_AAL5 ++ /* Name , Data Ptr, Data Type */ ++ {"Crc Errors", 0, 0}, ++ {"Len Errors", 0, 0}, ++ {"Abort Errors", 0, 0}, ++ {"Starv Errors", 0, 0} ++#endif ++#ifdef _CPHAL_CPMAC ++ {"Rx Good Frames", 0, 0} ++#endif ++ }; ++ ++static STATS_TABLE StatsTable1[] = ++ { ++ /* Name , Data Ptr, Data Type */ ++ {"DmaLenErrors", 0, 0}, ++ {"TxMisQCnt", 0, 3}, ++ {"RxMisQCnt", 0, 0}, ++ {"TxEOQCnt", 0, 3}, ++ {"RxEOQCnt", 0, 0}, ++ {"RxPacketsServiced", 0, 0}, ++ {"TxPacketsServiced", 0, 3}, ++ {"RxMaxServiced", 0, 0}, ++ {"TxMaxServiced", 0, 3}, ++ {"RxTotal", 0, 0}, ++ {"TxTotal", 0, 0}, ++ }; ++ ++static STATS_TABLE StatsTable2[] = ++ { ++ /* Name , Data Ptr, Data Type */ ++ {"RcbPool", 0, 1}, ++ {"RxActQueueCount", 0, 0}, ++ {"RxActQueueHead", 0, 1}, ++ {"RxActQueueTail", 0, 1}, ++ {"RxActive", 0, 0}, ++ {"RcbStart", 0, 1}, ++ {"RxTeardownPending", 0, 0}, ++ {"TcbPool", 0, 4}, ++ {"TxActQueueCount", 0, 3}, ++ {"TxActQueueHead", 0, 4}, ++ {"TxActQueueTail", 0, 4}, ++ {"TxActive", 0, 3}, ++ {"TcbStart", 0, 4}, ++ {"TxTeardownPending", 0, 0} ++ }; ++ ++static STATS_TABLE StatsTable3[] = ++ { ++ /* Name , Data Ptr, Data Type */ ++ {"RxBufSize", 0, 2}, ++ {"RxBufferOffset", 0, 2}, ++ {"RxNumBuffers", 0, 2}, ++ {"RxServiceMax", 0, 2}, ++ {"TxNumBuffers", 0, 2}, ++ {"TxNumQueues", 0, 2}, ++ {"TxServiceMax", 0, 2}, ++#ifdef _CPHAL_AAL5 ++ {"CpcsUU", 0, 2}, ++ {"Gfc", 0, 2}, ++ {"Clp", 0, 2}, ++ {"Pti", 0, 2}, ++ {"DaMask", 0, 2}, ++ {"Priority", 0, 2}, ++ {"PktType", 0, 2}, ++ {"Vci", 0, 2}, ++ {"Vpi", 0, 2}, ++ {"CellRate", 0, 2}, ++ {"QosType", 0, 2}, ++ {"Mbs", 0, 2}, ++ {"Pcr", 0, 2} ++#endif ++ }; ++ ++static STATS_TABLE StatsTable4[] = ++ { ++ {"Base Address", 0, 1}, ++ {"Offset (VLYNQ)", 0, 0}, ++ {"Interrupt Line", 0, 0}, ++ {"Debug", 0, 0}, ++ {"Instance", 0, 0}, ++#ifdef _CPHAL_AAL5 ++ {"UniNni", 0, 0} ++#endif ++ }; ++ ++static STATS_DB StatsDb[] = ++ { ++ {(sizeof(StatsTable0)/sizeof(STATS_TABLE)), StatsTable0}, ++ {(sizeof(StatsTable1)/sizeof(STATS_TABLE)), StatsTable1}, ++ {(sizeof(StatsTable2)/sizeof(STATS_TABLE)), StatsTable2}, ++ {(sizeof(StatsTable3)/sizeof(STATS_TABLE)), StatsTable3}, ++ {(sizeof(StatsTable4)/sizeof(STATS_TABLE)), StatsTable4} ++ }; ++#endif /* +GSG 030307 */ ++ ++#ifdef _CPHAL_CPMAC /* +RC 3.02 */ ++static void resetWait(HAL_DEVICE *HalDev) ++ { /*+RC3.02*/ ++ const int TickReset=64; ++ osfuncSleep((int*)&TickReset); ++ } /*+RC3.02*/ ++#endif /* +RC 3.02 */ ++ ++/* I only define the reset base function for the modules ++ that can perform a reset. The AAL5 and AAL2 modules ++ do not perform a reset, that is done by the shared module ++ CPSAR */ ++#if defined(_CPHAL_CPSAR) || defined(_CPHAL_CPMAC) || defined(_CPHAL_VDMAVT) ++/* ++ * Determines the reset register address to be used for a particular device. ++ * It will search the current device entry for Locator information. If the ++ * device is a root device, there will be no Locator information, and the ++ * function will find and return the root reset register. If a Locator value ++ * is found, the function will search each VLYNQ device entry in the system ++ * looking for a matching Locator. Once it finds a VLYNQ device entry with ++ * a matching Locator, it will extract the "ResetBase" parameter from that ++ * VLYNQ device entry (thus every VLYNQ entry must have the ResetBase parameter). ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * @param ResetBase Pointer to integer address of reset register. ++ * ++ * @return 0 OK, Non-zero not OK ++ */ ++static int ResetBaseGet(HAL_DEVICE *HalDev, bit32u *ResetBase) ++ { ++ char *DeviceInfo = HalDev->DeviceInfo; ++ char *MyLocator, *NextLocator; ++ int Inst=1; ++ bit32u error_code; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpcommon]ResetBaseGet(HalDev:%08x, ResetBase:%08x)\n", (bit32u)HalDev, ResetBase); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ error_code = HalDev->OsFunc->DeviceFindParmValue(DeviceInfo, "Locator", &MyLocator); ++ if (error_code) ++ { ++ /* if no Locator value, device is on the root, so get the "reset" device */ ++ error_code = HalDev->OsFunc->DeviceFindInfo(0, "reset", &DeviceInfo); ++ if (error_code) ++ { ++ return(EC_VAL_DEVICE_NOT_FOUND); ++ } ++ ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, "base", ResetBase); ++ if (error_code) ++ { ++ return(EC_VAL_BASE_ADDR_NOT_FOUND); ++ } ++ ++ *ResetBase = ((bit32u)PhysToVirtNoCache(*ResetBase)); ++ ++ /* found base address for root device, so we're done */ ++ return (EC_NO_ERRORS); ++ } ++ else ++ { ++ /* we have a Locator value, so the device is remote */ ++ ++ /* Find a vlynq device with a matching locator value */ ++ while ((HalDev->OsFunc->DeviceFindInfo(Inst, "vlynq", &DeviceInfo)) == EC_NO_ERRORS) ++ { ++ error_code = HalDev->OsFunc->DeviceFindParmValue(DeviceInfo, "Locator", &NextLocator); ++ if (error_code) ++ { ++ /* no Locator value for this VLYNQ, so move on */ ++ continue; ++ } ++ if (HalDev->OsFunc->Strcmpi(MyLocator, NextLocator)==0) ++ { ++ /* we have found a VLYNQ with a matching Locator, so extract the ResetBase */ ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, "ResetBase", ResetBase); ++ if (error_code) ++ { ++ return(EC_VAL_BASE_ADDR_NOT_FOUND); ++ } ++ *ResetBase = ((bit32u)PhysToVirtNoCache(*ResetBase)); ++ ++ /* found base address for root device, so we're done */ ++ return (EC_NO_ERRORS); ++ } ++ Inst++; ++ } /* while */ ++ } /* else */ ++ ++ return (EC_NO_ERRORS); ++ } ++#endif ++ ++#ifndef _CPHAL_AAL2 /* + RC 3.02 */ ++static bit32u ConfigGetCommon(HAL_DEVICE *HalDev) ++ { ++ bit32u ParmValue; ++ bit32 error_code; ++ char *DeviceInfo = HalDev->DeviceInfo; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpcommon]ConfigGetCommon(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, pszBase, &ParmValue); ++ if (error_code) ++ { ++ return(EC_FUNC_HAL_INIT|EC_VAL_BASE_ADDR_NOT_FOUND); ++ } ++ HalDev->dev_base = ((bit32u)PhysToVirtNoCache(ParmValue)); ++ ++#ifndef _CPHAL_AAL5 ++#ifndef _CPHAL_AAL2 ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, pszResetBit, &ParmValue); ++ if(error_code) ++ { ++ return(EC_FUNC_HAL_INIT|EC_VAL_RESET_BIT_NOT_FOUND); ++ } ++ HalDev->ResetBit = ParmValue; ++ ++ /* Get reset base address */ ++ error_code = ResetBaseGet(HalDev, &ParmValue); ++ if (error_code) ++ return(EC_FUNC_HAL_INIT|EC_VAL_RESET_BASE_NOT_FOUND); ++ HalDev->ResetBase = ParmValue; ++#endif ++#endif ++ ++#ifndef _CPHAL_CPSAR ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, pszIntLine,&ParmValue); ++ if (error_code) ++ { ++ return(EC_FUNC_HAL_INIT|EC_VAL_INTERRUPT_NOT_FOUND); ++ } ++ HalDev->interrupt = ParmValue; ++#endif ++ ++ /* only look for the offset if there is a Locator field, which indicates that ++ the module is a VLYNQ module */ ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, pszLocator,&ParmValue); ++ if (!error_code) ++ { ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, pszOffset,&ParmValue); ++ if (error_code) ++ { ++ return(EC_FUNC_HAL_INIT|EC_VAL_OFFSET_NOT_FOUND); ++ } ++ HalDev->offset = ParmValue; ++ } ++ else ++ HalDev->offset = 0; ++ ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, pszDebug, &ParmValue); ++ if (!error_code) HalDev->debug = ParmValue; ++ ++ return (EC_NO_ERRORS); ++ } ++#endif /* +RC 3.02 */ ++ ++#ifdef _CPHAL_CPMAC /* +RC 3.02 */ ++static void StatsInit(HAL_DEVICE *HalDev) /* +() RC3.02 */ ++ { ++ /* even though these statistics may be for multiple channels and ++ queues, i need only configure the pointer to the beginning ++ of the array, and I can index from there if necessary */ ++ ++#ifdef _CPHAL_AAL5 ++ StatsTable0[0].StatPtr = &HalDev->Stats.CrcErrors[0]; ++ StatsTable0[1].StatPtr = &HalDev->Stats.LenErrors[0]; ++ StatsTable0[2].StatPtr = &HalDev->Stats.AbortErrors[0]; ++ StatsTable0[3].StatPtr = &HalDev->Stats.StarvErrors[0]; ++ ++ StatsTable1[0].StatPtr = &HalDev->Stats.DmaLenErrors[0]; ++ StatsTable1[1].StatPtr = &HalDev->Stats.TxMisQCnt[0][0]; ++ StatsTable1[2].StatPtr = &HalDev->Stats.RxMisQCnt[0]; ++ StatsTable1[3].StatPtr = &HalDev->Stats.TxEOQCnt[0][0]; ++ StatsTable1[4].StatPtr = &HalDev->Stats.RxEOQCnt[0]; ++ StatsTable1[5].StatPtr = &HalDev->Stats.RxPacketsServiced[0]; ++ StatsTable1[6].StatPtr = &HalDev->Stats.TxPacketsServiced[0][0]; ++ StatsTable1[7].StatPtr = &HalDev->Stats.RxMaxServiced; ++ StatsTable1[8].StatPtr = &HalDev->Stats.TxMaxServiced[0][0]; ++ StatsTable1[9].StatPtr = &HalDev->Stats.RxTotal; ++ StatsTable1[10].StatPtr = &HalDev->Stats.TxTotal; ++#endif ++ ++#if (defined(_CPHAL_AAL5) || defined(_CPHAL_CPMAC)) ++ StatsTable2[0].StatPtr = (bit32u *)&HalDev->RcbPool[0]; ++ StatsTable2[1].StatPtr = &HalDev->RxActQueueCount[0]; ++ StatsTable2[2].StatPtr = (bit32u *)&HalDev->RxActQueueHead[0]; ++ StatsTable2[3].StatPtr = (bit32u *)&HalDev->RxActQueueTail[0]; ++ StatsTable2[4].StatPtr = &HalDev->RxActive[0]; ++ StatsTable2[5].StatPtr = (bit32u *)&HalDev->RcbStart[0]; ++ StatsTable2[6].StatPtr = &HalDev->RxTeardownPending[0]; ++ StatsTable2[7].StatPtr = (bit32u *)&HalDev->TcbPool[0][0]; ++ StatsTable2[8].StatPtr = &HalDev->TxActQueueCount[0][0]; ++ StatsTable2[9].StatPtr = (bit32u *)&HalDev->TxActQueueHead[0][0]; ++ StatsTable2[10].StatPtr = (bit32u *)&HalDev->TxActQueueTail[0][0]; ++ StatsTable2[11].StatPtr = &HalDev->TxActive[0][0]; ++ StatsTable2[12].StatPtr = (bit32u *)&HalDev->TcbStart[0][0]; ++ StatsTable2[13].StatPtr = &HalDev->TxTeardownPending[0]; ++ ++ StatsTable3[0].StatPtr = &HalDev->ChData[0].RxBufSize; ++ StatsTable3[1].StatPtr = &HalDev->ChData[0].RxBufferOffset; ++ StatsTable3[2].StatPtr = &HalDev->ChData[0].RxNumBuffers; ++ StatsTable3[3].StatPtr = &HalDev->ChData[0].RxServiceMax; ++ StatsTable3[4].StatPtr = &HalDev->ChData[0].TxNumBuffers; ++ StatsTable3[5].StatPtr = &HalDev->ChData[0].TxNumQueues; ++ StatsTable3[6].StatPtr = &HalDev->ChData[0].TxServiceMax; ++#ifdef _CPHAL_AAL5 ++ StatsTable3[7].StatPtr = &HalDev->ChData[0].CpcsUU; ++ StatsTable3[8].StatPtr = &HalDev->ChData[0].Gfc; ++ StatsTable3[9].StatPtr = &HalDev->ChData[0].Clp; ++ StatsTable3[10].StatPtr = &HalDev->ChData[0].Pti; ++ StatsTable3[11].StatPtr = &HalDev->ChData[0].DaMask; ++ StatsTable3[12].StatPtr = &HalDev->ChData[0].Priority; ++ StatsTable3[13].StatPtr = &HalDev->ChData[0].PktType; ++ StatsTable3[14].StatPtr = &HalDev->ChData[0].Vci; ++ StatsTable3[15].StatPtr = &HalDev->ChData[0].Vpi; ++ StatsTable3[16].StatPtr = &HalDev->ChData[0].TxVc_CellRate; ++ StatsTable3[17].StatPtr = &HalDev->ChData[0].TxVc_QosType; ++ StatsTable3[18].StatPtr = &HalDev->ChData[0].TxVc_Mbs; ++ StatsTable3[19].StatPtr = &HalDev->ChData[0].TxVc_Pcr; ++#endif ++#endif ++ ++ StatsTable4[0].StatPtr = &HalDev->dev_base; ++ StatsTable4[1].StatPtr = &HalDev->offset; ++ StatsTable4[2].StatPtr = &HalDev->interrupt; ++ StatsTable4[3].StatPtr = &HalDev->debug; ++ StatsTable4[4].StatPtr = &HalDev->Inst; ++ } ++#endif /* +RC 3.02 */ ++ ++#ifndef _CPHAL_CPSAR /* +RC 3.02 */ ++#ifndef _CPHAL_AAL2 /* +RC 3.02 */ ++/* ++ * Returns statistics information. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * ++ * @return 0 ++ */ ++static int StatsGet(HAL_DEVICE *HalDev, void **StatPtr, int Index, int Ch, int Queue) ++ { ++ int Size; ++ bit32u *AddrPtr; ++ char *DataPtr; ++ STATS_TABLE *StatsTable; ++ int i, NumberOfStats; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpcommon]StatsGet(HalDev:%08x, StatPtr:%08x)\n", ++ (bit32u)HalDev, (bit32u)StatPtr); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ StatsTable = StatsDb[Index].StatTable; ++ NumberOfStats = StatsDb[Index].NumberOfStats; ++ ++ Size = sizeof(bit32u)*((NumberOfStats*2)+1); ++ Size += (NumberOfStats*11); ++ *StatPtr = (bit32u *)HalDev->OsFunc->Malloc(Size); ++ ++ AddrPtr = (bit32u *) *StatPtr; ++ DataPtr = (char *)AddrPtr; ++ DataPtr += sizeof(bit32u)*((NumberOfStats*2)+1); ++ ++ for (i=0; i<NumberOfStats; i++) ++ { ++ *AddrPtr++ = (bit32u)StatsTable[i].StatName; ++ *AddrPtr++ = (bit32u)DataPtr; ++ if (&StatsTable[i].StatPtr[Ch] != 0) ++ { ++ switch(StatsTable[i].DataType) ++ { ++ case 0: ++ HalDev->OsFunc->Sprintf(DataPtr, "%d", (bit32u *)StatsTable[i].StatPtr[Ch]); ++ break; ++ case 1: ++ HalDev->OsFunc->Sprintf(DataPtr, "0x%x", (bit32u *)StatsTable[i].StatPtr[Ch]); ++ break; ++ case 2: ++ HalDev->OsFunc->Sprintf(DataPtr, "%d", *((bit32u *)StatsTable[i].StatPtr + (Ch * (sizeof(CHANNEL_INFO)/4)))); ++ break; ++ case 3: ++ HalDev->OsFunc->Sprintf(DataPtr, "%d", *((bit32u *)StatsTable[i].StatPtr + (Ch*MAX_QUEUE)+Queue)); ++ break; ++ case 4: ++ HalDev->OsFunc->Sprintf(DataPtr, "0x%x", *((bit32u *)StatsTable[i].StatPtr + (Ch*MAX_QUEUE)+Queue)); ++ break; ++ default: ++ /* invalid data type, due to CPHAL programming error */ ++ break; ++ } ++ } ++ else ++ { ++ /* invalid statistics pointer, probably was not initialized */ ++ } ++ DataPtr += HalDev->OsFunc->Strlen(DataPtr) + 1; ++ } ++ ++ *AddrPtr = (bit32u) 0; ++ ++ return (EC_NO_ERRORS); ++ } ++#endif /* +RC 3.02 */ ++#endif /* +RC 3.02 */ ++ ++#ifdef _CPHAL_CPMAC ++static void gpioFunctional(int base, int bit) ++ { /*+RC3.02*/ ++ bit32u GpioEnr = base + 0xC; ++ /* To make functional, set to zero */ ++ *(volatile bit32u *)(GpioEnr) &= ~(1 << bit); /*+RC3.02*/ ++ } /*+RC3.02*/ ++ ++ ++/*+RC3.02*/ ++/* Common function, Checks to see if GPIO should be in functional mode */ ++static void gpioCheck(HAL_DEVICE *HalDev, void *moduleDeviceInfo) ++ { /*+RC3.02*/ ++ int rc; ++ void *DeviceInfo; ++ char *pszMuxBits; ++ char pszMuxBit[20]; ++ char *pszTmp; ++ char szMuxBit[20]; ++ char *ptr; ++ int base; ++ int reset_bit; ++ int bit; ++ OS_FUNCTIONS *OsFunc = HalDev->OsFunc; ++ ++ rc = OsFunc->DeviceFindParmValue(moduleDeviceInfo, "gpio_mux",&pszTmp); ++ if(rc) return; ++ /* gpio entry found, get GPIO register info and make functional */ ++ ++ /* temp copy until FinParmValue fixed */ ++ ptr = &szMuxBit[0]; ++ while ((*ptr++ = *pszTmp++)); ++ ++ pszMuxBits = &szMuxBit[0]; ++ ++ rc = OsFunc->DeviceFindInfo(0,"gpio",&DeviceInfo); ++ if(rc) return; ++ ++ rc = OsFunc->DeviceFindParmUint(DeviceInfo, "base",&base); ++ if(rc) return; ++ ++ rc = OsFunc->DeviceFindParmUint(DeviceInfo, "reset_bit",&reset_bit); ++ if(rc) return; ++ ++ /* If GPIO still in reset, then exit */ ++ if((VOLATILE32(HalDev->ResetBase) & (1 << reset_bit)) == 0) ++ return; ++ /* format for gpio_mux is gpio_mux = <int>;<int>;<int>...*/ ++ while (*pszMuxBits) ++ { ++ pszTmp = &pszMuxBit[0]; ++ if(*pszMuxBits == ';') pszMuxBits++; ++ while ((*pszMuxBits != ';') && (*pszMuxBits != '\0')) ++ { ++ osfuncSioFlush(); ++ /*If value not a number, skip */ ++ if((*pszMuxBits < '0') || (*pszMuxBits > '9')) ++ pszMuxBits++; ++ else ++ *pszTmp++ = *pszMuxBits++; ++ } ++ *pszTmp = '\0'; ++ bit = OsFunc->Strtoul(pszMuxBit, &pszTmp, 10); ++ gpioFunctional(base, bit); ++ resetWait(HalDev); /* not sure if this is needed */ ++ } ++ } /*+RC3.02*/ ++#endif /* CPMAC */ ++ ++#ifdef _CPHAL_AAL5 ++const char hcSarFrequency[] = "SarFreq"; ++#endif ++ ++#endif /* _INC */ +diff -urN linux.old/drivers/atm/sangam_atm/cpcommon_cpaal5.h linux.dev/drivers/atm/sangam_atm/cpcommon_cpaal5.h +--- linux.old/drivers/atm/sangam_atm/cpcommon_cpaal5.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/cpcommon_cpaal5.h 2005-08-23 04:46:50.082845976 +0200 +@@ -0,0 +1,79 @@ ++#ifndef _INC_CPCOMMON_H ++#define _INC_CPCOMMON_H ++ ++#define VOLATILE32(addr) (*(volatile bit32u *)(addr)) ++#ifndef dbgPrintf ++#define dbgPrintf HalDev->OsFunc->Printf ++#endif ++ ++#define ChannelUpdate(Field) if(HalChn->Field != 0xFFFFFFFF) HalDev->ChData[Ch].Field = HalChn->Field ++ ++#define DBG(level) (HalDev->debug & (1<<(level))) ++/* ++#define DBG0() DBG(0) ++#define DBG1() DBG(1) ++#define DBG2() DBG(2) ++#define DBG3() DBG(3) ++#define DBG4() DBG(4) ++#define DBG5() DBG(5) ++#define DBG6() DBG(6) ++#define DBG7() DBG(7) ++*/ ++ ++/* ++ * List of defined actions for use with Control(). ++ */ ++typedef enum ++ { ++ enGET=0, /**< Get the value associated with a key */ ++ enSET, /**< Set the value associates with a key */ ++ enCLEAR, /**<Clear the value */ ++ enNULL /**< No data action, used to initiate a service or send a message */ ++ }ACTION; ++ ++/* ++ * Enumerated hardware states. ++ */ ++typedef enum ++ { ++ enConnected=1, enDevFound, enInitialized, enOpened ++ }DEVICE_STATE; ++ ++typedef enum ++ { ++ enCommonStart=0, ++ /* General */ ++ enOff, enOn, enDebug, ++ /* Module General */ ++ enCpuFreq, ++ enStatus, ++ enCommonEnd ++ }COMMON_KEY; ++ ++typedef struct ++ { ++ const char *strKey; ++ int enKey; ++ }CONTROL_KEY; ++ ++typedef struct ++ { ++ char *StatName; ++ unsigned int *StatPtr; ++ int DataType; /* 0: int, 1: hex int, 2:channel data */ ++ }STATS_TABLE; ++ ++typedef struct ++ { ++ int NumberOfStats; ++ STATS_TABLE *StatTable; ++ }STATS_DB; ++ ++#define osfuncSioFlush() HalDev->OsFunc->Control(HalDev->OsDev,"SioFlush",pszNULL,0) ++#define osfuncSleep(Ticks) HalDev->OsFunc->Control(HalDev->OsDev,pszSleep,pszNULL,Ticks) ++#define osfuncStateChange() HalDev->OsFunc->Control(HalDev->OsDev,pszStateChange,pszNULL,0) ++ ++#define CHANNEL_NAMES {"Ch0","Ch1","Ch2","Ch3","Ch4","Ch5","Ch6","Ch7","Ch8","Ch9","Ch10","Ch11","Ch12","Ch13","Ch14","Ch15"} ++ ++#endif ++ +diff -urN linux.old/drivers/atm/sangam_atm/cpcommon_cpsar.c linux.dev/drivers/atm/sangam_atm/cpcommon_cpsar.c +--- linux.old/drivers/atm/sangam_atm/cpcommon_cpsar.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/cpcommon_cpsar.c 2005-08-23 04:46:50.082845976 +0200 +@@ -0,0 +1,728 @@ ++#ifndef _INC_CPCOMMON_C ++#define _INC_CPCOMMON_C ++ ++#ifdef _CPHAL_CPMAC ++#include "cpremap_cpmac.c" ++#endif ++ ++#ifdef _CPHAL_AAL5 ++#include "cpremap_cpaal5.c" ++#endif ++ ++#ifdef _CPHAL_CPSAR ++#include "cpremap_cpsar.c" ++#endif ++ ++#ifdef _CPHAL_AAL2 ++#include "cpremap_cpaal2.c" ++#endif ++ ++/** ++@defgroup Common_Config_Params Common Configuration Parameters ++ ++This section documents the configuration parameters that are valid across ++all CPHAL devices. ++@{ ++*/ ++/** This is the debug level. The field is bit defined, such that the user ++should set to 1 all the bits corresponding to desired debug outputs. The following ++are the meanings for each debug bit: ++- bit0 (LSB): CPHAL Function Trace ++- b1 : OS Function call trace ++- b2 : Critical section entry/exit ++- b3 : Memory allocation/destruction ++- b4 : Detailed information in Rx path ++- b5 : Detailed information in Tx path ++- b6 : Extended error information ++- b7 : General info ++*/ ++static const char pszDebug[] = "debug"; ++/** CPU Frequency. */ ++/*static const char pszCpuFreq[] = "CpuFreq";*/ /*MJH-030403*/ ++/** Base address for the module. */ ++static const char pszBase[] = "base"; ++/** Reset bit for the module. */ ++static const char pszResetBit[] = "reset_bit"; ++/** Reset base address for the module. */ ++static const char pszResetBase[] = "ResetBase"; ++/** Interrupt line for the module. */ ++static const char pszIntLine[] = "int_line"; ++/** VLYNQ offset for the module. Disregard if not using VLYNQ. */ ++static const char pszOffset[] = "offset"; ++/** The OS may "Get" this parameter, which is a pointer ++ to a character string that indicates the version of CPHAL. */ ++static const char pszVer[] = "Version"; ++/*@}*/ ++ ++/** ++@defgroup Common_Control_Params Common Keys for [os]Control() ++ ++This section documents the keys used with the OS @c Control() interface that ++are required by CPHAL devices. ++ ++@{ ++*/ ++/** Used to wait for an integer number of clock ticks, given as an integer ++ pointer in the @p Value parameter. No actions are defined. */ ++static const char pszSleep[] = "Sleep"; ++/** Requests the OS to flush it's IO buffers. No actions are defined. */ ++static const char pszSioFlush[] = "SioFlush"; ++/*@}*/ ++ ++static const char pszStateChange[] = "StateChange"; ++static const char pszStatus[] = "Status"; ++ ++static const char pszGET[] = "Get"; ++static const char pszSET[] = "Set"; ++static const char pszCLEAR[] = "Clear"; ++static const char pszNULL[] = ""; ++static const char pszLocator[] = "Locator"; ++static const char pszOff[] = "Off"; ++static const char pszOn[] = "On"; ++static const char hcMaxFrags[] = "MaxFrags"; ++ ++#ifdef _CPHAL_CPMAC ++ ++/* New method for string constants */ ++const char hcClear[] = "Clear"; ++const char hcGet[] = "Get"; ++const char hcSet[] = "Set"; ++ ++const char hcTick[] = "Tick"; ++ ++static const CONTROL_KEY KeyCommon[] = ++ { ++ {"" , enCommonStart}, ++ {pszStatus , enStatus}, ++ {pszOff , enOff}, ++ {pszOn , enOn}, ++ {pszDebug , enDebug}, ++ {hcCpuFrequency , enCpuFreq}, /*MJH~030403*/ ++ {"" , enCommonEnd} ++ }; ++#endif ++ ++/** ++@defgroup Common_Statistics Statistics ++ ++A broad array of module statistics is available. Statistics values are accessed ++through the @c Control() interface of the CPHAL. There are 5 different levels ++of statistics, each of which correspond to a unique set of data. Furthermore, ++certain statistics data is indexed by using a channel number and Tx queue number. ++The following is a brief description of each statistics level, along with the ++indexes used for the level: ++ ++- Level 0: Hardware Statistics (index with channel) ++- Level 1: CPHAL Software Statistics (channel, queue) ++- Level 2: CPHAL Flags (channel, queue) ++- Level 3: CPHAL Channel Configuration (channel) ++- Level 4: CPHAL General Configuration (no index) ++ ++The caller requests statistics information by providing a Key string to the ++@c Control() API in the following format: "Stats;[Level #];[Ch #];[Queue #]". ++The only valid Action parameter for statistics usage is "Get". ++ ++Code Examples: ++@code ++unsigned int *StatsData; ++ ++# Get Level 0 stats for Channel 1 ++HalFunc->Control(OsDev->HalDev, "Stats;0;1", "Get", &StatsData); ++ ++# Get Level 2 stats for Channel 0, Queue 0 ++HalFunc->Control(OsDev->HalDev, "Stats;2;0;0", "Get", &StatsData); ++ ++# Get Level 4 stats ++HalFunc->Control(OsDev->HalDev, "Stats;4", "Get", &StatsData); ++@endcode ++ ++The information returned in the Value parameter of @c Control() is an ++array of pointers to strings. The pointers are arranged in pairs. ++The first pointer is a pointer to a name string for a particular statistic. ++The next pointer is a pointer to a string containing the representation of ++the integer statistic value corresponding to the first pointer. This is followed ++by another pair of pointers, and so on, until a NULL pointer is encountered. The ++following is example code for processing the statistics data. Note that the OS ++is responsible for freeing the memory passed back through the Value parameter of ++@c Control(). ++ ++@code ++unsigned int *StatsData; ++ ++# Get Level 0 stats for Channel 1 ++HalFunc->Control(OsDev->HalDev, "Stats;0;1", "Get", &StatsData); ++ ++# output Statistics data ++PrintStats(StatsData); ++ ++# the upper layer is responsible for freeing stats info ++free(&StatsPtr); ++ ++... ++ ++void PrintStats(unsigned int *StatsPtr) ++ { ++ while(*StatsPtr) ++ { ++ printf("%20s:", (char *)*StatsPtr); ++ StatsPtr++; ++ printf("%11s\n", (char *)*StatsPtr); ++ StatsPtr++; ++ } ++ MySioFlush(); ++ } ++@endcode ++ ++Within each statistics level, there are several statistics defined. The statistics that ++are common to every CPPI module are listed below. In addition, each module may define ++extra statistics in each level, which will be documented within the module-specific ++documentation appendices. ++ ++- Level 0 Statistics ++ - All level 0 statistics are module-specific. ++- Level 1 Statistics (CPHAL Software Statistics) ++ - DmaLenErrors: Incremented when the port DMA's more data than expected (per channel). (AAL5 Only) ++ - TxMisQCnt: Incremented when host queues a packet for transmission as the port finishes ++transmitting the previous last packet in the queue (per channel and queue). ++ - RxMisQCnt: Incremented when host queues adds buffers to a queue as the port finished the ++reception of the previous last packet in the queue (per channel). ++ - TxEOQCnt: Number of times the port has reached the end of the transmit queue (per channel and queue). ++ - RxEOQCnt: Number of times the port has reached the end of the receive queue (per channel). ++ - RxPacketsServiced: Number of received packets (per channel). ++ - TxPacketsServiced: Number of transmitted packets (per channel and queue). ++ - RxMaxServiced: Maximum number of packets that the CPHAL receive interrupt has serviced at a time (per channel). ++ - TxMaxServiced: Maximum number of packets that the CPHAL transmit interrupt has serviced at a time (per channel and queue). ++ - RxTotal: Total number of received packets, all channels. ++ - TxTotal: Total number of transmitted packets, all channels and queues. ++- Level 2 Statistics (CPHAL Flags) ++ - RcbPool: Pointer to receive descriptor pool (per channel). ++ - RxActQueueCount: Number of buffers currently available for receive (per channel). ++ - RxActQueueHead: Pointer to first buffer in receive queue (per channel). ++ - RxActQueueTail: Pointer to last buffer in receive queue (per channel). ++ - RxActive: 0 if inactive (no buffers available), or 1 if active (buffers available). ++ - RcbStart: Pointer to block of receive descriptors. ++ - RxTeardownPending: 1 if Rx teardown is pending but incomplete, 0 otherwise. ++ - TcbPool: Pointer to transmit descriptor pool (per channel and queue). ++ - TxActQueueCount: Number of buffers currently queued to be transmitted (per channel and queue). ++ - TxActQueueHead: Pointer to first buffer in transmit queue (per channel and queue). ++ - TxActQueueTail: Pointer to last buffer in transmit queue (per channel and queue). ++ - TxActive: 0 if inactive (no buffers to send), or 1 if active (buffers queued to send). ++ - TcbStart: Pointer to block of transmit descriptors. ++ - TxTeardownPending: 1 if Tx teardown is pending but incomplete, 0 otherwise. ++- Level 3 Statistics (CPHAL Channel Configuration) ++ - RxBufSize: Rx buffer size. ++ - RxBufferOffset: Rx buffer offset. ++ - RxNumBuffers: Number of Rx buffers. ++ - RxServiceMax: Maximum number of receive packets to service at a time. ++ - TxNumBuffers: Number of Tx buffer descriptors. ++ - TxNumQueues: Number of Tx queues to use. ++ - TxServiceMax: Maximum number of transmit packets to service at a time. ++- Level 4 Statistics (CPHAL General Configuration) ++ - Base Address: Base address of the module. ++ - Offset (VLYNQ): VLYNQ relative module offset. ++ - Interrupt Line: Interrupt number. ++ - Debug: Debug flag, 1 to enable debug. ++ - Inst: Instance number. ++*/ ++ ++/* ++ Data Type 0 = int display ++ Data Type 1 = hex display ++ Data Type 2 = channel structure, int display ++ Data Type 3 = queue index and int display ++ Data Type 4 = queue index and hex display ++*/ ++#if (defined(_CPHAL_AAL5) || defined(_CPHAL_CPMAC)) /* +GSG 030307 */ ++static STATS_TABLE StatsTable0[] = ++ { ++#ifdef _CPHAL_AAL5 ++ /* Name , Data Ptr, Data Type */ ++ {"Crc Errors", 0, 0}, ++ {"Len Errors", 0, 0}, ++ {"Abort Errors", 0, 0}, ++ {"Starv Errors", 0, 0} ++#endif ++#ifdef _CPHAL_CPMAC ++ {"Rx Good Frames", 0, 0} ++#endif ++ }; ++ ++static STATS_TABLE StatsTable1[] = ++ { ++ /* Name , Data Ptr, Data Type */ ++ {"DmaLenErrors", 0, 0}, ++ {"TxMisQCnt", 0, 3}, ++ {"RxMisQCnt", 0, 0}, ++ {"TxEOQCnt", 0, 3}, ++ {"RxEOQCnt", 0, 0}, ++ {"RxPacketsServiced", 0, 0}, ++ {"TxPacketsServiced", 0, 3}, ++ {"RxMaxServiced", 0, 0}, ++ {"TxMaxServiced", 0, 3}, ++ {"RxTotal", 0, 0}, ++ {"TxTotal", 0, 0}, ++ }; ++ ++static STATS_TABLE StatsTable2[] = ++ { ++ /* Name , Data Ptr, Data Type */ ++ {"RcbPool", 0, 1}, ++ {"RxActQueueCount", 0, 0}, ++ {"RxActQueueHead", 0, 1}, ++ {"RxActQueueTail", 0, 1}, ++ {"RxActive", 0, 0}, ++ {"RcbStart", 0, 1}, ++ {"RxTeardownPending", 0, 0}, ++ {"TcbPool", 0, 4}, ++ {"TxActQueueCount", 0, 3}, ++ {"TxActQueueHead", 0, 4}, ++ {"TxActQueueTail", 0, 4}, ++ {"TxActive", 0, 3}, ++ {"TcbStart", 0, 4}, ++ {"TxTeardownPending", 0, 0} ++ }; ++ ++static STATS_TABLE StatsTable3[] = ++ { ++ /* Name , Data Ptr, Data Type */ ++ {"RxBufSize", 0, 2}, ++ {"RxBufferOffset", 0, 2}, ++ {"RxNumBuffers", 0, 2}, ++ {"RxServiceMax", 0, 2}, ++ {"TxNumBuffers", 0, 2}, ++ {"TxNumQueues", 0, 2}, ++ {"TxServiceMax", 0, 2}, ++#ifdef _CPHAL_AAL5 ++ {"CpcsUU", 0, 2}, ++ {"Gfc", 0, 2}, ++ {"Clp", 0, 2}, ++ {"Pti", 0, 2}, ++ {"DaMask", 0, 2}, ++ {"Priority", 0, 2}, ++ {"PktType", 0, 2}, ++ {"Vci", 0, 2}, ++ {"Vpi", 0, 2}, ++ {"CellRate", 0, 2}, ++ {"QosType", 0, 2}, ++ {"Mbs", 0, 2}, ++ {"Pcr", 0, 2} ++#endif ++ }; ++ ++static STATS_TABLE StatsTable4[] = ++ { ++ {"Base Address", 0, 1}, ++ {"Offset (VLYNQ)", 0, 0}, ++ {"Interrupt Line", 0, 0}, ++ {"Debug", 0, 0}, ++ {"Instance", 0, 0}, ++#ifdef _CPHAL_AAL5 ++ {"UniNni", 0, 0} ++#endif ++ }; ++ ++static STATS_DB StatsDb[] = ++ { ++ {(sizeof(StatsTable0)/sizeof(STATS_TABLE)), StatsTable0}, ++ {(sizeof(StatsTable1)/sizeof(STATS_TABLE)), StatsTable1}, ++ {(sizeof(StatsTable2)/sizeof(STATS_TABLE)), StatsTable2}, ++ {(sizeof(StatsTable3)/sizeof(STATS_TABLE)), StatsTable3}, ++ {(sizeof(StatsTable4)/sizeof(STATS_TABLE)), StatsTable4} ++ }; ++#endif /* +GSG 030307 */ ++ ++#ifdef _CPHAL_CPMAC /* +RC 3.02 */ ++static void resetWait(HAL_DEVICE *HalDev) ++ { /*+RC3.02*/ ++ const int TickReset=64; ++ osfuncSleep((int*)&TickReset); ++ } /*+RC3.02*/ ++#endif /* +RC 3.02 */ ++ ++/* I only define the reset base function for the modules ++ that can perform a reset. The AAL5 and AAL2 modules ++ do not perform a reset, that is done by the shared module ++ CPSAR */ ++#if defined(_CPHAL_CPSAR) || defined(_CPHAL_CPMAC) || defined(_CPHAL_VDMAVT) ++/* ++ * Determines the reset register address to be used for a particular device. ++ * It will search the current device entry for Locator information. If the ++ * device is a root device, there will be no Locator information, and the ++ * function will find and return the root reset register. If a Locator value ++ * is found, the function will search each VLYNQ device entry in the system ++ * looking for a matching Locator. Once it finds a VLYNQ device entry with ++ * a matching Locator, it will extract the "ResetBase" parameter from that ++ * VLYNQ device entry (thus every VLYNQ entry must have the ResetBase parameter). ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * @param ResetBase Pointer to integer address of reset register. ++ * ++ * @return 0 OK, Non-zero not OK ++ */ ++static int ResetBaseGet(HAL_DEVICE *HalDev, bit32u *ResetBase) ++ { ++ char *DeviceInfo = HalDev->DeviceInfo; ++ char *MyLocator, *NextLocator; ++ int Inst=1; ++ bit32u error_code; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpcommon]ResetBaseGet(HalDev:%08x, ResetBase:%08x)\n", (bit32u)HalDev, ResetBase); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ error_code = HalDev->OsFunc->DeviceFindParmValue(DeviceInfo, "Locator", &MyLocator); ++ if (error_code) ++ { ++ /* if no Locator value, device is on the root, so get the "reset" device */ ++ error_code = HalDev->OsFunc->DeviceFindInfo(0, "reset", &DeviceInfo); ++ if (error_code) ++ { ++ return(EC_VAL_DEVICE_NOT_FOUND); ++ } ++ ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, "base", ResetBase); ++ if (error_code) ++ { ++ return(EC_VAL_BASE_ADDR_NOT_FOUND); ++ } ++ ++ *ResetBase = ((bit32u)PhysToVirtNoCache(*ResetBase)); ++ ++ /* found base address for root device, so we're done */ ++ return (EC_NO_ERRORS); ++ } ++ else ++ { ++ /* we have a Locator value, so the device is remote */ ++ ++ /* Find a vlynq device with a matching locator value */ ++ while ((HalDev->OsFunc->DeviceFindInfo(Inst, "vlynq", &DeviceInfo)) == EC_NO_ERRORS) ++ { ++ error_code = HalDev->OsFunc->DeviceFindParmValue(DeviceInfo, "Locator", &NextLocator); ++ if (error_code) ++ { ++ /* no Locator value for this VLYNQ, so move on */ ++ continue; ++ } ++ if (HalDev->OsFunc->Strcmpi(MyLocator, NextLocator)==0) ++ { ++ /* we have found a VLYNQ with a matching Locator, so extract the ResetBase */ ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, "ResetBase", ResetBase); ++ if (error_code) ++ { ++ return(EC_VAL_BASE_ADDR_NOT_FOUND); ++ } ++ *ResetBase = ((bit32u)PhysToVirtNoCache(*ResetBase)); ++ ++ /* found base address for root device, so we're done */ ++ return (EC_NO_ERRORS); ++ } ++ Inst++; ++ } /* while */ ++ } /* else */ ++ ++ return (EC_NO_ERRORS); ++ } ++#endif ++ ++#ifndef _CPHAL_AAL2 /* + RC 3.02 */ ++static bit32u ConfigGetCommon(HAL_DEVICE *HalDev) ++ { ++ bit32u ParmValue; ++ bit32 error_code; ++ char *DeviceInfo = HalDev->DeviceInfo; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpcommon]ConfigGetCommon(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, pszBase, &ParmValue); ++ if (error_code) ++ { ++ return(EC_FUNC_HAL_INIT|EC_VAL_BASE_ADDR_NOT_FOUND); ++ } ++ HalDev->dev_base = ((bit32u)PhysToVirtNoCache(ParmValue)); ++ ++#ifndef _CPHAL_AAL5 ++#ifndef _CPHAL_AAL2 ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, pszResetBit, &ParmValue); ++ if(error_code) ++ { ++ return(EC_FUNC_HAL_INIT|EC_VAL_RESET_BIT_NOT_FOUND); ++ } ++ HalDev->ResetBit = ParmValue; ++ ++ /* Get reset base address */ ++ error_code = ResetBaseGet(HalDev, &ParmValue); ++ if (error_code) ++ return(EC_FUNC_HAL_INIT|EC_VAL_RESET_BASE_NOT_FOUND); ++ HalDev->ResetBase = ParmValue; ++#endif ++#endif ++ ++#ifndef _CPHAL_CPSAR ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, pszIntLine,&ParmValue); ++ if (error_code) ++ { ++ return(EC_FUNC_HAL_INIT|EC_VAL_INTERRUPT_NOT_FOUND); ++ } ++ HalDev->interrupt = ParmValue; ++#endif ++ ++ /* only look for the offset if there is a Locator field, which indicates that ++ the module is a VLYNQ module */ ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, pszLocator,&ParmValue); ++ if (!error_code) ++ { ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, pszOffset,&ParmValue); ++ if (error_code) ++ { ++ return(EC_FUNC_HAL_INIT|EC_VAL_OFFSET_NOT_FOUND); ++ } ++ HalDev->offset = ParmValue; ++ } ++ else ++ HalDev->offset = 0; ++ ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo, pszDebug, &ParmValue); ++ if (!error_code) HalDev->debug = ParmValue; ++ ++ return (EC_NO_ERRORS); ++ } ++#endif /* +RC 3.02 */ ++ ++#ifdef _CPHAL_CPMAC /* +RC 3.02 */ ++static void StatsInit(HAL_DEVICE *HalDev) /* +() RC3.02 */ ++ { ++ /* even though these statistics may be for multiple channels and ++ queues, i need only configure the pointer to the beginning ++ of the array, and I can index from there if necessary */ ++ ++#ifdef _CPHAL_AAL5 ++ StatsTable0[0].StatPtr = &HalDev->Stats.CrcErrors[0]; ++ StatsTable0[1].StatPtr = &HalDev->Stats.LenErrors[0]; ++ StatsTable0[2].StatPtr = &HalDev->Stats.AbortErrors[0]; ++ StatsTable0[3].StatPtr = &HalDev->Stats.StarvErrors[0]; ++ ++ StatsTable1[0].StatPtr = &HalDev->Stats.DmaLenErrors[0]; ++ StatsTable1[1].StatPtr = &HalDev->Stats.TxMisQCnt[0][0]; ++ StatsTable1[2].StatPtr = &HalDev->Stats.RxMisQCnt[0]; ++ StatsTable1[3].StatPtr = &HalDev->Stats.TxEOQCnt[0][0]; ++ StatsTable1[4].StatPtr = &HalDev->Stats.RxEOQCnt[0]; ++ StatsTable1[5].StatPtr = &HalDev->Stats.RxPacketsServiced[0]; ++ StatsTable1[6].StatPtr = &HalDev->Stats.TxPacketsServiced[0][0]; ++ StatsTable1[7].StatPtr = &HalDev->Stats.RxMaxServiced; ++ StatsTable1[8].StatPtr = &HalDev->Stats.TxMaxServiced[0][0]; ++ StatsTable1[9].StatPtr = &HalDev->Stats.RxTotal; ++ StatsTable1[10].StatPtr = &HalDev->Stats.TxTotal; ++#endif ++ ++#if (defined(_CPHAL_AAL5) || defined(_CPHAL_CPMAC)) ++ StatsTable2[0].StatPtr = (bit32u *)&HalDev->RcbPool[0]; ++ StatsTable2[1].StatPtr = &HalDev->RxActQueueCount[0]; ++ StatsTable2[2].StatPtr = (bit32u *)&HalDev->RxActQueueHead[0]; ++ StatsTable2[3].StatPtr = (bit32u *)&HalDev->RxActQueueTail[0]; ++ StatsTable2[4].StatPtr = &HalDev->RxActive[0]; ++ StatsTable2[5].StatPtr = (bit32u *)&HalDev->RcbStart[0]; ++ StatsTable2[6].StatPtr = &HalDev->RxTeardownPending[0]; ++ StatsTable2[7].StatPtr = (bit32u *)&HalDev->TcbPool[0][0]; ++ StatsTable2[8].StatPtr = &HalDev->TxActQueueCount[0][0]; ++ StatsTable2[9].StatPtr = (bit32u *)&HalDev->TxActQueueHead[0][0]; ++ StatsTable2[10].StatPtr = (bit32u *)&HalDev->TxActQueueTail[0][0]; ++ StatsTable2[11].StatPtr = &HalDev->TxActive[0][0]; ++ StatsTable2[12].StatPtr = (bit32u *)&HalDev->TcbStart[0][0]; ++ StatsTable2[13].StatPtr = &HalDev->TxTeardownPending[0]; ++ ++ StatsTable3[0].StatPtr = &HalDev->ChData[0].RxBufSize; ++ StatsTable3[1].StatPtr = &HalDev->ChData[0].RxBufferOffset; ++ StatsTable3[2].StatPtr = &HalDev->ChData[0].RxNumBuffers; ++ StatsTable3[3].StatPtr = &HalDev->ChData[0].RxServiceMax; ++ StatsTable3[4].StatPtr = &HalDev->ChData[0].TxNumBuffers; ++ StatsTable3[5].StatPtr = &HalDev->ChData[0].TxNumQueues; ++ StatsTable3[6].StatPtr = &HalDev->ChData[0].TxServiceMax; ++#ifdef _CPHAL_AAL5 ++ StatsTable3[7].StatPtr = &HalDev->ChData[0].CpcsUU; ++ StatsTable3[8].StatPtr = &HalDev->ChData[0].Gfc; ++ StatsTable3[9].StatPtr = &HalDev->ChData[0].Clp; ++ StatsTable3[10].StatPtr = &HalDev->ChData[0].Pti; ++ StatsTable3[11].StatPtr = &HalDev->ChData[0].DaMask; ++ StatsTable3[12].StatPtr = &HalDev->ChData[0].Priority; ++ StatsTable3[13].StatPtr = &HalDev->ChData[0].PktType; ++ StatsTable3[14].StatPtr = &HalDev->ChData[0].Vci; ++ StatsTable3[15].StatPtr = &HalDev->ChData[0].Vpi; ++ StatsTable3[16].StatPtr = &HalDev->ChData[0].TxVc_CellRate; ++ StatsTable3[17].StatPtr = &HalDev->ChData[0].TxVc_QosType; ++ StatsTable3[18].StatPtr = &HalDev->ChData[0].TxVc_Mbs; ++ StatsTable3[19].StatPtr = &HalDev->ChData[0].TxVc_Pcr; ++#endif ++#endif ++ ++ StatsTable4[0].StatPtr = &HalDev->dev_base; ++ StatsTable4[1].StatPtr = &HalDev->offset; ++ StatsTable4[2].StatPtr = &HalDev->interrupt; ++ StatsTable4[3].StatPtr = &HalDev->debug; ++ StatsTable4[4].StatPtr = &HalDev->Inst; ++ } ++#endif /* +RC 3.02 */ ++ ++#ifndef _CPHAL_CPSAR /* +RC 3.02 */ ++#ifndef _CPHAL_AAL2 /* +RC 3.02 */ ++/* ++ * Returns statistics information. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * ++ * @return 0 ++ */ ++static int StatsGet(HAL_DEVICE *HalDev, void **StatPtr, int Index, int Ch, int Queue) ++ { ++ int Size; ++ bit32u *AddrPtr; ++ char *DataPtr; ++ STATS_TABLE *StatsTable; ++ int i, NumberOfStats; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpcommon]StatsGet(HalDev:%08x, StatPtr:%08x)\n", ++ (bit32u)HalDev, (bit32u)StatPtr); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ StatsTable = StatsDb[Index].StatTable; ++ NumberOfStats = StatsDb[Index].NumberOfStats; ++ ++ Size = sizeof(bit32u)*((NumberOfStats*2)+1); ++ Size += (NumberOfStats*11); ++ *StatPtr = (bit32u *)HalDev->OsFunc->Malloc(Size); ++ ++ AddrPtr = (bit32u *) *StatPtr; ++ DataPtr = (char *)AddrPtr; ++ DataPtr += sizeof(bit32u)*((NumberOfStats*2)+1); ++ ++ for (i=0; i<NumberOfStats; i++) ++ { ++ *AddrPtr++ = (bit32u)StatsTable[i].StatName; ++ *AddrPtr++ = (bit32u)DataPtr; ++ if (&StatsTable[i].StatPtr[Ch] != 0) ++ { ++ switch(StatsTable[i].DataType) ++ { ++ case 0: ++ HalDev->OsFunc->Sprintf(DataPtr, "%d", (bit32u *)StatsTable[i].StatPtr[Ch]); ++ break; ++ case 1: ++ HalDev->OsFunc->Sprintf(DataPtr, "0x%x", (bit32u *)StatsTable[i].StatPtr[Ch]); ++ break; ++ case 2: ++ HalDev->OsFunc->Sprintf(DataPtr, "%d", *((bit32u *)StatsTable[i].StatPtr + (Ch * (sizeof(CHANNEL_INFO)/4)))); ++ break; ++ case 3: ++ HalDev->OsFunc->Sprintf(DataPtr, "%d", *((bit32u *)StatsTable[i].StatPtr + (Ch*MAX_QUEUE)+Queue)); ++ break; ++ case 4: ++ HalDev->OsFunc->Sprintf(DataPtr, "0x%x", *((bit32u *)StatsTable[i].StatPtr + (Ch*MAX_QUEUE)+Queue)); ++ break; ++ default: ++ /* invalid data type, due to CPHAL programming error */ ++ break; ++ } ++ } ++ else ++ { ++ /* invalid statistics pointer, probably was not initialized */ ++ } ++ DataPtr += HalDev->OsFunc->Strlen(DataPtr) + 1; ++ } ++ ++ *AddrPtr = (bit32u) 0; ++ ++ return (EC_NO_ERRORS); ++ } ++#endif /* +RC 3.02 */ ++#endif /* +RC 3.02 */ ++ ++#ifdef _CPHAL_CPMAC ++static void gpioFunctional(int base, int bit) ++ { /*+RC3.02*/ ++ bit32u GpioEnr = base + 0xC; ++ /* To make functional, set to zero */ ++ *(volatile bit32u *)(GpioEnr) &= ~(1 << bit); /*+RC3.02*/ ++ } /*+RC3.02*/ ++ ++ ++/*+RC3.02*/ ++/* Common function, Checks to see if GPIO should be in functional mode */ ++static void gpioCheck(HAL_DEVICE *HalDev, void *moduleDeviceInfo) ++ { /*+RC3.02*/ ++ int rc; ++ void *DeviceInfo; ++ char *pszMuxBits; ++ char pszMuxBit[20]; ++ char *pszTmp; ++ char szMuxBit[20]; ++ char *ptr; ++ int base; ++ int reset_bit; ++ int bit; ++ OS_FUNCTIONS *OsFunc = HalDev->OsFunc; ++ ++ rc = OsFunc->DeviceFindParmValue(moduleDeviceInfo, "gpio_mux",&pszTmp); ++ if(rc) return; ++ /* gpio entry found, get GPIO register info and make functional */ ++ ++ /* temp copy until FinParmValue fixed */ ++ ptr = &szMuxBit[0]; ++ while ((*ptr++ = *pszTmp++)); ++ ++ pszMuxBits = &szMuxBit[0]; ++ ++ rc = OsFunc->DeviceFindInfo(0,"gpio",&DeviceInfo); ++ if(rc) return; ++ ++ rc = OsFunc->DeviceFindParmUint(DeviceInfo, "base",&base); ++ if(rc) return; ++ ++ rc = OsFunc->DeviceFindParmUint(DeviceInfo, "reset_bit",&reset_bit); ++ if(rc) return; ++ ++ /* If GPIO still in reset, then exit */ ++ if((VOLATILE32(HalDev->ResetBase) & (1 << reset_bit)) == 0) ++ return; ++ /* format for gpio_mux is gpio_mux = <int>;<int>;<int>...*/ ++ while (*pszMuxBits) ++ { ++ pszTmp = &pszMuxBit[0]; ++ if(*pszMuxBits == ';') pszMuxBits++; ++ while ((*pszMuxBits != ';') && (*pszMuxBits != '\0')) ++ { ++ osfuncSioFlush(); ++ /*If value not a number, skip */ ++ if((*pszMuxBits < '0') || (*pszMuxBits > '9')) ++ pszMuxBits++; ++ else ++ *pszTmp++ = *pszMuxBits++; ++ } ++ *pszTmp = '\0'; ++ bit = OsFunc->Strtoul(pszMuxBit, &pszTmp, 10); ++ gpioFunctional(base, bit); ++ resetWait(HalDev); /* not sure if this is needed */ ++ } ++ } /*+RC3.02*/ ++#endif /* CPMAC */ ++ ++#ifdef _CPHAL_AAL5 ++const char hcSarFrequency[] = "SarFreq"; ++#endif ++ ++#endif /* _INC */ +diff -urN linux.old/drivers/atm/sangam_atm/cpcommon_cpsar.h linux.dev/drivers/atm/sangam_atm/cpcommon_cpsar.h +--- linux.old/drivers/atm/sangam_atm/cpcommon_cpsar.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/cpcommon_cpsar.h 2005-08-23 04:46:50.083845824 +0200 +@@ -0,0 +1,79 @@ ++#ifndef _INC_CPCOMMON_H ++#define _INC_CPCOMMON_H ++ ++#define VOLATILE32(addr) (*(volatile bit32u *)(addr)) ++#ifndef dbgPrintf ++#define dbgPrintf HalDev->OsFunc->Printf ++#endif ++ ++#define ChannelUpdate(Field) if(HalChn->Field != 0xFFFFFFFF) HalDev->ChData[Ch].Field = HalChn->Field ++ ++#define DBG(level) (HalDev->debug & (1<<(level))) ++/* ++#define DBG0() DBG(0) ++#define DBG1() DBG(1) ++#define DBG2() DBG(2) ++#define DBG3() DBG(3) ++#define DBG4() DBG(4) ++#define DBG5() DBG(5) ++#define DBG6() DBG(6) ++#define DBG7() DBG(7) ++*/ ++ ++/* ++ * List of defined actions for use with Control(). ++ */ ++typedef enum ++ { ++ enGET=0, /**< Get the value associated with a key */ ++ enSET, /**< Set the value associates with a key */ ++ enCLEAR, /**<Clear the value */ ++ enNULL /**< No data action, used to initiate a service or send a message */ ++ }ACTION; ++ ++/* ++ * Enumerated hardware states. ++ */ ++typedef enum ++ { ++ enConnected=1, enDevFound, enInitialized, enOpened ++ }DEVICE_STATE; ++ ++typedef enum ++ { ++ enCommonStart=0, ++ /* General */ ++ enOff, enOn, enDebug, ++ /* Module General */ ++ enCpuFreq, ++ enStatus, ++ enCommonEnd ++ }COMMON_KEY; ++ ++typedef struct ++ { ++ const char *strKey; ++ int enKey; ++ }CONTROL_KEY; ++ ++typedef struct ++ { ++ char *StatName; ++ unsigned int *StatPtr; ++ int DataType; /* 0: int, 1: hex int, 2:channel data */ ++ }STATS_TABLE; ++ ++typedef struct ++ { ++ int NumberOfStats; ++ STATS_TABLE *StatTable; ++ }STATS_DB; ++ ++#define osfuncSioFlush() HalDev->OsFunc->Control(HalDev->OsDev,"SioFlush",pszNULL,0) ++#define osfuncSleep(Ticks) HalDev->OsFunc->Control(HalDev->OsDev,pszSleep,pszNULL,Ticks) ++#define osfuncStateChange() HalDev->OsFunc->Control(HalDev->OsDev,pszStateChange,pszNULL,0) ++ ++#define CHANNEL_NAMES {"Ch0","Ch1","Ch2","Ch3","Ch4","Ch5","Ch6","Ch7","Ch8","Ch9","Ch10","Ch11","Ch12","Ch13","Ch14","Ch15"} ++ ++#endif ++ +diff -urN linux.old/drivers/atm/sangam_atm/cppi_cpaal5.c linux.dev/drivers/atm/sangam_atm/cppi_cpaal5.c +--- linux.old/drivers/atm/sangam_atm/cppi_cpaal5.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/cppi_cpaal5.c 2005-08-23 04:46:50.084845672 +0200 +@@ -0,0 +1,1483 @@ ++/************************************************************************* ++ * TNETDxxxx Software Support ++ * Copyright (c) 2002,2003 Texas Instruments Incorporated. All Rights Reserved. ++ * ++ * FILE: cppi.c ++ * ++ * DESCRIPTION: ++ * This file contains shared code for all CPPI modules. ++ * ++ * HISTORY: ++ * 7Aug02 Greg RC1.00 Original Version created. ++ * 27Sep02 Mick RC1.01 Merged for use by CPMAC/CPSAR ++ * 16Oct02 Mick RC1.02 Performance Tweaks (see cppihist.txt) ++ * 12Nov02 Mick RC1.02 Updated to use cpmac_reg.h ++ * 09Jan03 Mick RC3.01 Removed modification to RxBuffer ptr ++ * 28Mar03 Mick 1.03 RxReturn now returns error if Malloc Fails ++ * 10Apr03 Mick 1.03.02 Added Needs Buffer Support ++ * 11Jun03 Mick 1.06.02 halSend() errors corrected ++ * ++ * @author Greg Guyotte ++ * @version 1.00 ++ * @date 7-Aug-2002 ++ *****************************************************************************/ ++/* each CPPI module must modify this file, the rest of the ++ code in cppi.c should be totally shared *//* Each CPPI module MUST properly define all constants shown below */ ++ ++/* CPPI registers */ ++ ++/* the following defines are not CPPI specific, but still used by cppi.c */ ++ ++static void FreeRx(HAL_DEVICE *HalDev, int Ch) ++ { ++ HAL_RCB *rcb_ptr; /*+GSG 030303*/ ++ int rcbSize = (sizeof(HAL_RCB)+0xf)&~0xf; /*+GSG 030303*/ ++ int Num = HalDev->ChData[Ch].RxNumBuffers, i; /*+GSG 030303*/ ++ ++ /* Free Rx data buffers attached to descriptors, if necessary */ ++ if (HalDev->RcbStart[Ch] != 0) /*+GSG 030303*/ ++ { /*+GSG 030303*/ ++ for(i=0;i<Num;i++) /*+GSG 030303*/ ++ { /*+GSG 030303*/ ++ rcb_ptr = (HAL_RCB *)(HalDev->RcbStart[Ch] + (i*rcbSize)); /*+GSG 030303*/ ++ ++ /* free the data buffer */ ++ if (rcb_ptr->DatPtr != 0) ++ { ++ ++ HalDev->OsFunc->FreeRxBuffer((void *)rcb_ptr->OsInfo, (void *)rcb_ptr->DatPtr); ++ rcb_ptr->OsInfo=0; /*MJH+030522*/ ++ rcb_ptr->DatPtr=0; /*MJH+030522*/ ++ } ++ } /*+GSG 030303*/ ++ } /*+GSG 030303*/ ++ ++ /* free up all desciptors at once */ ++ HalDev->OsFunc->FreeDmaXfer(HalDev->RcbStart[Ch]); ++ ++ /* mark buffers as freed */ ++ HalDev->RcbStart[Ch] = 0; ++ } ++ ++static void FreeTx(HAL_DEVICE *HalDev, int Ch, int Queue) ++ { ++ ++/*+GSG 030303*/ ++ ++ /* free all descriptors at once */ ++ HalDev->OsFunc->FreeDmaXfer(HalDev->TcbStart[Ch][Queue]); ++ ++ HalDev->TcbStart[Ch][Queue] = 0; ++ } ++ ++/* return of 0 means that this code executed, -1 means the interrupt was not ++ a teardown interrupt */ ++static int RxTeardownInt(HAL_DEVICE *HalDev, int Ch) ++ { ++ bit32u base = HalDev->dev_base; ++ ++ int i; ++ volatile bit32u *pTmp; ++ ++ /* check to see if the interrupt is a teardown interrupt */ ++ if (((*(pRX_CPPI_COMP_PTR( base )+( Ch *64))) & TEARDOWN_VAL) == TEARDOWN_VAL) ++ { ++ /* finish channel teardown */ ++ ++ /* Free channel resources on a FULL teardown */ ++ if (HalDev->RxTeardownPending[Ch] & FULL_TEARDOWN) ++ { ++ FreeRx(HalDev, Ch); ++ } ++ ++ /* bug fix - clear Rx channel pointers on teardown */ ++ HalDev->RcbPool[Ch] = 0; ++ HalDev->RxActQueueHead[Ch] = 0; ++ HalDev->RxActQueueCount[Ch] = 0; ++ HalDev->RxActive[Ch] = FALSE; ++ ++ /* write completion pointer */ ++ (*(pRX_CPPI_COMP_PTR( base )+( Ch *64))) = TEARDOWN_VAL; ++ ++ /* use direction bit as a teardown pending bit! May be able to ++ use only one teardown pending integer in HalDev */ ++ ++ HalDev->RxTeardownPending[Ch] &= ~RX_TEARDOWN; ++ ++ HalDev->ChIsOpen[Ch][DIRECTION_RX] = 0; ++ ++ /* call OS Teardown Complete (if TX is also done) */ ++ if ((HalDev->TxTeardownPending[Ch] & TX_TEARDOWN) == 0) ++ { ++ /* mark channel as closed */ ++ HalDev->ChIsOpen[Ch][DIRECTION_TX] = 0; ++ ++ /* disable channel interrupt */ ++ SAR_TX_MASK_CLR(HalDev->dev_base) = (1<<Ch); ++ SAR_TX_MASK_CLR(HalDev->dev_base) = (1<<(Ch+16)); /* +GSG 030307 */ ++ SAR_RX_MASK_CLR(HalDev->dev_base) = (1<<Ch); ++ ++ /* Clear PDSP Channel State RAM */ ++ pTmp = (pPDSP_BLOCK_0(HalDev->dev_base)+(Ch*64)); ++ for (i=0; i<NUM_PDSP_AAL5_STATE_WORDS; i++) ++ *pTmp++ = 0; ++ ++ if ((HalDev->RxTeardownPending[Ch] & BLOCKING_TEARDOWN) == 0) ++ { ++ ++ HalDev->OsFunc->TeardownComplete(HalDev->OsDev, Ch, DIRECTION_TX|DIRECTION_RX); ++ } ++ /* clear all teardown pending information for this channel */ ++ HalDev->RxTeardownPending[Ch] = 0; ++ HalDev->TxTeardownPending[Ch] = 0; ++ } ++ ++ return (EC_NO_ERRORS); ++ } ++ return (-1); ++ } ++ ++/* return of 0 means that this code executed, -1 means the interrupt was not ++ a teardown interrupt */ ++static int TxTeardownInt(HAL_DEVICE *HalDev, int Ch, int Queue) ++ { ++ bit32u base = HalDev->dev_base; ++ HAL_TCB *Last, *Curr, *First; /*+GSG 030303*/ ++ ++ int i; ++ volatile bit32u *pTmp; ++ ++ if (((*(pTXH_CPPI_COMP_PTR( base )+( Ch *64)+( Queue ))) & TEARDOWN_VAL) == TEARDOWN_VAL) ++ { ++ /* return outstanding buffers to OS +RC3.02*/ ++ Curr = HalDev->TxActQueueHead[Ch][Queue]; /*+GSG 030303*/ ++ First = Curr; /*+GSG 030303*/ ++ while (Curr) /*+GSG 030303*/ ++ { /*+GSG 030303*/ ++ /* Pop TCB(s) for packet from the stack */ /*+GSG 030303*/ ++ Last = Curr->Eop; /*+GSG 030303*/ ++ HalDev->TxActQueueHead[Ch][Queue] = Last->Next; /*+GSG 030303*/ ++ /*+GSG 030303*/ ++ /* return to OS */ /*+GSG 030303*/ ++ HalDev->OsFunc->SendComplete(Curr->OsInfo); /*+GSG 030303*/ ++ /*+GSG 030303*/ ++ /* Push Tcb(s) back onto the stack */ /*+GSG 030303*/ ++ Curr = Last->Next; /*+GSG 030303*/ ++ Last->Next = HalDev->TcbPool[Ch][Queue]; /*+GSG 030303*/ ++ HalDev->TcbPool[Ch][Queue] = First; /*+GSG 030303*/ ++ /*+GSG 030303*/ ++ /* set the first(SOP) pointer for the next packet */ /*+GSG 030303*/ ++ First = Curr; /*+GSG 030303*/ ++ } /*+GSG 030303*/ ++ ++ /* finish channel teardown */ ++ ++ /* save the OsInfo to pass to upper layer ++ THIS WAS CRASHING - because it's possible that I get the teardown ++ notification and the TcbHPool is null. In this case, the buffers ++ to free can be found in the TxHActiveQueue. If I need to get OsInfo ++ in the future, I can get it from one of those buffers. ++ OsInfo = HalDev->TcbHPool[Ch]->OsInfo; */ ++ ++ if (HalDev->TxTeardownPending[Ch] & FULL_TEARDOWN) ++ { ++ FreeTx(HalDev, Ch, Queue); ++ } /* if FULL teardown */ ++ ++ /* bug fix - clear Tx channel pointers on teardown */ ++ HalDev->TcbPool[Ch][Queue] = 0; ++ HalDev->TxActQueueHead[Ch][Queue] = 0; ++ HalDev->TxActQueueCount[Ch][Queue] = 0; ++ HalDev->TxActive[Ch][Queue] = FALSE; ++ ++ /* write completion pointer */ ++ (*(pTXH_CPPI_COMP_PTR( base )+( Ch *64)+( Queue ))) = TEARDOWN_VAL; ++ ++ /* no longer pending teardown */ ++ HalDev->TxTeardownPending[Ch] &= ~TX_TEARDOWN; ++ ++ HalDev->ChIsOpen[Ch][DIRECTION_TX] = 0; ++ ++ /* call OS Teardown Complete (if Rx is also done) */ ++ if ((HalDev->RxTeardownPending[Ch] & RX_TEARDOWN) == 0) ++ { ++ /* mark channel as closed */ ++ HalDev->ChIsOpen[Ch][DIRECTION_RX] = 0; ++ ++ /* disable channel interrupt */ ++ SAR_TX_MASK_CLR(HalDev->dev_base) = (1<<Ch); ++ SAR_TX_MASK_CLR(HalDev->dev_base) = (1<<(Ch+16)); /* +GSG 030307 */ ++ SAR_RX_MASK_CLR(HalDev->dev_base) = (1<<Ch); ++ ++ /* Clear PDSP Channel State RAM */ ++ pTmp = (pPDSP_BLOCK_0(HalDev->dev_base)+(Ch*64)); ++ for (i=0; i<NUM_PDSP_AAL5_STATE_WORDS; i++) ++ *pTmp++ = 0; ++ ++ if ((HalDev->TxTeardownPending[Ch] & BLOCKING_TEARDOWN) == 0) ++ { ++ ++ HalDev->OsFunc->TeardownComplete(HalDev->OsDev, Ch, DIRECTION_TX|DIRECTION_RX); ++ } ++ ++ /* clear all teardown pending information for this channel */ ++ HalDev->RxTeardownPending[Ch] = 0; ++ HalDev->TxTeardownPending[Ch] = 0; ++ } ++ ++ return (EC_NO_ERRORS); ++ } ++ return (-1); ++ } ++ ++/* +GSG 030421 */ ++static void AddToRxQueue(HAL_DEVICE *HalDev, HAL_RCB *FirstRcb, HAL_RCB *LastRcb, int FragCount, int Ch) ++ { ++ HAL_RCB *OldTailRcb; ++ ++ if (HalDev->RxActQueueCount[Ch]==0) ++ { ++ ++ HalDev->RxActQueueHead[Ch]=FirstRcb; ++ HalDev->RxActQueueTail[Ch]=LastRcb; ++ HalDev->RxActQueueCount[Ch]=FragCount; ++ if ((!HalDev->InRxInt[Ch])&&(!HalDev->RxActive[Ch])) ++ { ++ /* write Rx Queue Head Descriptor Pointer */ ++ (*(pRX_DMA_STATE_WORD_1( HalDev->dev_base )+( Ch *64))) = VirtToPhys(FirstRcb) - HalDev->offset; ++ HalDev->RxActive[Ch]=TRUE; ++ } ++ } ++ else ++ { ++ ++ OldTailRcb=HalDev->RxActQueueTail[Ch]; ++ OldTailRcb->Next=(void *)FirstRcb; ++ ++ /* Emerald fix 10/29 (Denis) */ ++ *((bit32u *) VirtToVirtNoCache(&OldTailRcb->HNext))=VirtToPhys(FirstRcb) - HalDev->offset; ++ ++ HalDev->RxActQueueTail[Ch]=LastRcb; ++ HalDev->RxActQueueCount[Ch]+=FragCount; ++ } ++ } ++ ++/** ++ * @ingroup CPHAL_Functions ++ * This function is called to indicate to the CPHAL that the upper layer ++ * software has finished processing the receive data (given to it by ++ * osReceive()). The CPHAL will then return the appropriate receive buffers ++ * and buffer descriptors to the available pool. ++ * ++ * @param HalReceiveInfo Start of receive buffer descriptor chain returned to ++ * CPHAL. ++ * @param StripFlag Flag indicating whether the upper layer software has ++ * retained ownership of the receive data buffers. ++ *<BR> ++ * 'FALSE' means that the CPHAL can reuse the receive data buffers. ++ *<BR> ++ * 'TRUE' : indicates the data buffers were retained by the OS ++ *<BR> ++ * NOTE: If StripFlag is TRUE, it is the responsibility of the upper layer software to free the buffers when they are no longer needed. ++ * ++ * @return EC_NO_ERRORS (ok). <BR> ++ * Possible Error Codes:<BR> ++ * @ref EC_VAL_INVALID_STATE "EC_VAL_INVALID_STATE"<BR> ++ * @ref EC_VAL_RCB_NEEDS_BUFFER "EC_VAL_RCB_NEEDS_BUFFER"<BR> ++ * @ref EC_VAL_RCB_DROPPED "EC_VAL_RCB_DROPPED"<BR> ++ */ ++static int halRxReturn(HAL_RECEIVEINFO *HalReceiveInfo, ++ int StripFlag) ++ { ++ int Ch = HalReceiveInfo->Ch, i; ++ HAL_RCB *LastRcb, *TempRcb; ++ char *pBuf; ++ HAL_RCB *CurrHeadRcb = HalReceiveInfo, *LastGoodRcb=0; /* +GSG 030421 */ ++ HAL_DEVICE *HalDev = HalReceiveInfo->HalDev; ++ int RcbSize = HalDev->ChData[Ch].RxBufSize; ++ int FragCount = HalReceiveInfo->FragCount; ++ int rc=0; /*MJH+030417*/ ++ int GoodCount=0; /*GSG+030421*/ ++ ++ if (HalDev->State != enOpened) ++ return(EC_AAL5 |EC_FUNC_RXRETURN|EC_VAL_INVALID_STATE); ++ ++ LastRcb=(HAL_RCB *)HalReceiveInfo->Eop; ++ LastRcb->HNext=0; ++ LastRcb->Next=0; ++ ++ if (FragCount>1) ++ { ++ LastRcb->Off_BLen=RcbSize; ++ LastRcb->mode=CB_OWNERSHIP_BIT; ++ } ++ ++ HalReceiveInfo->Off_BLen=RcbSize; ++ HalReceiveInfo->mode=CB_OWNERSHIP_BIT; ++ ++ /* If OS has kept the buffers for this packet, attempt to alloc new buffers */ ++ if (StripFlag) ++ { ++ TempRcb = HalReceiveInfo; ++ for (i=0; i<FragCount; i++) ++ { ++ if (TempRcb == 0) ++ { ++ dbgPrintf("Rx Return error while allocating new buffers\n"); ++ dbgPrintf("Rcb = %08x, Rcb->Eop = %08x, FragCount = %d:%d\n", ++ (bit32u)HalReceiveInfo, (bit32u)HalReceiveInfo->Eop, FragCount,i); ++ osfuncSioFlush(); ++ ++ return(EC_CPPI|EC_FUNC_RXRETURN|EC_VAL_CORRUPT_RCB_CHAIN); ++ } ++ ++ /* size = ((RcbSize+15) & ~15) + 15;*/ /*-3.01b*/ ++ /*size = RcbSize + 15;*/ /* -GSG 030421 */ ++ pBuf= (char *) HalDev->OsFunc->MallocRxBuffer(RcbSize,0, ++ 0xF,HalDev->ChData[Ch].OsSetup, ++ (void *)TempRcb, ++ (void *)&TempRcb->OsInfo, ++ (void *) HalDev->OsDev); ++ if (!pBuf) ++ { ++ /* malloc failed, add this RCB to Needs Buffer List */ ++ TempRcb->FragCount = 1; /*MJH+030417*/ ++ (HAL_RCB *)TempRcb->Eop = TempRcb; /* GSG +030430 */ ++ ++ if(HalDev->NeedsCount < MAX_NEEDS) /* +MJH 030410 */ ++ { /* +MJH 030410 */ ++ HalDev->Needs[HalDev->NeedsCount] = (HAL_RECEIVEINFO *) TempRcb; /* +MJH 030410 */ ++ HalDev->NeedsCount++; /* +MJH 030410 */ ++ rc = (EC_CPPI|EC_FUNC_RXRETURN|EC_VAL_RCB_NEEDS_BUFFER); /* ~MJH 030417 */ ++ } /* +MJH 030410 */ ++ else /* +MJH 030410 */ ++ rc = (EC_CPPI|EC_FUNC_RXRETURN|EC_VAL_RCB_DROPPED); /* ~MJH 030417 */ ++ ++ /* requeue any previous RCB's that were ready to go before this one */ ++ if (GoodCount > 0) /* +GSG 030421 */ ++ { /* +GSG 030421 */ ++ LastGoodRcb->HNext=0; /* +GSG 030430 */ ++ LastGoodRcb->Next=0; /* +GSG 030430 */ ++ osfuncDataCacheHitWriteback((void *)LastGoodRcb, 16); /* +GSG 030430 */ ++ ++ AddToRxQueue(HalDev, CurrHeadRcb, LastGoodRcb, GoodCount, Ch); /* +GSG 030421 */ ++ GoodCount = 0; /* +GSG 030421 */ ++ } /* +GSG 030421 */ ++ ++ CurrHeadRcb = TempRcb->Next; /* +GSG 030421 */ ++ } ++ else /* +GSG 030421 */ ++ { /* +GSG 030421 */ ++ /* malloc succeeded, requeue the RCB to the hardware */ ++ TempRcb->BufPtr=VirtToPhys(pBuf) - HalDev->offset; ++ TempRcb->DatPtr=pBuf; ++ /* Emerald fix 10/29 */ ++ osfuncDataCacheHitWriteback((void *)TempRcb, 16); ++ ++ /* i store the last good RCB in case the malloc fails for the ++ next fragment. This ensures that I can go ahead and return ++ a partial chain of RCB's to the hardware */ ++ LastGoodRcb = TempRcb; /* +GSG 030421 */ ++ GoodCount++; /* +GSG 030421 */ ++ } /* +GSG 030421 */ ++ TempRcb = TempRcb->Next; ++ } /* end of Frag loop */ ++ /* if there any good RCB's to requeue, do so here */ ++ if (GoodCount > 0) /* +GSG 030421 */ ++ { ++ AddToRxQueue(HalDev, CurrHeadRcb, LastGoodRcb, GoodCount, Ch); /* +GSG 030421 */ ++ } ++ return(rc); /* ~GSG 030421 */ ++ } ++ else ++ { ++ /* Not Stripping */ ++ /* Emerald */ ++ /* Write Back SOP and last RCB */ ++ osfuncDataCacheHitWriteback((void *)HalReceiveInfo, 16); ++ ++ if (FragCount > 1) ++ { ++ osfuncDataCacheHitWriteback((void *)LastRcb, 16); ++ } ++ /* if not stripping buffers, always add to queue */ ++ AddToRxQueue(HalDev, HalReceiveInfo, LastRcb, FragCount, Ch); /*MJH~030520*/ ++ } ++ ++ return(EC_NO_ERRORS); ++ } ++ ++/* +MJH 030410 ++ Trys to liberate an RCB until liberation fails. ++ Note: If liberation fails then RxReturn will re-add the RCB to the ++ Needs list. ++*/ ++static void NeedsCheck(HAL_DEVICE *HalDev) ++{ ++ HAL_RECEIVEINFO* HalRcb; ++ int rc; ++ HalDev->OsFunc->CriticalOn(); ++ while(HalDev->NeedsCount) ++ { ++ HalDev->NeedsCount--; ++ HalRcb = HalDev->Needs[HalDev->NeedsCount]; ++ rc = halRxReturn(HalRcb, 1); ++ /* short circuit if RxReturn starts to fail */ ++ if (rc != 0) ++ break; ++ } ++ HalDev->OsFunc->CriticalOff(); ++} ++ ++/* ++ * This function allocates transmit buffer descriptors (internal CPHAL function). ++ * It creates a high priority transmit queue by default for a single Tx ++ * channel. If QoS is enabled for the given CPHAL device, this function ++ * will also allocate a low priority transmit queue. ++ * ++ * @param HalDev CPHAL module instance. (set by cphalInitModule()) ++ * @param Ch Channel number. ++ * ++ * @return 0 OK, Non-Zero Not OK ++ */ ++static int InitTcb(HAL_DEVICE *HalDev, int Ch) ++ { ++ int i, Num = HalDev->ChData[Ch].TxNumBuffers; ++ HAL_TCB *pTcb=0; ++ char *AllTcb; ++ int tcbSize, Queue; ++ int SizeMalloc; ++ ++ tcbSize = (sizeof(HAL_TCB)+0xf)&~0xf; ++ SizeMalloc = (tcbSize*Num)+0xf; ++ ++ for (Queue=0; Queue < HalDev->ChData[Ch].TxNumQueues; Queue++) ++ { ++ if (HalDev->TcbStart[Ch][Queue] == 0) ++ { ++ ++ /* malloc all TCBs at once */ ++ AllTcb = (char *)HalDev->OsFunc->MallocDmaXfer(SizeMalloc,0,0xffffffff); ++ if (!AllTcb) ++ { ++ return(EC_CPPI|EC_FUNC_HAL_INIT|EC_VAL_TCB_MALLOC_FAILED); ++ } ++ ++ HalDev->OsFunc->Memset(AllTcb, 0, SizeMalloc); ++ ++ /* keep this address for freeing later */ ++ HalDev->TcbStart[Ch][Queue] = AllTcb; ++ } ++ else ++ { ++ /* if the memory has already been allocated, simply reuse it! */ ++ AllTcb = HalDev->TcbStart[Ch][Queue]; ++ } ++ ++ /* align to cache line */ ++ AllTcb = (char *)(((bit32u)AllTcb + 0xf) &~ 0xf); /*PITS #143 MJH~030522*/ ++ ++ /* default High priority transmit queue */ ++ HalDev->TcbPool[Ch][Queue]=0; ++ for(i=0;i<Num;i++) ++ { ++ /*pTcb=(HAL_TCB *) OsFunc->MallocDmaXfer(sizeof(HAL_TCB),0,0xffffffff); */ ++ pTcb= (HAL_TCB *)(AllTcb + (i*tcbSize)); ++ pTcb->mode=0; ++ pTcb->BufPtr=0; ++ pTcb->Next=HalDev->TcbPool[Ch][Queue]; ++ pTcb->Off_BLen=0; ++ HalDev->TcbPool[Ch][Queue]=pTcb; ++ } ++ /*HalDev->TcbEnd = pTcb;*/ ++ } ++ ++ return(EC_NO_ERRORS); ++ } ++ ++/* ++ * This function allocates receive buffer descriptors (internal CPHAL function). ++ * After allocation, the function 'queues' (gives to the hardware) the newly ++ * created receive buffers to enable packet reception. ++ * ++ * @param HalDev CPHAL module instance. (set by cphalInitModule()) ++ * @param Ch Channel number. ++ * ++ * @return 0 OK, Non-Zero Not OK ++ */ ++static int InitRcb(HAL_DEVICE *HalDev, int Ch) ++ { ++ int i, Num = HalDev->ChData[Ch].RxNumBuffers; ++ int Size = HalDev->ChData[Ch].RxBufSize; ++ HAL_RCB *pRcb; ++ char *pBuf; ++ char *AllRcb; ++ int rcbSize; ++ int DoMalloc = 0; ++ int SizeMalloc; ++ int MallocSize; ++ ++ rcbSize = (sizeof(HAL_RCB)+0xf)&~0xf; ++ SizeMalloc = (rcbSize*Num)+0xf; ++ ++ if (HalDev->RcbStart[Ch] == 0) ++ { ++ DoMalloc = 1; ++ ++ /* malloc all RCBs at once */ ++ AllRcb= (char *)HalDev->OsFunc->MallocDmaXfer(SizeMalloc,0,0xffffffff); ++ if (!AllRcb) ++ { ++ return(EC_CPPI|EC_FUNC_HAL_INIT|EC_VAL_RCB_MALLOC_FAILED); ++ } ++ ++ HalDev->OsFunc->Memset(AllRcb, 0, SizeMalloc); ++ ++ /* keep this address for freeing later */ ++ HalDev->RcbStart[Ch] = AllRcb; ++ } ++ else ++ { ++ /* if the memory has already been allocated, simply reuse it! */ ++ AllRcb = HalDev->RcbStart[Ch]; ++ } ++ ++ /* align to cache line */ ++ AllRcb = (char *)(((bit32u)AllRcb + 0xf)&~0xf); /*PITS #143 MJH~030522*/ ++ ++ HalDev->RcbPool[Ch]=0; ++ for(i=0;i<Num;i++) ++ { ++ pRcb = (HAL_RCB *)(AllRcb + (i*rcbSize)); ++ ++ if (DoMalloc == 1) ++ { ++ ++ MallocSize = Size; /*~3.01 */ ++ pBuf= (char *) HalDev->OsFunc->MallocRxBuffer(MallocSize,0,0xF,HalDev->ChData[Ch].OsSetup, (void *)pRcb, (void *)&pRcb->OsInfo, (void *) HalDev->OsDev); ++ if(!pBuf) ++ { ++ return(EC_CPPI|EC_FUNC_HAL_INIT|EC_VAL_RX_BUFFER_MALLOC_FAILED); ++ } ++ /* -RC3.01 pBuf = (char *)(((bit32u)pBuf+0xF) & ~0xF); */ ++ pRcb->BufPtr=VirtToPhys(pBuf) - HalDev->offset; ++ pRcb->DatPtr=pBuf; ++ /*pRcb->BufSize=Size;*/ ++ } ++ pRcb->mode=0; ++ pRcb->Ch=Ch; ++ pRcb->Next=(void *)HalDev->RcbPool[Ch]; ++ pRcb->Off_BLen=0; ++ pRcb->HalDev = HalDev; ++ HalDev->RcbPool[Ch]=pRcb; ++ } ++ ++ /* Give all of the Rx buffers to hardware */ ++ ++ while(HalDev->RcbPool[Ch]) ++ { ++ pRcb=HalDev->RcbPool[Ch]; ++ HalDev->RcbPool[Ch]=pRcb->Next; ++ pRcb->Eop=(void*)pRcb; ++ pRcb->FragCount=1; ++ halRxReturn((HAL_RECEIVEINFO *)pRcb, 0); ++ } ++ ++ return(EC_NO_ERRORS); ++ } ++ ++/** ++ * @ingroup CPHAL_Functions ++ * This function transmits the data in FragList using available transmit ++ * buffer descriptors. More information on the use of the Mode parameter ++ * is available in the module-specific appendices. Note: The OS should ++ * not call Send() for a channel that has been requested to be torndown. ++ * ++ * @param HalDev CPHAL module instance. (set by cphalInitModule()) ++ * @param FragList Fragment List structure. ++ * @param FragCount Number of fragments in FragList. ++ * @param PacketSize Number of bytes to transmit. ++ * @param OsSendInfo OS Send Information structure. <BR> ++ * @param Mode 32-bit value with the following bit fields: <BR> ++ * 31-16: Mode (used for module specific data). <BR> ++ * 15-08: Queue (transmit queue to send on). <BR> ++ * 07-00: Channel (channel number to send on). ++ * ++ * @return EC_NO_ERRORS (ok). <BR> ++ * Possible Error Codes:<BR> ++ * @ref EC_VAL_INVALID_STATE "EC_VAL_INVALID_STATE"<BR> ++ * @ref EC_VAL_NOT_LINKED "EC_VAL_NOT_LINKED"<BR> ++ * @ref EC_VAL_INVALID_CH "EC_VAL_INVALID_CH"<BR> ++ * @ref EC_VAL_OUT_OF_TCBS "EC_VAL_OUT_OF_TCBS"<BR> ++ * @ref EC_VAL_NO_TCBS "EC_VAL_NO_TCBS"<BR> ++ */ ++static int halSend(HAL_DEVICE *HalDev,FRAGLIST *FragList, ++ int FragCount,int PacketSize, OS_SENDINFO *OsSendInfo, ++ bit32u Mode) ++ { ++ HAL_TCB *tcb_ptr, *head; ++ int i; ++ bit32u base = HalDev->dev_base; ++ int rc = EC_NO_ERRORS; ++ int Ch = Mode & 0xFF; ++ int Queue = (Mode>>8)&0xFF; ++ ++ int WaitFlag = (Mode>>30)&1; /* This is for AAL5 testing only */ /* ~GSG 030508 */ ++ int Offset = (FragList[0].len >> 16); ++ int PktType = (Mode>>16)&3; /* 0=AAL5, 1=Null AAL, 2=OAM, 3=Transparent */ /* +GSG 030508 */ ++ int AtmHeaderInData = (Mode>>31)&1; /* +GSG 030508 */ ++ int FragIndex = 0; ++ ++ if (HalDev->State != enOpened) ++ return(EC_CPPI|EC_FUNC_SEND|EC_VAL_INVALID_STATE); ++ ++ if (HalDev->ChIsOpen[Ch][DIRECTION_TX] == 0) /*MJH~030611*/ /*PITS 148*/ ++ return(EC_AAL5 |EC_FUNC_SEND|EC_VAL_INVALID_CH); /*+GSG 030303*/ ++ ++ HalDev->OsFunc->CriticalOn(); ++ ++ tcb_ptr = head = HalDev->TcbPool[Ch][Queue]; ++ ++ if (tcb_ptr) ++ { ++ ++ /* these two TCB words are only valid on SOP */ ++ if (AtmHeaderInData == 1) ++ { ++ tcb_ptr->AtmHeader = 0; /* bug fix for transparent mode PTI problem */ ++ /* Expect AtmHeader in the data */ ++ tcb_ptr->AtmHeader |= *((bit8u *)FragList[FragIndex].data++) << 24; ++ tcb_ptr->AtmHeader |= *((bit8u *)FragList[FragIndex].data++) << 16; ++ tcb_ptr->AtmHeader |= *((bit8u *)FragList[FragIndex].data++) << 8; ++ tcb_ptr->AtmHeader |= *((bit8u *)FragList[FragIndex].data++); ++ ++ /* decrement data buffer length accordingly */ ++ FragList[FragIndex].len -= ATM_HEADER_SIZE; ++ ++ /* if the first fragment was ATM Header only, go to next fragment for loop */ ++ if (FragList[FragIndex].len == 0) ++ FragIndex++; ++ ++ /* No CPCS_UU/CPI if not AAL5 */ ++ tcb_ptr->Word5 = ((PktType & 0x3)<<16); ++ } ++ else ++ { ++ /* calculate AtmHeader from fields */ ++ tcb_ptr->AtmHeader = atmheader(HalDev->ChData[Ch].Gfc, /* ~GSG 030306 */ ++ HalDev->ChData[Ch].Vpi, HalDev->ChData[Ch].Vci, ++ HalDev->ChData[Ch].Pti, HalDev->ChData[Ch].Clp); ++ ++ tcb_ptr->Word5 = HalDev->ChData[Ch].CpcsUU | ((HalDev->ChData[Ch].PktType &0x3)<<16); ++ } ++ ++ for (i=FragIndex; i<FragCount; i++) ++ ++ { ++ /* Setup Tx mode and size */ ++ tcb_ptr->HNext = VirtToPhys((bit32 *)tcb_ptr->Next) - HalDev->offset; ++ tcb_ptr->Off_BLen = FragList[i].len; ++ ++ if (i==0) ++ tcb_ptr->Off_BLen |= (Offset << 16); ++ ++ tcb_ptr->mode = 0; /* MUST clear this for each frag !!! */ ++ tcb_ptr->BufPtr = VirtToPhys((bit32 *)FragList[i].data) - ++ HalDev->offset; ++ ++ /* first fragment */ ++ if (i == 0) ++ { ++ tcb_ptr->mode |= CB_SOF_BIT; ++ ++ } ++ ++ tcb_ptr->mode |= (PacketSize | CB_OWNERSHIP_BIT); ++ tcb_ptr->OsInfo = OsSendInfo; ++ ++ if (i == (FragCount - 1)) ++ { ++ /* last fragment */ ++ tcb_ptr->mode |= CB_EOF_BIT; ++ ++ /* since this is the last fragment, set the TcbPool pointer before ++ nulling out the Next pointers */ ++ ++ HalDev->TcbPool[Ch][Queue] = tcb_ptr->Next; ++ ++ tcb_ptr->Next = 0; ++ tcb_ptr->HNext = 0; ++ ++ /* In the Tx Interrupt handler, we will need to know which TCB is EOP, ++ so we can save that information in the SOP */ ++ head->Eop = tcb_ptr; ++ ++ /* Emerald fix 10/29 */ ++ osfuncDataCacheHitWriteback((void *)tcb_ptr, 16); ++ ++ osfuncDataCacheHitWriteback((void *)((bit32u)tcb_ptr + 16), 16); ++ ++ } ++ else ++ { ++ /* Emerald fix 10/29 */ ++ osfuncDataCacheHitWriteback((void *)tcb_ptr, 16); ++ ++ osfuncDataCacheHitWriteback((void *)((bit32u)tcb_ptr + 16), 16); ++ ++ tcb_ptr = tcb_ptr->Next; /* what about the end of TCB list?? */ ++ ++ if (tcb_ptr == 0) ++ { ++ rc = EC_CPPI|EC_FUNC_SEND|EC_VAL_OUT_OF_TCBS; ++ goto ExitSend; ++ } ++ } ++ } /* for */ ++ ++ /* put it on the high priority queue */ ++ if (HalDev->TxActQueueHead[Ch][Queue] == 0) ++ { ++ HalDev->TxActQueueHead[Ch][Queue]=head; ++ HalDev->TxActQueueTail[Ch][Queue]=tcb_ptr; ++/*+GSG 030303*//*+GSG 030303*/ ++ if (!HalDev->TxActive[Ch][Queue]) ++ { ++ ++ if (!WaitFlag) ++ { ++ ++ /* write CPPI TX HDP */ ++ (*(pTX_DMA_STATE_WORD_0( base )+( Ch *64)+( Queue ))) = VirtToPhys(head) - HalDev->offset; ++ HalDev->TxActive[Ch][Queue]=TRUE; ++ ++ } ++ ++ } ++ } ++ else ++ { ++ HalDev->TxActQueueTail[Ch][Queue]->Next=head; ++ /* Emerald fix 10/29 */ ++ *((bit32u *) VirtToVirtNoCache(&HalDev->TxActQueueTail[Ch][Queue]->HNext))=VirtToPhys(head) - HalDev->offset; ++ HalDev->TxActQueueTail[Ch][Queue]=tcb_ptr; ++/*+GSG 030303*//*+GSG 030303*/ ++ } ++ rc = EC_NO_ERRORS; ++ goto ExitSend; ++ } /* if (tcb_ptr) */ ++ else ++ { ++ rc = EC_CPPI|EC_FUNC_SEND|EC_VAL_NO_TCBS; ++ goto ExitSend; ++ } ++ExitSend: ++ ++ HalDev->OsFunc->CriticalOff(); ++ return(rc); ++ } ++ ++/* ++ * This function processes receive interrupts. It traverses the receive ++ * buffer queue, extracting the data and passing it to the upper layer software via ++ * osReceive(). It handles all error conditions and fragments without valid data by ++ * immediately returning the RCB's to the RCB pool. ++ * ++ * @param HalDev CPHAL module instance. (set by cphalInitModule()) ++ * @param Ch Channel Number. ++ * @param MoreWork Flag that indicates that there is more work to do when set to 1. ++ * ++ * @return 0 if OK, non-zero otherwise. ++ */ ++static int RxInt(HAL_DEVICE *HalDev, int Ch, int *MoreWork) ++ { ++ HAL_RCB *CurrentRcb, *LastRcb=0, *SopRcb, *EofRcb, *EopRcb; ++ bit32u RxBufStatus,PacketsServiced, RxPktLen = 0, RxSopStatus, ++ FrmFrags, TotalFrags, CurrDmaLen, DmaLen, FrmLen; ++ int base = HalDev->dev_base, Ret; ++ OS_FUNCTIONS *OsFunc = HalDev->OsFunc; ++ int RxServiceMax = HalDev->ChData[Ch].RxServiceMax; ++ int FragIndex; /* +GSG 030508 */ ++ int EarlyReturn = 0; /* +GSG 030521 */ ++ ++ bit32u PktType, ExpDmaSize, Cells; ++ int PassHeader=0; ++ ++ int mode; ++ ++ bit32u SopOffset; ++ ++ if(HalDev->NeedsCount) /* +MJH 030410 */ ++ NeedsCheck(HalDev); /* +MJH 030410 */ ++ ++ /* Handle case of teardown interrupt */ ++ if (HalDev->RxTeardownPending[Ch] != 0) ++ { ++ Ret = RxTeardownInt(HalDev, Ch); ++ if (Ret == 0) ++ { /*+GSG 030303*/ ++ *MoreWork = 0; /* bug fix 1/6 */ /*+GSG 030303*/ ++ return (EC_NO_ERRORS); ++ } /*+GSG 030303*/ ++ } ++ ++ CurrentRcb=HalDev->RxActQueueHead[Ch]; ++ ++ osfuncDataCacheHitInvalidate((void*)CurrentRcb, 16); ++ ++ RxBufStatus=CurrentRcb->mode; ++ ++ /* I think I need to do this to ensure that i read UuCpi properly, ++ which is on the second cache line of the Rcb */ ++ osfuncDataCacheHitInvalidate((void*)((bit32u)CurrentRcb+16), 16); ++ ++ PacketsServiced=0; ++ HalDev->InRxInt[Ch]=TRUE; ++ ++ while((CurrentRcb)&&((RxBufStatus&CB_OWNERSHIP_BIT)==0)&& ++ (PacketsServiced<RxServiceMax)) /* ~GSG 030307 */ ++ { ++ ++ PacketsServiced++; /* ~GSG 030307 */ ++ SopRcb=CurrentRcb; ++ RxSopStatus=RxBufStatus; ++ ++ RxPktLen = RxSopStatus&CB_SIZE_MASK; ++ /* Not sure what MAC needs to do for next block */ ++ ++ PktType=((SopRcb->UuCpi & 0x00030000) >> 16); /* GSG ~030508 */ ++ /* Calculate the expected DMA length */ ++ if (RxPktLen != 0) ++ { ++ Cells=RxPktLen/48; ++ if ((RxPktLen%48) > 40) ++ Cells++; ++ if (PktType == PKT_TYPE_AAL5) /* ~GSG 030508 */ ++ Cells++; ++ ExpDmaSize=Cells*48; ++ } ++ else ++ { ++ ExpDmaSize=0; ++ } ++ ++ SopOffset=(SopRcb->Off_BLen&CB_OFFSET_MASK)>>16; ++ ++ CurrDmaLen=0; ++ FrmFrags=0; ++ TotalFrags=0; ++ FragIndex=0; ++ FrmLen=0; ++ EofRcb=0; ++ ++/* +GSG 030508 */ ++ if ((PktType == PKT_TYPE_OAM) || (PktType == PKT_TYPE_TRANS)) /* +GSG 030508 */ ++ { /* +GSG 030508 */ ++ /* first frag is ATM Header */ /* +GSG 030508 */ ++ PassHeader = 1; /* +GSG 030508 */ ++ HalDev->fraglist[FragIndex].data = (void *)&SopRcb->AtmHeader; /* +GSG 030508 */ ++ HalDev->fraglist[FragIndex].len = 4; /* +GSG 030508 */ ++ HalDev->fraglist[FragIndex].OsInfo = SopRcb->OsInfo; /* +GSG 030701 */ ++ FragIndex++; /* +GSG 030508 */ ++ } /* +GSG 030508 */ ++/* +GSG 030508 */ ++ ++ do ++ { ++ ++ DmaLen=CurrentRcb->Off_BLen&CB_SIZE_MASK; ++ ++ CurrDmaLen+=DmaLen; ++ FrmLen+=DmaLen; ++ TotalFrags++; ++ if (!EofRcb) ++ { ++ HalDev->fraglist[FragIndex].data=((char *)CurrentRcb->DatPtr); /* ~GSG 030508 */ ++ ++ HalDev->fraglist[FragIndex].data+=((FrmFrags==0)?SopOffset:0); /* ~GSG 030508 */ ++ ++ HalDev->fraglist[FragIndex].len=DmaLen; /* ~GSG 030508 */ ++ ++ /* GSG 12/9 */ ++ HalDev->fraglist[FragIndex].OsInfo = CurrentRcb->OsInfo; /* ~GSG 030508 */ ++ ++ /* Upper layer must do the data invalidate */ ++ ++ FrmFrags++; ++ FragIndex++; /* ~GSG 030508 */ ++ if (FrmLen>=RxPktLen) ++ EofRcb=CurrentRcb; ++ } ++ LastRcb=CurrentRcb; ++ CurrentRcb=LastRcb->Next; ++ if (CurrentRcb) ++ { ++ osfuncDataCacheHitInvalidate((void*)CurrentRcb,16); ++ /* RxBufStatus=CurrentRcb->mode; */ /*DRB~030522*/ ++ } ++ }while(((LastRcb->mode&CB_EOF_BIT)==0)&&(CurrentRcb)); ++ ++ /* New location for interrupt acknowledge */ ++ /* Write the completion pointer */ ++ (*(pRX_CPPI_COMP_PTR( base )+( Ch *64))) = VirtToPhys(LastRcb) - HalDev->offset; ++ ++ EopRcb=LastRcb; ++ HalDev->RxActQueueHead[Ch]=CurrentRcb; ++ HalDev->RxActQueueCount[Ch]-=TotalFrags; ++ ++ if (LastRcb->mode&CB_EOQ_BIT) ++ { ++ if (CurrentRcb) ++ { ++ ++ HalDev->Stats.RxMisQCnt[Ch]++; ++ ++ (*(pRX_DMA_STATE_WORD_1( base )+( Ch *64))) = LastRcb->HNext; ++ } ++ else ++ { ++ ++ /* Rx EOQ */ ++ HalDev->Stats.RxMisQCnt[Ch]++; ++ ++ HalDev->RxActive[Ch]=FALSE; ++ } ++ } ++ ++ EopRcb->Next=0; ++ ++ /* setup SopRcb for the packet */ ++ SopRcb->Eop=(void*)EopRcb; ++ SopRcb->FragCount=TotalFrags; ++ ++ if ((ExpDmaSize!=CurrDmaLen)||(RxSopStatus&RX_ERROR_MASK)) ++ { ++ /* check for Rx errors (only valid on SOP) */ ++ if (RxSopStatus & RX_ERROR_MASK) ++ { ++ if (RxSopStatus & CRC_ERROR_MASK) ++ HalDev->Stats.CrcErrors[Ch]++; ++ ++ if (RxSopStatus & LENGTH_ERROR_MASK) ++ HalDev->Stats.LenErrors[Ch]++; ++ ++ if (RxSopStatus & ABORT_ERROR_MASK) ++ HalDev->Stats.AbortErrors[Ch]++; ++ ++ if (RxSopStatus & STARV_ERROR_MASK) ++ HalDev->Stats.StarvErrors[Ch]++; ++ } ++ else ++ { ++ HalDev->Stats.DmaLenErrors[Ch]++; /* different type of length error */ ++ } ++ ++ EarlyReturn = 1; ++ } ++ ++ /* do not pass up the packet if we're out of RCB's (or have an errored packet)*/ ++ if ((CurrentRcb == 0) || (EarlyReturn == 1)) ++ { ++ halRxReturn((HAL_RECEIVEINFO *)SopRcb,0); ++ } ++ else ++ { ++ ++ if (EopRcb!=EofRcb) ++ { ++ HAL_RCB *FirstEmptyRcb; ++ ++ FirstEmptyRcb = EofRcb->Next; ++ FirstEmptyRcb->Eop = (void*)EopRcb; ++ FirstEmptyRcb->FragCount = TotalFrags-FrmFrags; ++ ++ halRxReturn((HAL_RECEIVEINFO *)FirstEmptyRcb,0); ++ SopRcb->Eop=(void*)EofRcb; ++ SopRcb->FragCount=FrmFrags; ++ EofRcb->Next=0; /* Optional */ ++ } ++ ++ mode = Ch | (PktType << 16) | (PassHeader << 31); /* ~GSG 030508 */ ++ ++ OsFunc->Receive(HalDev->OsDev,HalDev->fraglist,FragIndex,RxPktLen, /* ~GSG 030508 */ ++ (HAL_RECEIVEINFO *)SopRcb,mode); ++ } /* else */ ++ ++ if (CurrentRcb) /*MJH+030522*/ ++ { ++ RxBufStatus=CurrentRcb->mode; ++ } ++ } /* while */ ++ ++ if ((CurrentRcb)&&((RxBufStatus&CB_OWNERSHIP_BIT)==0)) /*~GSG 030307*/ ++ { ++ *MoreWork = 1; ++ } ++ else ++ { ++ *MoreWork = 0; ++ } ++ ++ if (PacketsServiced != 0) ++ { ++ /* REMOVED when removing InRxInt */ ++ if ((!HalDev->RxActive[Ch]) && (HalDev->RxActQueueCount[Ch])) ++ { ++ (*(pRX_DMA_STATE_WORD_1( base )+( Ch *64))) = VirtToPhys(HalDev->RxActQueueHead[Ch]); ++ HalDev->RxActive[Ch]=TRUE; ++ } ++ } ++ ++ HalDev->InRxInt[Ch]=FALSE; ++ ++ /* update stats */ ++ HalDev->Stats.RxPacketsServiced[Ch] += PacketsServiced; ++ HalDev->Stats.RxTotal += PacketsServiced; ++ if (HalDev->Stats.RxMaxServiced < PacketsServiced) ++ HalDev->Stats.RxMaxServiced = PacketsServiced; ++ ++ return (EC_NO_ERRORS); ++ } ++ ++/* ++ * This function processes transmit interrupts. It traverses the ++ * transmit buffer queue, detecting sent data buffers and notifying the upper ++ * layer software via osSendComplete(). (for SAR, i originally had this split ++ * into two functions, one for each queue, but joined them on 8/8/02) ++ * ++ * @param HalDev CPHAL module instance. (set by cphalInitModule()) ++ * @param Queue Queue number to service (always 0 for MAC, Choose 1 for SAR to service low priority queue) ++ * @param MoreWork Flag that indicates that there is more work to do when set to 1. ++ * ++ * @return 0 if OK, non-zero otherwise. ++ */ ++static int TxInt(HAL_DEVICE *HalDev, int Ch, int Queue, int *MoreWork) ++ { ++ HAL_TCB *CurrentTcb,*LastTcbProcessed,*FirstTcbProcessed; ++ int PacketsServiced; ++ bit32u TxFrameStatus; ++ int base = HalDev->dev_base, Ret; ++ int TxServiceMax = HalDev->ChData[Ch].TxServiceMax; ++ OS_FUNCTIONS *OsFunc = HalDev->OsFunc; ++ ++ int OtherQueue = Queue^1; ++ ++/*+GSG 030303*//*+GSG 030303*/ ++ ++ /* Handle case of teardown interrupt. This must be checked at ++ the top of the function rather than the bottom, because ++ the normal data processing can wipe out the completion ++ pointer which is used to determine teardown complete. */ ++ if (HalDev->TxTeardownPending[Ch] != 0) ++ { ++ Ret = TxTeardownInt(HalDev, Ch, Queue); ++ if (Ret == 0) ++ { /*+GSG 030303*/ ++ *MoreWork = 0; /* bug fix 1/6 */ /*+GSG 030303*/ ++ return (EC_NO_ERRORS); ++ } /*+GSG 030303*/ ++ } ++ ++ CurrentTcb = HalDev->TxActQueueHead[Ch][Queue]; ++ FirstTcbProcessed=CurrentTcb; ++ ++ if (CurrentTcb==0) ++ { ++ /* I saw this error a couple of times when multi-channels were added */ ++ dbgPrintf("[cppi TxInt()]TxH int with no TCB in queue!\n"); ++ dbgPrintf(" Ch=%d, CurrentTcb = 0x%08x\n", Ch, (bit32u)CurrentTcb); ++ dbgPrintf(" HalDev = 0x%08x\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ return(EC_CPPI|EC_FUNC_TXINT|EC_VAL_NULL_TCB); ++ } ++ ++ osfuncDataCacheHitInvalidate((void *)CurrentTcb, 16); ++ TxFrameStatus=CurrentTcb->mode; ++ PacketsServiced=0; ++ ++ /* should the ownership bit check be inside of the loop?? could make it a ++ while-do loop and take this check away */ ++ if ((TxFrameStatus&CB_OWNERSHIP_BIT)==0) ++ { ++ OsFunc->CriticalOn(); /* +GSG 030307 */ ++ do ++ { ++ /* Pop TCB(s) for packet from the stack */ ++ LastTcbProcessed=CurrentTcb->Eop; ++ ++ /* new location for acknowledge */ ++ /* Write the completion pointer */ ++ (*(pTXH_CPPI_COMP_PTR( base )+( Ch *64)+( Queue ))) = VirtToPhys(LastTcbProcessed); ++ ++ HalDev->TxActQueueHead[Ch][Queue] = LastTcbProcessed->Next; ++ ++/*+GSG 030303*//*+GSG 030303*/ ++ ++ osfuncDataCacheHitInvalidate((void *)LastTcbProcessed, 16); ++ ++ if (LastTcbProcessed->mode&CB_EOQ_BIT) ++ { ++ if (LastTcbProcessed->Next) ++ { ++ /* Misqueued packet */ ++ ++ HalDev->Stats.TxMisQCnt[Ch][Queue]++; ++ ++ (*(pTX_DMA_STATE_WORD_0( base )+( Ch *64)+( Queue ))) = LastTcbProcessed->HNext; ++ } ++ else ++ { ++ /* Tx End of Queue */ ++ ++ HalDev->Stats.TxEOQCnt[Ch][Queue]++; ++ ++ HalDev->TxActive[Ch][Queue]=FALSE; ++ } ++ } ++ ++ OsFunc->SendComplete(CurrentTcb->OsInfo); ++ ++ /* Push Tcb(s) back onto the stack */ ++ CurrentTcb = LastTcbProcessed->Next; ++ ++ LastTcbProcessed->Next=HalDev->TcbPool[Ch][Queue]; ++ ++ HalDev->TcbPool[Ch][Queue]=FirstTcbProcessed; ++ ++ PacketsServiced++; ++ ++ TxFrameStatus=CB_OWNERSHIP_BIT; ++ /* set the first(SOP) pointer for the next packet */ ++ FirstTcbProcessed = CurrentTcb; ++ if (CurrentTcb) ++ { ++ osfuncDataCacheHitInvalidate((void *)CurrentTcb, 16); ++ TxFrameStatus=CurrentTcb->mode; ++ } ++ ++ }while(((TxFrameStatus&CB_OWNERSHIP_BIT)==0) ++ &&(PacketsServiced<TxServiceMax)); ++ ++ /* this fixes the SAR TurboDSL hardware bug (multiple queue failure) */ ++ if (HalDev->TxActive[Ch][OtherQueue]) ++ if (HalDev->TxActQueueHead[Ch][OtherQueue]) ++ if ((*(pTX_DMA_STATE_WORD_0( base )+( Ch *64)+( OtherQueue ))) == 0) ++ { ++ osfuncDataCacheHitInvalidate(HalDev->TxActQueueHead[Ch][OtherQueue],16); ++ if ((HalDev->TxActQueueHead[Ch][OtherQueue]->mode) & CB_OWNERSHIP_BIT) ++ { ++ HalDev->TurboDslErrors++; ++ (*(pTX_DMA_STATE_WORD_0( base )+( Ch *64)+( OtherQueue ))) = ++ VirtToPhys(HalDev->TxActQueueHead[Ch][OtherQueue]); ++ } ++ } ++ ++ OsFunc->CriticalOff(); /* +GSG 030307 */ ++ if (((TxFrameStatus&CB_OWNERSHIP_BIT)==0) ++ &&(PacketsServiced==TxServiceMax)) ++ { ++ *MoreWork = 1; ++ } ++ else ++ { ++ *MoreWork = 0; ++ } ++ } ++ ++ /* update stats */ ++ HalDev->Stats.TxPacketsServiced[Ch][Queue] += PacketsServiced; ++ HalDev->Stats.TxTotal += PacketsServiced; ++ if (HalDev->Stats.TxMaxServiced[Ch][Queue] < PacketsServiced) ++ HalDev->Stats.TxMaxServiced[Ch][Queue] = PacketsServiced; ++ ++ return(EC_NO_ERRORS); ++ } ++ ++/** ++ * @ingroup CPHAL_Functions ++ * This function performs a teardown for the given channel. The value of the ++ * Mode parameter controls the operation of the function, as documented below. ++ * ++ * Note: If bit 3 of Mode is set, this call is blocking, and will not return ++ * until the teardown interrupt has occurred and been processed. While waiting ++ * for a blocking teardown to complete, ChannelTeardown() will signal the OS ++ * (via Control(.."Sleep"..)) to allow the OS to perform other tasks if ++ * necessary. If and only if bit 3 of Mode is clear, the CPHAL will call the ++ * OS TeardownComplete() function to indicate that the teardown has completed. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * @param Ch Channel number. ++ * @param Mode Bit 0 (LSB): Perform Tx teardown (if set).<BR> ++ * Bit 1: Perform Rx teardown (if set). <BR> ++ * Bit 2: If set, perform full teardown (free buffers/descriptors). ++ * If clear, perform partial teardown (keep buffers). <BR> ++ * Bit 3 (MSB): If set, call is blocking. ++ * If clear, call is non-blocking. ++ * ++ * @return EC_NO_ERRORS (ok). <BR> ++ * Possible Error Codes:<BR> ++ * @ref EC_VAL_INVALID_STATE "EC_VAL_INVALID_STATE"<BR> ++ * @ref EC_VAL_INVALID_CH "EC_VAL_INVALID_CH"<BR> ++ * @ref EC_VAL_TX_TEARDOWN_ALREADY_PEND "EC_VAL_TX_TEARDOWN_ALREADY_PEND"<BR> ++ * @ref EC_VAL_RX_TEARDOWN_ALREADY_PEND "EC_VAL_RX_TEARDOWN_ALREADY_PEND"<BR> ++ * @ref EC_VAL_TX_CH_ALREADY_TORNDOWN "EC_VAL_TX_CH_ALREADY_TORNDOWN"<BR> ++ * @ref EC_VAL_RX_CH_ALREADY_TORNDOWN "EC_VAL_RX_CH_ALREADY_TORNDOWN"<BR> ++ * @ref EC_VAL_TX_TEARDOWN_TIMEOUT "EC_VAL_TX_TEARDOWN_TIMEOUT"<BR> ++ * @ref EC_VAL_RX_TEARDOWN_TIMEOUT "EC_VAL_RX_TEARDOWN_TIMEOUT"<BR> ++ * @ref EC_VAL_LUT_NOT_READY "EC_VAL_LUT_NOT_READY"<BR> ++ */ ++static int halChannelTeardown(HAL_DEVICE *HalDev, int Ch, bit32 Mode) ++ { ++ int DoTx, DoRx, Sleep=2048, timeout=0; /*MJH~030306*/ ++ bit32u base = HalDev->dev_base; ++ ++/* Set the module, used for error returns */ ++ ++ int Ret; ++ ++ /* AAL5 only supports tearing down both sides at once (currently)*/ ++ Mode = (Mode | TX_TEARDOWN | RX_TEARDOWN); ++ ++ DoTx = (Mode & TX_TEARDOWN); ++ DoRx = (Mode & RX_TEARDOWN); ++ ++ if (HalDev->State < enInitialized) ++ return(EC_AAL5 |EC_FUNC_CHTEARDOWN|EC_VAL_INVALID_STATE); ++ ++ if ((Ch < 0) || (Ch > MAX_AAL5_CHAN )) ++ { ++ return(EC_AAL5 |EC_FUNC_CHTEARDOWN|EC_VAL_INVALID_CH); ++ } ++ ++ /* set teardown pending bits before performing the teardown, because they ++ will be used in the int handler (this is done for AAL5) */ ++ if (DoTx) ++ { ++ if (HalDev->TxTeardownPending[Ch] != 0) ++ return(EC_AAL5 |EC_FUNC_CHTEARDOWN|EC_VAL_TX_TEARDOWN_ALREADY_PEND); ++ ++ /* If a full teardown, this also means that the user must ++ setup all channels again to use them */ ++ if (Mode & FULL_TEARDOWN) ++ HalDev->ChIsSetup[Ch][DIRECTION_TX] = 0; ++ ++ if (HalDev->State < enOpened) ++ { ++ /* if the hardware has never been opened, the channel has never actually ++ been setup in the hardware, so I just need to reset the software flag ++ and leave */ ++ HalDev->ChIsSetup[Ch][DIRECTION_TX] = 0; ++ return (EC_NO_ERRORS); ++ } ++ else ++ { ++ if (HalDev->ChIsOpen[Ch][DIRECTION_TX] == 0) ++ { ++ return(EC_AAL5 |EC_FUNC_CHTEARDOWN|EC_VAL_TX_CH_ALREADY_TORNDOWN); ++ } ++ ++ /* set teardown flag */ ++ HalDev->TxTeardownPending[Ch] = Mode; ++ } ++ } ++ ++ if (DoRx) ++ { ++ if (HalDev->RxTeardownPending[Ch] != 0) ++ return(EC_AAL5 |EC_FUNC_CHTEARDOWN|EC_VAL_RX_TEARDOWN_ALREADY_PEND); ++ ++ if (Mode & FULL_TEARDOWN) ++ HalDev->ChIsSetup[Ch][DIRECTION_RX] = 0; ++ ++ if (HalDev->State < enOpened) ++ { ++ HalDev->ChIsSetup[Ch][DIRECTION_RX] = 0; ++ return (EC_NO_ERRORS); ++ } ++ else ++ { ++ if (HalDev->ChIsOpen[Ch][DIRECTION_RX] == 0) ++ return(EC_AAL5 |EC_FUNC_CHTEARDOWN|EC_VAL_RX_CH_ALREADY_TORNDOWN); ++ ++ HalDev->RxTeardownPending[Ch] = Mode; ++ } ++ } ++ ++ /* Perform Tx Teardown Duties */ ++ if ((DoTx) && (HalDev->State == enOpened)) ++ { ++ /* Request TX channel teardown */ ++ (TX_CPPI_TEARDOWN_REG( base )) = Ch; ++ ++ /* wait until teardown has completed */ ++ if (Mode & BLOCKING_TEARDOWN) ++ { ++ timeout = 0; ++ while (HalDev->ChIsOpen[Ch][DIRECTION_TX] == TRUE) ++ { ++ osfuncSleep(&Sleep); ++ ++ timeout++; ++ if (timeout > 100000) ++ { ++ return(EC_AAL5 |EC_FUNC_CHTEARDOWN|EC_VAL_TX_TEARDOWN_TIMEOUT); ++ } ++ } ++ } ++ } /* if DoTx */ ++ ++ /* Perform Rx Teardown Duties */ ++ if ((DoRx) && (HalDev->State == enOpened)) ++ { ++ ++ /* call main teardown routine for Rx */ ++ Ret = HalDev->SarFunc->ChannelTeardown(HalDev->SarDev, Ch, Mode); ++ if (Ret) return (Ret); ++ ++ if (Mode & BLOCKING_TEARDOWN) ++ { ++ timeout = 0; ++ while (HalDev->ChIsOpen[Ch][DIRECTION_RX] == TRUE) ++ { ++ osfuncSleep(&Sleep); ++ ++ timeout++; ++ if (timeout > 100000) ++ { ++ return(EC_AAL5 |EC_FUNC_CHTEARDOWN|EC_VAL_RX_TEARDOWN_TIMEOUT); ++ } ++ } ++ } ++ } /* if DoRx */ ++ ++ return (EC_NO_ERRORS); ++ } ++ ++/** ++ * @ingroup CPHAL_Functions ++ * This function closes the CPHAL module. The module will be reset. ++ * The Mode parameter should be used to determine the actions taken by ++ * Close(). ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * @param Mode Indicates actions to take on close. The following integer ++ * values are valid: <BR> ++ * 1: Does not free buffer resources, init parameters remain ++ * intact. User can then call Open() without calling Init() ++ * to attempt to reset the device and bring it back to the ++ * last known state.<BR> ++ * 2: Frees the buffer resources, but keeps init parameters. This ++ * option is a more aggressive means of attempting a device reset. ++ * 3: Frees the buffer resources, and clears all init parameters. <BR> ++ * At this point, the caller would have to call to completely ++ * reinitialize the device (Init()) before being able to call ++ * Open(). Use this mode if you are shutting down the module ++ * and do not plan to restart. ++ * ++ * @return EC_NO_ERRORS (ok).<BR> ++ * Possible Error Codes:<BR> ++ * @ref EC_VAL_INVALID_STATE "EC_VAL_INVALID_STATE"<BR> ++ * Any error code from halChannelTeardown().<BR> ++ */ ++static int halClose(HAL_DEVICE *HalDev, bit32 Mode) ++ { ++ int Ch, Inst, Ret; ++ OS_DEVICE *TmpOsDev; ++ OS_FUNCTIONS *TmpOsFunc; ++ HAL_FUNCTIONS *TmpHalFunc; ++ char *TmpDeviceInfo; ++ ++ CPSAR_FUNCTIONS *TmpSarFunc; ++ CPSAR_DEVICE *TmpSarDev; ++ ++ /* Verify proper device state */ ++ if (HalDev->State != enOpened) ++ return (EC_AAL5 | EC_FUNC_CLOSE|EC_VAL_INVALID_STATE); ++ ++ /* Teardown all open channels */ ++ for (Ch = 0; Ch <= MAX_AAL5_CHAN ; Ch++) ++ { ++ if (HalDev->ChIsOpen[Ch][DIRECTION_TX] == TRUE) ++ { ++ if (Mode == 1) ++ { ++ Ret = halChannelTeardown(HalDev, Ch, TX_TEARDOWN | PARTIAL_TEARDOWN | BLOCKING_TEARDOWN); ++ if (Ret) return (Ret); ++ } ++ else ++ { ++ Ret = halChannelTeardown(HalDev, Ch, TX_TEARDOWN | FULL_TEARDOWN | BLOCKING_TEARDOWN); ++ if (Ret) return (Ret); ++ } ++ } ++ ++ if (HalDev->ChIsOpen[Ch][DIRECTION_RX] == TRUE) ++ { ++ if (Mode == 1) ++ { ++ Ret = halChannelTeardown(HalDev, Ch, RX_TEARDOWN | PARTIAL_TEARDOWN | BLOCKING_TEARDOWN); ++ if (Ret) return (Ret); ++ } ++ else ++ { ++ Ret = halChannelTeardown(HalDev, Ch, RX_TEARDOWN | FULL_TEARDOWN | BLOCKING_TEARDOWN); ++ if (Ret) return (Ret); ++ } ++ } ++ } ++ ++ /* free fraglist in HalDev */ ++ HalDev->OsFunc->Free(HalDev->fraglist); ++ HalDev->fraglist = 0; ++ ++ /* unregister the interrupt */ ++ HalDev->OsFunc->IsrUnRegister(HalDev->OsDev, HalDev->interrupt); ++ ++ /* Disable the Tx CPPI DMA */ ++ TX_CPPI_CTL_REG(HalDev->dev_base) = 0; ++ ++ /* Disable the Rx CPPI DMA */ ++ RX_CPPI_CTL_REG(HalDev->dev_base) = 0; ++ ++ /* Close the SAR hardware - puts the device in reset if this module is the ++ "last one out" */ ++ HalDev->SarFunc->Close(HalDev->SarDev, Mode); ++ ++ /* If mode is 3, than clear the HalDev and set next state to DevFound*/ ++ if (Mode == 3) ++ { ++ /* I need to keep the HalDev parameters that were setup in InitModule */ ++ TmpOsDev = HalDev->OsDev; ++ TmpOsFunc = HalDev->OsFunc; ++ TmpDeviceInfo = HalDev->DeviceInfo; ++ ++ TmpSarFunc = HalDev->SarFunc; ++ TmpSarDev = HalDev->SarDev; ++ ++ TmpHalFunc = HalDev->HalFuncPtr; ++ Inst = HalDev->Inst; ++ ++ /* Clear HalDev */ ++ ++ HalDev->OsFunc->Memset(HalDev, 0, sizeof(HAL_DEVICE)); ++ ++ /* Restore key parameters */ ++ HalDev->OsDev = TmpOsDev; ++ HalDev->OsFunc = TmpOsFunc; ++ HalDev->DeviceInfo = TmpDeviceInfo; ++ ++ HalDev->SarFunc = TmpSarFunc; ++ HalDev->SarDev = TmpSarDev; ++ ++ HalDev->HalFuncPtr = TmpHalFunc; ++ HalDev->Inst = Inst; ++ ++ HalDev->State = enDevFound; ++ } ++ else ++ { ++ HalDev->State = enInitialized; ++ } ++ ++ return(EC_NO_ERRORS); ++ } +diff -urN linux.old/drivers/atm/sangam_atm/cpremap_cpaal5.c linux.dev/drivers/atm/sangam_atm/cpremap_cpaal5.c +--- linux.old/drivers/atm/sangam_atm/cpremap_cpaal5.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/cpremap_cpaal5.c 2005-08-23 04:46:50.084845672 +0200 +@@ -0,0 +1,27 @@ ++#ifndef _INC_CPREMAP_C ++#define _INC_CPREMAP_C ++ ++#ifdef __ADAM2 ++static inline void osfuncDataCacheHitInvalidate(void *ptr, int Size) ++ { ++ asm(" cache 17, (%0)" : : "r" (ptr)); ++ } ++ ++static inline void osfuncDataCacheHitWriteback(void *ptr, int Size) ++ { ++ asm(" cache 25, (%0)" : : "r" (ptr)); ++ } ++ ++#else ++ #define osfuncDataCacheHitInvalidate(MemPtr, Size) HalDev->OsFunc->DataCacheHitInvalidate(MemPtr, Size) ++ #define osfuncDataCacheHitWriteback(MemPtr, Size) HalDev->OsFunc->DataCacheHitWriteback(MemPtr, Size) ++#endif ++ ++/* ++#define osfuncDataCacheHitInvalidate(ptr, Size) asm(" cache 17, (%0)" : : "r" (ptr)) ++#define osfuncDataCacheHitWriteback(ptr, Size) asm(" cache 25, (%0)" : : "r" (ptr)) ++*/ ++ ++ ++ ++#endif +diff -urN linux.old/drivers/atm/sangam_atm/cpremap_cpsar.c linux.dev/drivers/atm/sangam_atm/cpremap_cpsar.c +--- linux.old/drivers/atm/sangam_atm/cpremap_cpsar.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/cpremap_cpsar.c 2005-08-23 04:46:50.084845672 +0200 +@@ -0,0 +1,27 @@ ++#ifndef _INC_CPREMAP_C ++#define _INC_CPREMAP_C ++ ++#ifdef __ADAM2 ++static inline void osfuncDataCacheHitInvalidate(void *ptr, int Size) ++ { ++ asm(" cache 17, (%0)" : : "r" (ptr)); ++ } ++ ++static inline void osfuncDataCacheHitWriteback(void *ptr, int Size) ++ { ++ asm(" cache 25, (%0)" : : "r" (ptr)); ++ } ++ ++#else ++ #define osfuncDataCacheHitInvalidate(MemPtr, Size) HalDev->OsFunc->DataCacheHitInvalidate(MemPtr, Size) ++ #define osfuncDataCacheHitWriteback(MemPtr, Size) HalDev->OsFunc->DataCacheHitWriteback(MemPtr, Size) ++#endif ++ ++/* ++#define osfuncDataCacheHitInvalidate(ptr, Size) asm(" cache 17, (%0)" : : "r" (ptr)) ++#define osfuncDataCacheHitWriteback(ptr, Size) asm(" cache 25, (%0)" : : "r" (ptr)) ++*/ ++ ++ ++ ++#endif +diff -urN linux.old/drivers/atm/sangam_atm/cpsar.c linux.dev/drivers/atm/sangam_atm/cpsar.c +--- linux.old/drivers/atm/sangam_atm/cpsar.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/cpsar.c 2005-08-23 04:46:50.086845368 +0200 +@@ -0,0 +1,881 @@ ++/** ++ * cpsar.c ++ * ++ * TNETDxxxx Software Support\n ++ * Copyright (c) 2002 Texas Instruments Incorporated. All Rights Reserved. ++ * ++ * This file contains the HAL for the CPSAR module. In the software ++ * architecture, the CPSAR module is used exclusively by the AAL5 and AAL2 ++ * CPHAL modules. AAL5 and AAL2 may utilize the same CPSAR instance ++ * simulataneously. ++ * ++ * version ++ * 5Sep02 Greg 1.00 Original Version created. ++ */ ++ ++/* register files */ ++#include "cp_sar_reg.h" ++ ++#define _CPHAL_CPSAR ++#define _CPHAL ++ ++#define WAIT_THRESH 200000 ++#define IRAM_SIZE 1536 ++#define MAX_INST 2 ++ ++/* OS Data Structure definition */ ++ ++typedef void OS_PRIVATE; ++typedef void OS_DEVICE; ++typedef void OS_SENDINFO; ++typedef void OS_RECEIVEINFO; ++typedef void OS_SETUP; ++ ++/* CPHAL Data Structure definitions */ ++ ++typedef struct cpsar_device CPSAR_DEVICE; ++typedef struct cpsar_device HAL_DEVICE; ++typedef void HAL_RECEIVEINFO; ++ ++#define MAX_QUEUE 2 ++#define MAX_CHAN 19 ++ ++#include "cpcommon_cpsar.h" ++#include "cpswhal_cpsar.h" ++#include "cpsar.h" ++#include "cpcommon_cpsar.c" ++ ++static CPSAR_DEVICE *CpsarDev[MAX_INST]= {0,0}; ++ ++/* ++ * Returns statistics information. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * ++ * @return 0 ++ */ ++static int StatsGet3(CPSAR_DEVICE *HalDev) ++ { ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpsar]StatsGet3(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ /* ++ dbgPrintf("CPSAR General Stats:\n"); ++ DispHexStat(HalDev, "Base Address",HalDev->dev_base); ++ DispStat(HalDev, "Offset (VLYNQ)",HalDev->offset); ++ DispStat(HalDev, "Debug Level",HalDev->debug); ++ DispStat(HalDev, "Instance",HalDev->Inst); ++ DispHexStat(HalDev, "Reset Address",HalDev->ResetBase); ++ DispStat(HalDev, "Reset Bit",HalDev->ResetBit); ++ */ ++ return (EC_NO_ERRORS); ++ } ++ ++/* +GSG 030407 */ ++static void SetOamMode(HAL_DEVICE *HalDev) ++ { ++ int Ch; ++ volatile bit32u *pTmp; ++ int OamMode = (1<<8); ++ ++ /* any configuration of OamMode affects all VC's, including AAL2 */ ++ for (Ch = 0; Ch < MAX_CHAN; Ch++) ++ { ++ if (Ch < 16) ++ pTmp = (pPDSP_AAL5_RX_STATE_WORD_0(HalDev->dev_base) + (Ch*64)); ++ else ++ pTmp = (pPDSP_AAL2_RX_STATE_WORD_0(HalDev->dev_base) + ((Ch-16)*64)); ++ ++ if (HalDev->OamMode == 0) ++ { ++ *pTmp &=~ OamMode; ++ } ++ else ++ { ++ *pTmp |= OamMode; ++ } ++ } ++ } ++ ++static int halControl(CPSAR_DEVICE *HalDev, const char *Key, const char *Action, void *Value) ++ { ++ int KeyFound=0, ActionFound=0, rc=EC_NO_ERRORS, Ch; /* +RC3.02*/ ++ char *TmpKey = (char *)Key; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpsar]halControl(HalDev:%08x, Key:%s, Action:%s, Value:%08x)\n", (bit32u)HalDev, ++ Key, Action, (bit32u)Value); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ if (HalDev->OsFunc->Strcmpi(Key, "Debug") == 0) ++ { ++ KeyFound=1; /* +RC3.02*/ ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; /* +RC3.02*/ ++ HalDev->debug = *(int *)Value; ++ } ++ } ++ ++ /* +GSG 030407 */ ++ if (HalDev->OsFunc->Strcmpi(Key, "OamMode") == 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ HalDev->OamMode = *(int *)Value; ++ ++ /* only do this if we're open */ ++ if (HalDev->OpenCount > 0) ++ SetOamMode(HalDev); ++ } ++ ++ if (HalDev->OsFunc->Strcmpi(Action, "Get") == 0) ++ { ++ ActionFound=1; ++ *(int *)Value = HalDev->OamMode; ++ } ++ } ++ ++ if (HalDev->OsFunc->Strcmpi(Key, "Stats3") == 0) ++ { ++ if (HalDev->OsFunc->Strcmpi(Action, "Get") == 0) ++ StatsGet3(HalDev); ++ } ++ ++ /* +RC3.02 (if statement) */ ++ /* Fixes PITS #98 */ ++ if (HalDev->OsFunc->Strstr(Key, "PdspEnable") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ ++ /* Configure PDSP enable bit based on Value*/ ++ if (*(int *)Value & 1) ++ { ++ /* enable PDSP */ ++ PDSP_CTRL_REG(HalDev->dev_base) |= 0x2; ++ } ++ else ++ { ++ /* disable PDSP */ ++ PDSP_CTRL_REG(HalDev->dev_base) &=~ 0x2; ++ } ++ } ++ } ++ ++ if (HalDev->OsFunc->Strstr(Key, "FwdUnkVc.") != 0) ++ { ++ KeyFound=1; ++ if (HalDev->OsFunc->Strcmpi(Action, "Set") == 0) ++ { ++ ActionFound=1; ++ ++ /* extract channel number */ ++ TmpKey += HalDev->OsFunc->Strlen("FwdUnkVc."); ++ Ch = HalDev->OsFunc->Strtoul(TmpKey, &TmpKey, 10); ++ ++ /* Configure forwarding of unknown VCI/VPI cells */ ++ SAR_PDSP_FWD_UNK_VC_REG(HalDev->dev_base) = (((*(int*)Value)<<31) | Ch); ++ } ++ } ++ ++ if (KeyFound == 0) /* +RC3.02 */ ++ rc = (EC_CPSAR|EC_FUNC_CONTROL|EC_VAL_KEY_NOT_FOUND); /* +RC3.02 */ ++ ++ if (ActionFound == 0) /* +RC3.02 */ ++ rc = (EC_CPSAR|EC_FUNC_CONTROL|EC_VAL_ACTION_NOT_FOUND); /* +RC3.02 */ ++ ++ return(rc); /* ~RC3.02 */ ++ } ++ ++/* ++ * This function opens the specified channel. ++ * ++ * @param HalDev CPHAL module instance. (set by cphalInitModule()) ++ * @param Ch Channel number. ++ * ++ * @return 0 OK, Non-zero Not OK ++ */ ++static int halChannelSetup(CPSAR_DEVICE *HalDev, CHANNEL_INFO *HalCh) ++ { ++ int i; ++ int Ch = HalCh->Channel; ++ int PdspChBlock = Ch; ++ int PdspBlockOffset = 0; ++ volatile bit32u *pTmp; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpsar]halChannelSetup(HalDev:%08x, HalCh:%08x)\n", (bit32u)HalDev, ++ (bit32u)HalCh); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* Figure out the correct offset from the start of the PDSP ++ Scratchpad RAM (starting at 0x8050 in the SAR) */ ++ if (Ch > 15) ++ { ++ /* this is an AAL2 channel, which are channels 16-18 */ ++ PdspChBlock = Ch - 16; ++ /* Get the offset to the AAL2 portion of the block (in words) */ ++ PdspBlockOffset = NUM_PDSP_AAL5_STATE_WORDS + (PdspChBlock*64); ++ /* Clear PDSP State RAM */ ++ /*pTmp = (pPDSP_BLOCK_0(HalDev->dev_base)+PdspBlockOffset); ++ for (i=0; i<NUM_PDSP_AAL2_STATE_WORDS; i++) ++ *pTmp++ = 0;*/ ++ } ++ else ++ { ++ /* Get the offset to the AAL5 portion of the block (in words) */ ++ PdspBlockOffset = (PdspChBlock*64); ++ /* Clear PDSP State RAM */ ++ /*pTmp = (pPDSP_BLOCK_0(HalDev->dev_base)+PdspBlockOffset); ++ for (i=0; i<NUM_PDSP_AAL5_STATE_WORDS; i++) ++ *pTmp++ = 0;*/ ++ } ++ ++ /* Configure PDSP State RAM */ ++ ++ /* Setup TX PDSP State RAM */ ++ pTmp = (pPDSP_BLOCK_0(HalDev->dev_base)+PdspBlockOffset); ++ *pTmp++ = HalCh->TxVc_CellRate; /* Set the cell rate in cells/sec */ ++ *pTmp++ = HalCh->TxVc_QosType; /* Configure the QoS Type */ ++ *pTmp++ = HalCh->TxVc_Mbs; /* Set minimum burst size */ ++ *pTmp++ = 0; /* (skip a register) */ ++ *pTmp++ = HalCh->TxVc_Pcr; /* set the peak cell rate */ ++ *pTmp++ = 0; /* new addition 4.9.02 */ ++ *pTmp++ = HalCh->TxVc_AtmHeader; /* give the ATM header */ ++ *pTmp++ = (HalCh->TxVc_OamTc << 8) ++ |(HalCh->TxVc_VpOffset); /* Set the OAM TC Path and VP Offset */ ++ ++ /* Setup RX PDSP State RAM */ ++ *pTmp++ = (HalCh->RxVc_OamCh)| ++ (HalDev->OamMode << 8) | ++ (HalCh->RxVc_OamToHost<<9); /* Set OAM Channel, Mode, and ToHost options */ ++ *pTmp++ = HalCh->RxVc_AtmHeader; /* ATM hdr put on firmware generated OAM */ ++ *pTmp++ = (HalCh->RxVc_VpOffset)| /* Set Rx OAM TC Path and VP Offset */ ++ (HalCh->RxVc_OamTc<<8); ++ ++ /* Setup TX VP PDSP State RAM */ ++ pTmp = (pPDSP_BLOCK_0(HalDev->dev_base)+PdspBlockOffset+16); /*GSG~030703 12->16 */ ++ *pTmp++ = HalCh->TxVp_AtmHeader; ++ *pTmp++ = (HalCh->TxVp_OamTc << 8); ++ ++ /* Setup RX VP PDSP State RAM */ ++ pTmp = (pPDSP_BLOCK_0(HalDev->dev_base)+PdspBlockOffset+20); /*GSG~030703 16->20 */ ++ *pTmp++ = HalCh->RxVp_AtmHeader; ++ *pTmp++ = (HalCh->RxVp_OamCh)| ++ (HalCh->RxVp_OamTc<<8)| ++ (HalCh->RxVp_OamToHost<<9); /* Set OAM Channel, Mode, and ToHost options */ ++ *pTmp++ = 0; ++ *pTmp++ = HalCh->RxVp_OamVcList; ++ ++ /* Configure forwarding of unknown VCI/VPI cells */ ++ if (HalCh->PktType == 3) ++ SAR_PDSP_FWD_UNK_VC_REG(HalDev->dev_base) = ((HalCh->FwdUnkVc<<31)|Ch); ++ ++ /* Configure Tx Channel Mapping Register (turn channel "ON") */ ++ TX_CH_MAPPING_REG(HalDev->dev_base) = 0x80000000 | ++ (HalCh->DaMask << 30) ++ | (HalCh->Priority << 24) | Ch; ++ ++ /* Setup Rx Channel in the LUT */ ++ i=0; ++ while (!(RX_LUT_CH_SETUP_REQ_REG(HalDev->dev_base) & 0x80000000)) ++ { ++ if (i > WAIT_THRESH) ++ { ++ return(EC_CPSAR|EC_FUNC_CHSETUP|EC_VAL_LUT_NOT_READY); ++ } ++ else ++ i++; ++ } ++ ++ /* RX LUT is ready */ ++ RX_LUT_CH_SETUP_REQ_REG(HalDev->dev_base) = (HalCh->PktType << 24) | Ch; ++ RX_LUT_CH_SETUP_REQ_VC_REG(HalDev->dev_base) = ((HalCh->Vpi << 20) | ++ (HalCh->Vci << 4)); ++ ++ return (EC_NO_ERRORS); ++ } ++ ++static int halChannelTeardown(CPSAR_DEVICE *HalDev, int Ch, bit32 Mode) ++ { ++ int waitcnt = 0; ++ int PdspBlockOffset = 0, i; ++ volatile bit32u *pTmp; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpsar]halChannelTeardown(HalDev:%08x, Ch:%d, Mode:%d\n", ++ (bit32u)HalDev, Ch, Mode); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ if ((Ch < 0) || (Ch > MAX_CHAN)) ++ return(EC_CPSAR|EC_FUNC_CHTEARDOWN|EC_VAL_INVALID_CH); ++ ++ /* Request RX channel teardown through LUT */ ++ while ((RX_LUT_CH_TEARDOWN_REQ_REG(HalDev->dev_base) & 0x80000000) == 0) ++ { ++ waitcnt++; ++ if (waitcnt == WAIT_THRESH) ++ { ++ return(EC_CPSAR|EC_FUNC_CHTEARDOWN|EC_VAL_LUT_NOT_READY); ++ } ++ } ++ ++ RX_LUT_CH_TEARDOWN_REQ_REG(HalDev->dev_base) = (Ch & 0xffff); ++ ++ /* for AAL2, clear channel PDSP RAM here. AAL5 does it when the teardown ++ has completed (which is asynchronous)*/ ++ if (Ch > 15) ++ { ++ /* Get the offset to the AAL2 portion of the block (in words) */ ++ PdspBlockOffset = NUM_PDSP_AAL5_STATE_WORDS + ((Ch-16)*64); ++ /* Clear PDSP State RAM */ ++ pTmp = (pPDSP_BLOCK_0(HalDev->dev_base)+PdspBlockOffset); ++ for (i=0; i<NUM_PDSP_AAL2_STATE_WORDS; i++) ++ *pTmp++ = 0; ++ } ++ ++ return (EC_NO_ERRORS); ++ } ++ ++int InitPdsp(CPSAR_DEVICE *HalDev) ++ { ++ bit32u NumOfEntries,i,IRamAddress,iTmp; ++ int *SarPdspFirmware; /* ~GSG 030403 */ ++ int FirmwareSize, rc; /* ~GSG 030403 */ ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpsar]InitPdsp(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* Get firmware */ ++ rc = HalDev->OsFunc->Control(HalDev->OsDev, "Firmware", "Get", &SarPdspFirmware); /* ~GSG 030403 */ ++ if (rc) /* +GSG 030403 */ ++ return (EC_CPSAR|EC_FUNC_OPEN|EC_VAL_KEY_NOT_FOUND); /* +GSG 030403 */ ++ ++ /* Get firmware size */ ++ rc = HalDev->OsFunc->Control(HalDev->OsDev, "FirmwareSize", "Get", &FirmwareSize); /* ~GSG 030403 */ ++ if (rc) /* +GSG 030403 */ ++ return (EC_CPSAR|EC_FUNC_OPEN|EC_VAL_KEY_NOT_FOUND); /* +GSG 030403 */ ++ ++ IRamAddress = (bit32u) pPDSP_CTRL_REG(HalDev->dev_base); ++ ++ NumOfEntries = (FirmwareSize)/4; /* ~GSG 030403 */ ++ if (NumOfEntries > IRAM_SIZE) ++ { ++ /* Note: On Avalanche, they truncated the PDSP firmware and warned */ ++ /* NumOfEntries = IRAM_SIZE; */ ++ return(EC_CPSAR|EC_FUNC_INIT|EC_VAL_FIRMWARE_TOO_LARGE); ++ } ++ for(i=8;i<NumOfEntries;i++) ++ (*((bit32 *) (IRamAddress+(i*4))))=SarPdspFirmware[i]; /* ~GSG 030403 */ ++ ++ /* Check code */ ++ for(i=8;i<NumOfEntries;i++) ++ { ++ iTmp=(*((bit32 *) (IRamAddress+(i*4)))); ++ if (iTmp != SarPdspFirmware[i]) /* ~GSG 030403 */ ++ { ++ return(EC_CPSAR|EC_FUNC_OPEN|EC_VAL_PDSP_LOAD_FAIL); ++ } ++ } ++ ++ return(EC_NO_ERRORS); ++ } ++ ++/* ++ * This function probes for the instance of the CPHAL module. It will call ++ * the OS function @c DeviceFindInfo() to get the information required. ++ * ++ * @param HalDev CPHAL module instance. (set by xxxInitModule()) ++ * ++ * @return 0 OK, Otherwise error. ++ */ ++static int halProbe(CPSAR_DEVICE *HalDev) ++ { ++ int Ret; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpsar]halProbe(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(1)) ++ { ++ dbgPrintf("[os]DeviceFindInfo(Inst:%d, DeviceName:%s, DeviceInfo:%08x)\n", ++ HalDev->Inst, "sar", (bit32u)&HalDev->DeviceInfo); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* Attempt to find the device information */ ++ Ret = HalDev->OsFunc->DeviceFindInfo(HalDev->Inst, "sar", &HalDev->DeviceInfo); ++ if (Ret) ++ return(EC_CPSAR|EC_FUNC_PROBE|EC_VAL_DEVICE_NOT_FOUND); ++ ++ return(EC_NO_ERRORS); ++ } ++ ++#ifdef __CPHAL_DEBUG ++static void dbgConfigDump(HAL_DEVICE *HalDev) ++ { ++ dbgPrintf(" [cpsar Inst %d] Config Dump:\n", HalDev->Inst); ++ dbgPrintf(" Base :%08x, offset :%08d\n", ++ HalDev->dev_base, HalDev->offset); ++ dbgPrintf(" ResetBit:%08d, ResetBase:%08x\n", ++ HalDev->ResetBit, HalDev->ResetBase); ++ dbgPrintf(" UniNni :%08d, debug :%08d\n", ++ HalDev->ResetBit, HalDev->debug); ++ osfuncSioFlush(); ++ } ++#endif ++ ++/* ++ * Sets up HAL default configuration parameter values. ++ */ ++static void ConfigInit(CPSAR_DEVICE *HalDev) ++ { ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpsar]ConfigInit(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ /* configure some defaults with tnetd7300 values */ ++ HalDev->dev_base = 0xa3000000; ++ HalDev->offset = 0; ++ HalDev->UniNni = CFG_UNI_NNI; ++ HalDev->ResetBit = 9; ++ HalDev->debug = 0; ++ HalDev->ResetBase = 0xa8611600; ++ } ++ ++/* ++ * Retrieve HAL configuration parameter values. ++ */ ++static bit32u ConfigGet(HAL_DEVICE *HalDev) ++ { ++ bit32u ParmValue, error_code; ++ char *DeviceInfo = HalDev->DeviceInfo; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpsar]ConfigGet(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* get the configuration parameters common to all modules */ ++ error_code = ConfigGetCommon(HalDev); ++ if (error_code) return (EC_CPSAR|error_code); ++ ++ /* get SAR specific configuration parameters */ ++ error_code = HalDev->OsFunc->DeviceFindParmUint(DeviceInfo,"UniNni",&ParmValue); ++ if (!error_code) HalDev->UniNni = ParmValue; ++ ++ return (EC_NO_ERRORS); ++ } ++ ++static int halInit(CPSAR_DEVICE *HalDev) ++ { ++ bit32u Ret; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpsar]halInit(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(7)) ++ { ++ dbgPrintf("[cpsar halInit()]InitCount = %d\n", HalDev->InitCount); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* Only run the init code for the first calling module per instance */ ++ if (HalDev->InitCount > 1) ++ { ++ return (EC_NO_ERRORS); ++ } ++ ++ /* Configure HAL defaults */ ++ ConfigInit(HalDev); ++ ++ /* Retrieve HAL configuration parameters from data store */ ++ Ret = ConfigGet(HalDev); ++ if (Ret) return (Ret); ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(9)) ++ dbgConfigDump(HalDev); ++#endif ++ ++ return(EC_NO_ERRORS); ++ } ++ ++static int halOpen(CPSAR_DEVICE *HalDev) ++ { ++ int Ret, Ticks=64; ++ int i; /*+GSG 030407*/ ++ volatile int *pTmp; /*+GSG 030407*/ ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpsar]halOpen(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(7)) ++ { ++ dbgPrintf("[cpsar halOpen()]OpenCount = %d\n", HalDev->OpenCount); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* Only run the open code for the first calling module per instance */ ++ if (HalDev->OpenCount++ > 0) ++ { ++ return (EC_NO_ERRORS); ++ } ++ ++ /* Take SAR out of reset */ ++ if (((*(volatile bit32u *)(HalDev->ResetBase)) & (1<<HalDev->ResetBit)) != 0) ++ { ++ /** @todo Should I somehow call AAL5/AAL2 Close() here? All I've done ++ here is copy the Close code from each and paste it here. */ ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(7)) ++ { ++ dbgPrintf("[cpsar halOpen()]Module was already out of reset.\n"); ++ dbgPrintf(" Closing module and resetting.\n"); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* Disable the Tx CPPI DMA */ ++ TX_CPPI_CTL_REG(HalDev->dev_base) = 0; ++ ++ /* Disable the Rx CPPI DMA */ ++ RX_CPPI_CTL_REG(HalDev->dev_base) = 0; ++ ++ /* Disable the PDSP */ ++ PDSP_CTRL_REG(HalDev->dev_base) &=~ 0x00000002; ++ ++ /* disable interrupt masks */ ++ SAR_TX_MASK_CLR(HalDev->dev_base) = 0xffffffff; ++ SAR_RX_MASK_CLR(HalDev->dev_base) = 0xffffffff; ++ ++#ifndef NO_RESET /* GSG+ 030428 */ ++ /* clear reset bit */ ++ (*(volatile bit32u *)(HalDev->ResetBase)) &=~ (1<<HalDev->ResetBit); /* ~GSG 030307 */ ++ HalDev->OsFunc->Control(HalDev->OsDev, "Sleep", "", &Ticks); ++ ++ /* set reset bit */ ++ (*(volatile bit32u *)(HalDev->ResetBase)) |= (1<<HalDev->ResetBit); /* ~GSG 030307 */ ++ HalDev->OsFunc->Control(HalDev->OsDev, "Sleep", "", &Ticks); ++#endif /* GSG+ 030428 */ ++ } ++ else ++ { ++ (*(volatile bit32u *)(HalDev->ResetBase)) |= (1<<HalDev->ResetBit); /* ~GSG 030307 */ ++ HalDev->OsFunc->Control(HalDev->OsDev, "Sleep", "", &Ticks); ++ } ++ ++ /* Configure UNI/NNI */ ++ RX_LUT_GLOBAL_CFG_REG(HalDev->dev_base) |= (HalDev->UniNni & 0x1); ++ ++ /* Clear entire PDSP state RAM */ /*+GSG 030407*/ ++ pTmp = (pTX_DMA_STATE_WORD_0(HalDev->dev_base)); /*+GSG 030407*/ ++ for (i=0; i<PDSP_STATE_RAM_SIZE; i++) /*+GSG 030407*/ ++ *pTmp++ = 0; /*+GSG 030407*/ ++ ++ /* Configure Oam Mode */ /*+GSG 030407*/ ++ SetOamMode(HalDev); /*+GSG 030407*/ ++ ++ /* Initialize PDSP */ ++ Ret=InitPdsp(HalDev); ++ if(Ret) ++ return(Ret); ++ ++ /* Reset and Enable the PDSP */ ++ PDSP_CTRL_REG(HalDev->dev_base) = 0x00080003; ++ ++ return(EC_NO_ERRORS); ++ } ++ ++static int halClose(CPSAR_DEVICE *HalDev, int Mode) ++ { ++ int Ticks = 64; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpsar]halClose(HalDev:%08x, Mode:%d)\n", (bit32u)HalDev, Mode); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* handle the error case if there is nothing open */ ++ if (HalDev->OpenCount == 0) ++ { ++ return(EC_CPSAR|EC_FUNC_CLOSE|EC_VAL_MODULE_ALREADY_CLOSED); ++ } ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(7)) ++ { ++ dbgPrintf("[cpsar halClose()]OpenCount = %d\n", HalDev->OpenCount); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* Only run the close code for the last calling module per instance */ ++ if (HalDev->OpenCount-- > 1) ++ { ++ return (EC_NO_ERRORS); ++ } ++ ++ /* Disable the PDSP */ ++ PDSP_CTRL_REG(HalDev->dev_base) &=~ 0x00000002; ++ ++#ifndef NO_RESET /* GSG +030428 */ ++ /* put device back into reset */ ++ (*(volatile bit32u *)(HalDev->ResetBase)) &=~ (1<<HalDev->ResetBit); /* ~GSG 030307 */ ++ HalDev->OsFunc->Control(HalDev->OsDev, "Sleep", "", &Ticks); ++#endif /* GSG +030428 */ ++ ++ return(EC_NO_ERRORS); ++ } ++ ++static int halShutdown(CPSAR_DEVICE *HalDev) ++ { ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpsar]halShutdown(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* handle the error case */ ++ if (HalDev->InitCount == 0) ++ { ++ return(EC_CPSAR|EC_FUNC_CLOSE|EC_VAL_MODULE_ALREADY_SHUTDOWN); ++ } ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(7)) ++ { ++ dbgPrintf("[cpsar halShutdown()]InitCount = %d\n", HalDev->InitCount); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ /* Only run the shutdown code for the last calling module per instance */ ++ if (HalDev->InitCount-- > 1) ++ { ++ return (EC_NO_ERRORS); ++ } ++ ++ /* free the SAR functions */ ++#ifdef __CPHAL_DEBUG ++ if (DBG(6)) ++ { ++ dbgPrintf(" [cpsar halShutdown()]: Free CPSAR function pointers\n"); ++ osfuncSioFlush(); ++ } ++ if (DBG(1)||DBG(3)) ++ { ++ dbgPrintf("[os]Free(MemPtr:%08x)\n", (bit32u)HalDev->HalFuncPtr); ++ osfuncSioFlush(); ++ } ++#endif ++ /* free the HalFunc */ ++ HalDev->OsFunc->Free(HalDev->HalFuncPtr); ++ ++ /* we have a static global, so I should clear it's value as well */ ++ CpsarDev[HalDev->Inst] = 0; ++ ++#ifdef __CPHAL_DEBUG ++ if (DBG(6)) ++ { ++ dbgPrintf(" [cpsar halShutdown()]Free HalDev\n"); ++ osfuncSioFlush(); ++ } ++ if (DBG(1)||DBG(3)) ++ { ++ dbgPrintf("[os]Free(MemPtr:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ /* free the CPSAR device */ ++ HalDev->OsFunc->Free(HalDev); ++ ++ return(EC_NO_ERRORS); ++ } ++ ++static int halTick(CPSAR_DEVICE *HalDev) ++ { ++#ifdef __CPHAL_DEBUG ++ if (DBG(0)) ++ { ++ dbgPrintf("[cpsar]halTick(HalDev:%08x)\n", (bit32u)HalDev); ++ osfuncSioFlush(); ++ } ++#endif ++ ++ return(EC_NO_ERRORS); ++ } ++ ++/* ++ * The CPSAR version of InitModule() should be passed the OS_FUNCTIONS pointer, ++ * and will return the HalDev pointer. ++ * ++ * @param HalDev Pointer to CPSAR module information. This will ++ * be used by the OS when communicating to this module via ++ * CPSAR. ++ * @param OsDev Pointer to OS device information. This will be saved by ++ * the CPSAR and returned to the OS when required. ++ * @param HalFunc HAL_FUNCTIONS pointer. ++ * @param Size Pointer to the size of the HAL_FUNCTIONS structure. (If ++ * HalFunc is 0, the value will be set by CPSAR, otherwise ++ * ignored) ++ * @param Inst The instance number of the module to initialize. (start at ++ * 0). ++ * ++ * @return 0 OK, Nonzero - error. ++ */ ++/* ++int cpsarInitModule(CPSAR_DEVICE **HalDev, ++ OS_DEVICE *OsDev, ++ CPSAR_FUNCTIONS *HalFunc, ++ OS_FUNCTIONS *OsFunc, ++ int *Size, ++ int Inst) ++*/ ++int cpsarInitModule(CPSAR_DEVICE **HalDev, ++ OS_DEVICE *OsDev, ++ CPSAR_FUNCTIONS **HalFunc, ++ OS_FUNCTIONS *OsFunc, ++ int OsFuncSize, ++ int *HalFuncSize, ++ int Inst) ++ { ++ CPSAR_DEVICE *HalPtr; ++ CPSAR_FUNCTIONS *HalFuncPtr; ++ ++ /* ++ if ( HalFunc == 0 ) ++ { ++ *Size = sizeof(CPSAR_FUNCTIONS); ++ return(EC_NO_ERRORS); ++ } ++ */ ++ ++ if (CpsarDev[Inst] != 0) ++ { ++ /* this SAR module has been connected to before, so do not ++ allocate another CPSAR_DEVICE */ ++ HalPtr = CpsarDev[Inst]; ++ ++ /* increase count of attached modules */ ++ HalPtr->InitCount++; ++ } ++ else ++ { ++ /* allocate the CPSAR_DEVICE structure */ ++ HalPtr = (CPSAR_DEVICE *) OsFunc->MallocDev(sizeof(CPSAR_DEVICE)); ++ if(!HalPtr) ++ return(EC_CPSAR|EC_FUNC_HAL_INIT|EC_VAL_MALLOC_DEV_FAILED); ++ ++ HalFuncPtr = (CPSAR_FUNCTIONS *) OsFunc->Malloc(sizeof(CPSAR_FUNCTIONS)); ++ if (!HalFuncPtr) ++ return (EC_CPSAR|EC_FUNC_HAL_INIT|EC_VAL_MALLOC_FAILED); ++ ++ /* Initialize the size of hal functions */ ++ *HalFuncSize = sizeof (CPSAR_FUNCTIONS); ++ ++ /* ensure the device structure is cleared */ ++ OsFunc->Memset(HalPtr, 0, sizeof(CPSAR_DEVICE)); ++ ++ /* clear the function pointers */ ++ OsFunc->Memset(HalFuncPtr, 0, sizeof(CPSAR_FUNCTIONS)); ++ ++ /* Supply pointers for the CPSAR API functions */ ++ HalFuncPtr->ChannelSetup = halChannelSetup; ++ HalFuncPtr->ChannelTeardown = halChannelTeardown; ++ HalFuncPtr->Close = halClose; ++ HalFuncPtr->Control = halControl; ++ HalFuncPtr->Init = halInit; ++ HalFuncPtr->Open = halOpen; ++ HalFuncPtr->Probe = halProbe; ++ HalFuncPtr->Shutdown = halShutdown; ++ HalFuncPtr->Tick = halTick; ++ ++ /* keep a reference to HalFuncPtr so I can free it later */ ++ HalPtr->HalFuncPtr = HalFuncPtr; ++ ++ /* store the CPSAR_DEVICE, so the CPSAR module will know whether ++ it is in use for the given instance */ ++ CpsarDev[Inst] = HalPtr; ++ ++ /* increase count of attached modules */ ++ HalPtr->InitCount++; ++ } ++ ++ /* @todo Does this need modification to deal with multiple callers/ ++ drivers? If different callers will use different OsDev/OsFunc, ++ then the current code will not work. ++ */ ++ ++ /* initialize the CPSAR_DEVICE structure */ ++ HalPtr->OsDev = OsDev; ++ /*HalPtr->OsOpen = OsDev;*/ ++ HalPtr->Inst = Inst; ++ HalPtr->OsFunc = OsFunc; ++ ++ /* pass the HalPtr back to the caller */ ++ *HalDev = HalPtr; ++ *HalFunc = HalPtr->HalFuncPtr; ++ ++ return (EC_NO_ERRORS); ++ } +diff -urN linux.old/drivers/atm/sangam_atm/cpsar_cpaal5.h linux.dev/drivers/atm/sangam_atm/cpsar_cpaal5.h +--- linux.old/drivers/atm/sangam_atm/cpsar_cpaal5.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/cpsar_cpaal5.h 2005-08-23 04:46:50.087845216 +0200 +@@ -0,0 +1,103 @@ ++/******************************************************************************* ++ * TNETDxxxx Software Support ++ * Copyright (c) 2002 Texas Instruments Incorporated. All Rights Reserved. ++ * ++ * FILE: cpsar.h ++ * ++ * DESCRIPTION: ++ * This file contains data structure definitions for the CPSAR HAL. ++ * ++ * HISTORY: ++ * 6Sep02 Greg 1.00 Original Version created. ++ * ++ *****************************************************************************/ ++#ifndef _INC_CPSAR ++#define _INC_CPSAR ++ ++#define NUM_RX_STATE_WORDS 7 ++#define NUM_TX_STATE_WORDS 9 ++#define MAX_CHAN 19 ++ ++ ++#ifndef _CPHAL_CPSAR ++typedef void CPSAR_DEVICE; ++#endif ++ ++/* ++ * HAL Default Parameter Values ++ */ ++#define CFG_UNI_NNI 0 ++ ++/** ++ * @ingroup shared_data ++ * ++ * List of defined keys for use with Control(). ++ */ ++typedef enum ++ { ++ /* SAR */ ++ enGET_FIRMWARE, /**< Used by the SAR to request a pointer to firmware */ ++ enGET_FIRMWARE_SIZE, /**< Used by the SAR to request the size of the firmware */ ++ enEND=9999 /* Last entry */ ++ }INFO_KEY; ++ ++/* ++ * The CPHAL_FUNCTIONS struct defines the CPHAL function pointers used by upper layer ++ * software. The upper layer software receives these pointers through the ++ * call to cphalInitModule(). ++ */ ++typedef struct ++ { ++ int (*ChannelSetup)(CPSAR_DEVICE *HalDev, CHANNEL_INFO *HalCh); ++ int (*ChannelTeardown)(CPSAR_DEVICE *HalDev, int Ch, int Mode); ++ int (*Close)(CPSAR_DEVICE *HalDev, int Mode); ++ int (*Control)(CPSAR_DEVICE *HalDev, const char *Key, const char *Action, void *Value); ++ int (*Init)(CPSAR_DEVICE *HalDev); ++ int (*ModeChange)(CPSAR_DEVICE *HalDev, char *DeviceParms); ++ int (*Open)(CPSAR_DEVICE *HalDev); ++ int (*Probe)(CPSAR_DEVICE *HalDev); ++ int (*Shutdown)(CPSAR_DEVICE *HalDev); ++ int (*Tick)(CPSAR_DEVICE *HalDev); ++ } CPSAR_FUNCTIONS; ++ ++/* ++ * This is the data structure for a generic HAL device. It contains all device ++ * specific data for a single instance of that device. This includes Rx/Tx ++ * buffer queues, device base address, reset bit, and other information. ++ */ ++typedef struct cpsar_device ++ { ++ bit32 dev_base; ++ bit32 offset; ++ bit32 TxTeardownPending[MAX_CHAN]; ++ bit32 RxTeardownPending[MAX_CHAN]; ++ bit32 ChIsOpen[MAX_CHAN]; ++ bit32 ResetBit; ++ bit32 debug; ++ OS_DEVICE *OsDev; ++ OS_FUNCTIONS *OsFunc; ++ /*void *OsOpen;*/ ++ bit32 UniNni; ++ bit32 Inst; ++ bit32u DeviceCPID[4]; ++ bit32u LBSourceLLID[4]; ++ bit32u OamRate[11]; ++ CHANNEL_INFO ChData[MAX_CHAN]; ++ int InitCount; ++ int OpenCount; ++ char *DeviceInfo; ++ bit32u ResetBase; ++ DEVICE_STATE State; ++ CPSAR_FUNCTIONS *HalFuncPtr; ++ int OamMode; /* +GSG 030407 */ ++ }CPSARDEVICE; ++ ++extern int cpsarInitModule(CPSAR_DEVICE **HalDev, ++ OS_DEVICE *OsDev, ++ CPSAR_FUNCTIONS **HalFunc, ++ OS_FUNCTIONS *OsFunc, ++ int OsFuncSize, ++ int *HalFuncSize, ++ int Inst); ++ ++#endif +diff -urN linux.old/drivers/atm/sangam_atm/cpsar.h linux.dev/drivers/atm/sangam_atm/cpsar.h +--- linux.old/drivers/atm/sangam_atm/cpsar.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/cpsar.h 2005-08-23 04:46:50.087845216 +0200 +@@ -0,0 +1,103 @@ ++/******************************************************************************* ++ * TNETDxxxx Software Support ++ * Copyright (c) 2002 Texas Instruments Incorporated. All Rights Reserved. ++ * ++ * FILE: cpsar.h ++ * ++ * DESCRIPTION: ++ * This file contains data structure definitions for the CPSAR HAL. ++ * ++ * HISTORY: ++ * 6Sep02 Greg 1.00 Original Version created. ++ * ++ *****************************************************************************/ ++#ifndef _INC_CPSAR ++#define _INC_CPSAR ++ ++#define NUM_RX_STATE_WORDS 7 ++#define NUM_TX_STATE_WORDS 9 ++#define MAX_CHAN 19 ++ ++ ++#ifndef _CPHAL_CPSAR ++typedef void CPSAR_DEVICE; ++#endif ++ ++/* ++ * HAL Default Parameter Values ++ */ ++#define CFG_UNI_NNI 0 ++ ++/** ++ * @ingroup shared_data ++ * ++ * List of defined keys for use with Control(). ++ */ ++typedef enum ++ { ++ /* SAR */ ++ enGET_FIRMWARE, /**< Used by the SAR to request a pointer to firmware */ ++ enGET_FIRMWARE_SIZE, /**< Used by the SAR to request the size of the firmware */ ++ enEND=9999 /* Last entry */ ++ }INFO_KEY; ++ ++/* ++ * The CPHAL_FUNCTIONS struct defines the CPHAL function pointers used by upper layer ++ * software. The upper layer software receives these pointers through the ++ * call to cphalInitModule(). ++ */ ++typedef struct ++ { ++ int (*ChannelSetup)(CPSAR_DEVICE *HalDev, CHANNEL_INFO *HalCh); ++ int (*ChannelTeardown)(CPSAR_DEVICE *HalDev, int Ch, int Mode); ++ int (*Close)(CPSAR_DEVICE *HalDev, int Mode); ++ int (*Control)(CPSAR_DEVICE *HalDev, const char *Key, const char *Action, void *Value); ++ int (*Init)(CPSAR_DEVICE *HalDev); ++ int (*ModeChange)(CPSAR_DEVICE *HalDev, char *DeviceParms); ++ int (*Open)(CPSAR_DEVICE *HalDev); ++ int (*Probe)(CPSAR_DEVICE *HalDev); ++ int (*Shutdown)(CPSAR_DEVICE *HalDev); ++ int (*Tick)(CPSAR_DEVICE *HalDev); ++ } CPSAR_FUNCTIONS; ++ ++/* ++ * This is the data structure for a generic HAL device. It contains all device ++ * specific data for a single instance of that device. This includes Rx/Tx ++ * buffer queues, device base address, reset bit, and other information. ++ */ ++typedef struct cpsar_device ++ { ++ bit32 dev_base; ++ bit32 offset; ++ bit32 TxTeardownPending[MAX_CHAN]; ++ bit32 RxTeardownPending[MAX_CHAN]; ++ bit32 ChIsOpen[MAX_CHAN]; ++ bit32 ResetBit; ++ bit32 debug; ++ OS_DEVICE *OsDev; ++ OS_FUNCTIONS *OsFunc; ++ /*void *OsOpen;*/ ++ bit32 UniNni; ++ bit32 Inst; ++ bit32u DeviceCPID[4]; ++ bit32u LBSourceLLID[4]; ++ bit32u OamRate[11]; ++ CHANNEL_INFO ChData[MAX_CHAN]; ++ int InitCount; ++ int OpenCount; ++ char *DeviceInfo; ++ bit32u ResetBase; ++ DEVICE_STATE State; ++ CPSAR_FUNCTIONS *HalFuncPtr; ++ int OamMode; /* +GSG 030407 */ ++ }CPSARDEVICE; ++ ++extern int cpsarInitModule(CPSAR_DEVICE **HalDev, ++ OS_DEVICE *OsDev, ++ CPSAR_FUNCTIONS **HalFunc, ++ OS_FUNCTIONS *OsFunc, ++ int OsFuncSize, ++ int *HalFuncSize, ++ int Inst); ++ ++#endif +diff -urN linux.old/drivers/atm/sangam_atm/cp_sar_reg.h linux.dev/drivers/atm/sangam_atm/cp_sar_reg.h +--- linux.old/drivers/atm/sangam_atm/cp_sar_reg.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/cp_sar_reg.h 2005-08-23 04:46:50.087845216 +0200 +@@ -0,0 +1,217 @@ ++/*************************************************************************** ++ TNETD73xx Software Support ++ Copyright(c) 2000, Texas Instruments Incorporated. All Rights Reserved. ++ ++ FILE: cp_sar_reg.h Register definitions for the SAR module ++ ++ DESCRIPTION: ++ This include file contains register definitions for the ++ SAR module. ++ ++ HISTORY: ++ 15 Jan 02 G. Guyotte Original version written ++ 03 Oct 02 G. Guyotte C++ style comments removed ++****************************************************************************/ ++#ifndef _INC_SAR_REG ++#define _INC_SAR_REG ++ ++/* Global Registers */ ++#define pSAR_ID_REG(base) ((volatile bit32u *)(base+0x0000)) ++#define SAR_ID_REG(base) (*pSAR_ID_REG(base)) ++#define pSAR_STATUS_SET_REG(base) ((volatile bit32u *)(base+0x0008)) ++#define SAR_STATUS_SET_REG(base) (*pSAR_STATUS_SET_REG(base)) ++#define pSAR_STATUS_CLR_REG(base) ((volatile bit32u *)(base+0x000C)) ++#define SAR_STATUS_CLR_REG(base) (*pSAR_STATUS_CLR_REG(base)) ++#define pSAR_HOST_INT_EN_SET_REG(base) ((volatile bit32u *)(base+0x0010)) ++#define SAR_HOST_INT_EN_SET_REG(base) (*pSAR_HOST_INT_EN_SET_REG(base)) ++#define pSAR_HOST_INT_EN_CLR_REG(base) ((volatile bit32u *)(base+0x0014)) ++#define SAR_HOST_INT_EN_CLR_REG(base) (*pSAR_HOST_INT_EN_CLR_REG(base)) ++#define pSAR_PDSP_INT_EN_SET_REG(base) ((volatile bit32u *)(base+0x0018)) ++#define SAR_PDSP_INT_EN_SET_REG(base) (*pSAR_PDSP_INT_EN_SET_REG(base)) ++#define pSAR_PDSP_INT_EN_CLR_REG(base) ((volatile bit32u *)(base+0x001C)) ++#define SAR_PDSP_INT_EN_CLR_REG(base) (*pSAR_PDSP_INT_EN_CLR_REG(base)) ++ ++/* PDSP OAM General Purpose Registers */ ++#define pSAR_PDSP_HOST_OAM_CONFIG_REG(base) ((volatile bit32u *)(base+0x0020)) ++#define SAR_PDSP_HOST_OAM_CONFIG_REG(base) (*pSAR_PDSP_HOST_OAM_CONFIG_REG(base)) ++#define pSAR_PDSP_OAM_CORR_REG(base) ((volatile bit32u *)(base+0x0024)) ++#define SAR_PDSP_OAM_CORR_REG(base) (*pSAR_PDSP_OAM_CORR_REG(base)) ++#define pSAR_PDSP_OAM_LB_RESULT_REG(base) ((volatile bit32u *)(base+0x0028)) ++#define SAR_PDSP_OAM_LB_RESULT_REG(base) (*pSAR_PDSP_OAM_LB_RESULT_REG(base)) ++#define pSAR_PDSP_OAM_F5_LB_COUNT_REG(base) ((volatile bit32u *)(base+0x002c)) /* +GSG 030416 */ ++#define SAR_PDSP_OAM_F5_LB_COUNT_REG(base) (*pSAR_PDSP_OAM_F5_LB_COUNT_REG(base)) /* +GSG 030416 */ ++#define pSAR_PDSP_OAM_F4_LB_COUNT_REG(base) ((volatile bit32u *)(base+0x0030)) /* +GSG 030416 */ ++#define SAR_PDSP_OAM_F4_LB_COUNT_REG(base) (*pSAR_PDSP_OAM_F4_LB_COUNT_REG(base)) /* +GSG 030416 */ ++#define pSAR_PDSP_FWD_UNK_VC_REG(base) ((volatile bit32u *)(base+0x0034)) /* +GSG 030701 */ ++#define SAR_PDSP_FWD_UNK_VC_REG(base) (*pSAR_PDSP_FWD_UNK_VC_REG(base)) /* +GSG 030701 */ ++ ++ ++/* Rx Lookup Table Registers */ ++#define pRX_LUT_GLOBAL_CFG_REG(base) ((volatile bit32u *)(base+0x0080)) ++#define RX_LUT_GLOBAL_CFG_REG(base) (*pRX_LUT_GLOBAL_CFG_REG(base)) ++#define pRX_LUT_CH_SETUP_REQ_REG(base) ((volatile bit32u *)(base+0x0090)) ++#define RX_LUT_CH_SETUP_REQ_REG(base) (*pRX_LUT_CH_SETUP_REQ_REG(base)) ++#define pRX_LUT_CH_SETUP_REQ_VC_REG(base) ((volatile bit32u *)(base+0x0094)) ++#define RX_LUT_CH_SETUP_REQ_VC_REG(base) (*pRX_LUT_CH_SETUP_REQ_VC_REG(base)) ++#define pRX_LUT_CH_TEARDOWN_REQ_REG(base) ((volatile bit32u *)(base+0x009C)) ++#define RX_LUT_CH_TEARDOWN_REQ_REG(base) (*pRX_LUT_CH_TEARDOWN_REQ_REG(base)) ++ ++/* Tx Scheduler Registers */ ++#define pTX_CH_MAPPING_REG(base) ((volatile bit32u *)(base+0x0170)) ++#define TX_CH_MAPPING_REG(base) (*pTX_CH_MAPPING_REG(base)) ++ ++/* Tx CPPI DMA Controller Registers */ ++#define pTX_CPPI_CTL_REG(base) ((volatile bit32u *)(base+0x0700)) ++#define TX_CPPI_CTL_REG(base) (*pTX_CPPI_CTL_REG(base)) ++#define pTX_CPPI_TEARDOWN_REG(base) ((volatile bit32u *)(base+0x0704)) ++#define TX_CPPI_TEARDOWN_REG(base) (*pTX_CPPI_TEARDOWN_REG(base)) ++ ++/* EOI Interrupt Additions */ ++#define pSAR_EOI(base) ((volatile bit32u *)(base+0x0708)) ++#define SAR_EOI(base) (*pSAR_EOI(base)) ++#define pSAR_INTR_VECTOR(base) ((volatile bit32u *)(base+0x070c)) ++#define SAR_INTR_VECTOR(base) (*pSAR_INTR_VECTOR(base)) ++#define pSAR_TX_MASKED_STATUS(base) ((volatile bit32u *)(base+0x0710)) ++#define SAR_TX_MASKED_STATUS(base) (*pSAR_TX_MASKED_STATUS(base)) ++#define pSAR_TX_RAW_STATUS(base) ((volatile bit32u *)(base+0x0714)) ++#define SAR_TX_RAW_STATUS(base) (*pSAR_TX_RAW_STATUS(base)) ++#define pSAR_TX_MASK_SET(base) ((volatile bit32u *)(base+0x0718)) ++#define SAR_TX_MASK_SET(base) (*pSAR_TX_MASK_SET(base)) ++#define pSAR_TX_MASK_CLR(base) ((volatile bit32u *)(base+0x071c)) ++#define SAR_TX_MASK_CLR(base) (*pSAR_TX_MASK_CLR(base)) ++ ++/* Rx CPPI DMA Controller Registers */ ++#define pRX_CPPI_CTL_REG(base) ((volatile bit32u *)(base+0x0780)) ++#define RX_CPPI_CTL_REG(base) (*pRX_CPPI_CTL_REG(base)) ++#define pSAR_RX_MASKED_STATUS(base) ((volatile bit32u *)(base+0x0790)) ++#define SAR_RX_MASKED_STATUS(base) (*pSAR_RX_MASKED_STATUS(base)) ++#define pSAR_RX_RAW_STATUS(base) ((volatile bit32u *)(base+0x0794)) ++#define SAR_RX_RAW_STATUS(base) (*pSAR_RX_RAW_STATUS(base)) ++#define pSAR_RX_MASK_SET(base) ((volatile bit32u *)(base+0x0798)) ++#define SAR_RX_MASK_SET(base) (*pSAR_RX_MASK_SET(base)) ++#define pSAR_RX_MASK_CLR(base) ((volatile bit32u *)(base+0x079c)) ++#define SAR_RX_MASK_CLR(base) (*pSAR_RX_MASK_CLR(base)) ++ ++/* PDSP Control/Status Registers */ ++#define pPDSP_CTRL_REG(base) ((volatile bit32u *)(base+0x4000)) ++#define PDSP_CTRL_REG(base) (*pPDSP_CTRL_REG(base)) ++ ++/* PDSP Instruction RAM */ ++#define pPDSP_IRAM(base) ((volatile bit32u *)(base+0x4020)) ++#define PDSP_IRAM(base) (*pPDSP_IRAM(base)) ++ ++/* ++ * Channel 0 State/Scratchpad RAM Block ++ * ++ * The following registers (Tx DMA State, Rx DMA State, CPPI Completion PTR, ++ * and PDSP Data) have been given the correct address for channel 0. To ++ * reach the registers for channel X, add (X * 0x100) to the pointer address. ++ * ++ */ ++ ++#define PDSP_STATE_RAM_SIZE 1024 ++ ++/* Tx DMA State RAM */ ++#define pTX_DMA_STATE_WORD_0(base) ((volatile bit32u *)(base+0x8000)) ++#define TX_DMA_STATE_WORD_0(base) (*pTX_DMA_STATE_WORD_0(base)) ++#define pTX_DMA_STATE_WORD_1(base) ((volatile bit32u *)(base+0x8004)) ++#define TX_DMA_STATE_WORD_1(base) (*pTX_DMA_STATE_WORD_1(base)) ++#define pTX_DMA_STATE_WORD_2(base) ((volatile bit32u *)(base+0x8008)) ++#define TX_DMA_STATE_WORD_2(base) (*pTX_DMA_STATE_WORD_2(base)) ++#define pTX_DMA_STATE_WORD_3(base) ((volatile bit32u *)(base+0x800C)) ++#define TX_DMA_STATE_WORD_3(base) (*pTX_DMA_STATE_WORD_3(base)) ++#define pTX_DMA_STATE_WORD_4(base) ((volatile bit32u *)(base+0x8010)) ++#define TX_DMA_STATE_WORD_4(base) (*pTX_DMA_STATE_WORD_4(base)) ++#define pTX_DMA_STATE_WORD_5(base) ((volatile bit32u *)(base+0x8014)) ++#define TX_DMA_STATE_WORD_5(base) (*pTX_DMA_STATE_WORD_5(base)) ++#define pTX_DMA_STATE_WORD_6(base) ((volatile bit32u *)(base+0x8018)) ++#define TX_DMA_STATE_WORD_6(base) (*pTX_DMA_STATE_WORD_6(base)) ++#define pTX_DMA_STATE_WORD_7(base) ((volatile bit32u *)(base+0x801C)) ++#define TX_DMA_STATE_WORD_7(base) (*pTX_DMA_STATE_WORD_7(base)) ++#define pTX_DMA_STATE_WORD_8(base) ((volatile bit32u *)(base+0x8020)) ++#define TX_DMA_STATE_WORD_8(base) (*pTX_DMA_STATE_WORD_8(base)) ++ ++/* Rx DMA State RAM */ ++#define pRX_DMA_STATE_WORD_0(base) ((volatile bit32u *)(base+0x8024)) ++#define RX_DMA_STATE_WORD_0(base) (*pRX_DMA_STATE_WORD_0(base)) ++#define pRX_DMA_STATE_WORD_1(base) ((volatile bit32u *)(base+0x8028)) ++#define RX_DMA_STATE_WORD_1(base) (*pRX_DMA_STATE_WORD_1(base)) ++#define pRX_DMA_STATE_WORD_2(base) ((volatile bit32u *)(base+0x802C)) ++#define RX_DMA_STATE_WORD_2(base) (*pRX_DMA_STATE_WORD_2(base)) ++#define pRX_DMA_STATE_WORD_3(base) ((volatile bit32u *)(base+0x8030)) ++#define RX_DMA_STATE_WORD_3(base) (*pRX_DMA_STATE_WORD_3(base)) ++#define pRX_DMA_STATE_WORD_4(base) ((volatile bit32u *)(base+0x8034)) ++#define RX_DMA_STATE_WORD_4(base) (*pRX_DMA_STATE_WORD_4(base)) ++#define pRX_DMA_STATE_WORD_5(base) ((volatile bit32u *)(base+0x8038)) ++#define RX_DMA_STATE_WORD_5(base) (*pRX_DMA_STATE_WORD_5(base)) ++#define pRX_DMA_STATE_WORD_6(base) ((volatile bit32u *)(base+0x803C)) ++#define RX_DMA_STATE_WORD_6(base) (*pRX_DMA_STATE_WORD_6(base)) ++ ++/* Tx CPPI Completion Pointers */ ++#define pTXH_CPPI_COMP_PTR(base) ((volatile bit32u *)(base+0x8040)) ++#define TXH_CPPI_COMP_PTR(base) (*pTXH_CPPI_COMP_PTR(base)) ++#define pTXL_CPPI_COMP_PTR(base) ((volatile bit32u *)(base+0x8044)) ++#define TXL_CPPI_COMP_PTR(base) (*pTXL_CPPI_COMP_PTR(base)) ++ ++/* Rx CPPI Completion Pointer */ ++#define pRX_CPPI_COMP_PTR(base) ((volatile bit32u *)(base+0x8048)) ++#define RX_CPPI_COMP_PTR(base) (*pRX_CPPI_COMP_PTR(base)) ++ ++/* Tx PDSP Defines */ ++#define NUM_PDSP_AAL5_STATE_WORDS 24 ++#define NUM_PDSP_AAL2_STATE_WORDS 20 ++ ++/* PDSP State RAM Block 0 */ ++#define pPDSP_BLOCK_0(base) ((volatile bit32u *)(base+0x8050)) ++#define PDSP_BLOCK_0(base) (*pPDSP_BLOCK_0(base)) ++ ++/* AAL5 Tx PDSP State RAM */ ++#define pPDSP_AAL5_TX_STATE_WORD_0(base) ((volatile bit32u *)(base+0x8050)) ++#define PDSP_AAL5_TX_STATE_WORD_0(base) (*pPDSP_AAL5_TX_STATE_WORD_0(base)) ++ ++/* AAL5 Rx PDSP State RAM */ ++#define pPDSP_AAL5_RX_STATE_WORD_0(base) ((volatile bit32u *)(base+0x8070)) ++#define PDSP_AAL5_RX_STATE_WORD_0(base) (*pPDSP_AAL5_RX_STATE_WORD_0(base)) ++ ++/* AAL5 Tx VP PDSP State RAM */ ++#define pPDSP_AAL5_TX_VP_STATE_WORD_0(base) ((volatile bit32u *)(base+0x8090)) ++#define PDSP_AAL5_TX_VP_STATE_WORD_0(base) (*pPDSP_AAL5_TX_VP_STATE_WORD_0(base)) ++ ++/* AAL5 Rx VP PDSP State RAM */ ++#define pPDSP_AAL5_RX_VP_STATE_WORD_0(base) ((volatile bit32u *)(base+0x80A0)) ++#define PDSP_AAL5_RX_VP_STATE_WORD_0(base) (*pPDSP_AAL5_RX_VP_STATE_WORD_0(base)) ++ ++/* AAL2 Tx PDSP State RAM */ ++#define pPDSP_AAL2_TX_STATE_WORD_0(base) ((volatile bit32u *)(base+0x80B0)) ++#define PDSP_AAL2_TX_STATE_WORD_0(base) (*pPDSP_AAL2_TX_STATE_WORD_0(base)) ++ ++/* AAL2 Rx PDSP State RAM */ ++#define pPDSP_AAL2_RX_STATE_WORD_0(base) ((volatile bit32u *)(base+0x80D0)) ++#define PDSP_AAL2_RX_STATE_WORD_0(base) (*pPDSP_AAL2_RX_STATE_WORD_0(base)) ++ ++/* AAL2 Tx VP PDSP State RAM */ ++#define pPDSP_AAL2_TX_VP_STATE_WORD_0(base) ((volatile bit32u *)(base+0x80E0)) ++#define PDSP_AAL2_TX_VP_STATE_WORD_0(base) (*pPDSP_AAL2_TX_VP_STATE_WORD_0(base)) ++ ++/* AAL2 Rx VP PDSP State RAM */ ++#define pPDSP_AAL2_RX_VP_STATE_WORD_0(base) ((volatile bit32u *)(base+0x80F0)) ++#define PDSP_AAL2_RX_VP_STATE_WORD_0(base) (*pPDSP_AAL2_RX_VP_STATE_WORD_0(base)) ++ ++/* PDSP OAM Configuration Block */ ++#define pOAM_CONFIG_BLOCK_WORD_0(base) ((volatile bit32u *)(base+0x83C0)) ++#define OAM_CONFIG_BLOCK_WORD_0(base) (*pOAM_CONFIG_BLOCK_WORD_0(base)) ++ ++/* PDSP OAM Padding Block */ ++#define pOAM_PADDING_BLOCK_WORD_0(base) ((volatile bit32u *)(base+0x84C0)) ++#define OAM_PADDING_BLOCK_WORD_0(base) (*pOAM_PADDING_BLOCK_WORD_0(base)) ++ ++#define NUM_OAM_RATES 11 ++ ++/* PDSP OAM Timer State RAM */ ++#define pOAM_TIMER_STATE_WORD_0(base) ((volatile bit32u *)(base+0x85B0)) ++#define OAM_TIMER_STATE_WORD_0(base) (*pOAM_TIMER_STATE_WORD_0(base)) ++ ++ ++/* END OF FILE */ ++ ++#endif _INC_SAR_REG +diff -urN linux.old/drivers/atm/sangam_atm/cpswhal_cpaal5.h linux.dev/drivers/atm/sangam_atm/cpswhal_cpaal5.h +--- linux.old/drivers/atm/sangam_atm/cpswhal_cpaal5.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/cpswhal_cpaal5.h 2005-08-23 04:46:50.088845064 +0200 +@@ -0,0 +1,629 @@ ++/************************************************************************ ++ * TNETDxxxx Software Support ++ * Copyright (c) 2002 Texas Instruments Incorporated. All Rights Reserved. ++ * ++ * FILE: cphal.h ++ * ++ * DESCRIPTION: ++ * User include file, contains data definitions shared between the CPHAL ++ * and the upper-layer software. ++ * ++ * HISTORY: ++ * Date Modifier Ver Notes ++ * 28Feb02 Greg 1.00 Original ++ * 06Mar02 Greg 1.01 Documentation enhanced ++ * 18Jul02 Greg 1.02 Many updates (OAM additions, general reorg) ++ * 22Nov02 Mick RC2 Additions from Denis' input on Control ++ * ++ * author Greg Guyotte ++ * version 1.02 ++ * date 18-Jul-2002 ++ *****************************************************************************/ ++#ifndef _INC_CPHAL_H ++#define _INC_CPHAL_H ++ ++#ifdef _CPHAL_CPMAC ++#include "ec_errors_cpmac.h" ++#endif ++ ++#ifdef _CPHAL_AAL5 ++#include "ec_errors_cpaal5.h" ++#endif ++ ++#ifdef _CPHAL_CPSAR ++#include "ec_errors_cpsar.h" ++#endif ++ ++#ifdef _CPHAL_AAL2 ++#include "ec_errors_cpaal2.h" ++#endif ++ ++#ifndef __ADAM2 ++typedef char bit8; ++typedef short bit16; ++typedef int bit32; ++ ++typedef unsigned char bit8u; ++typedef unsigned short bit16u; ++typedef unsigned int bit32u; ++ ++/* ++typedef char INT8; ++typedef short INT16; ++typedef int INT32; ++typedef unsigned char UINT8; ++typedef unsigned short UINT16; ++typedef unsigned int UINT32; ++*/ ++/*typedef unsigned int size_t;*/ ++#endif ++ ++#ifdef _CPHAL ++ ++#ifndef TRUE ++#define TRUE (1==1) ++#endif ++ ++#ifndef FALSE ++#define FALSE (1==2) ++#endif ++ ++#ifndef NULL ++#define NULL 0 ++#endif ++ ++#endif ++ ++#define VirtToPhys(a) (((int)a)&~0xe0000000) ++#define VirtToVirtNoCache(a) ((void*)((VirtToPhys(a))|0xa0000000)) ++#define VirtToVirtCache(a) ((void*)((VirtToPhys(a))|0x80000000)) ++#define PhysToVirtNoCache(a) ((void*)(((int)a)|0xa0000000)) ++#define PhysToVirtCache(a) ((void*)(((int)a)|0x80000000)) ++/* ++#define DataCacheHitInvalidate(a) {__asm__(" cache 17, (%0)" : : "r" (a));} ++#define DataCacheHitWriteback(a) {__asm__(" cache 25, (%0)" : : "r" (a));} ++*/ ++ ++#define PARTIAL 1 /**< Used in @c Close() and @c ChannelTeardown() */ ++#define FULL 2 /**< Used in @c Close() and @c ChannelTeardown() */ ++ ++/* Channel Teardown Defines */ ++#define RX_TEARDOWN 2 ++#define TX_TEARDOWN 1 ++#define BLOCKING_TEARDOWN 8 ++#define FULL_TEARDOWN 4 ++#define PARTIAL_TEARDOWN 0 ++ ++#define MAX_DIR 2 ++#define DIRECTION_TX 0 ++#define DIRECTION_RX 1 ++#define TX_CH 0 ++#define RX_CH 1 ++#define HAL_ERROR_DEVICE_NOT_FOUND 1 ++#define HAL_ERROR_FAILED_MALLOC 2 ++#define HAL_ERROR_OSFUNC_SIZE 3 ++#define HAL_DEFAULT 0xFFFFFFFF ++#define VALID(val) (val!=HAL_DEFAULT) ++ ++/* ++ERROR REPORTING ++ ++HAL Module Codes. Each HAL module reporting an error code ++should OR the error code with the respective Module error code ++from the list below. ++*/ ++#define EC_AAL5 EC_HAL|EC_DEV_AAL5 ++#define EC_AAL2 EC_HAL|EC_DEV_AAL2 ++#define EC_CPSAR EC_HAL|EC_DEV_CPSAR ++#define EC_CPMAC EC_HAL|EC_DEV_CPMAC ++#define EC_VDMA EC_HAL|EC_DEV_VDMA ++#define EC_VLYNQ EC_HAL|EC_DEV_VLYNQ ++#define EC_CPPI EC_HAL|EC_DEV_CPPI ++ ++/* ++HAL Function Codes. Each HAL module reporting an error code ++should OR the error code with one of the function codes from ++the list below. ++*/ ++#define EC_FUNC_HAL_INIT EC_FUNC(1) ++#define EC_FUNC_CHSETUP EC_FUNC(2) ++#define EC_FUNC_CHTEARDOWN EC_FUNC(3) ++#define EC_FUNC_RXRETURN EC_FUNC(4) ++#define EC_FUNC_SEND EC_FUNC(5) ++#define EC_FUNC_RXINT EC_FUNC(6) ++#define EC_FUNC_TXINT EC_FUNC(7) ++#define EC_FUNC_AAL2_VDMA EC_FUNC(8) ++#define EC_FUNC_OPTIONS EC_FUNC(9) ++#define EC_FUNC_PROBE EC_FUNC(10) ++#define EC_FUNC_OPEN EC_FUNC(11) ++#define EC_FUNC_CONTROL EC_FUNC(12) ++#define EC_FUNC_DEVICE_INT EC_FUNC(13) ++#define EC_FUNC_STATUS EC_FUNC(14) ++#define EC_FUNC_TICK EC_FUNC(15) ++#define EC_FUNC_CLOSE EC_FUNC(16) ++#define EC_FUNC_SHUTDOWN EC_FUNC(17) ++#define EC_FUNC_DEVICE_INT_ALT EC_FUNC(18) /* +GSG 030306 */ ++ ++/* ++HAL Error Codes. The list below defines every type of error ++used in all HAL modules. DO NOT CHANGE THESE VALUES! Add new ++values in integer order to the bottom of the list. ++*/ ++#define EC_VAL_PDSP_LOAD_FAIL EC_ERR(0x01)|EC_CRITICAL ++#define EC_VAL_FIRMWARE_TOO_LARGE EC_ERR(0x02)|EC_CRITICAL ++#define EC_VAL_DEVICE_NOT_FOUND EC_ERR(0x03)|EC_CRITICAL ++#define EC_VAL_BASE_ADDR_NOT_FOUND EC_ERR(0x04)|EC_CRITICAL ++#define EC_VAL_RESET_BIT_NOT_FOUND EC_ERR(0x05)|EC_CRITICAL ++#define EC_VAL_CH_INFO_NOT_FOUND EC_ERR(0x06) ++#define EC_VAL_RX_STATE_RAM_NOT_CLEARED EC_ERR(0x07)|EC_CRITICAL ++#define EC_VAL_TX_STATE_RAM_NOT_CLEARED EC_ERR(0x08)|EC_CRITICAL ++#define EC_VAL_MALLOC_DEV_FAILED EC_ERR(0x09) ++#define EC_VAL_OS_VERSION_NOT_SUPPORTED EC_ERR(0x0A)|EC_CRITICAL ++#define EC_VAL_CPSAR_VERSION_NOT_SUPPORTED EC_ERR(0x0B)|EC_CRITICAL ++#define EC_VAL_NULL_CPSAR_DEV EC_ERR(0x0C)|EC_CRITICAL ++ ++#define EC_VAL_LUT_NOT_READY EC_ERR(0x0D) ++#define EC_VAL_INVALID_CH EC_ERR(0x0E) ++#define EC_VAL_NULL_CH_STRUCT EC_ERR(0x0F) ++#define EC_VAL_RX_TEARDOWN_ALREADY_PEND EC_ERR(0x10) ++#define EC_VAL_TX_TEARDOWN_ALREADY_PEND EC_ERR(0x11) ++#define EC_VAL_RX_CH_ALREADY_TORNDOWN EC_ERR(0x12) ++#define EC_VAL_TX_CH_ALREADY_TORNDOWN EC_ERR(0x13) ++#define EC_VAL_TX_TEARDOWN_TIMEOUT EC_ERR(0x14) ++#define EC_VAL_RX_TEARDOWN_TIMEOUT EC_ERR(0x15) ++#define EC_VAL_CH_ALREADY_TORNDOWN EC_ERR(0x16) ++#define EC_VAL_VC_SETUP_NOT_READY EC_ERR(0x17) ++#define EC_VAL_VC_TEARDOWN_NOT_READY EC_ERR(0x18) ++#define EC_VAL_INVALID_VC EC_ERR(0x19) ++#define EC_VAL_INVALID_LC EC_ERR(0x20) ++#define EC_VAL_INVALID_VDMA_CH EC_ERR(0x21) ++#define EC_VAL_INVALID_CID EC_ERR(0x22) ++#define EC_VAL_INVALID_UUI EC_ERR(0x23) ++#define EC_VAL_INVALID_UUI_DISCARD EC_ERR(0x24) ++#define EC_VAL_CH_ALREADY_OPEN EC_ERR(0x25) ++ ++#define EC_VAL_RCB_MALLOC_FAILED EC_ERR(0x26) ++#define EC_VAL_RX_BUFFER_MALLOC_FAILED EC_ERR(0x27) ++#define EC_VAL_OUT_OF_TCBS EC_ERR(0x28) ++#define EC_VAL_NO_TCBS EC_ERR(0x29) ++#define EC_VAL_NULL_RCB EC_ERR(0x30)|EC_CRITICAL ++#define EC_VAL_SOP_ERROR EC_ERR(0x31)|EC_CRITICAL ++#define EC_VAL_EOP_ERROR EC_ERR(0x32)|EC_CRITICAL ++#define EC_VAL_NULL_TCB EC_ERR(0x33)|EC_CRITICAL ++#define EC_VAL_CORRUPT_RCB_CHAIN EC_ERR(0x34)|EC_CRITICAL ++#define EC_VAL_TCB_MALLOC_FAILED EC_ERR(0x35) ++ ++#define EC_VAL_DISABLE_POLLING_FAILED EC_ERR(0x36) ++#define EC_VAL_KEY_NOT_FOUND EC_ERR(0x37) ++#define EC_VAL_MALLOC_FAILED EC_ERR(0x38) ++#define EC_VAL_RESET_BASE_NOT_FOUND EC_ERR(0x39)|EC_CRITICAL ++#define EC_VAL_INVALID_STATE EC_ERR(0x40) ++#define EC_VAL_NO_TXH_WORK_TO_DO EC_ERR(0x41) ++#define EC_VAL_NO_TXL_WORK_TO_DO EC_ERR(0x42) ++#define EC_VAL_NO_RX_WORK_TO_DO EC_ERR(0x43) ++#define EC_VAL_NOT_LINKED EC_ERR(0x44) ++#define EC_VAL_INTERRUPT_NOT_FOUND EC_ERR(0x45) ++#define EC_VAL_OFFSET_NOT_FOUND EC_ERR(0x46) ++#define EC_VAL_MODULE_ALREADY_CLOSED EC_ERR(0x47) ++#define EC_VAL_MODULE_ALREADY_SHUTDOWN EC_ERR(0x48) ++#define EC_VAL_ACTION_NOT_FOUND EC_ERR(0x49) ++#define EC_VAL_RX_CH_ALREADY_SETUP EC_ERR(0x50) ++#define EC_VAL_TX_CH_ALREADY_SETUP EC_ERR(0x51) ++#define EC_VAL_RX_CH_ALREADY_OPEN EC_ERR(0x52) ++#define EC_VAL_TX_CH_ALREADY_OPEN EC_ERR(0x53) ++#define EC_VAL_CH_ALREADY_SETUP EC_ERR(0x54) ++#define EC_VAL_RCB_NEEDS_BUFFER EC_ERR(0x55) /* +GSG 030410 */ ++#define EC_VAL_RCB_DROPPED EC_ERR(0x56) /* +GSG 030410 */ ++#define EC_VAL_INVALID_VALUE EC_ERR(0x57) ++ ++/** ++@defgroup shared_data Shared Data Structures ++ ++The data structures documented here are shared by all modules. ++*/ ++ ++/** ++ * @ingroup shared_data ++ * This is the fragment list structure. Each fragment list entry contains a ++ * length and a data buffer. ++ */ ++typedef struct ++ { ++ bit32u len; /**< Length of the fragment in bytes (lower 16 bits are valid). For SOP, upper 16 bits is the buffer offset. */ ++ void *data; /**< Pointer to fragment data. */ ++ void *OsInfo; /**< Pointer to OS defined data. */ ++ }FRAGLIST; ++ ++#if defined (_CPHAL_CPMAC) ++#define CB_PASSCRC_BIT (1<<26) ++ ++/* CPMAC CPHAL STATUS */ ++#define CPMAC_STATUS_LINK (1 << 0) ++#define CPMAC_STATUS_LINK_DUPLEX (1 << 1) /* 0 - HD, 1 - FD */ ++#define CPMAC_STATUS_LINK_SPEED (1 << 2) /* 0 - 10, 1 - 100 */ ++ ++/* ADAPTER CHECK Codes */ ++ ++#define CPMAC_STATUS_ADAPTER_CHECK (1 << 7) ++#define CPMAC_STATUS_HOST_ERR_DIRECTION (1 << 8) ++#define CPMAC_STATUS_HOST_ERR_CODE (0xF << 9) ++#define CPMAC_STATUS_HOST_ERR_CH (0x7 << 13) ++ ++#define _CPMDIO_DISABLE (1 << 0) ++#define _CPMDIO_HD (1 << 1) ++#define _CPMDIO_FD (1 << 2) ++#define _CPMDIO_10 (1 << 3) ++#define _CPMDIO_100 (1 << 4) ++#define _CPMDIO_NEG_OFF (1 << 5) ++#define _CPMDIO_LOOPBK (1 << 16) ++#define _CPMDIO_NOPHY (1 << 20) ++#endif ++ ++/** ++ * @ingroup shared_data ++ * Channel specific configuration information. This structure should be ++ * populated by upper-layer software prior to calling @c ChannelSetup(). Any ++ * configuration item that can be changed on a per channel basis should ++ * be represented here. Each module may define this structure with additional ++ * module-specific members. ++ */ ++typedef struct ++ { ++ int Channel; /**< Channel number. */ ++ int Direction; /**< DIRECTION_RX(1) or DIRECTION_TX(0). */ ++ OS_SETUP *OsSetup; /**< OS defined information associated with this channel. */ ++ ++#if defined(_CPHAL_AAL5) || defined (_CPHAL_CPSAR) || defined (_CPHAL_CPMAC) ++ int RxBufSize; /**< Size (in bytes) for each Rx buffer.*/ ++ int RxBufferOffset; /**< Number of bytes to offset rx data from start of buffer (must be less than buffer size). */ ++ int RxNumBuffers; /**< The number of Rx buffer descriptors to allocate for Ch. */ ++ int RxServiceMax; /**< Maximum number of packets to service at one time. */ ++ ++ int TxNumBuffers; /**< The number of Tx buffer descriptors to allocate for Ch. */ ++ int TxNumQueues; /**< Number of Tx queues for this channel (1-2). Choosing 2 enables a low priority SAR queue. */ ++ int TxServiceMax; /**< Maximum number of packets to service at one time. */ ++#endif ++ ++#if defined(_CPHAL_AAL5) || defined(_CPHAL_CPSAR) ++ int CpcsUU; /**< The 2-byte CPCS UU and CPI information. */ ++ int Gfc; /**< Generic Flow Control. */ ++ int Clp; /**< Cell Loss Priority. */ ++ int Pti; /**< Payload Type Indication. */ ++#endif ++ ++#if defined(_CPHAL_AAL2) || defined(_CPHAL_AAL5) || defined(_CPHAL_CPSAR) ++ int DaMask; /**< Specifies whether credit issuance is paused when Tx data not available. */ ++ int Priority; /**< Priority bin this channel will be scheduled within. */ ++ int PktType; /**< 0=AAL5,1=Null AAL,2=OAM,3=Transparent,4=AAL2. */ ++ int Vci; /**< Virtual Channel Identifier. */ ++ int Vpi; /**< Virtual Path Identifier. */ ++ int FwdUnkVc; /**< Enables forwarding of unknown VCI/VPI cells to host. 1=enable, 0=disable. */ ++ ++ /* Tx VC State */ ++ int TxVc_CellRate; /**< Tx rate, set as clock ticks between transmissions (SCR for VBR, CBR for CBR). */ ++ int TxVc_QosType; /**< 0=CBR,1=VBR,2=UBR,3=UBRmcr. */ ++ int TxVc_Mbs; /**< Min Burst Size in cells.*/ ++ int TxVc_Pcr; /**< Peak Cell Rate for VBR in clock ticks between transmissions. */ ++ ++ bit32 TxVc_AtmHeader; /**< ATM Header placed on firmware gen'd OAM cells for this Tx Ch (must be big endian with 0 PTI). */ ++ int TxVc_OamTc; /**< TC Path to transmit OAM cells for TX connection (0,1). */ ++ int TxVc_VpOffset; /**< Offset to the OAM VP state table. */ ++ /* Rx VC State */ ++ int RxVc_OamCh; /**< Ch to terminate rx'd OAM cells to be forwarded to the host. */ ++ int RxVc_OamToHost; /**< 0=do not pass, 1=pass. */ ++ bit32 RxVc_AtmHeader; /**< ATM Header placed on firmware gen'd OAM cells for this Rx conn (must be big endian with 0 PTI). */ ++ int RxVc_OamTc; /**< TC Path to transmit OAM cells for RX connection (0,1). */ ++ int RxVc_VpOffset; /**< Offset to the OAM VP state table. */ ++ /* Tx VP State */ ++ int TxVp_OamTc; /**< TC Path to transmit OAM cells for TX VP connection (0,1). */ ++ bit32 TxVp_AtmHeader; /**< ATM Header placed on firmware gen'd VP OAM cells for this Tx VP conn (must be big endian with 0 VCI). */ ++ /* Rx VP State */ ++ int RxVp_OamCh; /**< Ch to terminate rx'd OAM cells to be forwarded to the host. */ ++ int RxVp_OamToHost; /**< 0=do not pass, 1=pass. */ ++ bit32 RxVp_AtmHeader; /**< ATM Header placed on firmware gen'd OAM cells for this Rx VP conn (must be big endian with 0 VCI). */ ++ int RxVp_OamTc; /**< TC Path to transmit OAM cells for RX VP connection (0,1). */ ++ int RxVp_OamVcList; /**< Indicates all VC channels associated with this VP channel (one-hot encoded). */ ++#endif ++ ++ ++#ifdef _CPHAL_VDMAVT ++ bit32u RemFifoAddr; /* Mirror mode only. */ ++ bit32u FifoAddr; ++ bit32 PollInt; ++ bit32 FifoSize; ++ int Ready; ++#endif ++ ++ }CHANNEL_INFO; ++ ++/* ++ * This structure contains each statistic value gathered by the CPHAL. ++ * Applications may access statistics data by using the @c StatsGet() routine. ++ */ ++/* STATS */ ++#if defined(_CPHAL_AAL2) || defined(_CPHAL_AAL5) || defined(_CPHAL_CPSAR) ++typedef struct ++ { ++ bit32u CrcErrors[16]; ++ bit32u LenErrors[16]; ++ bit32u DmaLenErrors[16]; ++ bit32u AbortErrors[16]; ++ bit32u StarvErrors[16]; ++ bit32u TxMisQCnt[16][2]; ++ bit32u RxMisQCnt[16]; ++ bit32u RxEOQCnt[16]; ++ bit32u TxEOQCnt[16][2]; ++ bit32u RxPacketsServiced[16]; ++ bit32u TxPacketsServiced[16][2]; ++ bit32u RxMaxServiced; ++ bit32u TxMaxServiced[16][2]; ++ bit32u RxTotal; ++ bit32u TxTotal; ++ } STAT_INFO; ++#endif ++ ++/* ++ * VDMA Channel specific configuration information ++ */ ++#ifdef _CPHAL_AAL2 ++typedef struct ++ { ++ int Ch; /**< Channel Number */ ++ int RemoteEndian; /**< Endianness of remote VDMA-VT device */ ++ int CpsSwap; /**< When 0, octet 0 in CPS pkt located in LS byte of 16-bit word sent to rem VDMA device. When 1, in MS byte. */ ++ }VdmaChInfo; ++#endif ++ ++#ifndef _CPHAL ++ typedef void HAL_DEVICE; ++ typedef void HAL_PRIVATE; ++ typedef void HAL_RCB; ++ typedef void HAL_RECEIVEINFO; ++#endif ++ ++/** ++ * @ingroup shared_data ++ * The HAL_FUNCTIONS struct defines the function pointers used by upper layer ++ * software. The upper layer software receives these pointers through the ++ * call to xxxInitModule(). ++ */ ++typedef struct ++ { ++ int (*ChannelSetup) (HAL_DEVICE *HalDev, CHANNEL_INFO *Channel, OS_SETUP *OsSetup); ++ int (*ChannelTeardown) (HAL_DEVICE *HalDev, int Channel, int Mode); ++ int (*Close) (HAL_DEVICE *HalDev, int Mode); ++ int (*Control) (HAL_DEVICE *HalDev, const char *Key, const char *Action, void *Value); ++ int (*Init) (HAL_DEVICE *HalDev); ++ int (*Open) (HAL_DEVICE *HalDev); ++ int (*PacketProcessEnd) (HAL_DEVICE *HalDev); ++ int (*Probe) (HAL_DEVICE *HalDev); ++ int (*RxReturn) (HAL_RECEIVEINFO *HalReceiveInfo, int StripFlag); ++ int (*Send) (HAL_DEVICE *HalDev, FRAGLIST *FragList, int FragCount, int PacketSize, OS_SENDINFO *OsSendInfo, bit32u Mode); ++ int (*Shutdown) (HAL_DEVICE *HalDev); ++ int (*Tick) (HAL_DEVICE *HalDev); ++ ++#ifdef _CPHAL_AAL5 ++ int (*Kick) (HAL_DEVICE *HalDev, int Queue); ++ void (*OamFuncConfig) (HAL_DEVICE *HalDev, unsigned int OamConfig); ++ void (*OamLoopbackConfig) (HAL_DEVICE *HalDev, unsigned int OamConfig, unsigned int *LLID, unsigned int CorrelationTag); ++ volatile bit32u* (*RegAccess)(HAL_DEVICE *HalDev, bit32u RegOffset); ++ STAT_INFO* (*StatsGetOld)(HAL_DEVICE *HalDev); ++#endif ++ } HAL_FUNCTIONS; ++ ++/** ++ * @ingroup shared_data ++ * The OS_FUNCTIONS struct defines the function pointers for all upper layer ++ * functions accessible to the CPHAL. The upper layer software is responsible ++ * for providing the correct OS-specific implementations for the following ++ * functions. It is populated by calling InitModule() (done by the CPHAL in ++ * xxxInitModule(). ++ */ ++typedef struct ++ { ++ int (*Control)(OS_DEVICE *OsDev, const char *Key, const char *Action, void *Value); ++ void (*CriticalOn)(void); ++ void (*CriticalOff)(void); ++ void (*DataCacheHitInvalidate)(void *MemPtr, int Size); ++ void (*DataCacheHitWriteback)(void *MemPtr, int Size); ++ int (*DeviceFindInfo)(int Inst, const char *DeviceName, void *DeviceInfo); ++ int (*DeviceFindParmUint)(void *DeviceInfo, const char *Parm, bit32u *Value); ++ int (*DeviceFindParmValue)(void *DeviceInfo, const char *Parm, void *Value); ++ void (*Free)(void *MemPtr); ++ void (*FreeRxBuffer)(OS_RECEIVEINFO *OsReceiveInfo, void *MemPtr); ++ void (*FreeDev)(void *MemPtr); ++ void (*FreeDmaXfer)(void *MemPtr); ++ void (*IsrRegister)(OS_DEVICE *OsDev, int (*halISR)(HAL_DEVICE*, int*), int InterruptBit); ++ void (*IsrUnRegister)(OS_DEVICE *OsDev, int InterruptBit); ++ void* (*Malloc)(bit32u size); ++ void* (*MallocDev)(bit32u Size); ++ void* (*MallocDmaXfer)(bit32u size, void *MemBase, bit32u MemRange); ++ void* (*MallocRxBuffer)(bit32u size, void *MemBase, bit32u MemRange, ++ OS_SETUP *OsSetup, HAL_RECEIVEINFO *HalReceiveInfo, ++ OS_RECEIVEINFO **OsReceiveInfo, OS_DEVICE *OsDev); ++ void* (*Memset)(void *Dest, int C, bit32u N); ++ int (*Printf)(const char *Format, ...); ++ int (*Receive)(OS_DEVICE *OsDev,FRAGLIST *FragList,bit32u FragCount, ++ bit32u PacketSize,HAL_RECEIVEINFO *HalReceiveInfo, bit32u Mode); ++ int (*SendComplete)(OS_SENDINFO *OsSendInfo); ++ int (*Sprintf)(char *S, const char *Format, ...); ++ int (*Strcmpi)(const char *Str1, const char *Str2); ++ unsigned int (*Strlen)(const char *S); ++ char* (*Strstr)(const char *S1, const char *S2); ++ unsigned long (*Strtoul)(const char *Str, char **Endptr, int Base); ++ void (*TeardownComplete)(OS_DEVICE *OsDev, int Ch, int Direction); ++ } OS_FUNCTIONS; ++ ++/************** MODULE SPECIFIC STUFF BELOW **************/ ++ ++#ifdef _CPHAL_CPMAC ++ ++/* ++int halCpmacInitModule(HAL_DEVICE **HalDev, OS_DEVICE *OsDev, HAL_FUNCTIONS *HalFunc, int (*osBridgeInitModule)(OS_FUNCTIONS *), void* (*osMallocDev) (bit32u), int *Size, int inst); ++*/ ++ ++int halCpmacInitModule(HAL_DEVICE **HalDev, ++ OS_DEVICE *OsDev, ++ HAL_FUNCTIONS **HalFunc, ++ OS_FUNCTIONS *OsFunc, ++ int OsFuncSize, ++ int *HalFuncSize, ++ int Inst); ++#endif ++ ++#ifdef _CPHAL_AAL5 ++/* ++ * @ingroup shared_data ++ * The AAL5_FUNCTIONS struct defines the AAL5 function pointers used by upper layer ++ * software. The upper layer software receives these pointers through the ++ * call to cphalInitModule(). ++ */ ++/* ++typedef struct ++ { ++ int (*ChannelSetup)(HAL_DEVICE *HalDev, CHANNEL_INFO *HalCh, OS_SETUP *OsSetup); ++ int (*ChannelTeardown)(HAL_DEVICE *HalDev, int Ch, int Mode); ++ int (*Close)(HAL_DEVICE *HalDev, int Mode); ++ int (*Init)(HAL_DEVICE *HalDev); ++ int (*ModeChange)(HAL_DEVICE *HalDev, char *DeviceParms); ++ int (*Open)(HAL_DEVICE *HalDev); ++ int (*InfoGet)(HAL_DEVICE *HalDev, int Key, void *Value); ++ int (*Probe)(HAL_DEVICE *HalDev); ++ int (*RxReturn)(HAL_RECEIVEINFO *HalReceiveInfo, int StripFlag); ++ int (*Send)(HAL_DEVICE *HalDev,FRAGLIST *FragList,int FragCount, ++ int PacketSize,OS_SENDINFO *OsSendInfo,int Ch, int Queue, ++ bit32u Mode); ++ int (*StatsClear)(HAL_DEVICE *HalDev); ++ STAT_INFO* (*StatsGet)(HAL_DEVICE *HalDev); ++ int (*Status)(HAL_DEVICE *HalDev); ++ void (*Tick)(HAL_DEVICE *HalDev); ++ int (*Kick)(HAL_DEVICE *HalDev, int Queue); ++ volatile bit32u* (*RegAccess)(HAL_DEVICE *HalDev, bit32u RegOffset); ++ } AAL5_FUNCTIONS; ++*/ ++ ++int cpaal5InitModule(HAL_DEVICE **HalDev, ++ OS_DEVICE *OsDev, ++ HAL_FUNCTIONS **HalFunc, ++ OS_FUNCTIONS *OsFunc, ++ int OsFuncSize, ++ int *HalFuncSize, ++ int Inst); ++#endif ++ ++#ifdef _CPHAL_AAL2 ++/** ++ * @ingroup shared_data ++ * The AAL2_FUNCTIONS struct defines the AAL2 function pointers used by upper layer ++ * software. The upper layer software receives these pointers through the ++ * call to cphalInitModule(). ++ */ ++typedef struct ++ { ++ int (*ChannelSetup)(HAL_DEVICE *HalDev, CHANNEL_INFO *HalCh, OS_SETUP *OsSetup); ++ int (*ChannelTeardown)(HAL_DEVICE *HalDev, int Ch, int Mode); ++ int (*Close)(HAL_DEVICE *HalDev, int Mode); ++ int (*Init)(HAL_DEVICE *HalDev); ++ int (*ModeChange)(HAL_DEVICE *HalDev, char *DeviceParms); ++ int (*Open)(HAL_DEVICE *HalDev); ++ int (*OptionsGet)(HAL_DEVICE *HalDev, char *Key, bit32u *Value); ++ int (*Probe)(HAL_DEVICE *HalDev); ++ ++ int (*StatsClear)(HAL_DEVICE *HalDev); ++ STAT_INFO* (*StatsGet)(HAL_DEVICE *HalDev); ++ int (*Status)(HAL_DEVICE *HalDev); ++ void (*Tick)(HAL_DEVICE *HalDev); ++ int (*Aal2UuiMappingSetup)(HAL_DEVICE *HalDev, int VC, int UUI, ++ int VdmaCh, int UUIDiscard); ++ int (*Aal2RxMappingSetup)(HAL_DEVICE *HalDev, int VC, int CID, ++ int LC); ++ int (*Aal2TxMappingSetup)(HAL_DEVICE *HalDev, int VC, int LC, int VdmaCh); ++ int (*Aal2VdmaChSetup)(HAL_DEVICE *HalDev, bit32u RemVdmaVtAddr, ++ VdmaChInfo *VdmaCh); ++ volatile bit32u* (*RegAccess)(HAL_DEVICE *HalDev, bit32u RegOffset); ++ int (*Aal2ModeChange)(HAL_DEVICE *HalDev, int Vc, int RxCrossMode, ++ int RxMultiMode, int TxMultiMode, int SchedMode, ++ int TcCh); ++ void (*Aal2VdmaEnable)(HAL_DEVICE *HalDev, int Ch); ++ int (*Aal2VdmaDisable)(HAL_DEVICE *HalDev, int Ch); ++ } AAL2_FUNCTIONS; ++ ++int cpaal2InitModule(HAL_DEVICE **HalDev, ++ OS_DEVICE *OsDev, ++ AAL2_FUNCTIONS **HalFunc, ++ OS_FUNCTIONS *OsFunc, ++ int OsFuncSize, ++ int *HalFuncSize, ++ int Inst); ++#endif ++ ++#ifdef _CPHAL_VDMAVT ++/** ++ * @ingroup shared_data ++ * The VDMA_FUNCTIONS struct defines the HAL function pointers used by upper layer ++ * software. The upper layer software receives these pointers through the ++ * call to InitModule(). ++ * ++ * Note that this list is still under definition. ++ */ ++typedef struct ++ { ++ bit32 (*Init)( HAL_DEVICE *VdmaVtDev); ++ /* bit32 (*SetupTxFifo)(HAL_DEVICE *VdmaVtDev, bit32u LclRem, ++ bit32u Addr, bit32u Size, bit32u PollInt); ++ bit32 (*SetupRxFifo)(HAL_DEVICE *VdmaVtDev, bit32u LclRem, ++ bit32u Addr, bit32u Size, bit32u PollInt); */ ++ bit32 (*Tx)(HAL_DEVICE *VdmaVtDev); ++ bit32 (*Rx)(HAL_DEVICE *VdmaVtDev); ++ bit32 (*SetRemoteChannel)(HAL_DEVICE *VdmaVtDev, bit32u RemAddr, ++ bit32u RemDevID); ++ bit32 (*ClearRxInt)(HAL_DEVICE *VdmaVtDev); ++ bit32 (*ClearTxInt)(HAL_DEVICE *VdmaVtDev); ++ bit32 (*Open)(HAL_DEVICE *VdmaVtDev); ++ bit32 (*Close)(HAL_DEVICE *VdmaVtDev); ++ int (*Control) (HAL_DEVICE *HalDev, const char *Key, const char *Action, void *Value); ++ int (*ChannelSetup)(HAL_DEVICE *VdmaVtDev, CHANNEL_INFO *HalCh, OS_SETUP *OsSetup); ++ int (*ChannelTeardown)(HAL_DEVICE *VdmaVtDev, int Ch, int Mode); ++ int (*Send)(HAL_DEVICE *VdmaVtDev,FRAGLIST *FragList,int FragCount, ++ int PacketSize,OS_SENDINFO *OsSendInfo,bit32u Mode); ++ } VDMA_FUNCTIONS; ++ ++int VdmaInitModule(HAL_DEVICE **VdmaVt, ++ OS_DEVICE *OsDev, ++ VDMA_FUNCTIONS **VdmaVtFunc, ++ OS_FUNCTIONS *OsFunc, ++ int OsFuncSize, ++ int *HalFuncSize, ++ int Inst); ++#endif ++ ++/* ++extern int cphalInitModule(MODULE_TYPE ModuleType, HAL_DEVICE **HalDev, OS_DEVICE *OsDev, HAL_FUNCTIONS *HalFunc, ++ int (*osInitModule)(OS_FUNCTIONS *), void* (*osMallocDev)(bit32u), ++ int *Size, int Inst); ++*/ ++ ++ ++#ifdef _CPHAL_AAL5 ++extern const char hcSarFrequency[]; ++#endif ++ ++#ifdef _CPHAL_CPMAC ++/* following will be common, once 'utl' added */ ++extern const char hcClear[]; ++extern const char hcGet[]; ++extern const char hcSet[]; ++extern const char hcTick[]; ++ ++extern const char hcCpuFrequency[]; ++extern const char hcCpmacFrequency[]; ++extern const char hcMdioBusFrequency[]; ++extern const char hcMdioClockFrequency[]; ++extern const char hcCpmacBase[]; ++extern const char hcPhyNum[]; ++extern const char hcSize[]; ++extern const char hcCpmacSize[]; ++extern const char hcPhyAccess[]; ++#endif ++ ++#endif /* end of _INC_ */ +diff -urN linux.old/drivers/atm/sangam_atm/cpswhal_cpsar.h linux.dev/drivers/atm/sangam_atm/cpswhal_cpsar.h +--- linux.old/drivers/atm/sangam_atm/cpswhal_cpsar.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/cpswhal_cpsar.h 2005-08-23 04:46:50.089844912 +0200 +@@ -0,0 +1,629 @@ ++/************************************************************************ ++ * TNETDxxxx Software Support ++ * Copyright (c) 2002 Texas Instruments Incorporated. All Rights Reserved. ++ * ++ * FILE: cphal.h ++ * ++ * DESCRIPTION: ++ * User include file, contains data definitions shared between the CPHAL ++ * and the upper-layer software. ++ * ++ * HISTORY: ++ * Date Modifier Ver Notes ++ * 28Feb02 Greg 1.00 Original ++ * 06Mar02 Greg 1.01 Documentation enhanced ++ * 18Jul02 Greg 1.02 Many updates (OAM additions, general reorg) ++ * 22Nov02 Mick RC2 Additions from Denis' input on Control ++ * ++ * author Greg Guyotte ++ * version 1.02 ++ * date 18-Jul-2002 ++ *****************************************************************************/ ++#ifndef _INC_CPHAL_H ++#define _INC_CPHAL_H ++ ++#ifdef _CPHAL_CPMAC ++#include "ec_errors_cpmac.h" ++#endif ++ ++#ifdef _CPHAL_AAL5 ++#include "ec_errors_cpaal5.h" ++#endif ++ ++#ifdef _CPHAL_CPSAR ++#include "ec_errors_cpsar.h" ++#endif ++ ++#ifdef _CPHAL_AAL2 ++#include "ec_errors_cpaal2.h" ++#endif ++ ++#ifndef __ADAM2 ++typedef char bit8; ++typedef short bit16; ++typedef int bit32; ++ ++typedef unsigned char bit8u; ++typedef unsigned short bit16u; ++typedef unsigned int bit32u; ++ ++/* ++typedef char INT8; ++typedef short INT16; ++typedef int INT32; ++typedef unsigned char UINT8; ++typedef unsigned short UINT16; ++typedef unsigned int UINT32; ++*/ ++/*typedef unsigned int size_t;*/ ++#endif ++ ++#ifdef _CPHAL ++ ++#ifndef TRUE ++#define TRUE (1==1) ++#endif ++ ++#ifndef FALSE ++#define FALSE (1==2) ++#endif ++ ++#ifndef NULL ++#define NULL 0 ++#endif ++ ++#endif ++ ++#define VirtToPhys(a) (((int)a)&~0xe0000000) ++#define VirtToVirtNoCache(a) ((void*)((VirtToPhys(a))|0xa0000000)) ++#define VirtToVirtCache(a) ((void*)((VirtToPhys(a))|0x80000000)) ++#define PhysToVirtNoCache(a) ((void*)(((int)a)|0xa0000000)) ++#define PhysToVirtCache(a) ((void*)(((int)a)|0x80000000)) ++/* ++#define DataCacheHitInvalidate(a) {__asm__(" cache 17, (%0)" : : "r" (a));} ++#define DataCacheHitWriteback(a) {__asm__(" cache 25, (%0)" : : "r" (a));} ++*/ ++ ++#define PARTIAL 1 /**< Used in @c Close() and @c ChannelTeardown() */ ++#define FULL 2 /**< Used in @c Close() and @c ChannelTeardown() */ ++ ++/* Channel Teardown Defines */ ++#define RX_TEARDOWN 2 ++#define TX_TEARDOWN 1 ++#define BLOCKING_TEARDOWN 8 ++#define FULL_TEARDOWN 4 ++#define PARTIAL_TEARDOWN 0 ++ ++#define MAX_DIR 2 ++#define DIRECTION_TX 0 ++#define DIRECTION_RX 1 ++#define TX_CH 0 ++#define RX_CH 1 ++#define HAL_ERROR_DEVICE_NOT_FOUND 1 ++#define HAL_ERROR_FAILED_MALLOC 2 ++#define HAL_ERROR_OSFUNC_SIZE 3 ++#define HAL_DEFAULT 0xFFFFFFFF ++#define VALID(val) (val!=HAL_DEFAULT) ++ ++/* ++ERROR REPORTING ++ ++HAL Module Codes. Each HAL module reporting an error code ++should OR the error code with the respective Module error code ++from the list below. ++*/ ++#define EC_AAL5 EC_HAL|EC_DEV_AAL5 ++#define EC_AAL2 EC_HAL|EC_DEV_AAL2 ++#define EC_CPSAR EC_HAL|EC_DEV_CPSAR ++#define EC_CPMAC EC_HAL|EC_DEV_CPMAC ++#define EC_VDMA EC_HAL|EC_DEV_VDMA ++#define EC_VLYNQ EC_HAL|EC_DEV_VLYNQ ++#define EC_CPPI EC_HAL|EC_DEV_CPPI ++ ++/* ++HAL Function Codes. Each HAL module reporting an error code ++should OR the error code with one of the function codes from ++the list below. ++*/ ++#define EC_FUNC_HAL_INIT EC_FUNC(1) ++#define EC_FUNC_CHSETUP EC_FUNC(2) ++#define EC_FUNC_CHTEARDOWN EC_FUNC(3) ++#define EC_FUNC_RXRETURN EC_FUNC(4) ++#define EC_FUNC_SEND EC_FUNC(5) ++#define EC_FUNC_RXINT EC_FUNC(6) ++#define EC_FUNC_TXINT EC_FUNC(7) ++#define EC_FUNC_AAL2_VDMA EC_FUNC(8) ++#define EC_FUNC_OPTIONS EC_FUNC(9) ++#define EC_FUNC_PROBE EC_FUNC(10) ++#define EC_FUNC_OPEN EC_FUNC(11) ++#define EC_FUNC_CONTROL EC_FUNC(12) ++#define EC_FUNC_DEVICE_INT EC_FUNC(13) ++#define EC_FUNC_STATUS EC_FUNC(14) ++#define EC_FUNC_TICK EC_FUNC(15) ++#define EC_FUNC_CLOSE EC_FUNC(16) ++#define EC_FUNC_SHUTDOWN EC_FUNC(17) ++#define EC_FUNC_DEVICE_INT_ALT EC_FUNC(18) /* +GSG 030306 */ ++ ++/* ++HAL Error Codes. The list below defines every type of error ++used in all HAL modules. DO NOT CHANGE THESE VALUES! Add new ++values in integer order to the bottom of the list. ++*/ ++#define EC_VAL_PDSP_LOAD_FAIL EC_ERR(0x01)|EC_CRITICAL ++#define EC_VAL_FIRMWARE_TOO_LARGE EC_ERR(0x02)|EC_CRITICAL ++#define EC_VAL_DEVICE_NOT_FOUND EC_ERR(0x03)|EC_CRITICAL ++#define EC_VAL_BASE_ADDR_NOT_FOUND EC_ERR(0x04)|EC_CRITICAL ++#define EC_VAL_RESET_BIT_NOT_FOUND EC_ERR(0x05)|EC_CRITICAL ++#define EC_VAL_CH_INFO_NOT_FOUND EC_ERR(0x06) ++#define EC_VAL_RX_STATE_RAM_NOT_CLEARED EC_ERR(0x07)|EC_CRITICAL ++#define EC_VAL_TX_STATE_RAM_NOT_CLEARED EC_ERR(0x08)|EC_CRITICAL ++#define EC_VAL_MALLOC_DEV_FAILED EC_ERR(0x09) ++#define EC_VAL_OS_VERSION_NOT_SUPPORTED EC_ERR(0x0A)|EC_CRITICAL ++#define EC_VAL_CPSAR_VERSION_NOT_SUPPORTED EC_ERR(0x0B)|EC_CRITICAL ++#define EC_VAL_NULL_CPSAR_DEV EC_ERR(0x0C)|EC_CRITICAL ++ ++#define EC_VAL_LUT_NOT_READY EC_ERR(0x0D) ++#define EC_VAL_INVALID_CH EC_ERR(0x0E) ++#define EC_VAL_NULL_CH_STRUCT EC_ERR(0x0F) ++#define EC_VAL_RX_TEARDOWN_ALREADY_PEND EC_ERR(0x10) ++#define EC_VAL_TX_TEARDOWN_ALREADY_PEND EC_ERR(0x11) ++#define EC_VAL_RX_CH_ALREADY_TORNDOWN EC_ERR(0x12) ++#define EC_VAL_TX_CH_ALREADY_TORNDOWN EC_ERR(0x13) ++#define EC_VAL_TX_TEARDOWN_TIMEOUT EC_ERR(0x14) ++#define EC_VAL_RX_TEARDOWN_TIMEOUT EC_ERR(0x15) ++#define EC_VAL_CH_ALREADY_TORNDOWN EC_ERR(0x16) ++#define EC_VAL_VC_SETUP_NOT_READY EC_ERR(0x17) ++#define EC_VAL_VC_TEARDOWN_NOT_READY EC_ERR(0x18) ++#define EC_VAL_INVALID_VC EC_ERR(0x19) ++#define EC_VAL_INVALID_LC EC_ERR(0x20) ++#define EC_VAL_INVALID_VDMA_CH EC_ERR(0x21) ++#define EC_VAL_INVALID_CID EC_ERR(0x22) ++#define EC_VAL_INVALID_UUI EC_ERR(0x23) ++#define EC_VAL_INVALID_UUI_DISCARD EC_ERR(0x24) ++#define EC_VAL_CH_ALREADY_OPEN EC_ERR(0x25) ++ ++#define EC_VAL_RCB_MALLOC_FAILED EC_ERR(0x26) ++#define EC_VAL_RX_BUFFER_MALLOC_FAILED EC_ERR(0x27) ++#define EC_VAL_OUT_OF_TCBS EC_ERR(0x28) ++#define EC_VAL_NO_TCBS EC_ERR(0x29) ++#define EC_VAL_NULL_RCB EC_ERR(0x30)|EC_CRITICAL ++#define EC_VAL_SOP_ERROR EC_ERR(0x31)|EC_CRITICAL ++#define EC_VAL_EOP_ERROR EC_ERR(0x32)|EC_CRITICAL ++#define EC_VAL_NULL_TCB EC_ERR(0x33)|EC_CRITICAL ++#define EC_VAL_CORRUPT_RCB_CHAIN EC_ERR(0x34)|EC_CRITICAL ++#define EC_VAL_TCB_MALLOC_FAILED EC_ERR(0x35) ++ ++#define EC_VAL_DISABLE_POLLING_FAILED EC_ERR(0x36) ++#define EC_VAL_KEY_NOT_FOUND EC_ERR(0x37) ++#define EC_VAL_MALLOC_FAILED EC_ERR(0x38) ++#define EC_VAL_RESET_BASE_NOT_FOUND EC_ERR(0x39)|EC_CRITICAL ++#define EC_VAL_INVALID_STATE EC_ERR(0x40) ++#define EC_VAL_NO_TXH_WORK_TO_DO EC_ERR(0x41) ++#define EC_VAL_NO_TXL_WORK_TO_DO EC_ERR(0x42) ++#define EC_VAL_NO_RX_WORK_TO_DO EC_ERR(0x43) ++#define EC_VAL_NOT_LINKED EC_ERR(0x44) ++#define EC_VAL_INTERRUPT_NOT_FOUND EC_ERR(0x45) ++#define EC_VAL_OFFSET_NOT_FOUND EC_ERR(0x46) ++#define EC_VAL_MODULE_ALREADY_CLOSED EC_ERR(0x47) ++#define EC_VAL_MODULE_ALREADY_SHUTDOWN EC_ERR(0x48) ++#define EC_VAL_ACTION_NOT_FOUND EC_ERR(0x49) ++#define EC_VAL_RX_CH_ALREADY_SETUP EC_ERR(0x50) ++#define EC_VAL_TX_CH_ALREADY_SETUP EC_ERR(0x51) ++#define EC_VAL_RX_CH_ALREADY_OPEN EC_ERR(0x52) ++#define EC_VAL_TX_CH_ALREADY_OPEN EC_ERR(0x53) ++#define EC_VAL_CH_ALREADY_SETUP EC_ERR(0x54) ++#define EC_VAL_RCB_NEEDS_BUFFER EC_ERR(0x55) /* +GSG 030410 */ ++#define EC_VAL_RCB_DROPPED EC_ERR(0x56) /* +GSG 030410 */ ++#define EC_VAL_INVALID_VALUE EC_ERR(0x57) ++ ++/** ++@defgroup shared_data Shared Data Structures ++ ++The data structures documented here are shared by all modules. ++*/ ++ ++/** ++ * @ingroup shared_data ++ * This is the fragment list structure. Each fragment list entry contains a ++ * length and a data buffer. ++ */ ++typedef struct ++ { ++ bit32u len; /**< Length of the fragment in bytes (lower 16 bits are valid). For SOP, upper 16 bits is the buffer offset. */ ++ void *data; /**< Pointer to fragment data. */ ++ void *OsInfo; /**< Pointer to OS defined data. */ ++ }FRAGLIST; ++ ++#if defined (_CPHAL_CPMAC) ++#define CB_PASSCRC_BIT (1<<26) ++ ++/* CPMAC CPHAL STATUS */ ++#define CPMAC_STATUS_LINK (1 << 0) ++#define CPMAC_STATUS_LINK_DUPLEX (1 << 1) /* 0 - HD, 1 - FD */ ++#define CPMAC_STATUS_LINK_SPEED (1 << 2) /* 0 - 10, 1 - 100 */ ++ ++/* ADAPTER CHECK Codes */ ++ ++#define CPMAC_STATUS_ADAPTER_CHECK (1 << 7) ++#define CPMAC_STATUS_HOST_ERR_DIRECTION (1 << 8) ++#define CPMAC_STATUS_HOST_ERR_CODE (0xF << 9) ++#define CPMAC_STATUS_HOST_ERR_CH (0x7 << 13) ++ ++#define _CPMDIO_DISABLE (1 << 0) ++#define _CPMDIO_HD (1 << 1) ++#define _CPMDIO_FD (1 << 2) ++#define _CPMDIO_10 (1 << 3) ++#define _CPMDIO_100 (1 << 4) ++#define _CPMDIO_NEG_OFF (1 << 5) ++#define _CPMDIO_LOOPBK (1 << 16) ++#define _CPMDIO_NOPHY (1 << 20) ++#endif ++ ++/** ++ * @ingroup shared_data ++ * Channel specific configuration information. This structure should be ++ * populated by upper-layer software prior to calling @c ChannelSetup(). Any ++ * configuration item that can be changed on a per channel basis should ++ * be represented here. Each module may define this structure with additional ++ * module-specific members. ++ */ ++typedef struct ++ { ++ int Channel; /**< Channel number. */ ++ int Direction; /**< DIRECTION_RX(1) or DIRECTION_TX(0). */ ++ OS_SETUP *OsSetup; /**< OS defined information associated with this channel. */ ++ ++#if defined(_CPHAL_AAL5) || defined (_CPHAL_CPSAR) || defined (_CPHAL_CPMAC) ++ int RxBufSize; /**< Size (in bytes) for each Rx buffer.*/ ++ int RxBufferOffset; /**< Number of bytes to offset rx data from start of buffer (must be less than buffer size). */ ++ int RxNumBuffers; /**< The number of Rx buffer descriptors to allocate for Ch. */ ++ int RxServiceMax; /**< Maximum number of packets to service at one time. */ ++ ++ int TxNumBuffers; /**< The number of Tx buffer descriptors to allocate for Ch. */ ++ int TxNumQueues; /**< Number of Tx queues for this channel (1-2). Choosing 2 enables a low priority SAR queue. */ ++ int TxServiceMax; /**< Maximum number of packets to service at one time. */ ++#endif ++ ++#if defined(_CPHAL_AAL5) || defined(_CPHAL_CPSAR) ++ int CpcsUU; /**< The 2-byte CPCS UU and CPI information. */ ++ int Gfc; /**< Generic Flow Control. */ ++ int Clp; /**< Cell Loss Priority. */ ++ int Pti; /**< Payload Type Indication. */ ++#endif ++ ++#if defined(_CPHAL_AAL2) || defined(_CPHAL_AAL5) || defined(_CPHAL_CPSAR) ++ int DaMask; /**< Specifies whether credit issuance is paused when Tx data not available. */ ++ int Priority; /**< Priority bin this channel will be scheduled within. */ ++ int PktType; /**< 0=AAL5,1=Null AAL,2=OAM,3=Transparent,4=AAL2. */ ++ int Vci; /**< Virtual Channel Identifier. */ ++ int Vpi; /**< Virtual Path Identifier. */ ++ int FwdUnkVc; /**< Enables forwarding of unknown VCI/VPI cells to host. 1=enable, 0=disable. */ ++ ++ /* Tx VC State */ ++ int TxVc_CellRate; /**< Tx rate, set as clock ticks between transmissions (SCR for VBR, CBR for CBR). */ ++ int TxVc_QosType; /**< 0=CBR,1=VBR,2=UBR,3=UBRmcr. */ ++ int TxVc_Mbs; /**< Min Burst Size in cells.*/ ++ int TxVc_Pcr; /**< Peak Cell Rate for VBR in clock ticks between transmissions. */ ++ ++ bit32 TxVc_AtmHeader; /**< ATM Header placed on firmware gen'd OAM cells for this Tx Ch (must be big endian with 0 PTI). */ ++ int TxVc_OamTc; /**< TC Path to transmit OAM cells for TX connection (0,1). */ ++ int TxVc_VpOffset; /**< Offset to the OAM VP state table. */ ++ /* Rx VC State */ ++ int RxVc_OamCh; /**< Ch to terminate rx'd OAM cells to be forwarded to the host. */ ++ int RxVc_OamToHost; /**< 0=do not pass, 1=pass. */ ++ bit32 RxVc_AtmHeader; /**< ATM Header placed on firmware gen'd OAM cells for this Rx conn (must be big endian with 0 PTI). */ ++ int RxVc_OamTc; /**< TC Path to transmit OAM cells for RX connection (0,1). */ ++ int RxVc_VpOffset; /**< Offset to the OAM VP state table. */ ++ /* Tx VP State */ ++ int TxVp_OamTc; /**< TC Path to transmit OAM cells for TX VP connection (0,1). */ ++ bit32 TxVp_AtmHeader; /**< ATM Header placed on firmware gen'd VP OAM cells for this Tx VP conn (must be big endian with 0 VCI). */ ++ /* Rx VP State */ ++ int RxVp_OamCh; /**< Ch to terminate rx'd OAM cells to be forwarded to the host. */ ++ int RxVp_OamToHost; /**< 0=do not pass, 1=pass. */ ++ bit32 RxVp_AtmHeader; /**< ATM Header placed on firmware gen'd OAM cells for this Rx VP conn (must be big endian with 0 VCI). */ ++ int RxVp_OamTc; /**< TC Path to transmit OAM cells for RX VP connection (0,1). */ ++ int RxVp_OamVcList; /**< Indicates all VC channels associated with this VP channel (one-hot encoded). */ ++#endif ++ ++ ++#ifdef _CPHAL_VDMAVT ++ bit32u RemFifoAddr; /* Mirror mode only. */ ++ bit32u FifoAddr; ++ bit32 PollInt; ++ bit32 FifoSize; ++ int Ready; ++#endif ++ ++ }CHANNEL_INFO; ++ ++/* ++ * This structure contains each statistic value gathered by the CPHAL. ++ * Applications may access statistics data by using the @c StatsGet() routine. ++ */ ++/* STATS */ ++#if defined(_CPHAL_AAL2) || defined(_CPHAL_AAL5) || defined(_CPHAL_CPSAR) ++typedef struct ++ { ++ bit32u CrcErrors[16]; ++ bit32u LenErrors[16]; ++ bit32u DmaLenErrors[16]; ++ bit32u AbortErrors[16]; ++ bit32u StarvErrors[16]; ++ bit32u TxMisQCnt[16][2]; ++ bit32u RxMisQCnt[16]; ++ bit32u RxEOQCnt[16]; ++ bit32u TxEOQCnt[16][2]; ++ bit32u RxPacketsServiced[16]; ++ bit32u TxPacketsServiced[16][2]; ++ bit32u RxMaxServiced; ++ bit32u TxMaxServiced[16][2]; ++ bit32u RxTotal; ++ bit32u TxTotal; ++ } STAT_INFO; ++#endif ++ ++/* ++ * VDMA Channel specific configuration information ++ */ ++#ifdef _CPHAL_AAL2 ++typedef struct ++ { ++ int Ch; /**< Channel Number */ ++ int RemoteEndian; /**< Endianness of remote VDMA-VT device */ ++ int CpsSwap; /**< When 0, octet 0 in CPS pkt located in LS byte of 16-bit word sent to rem VDMA device. When 1, in MS byte. */ ++ }VdmaChInfo; ++#endif ++ ++#ifndef _CPHAL ++ typedef void HAL_DEVICE; ++ typedef void HAL_PRIVATE; ++ typedef void HAL_RCB; ++ typedef void HAL_RECEIVEINFO; ++#endif ++ ++/** ++ * @ingroup shared_data ++ * The HAL_FUNCTIONS struct defines the function pointers used by upper layer ++ * software. The upper layer software receives these pointers through the ++ * call to xxxInitModule(). ++ */ ++typedef struct ++ { ++ int (*ChannelSetup) (HAL_DEVICE *HalDev, CHANNEL_INFO *Channel, OS_SETUP *OsSetup); ++ int (*ChannelTeardown) (HAL_DEVICE *HalDev, int Channel, int Mode); ++ int (*Close) (HAL_DEVICE *HalDev, int Mode); ++ int (*Control) (HAL_DEVICE *HalDev, const char *Key, const char *Action, void *Value); ++ int (*Init) (HAL_DEVICE *HalDev); ++ int (*Open) (HAL_DEVICE *HalDev); ++ int (*PacketProcessEnd) (HAL_DEVICE *HalDev); ++ int (*Probe) (HAL_DEVICE *HalDev); ++ int (*RxReturn) (HAL_RECEIVEINFO *HalReceiveInfo, int StripFlag); ++ int (*Send) (HAL_DEVICE *HalDev, FRAGLIST *FragList, int FragCount, int PacketSize, OS_SENDINFO *OsSendInfo, bit32u Mode); ++ int (*Shutdown) (HAL_DEVICE *HalDev); ++ int (*Tick) (HAL_DEVICE *HalDev); ++ ++#ifdef _CPHAL_AAL5 ++ int (*Kick) (HAL_DEVICE *HalDev, int Queue); ++ void (*OamFuncConfig) (HAL_DEVICE *HalDev, unsigned int OamConfig); ++ void (*OamLoopbackConfig) (HAL_DEVICE *HalDev, unsigned int OamConfig, unsigned int *LLID, unsigned int CorrelationTag); ++ volatile bit32u* (*RegAccess)(HAL_DEVICE *HalDev, bit32u RegOffset); ++ STAT_INFO* (*StatsGetOld)(HAL_DEVICE *HalDev); ++#endif ++ } HAL_FUNCTIONS; ++ ++/** ++ * @ingroup shared_data ++ * The OS_FUNCTIONS struct defines the function pointers for all upper layer ++ * functions accessible to the CPHAL. The upper layer software is responsible ++ * for providing the correct OS-specific implementations for the following ++ * functions. It is populated by calling InitModule() (done by the CPHAL in ++ * xxxInitModule(). ++ */ ++typedef struct ++ { ++ int (*Control)(OS_DEVICE *OsDev, const char *Key, const char *Action, void *Value); ++ void (*CriticalOn)(void); ++ void (*CriticalOff)(void); ++ void (*DataCacheHitInvalidate)(void *MemPtr, int Size); ++ void (*DataCacheHitWriteback)(void *MemPtr, int Size); ++ int (*DeviceFindInfo)(int Inst, const char *DeviceName, void *DeviceInfo); ++ int (*DeviceFindParmUint)(void *DeviceInfo, const char *Parm, bit32u *Value); ++ int (*DeviceFindParmValue)(void *DeviceInfo, const char *Parm, void *Value); ++ void (*Free)(void *MemPtr); ++ void (*FreeRxBuffer)(OS_RECEIVEINFO *OsReceiveInfo, void *MemPtr); ++ void (*FreeDev)(void *MemPtr); ++ void (*FreeDmaXfer)(void *MemPtr); ++ void (*IsrRegister)(OS_DEVICE *OsDev, int (*halISR)(HAL_DEVICE*, int*), int InterruptBit); ++ void (*IsrUnRegister)(OS_DEVICE *OsDev, int InterruptBit); ++ void* (*Malloc)(bit32u size); ++ void* (*MallocDev)(bit32u Size); ++ void* (*MallocDmaXfer)(bit32u size, void *MemBase, bit32u MemRange); ++ void* (*MallocRxBuffer)(bit32u size, void *MemBase, bit32u MemRange, ++ OS_SETUP *OsSetup, HAL_RECEIVEINFO *HalReceiveInfo, ++ OS_RECEIVEINFO **OsReceiveInfo, OS_DEVICE *OsDev); ++ void* (*Memset)(void *Dest, int C, bit32u N); ++ int (*Printf)(const char *Format, ...); ++ int (*Receive)(OS_DEVICE *OsDev,FRAGLIST *FragList,bit32u FragCount, ++ bit32u PacketSize,HAL_RECEIVEINFO *HalReceiveInfo, bit32u Mode); ++ int (*SendComplete)(OS_SENDINFO *OsSendInfo); ++ int (*Sprintf)(char *S, const char *Format, ...); ++ int (*Strcmpi)(const char *Str1, const char *Str2); ++ unsigned int (*Strlen)(const char *S); ++ char* (*Strstr)(const char *S1, const char *S2); ++ unsigned long (*Strtoul)(const char *Str, char **Endptr, int Base); ++ void (*TeardownComplete)(OS_DEVICE *OsDev, int Ch, int Direction); ++ } OS_FUNCTIONS; ++ ++/************** MODULE SPECIFIC STUFF BELOW **************/ ++ ++#ifdef _CPHAL_CPMAC ++ ++/* ++int halCpmacInitModule(HAL_DEVICE **HalDev, OS_DEVICE *OsDev, HAL_FUNCTIONS *HalFunc, int (*osBridgeInitModule)(OS_FUNCTIONS *), void* (*osMallocDev) (bit32u), int *Size, int inst); ++*/ ++ ++int halCpmacInitModule(HAL_DEVICE **HalDev, ++ OS_DEVICE *OsDev, ++ HAL_FUNCTIONS **HalFunc, ++ OS_FUNCTIONS *OsFunc, ++ int OsFuncSize, ++ int *HalFuncSize, ++ int Inst); ++#endif ++ ++#ifdef _CPHAL_AAL5 ++/* ++ * @ingroup shared_data ++ * The AAL5_FUNCTIONS struct defines the AAL5 function pointers used by upper layer ++ * software. The upper layer software receives these pointers through the ++ * call to cphalInitModule(). ++ */ ++/* ++typedef struct ++ { ++ int (*ChannelSetup)(HAL_DEVICE *HalDev, CHANNEL_INFO *HalCh, OS_SETUP *OsSetup); ++ int (*ChannelTeardown)(HAL_DEVICE *HalDev, int Ch, int Mode); ++ int (*Close)(HAL_DEVICE *HalDev, int Mode); ++ int (*Init)(HAL_DEVICE *HalDev); ++ int (*ModeChange)(HAL_DEVICE *HalDev, char *DeviceParms); ++ int (*Open)(HAL_DEVICE *HalDev); ++ int (*InfoGet)(HAL_DEVICE *HalDev, int Key, void *Value); ++ int (*Probe)(HAL_DEVICE *HalDev); ++ int (*RxReturn)(HAL_RECEIVEINFO *HalReceiveInfo, int StripFlag); ++ int (*Send)(HAL_DEVICE *HalDev,FRAGLIST *FragList,int FragCount, ++ int PacketSize,OS_SENDINFO *OsSendInfo,int Ch, int Queue, ++ bit32u Mode); ++ int (*StatsClear)(HAL_DEVICE *HalDev); ++ STAT_INFO* (*StatsGet)(HAL_DEVICE *HalDev); ++ int (*Status)(HAL_DEVICE *HalDev); ++ void (*Tick)(HAL_DEVICE *HalDev); ++ int (*Kick)(HAL_DEVICE *HalDev, int Queue); ++ volatile bit32u* (*RegAccess)(HAL_DEVICE *HalDev, bit32u RegOffset); ++ } AAL5_FUNCTIONS; ++*/ ++ ++int cpaal5InitModule(HAL_DEVICE **HalDev, ++ OS_DEVICE *OsDev, ++ HAL_FUNCTIONS **HalFunc, ++ OS_FUNCTIONS *OsFunc, ++ int OsFuncSize, ++ int *HalFuncSize, ++ int Inst); ++#endif ++ ++#ifdef _CPHAL_AAL2 ++/** ++ * @ingroup shared_data ++ * The AAL2_FUNCTIONS struct defines the AAL2 function pointers used by upper layer ++ * software. The upper layer software receives these pointers through the ++ * call to cphalInitModule(). ++ */ ++typedef struct ++ { ++ int (*ChannelSetup)(HAL_DEVICE *HalDev, CHANNEL_INFO *HalCh, OS_SETUP *OsSetup); ++ int (*ChannelTeardown)(HAL_DEVICE *HalDev, int Ch, int Mode); ++ int (*Close)(HAL_DEVICE *HalDev, int Mode); ++ int (*Init)(HAL_DEVICE *HalDev); ++ int (*ModeChange)(HAL_DEVICE *HalDev, char *DeviceParms); ++ int (*Open)(HAL_DEVICE *HalDev); ++ int (*OptionsGet)(HAL_DEVICE *HalDev, char *Key, bit32u *Value); ++ int (*Probe)(HAL_DEVICE *HalDev); ++ ++ int (*StatsClear)(HAL_DEVICE *HalDev); ++ STAT_INFO* (*StatsGet)(HAL_DEVICE *HalDev); ++ int (*Status)(HAL_DEVICE *HalDev); ++ void (*Tick)(HAL_DEVICE *HalDev); ++ int (*Aal2UuiMappingSetup)(HAL_DEVICE *HalDev, int VC, int UUI, ++ int VdmaCh, int UUIDiscard); ++ int (*Aal2RxMappingSetup)(HAL_DEVICE *HalDev, int VC, int CID, ++ int LC); ++ int (*Aal2TxMappingSetup)(HAL_DEVICE *HalDev, int VC, int LC, int VdmaCh); ++ int (*Aal2VdmaChSetup)(HAL_DEVICE *HalDev, bit32u RemVdmaVtAddr, ++ VdmaChInfo *VdmaCh); ++ volatile bit32u* (*RegAccess)(HAL_DEVICE *HalDev, bit32u RegOffset); ++ int (*Aal2ModeChange)(HAL_DEVICE *HalDev, int Vc, int RxCrossMode, ++ int RxMultiMode, int TxMultiMode, int SchedMode, ++ int TcCh); ++ void (*Aal2VdmaEnable)(HAL_DEVICE *HalDev, int Ch); ++ int (*Aal2VdmaDisable)(HAL_DEVICE *HalDev, int Ch); ++ } AAL2_FUNCTIONS; ++ ++int cpaal2InitModule(HAL_DEVICE **HalDev, ++ OS_DEVICE *OsDev, ++ AAL2_FUNCTIONS **HalFunc, ++ OS_FUNCTIONS *OsFunc, ++ int OsFuncSize, ++ int *HalFuncSize, ++ int Inst); ++#endif ++ ++#ifdef _CPHAL_VDMAVT ++/** ++ * @ingroup shared_data ++ * The VDMA_FUNCTIONS struct defines the HAL function pointers used by upper layer ++ * software. The upper layer software receives these pointers through the ++ * call to InitModule(). ++ * ++ * Note that this list is still under definition. ++ */ ++typedef struct ++ { ++ bit32 (*Init)( HAL_DEVICE *VdmaVtDev); ++ /* bit32 (*SetupTxFifo)(HAL_DEVICE *VdmaVtDev, bit32u LclRem, ++ bit32u Addr, bit32u Size, bit32u PollInt); ++ bit32 (*SetupRxFifo)(HAL_DEVICE *VdmaVtDev, bit32u LclRem, ++ bit32u Addr, bit32u Size, bit32u PollInt); */ ++ bit32 (*Tx)(HAL_DEVICE *VdmaVtDev); ++ bit32 (*Rx)(HAL_DEVICE *VdmaVtDev); ++ bit32 (*SetRemoteChannel)(HAL_DEVICE *VdmaVtDev, bit32u RemAddr, ++ bit32u RemDevID); ++ bit32 (*ClearRxInt)(HAL_DEVICE *VdmaVtDev); ++ bit32 (*ClearTxInt)(HAL_DEVICE *VdmaVtDev); ++ bit32 (*Open)(HAL_DEVICE *VdmaVtDev); ++ bit32 (*Close)(HAL_DEVICE *VdmaVtDev); ++ int (*Control) (HAL_DEVICE *HalDev, const char *Key, const char *Action, void *Value); ++ int (*ChannelSetup)(HAL_DEVICE *VdmaVtDev, CHANNEL_INFO *HalCh, OS_SETUP *OsSetup); ++ int (*ChannelTeardown)(HAL_DEVICE *VdmaVtDev, int Ch, int Mode); ++ int (*Send)(HAL_DEVICE *VdmaVtDev,FRAGLIST *FragList,int FragCount, ++ int PacketSize,OS_SENDINFO *OsSendInfo,bit32u Mode); ++ } VDMA_FUNCTIONS; ++ ++int VdmaInitModule(HAL_DEVICE **VdmaVt, ++ OS_DEVICE *OsDev, ++ VDMA_FUNCTIONS **VdmaVtFunc, ++ OS_FUNCTIONS *OsFunc, ++ int OsFuncSize, ++ int *HalFuncSize, ++ int Inst); ++#endif ++ ++/* ++extern int cphalInitModule(MODULE_TYPE ModuleType, HAL_DEVICE **HalDev, OS_DEVICE *OsDev, HAL_FUNCTIONS *HalFunc, ++ int (*osInitModule)(OS_FUNCTIONS *), void* (*osMallocDev)(bit32u), ++ int *Size, int Inst); ++*/ ++ ++ ++#ifdef _CPHAL_AAL5 ++extern const char hcSarFrequency[]; ++#endif ++ ++#ifdef _CPHAL_CPMAC ++/* following will be common, once 'utl' added */ ++extern const char hcClear[]; ++extern const char hcGet[]; ++extern const char hcSet[]; ++extern const char hcTick[]; ++ ++extern const char hcCpuFrequency[]; ++extern const char hcCpmacFrequency[]; ++extern const char hcMdioBusFrequency[]; ++extern const char hcMdioClockFrequency[]; ++extern const char hcCpmacBase[]; ++extern const char hcPhyNum[]; ++extern const char hcSize[]; ++extern const char hcCpmacSize[]; ++extern const char hcPhyAccess[]; ++#endif ++ ++#endif /* end of _INC_ */ +diff -urN linux.old/drivers/atm/sangam_atm/dev_host_interface.h linux.dev/drivers/atm/sangam_atm/dev_host_interface.h +--- linux.old/drivers/atm/sangam_atm/dev_host_interface.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/dev_host_interface.h 2005-08-23 04:46:50.091844608 +0200 +@@ -0,0 +1,1162 @@ ++#ifndef __DEV_HOST_INTERFACE_H__ ++#define __DEV_HOST_INTERFACE_H__ 1 ++ ++/******************************************************************************* ++* FILE PURPOSE: Public header file for the Host-to-DSP interface ++******************************************************************************** ++* ++* TEXAS INSTRUMENTS PROPRIETARTY INFORMATION ++* ++* (C) Copyright Texas Instruments Inc. 2002. All rights reserved. ++* ++* Property of Texas Instruments Incorporated ++* ++* Restricted Rights - Use, duplication, or disclosure is subject to ++* restrictions set forth in TI's program license agreement and ++* associated documentation ++* ++* ++* FILE NAME: dev_host_interface.h ++* ++* DESCRIPTION: ++* This header file defines the variables and parameters used between the ++* host processor and the DSP. This file is included in both the DSP ++* software and the host software. ++* ++* RULES FOR MODIFICATION AND USE OF THIS FILE: ++* ++* --The main pointer to the struct of pointers will always be at the same fixed ++* location (0x80000000). ++* ++* --Each pointer element in the struct of pointers (indicated by the main pointer) ++* will always point to a struct only. ++* ++* --Any new structures added to the host interface in subsequent versions must ++* each have a corresponding new pointer element added to the END of the struct ++* of pointers. Other than this, there will never be any moving or rearranging ++* of the pointer elements in the struct of pointers. ++* ++* --Any new elements added to existing structures will be added at the END of the ++* structure. Other than this, there will never be any moving or rearranging ++* of structure elements. ++* ++* --A new structure will never be added as a new element in an old structure. ++* New structures must be added separately with a new entry in the struct of ++* pointers, as noted above. ++* ++* --Also, the sizes of existing arrays within old structures will never be changed. ++* ++* --The modem code in the DSP will never reference the struct of pointers in order ++* to avoid aliasing issues in the DSP code. The modem code will only use the ++* specific structures directly. ++* ++* --The host processor never accesses the DSP side of the ATM-TC hardware directly. ++* The DSP interfaces directly to the ATM-TC hardware and relays information to ++* the host processor through the host interface. ++* ++* --The host processor can track the modem's transition through important states ++* by accessing the Modem State Bit Field in the host interface. Each bit in ++* the bit field represents an important state to track in the modem. As the ++* modem transitions through each important state, the corresponding bit will ++* change from a zero to a one. Each bit in the bit field will only be reset to ++* zero if the modem retrains. If new states need to be tracked and are added ++* in subsequent versions of the host interface, a corresponding bit will be ++* added at the END of the bit field to ensure backwards compatibility. The ++* Modem State Bit Field is reset if the modem retrains or falls out of Showtime. ++* ++* --An interrupt will be sent to the host processor when a change occurs in the ++* Modem State Bit Field. There is an interrupt masking register which can mask ++* specific interrupts corresponding to the bits of the Modem State Bit Field. ++* This allows the host to keep an interrupt from being generated for those ++* states that are masked. ++* ++* HISTORY: ++* ++* 11/20/02 J. Bergsagel Written from the previous host interface file ++* 11/27/02 J. Bergsagel Added comments for mailbox control struct and ++* fixed a couple items for overlay page stuff. ++* Also, added temporary elements for SWTC code. ++* 12/04/02 J. Bergsagel Added extra dummy byte to DEV_HOST_eocVarDef_t ++* for proper word alignment. ++* 12/12/02 J. Bergsagel Changed initial states in the modem state bit field ++* and added more instructions for adding more states. ++* 12/16/02 J. Bergsagel Changed name "hostVersion_p" to "hostIntfcVersion_p". ++* Removed dspAturState from DEV_HOST_modemStateBitField_t. ++* Reorganized several struct elements to clean up the ++* host interface. ++* 12/27/02 Sameer V Added missing channel 0 statistics for TC. Added ++* ocd error information. ++* 12/27/02 Sameer V Added overlayState to OlayDP_Parms to indicate whether ++* overlays are being executed in current state. ++* 01/06/03 J. Bergsagel Added maxAllowedMargin and minRequiredMargin to ++* DEV_HOST_msg_t. ++* Renamed TC chan 1 items to be chan 0 items to start out. ++* 01/17/03 Sameer V Moved delineationState to atmStats structure. ++* 01/21/03 Barnett Implemented Ax7 UNIT-MODULE modular software framework. ++* 01/22/03 J. Bergsagel Added warning comments for certain struct typedefs. ++* 01/23/03 C. Perez-N. Removed old AX5-only diags. command/response entries in the ++* HOST and DSP ennumerations, and added the AX7 new ones ++* Added pointer entries in the DEV_HOST_dspOamSharedInterface_t ++* structure pointing to the analog diags. input/output/options ++* structures. ++* 01/29/03 Sameer V Removed TC_IDLE in enum for delineation state. Hardware ++* only reports TC_HUNT, TC_PRESYNC and TC_SYNC. ++* 03/07/03 Sameer/Jonathan Put SWTC token around structs and elements only used by SWTC ++* 03/12/03 Mannering Add CO profile data structures ++* 03/18/03 J. Bergsagel Removed the obsolete DSP_CHECK_TC response message. ++* 03/24/03 J. Bergsagel Added DEV_HOST_hostInterruptMask_t for masking DSP interrupt sources ++* 03/28/03 C. Perez-N Changed the C-style comments and made them C++ sytle instead. ++* Replaced the occurrences of "SINT32 *" pointer declarations with ++* "PSINT32" ++* 03/28/03 Mannering Update CO profile data structures ++* 04/04/03 S. Yim Add host I/F hooks for switchable hybrid and RJ11 ++* inner/outer pair selection ++* 04/11/03 J. Bergsagel Changed modem state bit field struct types to enums instead and used ++* a single integer variable for each "bitfield". ++* Changed bit field for host interrupt masks to an integer value also. ++* 04/14/03 J. Bergsagel Changed name of table pointer "meanSquareTblDstrm_p" to "marginTblDstrm_p". ++* 04/03/03 Umesh Iyer CMsg1 and RMsg1 use the same storage as CMSGPCB and RMSGPCB. ++* The string lengths for these have been adjusted to hold the longest ++* message in each case. The PCB messages from ADSL2 are longer. ++* 04/21/03 Sameeer V Added new host mailbox message for shutting down the DSLSS peripherals. ++* 04/23/03 J. Bergsagel Fixed comments for overlay mailbox messages and for losErrors. ++* 04/28/03 Mannering Added skip phase op flag to CO profile data structure ++* 05/05/03 Mannering Review Comments - Removed "#if CO_PROFILE" from around structure ++* definitions and define the number of profiles (DEV_HOST_LIST_ENTRIES) ++* 05/13/03 J. Bergsagel Added new elements to DEV_HOST_phyPerf_t for host control of hybrid. ++* 05/15/03 J. Bergsagel Added "farEndLosErrors" and "farEndRdiErrors" to DEV_HOST_modemStatsDef_t. ++* 05/16/03 Mannering Updated CO profile structure to support updated bit allocation and ++* interopability. ++* 05/20/03 Sameer V Added DSP message to inicate DYING GASP. ++* 05/22/03 J. Bergsagel Added a new struct typedef "DEV_HOST_hostInterruptSource_t". ++* Added "atucGhsRevisionNum" to "DEV_HOST_dspWrNegoParaDef_t". ++* Moved the following struct typedef's here to the public host interface: ++* DEV_HOST_dspBitSwapDef_t ++* DEV_HOST_atmDsBert_t ++* 05/28/03 A. Redfern Changed pointer type and location for margin reporting. ++* 05/28/03 Mannering Moved CO profile defines to dev_host_interface_pvt.h ++* 05/28/03 J. Bergsagel Moved subStateIndex and STM BERT controls into new struct "DEV_HOST_modemEnvPublic_t" ++* 05/29/03 J. Bergsagel Added elements to "DEV_HOST_modemEnvPublic_t" for host control of DSLSS LED's. ++* 06/10/03 Umesh Iyer Modified trainMode check to be compliant with the new host i/f mods. ++* 06/05/03 J. Bergsagel Added enum that will eventually replace the bitfield: DEV_HOST_diagAnlgOptionsVar_t. ++* Added new element "currentHybridNumUsed" in the DEV_HOST_phyPerf_t typedef ++* Added new host control flags for LPR signal detection on GPIO[0]. ++* 06/06/03 A. Redfern Removed fine gain scale from the CO profile and added max downstream power cutback. ++* Changed "test1" in CO profile struct to "phyEcDelayAdjustment". ++* 06/26/03 J. Bergsagel Added genericStructure typedef and two pointer elements of this type in the big table. ++* 07/03/03 Jack Huang Renamed test2 to bSwapThresholdUpdate ++* 07/07/03 Mallesh Changed phySigTxPowerCutback_f flag to a variable phySigTxGainReductionAt0kft which indicates the ++* amount of gain reduction in linear scale. ++* 07/15/03 Sameer V Changed DEV_HOST_diagAnlgOptionsVar_t to be an enum instead of a bit field. Host code ++* does not support setting bit fields. ++* 07/22/03 Jack Huang Added bitswap control flag in host i/f for API calls ++* 08/06/03 Sameer V Added missingToneDs_p to the DEV_HOST_oamWrNegoParaDef_t to enable host to switch off ++* DS tones on specified bins ++* 08/21/03 Jack Huang Added pcbEnabled flag in the DEV_HOST_modemEnvPublic_t structure ++* Added g.hs buffer definitions to DEV_HOST_dspOamSharedInterface_t ++* Added DEV_HOST_consBufDef_t to the DEV_HOST_dspOamSharedInterface_t structure ++* 08/26/03 J. Bergsagel Fixed name of "missingToneDs_p" to be "missingToneDsAddr" instead (since it is ++* not really used as a pointer). ++* 09/11/03 Mallesh Added a flag "usPilotInT1413ModeInMedley" to determine the need to send Upstream Pilot ++* in medley in T1.413 mode. ++* 09/12/03 J. Bergsagel Changed "test3" to "phyBitaFastPathExcessFineGainBump" in CO profile struct. ++* Changed "test4" to "phyBitaSkipGapAdjustment" in CO profile struct. ++* 09/23/03 J. Bergsagel Changed "T1413vendorRevisionNumber" to "vendorRevisionNumber" in DEV_HOST_msg_t. ++* Added ADSL2 and ADSL2 diag. states to the modem state bit field. ++* 10/01/03 J. Bergsagel Changed define of "MULTI_MODE" to be 255 to indicate that all possible bits ++* in the 8-bit bit field are turned on for any current and future training modes. ++* 10/09/03 M. Turkboylari Added DSP_TRAINING_MSGS and adsl2DeltMsgs_p, which is a pointer to a pointer, ++* in order to pass the ADSL2 training and DELT messages to the host side. This is for ACT. ++* 10/20/03 Mallesh Added a GHS state enumerator for cleardown ++* 10/20/03 Xiaohui Li Add definition for READSL2_MODE and READSL2_DELT ++* 11/07/03 J. Bergsagel Removed all code for when SWTC==1, which therefore allows removal of include of ++* "env_def_defines.h". We shouldn't have any compile tokens used in this file. ++* (the SWTC token is always off in any Ax7 code). ++* 11/14/03 J. Bergsagel Also removed READSL2_ENABLE token (no more compile tokens to be used in this .h file). ++* 12/12/03 Sameer/Ram Added DEV_HOST_EOCAOC_INTERRUPT_MASK to enable host to disable response code for AOC/EOC ++* mailbox messages ++* 12/09/03 Jack Huang Changed G.hs txbuf size from 60 to 64 to fit the max segment size ++* 12/15/03 Mallesh Changed vendor ID type defenition from SINT16 to UINT16 ++* 12/23/03 Sameer V Added ability to turn off constellation display reporting to host using oamFeature bit field. ++* 12/24/03 Sameer V Changed comment for Constellation Display Current Address to Host Write instead of DSP Write. ++* 12/26/03 Sameer/Ram Added DEV_HOST_GHSMSG_INTERRUPT_MASK to enable host to disable response code for GHS Messages ++* (C) Copyright Texas Instruments Inc. 2002. All rights reserved. ++*******************************************************************************/ ++ ++#include "dev_host_verdef.h" ++ ++// --------------------------------------------------------------------------------- ++// Address of the pointer to the DEV_HOST_dspOamSharedInterface_s struct of pointers ++// This is where it all starts. ++// --------------------------------------------------------------------------------- ++#define DEV_HOST_DSP_OAM_POINTER_LOCATION 0x80000000 ++ ++// The define "MAX_NUM_UPBINS" is used in "DEV_HOST_diagAnlgInputVar_t" below. ++// This value can never be changed (for host intf. backwards compatibility) ++#define MAX_NUM_UPBINS 64 ++ ++// ----------------------------------------------- ++// Begin common enumerations between DSP and host. ++// ----------------------------------------------- ++ ++// These Host-to-DSP commands are organized into two groups: ++// immediate state change commands and status affecting commands. ++// Do not add or remove commands except at the bottom since the DSP assumes this sequence. ++ ++enum ++{ ++ HOST_ACTREQ, // Send R-ACKREQ and monitor for C-ACKx ++ HOST_QUIET, // Sit quietly doing nothing for about 60 seconds, DEFAULT STATE; R_IDLE ++ HOST_XMITBITSWAP, // Perform upstream bitswap - FOR INTERNAL USE ONLY ++ HOST_RCVBITSWAP, // Perform downstream bitswap - FOR INTERNAL USE ONLY ++ HOST_RTDLPKT, // Send a remote download packet - FOR INTERNAL USE ONLY ++ HOST_CHANGELED, // Read the LED settings and change accordingly ++ HOST_IDLE, // Sit quiet ++ HOST_REVERBTEST, // Generate REVERB for manufacturing test ++ HOST_CAGCTEST, // Set coarse receive gain for manufacturing test ++ HOST_DGASP, // send Dying Gasp messages through EOC channel ++ HOST_GHSREQ, // G.hs - FOR INTERNAL USE ONLY ++ HOST_GHSMSG, // G.hs - FOR INTERNAL USE ONLY ++ HOST_GHS_SENDGALF, // G.hs - FOR INTERNAL USE ONLY ++ HOST_GHSEXIT, // G.hs - FOR INTERNAL USE ONLY ++ HOST_GHSMSG1, // G.hs - FOR INTERNAL USE ONLY ++ HOST_HYBRID, // Enable/Disable automatic hybrid switch ++ HOST_RJ11SELECT, // RJ11 inner/outer pair select ++ HOST_DIGITAL_MEM, // Digital Diags: run external memory tests ++ HOST_TXREVERB, // AFE Diags: TX path Reverb ++ HOST_TXMEDLEY, // AFE Diags: TX path Medley ++ HOST_RXNOISEPOWER, // AFE Diags: RX noise power ++ HOST_ECPOWER, // AFE Diags: RX eco power ++ HOST_ALL_ADIAG, // AFE Diags: all major analog diagnostic modes. Host is responsible to initiate each diagnostic sessions ++ HOST_USER_ADIAG, // AFE Diags: Host fills in analog diagnostic input data structure as specified and requests DSP to perform measurements as specified ++ HOST_QUIT_ADIAG, // AFE Diags: Host requests DSP to quit current diagnostic session. This is used for stopping the transmit REVERB/MEDLEY ++ HOST_NO_CMD, // All others - G.hs - FOR INTERNAL USE ONLY ++ HOST_DSLSS_SHUTDOWN, // Host initiated DSLSS shutdown message ++ HOST_SET_GENERIC, // Set generic CO profile ++ HOST_UNDO_GENERIC, // Set profile previous to Generic ++ HOST_GHS_CLEARDOWN // G.hs - FOR INTERNAL USE ONLY to start cleardown ++}; ++ ++// These DSP-to-Host responses are organized into two groups: ++// responses to commands and requests for OAM services. ++ ++enum ++{ ++ DSP_IDLE, // R_IDLE state entered ++ DSP_ACTMON, // R_ACTMON state entered ++ DSP_TRAIN, // R_TRAIN state entered ++ DSP_ACTIVE, // R_ACTIVE state entered ++ DSP_XMITBITSWAP, // Upstream bitswap complete - FOR INTERNAL USE ONLY ++ DSP_RCVBITSWAP, // Downstream bitswap complete - FOR INTERNAL USE ONLY ++ DSP_RTDL, // R_RTDL state entered - FOR INTERNAL USE ONLY ++ DSP_RRTDLPKT, // RTDL packet received - FOR INTERNAL USE ONLY ++ DSP_XRTDLPKT, // RTDL packet transmitted - FOR INTERNAL USE ONLY ++ DSP_ERROR, // Command rejected, wrong state for this command ++ DSP_REVERBTEST, // Manufacturing REVERB test mode entered ++ DSP_CAGCTEST, // Manufacturing receive gain test done ++ DSP_OVERLAY_START, // Notify host that page overlay has started - overlay number indicated by "tag" ++ DSP_OVERLAY_END, // Notify host that page overlay has ended - overlay number indicated by "tag" ++ DSP_CRATES1, // CRATES1 message is valid and should be copied to host memory now ++ DSP_SNR, // SNR calculations are ready and should be copied to host memory now ++ DSP_GHSMSG, // G.hs - FOR INTERNAL USE ONLY ++ DSP_RCVBITSWAP_TIMEOUT, // Acknowledge Message was not received within ~500 msec (26 Superframes). ++ DSP_ATM_TC_SYNC, // Indicates true TC sync on both the upstream and downstream. Phy layer ready for data xfer. ++ DSP_ATM_NO_TC_SYNC, // Indicates loss of sync on phy layer on either US or DS. ++ DSP_HYBRID, // DSP completed hybrid switch ++ DSP_RJ11SELECT, // DSP completed RJ11 inner/outer pair select ++ DSP_INVALID_CMD, // Manufacturing (Digital and AFE) diags: CMD received not recognized ++ DSP_TEST_PASSED, // Manufacturing diags: test passed ++ DSP_TEST_FAILED, // Manufacturing diags: test failed ++ DSP_TXREVERB, // Manufacturing AFE diags: Response to HOST_TXREVERB ++ DSP_TXMEDLEY, // Manufacturing AFE diags: Response to HOST_TXMEDLEY ++ DSP_RXNOISEPOWER, // Manufacturing AFE diags: Response to HOST_RXNOISEPOWER ++ DSP_ECPOWER, // Manufacturing AFE diags: Response to HOST_ECPOWER ++ DSP_ALL_ADIAG, // Manufacturing AFE diags: Response to HOST_ALL_ADIAG ++ DSP_USER_ADIAG, // Manufacturing AFE diags: Response to HOST_USER_ADIAG ++ DSP_QUIT_ADIAG, // Manufacturing AFE diags: Response to HOST_QUIT_ADIAG ++ DSP_DGASP, // DSP Message to indicate dying gasp ++ DSP_EOC, // DSP Message to indicate that DSP sent an EOC message to CO ++ DSP_TRAINING_MSGS // DSP Message to indicate that host has to copy the training message specified in the tag field. ++}; ++ ++// Define different ADSL training modes. ++//Defintions as per new host interface. ++#define NO_MODE 0 ++#define GDMT_MODE 2 ++#define GLITE_MODE 4 ++#define ADSL2_MODE 8 ++#define ADSL2_DELT (ADSL2_MODE+1) ++#define ADSL2PLUS_MODE 16 ++#define ADSL2PLUS_DELT (ADSL2PLUS_MODE+1) ++#define READSL2_MODE 32 ++#define READSL2_DELT (READSL2_MODE+1) ++#define T1413_MODE 128 ++#define MULTI_MODE 255 // all possible bits are set in the bit field ++ ++// Define the reason for dropping the connection ++ ++enum ++{ ++ REASON_LOS = 0x01, ++ REASON_DYING_GASP = 0x02, ++ REASON_USCRCERR = 0x04, ++ REASON_MARGIN_DROP = 0x08 ++}; ++ ++ ++// ---------------------------------------------------- ++// Begin modem state bit field definitions - DSP write. ++// ---------------------------------------------------- ++ ++// BitField1 for initial states and G.hs states. ++// If more values need to be added, they will be added at the end (up to 32 total entries). However, if this causes ++// the state transitions to tick off out of normal bit order, then the C code will have to be re-written ++// that causes the proper values to be entered into the modem state bit fields. ++typedef enum ++{ ++ ZERO_STATE1 = 0, ++ RTEST = 0x1, ++ RIDLE = 0x2, ++ RINIT = 0x4, ++ RRESET = 0x8, ++ GNSFLR = 0x10, ++ GTONE = 0x20, ++ GSILENT = 0x40, ++ GNEGO = 0x80, ++ GFAIL = 0x100, ++ GACKX = 0x200, ++ GQUIET2 = 0x400 ++} DEV_HOST_stateBitField1_t; // this enum should only have 32 bit entries in it. Add another enum if you need more. ++ ++// BitField2 for T1.413 states and for the rest of the modem states (so far) ++// If more values need to be added, they will be added at the end (up to 32 total entries). However, if this causes ++// the state transitions to tick off out of normal bit order, then the C code will have to be re-written ++// that causes the proper values to be entered into the modem state bit fields. ++typedef enum ++{ ++ ZERO_STATE2 = 0, ++ TNSFLR = 0x1, ++ TACTREQ = 0x2, ++ TACTMON = 0x4, ++ TFAIL = 0x8, ++ TACKX = 0x10, ++ TQUIET2 = 0x20, ++ RQUIET2 = 0x40, ++ RREVERB1 = 0x80, ++ RQUIET3 = 0x100, ++ RECT = 0x200, ++ RREVERB2 = 0x400, ++ RSEGUE1 = 0x800, ++ RREVERB3 = 0x1000, ++ RSEGUE2 = 0x2000, ++ RRATES1 = 0x4000, ++ RMSGS1 = 0x8000, ++ RMEDLEY = 0x10000, ++ RREVERB4 = 0x20000, ++ RSEGUE3 = 0x40000, ++ RMSGSRA = 0x80000, ++ RRATESRA = 0x100000, ++ RREVERBRA = 0x200000, ++ RSEGUERA = 0x400000, ++ RMSGS2 = 0x800000, ++ RRATES2 = 0x1000000, ++ RREVERB5 = 0x2000000, ++ RSEGUE4 = 0x4000000, ++ RBNG = 0x8000000, ++ RREVERB6 = 0x10000000, ++ RSHOWTIME = 0x20000000 ++} DEV_HOST_stateBitField2_t; // this enum should only have 32 bit entries in it. Add another enum if you need more. ++ ++// BitField3 for ADSL2 states ++// If more values need to be added, they will be added at the end (up to 32 total entries). However, if this causes ++// the state transitions to tick off out of normal bit order, then the C code will have to be re-written ++// that causes the proper values to be entered into the modem state bit fields. ++typedef enum ++{ ++ ZERO_STATE3 = 0, ++ G2QUIET1 = 0x1, ++ G2COMB1 = 0x2, ++ G2QUIET2 = 0x4, ++ G2COMB2 = 0x8, ++ G2ICOMB1 = 0x10, ++ G2LINEPROBE = 0x20, ++ G2QUIET3 = 0x40, ++ G2COMB3 = 0x80, ++ G2ICOMB2 = 0x100, ++ G2RMSGFMT = 0x200, ++ G2RMSGPCB = 0x400, ++ G2REVERB1 = 0x800, ++ G2QUIET4 = 0x1000, ++ G2REVERB2 = 0x2000, ++ G2QUIET5 = 0x4000, ++ G2REVERB3 = 0x8000, ++ G2ECT = 0x10000, ++ G2REVERB4 = 0x20000, ++ G2SEGUE1 = 0x40000, ++ G2REVERB5 = 0x80000, ++ G2SEGUE2 = 0x100000, ++ G2RMSG1 = 0x200000, ++ G2MEDLEY = 0x400000, ++ G2EXCHANGE = 0x800000, ++ G2RMSG2 = 0x1000000, ++ G2REVERB6 = 0x2000000, ++ G2SEGUE3 = 0x4000000, ++ G2RPARAMS = 0x8000000, ++ G2REVERB7 = 0x10000000, ++ G2SEGUE4 = 0x20000000 ++} DEV_HOST_stateBitField3_t; // this enum should only have 32 bit entries in it. Add another enum if you need more. ++ ++// BitField4 for ADSL2 diag. states ++// If more values need to be added, they will be added at the end (up to 32 total entries). However, if this causes ++// the state transitions to tick off out of normal bit order, then the C code will have to be re-written ++// that causes the proper values to be entered into the modem state bit fields. ++typedef enum ++{ ++ ZERO_STATE4 = 0, ++ GDSEGUE1 = 0x1, ++ GDREVERB5 = 0x2, ++ GDSEGUE2 = 0x4, ++ GDEXCHANGE = 0x8, ++ GDSEGUELD = 0x10, ++ GDRMSGLD = 0x20, ++ GDQUIET1LD = 0x40, ++ GDQUIET2LD = 0x80, ++ GDRACK1 = 0x100, ++ GDRNACK1 = 0x200, ++ GDQUIETLAST = 0x400 ++} DEV_HOST_stateBitField4_t; // this enum should only have 32 bit entries in it. Add another enum if you need more. ++ ++// This struct collects all of the bitfield types listed above for the modem state bit field(s) ++typedef struct ++{ ++ DEV_HOST_stateBitField1_t bitField1; // this is the first modem state bit field (mostly init. and G.hs) ++ DEV_HOST_stateBitField2_t bitField2; // this is the second modem state bit field (T1.413 and G.dmt) ++ DEV_HOST_stateBitField3_t bitField3; // this is the third modem state bit field (ADSL2) ++ DEV_HOST_stateBitField4_t bitField4; // this is the fourth modem state bit field (ADSL2 diag.) ++} DEV_HOST_modemStateBitField_t; ++ ++ ++// ----------------------------------------------- ++// Begin NegoPara message definitions - DSP write. ++// ----------------------------------------------- ++ ++typedef struct ++{ ++ UINT8 trainMode; // Train mode selected. See training modes defined above. ++ UINT8 bDummy1; // dummy byte for explicit 32-bit alignment ++ UINT16 lineLength; // Contains loop length estimate. Accuracy w/i 500 ft. LSbit = 1 for straight loop, = 0 for bridge tap ++ UINT32 atucVendorId; // Pass the vendor id of the CO to the host ++ UINT8 cMsgs1[8]; // CMsgs1 and CMSGPCB ++ UINT16 adsl2DSRate; // ++ UINT8 cRates2; // ++ UINT8 rRates2; // ++ UINT8 rRates1[4][11]; // ++ UINT8 cMsgs2[4]; // ++ UINT8 cRates1[4][30]; // ++ UINT8 rMsgs2[4]; // ++ UINT16 adsl2USRate; // ++ UINT8 atucGhsRevisionNum; // Pass the G.hs Revision number of the CO to the host ++ UINT8 reserved1; // ++ PUINT8 *adsl2DeltMsgs_p; // This pointer to a pointer passes the address of the globalvar.pString, which is also ++ // a pointer list of pointers. It will be used to pass all the new ADSL2 DELT messages to ++ // host side. This is for ACT. ++} DEV_HOST_dspWrNegoParaDef_t; ++ ++ ++// ---------------------------------------------------- ++// Begin OAM NegoPara message definitions - Host write. ++// ---------------------------------------------------- ++ ++// OAM Feature bit fields. ++// ++// Bit 0 - Enable auto retrain of modem ++// Bit 1 - Detect and report TC sync to host ++// Bit 2-31 - Reserved ++ ++#define DEV_HOST_AUTORETRAIN_ON 0x00000001 ++#define DEV_HOST_TC_SYNC_DETECT_ON 0x00000002 ++ ++#define DEV_HOST_AUTORETRAIN_MASK 0x00000001 ++#define DEV_HOST_TC_SYNC_DETECT_MASK 0x00000002 ++#define DEV_HOST_EOCAOC_INTERRUPT_MASK 0x00000004 ++#define DEV_HOST_CONS_DISP_DISABLE_MASK 0x00000008 ++#define DEV_HOST_GHSMSG_INTERRUPT_MASK 0x00000010 ++ ++typedef struct ++{ ++ UINT8 stdMode; // Desired train mode. See training modes defined above. ++ UINT8 ghsSequence; // Selected G.hs session as shown in Appendix 1 ++ UINT8 usPilotFlag; // Value of 1 indicates transmit an upstream pilot on bin 16 ++ UINT8 bDummy1; // dummy byte for 32-bit alignment ++ UINT8 rMsgs1[38]; // RMSG-1(6) and RMSG_PCB (38) ++ UINT8 bDummy2[2]; // dummy bytes for 32-bit alignment ++ UINT32 oamFeature; // 32 bit wide bit field to set OAM-specific features. ++ SINT8 marginThreshold; // Threshold for margin reporting ++ UINT8 hostFixAgc; // flag to force datapump to bypass AGC training and use the following values ++ UINT8 hostFixEqualizer; // forced analog equalizer value used during AGC training when hostfix_agc is on ++ UINT8 hostFixPga1; // forced pga1 value used during AGC training when hostFixAgc is on ++ UINT8 hostFixPga2; // forced pga2 value used during AGC training when hostFixAgc is on ++ UINT8 hostFixPga3; // forced pga3 value used during AGC training when hostFixAgc is on ++ UINT8 marginMonitorShwtme; // margin monitoring flag (during showtime) ++ UINT8 marginMonitorTrning; // margin monitoring flag (during training) ++ UINT8 disableLosAlarm; // flag to disable training based on los ++ UINT8 usCrcRetrain; // flag to disable retrain due to excessive USCRC ++ UINT8 t1413VendorId[2]; // Vendor ID used for T1.413 trainings ++ UINT8 gdmtVendorId[8]; // Vendor ID used for G.dmt trainings (ITU VendorID) ++ UINT8 missingTones[64]; // 64 element array to define missing tones for TX_MEDLEY and TX REVERB tests ++ UINT32 missingToneDsAddr; // Address given to DSP for tones to be switched off in DS direction ++ UINT8 dsToneTurnoff_f; // This flag controls the DS tone turn off logic ++ UINT8 reserved1; // Dummy bytes ++ UINT8 reserved2; // Dummy bytes ++ UINT8 reserved3; // Dummy bytes ++} DEV_HOST_oamWrNegoParaDef_t; ++ ++ ++// ---------------------------------------- ++// Begin Rate-adaptive message definitions. ++// ---------------------------------------- ++ ++// The four values below can never be changed (for host intf. backwards compatibility) ++#define DEV_HOST_RMSGSRA_LENGTH 10 ++#define DEV_HOST_RRATESRA_LENGTH 1 ++#define DEV_HOST_CRATESRA_LENGTH 120 ++#define DEV_HOST_CMSGSRA_LENGTH 6 ++ ++typedef struct ++{ ++ UINT8 rRatesRaString[DEV_HOST_RRATESRA_LENGTH+3]; ++ UINT8 rMsgsRaString[DEV_HOST_RMSGSRA_LENGTH+2]; ++ UINT8 cMsgsRaString[DEV_HOST_CMSGSRA_LENGTH+2]; ++} DEV_HOST_raMsgsDef_t; ++ ++ ++// ---------------------------------------------- ++// Begin superframe cnts definitions - DSP write. ++// ---------------------------------------------- ++ ++#define DEV_HOST_FRAMES_PER_SUPER 68 ++#define DEV_HOST_SUPERFRAMECNTDSTRM 0 ++#define DEV_HOST_SUPERFRAMECNTUSTRM 4 ++ ++// Although only the least significant 8 bits should be used as an ++// unsigned char for computing the bitswap superframe number, a ++// full 32 bit counter is provided here in order to have an ++// accurate indicator of the length of time that the modem has ++// been connected. This counter will overflow after 2.35 years ++// of connect time. ++ ++typedef struct ++{ ++ UINT32 wSuperFrameCntDstrm; ++ UINT32 wSuperFrameCntUstrm; ++} DEV_HOST_dspWrSuperFrameCntDef_t; ++ ++ ++// -------------------------------- ++// Begin ATUR/ATUC msg definitions. ++// -------------------------------- ++ ++// Grouping used by the DSP to simplify parameter passing. ++// All of these are written by the DSP. ++ ++typedef struct ++{ ++ UINT16 vendorId; // TI's vendor ID = 0x0004; Amati's vendor ID = 0x0006 ++ UINT8 versionNum; // T1.413 issue number ++ UINT8 rateAdapt; // 0 = fix rate (Default); 1= adaptive rate ++ UINT8 trellis; // 0 = disable trellis(default); 1 = enable trellis ++ UINT8 echoCancelling; // 0 = disable echo cancelling; 1 = enable echo cancelling(default) ++ UINT8 maxBits; // value range: 0-15; default = 15 ++ UINT8 maxPsd; // ++ UINT8 actualPsd; // ++ UINT8 maxIntlvDepth; // 0, 1, 2, or 3 for 64, 128, 256, or 512 max depth ++ UINT8 framingMode; // 0 for asynchronous, 1 for synchronous full overhead ++ // 2 for reduced overhead, 3 for merged reduced overhead DSP write. ++ UINT8 maxFrameMode; // maximum framing mode desired. Nor 0 or 3. ++ SINT16 targetMargin; // ++ SINT16 maxAllowedMargin; // ++ SINT16 minRequiredMargin; // ++ SINT16 maxTotBits; // ++ UINT8 grossGain; // ++ UINT8 ntr; // Enable/disable NTR support ++ SINT16 loopAttn; // Loop Attenuation ++ UINT8 vendorRevisionNumber; // Reported Vendor Revision Number ++ UINT8 reserved1; // for 32-bit alignment ++ UINT8 reserved2; // for 32-bit alignment ++ UINT8 reserved3; // for 32-bit alignment ++} DEV_HOST_msg_t; ++ ++ ++// -------------------------------------- ++// Begin bits and gains table definitions ++// -------------------------------------- ++ ++typedef struct ++{ ++ PUINT8 aturBng_p; // pointer to ATU-R bits and gains table ++ PUINT8 atucBng_p; // pointer to ATU-C bits and gains table ++ PUINT8 bitAllocTblDstrm_p; // pointer to Downstream Bit Allocation table ++ PUINT8 bitAllocTblUstrm_p; // pointer to Upstream Bit Allocation table ++ PSINT8 marginTblDstrm_p; // pointer to Downstream Margin table ++} DEV_HOST_dspWrSharedTables_t; ++ ++ ++// ---------------------------------------- ++// Begin datapump code overlay definitions. ++// ---------------------------------------- ++ ++#define DEV_HOST_PAGE_NUM 4 // number of overlay pages ++ ++// Never access a struct of this typedef directly. Always go through the DEV_HOST_olayDpDef_t struct ++typedef struct ++{ ++ UINT32 overlayHostAddr; // source address in host memory ++ UINT32 overlayXferCount; // number of 32bit words to be transfered ++ UINT32 overlayDspAddr; // destination address in DSP's PMEM ++} DEV_HOST_olayDpPageDef_t; ++ ++ ++typedef struct ++{ ++ UINT32 overlayStatus; // Status of current overlay to DSP PMEM ++ UINT32 overlayNumber; // DSP PMEM overlay page number ++ UINT32 overlayState; // Indicates whether current state is an overlay state ++ DEV_HOST_olayDpPageDef_t *olayDpPage_p[DEV_HOST_PAGE_NUM]; // Def's for the Pages ++} DEV_HOST_olayDpDef_t; ++ ++ ++// ------------------------- ++// Begin ATM-TC definitions. ++// ------------------------- ++ ++// TC cell states. ++typedef enum ++{ ++ TC_HUNT, ++ TC_PRESYNC, ++ TC_SYNC ++} DEV_HOST_cellDelinState_t; ++ ++ ++// -------------------------------------------- ++// Begin datapump error/statistics definitions. ++// -------------------------------------------- ++ ++// Never access a struct of this typedef directly. Always go through the DEV_HOST_modemStatsDef_t struct. ++typedef struct ++{ ++ UINT32 crcErrors; // Num of CRC errored ADSL frames ++ UINT32 fecErrors; // Num of FEC errored (corrected) ADSL frames ++ UINT32 ocdErrors; // Out of Cell Delineation ++ UINT32 ncdError; // No Cell Delineation ++ UINT32 lcdErrors; // Loss of Cell Delineation (within the same connection) ++ UINT32 hecErrors; // Num of HEC errored ADSL frames ++} DEV_HOST_errorStats_t; ++ ++ ++typedef struct ++{ ++ DEV_HOST_errorStats_t *usErrorStatsIntlv_p; // us error stats - interleave path ++ DEV_HOST_errorStats_t *dsErrorStatsIntlv_p; // ds error stats - interleave path ++ DEV_HOST_errorStats_t *usErrorStatsFast_p; // us error stats - fast path ++ DEV_HOST_errorStats_t *dsErrorStatsFast_p; // ds error stats - fast path ++ UINT32 losErrors; // Num of ADSL frames where loss-of-signal ++ UINT32 sefErrors; // Num of severly errored ADSL frames - LOS > MAXBADSYNC ADSL frames ++ UINT32 farEndLosErrors; // Number of reported LOS defects by the CO. ++ UINT32 farEndRdiErrors; // Number of reported RDI defects by the CO. ++} DEV_HOST_modemStatsDef_t; ++ ++// Never access a struct of this typedef directly. Always go through the DEV_HOST_atmStats_t struct. ++typedef struct ++{ ++ UINT32 goodCount; // Upstream Good Cell Count ++ UINT32 idleCount; // Upstream Idle Cell Count ++} DEV_HOST_usAtmStats_t; ++ ++// Never access a struct of this typedef directly. Always go through the DEV_HOST_atmStats_t struct. ++typedef struct ++{ ++ UINT32 goodCount; // Downstream Good Cell Count ++ UINT32 idleCount; // Downstream Idle Cell Count ++ UINT32 badHecCount; // Downstream Bad Hec Cell Count ++ UINT32 ovflwDropCount; // Downstream Overflow Dropped Cell Count ++ DEV_HOST_cellDelinState_t delineationState; // Indicates current delineation state ++} DEV_HOST_dsAtmStats_t; ++ ++ ++typedef struct ++{ ++ DEV_HOST_usAtmStats_t *us0_p; // US ATM stats for TC channel 0 ++ DEV_HOST_dsAtmStats_t *ds0_p; // DS ATM stats for TC channel 0 ++ DEV_HOST_usAtmStats_t *us1_p; // US ATM stats for TC channel 1 ++ DEV_HOST_dsAtmStats_t *ds1_p; // DS ATM stats for TC channel 1 ++} DEV_HOST_atmStats_t; ++ ++ ++// ---------------------- ++// Begin EOC definitions. ++// ---------------------- ++ ++// The two values below can never change (for backwards compatibility of host intf.) ++#define DEV_HOST_EOCREG4LENGTH 32 ++#define DEV_HOST_EOCREG5LENGTH 32 ++ ++typedef struct ++{ ++ UINT8 eocReg4[DEV_HOST_EOCREG4LENGTH]; // Host/Dsp Write, vendor specific EOC Register 4 ++ UINT8 eocReg5[DEV_HOST_EOCREG5LENGTH]; // Host/Dsp Write, vendor specific EOC Register 5 ++ UINT8 vendorId[8]; // Host write ++ UINT8 revNumber[4]; // Host, ATU-R Revision Number ++ UINT8 serialNumber[32]; // Host write ++ UINT8 eocReg4Length; // Host Write, valid length for EOC register 4 ++ UINT8 eocReg5Length; // Host Write, valid length for EOC register 5 ++ UINT8 dummy[2]; // dummy bytes for 32-bit alignment ++ UINT32 eocModemStatusReg; // Dsp Write, status bits to host ++ UINT8 lineAtten; // Dsp Write, line attenuation in 0.5 db step ++ SINT8 dsMargin; // DSP Write, measured DS margin ++ UINT8 aturConfig[30]; // Dsp Write, also used by EOC for ATUR Configuration ++} DEV_HOST_eocVarDef_t; ++ ++typedef struct ++{ ++ UINT16 endEocThresh; // Host Write, end of Clear EOC stream threshold ++ UINT16 dummy; // dummy value to fill gap ++ UINT32 dropEocCount; // Dsp Write, counter of dropped Clear EOC bytes ++ UINT16 eocRxLength; // Host/DSP write, number of valid Rx Clear EOC bytes ++ UINT16 eocTxLength; // Host/DSP write, number of valid Tx Clear EOC bytes ++ UINT8 eocRxBuf[64]; // Dsp Write, Buffer for receiving Rx Clear EOC bytes ++ UINT8 eocTxBuf[64]; // Host Write, Buffer for writing Tx Clear EOC bytes ++} DEV_HOST_clearEocVarDef_t; ++ ++ ++// ----------------------------------- ++// Begin CO profile Definitions. ++// ----------------------------------- ++ ++/* struct size must be a word size */ ++typedef struct ++{ ++ ++ SINT16 devCodecRxdf4Coeff[12] ; // (BOTH) IIR Coefficients ++ SINT16 devCodecTxdf2aCoeff[64] ; // (BOTH) FIR filter coefficients ++ SINT16 devCodecTxdf2bCoeff[64] ; // (BOTH) FIR filter coefficients ++ SINT16 devCodecTxdf1Coeff[12] ; // (BOTH) IIR filter coefficients ++ UINT16 devCodecTxDf2aDen; // (BOTH) denominator for IIR filter ++ UINT16 devCodecTxDf2bDen; // (BOTH) denominator for IIR filter ++ SINT16 ctrlMsmSpecGain[32]; // (BOTH) ++ ++ SINT16 phyBitaRateNegIntNoTrellis ; // (BOTH) value to set ++ SINT16 phyBitaRateNegIntTrellis ; // (BOTH) value to set ++ SINT16 phyBitaRateNegFastNoTrellis ; // (BOTH) value to set ++ SINT16 phyBitaRateNegFastTrellis ; // (BOTH) value to set ++ SINT16 phyBitaRsFlag ; // (BOTH) ++ SINT16 phyBitaFirstSubChannel ; // (BOTH) ++ SINT16 phyBitaMaxFineGainBump; // max fine gain bump ++ SINT16 phyBitaFineGainReduction; // fine gain reduction ++ SINT16 phyBitaMaxDownstreamPowerCutback; // max downstream power cutback ++ ++ SINT16 phySigTxGainReductionAt0kft; // upstream power reduction at 0 kft. ++ ++ SINT16 phyAgcPgaTarget ; // (BOTH) compare value ++ ++ UINT16 imsg413TxRate ; // (BOTH) Tx rate ++ SINT16 imsg413RsBytesAdjust ; // (BOTH) subtract value ++ UINT16 imsg413PstringMask ; // (POTS) Or'ed into pString[RMSGS1_INDEX][1] ++ SINT16 imsg413UsPilot ; // (BOTH)?? ++ UINT16 imsg413SkipPhaseOp ; // (POTS) ++ ++ UINT16 ctrlMsmSensitivity1 ; // (BOTH) value to set ++ UINT16 ctrlMsmTxPsdShape_f; // (BOTH) upstream spectral shaping flag ++ ++ UINT16 ovhdAocUsBswapReq_f ; // (BOTH)value to set ++ UINT16 ovhdAocScanMse_f ; // (BOTH)value to set ++ ++ SINT16 phyRevFullFirstBin ; // ++ SINT16 phyRevFullLastBin ; // ++ SINT16 phyRevFirstBin ; // ++ SINT16 phyRevLastBin ; // ++ SINT16 phyMedFirstBin ; // ++ SINT16 phyMedLastBin ; // ++ SINT16 phyMedOptionalLastBin; // Medley last bin - optional ++ ++ SINT16 phyEcDelayAdjustment; // Echo delay adjustment ++ SINT16 bSwapThresholdUpdate; // bSwapThresholdUpdate ++ SINT16 phyBitaFastPathExcessFineGainBump; // Used in phy_bita.c ++ SINT16 phyBitaSkipGapAdjustment; // Used in phy_bita.c ++ SINT16 usPilotInT1413ModeInMedley; // To send Upstream Pilot in medley in T1.413 mode. ++ ++ UINT32 profileVendorId ; // vendor id ++ ++} DEV_HOST_coData_t ; ++ ++typedef struct ++{ ++ DEV_HOST_coData_t * hostProfileBase_p; // base address of profile list ++} DEV_HOST_profileBase_t ; ++ ++ ++ ++// ----------------------------------- ++// Begin DSP/Host Mailbox Definitions. ++// ----------------------------------- ++ ++// The 3 values below can never be decreased, only increased. ++// If you increase one of the values, you must add more to the ++// initializers in "dev_host_interface.c". ++#define DEV_HOST_HOSTQUEUE_LENGTH 8 ++#define DEV_HOST_DSPQUEUE_LENGTH 8 ++#define DEV_HOST_TEXTQUEUE_LENGTH 8 ++ ++// Never access a struct of this typedef directly. Always go through the DEV_HOST_mailboxControl_t struct. ++typedef struct ++{ ++ UINT8 cmd; ++ UINT8 tag; ++ UINT8 param1; ++ UINT8 param2; ++} DEV_HOST_dspHostMsg_t; ++ ++// Never access a struct of this typedef directly. Always go through the DEV_HOST_mailboxControl_t struct. ++typedef struct ++{ ++ UINT32 msgPart1; ++ UINT32 msgPart2; ++} DEV_HOST_textMsg_t; ++ ++// The structure below has been ordered so that the Host need only write to ++// even byte locations to update the indices. ++ ++// The Buffer pointers in the struct below each point to a different ++// struct array that has an array size of one of the matching Queue Length ++// values defined above (DEV_HOST_HOSTQUEUE_LENGTH, DEV_HOST_DSPQUEUE_LENGTH, ++// and DEV_HOST_TEXTQUEUE_LENGTH). ++ ++typedef struct ++{ ++ UINT8 hostInInx; // Host write, DSP must never write except for init ++ UINT8 bDummy0[3]; // dummy bytes for explicit 32-bit alignment ++ UINT8 hostOutInx; // DSP write, Host must never write ++ UINT8 bDummy1[3]; // dummy bytes for explicit 32-bit alignment ++ UINT8 dspOutInx; // Host write, DSP must never write except for init ++ UINT8 bDummy2[3]; // dummy bytes for explicit 32-bit alignment ++ UINT8 dspInInx; // DSP write, Host must never write ++ UINT8 bDummy3[3]; // dummy bytes for explicit 32-bit alignment ++ UINT8 textInInx; // DSP write, Host must never write ++ UINT8 bDummy4[3]; // dummy bytes for explicit 32-bit alignment ++ UINT8 textOutInx; // Host write, DSP must never write except for init ++ UINT8 bDummy5[3]; // dummy bytes for explicit 32-bit alignment ++ DEV_HOST_dspHostMsg_t *hostMsgBuf_p; // pointer to Host Mailbox Buffer (Host writes the buffer) ++ DEV_HOST_dspHostMsg_t *dspMsgBuf_p; // pointer to DSP Mailbox Buffer (DSP writes the buffer) ++ DEV_HOST_textMsg_t *textMsgBuf_p; // pointer to Text Mailbox Buffer (DSP writes the buffer) ++} DEV_HOST_mailboxControl_t; ++ ++ ++//----------------------------------------- ++// Physical layer performance parameter ++//----------------------------------------- ++typedef struct ++{ ++ SINT32 hybridCost[5]; // Cost functions for hybrids (0: none, 1-4 hybrid options) ++ SINT32 usAvgGain; // upstream average gain in 20log10 (Q8) ++ SINT32 dsAvgGain; // downstream average gain in 20log10 (Q8) ++ UINT8 disableDspHybridSelect_f; // Allows host to disable the automatic hybrid selection by the DSP ++ UINT8 hostSelectHybridNum; // DSP will use this hybrid number only if DSP Select is disabled (values: 1-4) ++ UINT8 currentHybridNumUsed; // DSP indicates to the host the current hybrid number in use ++ UINT8 reserved1; // reserved for future use ++} DEV_HOST_phyPerf_t; ++ ++ ++/*********************************************************** ++ * The 3 structures below are used only for analog ++ * diagnostic functions originally defined in diag.h ++ * Moved here by Carlos A. Perez under J. Bergsagel request ++ ***********************************************************/ ++ ++/****************************************************************************/ ++/* Options for the Analog Diagnostic user input data structure */ ++/* (MUST be word aligned) */ ++/****************************************************************************/ ++typedef enum ++{ ++ ZERO_DIAG_OPT = 0, // dummy value for zero place-holder ++ NOISE_ONLY = 0x1, // diagnostic in noise only mode (on=1, off=0), disregard diagMode 0-4 ++ EXTERNAL_CO = 0x2, // operates against external CO (external=1, internal=0) ++ DIAG_AGC = 0x4, // agc selects gains control (agc=1, manual=0) ++ CROSSTALK_TEQ = 0x8, // crosstalk selects teq (crosstalk=1, manual=0) ++ LEAKY_TEQ = 0x10, // use leaky teq (on=1, off=0) ++ AUX_AMPS = 0x20, // auxamps (on=1, off=0) ++ BW_SELECT = 0x40, // change rxhpf/txlpf fc (modify=1, default=0) ++ DIAG_HYB_SELECT = 0x80, // change hybrid (modify=1, default=0) ++ POWER_DOWN_CDC = 0x100, // power down codec (power down=1, no power down=0) ++ ISDN_OP_MODE = 0x200, // operation mode (pots=0, isdn=1) ++ BYPASS_RXAF2 = 0x400, // Bypass except RXAF2 (on=1, off = 0) ++ TX_TEST_CONT = 0x800, // Continuous tx test (on=1, off=0) ++ TX_SCALE_MTT = 0x1000 // Scale tx signal for Mtt test (on=1, off=0) ++} DEV_HOST_diagAnlgOptionsVar_t; ++ ++/****************************************************************************/ ++/* Analog Diagnostic user input data structure (MUST be word align) */ ++/****************************************************************************/ ++ ++typedef struct ++{ ++ DEV_HOST_diagAnlgOptionsVar_t diagOption; // Other diagnostic optional settings ++ ++ UINT8 diagMode; // Performance diagnostic mode ++ UINT8 txMode; // transmit mode ++ UINT8 rxMode; // receive mode ++ UINT8 teqSp; // Select teq starting pt ++ UINT8 txDf1; // see dev_codec_filters.c and ++ UINT8 txDf2a; // dev_codec.h for filter coefficients ++ UINT8 txDf2b; ++ UINT8 rxDf4; ++ ++ UINT16 codingGain256Log2; // 256*Log2(coding gain) ++ UINT16 noiseMargin256Log2; // 256*Log2(noise margin) ++ ++ UINT16 rxPga1; // PGA1 ++ UINT16 rxPga2; // PGA2 ++ UINT16 rxPga3; // PGA3 ++ UINT16 anlgEq; // AEQ settings (dB/MHz) ++ ++ SINT8 pilotBin; // Select pilot subchannel ++ SINT8 txSwGain; // manual set for bridge tap loop ++ SINT8 tdw1Len; // TDW1 length - 0,2,4,8,16 ++ SINT8 tdw2Len; // TDW2 length - 0,2,4,8,16 ++ ++ UINT8 teqEcMode; // TEQ/EC mode ++ UINT8 hybrid; ++ UINT8 txAttn; // Codec Tx attenuation ++ UINT8 txGain; // Codec Tx gain (Sangam only) ++ ++ SINT16 txPda; //Codec Tx Digital gain/attn ++ UINT8 txTone[MAX_NUM_UPBINS]; // Turning tones on/off ++ // Still govern by lastbin ++ UINT16 rsvd; //for 32 bits alignment ++}DEV_HOST_diagAnlgInputVar_t; ++ ++/****************************************************************************/ ++/* Analog diagnostic output data structure */ ++/****************************************************************************/ ++typedef struct ++{ ++ PSINT32 rxSnr_p[2]; // Pointer to estimated snr ++ PSINT32 rxSubChannelCapacity_p[2]; // Pointer to estimated subchan capacity ++ PSINT32 rxSignalPower_p[2]; // Pointer to estimated signal power ++ PSINT32 rxNoisePower_p[2]; // Pointer to estimated noise power ++ PSINT32 rxAvg_p; // Pointer to average of rcvd signal ++ SINT32 chanCapacity[2] ; // Channel total capacity ++ SINT32 dataRate[2]; // Modem data rate (SNR) ++ SINT32 avgNoiseFloor; // Average noise floor ++ SINT16 snrGap256Log2; // 256*Log2(snr gap) ++ SINT16 rxPga1; // PGA1 ++ SINT16 rxPga2; // PGA2 ++ SINT16 rxPga3; // PGA3 ++ SINT16 anlgEq; // AEQ settings (dB/MHz) ++ SINT16 rsvd; ++}DEV_HOST_diagAnlgOutputVar_t; ++ ++ ++// Bit field structure that allows the host to mask off interrupt sources for possible DSP-to-Host interrupts. ++// Each bit represents a possible source of interrupts in the DSP code that might cause a DSP-to-Host ++// interrupt to occur. ++// This mask structure is not intended to show how interrupt sources in the DSP code correspond to the actual ++// DSP-to-Host interrupts. There could be multiple ways to cause an interrupt in the DSP code, but they all ++// eventually tie into one of the three possible DSP-to-Host interrupts. ++// The host should write a "1" to an individual bit when it wants to mask possible interrupts from that source. ++ ++// enum that represents individual bits in maskBitField1 ++typedef enum ++{ ++ ZERO_MASK1 = 0, // dummy value for zero place-holder ++ DSP_MSG_BUF = 0x1, // mask interrupts due to DSP-to-Host message mailbox updates ++ STATE_BIT_FIELD = 0x2, // mask interrupts due to changes in the modem state bit fields ++ DSP_HEARTBEAT = 0x4 // mask interrupts for the DSP hearbeat ++} DEV_HOST_intMask1_t; // this enum should only have 32 values in it (maximum). ++ ++// Add more "mask bit fields" at the end of this struct if you need more mask values ++typedef struct ++{ ++ DEV_HOST_intMask1_t maskBitField1; ++} DEV_HOST_hostInterruptMask_t; // this struct should only have 32 bits in it. ++ ++// Bit field structure that allows the host to determine the source(s) of DSP-to-Host interrupts in case ++// several of the interrupt sources get combined onto a single DSP-to-Host interrupt. ++// DSP will set each bit to a "1"as an interrupt occurs. ++// Host has the reponsibility to clear each bit to a "0" after it has determined the source(s) of interrupts. ++// Each source bit field in this struct will use the same enum typedef that matches the corresponding mask ++// bit field in "DEV_HOST_hostInterruptMask_t" ++typedef struct ++{ ++ DEV_HOST_intMask1_t sourceBitField1; ++} DEV_HOST_hostInterruptSource_t; ++ ++ ++// -------------------------- ++// Begin bitswap definitions. ++// -------------------------- ++ ++// bitSwapSCnt contains the superframe to perform bit swap ++// The entries must be ordered so that the first group only contains bit change commands ++// The other entries may contain power adjustment instructions and must be ++// written with something. NOP (0) is an available instruction. ++typedef struct ++{ ++ PUINT8 fineGains_p; // pointer to bng string, needed to check fine gains for powerswap ++ UINT8 bitSwapNewIndices[6]; // Bin before bitSwapBin to process ++ UINT8 bitSwapCmd[6]; // Bitswap command for bitSwapBin ++ UINT8 bitSwapBin[6]; // bin to modify ++ UINT8 bitSwapSCnt; // Superframe count on which to perform bitswap ++ UINT8 bitSwapEnabled; // bitSwapEnabled ++} DEV_HOST_dspBitSwapDef_t; ++ ++ ++// --------------------------- ++// Begin ATM BERT definitions. ++// --------------------------- ++ ++// Structure used for ATM Idle Cells based bit error rate computation. ++typedef struct ++{ ++ UINT8 atmBertFlag; // Feature enable/disable flag (Host write) ++ UINT8 dummy1; ++ UINT8 dummy[2]; // Dummy bytes for 32-bit alignment ++ UINT32 bitCountLow; // Low part of 64-bit BERT bit count (DSP write) ++ UINT32 bitCountHigh; // High part of 64-bit BERT bit count (DSP write) ++ UINT32 bitErrorCountLow; // Low part of 64-bit BERT bit count (DSP write) ++ UINT32 bitErrorCountHigh;// High part of 64-bit BERT bit count (DSP write) ++} DEV_HOST_atmDsBert_t; ++ ++ ++// ------------------------------------ ++// Misc. modem environment definitions. ++// ------------------------------------ ++ ++ ++typedef struct ++{ ++ SINT16 subStateIndex; // Index that signifies datapump substate. (DSP write) ++ UINT8 externalBert; // Turn on/off external BERT interface. 0 = OFF; 1 = ON. (Host write) ++ UINT8 usBertPattern; // BERT pattern for US TX data. 0 = 2^15-1; 1 = 2^23-1. (Host write) ++ UINT8 overrideDslLinkLed_f; // Overrides DSP operation of the DSL_LINK LED. (Host write) ++ // 0 = DSP is in control; 1 = Host is in control. ++ UINT8 dslLinkLedState_f; // DSL_LINK LED state when override flag has been set. (Host write) ++ // DSL_LINK LED will be updated with this value once per frame. ++ // LED is active-low: 0 = ON, 1 = OFF. ++ UINT8 overrideDslActLed_f; // Overrides DSP operation of the DSL_ACT LED. (Host write) ++ // 0 = DSP is in control; 1 = Host is in control. ++ UINT8 dslActLedState_f; // DSL_ACT LED state when override flag has been set. (Host write) ++ // DSL_ACT LED will be updated with this value once per frame. ++ // LED is active-low: 0 = ON, 1 = OFF. ++ UINT8 dGaspLprIndicator_f; // How LPR signal (GPIO[0]) is to be interpreted. (Host write) ++ // 0 = LPR is active-low; 1 = LPR is active-high. ++ UINT8 overrideDspLprGasp_f; // Overrides DSP detection of LPR signal to send out DGASP. (Host write) ++ // 0 = DSP detects LPR; 1 = Host detects LPR and sends "HOST_DGASP" to DSP. ++ UINT8 pcbEnabled; // DS power cut back ++ UINT8 maxAvgFineGainCtrl_f; // If maxAvgFineGainCtrl_f == 0, then the datapump controls the maximum average fine gain value. ++ // If maxAvgFineGainCtrl_f == 1, then the host controls the maximum average fine gain value. ++ UINT32 reasonForDrop; // This field will tell the host what might be the reason for a dropped connection. ++ SINT16 maxAverageFineGain; // When maxAvgFineGainCtrl_f == 1, the value in maxAverageFineGain is the maximum average fine gain level in 256log2 units. ++ UINT8 reserved1; // These are for 32-bit alignment. ++ UINT8 reserved2; // These are for 32-bit alignment. ++} DEV_HOST_modemEnvPublic_t; ++ ++ ++// ----------------------------- ++// Generic structure definition. ++// ----------------------------- ++ ++typedef struct ++{ ++ PSINT8 parameter1_p; ++ PSINT16 parameter2_p; ++ PSINT32 parameter3_p; ++ PUINT8 parameter4_p; ++ PUINT16 parameter5_p; ++ PUINT32 parameter6_p; ++} DEV_HOST_genericStructure_t; ++ ++ ++// ------------------------------ ++// Begin G.hs buffer definitions. ++// ------------------------------ ++ ++typedef struct ++{ ++ UINT8 txBuf[64]; // G.hs xmt buffer ++} DEV_HOST_ghsDspTxBufDef_t; ++ ++ ++typedef struct ++{ ++ UINT8 rxBuf[80]; // G.hs rcv buffer ++} DEV_HOST_ghsDspRxBufDef_t; ++ ++// ----------------------------------------- ++// Begin Constellation Display definitions. ++// ----------------------------------------- ++ ++typedef struct ++{ ++ UINT32 consDispStartAddr; // Host write ++ UINT32 consDispCurrentAddr; // Host write ++ UINT32 consDispBufLen; // Constellation Buffer Length ++ UINT32 consDispBin; // Host write, DS band only ++} DEV_HOST_consBufDef_t; ++ ++typedef struct ++{ ++ PSINT16 buffer1_p; //DSP write ++ PSINT16 buffer2_p; //DSP write ++} DEV_HOST_snrBuffer_t; ++ ++// -------------------------------------------------------------------------------------- ++// Typedef to be used for the DEV_HOST_dspOamSharedInterface_s struct of pointers ++// (this is used in dev_host_interface.c). ++// NOTE: This struct of pointers is NEVER to be referenced anywhere else in the DSP code. ++// IMPORTANT: Only pointers to other structs go into this struct !! ++// -------------------------------------------------------------------------------------- ++typedef struct ++{ ++ DEV_HOST_hostIntfcVersionDef_t *hostIntfcVersion_p; ++ DEV_HOST_dspVersionDef_t *datapumpVersion_p; ++ DEV_HOST_modemStateBitField_t *modemStateBitField_p; ++ DEV_HOST_dspWrNegoParaDef_t *dspWriteNegoParams_p; ++ DEV_HOST_oamWrNegoParaDef_t *oamWriteNegoParams_p; ++ DEV_HOST_raMsgsDef_t *raMsgs_p; ++ DEV_HOST_dspWrSuperFrameCntDef_t *dspWriteSuperFrameCnt_p; ++ DEV_HOST_msg_t *atucMsg_p; ++ DEV_HOST_msg_t *aturMsg_p; ++ DEV_HOST_dspWrSharedTables_t *dspWrSharedTables_p; ++ DEV_HOST_olayDpDef_t *olayDpParms_p; ++ DEV_HOST_eocVarDef_t *eocVar_p; ++ DEV_HOST_clearEocVarDef_t *clearEocVar_p; ++ DEV_HOST_modemStatsDef_t *modemStats_p; ++ DEV_HOST_atmStats_t *atmStats_p; ++ DEV_HOST_mailboxControl_t *dspHostMailboxControl_p; ++ DEV_HOST_phyPerf_t *phyPerf_p; ++ DEV_HOST_diagAnlgInputVar_t *analogInputVar_p; ++ DEV_HOST_diagAnlgOutputVar_t *analogOutputVar_p; ++ DEV_HOST_hostInterruptMask_t *hostInterruptMask_p; ++ DEV_HOST_profileBase_t *profileList_p; ++ DEV_HOST_hostInterruptSource_t *hostInterruptSource_p; ++ DEV_HOST_dspBitSwapDef_t *dspBitSwapDstrm_p; ++ DEV_HOST_dspBitSwapDef_t *dspBitSwapUstrm_p; ++ DEV_HOST_atmDsBert_t *atmDsBert_p; ++ DEV_HOST_modemEnvPublic_t *modemEnvPublic_p; ++ DEV_HOST_genericStructure_t *genericStructure1_p; ++ DEV_HOST_genericStructure_t *genericStructure2_p; ++ DEV_HOST_ghsDspTxBufDef_t *ghsDspTxBuf_p; ++ DEV_HOST_ghsDspRxBufDef_t *ghsDspRxBuf_p; ++ DEV_HOST_consBufDef_t *consDispVar_p; ++ DEV_HOST_snrBuffer_t *snrBuffer_p; ++} DEV_HOST_dspOamSharedInterface_t; ++ ++ ++// --------------------------------------------------------------------------------- ++// Typedef to be used for the pointer to the DEV_HOST_dspOamSharedInterface_s struct ++// of pointers (this is used in dev_host_interface.c). ++// --------------------------------------------------------------------------------- ++typedef DEV_HOST_dspOamSharedInterface_t *DEV_HOST_dspOamSharedInterfacePtr_t; ++ ++#endif +diff -urN linux.old/drivers/atm/sangam_atm/dev_host_verdef.h linux.dev/drivers/atm/sangam_atm/dev_host_verdef.h +--- linux.old/drivers/atm/sangam_atm/dev_host_verdef.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/dev_host_verdef.h 2005-08-23 04:46:50.091844608 +0200 +@@ -0,0 +1,102 @@ ++#ifndef __DEV_HOST_VERDEF_H__ ++#define __DEV_HOST_VERDEF_H__ 1 ++ ++//******************************************************************** ++//* ++//* DMT-BASE ADSL MODEM PROGRAM ++//* TEXAS INSTRUMENTS PROPRIETARTY INFORMATION ++//* AMATI CONFIDENTIAL PROPRIETARY ++//* ++//* (c) Copyright April 1999, Texas Instruments Incorporated. ++//* All Rights Reserved. ++//* ++//* Property of Texas Instruments Incorporated and Amati Communications Corp. ++//* ++//* Restricted Rights - Use, duplication, or disclosure is subject to ++//* restrictions set forth in TI's and Amati program license agreement and ++//* associated documentation ++//* ++//********************************************************************* ++//* ++//* FILENAME: dev_host_verdef.h ++//* ++//* ABSTRACT: This file defines the version structure ++//* ++//* TARGET: Non specific. ++//* ++//* TOOLSET: Non specific. ++//* ++//* ACTIVATION: ++//* ++//* HISTORY: DATE AUTHOR DESCRIPTION ++//* 04/29/99 FLW Created ++//* 01/17/00 Barnett Mod's in support of merging NIC ++//* hardware rev 6/7 T1.413 codebases. ++//* 01/21/00 Wagner derfmake mods ++//* 05/11/00 Barnett hardware_rev is a 2 char string. ++//* 07/24/00 Barnett Rework as part of host interface redesign. ++//* 11/29/00 Hunt added chipset_id2 ++//* 03/30/01 Barnett Prefixed all public elements with DSPDP_. ++//* This insures uniqueness of names that might ++//* match host names by coincidence. ++//* 03/30/01 Barnett Added DSPDP_Host_VersionDef to facilitate ++//* representing a version id for the host i/f ++//* separate from the firmware version id as ++//* a courtesy to the host. ++//* 07/23/01 JEB Changed name from verdef_u.h to dpsys_verdef.h ++//* 04/12/02 Barnett Make timestamp unsigned 32-bit field. ++//* Generalizes for all kinds of hosts. ++//* 11/15/02 JEB Changed name from dpsys_verdef.h to dev_host_verdef.h ++//* Updated structs according to coding guidelines ++//* 12/16/02 JEB Renamed some struct elements for new usage in Ax7 ++//* 01/21/03 MCB Implemented Ax7 UNIT-MODULE modular software framework. ++//* 03/19/03 JEB Added back in "bugFix" elements into each struct type. ++//* Rearranged elements. ++//* ++//******************************************************************** ++ ++#include "env_def_typedefs.h" ++ ++#define DSPDP_FLAVOR_NEWCODES 0xFF // Other values are valid old-style flavors ++ ++// ------------------------------ ++// ------------------------------ ++// Begin DSP version definitions. ++// ------------------------------ ++// ------------------------------ ++ ++typedef struct ++{ ++ UINT32 timestamp; // Number of seconds since 01/01/1970 ++ UINT8 major; // Major "00".00.00.00 revision nomenclature ++ UINT8 minor; // Minor 00."00".00.00 revision nomenclature ++ UINT8 bugFix; // Bug Fix 00.00."00".00 revision nomenclature ++ UINT8 buildNum; // Build Number 00.00.00."00" revision nomenclature ++ UINT8 netService; // Network service identifier ++ UINT8 chipsetGen; // chipset generation ++ UINT8 chipsetId; // chipset identifier ++ UINT8 chipsetId2; // second byte for "RV" chipset et al. ++ UINT8 hardwareRev1; // hardware revision, 1st char ++ UINT8 hardwareRev2; // hardware revision, 2nd char ++ UINT8 featureCode; // feature code ++ UINT8 dummy1; // dummy byte for explicit 32-bit alignment ++} DEV_HOST_dspVersionDef_t; ++ ++// ------------------------------- ++// ------------------------------- ++// Begin host version definitions. ++// ------------------------------- ++// ------------------------------- ++ ++typedef struct ++{ ++ UINT8 major; // Major "00".00.00.00 revision nomenclature ++ UINT8 minor; // Minor 00."00".00.00 revision nomenclature ++ UINT8 bugFix; // Bug Fix 00.00."00".00 revision nomenclature ++ UINT8 buildNum; // Build Number 00.00.00."00" revision nomenclature ++ UINT8 netService; // Network service identifier ++ UINT8 dummy[3]; // dummy bytes for explicit 32-bit alignment ++} DEV_HOST_hostIntfcVersionDef_t; ++ ++ ++#endif // __DEV_HOST_VERDEF_H__ +diff -urN linux.old/drivers/atm/sangam_atm/dsl_hal_api.c linux.dev/drivers/atm/sangam_atm/dsl_hal_api.c +--- linux.old/drivers/atm/sangam_atm/dsl_hal_api.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/dsl_hal_api.c 2005-08-23 04:46:50.095844000 +0200 +@@ -0,0 +1,3339 @@ ++/******************************************************************************* ++* FILE PURPOSE: DSL Driver API functions for Sangam ++* ++******************************************************************************** ++* FILE NAME: dsl_hal_basicapi.c ++* ++* DESCRIPTION: ++* Contains basic DSL HAL APIs for Sangam ++* ++* ++* (C) Copyright 2001-02, Texas Instruments, Inc. ++* History ++* Date Version Notes ++* 06Feb03 0.00.00 RamP Original Version Created ++* 10Mar03 0.00.01 RamP Initial Revision for Modular Code Branch ++* 19Mar03 0.00.02 RamP Fixed DSL and DSP Version API Structures ++* 20Mar03 0.00.03 RamP Changed byteswap function names ++* 21Mar03 0.00.03 RamP/ZT Malloc for DSP f/w done in dslStartup ++* 25Mar03 0.00.04 RamP Removed statistics used only by SWTC ++* Created Checkpoint 3 ++* 26Mar03 0.00.05 RamP Added Memory allocation for fwimage in ++* dslStartup function. ++* 07Apr03 0.00.06 RamP Implemented new error reporting scheme ++* Changed Commenting to C style only ++* 09Apr03 0.00.07 RamP Reorganized code to delete POST_SILICON ++* 10Apr03 0.00.08 RamP Removed ptidsl from loadFWImage function ++* moved size and fwimage initialization to ++* dslStartup function ++* 14Apr03 0.00.09 RamP Moved modemStateBitField processing to a ++* support function; deleted stateHistory ++* renamed the REG32 macro ++* 15Apr03 0.00.10 RamP Changed firmware allocate to shim_ ++* osAllocateVMemory function ++* 15Apr03 0.00.11 RamP Changed host version number to 07.00.00.01 ++* 16Apr03 0.00.12 RamP Modified return condition on dslShutdown ++* 16Apr03 0.00.13 RamP Changed host version number to 07.00.00.02 ++* 21Apr03 0.01.00 RamP Cleaned up dslShutdown function ++* Added new function calls to allocate ++* (Alpha) /free overlay pages for different OS ++* Fixed typecasting for allocate/free fxns ++* Added Interrupt Acknowledge logic ++* 22Apr03 0.01.01 RamP Moved acknowledgeInterrupt into api ++* Added static global for intr source ++* 24Apr03 0.01.02 RamP Added processing for OVERLAY_END in ++* DSP message handlers, verified crc32 ++* recovery for overlays ++* 28Apr03 0.01.03 RamP Removed global variable intrSource ++* Added parameter to handleInterrupt fxn ++* (Alpha Plus) to indicate interrupt source ++* Changed version number to 01.00.01.00 ++* Fixed setTrainingMode function problem ++* 07May03 0.01.04 RamP Removed delineation state check in ++* message handling functions, added more ++* safety for setting lConnected in TC_SYNC ++* Changed version number to 01.00.01.01 ++* 14May03 0.01.05 RamP Added 3 Switchable Hybrid APIs ++* Added additional statistics us/ds TxPower, ++* us margin,attenuation, us/ds bitallocation ++* moved versioning to dsl_hal_version.h ++* 14May03 0.01.06 RamP Fixed problem with CMsgs2 parsing ++* 20May03 0.01.07 RamP Added Inner/Outer pair API support. Added ++* dying gasp message. ++* 29May03 0.01.08 ZT/RamP Added memory optimizations for overlay pages ++* and coProfiles; added functions to free, ++* reload overlays and profiles ++* 04Jun03 0.01.09 RamP Added tick counters, fail states reporting ++* Made statistics fixes for higher data rates ++* Added Margin per tone to statistics ++* Added configuration checks for trellis/FEC ++* 06Jun03 0.01.10 RamP Added LED, STM Bert, dGasp LPR Config APIs ++* Modified interrupt acknowledge logic ++* Added current hybrid flag as statistic ++* 09Jun03 0.01.11 RamP Added function to send dying Gasp to Modem ++* fixed problem with reading OamNegoPara var ++* (Beta) fixed problem with reading current config ++* Added function to configure ATM Bert ++* fixed memory leak due to coProfiles ++* Added us/ds R/S FEC statistics ++* Added additional config capability for LED ++* fixed problem in free memory for CO profiles ++* 18Jul03 0.01.12 RamP Fixed problem with reading modemEnv structure ++* affects LED, DGaspLpr APIs ++* Sending Dying Gasp from shutdown function ++* 01Aug03 0.01.13 RamP Added preferred training mode to statistics ++* 13Aug03 0.01.14 MCB Set rev id for D3/R1.1 (ADSL2). ++* 21Aug03 0.01.15 RamP Added g.hs and aoc bitswap message gathering ++* Added new references to bits n gains table ++* Decoupled modem idle/retrain from pair select ++* Added line length and gross gain to statistics ++* 29Sep03 0.01.16 RamP Replaced advcfg function calls with support ++* module function switches ++* 01Oct03 0.01.17 RamP Added enum translation to set training mode ++* & to read statistics ++* 08Oct03 0.01.18 RamP Fixed problems with usTxPower statistic in ++* Annex B target, fixed problem with Trellis ++* 12Oct03 0.01.19 RamP Added API calls to gather ADSL2 Messages ++* 29Oct03 0.01.20 RamP Restored TC_SYNC detect logic ++* 30Oct03 0.01.21 RamP Removed Scaling factor for adsl2DSConRate ++* Setting Showtime state upon DSP_ACTIVE ++* 14Nov03 0.01.22 RamP Fixed scaling for usTxPower & dsTxPower ++* 14Nov03 0.01.23 RamP Added logic to gather CRates1/RRates1 ++* by parsing DSP_CRATES1 ++* 20Nov03 0.01.24 RamP Added generic & interface Read ++* and Write functions to read from ++* DSP - Host Interface ++* 24Nov03 0.01.25 RamP Modified interface Read/Write functions ++* to seperate element offsets from pointers ++* 19Dec03 0.01.26 RamP Modified pointer accessing problems with ++* block read functions ++* 26Dec03 0.01.27 RamP Made ghsIndex a local variable & added ++* check to avoid buffer overflow ++* 30Dec03 0.01.28 RamP Added generic mailbox command function ++*******************************************************************************/ ++#include "dsl_hal_register.h" ++#include "dsl_hal_support.h" ++#include "dsl_hal_logtable.h" ++#include "dsl_hal_version.h" ++ ++static unsigned int hybrid_selected; ++static unsigned int showtimeFlag = FALSE; ++ ++#ifdef PRE_SILICON ++/*********************************************/ ++/* Base Addresses */ ++/*********************************************/ ++#define DEV_MDMA_BASE 0x02000500 ++ ++/*********************************************/ ++/* MC DMA Control Registers in DSL */ ++/*********************************************/ ++ ++#define DEV_MDMA0_SRC_ADDR (DEV_MDMA_BASE + 0x00000000) ++#define DEV_MDMA0_DST_ADDR (DEV_MDMA_BASE + 0x00000004) ++#define DEV_MDMA0_CTL_ADDR (DEV_MDMA_BASE + 0x00000008) ++#define DEV_MDMA1_SRC_ADDR (DEV_MDMA_BASE + 0x00000040) ++#define DEV_MDMA1_DST_ADDR (DEV_MDMA_BASE + 0x00000044) ++#define DEV_MDMA1_CTL_ADDR (DEV_MDMA_BASE + 0x00000048) ++#define DEV_MDMA2_SRC_ADDR (DEV_MDMA_BASE + 0x00000080) ++#define DEV_MDMA2_DST_ADDR (DEV_MDMA_BASE + 0x00000084) ++#define DEV_MDMA2_CTL_ADDR (DEV_MDMA_BASE + 0x00000088) ++#define DEV_MDMA3_SRC_ADDR (DEV_MDMA_BASE + 0x000000C0) ++#define DEV_MDMA3_DST_ADDR (DEV_MDMA_BASE + 0x000000C4) ++#define DEV_MDMA3_CTL_ADDR (DEV_MDMA_BASE + 0x000000C8) ++ ++#define DEV_MDMA0_SRC (*((volatile UINT32 *) DEV_MDMA0_SRC_ADDR)) ++#define DEV_MDMA0_DST (*((volatile UINT32 *) DEV_MDMA0_DST_ADDR)) ++#define DEV_MDMA0_CTL (*((volatile UINT32 *) DEV_MDMA0_CTL_ADDR)) ++#define DEV_MDMA1_SRC (*((volatile UINT32 *) DEV_MDMA1_SRC_ADDR)) ++#define DEV_MDMA1_DST (*((volatile UINT32 *) DEV_MDMA1_DST_ADDR)) ++#define DEV_MDMA1_CTL (*((volatile UINT32 *) DEV_MDMA1_CTL_ADDR)) ++#define DEV_MDMA2_SRC (*((volatile UINT32 *) DEV_MDMA2_SRC_ADDR)) ++#define DEV_MDMA2_DST (*((volatile UINT32 *) DEV_MDMA2_DST_ADDR)) ++#define DEV_MDMA2_CTL (*((volatile UINT32 *) DEV_MDMA2_CTL_ADDR)) ++#define DEV_MDMA3_SRC (*((volatile UINT32 *) DEV_MDMA3_SRC_ADDR)) ++#define DEV_MDMA3_DST (*((volatile UINT32 *) DEV_MDMA3_DST_ADDR)) ++#define DEV_MDMA3_CTL (*((volatile UINT32 *) DEV_MDMA3_CTL_ADDR)) ++ ++/* MDMA control bits */ ++ ++#define DEV_MDMA_START 0x80000000 ++#define DEV_MDMA_STOP 0x00000000 ++#define DEV_MDMA_STATUS 0x40000000 ++#define DEV_MDMA_DST_INC 0x00000000 ++#define DEV_MDMA_DST_FIX 0x02000000 ++#define DEV_MDMA_SRC_INC 0x00000000 ++#define DEV_MDMA_SRC_FIX 0x00800000 ++#define DEV_MDMA_BURST1 0x00000000 ++#define DEV_MDMA_BURST2 0x00100000 ++#define DEV_MDMA_BURST4 0x00200000 ++ ++#define DEV_MDMA_LEN_SHF 2 ++#define DEV_MDMA_LEN_MASK 0x0000FFFF ++ ++#define DMA0 0 ++#define DMA1 1 ++#define DMA2 2 ++#define DMA3 3 ++#endif ++#ifdef DMA ++SINT32 getDmaStatus(UINT32 mask) ++{ ++ if(!(IFR & mask)) ++ { ++ return DSLHAL_ERROR_NO_ERRORS; ++ } ++ else ++ { ++ ICR = mask ; ++ return 1 ; ++ } ++} ++ ++void programMdma(UINT32 dma, UINT32 source, UINT32 destination, UINT32 length, UINT32 wait) ++{ ++ volatile UINT32 statusMask ; ++ ++ switch(dma) ++ { ++ case DMA0: ++ { ++ DEV_MDMA0_SRC = source ; ++ DEV_MDMA0_DST = destination ; ++ DEV_MDMA0_CTL = (DEV_MDMA_START | DEV_MDMA_DST_INC | DEV_MDMA_SRC_INC | ++ DEV_MDMA_BURST1 | (length << DEV_MDMA_LEN_SHF)) ; ++ statusMask = 0x00000010 ; ++ } ++ break ; ++ case DMA1: ++ { ++ DEV_MDMA1_SRC = source ; ++ DEV_MDMA1_DST = destination ; ++ DEV_MDMA1_CTL = (DEV_MDMA_START | DEV_MDMA_DST_INC | DEV_MDMA_SRC_INC | ++ DEV_MDMA_BURST1 | (length << DEV_MDMA_LEN_SHF)) ; ++ statusMask = 0x00000020 ; ++ } ++ break ; ++ case DMA2: ++ { ++ DEV_MDMA2_SRC = source ; ++ DEV_MDMA2_DST = destination ; ++ DEV_MDMA2_CTL = (DEV_MDMA_START | DEV_MDMA_DST_INC | DEV_MDMA_SRC_INC | ++ DEV_MDMA_BURST1 | (length << DEV_MDMA_LEN_SHF)) ; ++ statusMask = 0x00000040 ; ++ } ++ break ; ++ case DMA3: ++ { ++ DEV_MDMA3_SRC = source ; ++ DEV_MDMA3_DST = destination ; ++ DEV_MDMA3_CTL = (DEV_MDMA_START | DEV_MDMA_DST_INC | DEV_MDMA_SRC_INC | ++ DEV_MDMA_BURST1 | (length << DEV_MDMA_LEN_SHF)) ; ++ statusMask = 0x00000080 ; ++ } ++ break ; ++ ++ } ++ ++ if(wait) ++ { ++ while(!(getDmaStatus(statusMask))) ; ++ } ++ ++} ++#endif ++ ++ ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_api_dslStartup ++* ++******************************************************************************************* ++* DESCRIPTION: Entry point to initialize and load ax5 daughter board ++* ++* INPUT: PITIDSLHW_T *ppIHw ++* ++* RETURN: 0 --succeeded ++* 1 --Failed ++* ++*****************************************************************************************/ ++ ++int dslhal_api_dslStartup(PITIDSLHW_T *ppIHw) ++{ ++ ++ ITIDSLHW_T *ptidsl; ++ int i; ++ int rc; ++ dprintf(4,"dslhal_api_dslStartup() NEW 1\n"); ++ ++ ptidsl=(ITIDSLHW_T *)shim_osAllocateMemory(sizeof(ITIDSLHW_T)); ++ if(ptidsl==NULL) ++ { ++ dprintf(1, "unable to allocate memory for ptidsl\n"); ++ return 1; ++ } ++ *ppIHw=ptidsl; ++ shim_osZeroMemory((char *) ptidsl, sizeof(ITIDSLHW_T)); ++ ++ /* Unreset the ADSL Subsystem */ ++ rc=dslhal_support_unresetDslSubsystem(); ++ if(rc) ++ { ++ dprintf(1, "unable to reset ADSL Subsystem \n"); ++ shim_osFreeMemory((void *) ptidsl, sizeof(ITIDSLHW_T)); ++ return DSLHAL_ERROR_UNRESET_ADSLSS; ++ } ++ ptidsl->fwimage = shim_osAllocateVMemory(DSP_FIRMWARE_MALLOC_SIZE); ++ if(!ptidsl->fwimage) ++ { ++ dprintf(1,"Failed to Allocate Memory for DSP firmware binary \n"); ++ return DSLHAL_ERROR_FIRMWARE_MALLOC; ++ } ++ /* read firmware file from flash */ ++ rc=shim_osLoadFWImage(ptidsl->fwimage); ++ if(rc<0) ++ { ++ dprintf(1, "unable to get fw image\n"); ++ shim_osFreeVMemory((void *)ptidsl->fwimage,DSP_FIRMWARE_MALLOC_SIZE); ++ shim_osFreeMemory((void *) ptidsl, sizeof(ITIDSLHW_T)); ++ return DSLHAL_ERROR_NO_FIRMWARE_IMAGE; ++ } ++ else ++ { ++ ptidsl->imagesize = rc; ++ } ++ /* Compute the CRC checksum on the image and validate the image */ ++ ++ /* Validate the image in the RAM */ ++ ++ /* load fw to DSP */ ++ ++ if(dslhal_support_hostDspCodeDownload(ptidsl)) ++ { ++ dprintf(0,"dsp load error\n"); ++ for(i=0; i<NUM_PAGES; i++) ++ { ++ if(ptidsl->olayDpPage[i].PmemStartWtAddr !=NULL) ++ { ++ shim_osFreeDmaMemory((void *) ptidsl->olayDpPage[i].PmemStartWtAddr, ++ ptidsl->olayDpPage[i].OverlayXferCount); ++ } ++ } ++ if(ptidsl->coProfiles.PmemStartWtAddr != NULL) ++ shim_osFreeDmaMemory((void *)ptidsl->coProfiles.PmemStartWtAddr, ptidsl->coProfiles.OverlayXferCount); ++ if(ptidsl->constDisplay.PmemStartWtAddr != NULL) ++ shim_osFreeDmaMemory((void *)ptidsl->constDisplay.PmemStartWtAddr, ptidsl->constDisplay.OverlayXferCount); ++ shim_osFreeVMemory((void *)ptidsl->fwimage,DSP_FIRMWARE_MALLOC_SIZE); ++ shim_osFreeMemory((void *) ptidsl, sizeof(ITIDSLHW_T)); ++ return DSLHAL_ERROR_CODE_DOWNLOAD; ++ } ++ ++ /* set flag to indicated overlay pages are loaded */ ++ ptidsl->bOverlayPageLoaded = 1; ++ /* set auto retrain to 1 to disble the overlay page reload */ ++ ptidsl->bAutoRetrain = 1; ++ ++ /* unreset Raptor */ ++ /* change this to new function */ ++ /* This function should basically bring DSP out of reset bit 23 of PRCR */ ++ /* Function is ready but bypassed for Pre-Silicon */ ++ ++ rc=dslhal_support_unresetDsp(); ++ if (rc) ++ { ++ dprintf(0,"unable to bring DSP out of Reset\n"); ++ for(i=0; i<NUM_PAGES; i++) ++ { ++ if(ptidsl->olayDpPage[i].PmemStartWtAddr !=NULL) ++ { ++ shim_osFreeDmaMemory((void *) ptidsl->olayDpPage[i].PmemStartWtAddr, ++ ptidsl->olayDpPage[i].OverlayXferCount); ++ } ++ } ++ if(ptidsl->coProfiles.PmemStartWtAddr != NULL) ++ shim_osFreeDmaMemory((void *)ptidsl->coProfiles.PmemStartWtAddr, ptidsl->coProfiles.OverlayXferCount); ++ if(ptidsl->constDisplay.PmemStartWtAddr != NULL) ++ shim_osFreeDmaMemory((void *)ptidsl->constDisplay.PmemStartWtAddr, ptidsl->constDisplay.OverlayXferCount); ++ shim_osFreeVMemory((void *)ptidsl->fwimage,DSP_FIRMWARE_MALLOC_SIZE); ++ shim_osFreeMemory((void *) ptidsl, sizeof(ITIDSLHW_T)); ++ return DSLHAL_ERROR_UNRESET_DSP; ++ } ++ shim_osFreeVMemory((void *)ptidsl->fwimage,DSP_FIRMWARE_MALLOC_SIZE); ++ dprintf(4,"dslhal_api_dslStartup() done\n"); ++ ++ /* Add the code to initialize the host interface variables */ ++ /* Add code to tickle the host interface */ ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_dslShutdown ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: routine to shutdown ax5 modem and free the resource ++ * ++ * INPUT: tidsl_t *ptidsl ++ * ++ * RETURN: NULL ++ * ++ * ++ *****************************************************************************************/ ++ ++int dslhal_api_dslShutdown(tidsl_t *ptidsl) ++{ ++ int rc= DSLHAL_ERROR_NO_ERRORS; ++ int i; ++ ++ dprintf(5, "dslhal_api_dslShutdown\n"); ++ rc = dslhal_support_writeHostMailbox(ptidsl, HOST_DSLSS_SHUTDOWN, 0, 0, 0); ++ if(rc) ++ { ++ dprintf(1, " unable to reset DSP \n"); ++ rc = DSLHAL_ERROR_RESET_DSP; ++ } ++ /* DSP need 50 ms to send out the message*/ ++ ++ shim_osClockWait(60 * 1000); ++ ++ rc = dslhal_support_writeHostMailbox(ptidsl, HOST_DGASP, 0, 0, 0); ++ ++ /* free memory allocated*/ ++ ++ for(i=0; i<NUM_PAGES; i++) ++ { ++ if(ptidsl->olayDpPage[i].PmemStartWtAddr !=NULL) ++ { ++ shim_osFreeDmaMemory((void *) ptidsl->olayDpPage[i].PmemStartWtAddr, ++ ptidsl->olayDpPage[i].OverlayXferCount); ++ } ++ } ++ if(ptidsl->coProfiles.PmemStartWtAddr != NULL) ++ shim_osFreeDmaMemory((void *)ptidsl->coProfiles.PmemStartWtAddr, ptidsl->coProfiles.OverlayXferCount); ++ if(ptidsl->constDisplay.PmemStartWtAddr != NULL) ++ shim_osFreeDmaMemory((void *)ptidsl->constDisplay.PmemStartWtAddr, ptidsl->constDisplay.OverlayXferCount); ++ shim_osFreeMemory((void *)ptidsl, sizeof(tidsl_t)); ++ rc = dslhal_support_resetDsp(); ++ if(rc) ++ { ++ dprintf(1, " unable to reset ADSL subsystem \n"); ++ rc = DSLHAL_ERROR_RESET_DSP; ++ } ++ rc = dslhal_support_resetDslSubsystem(); ++ if(rc) ++ { ++ dprintf(1, " unable to reset ADSL subsystem \n"); ++ rc = DSLHAL_ERROR_RESET_ADSLSS; ++ } ++return rc; ++} ++ ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_api_getDslHalVersion ++* ++******************************************************************************************* ++* DESCRIPTION: This routine supply DSL Driver version. ++* ++* INPUT: tidsl_t * ptidsl ++* void *pVer, DSP Driver Version Pointer ++* ++* RETURN: 0 --succeeded ++* 1 --Failed ++* Note: See verdef_u.h for version structure definition. ++*****************************************************************************************/ ++ ++void dslhal_api_getDslHalVersion(void *pVer) ++{ ++ dslVer *pVersion; ++ pVersion = (dslVer *)pVer; ++ pVersion->major = (unsigned char) DSLHAL_VERSION_MAJOR; ++ pVersion->minor = (unsigned char) DSLHAL_VERSION_MINOR; ++ pVersion->bugfix = (unsigned char) DSLHAL_VERSION_BUGFIX; ++ pVersion->buildNum = (unsigned char) DSLHAL_VERSION_BUILDNUM; ++ pVersion->timeStamp = (unsigned char) DSLHAL_VERSION_TIMESTAMP; ++} ++ ++/******************************************************************************************** ++ * FUNCTION NAME: dslhal_api_pollTrainingStatus() ++ * ++ ********************************************************************************************* ++ * DESCRIPTION: code to decode modem status and to start modem training ++ * Input: tidsl_t *ptidsl ++ * ++ * Return: modem status ++ * -1 failed ++ * ++ ********************************************************************************************/ ++ ++int dslhal_api_pollTrainingStatus(tidsl_t *ptidsl) ++{ ++ int cmd; ++ int tag; ++ int parm1,parm2; ++ int rc; ++ unsigned int failState; ++ static unsigned int pollGhsIndex=0; ++ ++ /*char *tmp;*/ ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++#if SWTC ++ DEV_HOST_tcHostCommDef_t TCHostCommDef; ++#endif ++ ++ dprintf(5,"dslhal_api_pollTrainingStatus\n"); ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterface_t *) ptidsl->pmainAddr; ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface, ++ sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++#if SWTC ++ dspOamSharedInterface.tcHostComm_p =(DEV_HOST_tcHostCommDef_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.tcHostComm_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.tcHostComm_p, ++ &TCHostCommDef, sizeof(DEV_HOST_tcHostCommDef_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++#endif ++ ++ rc = dslhal_support_processTrainingState(ptidsl); ++ if(rc) ++ { ++ dprintf(0,"Error Reading Modem Training State \n"); ++ return DSLHAL_ERROR_MODEMSTATE; ++ } ++ rc = dslhal_support_processModemStateBitField(ptidsl); ++ if(rc) ++ { ++ dprintf(0,"Error Reading Modem Training State \n"); ++ return DSLHAL_ERROR_MODEMSTATE; ++ } ++ /* ++ rc = dslhal_support_readDelineationState(ptidsl); ++ if(rc) ++ { ++ dprintf(0,"Error Reading Delineation State \n"); ++ return DSLHAL_ERROR_MODEMSTATE; ++ } ++ */ ++ while (dslhal_support_readDspMailbox(ptidsl,&cmd, &tag, &parm1, &parm2) == DSLHAL_ERROR_NO_ERRORS ) ++ { ++ dprintf(4,"mailbox message: 0x%x\n", cmd); ++ /* ++ for(rc=0;rc<8;rc++) ++ { ++ dslhal_support_readTextMailbox(ptidsl,&msg1, &msg2); ++ } ++ */ ++ ++ if (cmd == DSP_IDLE) ++ { ++ dprintf(4,"DSP_IDLE\n"); ++ ptidsl->lConnected=0; ++ hybrid_selected=888; ++ /* add code for reload overlay pages */ ++ if(ptidsl->bAutoRetrain == 0) ++ { ++ while(ptidsl->bOverlayPageLoaded == 0) ++ { ++ shim_osClockWait(6400); ++ } ++ //dslhal_support_restoreTrainingInfo(ptidsl); ++ //ptidsl->bOverlayPageLoaded = 1; ++ } ++ /* command DSP to ACTREQ */ ++ if(showtimeFlag == TRUE) ++ { ++ dslhal_api_resetTrainFailureLog(ptidsl); ++ dslhal_support_advancedIdleProcessing(ptidsl); ++ showtimeFlag = FALSE; ++ } ++ failState = (unsigned int)parm1; ++ if(failState!=0) ++ { ++ ptidsl->AppData.trainFailStates[ptidsl->AppData.trainFails]=failState; ++ ptidsl->AppData.trainFails++; ++ if(ptidsl->AppData.trainFails > 30) ++ ptidsl->AppData.trainFails=0; ++ } ++ for(pollGhsIndex=0;pollGhsIndex<10;pollGhsIndex++) ++ { ++ for(rc=0;rc<62;rc++) ++ ptidsl->AppData.dsl_ghsRxBuf[pollGhsIndex][rc]=0; ++ } ++ pollGhsIndex=0; ++ rc = dslhal_support_writeHostMailbox(ptidsl,HOST_ACTREQ, 0, 0, 0); ++ if (rc) ++ return DSLHAL_ERROR_MAILBOX_WRITE; ++ } ++ ++ if(cmd == DSP_ATM_TC_SYNC) ++ { ++ dprintf(4,"\nTC_SYNC\n"); ++ showtimeFlag = TRUE; ++ ptidsl->lConnected=1; ++ if(ptidsl->bAutoRetrain == 0 && ptidsl->bOverlayPageLoaded == 1) ++ { ++ dslhal_support_clearTrainingInfo(ptidsl); ++ ptidsl->bOverlayPageLoaded = 0; ++ } ++ } ++ if(cmd == DSP_ACTIVE) ++ { ++ dprintf(4,"DSP_ACTIVE"); ++ ptidsl->lConnected=0; ++ ptidsl->AppData.bState = RSTATE_SHOWTIME; ++ dprintf(4,"US Connect Rate: %u \n",ptidsl->AppData.USConRate); ++ dprintf(4,"DS Connect Rate: %u \n",ptidsl->AppData.DSConRate); ++ } ++ if(cmd == DSP_ATM_NO_TC_SYNC) ++ { ++ dprintf(4,"\nTC_NOSYNC\n"); ++ ptidsl->lConnected=0; ++ } ++ if(cmd == DSP_DGASP) ++ { ++ dprintf(0,"\n GASP!!! \n"); ++ } ++ if(cmd == DSP_OVERLAY_END) ++ { ++ dprintf(4,"Overlay Page Done %d \n",tag); ++ rc = dslhal_support_checkOverlayPage(ptidsl,tag); ++ if(rc == DSLHAL_ERROR_OVERLAY_CORRUPTED) ++ { ++ dprintf(0,"Overlay Page: %d CORRUPTED \n",tag); ++ return (0-DSLHAL_ERROR_OVERLAY_CORRUPTED); ++ } ++ } ++ if(cmd == DSP_HYBRID) ++ { ++ dprintf(2,"Hybrid Metrics Available: %d\n",tag); ++ hybrid_selected = tag; ++ } ++ if(cmd == DSP_DGASP) ++ { ++ dprintf(0,"\n GASP!!! \n"); ++ } ++ if(cmd == DSP_XMITBITSWAP) ++ { ++ dslhal_support_aocBitSwapProcessing(ptidsl,0); ++ } ++ if(cmd == DSP_RCVBITSWAP) ++ { ++ dslhal_support_aocBitSwapProcessing(ptidsl,1); ++ } ++ if(cmd == DSP_GHSMSG) ++ { ++ dprintf(3,"Ghs Message Received, bytes: %d \n",tag); ++ dprintf(3,"Addr: 0x%x\n",dspOamSharedInterface.ghsDspRxBuf_p); ++ if(pollGhsIndex > 9) ++ pollGhsIndex=0; ++ rc = dslhal_support_blockRead((void *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.ghsDspRxBuf_p), &ptidsl->AppData.dsl_ghsRxBuf[pollGhsIndex++][0], tag); ++ } ++ if(cmd == DSP_CRATES1) ++ { ++ dprintf(3,"DSP C-Rates1 Data Ready \n"); ++ rc = dslhal_support_gatherRateMessages(ptidsl); ++ } ++ if(cmd == DSP_SNR) ++ { ++ dprintf(3,"DSP SNR Data Ready \n"); ++ rc = dslhal_support_gatherSnrPerBin(ptidsl,tag); ++ } ++ if(cmd == DSP_EOC) ++ { ++ dprintf(3,"DSP_EOC message \n"); ++ rc = dslhal_support_gatherEocMessages(ptidsl,tag,parm1,parm2); ++ } ++ ++ if(cmd == DSP_TRAINING_MSGS) ++ { ++ dprintf(3,"DSP_TRAINING_MSGS \n"); ++ rc = dslhal_support_gatherAdsl2Messages(ptidsl,tag,parm1,parm2); ++ } ++ } ++ dprintf(6,"dslhal_api_pollTrainingStatus done\n"); ++ return(ptidsl->AppData.bState); ++ ++} /* end of dslhal_api_pollTrainingStatus() */ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_handleTrainingInterrupt() ++* ++********************************************************************************************* ++* DESCRIPTION: Code to handle ax5 hardware interrupts ++* ++* Input: tidsl_t *ptidsl ++* int *pMsg, pointer to returned hardware messages. Each byte represent a messge ++* int *pTag, pointer to returned hardware message tags. Each byte represent a tag. ++* Return: 0 success ++* 1 failed ++* ++********************************************************************************************/ ++int dslhal_api_handleTrainingInterrupt(tidsl_t *ptidsl, int intrSource) ++{ ++ int cmd; ++ int tag; ++ int parm1,parm2; ++ unsigned int msg1; ++ unsigned int msg2; ++ int rc; ++ unsigned int failState; ++ static unsigned int interruptGhsIndex=0; ++ /*char *tmp;*/ ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++#if SWTC ++ DEV_HOST_tcHostCommDef_t TCHostCommDef; ++#endif ++ dprintf(6,"dslhal_api_handleTrainingInterrupt\n"); ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterface_t *) ptidsl->pmainAddr; ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface, ++ sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++#if SWTC ++ dspOamSharedInterface.tcHostComm_p =(DEV_HOST_tcHostCommDef_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.tcHostComm_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.tcHostComm_p, ++ &TCHostCommDef, sizeof(DEV_HOST_tcHostCommDef_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++#endif ++ ++ if(intrSource & MASK_BITFIELD_INTERRUPTS) ++ { ++ dspOamSharedInterface.modemStateBitField_p =(DEV_HOST_modemStateBitField_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.modemStateBitField_p); ++ rc = dslhal_support_processTrainingState(ptidsl); ++ if(rc) ++ { ++ dprintf(0,"Error Reading Modem Training State \n"); ++ return DSLHAL_ERROR_MODEMSTATE; ++ } ++ rc = dslhal_support_processModemStateBitField(ptidsl); ++ if(rc) ++ { ++ dprintf(0,"Error Reading Modem Training State \n"); ++ return DSLHAL_ERROR_MODEMSTATE; ++ } ++ } ++ if(intrSource & MASK_MAILBOX_INTERRUPTS) ++ { ++ /* ++ rc = dslhal_support_readDelineationState(ptidsl); ++ if(rc) ++ { ++ dprintf(0,"Error Reading Delineation State \n"); ++ return DSLHAL_ERROR_MODEMSTATE; ++ } ++ */ ++ while (dslhal_support_readDspMailbox(ptidsl,&cmd, &tag, &parm1, &parm2) == DSLHAL_ERROR_NO_ERRORS ) ++ { ++ dprintf(4,"mailbox message: 0x%x\n", cmd); ++ /* ++ for(rc=0;rc<8;rc++) ++ { ++ dslhal_support_readTextMailbox(ptidsl,&msg1, &msg2); ++ } ++ */ ++ if (cmd == DSP_IDLE) ++ { ++ dprintf(4,"DSP_IDLE\n"); ++ ptidsl->lConnected=0; ++ hybrid_selected=888; ++ if(showtimeFlag == TRUE) ++ { ++ dslhal_api_resetTrainFailureLog(ptidsl); ++ dslhal_support_advancedIdleProcessing(ptidsl); ++ showtimeFlag = FALSE; ++ } ++ failState = (unsigned int)parm1; ++ if(failState!=0) ++ { ++ ptidsl->AppData.trainFailStates[ptidsl->AppData.trainFails]=failState; ++ ptidsl->AppData.trainFails++; ++ if(ptidsl->AppData.trainFails > 30) ++ ptidsl->AppData.trainFails=0; ++ } ++ for(interruptGhsIndex=0;interruptGhsIndex<10;interruptGhsIndex++) ++ { ++ for(rc=0;rc<62;rc++) ++ ptidsl->AppData.dsl_ghsRxBuf[interruptGhsIndex][rc]=0; ++ } ++ interruptGhsIndex=0; ++ ++ /* add code for reload overlay pages */ ++ if(ptidsl->bAutoRetrain == 0 && ptidsl->bOverlayPageLoaded == 0) ++ { ++ dslhal_support_restoreTrainingInfo(ptidsl); ++ ptidsl->bOverlayPageLoaded = 1; ++ } ++ /* command DSP to ACTREQ */ ++ rc = dslhal_support_writeHostMailbox(ptidsl, HOST_ACTREQ, 0, 0, 0); ++ if (rc) ++ return DSLHAL_ERROR_MAILBOX_WRITE; ++ } ++ if(cmd == DSP_ATM_TC_SYNC) ++ { ++ dprintf(4,"\nTC_SYNC\n"); ++ showtimeFlag = TRUE; ++ ptidsl->lConnected=1; ++ if(ptidsl->bAutoRetrain == 0 && ptidsl->bOverlayPageLoaded == 1) ++ { ++ dslhal_support_clearTrainingInfo(ptidsl); ++ ptidsl->bOverlayPageLoaded = 0; ++ } ++ } ++ if(cmd == DSP_ACTIVE) ++ { ++ ptidsl->lConnected=0; ++ ptidsl->AppData.bState = RSTATE_SHOWTIME; ++ dprintf(4,"DSP_ACTIVE"); ++ dprintf(4,"US Connect Rate: %u \n",ptidsl->AppData.USConRate); ++ dprintf(4,"DS Connect Rate: %u \n",ptidsl->AppData.DSConRate); ++ } ++ if(cmd == DSP_ATM_NO_TC_SYNC) ++ { ++ dprintf(4,"\nTC_NOSYNC\n"); ++ ptidsl->lConnected=0; ++ /* add code for reload overlay pages */ ++ } ++ if(cmd == DSP_OVERLAY_END) ++ { ++ dprintf(4,"Overlay Page Done %d \n",tag); ++ rc = dslhal_support_checkOverlayPage(ptidsl,tag); ++ if(rc == DSLHAL_ERROR_OVERLAY_CORRUPTED) ++ { ++ dprintf(4,"Overlay Page: %d CORRUPTED \n",tag); ++ return(0-DSLHAL_ERROR_OVERLAY_CORRUPTED); ++ } ++ } ++ if(cmd == DSP_HYBRID) ++ { ++ dprintf(2,"Hybrid Metrics Available\n"); ++ hybrid_selected = tag; ++ } ++ if(cmd == DSP_XMITBITSWAP) ++ { ++ rc = dslhal_support_aocBitSwapProcessing(ptidsl,0); ++ } ++ if(cmd == DSP_RCVBITSWAP) ++ { ++ rc = dslhal_support_aocBitSwapProcessing(ptidsl,1); ++ } ++ if(cmd == DSP_GHSMSG) ++ { ++ dprintf(3,"Ghs Message Received, bytes: %d \n",tag); ++ dprintf(3,"Addr: 0x%x\n",dspOamSharedInterface.ghsDspRxBuf_p); ++ if(interruptGhsIndex > 9) ++ interruptGhsIndex=0; ++ rc = dslhal_support_blockRead((void *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.ghsDspRxBuf_p), &ptidsl->AppData.dsl_ghsRxBuf[interruptGhsIndex++][0], tag); ++ } ++ if(cmd == DSP_CRATES1) ++ { ++ dprintf(3,"DSP C-Rates1 Data Ready \n"); ++ rc = dslhal_support_gatherRateMessages(ptidsl); ++ } ++ if(cmd == DSP_SNR) ++ { ++ dprintf(3,"DSP SNR Data Ready \n"); ++ rc = dslhal_support_gatherSnrPerBin(ptidsl,tag); ++ } ++ if(cmd == DSP_EOC) ++ { ++ dprintf(3,"DSP_EOC message \n"); ++ rc = dslhal_support_gatherEocMessages(ptidsl,tag,parm1,parm2); ++ } ++ if(cmd == DSP_TRAINING_MSGS) ++ { ++ dprintf(3,"DSP_TRAINING_MSGS \n"); ++ rc = dslhal_support_gatherAdsl2Messages(ptidsl,tag,parm1,parm2); ++ } ++ } ++ ++ dslhal_support_readTextMailbox(ptidsl,&msg1, &msg2); ++ dprintf(5,"Text Message Part1: 0x%x \t Text Message Part2: 0x%x \n",msg1,msg2); ++ } ++ dprintf(6,"dslhal_api_handleTrainingInterrupt done\n"); ++ return(ptidsl->AppData.bState); ++} /* end of dslhal_api_handleTrainingInterrupt() */ ++ ++ ++ ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_dslRetrain(tidsl_t *ptidsl) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction sends CMD_ACTREQ to the DSP to issue a retrain ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_dslRetrain(tidsl_t *ptidsl) ++{ ++ int rc; ++ ++ dprintf(5, "dslhal_cfg_dslRetrain \n"); ++ rc = dslhal_support_writeHostMailbox(ptidsl, HOST_QUIET, 0, 0, 0); ++ if(rc) ++ { ++ dprintf(1,"dslhal_cfg_dslRetrain failed\n"); ++ return DSLHAL_ERROR_CTRL_API_FAILURE; ++ } ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_sendQuiet(tidsl_t *ptidsl) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction sends the CMD_QUIET message to the DSP ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_sendQuiet(tidsl_t *ptidsl) ++{ ++ int rc; ++ ++ dprintf(5, "dslhal_api_sendQuiet\n"); ++ rc = dslhal_support_writeHostMailbox(ptidsl, HOST_QUIET, 0, 0, 0); ++ if(rc) ++ { ++ dprintf(1,"dslhal_api_sendQuiet failed\n"); ++ return DSLHAL_ERROR_CTRL_API_FAILURE; ++ } ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_sendIdle(tidsl_t *ptidsl) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction sends the CMD_IDLE message to the DSP ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_sendIdle(tidsl_t *ptidsl) ++{ ++ int rc; ++ ++ dprintf(5, "dslhal_api_sendIdle\n"); ++ rc = dslhal_support_writeHostMailbox(ptidsl, HOST_IDLE, 0, 0, 0); ++ if(rc) ++ { ++ dprintf(1,"dslhal_api_sendIdle failed\n"); ++ return DSLHAL_ERROR_CTRL_API_FAILURE; ++ } ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_sendDgasp(tidsl_t *ptidsl) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction sends the HOST_DGASP message to the DSP ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_sendDgasp(tidsl_t *ptidsl) ++{ ++ int rc; ++ ++ dprintf(5, "dslhal_api_sendDgasp\n"); ++ rc = dslhal_support_writeHostMailbox(ptidsl, HOST_DGASP, 0, 0, 0); ++ if(rc) ++ { ++ dprintf(1,"dslhal_api_sendDgasp failed\n"); ++ return DSLHAL_ERROR_CTRL_API_FAILURE; ++ } ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_api_setTrainingMode(tidsl_t *ptidsl,unsigned int trainmode) ++* ++******************************************************************************************* ++* DESCRIPTION: This fuction Sets the Desired Training Mode {None/Multimode/G.dmt/lite ++* ++* INPUT: PITIDSLHW_T *ptidsl ++* unsigned int trainmode :Should be between 0 and 4; 0:No Mode 1:Multimode ++* 2: T1.413, 3:G.dmt, 4: G.lite ++* RETURN: 0 SUCCESS ++* 1 FAILED ++* ++*****************************************************************************************/ ++unsigned int dslhal_api_setTrainingMode(tidsl_t *ptidsl,unsigned int trainmode) ++{ ++ DEV_HOST_oamWrNegoParaDef_t NegoPara; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ int rc; ++ dprintf(5," dslhal_api_setTrainingMode()\n"); ++ if(trainmode>255) ++ { ++ dprintf(3,"Invalid Value for Desired Training Mode (must be <255)\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ ++ if(!ptidsl) ++ { ++ dprintf(3, "Error: PTIDSL pointer invalid\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface, ++ sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ dspOamSharedInterface.oamWriteNegoParams_p = (DEV_HOST_oamWrNegoParaDef_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.oamWriteNegoParams_p); ++ ++ rc = dslhal_support_blockRead((PVOID) dspOamSharedInterface.oamWriteNegoParams_p,&NegoPara, sizeof(DEV_HOST_oamWrNegoParaDef_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ /* Enum Translation to maintain backwards compatibility for train modes */ ++ if(trainmode == DSLTRAIN_MULTI_MODE) ++ trainmode = MULTI_MODE; ++ if(trainmode == DSLTRAIN_T1413_MODE) ++ trainmode = T1413_MODE; ++ if(trainmode == DSLTRAIN_GDMT_MODE) ++ trainmode = GDMT_MODE; ++ ++ NegoPara.stdMode = trainmode; ++ dprintf(5,"Train Mode: 0x%x\n",trainmode); ++ rc = dslhal_support_blockWrite(&NegoPara,(PVOID)dspOamSharedInterface.oamWriteNegoParams_p, sizeof(DEV_HOST_oamWrNegoParaDef_t)); ++ if(rc) ++ return DSLHAL_ERROR_CONFIG_API_FAILURE; ++ ++ dprintf(5," dslhal_api_setTrainingMode() Done\n"); ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_api_getDspVersion ++* ++******************************************************************************************* ++* DESCRIPTION: This routine supply AX5 daugther card DSP version. ++* ++* INPUT: tidsl_t * ptidsl ++* void *pVer, DSP version struct is returned starting at this pointer ++* ++* RETURN: 0 --succeeded ++* 1 --Failed ++* Note: See verdef_u.h for version structure definition. ++*****************************************************************************************/ ++int dslhal_api_getDspVersion(tidsl_t *ptidsl, void *pVer) ++{ ++ /* DEV_HOST_dspVersionDef_t dspVersion; */ ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ int rc; ++ dprintf(5, "dslhal_api_getDspVersion\n"); ++ if(!ptidsl) ++ { ++ dprintf(3, "Error: PTIDSL pointer invalid\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ if(!pVer) ++ return DSLHAL_ERROR_INVALID_PARAM; ++ ++ *(unsigned int *) pVer = 0; ++ ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ dspOamSharedInterface.datapumpVersion_p = (DEV_HOST_dspVersionDef_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.datapumpVersion_p); ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.datapumpVersion_p, ++ pVer, sizeof(dspVer)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ pVer = (DEV_HOST_dspVersionDef_t *)(dslhal_support_byteSwap32((unsigned int)pVer)); ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_gatherStatistics() ++* ++********************************************************************************************* ++* DESCRIPTION: Read statistical infromation from ax5 modem daugter card. ++* Input: tidsl_t *ptidsl ++* ++* Return: 0 success ++* 1 failed ++* ++********************************************************************************************/ ++void dslhal_api_gatherStatistics(tidsl_t * ptidsl) ++{ ++ int rc,optIdxU,optIdxD,i; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ DEV_HOST_dspWrNegoParaDef_t rateparms; ++ DEV_HOST_oamWrNegoParaDef_t configParms; ++ DEV_HOST_modemStatsDef_t StatisticsDef; ++ DEV_HOST_errorStats_t usIntlvError, usFastError, dsIntlvError, dsFastError; ++ DEV_HOST_atmStats_t atmStats; ++ DEV_HOST_usAtmStats_t usAtmStats0, usAtmStats1; ++ DEV_HOST_dsAtmStats_t dsAtmStats0,dsAtmStats1; ++ DEV_HOST_dspWrSuperFrameCntDef_t SuperFrameCnt; ++ DEV_HOST_msg_t atuc_msg, aturMsg; ++ DEV_HOST_eocVarDef_t eocVar; ++ DEV_HOST_dspWrSharedTables_t sharedTables; ++ DEV_HOST_phyPerf_t phyPerf; ++ unsigned char usBits[64],dsBits[256]; ++ unsigned char dsPowerCutBack; ++ int usNumLoadedTones=0, dsNumLoadedTones=0; ++ ++ dprintf(5, "dslhal_api_gatherStatistics\n"); ++ ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface, ++ sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ if(!ptidsl->bStatisticsInitialized && ptidsl->lConnected == LINE_CONNECTED) ++ { ++ dslhal_api_initStatistics(ptidsl); ++ ptidsl->bStatisticsInitialized = TRUE; ++ } ++ ++ dspOamSharedInterface.dspWriteNegoParams_p = (DEV_HOST_dspWrNegoParaDef_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.dspWriteNegoParams_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.dspWriteNegoParams_p, ++ &rateparms, sizeof(DEV_HOST_dspWrNegoParaDef_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ if(!rc) ++ { ++ /* trained mode */ ++ ptidsl->AppData.dsl_modulation = (unsigned int)rateparms.trainMode; ++ if(rateparms.trainMode == T1413_MODE) ++ ptidsl->AppData.dsl_modulation = DSLTRAIN_T1413_MODE; ++ if(rateparms.trainMode == GDMT_MODE) ++ ptidsl->AppData.dsl_modulation = DSLTRAIN_GDMT_MODE; ++ /* rate */ ++ /* shim_osMoveMemory((void *)ptidsl->AppData.bCRates1, (void *)rateparms.cRates1, 120); */ ++ ptidsl->AppData.bCRates2 = rateparms.cRates2; ++ /* shim_osMoveMemory((void *)ptidsl->AppData.bRRates1, (void *)rateparms.rRates1, 44); */ ++ ptidsl->AppData.bRRates2 = rateparms.rRates2; ++ shim_osMoveMemory((void *)ptidsl->AppData.bCMsgs1, (void *)rateparms.cMsgs1, 6); ++ shim_osMoveMemory((void *)ptidsl->AppData.bCMsgs2, (void *)rateparms.cMsgs2, 4); ++ shim_osMoveMemory((void *)ptidsl->AppData.bRMsgs2, (void *)rateparms.rMsgs2, 4); ++ ptidsl->AppData.atucVendorId = (unsigned int)rateparms.atucVendorId; ++ ptidsl->AppData.lineLength = (unsigned int)dslhal_support_byteSwap16((unsigned short)rateparms.lineLength); ++ ptidsl->AppData.atucRevisionNum = (unsigned int)rateparms.atucGhsRevisionNum; ++ ptidsl->AppData.usLineAttn = (ptidsl->AppData.bCMsgs2[3] >>2)&0x003f; ++ ptidsl->AppData.usMargin = (ptidsl->AppData.bCMsgs2[2])&0x001f; ++ ++ if((rateparms.cRates2 & 0x0f) == 0x01) ++ optIdxU = 0; ++ else if((rateparms.cRates2 & 0x0f) == 0x02) ++ optIdxU = 1; ++ else if((rateparms.cRates2 & 0x0f) == 0x04) ++ optIdxU = 2; ++ else if((rateparms.cRates2 & 0x0f) == 0x08) ++ optIdxU = 3; ++ else ++ optIdxU = -1; ++ ++ dprintf(5, "optIdxU=%d\n", optIdxU); ++ ++ /* Obtain the US Rates using Opt# and CRates1 Table */ ++ /* Rate(US) = [Bf(LS0) + Bi(LS0)]*32 */ ++ if(ptidsl->AppData.dsl_modulation <= DSLTRAIN_GLITE_MODE) ++ ptidsl->AppData.USConRate = ((rateparms.cRates1[optIdxU][CRATES1_BF_LS0] + rateparms.cRates1[optIdxU][CRATES1_BI_LS0]) * 32); ++ else ++ ptidsl->AppData.USConRate = 32 * dslhal_support_byteSwap16((unsigned short)rateparms.adsl2USRate); ++ ++ ptidsl->AppData.USPeakCellRate = ptidsl->AppData.USConRate; ++ ++ if(((rateparms.cRates2 >> 4) & 0x0f) == 0x01) ++ optIdxD = 0; ++ else if(((rateparms.cRates2 >> 4) & 0x0f) == 0x02) ++ optIdxD = 1; ++ else if(((rateparms.cRates2 >> 4) & 0x0f) == 0x04) ++ optIdxD = 2; ++ else if(((rateparms.cRates2 >> 4) & 0x0f) == 0x08) ++ optIdxD = 3; ++ else ++ optIdxD = -1; ++ /* Obtain the DS Rates using Opt# and CRates1 Table */ ++ /* Rate(DS) = [Bf(AS0) + Bi(AS0)]*32 */ ++ if(ptidsl->AppData.dsl_modulation <= DSLTRAIN_GLITE_MODE) ++ ptidsl->AppData.DSConRate = (((rateparms.cRates1[optIdxD][CRATES1_BF_AS0]|((rateparms.cRates1[optIdxD][CRATES1_BF_DSRS]&0x80)<<1))+ (rateparms.cRates1[optIdxD][CRATES1_BI_AS0]|((rateparms.cRates1[optIdxD][CRATES1_BI_DSRS]&0x80)<<1)))* 32); ++ else ++ ptidsl->AppData.DSConRate = dslhal_support_byteSwap16((unsigned short)rateparms.adsl2DSRate); ++ ++ dprintf(5, "ptidsl->AppData.wDSConRate=%d\n", ptidsl->AppData.DSConRate); ++ /* Determine which Path has Modem Trained with */ ++ if((rateparms.cRates1[optIdxU][CRATES1_BF_LS0]) && (rateparms.cRates1[optIdxD][CRATES1_BF_AS0])) ++ ptidsl->AppData.TrainedPath = FAST_PATH; ++ else ++ ptidsl->AppData.TrainedPath = INTERLEAVED_PATH; ++ ++ /* Set the mode in which the modem is trained */ ++ ptidsl->AppData.TrainedMode = (unsigned int)rateparms.trainMode; ++ if(rateparms.trainMode == T1413_MODE) ++ ptidsl->AppData.TrainedMode = DSLTRAIN_T1413_MODE; ++ if(rateparms.trainMode == GDMT_MODE) ++ ptidsl->AppData.TrainedMode = DSLTRAIN_GDMT_MODE; ++ ++ if(ptidsl->AppData.TrainedPath == FAST_PATH) ++ ptidsl->AppData.dsFastParityBytesPerSymbol = (rateparms.cRates1[optIdxU][CRATES1_BF_DSRS]&0x1f); ++ else ++ ptidsl->AppData.dsIntlvParityBytesPerSymbol = (rateparms.cRates1[optIdxU][CRATES1_BI_DSRS]&0x1f); ++ ptidsl->AppData.dsSymbolsPerCodeWord = (rateparms.cRates1[optIdxU][CRATES1_BFI_DSS]&0x1f); ++ ptidsl->AppData.dsInterleaverDepth = ((rateparms.cRates1[optIdxU][CRATES1_BFI_DSI])|((rateparms.cRates1[optIdxU][CRATES1_BFI_DSS]&0xc0)<<2)); ++ ++ if(ptidsl->AppData.TrainedPath == FAST_PATH) ++ ptidsl->AppData.usFastParityBytesPerSymbol = (rateparms.cRates1[optIdxU][CRATES1_BF_USRS]&0x1f); ++ else ++ ptidsl->AppData.usIntlvParityBytesPerSymbol = (rateparms.cRates1[optIdxU][CRATES1_BI_USRS]&0x1f); ++ ptidsl->AppData.usSymbolsPerCodeWord = (rateparms.cRates1[optIdxU][CRATES1_BFI_USS]&0x1f); ++ ptidsl->AppData.usInterleaverDepth = ((rateparms.cRates1[optIdxU][CRATES1_BFI_USI])|((rateparms.cRates1[optIdxU][CRATES1_BFI_USS]&0xc0)<<2)); ++ } ++ ++ dspOamSharedInterface.modemStats_p = (DEV_HOST_modemStatsDef_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.modemStats_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.modemStats_p,&StatisticsDef, sizeof(DEV_HOST_modemStatsDef_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ /* Populate the Error Structure Variables */ ++ ++ /* US Interleave Path Error Statistics */ ++ ++ /* Change the endianness of the Pointer */ ++ StatisticsDef.usErrorStatsIntlv_p = (DEV_HOST_errorStats_t *) dslhal_support_byteSwap32((unsigned int)StatisticsDef.usErrorStatsIntlv_p); ++ ++ rc = dslhal_support_blockRead((PVOID)StatisticsDef.usErrorStatsIntlv_p,&usIntlvError, (sizeof(DEV_HOST_errorStats_t))); ++ ++ if (rc) ++ return; ++ ++ /* DS Interleave Path Error Statistics */ ++ ++ /* Change the endianness of the Pointer */ ++ StatisticsDef.dsErrorStatsIntlv_p = (DEV_HOST_errorStats_t *) dslhal_support_byteSwap32((unsigned int)StatisticsDef.dsErrorStatsIntlv_p); ++ ++ rc = dslhal_support_blockRead((PVOID)StatisticsDef.dsErrorStatsIntlv_p,&dsIntlvError, (sizeof(DEV_HOST_errorStats_t))); ++ ++ if (rc) ++ return; ++ ++ /* US Fast Path Error Statistics */ ++ ++ /* Change the endianness of the Pointer */ ++ StatisticsDef.usErrorStatsFast_p = (DEV_HOST_errorStats_t *) dslhal_support_byteSwap32((unsigned int)StatisticsDef.usErrorStatsFast_p); ++ ++ rc = dslhal_support_blockRead((PVOID)StatisticsDef.usErrorStatsFast_p,&usFastError, (sizeof(DEV_HOST_errorStats_t))); ++ ++ if (rc) ++ return; ++ ++ /* DS Fast Path Error Statistics */ ++ ++ /* Change the endianness of the Pointer */ ++ StatisticsDef.dsErrorStatsFast_p = (DEV_HOST_errorStats_t *) dslhal_support_byteSwap32((unsigned int)StatisticsDef.dsErrorStatsFast_p); ++ ++ rc = dslhal_support_blockRead((PVOID)StatisticsDef.dsErrorStatsFast_p,&dsFastError, (sizeof(DEV_HOST_errorStats_t))); ++ ++ if (rc) ++ return; ++ if(!rc) ++ { ++ if(ptidsl->AppData.bState > 2) ++ { ++ /* Get CRC Errors Stats for both US and DS */ ++ ptidsl->AppData.dsICRC_errors = dslhal_support_byteSwap32((unsigned int)dsIntlvError.crcErrors); ++ ptidsl->AppData.dsFCRC_errors = dslhal_support_byteSwap32((unsigned int)dsFastError.crcErrors); ++ ptidsl->AppData.usICRC_errors = dslhal_support_byteSwap32((unsigned int)usIntlvError.crcErrors); ++ ptidsl->AppData.usFCRC_errors = dslhal_support_byteSwap32((unsigned int)usFastError.crcErrors); ++ /* Get FEC Errors Stats for both US and DS */ ++ ptidsl->AppData.dsIFEC_errors = dslhal_support_byteSwap32((unsigned int)dsIntlvError.fecErrors); ++ ptidsl->AppData.dsFFEC_errors = dslhal_support_byteSwap32((unsigned int)dsFastError.fecErrors); ++ ptidsl->AppData.usIFEC_errors = dslhal_support_byteSwap32((unsigned int)usIntlvError.fecErrors); ++ ptidsl->AppData.usFFEC_errors = dslhal_support_byteSwap32((unsigned int)usFastError.fecErrors); ++ /* Get NCD Errors Stats for both US and DS */ ++ ptidsl->AppData.dsINCD_error = dslhal_support_byteSwap32((unsigned int)dsIntlvError.ncdError); ++ ptidsl->AppData.dsFNCD_error = dslhal_support_byteSwap32((unsigned int)dsFastError.ncdError); ++ ptidsl->AppData.usINCD_error = dslhal_support_byteSwap32((unsigned int)usIntlvError.ncdError); ++ ptidsl->AppData.usFNCD_error = dslhal_support_byteSwap32((unsigned int)usFastError.ncdError); ++ /* Get LCD Errors Stats for both US and DS */ ++ ptidsl->AppData.dsILCD_errors = dslhal_support_byteSwap32((unsigned int)dsIntlvError.lcdErrors); ++ ptidsl->AppData.dsFLCD_errors = dslhal_support_byteSwap32((unsigned int)dsFastError.lcdErrors); ++ ptidsl->AppData.usILCD_errors = dslhal_support_byteSwap32((unsigned int)usIntlvError.lcdErrors); ++ ptidsl->AppData.usFLCD_errors = dslhal_support_byteSwap32((unsigned int)usFastError.lcdErrors); ++ /*Get HEC Errors Stats for both US and DS */ ++ ptidsl->AppData.dsIHEC_errors = dslhal_support_byteSwap32((unsigned int)dsIntlvError.hecErrors); ++ ptidsl->AppData.dsFHEC_errors = dslhal_support_byteSwap32((unsigned int)dsFastError.hecErrors); ++ ptidsl->AppData.usIHEC_errors = dslhal_support_byteSwap32((unsigned int)usIntlvError.hecErrors); ++ ptidsl->AppData.usFHEC_errors = dslhal_support_byteSwap32((unsigned int)usFastError.hecErrors); ++ ++ /* Get LOS and SEF error Stats */ ++ ptidsl->AppData.LOS_errors = dslhal_support_byteSwap32(StatisticsDef.losErrors); ++ ptidsl->AppData.SEF_errors = dslhal_support_byteSwap32(StatisticsDef.sefErrors); ++ ptidsl->AppData.coLosErrors = dslhal_support_byteSwap32(StatisticsDef.farEndLosErrors); ++ ptidsl->AppData.coRdiErrors = dslhal_support_byteSwap32(StatisticsDef.farEndRdiErrors); ++ ++ dspOamSharedInterface.atmStats_p = (DEV_HOST_atmStats_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.atmStats_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.atmStats_p,&atmStats, sizeof(DEV_HOST_atmStats_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ ++ /* Populate the US/DS ATM Stats Variables */ ++ ++ /* US ATM Statistics */ ++ ++ /* Change the endianness of the Pointer */ ++ atmStats.us0_p = (DEV_HOST_usAtmStats_t *) dslhal_support_byteSwap32((unsigned int)atmStats.us0_p); ++ ++ rc = dslhal_support_blockRead((PVOID)atmStats.us0_p,&usAtmStats0, (sizeof(DEV_HOST_usAtmStats_t))); ++ ++ if (rc) ++ return; ++ ++ atmStats.us1_p = (DEV_HOST_usAtmStats_t *) dslhal_support_byteSwap32((unsigned int)atmStats.us1_p); ++ ++ rc = dslhal_support_blockRead((PVOID)atmStats.us1_p,&usAtmStats1, (sizeof(DEV_HOST_usAtmStats_t))); ++ ++ if (rc) ++ return; ++ ++ /* DS ATM Statistics */ ++ ++ /* Change the endianness of the Pointer */ ++ atmStats.ds0_p = (DEV_HOST_dsAtmStats_t *) dslhal_support_byteSwap32((unsigned int)atmStats.ds0_p); ++ ++ rc = dslhal_support_blockRead((PVOID)atmStats.ds0_p,&dsAtmStats0, (sizeof(DEV_HOST_dsAtmStats_t))); ++ ++ if (rc) ++ return; ++ atmStats.ds1_p = (DEV_HOST_dsAtmStats_t *) dslhal_support_byteSwap32((unsigned int)atmStats.ds1_p); ++ ++ rc = dslhal_support_blockRead((PVOID)atmStats.ds1_p,&dsAtmStats1, (sizeof(DEV_HOST_dsAtmStats_t))); ++ ++ if (rc) ++ return; ++ ++ /* Get ATM Stats for both US and DS for Channel 0*/ ++ ptidsl->AppData.usAtm_count[0] = dslhal_support_byteSwap32(usAtmStats0.goodCount); ++ ptidsl->AppData.usIdle_count[0] = dslhal_support_byteSwap32(usAtmStats0.idleCount); ++#if SWTC ++ ptidsl->AppData.usPdu_count[0] = dslhal_support_byteSwap32(usAtmStats0.pduCount); ++#endif ++ ptidsl->AppData.dsGood_count[0] = dslhal_support_byteSwap32(dsAtmStats0.goodCount); ++ ptidsl->AppData.dsIdle_count[0] = dslhal_support_byteSwap32(dsAtmStats0.idleCount); ++#if SWTC ++ ptidsl->AppData.dsPdu_count[0] = dslhal_support_byteSwap32(dsAtmStats0.pduCount); ++#endif ++ ptidsl->AppData.dsBadHec_count[0] = dslhal_support_byteSwap32((dsAtmStats0.badHecCount)); ++ ptidsl->AppData.dsOVFDrop_count[0] = dslhal_support_byteSwap32((dsAtmStats0.ovflwDropCount)); ++ /* Get ATM Stats for both US and DS for Channel 1*/ ++ ptidsl->AppData.usAtm_count[1] = dslhal_support_byteSwap32(usAtmStats1.goodCount); ++ ptidsl->AppData.usIdle_count[1] = dslhal_support_byteSwap32(usAtmStats1.idleCount); ++#if SWTC ++ ptidsl->AppData.usPdu_count[1] = dslhal_support_byteSwap32(usAtmStats1.pduCount); ++#endif ++ ptidsl->AppData.dsGood_count[1] = dslhal_support_byteSwap32(dsAtmStats1.goodCount); ++ ptidsl->AppData.dsIdle_count[1] = dslhal_support_byteSwap32(dsAtmStats1.idleCount); ++#if SWTC ++ ptidsl->AppData.dsPdu_count[1] = dslhal_support_byteSwap32(dsAtmStats1.pduCount); ++#endif ++ ptidsl->AppData.dsBadHec_count[1] = dslhal_support_byteSwap32((dsAtmStats1.badHecCount)); ++ ptidsl->AppData.dsOVFDrop_count[1] = dslhal_support_byteSwap32((dsAtmStats1.ovflwDropCount)); ++ ++ /* Determine the US and DS Superframe Count */ ++ ++ dspOamSharedInterface.dspWriteSuperFrameCnt_p = (DEV_HOST_dspWrSuperFrameCntDef_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.dspWriteSuperFrameCnt_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.dspWriteSuperFrameCnt_p,&SuperFrameCnt, sizeof(DEV_HOST_dspWrSuperFrameCntDef_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ ptidsl->AppData.usSuperFrmCnt = dslhal_support_byteSwap32(SuperFrameCnt.wSuperFrameCntUstrm); ++ ptidsl->AppData.dsSuperFrmCnt = dslhal_support_byteSwap32(SuperFrameCnt.wSuperFrameCntDstrm); ++ ++ /* Determine Frame Mode and Max Frame Mode */ ++ ++ dspOamSharedInterface.atucMsg_p = (DEV_HOST_msg_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.atucMsg_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.atucMsg_p,&atuc_msg, sizeof(DEV_HOST_msg_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ ++ ptidsl->AppData.FrmMode = (unsigned int)atuc_msg.framingMode; ++ ptidsl->AppData.MaxFrmMode = (unsigned int)atuc_msg.maxFrameMode; ++ ++ /* Determine Gross Gain */ ++ ++ dspOamSharedInterface.aturMsg_p = (DEV_HOST_msg_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.aturMsg_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.aturMsg_p,&aturMsg, sizeof(DEV_HOST_msg_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ ptidsl->AppData.grossGain = (unsigned int)aturMsg.grossGain; ++ ++ /* Determine DS Line Attenuation & Margin */ ++ dspOamSharedInterface.eocVar_p = (DEV_HOST_eocVarDef_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.eocVar_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.eocVar_p,&eocVar, sizeof(DEV_HOST_eocVarDef_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ ptidsl->AppData.dsLineAttn = (unsigned int)eocVar.lineAtten; ++ ptidsl->AppData.dsMargin = (unsigned int)eocVar.dsMargin; ++ } ++ } ++ ++ /* Read in the Shared Tables structure */ ++ dspOamSharedInterface.dspWrSharedTables_p = (DEV_HOST_dspWrSharedTables_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.dspWrSharedTables_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.dspWrSharedTables_p,&sharedTables, sizeof(DEV_HOST_dspWrSharedTables_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ ++ /* Read the ATU-R Bits and Gains Table */ ++ sharedTables.aturBng_p = (unsigned char *)dslhal_support_byteSwap32((unsigned int)sharedTables.aturBng_p); ++ rc = dslhal_support_blockRead((PVOID)sharedTables.aturBng_p,ptidsl->AppData.rBng,255*2*sizeof(unsigned char)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ /* Read the ATU-C Bits and Gains Table */ ++ sharedTables.atucBng_p = (unsigned char *)dslhal_support_byteSwap32((unsigned int)sharedTables.atucBng_p); ++ if(ptidsl->netService == 2) /* for Annex_B */ ++ { ++ rc = dslhal_support_blockRead((PVOID)sharedTables.atucBng_p,ptidsl->AppData.cBng,126*sizeof(unsigned char)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ for(i=0;i<US_BNG_LENGTH*2;i++) ++ usBits[i]=0; ++ for(i=1;i<US_BNG_LENGTH*2;i++) ++ { ++ usBits[i]=((ptidsl->AppData.cBng[(i-1)*2])&0xf); ++ dprintf(5,"Bit #%d : 0x%x\n",i,usBits[i]); ++ } ++ for(i=1;i<US_BNG_LENGTH*2;i++) ++ { ++ if(usBits[i]) ++ usNumLoadedTones++; ++ } ++ } ++ else ++ { ++ rc = dslhal_support_blockRead((PVOID)sharedTables.atucBng_p,ptidsl->AppData.cBng,62*sizeof(unsigned char)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ for(i=0;i<US_BNG_LENGTH;i++) ++ usBits[i]=0; ++ for(i=1;i<US_BNG_LENGTH;i++) ++ { ++ usBits[i]=((ptidsl->AppData.cBng[(i-1)*2])&0xf); ++ dprintf(5,"Bit #%d : 0x%x\n",i,usBits[i]); ++ } ++ for(i=1;i<US_BNG_LENGTH;i++) ++ { ++ if(usBits[i]) ++ usNumLoadedTones++; ++ } ++ } ++ ++ /* Determine Number U/S of Loaded Tones */ ++ ++ /* U/S Power Computation */ ++ dspOamSharedInterface.phyPerf_p = (DEV_HOST_phyPerf_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.phyPerf_p); ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.phyPerf_p, ++ &phyPerf, sizeof(DEV_HOST_phyPerf_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ ptidsl->AppData.currentHybridNum = phyPerf.currentHybridNumUsed; ++ phyPerf.usAvgGain = dslhal_support_byteSwap32(phyPerf.usAvgGain); ++ ptidsl->AppData.usTxPower = LOG43125 + phyPerf.usAvgGain + (256*US_NOMINAL_POWER)+log10[usNumLoadedTones-1]; ++ dprintf(7,"Avg Gain: 0x%x usNumLoadedTones: 0x%x log: 0x%x\n",phyPerf.usAvgGain, usNumLoadedTones, log10[usNumLoadedTones-1]); ++ ++ /* Determine Number D/S of Loaded Tones */ ++ dsBits[0]=0; ++ for(i=0;i<DS_BNG_LENGTH;i++) ++ { ++ dsBits[i]=0; ++ /* ptidsl->AppData.rBng[i-1]=dslhal_support_byteSwap32((unsigned int)ptidsl->AppData.rBng[i-1]);*/ ++ } ++ for(i=1;i<DS_BNG_LENGTH;i++) ++ { ++ dsBits[i]=((ptidsl->AppData.rBng[(i-1)*2])&0xf); ++ dprintf(5,"Bit #%d : 0x%x\n",i,dsBits[i]); ++ } ++ for(i=1;i<DS_BNG_LENGTH;i++) ++ { ++ if(dsBits[i]) ++ dsNumLoadedTones++; ++ } ++ /* D/S Power Computation */ ++ dspOamSharedInterface.phyPerf_p = (DEV_HOST_phyPerf_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.phyPerf_p); ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.phyPerf_p, ++ &phyPerf, sizeof(DEV_HOST_phyPerf_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ /* D/S Power Cutback */ ++ dsPowerCutBack = (unsigned char)((((ptidsl->AppData.bCMsgs1[0]) >>6) &0x3)+(((ptidsl->AppData.bCMsgs1[1]) &0x1) <<2)); ++ phyPerf.dsAvgGain = dslhal_support_byteSwap32(phyPerf.dsAvgGain); ++ ptidsl->AppData.dsTxPower = LOG43125 + phyPerf.dsAvgGain + (256*((2*(dsPowerCutBack-1))-52)) + log10[dsNumLoadedTones-1]; ++ dprintf(7,"Avg Gain: %d dsNumLoadedTones: %d log: %d pcb: %d \n",phyPerf.dsAvgGain, dsNumLoadedTones, log10[dsNumLoadedTones-1], dsPowerCutBack); ++ /* ds bit allocation */ ++ sharedTables.bitAllocTblDstrm_p = (unsigned char *)dslhal_support_byteSwap32((unsigned int)sharedTables.bitAllocTblDstrm_p); ++ rc = dslhal_support_blockRead((PVOID)sharedTables.bitAllocTblDstrm_p,ptidsl->AppData.BitAllocTblDstrm, 256*sizeof(unsigned char)); ++ if(rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed \n"); ++ return; ++ } ++ ++ /* us bit allocation */ ++ sharedTables.bitAllocTblUstrm_p = (unsigned char *)dslhal_support_byteSwap32((unsigned int)sharedTables.bitAllocTblUstrm_p); ++ rc = dslhal_support_blockRead((PVOID)sharedTables.bitAllocTblUstrm_p,ptidsl->AppData.BitAllocTblUstrm, 32*sizeof(unsigned char)); ++ if(rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed \n"); ++ return; ++ } ++ /* margin per tone */ ++ sharedTables.marginTblDstrm_p = (signed char *)dslhal_support_byteSwap32((unsigned int)sharedTables.marginTblDstrm_p); ++ rc = dslhal_support_blockRead((PVOID)sharedTables.marginTblDstrm_p,ptidsl->AppData.marginTblDstrm, 256*sizeof(signed char)); ++ if(rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed \n"); ++ return; ++ } ++ /* Read Configured Options */ ++ dspOamSharedInterface.oamWriteNegoParams_p = (DEV_HOST_oamWrNegoParaDef_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.oamWriteNegoParams_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.oamWriteNegoParams_p, ++ &configParms, sizeof(DEV_HOST_oamWrNegoParaDef_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ else ++ { ++ /* r-Msg1 */ ++ ptidsl->AppData.StdMode = (unsigned int)configParms.stdMode; ++ if(configParms.stdMode == T1413_MODE) ++ ptidsl->AppData.StdMode = DSLTRAIN_T1413_MODE; ++ if(configParms.stdMode == GDMT_MODE) ++ ptidsl->AppData.StdMode = DSLTRAIN_GDMT_MODE; ++ if(configParms.stdMode == MULTI_MODE) ++ ptidsl->AppData.StdMode = DSLTRAIN_MULTI_MODE; ++ ++ shim_osMoveMemory((void *)ptidsl->AppData.bRMsgs1, (void *)configParms.rMsgs1, 6*sizeof(char)); ++ if((ptidsl->AppData.bRMsgs1[2] & 0x02) == 0x02) ++ { ++ dprintf(7,"Trellis!\n"); ++ ptidsl->configFlag |= CONFIG_FLAG_TRELLIS; ++ } ++ else ++ ptidsl->configFlag &= ~CONFIG_FLAG_TRELLIS; ++ if(ptidsl->AppData.bRMsgs1[2]&0x01) ++ ptidsl->configFlag |= CONFIG_FLAG_EC; ++ else ++ ptidsl->configFlag &= ~CONFIG_FLAG_EC; ++ } ++ return; ++} ++ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_initStatistics() ++* ++********************************************************************************************* ++* DESCRIPTION: init statistical information of ax5 modem daugter card. ++* ++* Input: tidsl_t *ptidsl ++* ++* Return: NULL ++* ++********************************************************************************************/ ++void dslhal_api_initStatistics(tidsl_t * ptidsl) ++{ ++ int rc; ++ /*TCHostCommDef TCHostCommParms; */ ++ int optIdxU, optIdxD; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ DEV_HOST_dspWrNegoParaDef_t rateparms; ++ DEV_HOST_modemStatsDef_t StatisticsDef; ++ DEV_HOST_errorStats_t usIntlvError, usFastError, dsIntlvError, dsFastError; ++ DEV_HOST_atmStats_t atmStats; ++ DEV_HOST_usAtmStats_t usAtmStats0, usAtmStats1; ++ DEV_HOST_dsAtmStats_t dsAtmStats0,dsAtmStats1; ++ DEV_HOST_dspWrSuperFrameCntDef_t SuperFrameCnt; ++ DEV_HOST_msg_t atuc_msg, aturMsg; ++ DEV_HOST_eocVarDef_t eocVar; ++ ++ dprintf(5, "dslhal_api_initStatistics\n"); ++ ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterface_t *) ptidsl->pmainAddr; ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ dspOamSharedInterface.dspWriteNegoParams_p = (DEV_HOST_dspWrNegoParaDef_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.dspWriteNegoParams_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.dspWriteNegoParams_p,&rateparms, sizeof(DEV_HOST_dspWrNegoParaDef_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ if(!rc) ++ { ++ /* shim_osMoveMemory((void *)ptidsl->AppData.bCRates1, (void *)rateparms.cRates1, SIZE_OF_CRATES1_TABLE); */ ++ ptidsl->AppData.bCRates2 = rateparms.cRates2; ++ /* shim_osMoveMemory((void *)ptidsl->AppData.bRRates1, (void *)rateparms.rRates1, 44); */ ++ ptidsl->AppData.bRRates2 = rateparms.rRates2; ++ shim_osMoveMemory((void *)ptidsl->AppData.bCMsgs1, (void *)rateparms.cMsgs1, 6); ++ shim_osMoveMemory((void *)ptidsl->AppData.bCMsgs2, (void *)rateparms.cMsgs2, 4); ++ shim_osMoveMemory((void *)ptidsl->AppData.bRMsgs2, (void *)rateparms.rMsgs2, 4); ++ ++ ptidsl->AppData.atucVendorId = dslhal_support_byteSwap32((unsigned int)rateparms.atucVendorId); ++ ptidsl->AppData.lineLength = (unsigned int)dslhal_support_byteSwap16((unsigned short)rateparms.lineLength); ++ ptidsl->AppData.atucRevisionNum = rateparms.atucGhsRevisionNum; ++ ptidsl->AppData.usLineAttn = (ptidsl->AppData.bCMsgs2[3] >>2)&0x003f; ++ ptidsl->AppData.usMargin = (ptidsl->AppData.bCMsgs2[2])&0x001f; ++ ++ /* Get the UpStream Connection Rate */ ++ /* Based on the Bit Pattern Get the Opt# */ ++ if((rateparms.cRates2 & 0x0f) == 0x01) ++ optIdxU = 0; ++ else if((rateparms.cRates2 & 0x0f) == 0x02) ++ optIdxU = 1; ++ else if((rateparms.cRates2 & 0x0f) == 0x04) ++ optIdxU = 2; ++ else if((rateparms.cRates2 & 0x0f) == 0x08) ++ optIdxU = 3; ++ else ++ optIdxU = -1; ++ dprintf(5, "optIdxU=%d\n", optIdxU); ++ /* Obtain the US Rates using Opt# and CRates1 Table */ ++ /* Rate(US) = [Bf(LS0) + Bi(LS0)]*32 */ ++ if(ptidsl->AppData.dsl_modulation <= DSLTRAIN_GLITE_MODE) ++ ptidsl->AppData.USConRate = ((rateparms.cRates1[optIdxU][CRATES1_BF_LS0] + rateparms.cRates1[optIdxU][CRATES1_BI_LS0]) * 32); ++ else ++ ptidsl->AppData.USConRate = dslhal_support_byteSwap16((unsigned short)rateparms.adsl2USRate); ++ ptidsl->AppData.USPeakCellRate = ptidsl->AppData.USConRate; ++ ++ /* Get the DownStream Connection Rate */ ++ /* Based on the Bit Pattern Get the Opt# */ ++ if(((rateparms.cRates2 >> 4) & 0x0f) == 0x01) ++ optIdxD = 0; ++ else if(((rateparms.cRates2 >> 4) & 0x0f) == 0x02) ++ optIdxD = 1; ++ else if(((rateparms.cRates2 >> 4) & 0x0f) == 0x04) ++ optIdxD = 2; ++ else if(((rateparms.cRates2 >> 4) & 0x0f) == 0x08) ++ optIdxD = 3; ++ else ++ optIdxD = -1; ++ /* Obtain the DS Rates using Opt# and CRates1 Table */ ++ /* Rate(DS) = [Bf(AS0) + Bi(AS0)]*32 */ ++ if(ptidsl->AppData.dsl_modulation <= DSLTRAIN_GLITE_MODE) ++ ptidsl->AppData.DSConRate = (((rateparms.cRates1[optIdxD][CRATES1_BF_AS0]|((rateparms.cRates1[optIdxD][CRATES1_BF_DSRS]&0x80)<<1))+ (rateparms.cRates1[optIdxD][CRATES1_BI_AS0]|((rateparms.cRates1[optIdxD][CRATES1_BI_DSRS]&0x80)<<1)))* 32); ++ else ++ ptidsl->AppData.DSConRate = dslhal_support_byteSwap16((unsigned short)rateparms.adsl2DSRate); ++ dprintf(5, "ptidsl->AppData.wDSConRate=%d\n", ptidsl->AppData.DSConRate); ++ /* Determine which Path has Modem Trained with */ ++ if((rateparms.cRates1[optIdxU][CRATES1_BF_LS0]) && (rateparms.cRates1[optIdxD][CRATES1_BF_AS0])) ++ ptidsl->AppData.TrainedPath = FAST_PATH; ++ else ++ ptidsl->AppData.TrainedPath = INTERLEAVED_PATH; ++ ++ /* Set the mode in which the modem is trained */ ++ ptidsl->AppData.TrainedMode = (unsigned int)rateparms.trainMode; ++ if(rateparms.trainMode == T1413_MODE) ++ ptidsl->AppData.TrainedMode = DSLTRAIN_T1413_MODE; ++ if(rateparms.trainMode == GDMT_MODE) ++ ptidsl->AppData.TrainedMode = DSLTRAIN_GDMT_MODE; ++ ++ if(ptidsl->AppData.TrainedPath == FAST_PATH) ++ ptidsl->AppData.dsFastParityBytesPerSymbol = (rateparms.cRates1[optIdxU][CRATES1_BF_DSRS]&0x1f); ++ else ++ ptidsl->AppData.dsIntlvParityBytesPerSymbol = (rateparms.cRates1[optIdxU][CRATES1_BI_DSRS]&0x1f); ++ ptidsl->AppData.dsSymbolsPerCodeWord = (rateparms.cRates1[optIdxU][CRATES1_BFI_DSS]&0x1f); ++ ptidsl->AppData.dsInterleaverDepth = ((rateparms.cRates1[optIdxU][CRATES1_BFI_DSI])|((rateparms.cRates1[optIdxU][CRATES1_BFI_DSS]&0xc0)<<2)); ++ ++ if(ptidsl->AppData.TrainedPath == FAST_PATH) ++ ptidsl->AppData.usFastParityBytesPerSymbol = (rateparms.cRates1[optIdxU][CRATES1_BF_USRS]&0x1f); ++ else ++ ptidsl->AppData.usIntlvParityBytesPerSymbol = (rateparms.cRates1[optIdxU][CRATES1_BI_USRS]&0x1f); ++ ptidsl->AppData.usSymbolsPerCodeWord = (rateparms.cRates1[optIdxU][CRATES1_BFI_USS]&0x1f); ++ ptidsl->AppData.usInterleaverDepth = ((rateparms.cRates1[optIdxU][CRATES1_BFI_USI])|((rateparms.cRates1[optIdxU][CRATES1_BFI_USS]&0xc0)<<2)); ++ } ++ ++ /* get the Statistics itself */ ++ ++ dspOamSharedInterface.modemStats_p = (DEV_HOST_modemStatsDef_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.modemStats_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.modemStats_p,&StatisticsDef, sizeof(DEV_HOST_modemStatsDef_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ ++ /* Populate the Error Structure Variables */ ++ ++ /* US Interleave Path Error Statistics */ ++ ++ /* Change the endianness of the Pointer */ ++ StatisticsDef.usErrorStatsIntlv_p = (DEV_HOST_errorStats_t *) dslhal_support_byteSwap32((unsigned int)StatisticsDef.usErrorStatsIntlv_p); ++ ++ rc = dslhal_support_blockRead((PVOID)StatisticsDef.usErrorStatsIntlv_p,&usIntlvError, (sizeof(DEV_HOST_errorStats_t))); ++ ++ if (rc) ++ return; ++ ++ /* DS Interleave Path Error Statistics */ ++ ++ /* Change the endianness of the Pointer */ ++ StatisticsDef.dsErrorStatsIntlv_p = (DEV_HOST_errorStats_t *) dslhal_support_byteSwap32((unsigned int)StatisticsDef.dsErrorStatsIntlv_p); ++ ++ rc = dslhal_support_blockRead((PVOID)StatisticsDef.dsErrorStatsIntlv_p,&dsIntlvError, (sizeof(DEV_HOST_errorStats_t))); ++ ++ if (rc) ++ return; ++ ++ /* US Fast Path Error Statistics */ ++ ++ /* Change the endianness of the Pointer */ ++ StatisticsDef.usErrorStatsFast_p = (DEV_HOST_errorStats_t *) dslhal_support_byteSwap32((unsigned int)StatisticsDef.usErrorStatsFast_p); ++ ++ rc = dslhal_support_blockRead((PVOID)StatisticsDef.usErrorStatsFast_p,&usFastError, (sizeof(DEV_HOST_errorStats_t))); ++ ++ if (rc) ++ return; ++ ++ ++ /* DS Fast Path Error Statistics */ ++ ++ /* Change the endianness of the Pointer */ ++ StatisticsDef.dsErrorStatsFast_p = (DEV_HOST_errorStats_t *) dslhal_support_byteSwap32((unsigned int)StatisticsDef.dsErrorStatsFast_p); ++ ++ rc = dslhal_support_blockRead((PVOID)StatisticsDef.dsErrorStatsFast_p,&dsFastError, (sizeof(DEV_HOST_errorStats_t))); ++ ++ if (rc) ++ return; ++ ++ if(ptidsl->AppData.bState > 2) ++ { ++ /* Get CRC Errors Stats for both US and DS */ ++ ptidsl->AppData.dsICRC_errors = dslhal_support_byteSwap32((unsigned int)dsIntlvError.crcErrors); ++ ptidsl->AppData.dsFCRC_errors = dslhal_support_byteSwap32((unsigned int)dsFastError.crcErrors); ++ ptidsl->AppData.usICRC_errors = dslhal_support_byteSwap32((unsigned int)usIntlvError.crcErrors); ++ ptidsl->AppData.usFCRC_errors = dslhal_support_byteSwap32((unsigned int)usFastError.crcErrors); ++ /* Get FEC Errors Stats for both US and DS */ ++ ptidsl->AppData.dsIFEC_errors = dslhal_support_byteSwap32((unsigned int)dsIntlvError.fecErrors); ++ ptidsl->AppData.dsFFEC_errors = dslhal_support_byteSwap32((unsigned int)dsFastError.fecErrors); ++ ptidsl->AppData.usIFEC_errors = dslhal_support_byteSwap32((unsigned int)usIntlvError.fecErrors); ++ ptidsl->AppData.usFFEC_errors = dslhal_support_byteSwap32((unsigned int)usFastError.fecErrors); ++ /* Get NCD Errors Stats for both US and DS */ ++ ptidsl->AppData.dsINCD_error = dslhal_support_byteSwap32((unsigned int)dsIntlvError.ncdError); ++ ptidsl->AppData.dsFNCD_error = dslhal_support_byteSwap32((unsigned int)dsFastError.ncdError); ++ ptidsl->AppData.usINCD_error = dslhal_support_byteSwap32((unsigned int)usIntlvError.ncdError); ++ ptidsl->AppData.usFNCD_error = dslhal_support_byteSwap32((unsigned int)usFastError.ncdError); ++ /* Get LCD Errors Stats for both US and DS */ ++ ptidsl->AppData.dsILCD_errors = dslhal_support_byteSwap32((unsigned int)dsIntlvError.lcdErrors); ++ ptidsl->AppData.dsFLCD_errors = dslhal_support_byteSwap32((unsigned int)dsFastError.lcdErrors); ++ ptidsl->AppData.usILCD_errors = dslhal_support_byteSwap32((unsigned int)usIntlvError.lcdErrors); ++ ptidsl->AppData.usFLCD_errors = dslhal_support_byteSwap32((unsigned int)usFastError.lcdErrors); ++ /*Get HEC Errors Stats for both US and DS */ ++ ptidsl->AppData.dsIHEC_errors = dslhal_support_byteSwap32((unsigned int)dsIntlvError.hecErrors); ++ ptidsl->AppData.dsFHEC_errors = dslhal_support_byteSwap32((unsigned int)dsFastError.hecErrors); ++ ptidsl->AppData.usIHEC_errors = dslhal_support_byteSwap32((unsigned int)usIntlvError.hecErrors); ++ ptidsl->AppData.usFHEC_errors = dslhal_support_byteSwap32((unsigned int)usFastError.hecErrors); ++ ++ /* Get LOS and SEF error Stats */ ++ ptidsl->AppData.LOS_errors = dslhal_support_byteSwap32(StatisticsDef.losErrors); ++ ptidsl->AppData.SEF_errors = dslhal_support_byteSwap32(StatisticsDef.sefErrors); ++ ptidsl->AppData.coLosErrors = dslhal_support_byteSwap32(StatisticsDef.farEndLosErrors); ++ ptidsl->AppData.coRdiErrors = dslhal_support_byteSwap32(StatisticsDef.farEndRdiErrors); ++ ++ dspOamSharedInterface.atmStats_p = (DEV_HOST_atmStats_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.atmStats_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.atmStats_p,&atmStats, sizeof(DEV_HOST_atmStats_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ ++ /* Populate the US/DS ATM Stats Variables */ ++ ++ /* US ATM Statistics */ ++ ++ /* Change the endianness of the Pointer */ ++ atmStats.us0_p = (DEV_HOST_usAtmStats_t *) dslhal_support_byteSwap32((unsigned int)atmStats.us0_p); ++ ++ rc = dslhal_support_blockRead((PVOID)atmStats.us0_p,&usAtmStats0, (sizeof(DEV_HOST_usAtmStats_t))); ++ ++ if (rc) ++ return; ++ ++ /* Change the endianness of the Pointer */ ++ atmStats.us1_p = (DEV_HOST_usAtmStats_t *) dslhal_support_byteSwap32((unsigned int)atmStats.us1_p); ++ ++ rc = dslhal_support_blockRead((PVOID)atmStats.us1_p,&usAtmStats1, (sizeof(DEV_HOST_usAtmStats_t))); ++ ++ if (rc) ++ return; ++ ++ ++ /* DS ATM Statistics */ ++ ++ /* Change the endianness of the Pointer */ ++ atmStats.ds0_p = (DEV_HOST_dsAtmStats_t *) dslhal_support_byteSwap32((unsigned int)atmStats.ds0_p); ++ ++ rc = dslhal_support_blockRead((PVOID)atmStats.ds0_p,&dsAtmStats0, (sizeof(DEV_HOST_dsAtmStats_t))); ++ ++ if (rc) ++ return; ++ ++ /* Change the endianness of the Pointer */ ++ atmStats.ds1_p = (DEV_HOST_dsAtmStats_t *) dslhal_support_byteSwap32((unsigned int)atmStats.ds1_p); ++ ++ rc = dslhal_support_blockRead((PVOID)atmStats.ds1_p,&dsAtmStats1, (sizeof(DEV_HOST_dsAtmStats_t))); ++ ++ if (rc) ++ return; ++ /* Get ATM Stats for both US and DS Channel 0*/ ++ ptidsl->AppData.usAtm_count[0] = dslhal_support_byteSwap32(usAtmStats0.goodCount); ++ ptidsl->AppData.usIdle_count[0] = dslhal_support_byteSwap32(usAtmStats0.idleCount); ++#if SWTC ++ ptidsl->AppData.usPdu_count[0] = dslhal_support_byteSwap32(usAtmStats0.pduCount); ++#endif ++ ptidsl->AppData.dsGood_count[0] = dslhal_support_byteSwap32(dsAtmStats0.goodCount); ++ ptidsl->AppData.dsIdle_count[0] = dslhal_support_byteSwap32(dsAtmStats0.idleCount); ++#if SWTC ++ ptidsl->AppData.dsPdu_count[0] = dslhal_support_byteSwap32(dsAtmStats0.pduCount); ++#endif ++ ptidsl->AppData.dsBadHec_count[0] = dslhal_support_byteSwap32((dsAtmStats0.badHecCount)); ++ ptidsl->AppData.dsOVFDrop_count[0] = dslhal_support_byteSwap32((dsAtmStats0.ovflwDropCount)); ++ ++ /* Get ATM Stats for both US and DS Channel 1*/ ++ ptidsl->AppData.usAtm_count[1] = dslhal_support_byteSwap32(usAtmStats1.goodCount); ++ ptidsl->AppData.usIdle_count[1] = dslhal_support_byteSwap32(usAtmStats1.idleCount); ++#if SWTC ++ ptidsl->AppData.usPdu_count[1] = dslhal_support_byteSwap32(usAtmStats1.pduCount); ++#endif ++ ptidsl->AppData.dsGood_count[1] = dslhal_support_byteSwap32(dsAtmStats1.goodCount); ++ ptidsl->AppData.dsIdle_count[1] = dslhal_support_byteSwap32(dsAtmStats1.idleCount); ++#if SWTC ++ ptidsl->AppData.dsPdu_count[1] = dslhal_support_byteSwap32(dsAtmStats1.pduCount); ++#endif ++ ptidsl->AppData.dsBadHec_count[1] = dslhal_support_byteSwap32((dsAtmStats1.badHecCount)); ++ ptidsl->AppData.dsOVFDrop_count[1] = dslhal_support_byteSwap32((dsAtmStats1.ovflwDropCount)); ++ ++ ++ /* Determine the US and DS Superframe Count */ ++ ++ dspOamSharedInterface.dspWriteSuperFrameCnt_p = (DEV_HOST_dspWrSuperFrameCntDef_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.dspWriteSuperFrameCnt_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.dspWriteSuperFrameCnt_p,&SuperFrameCnt, sizeof(DEV_HOST_dspWrSuperFrameCntDef_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ ++ ptidsl->AppData.usSuperFrmCnt = dslhal_support_byteSwap32(SuperFrameCnt.wSuperFrameCntUstrm); ++ ptidsl->AppData.dsSuperFrmCnt = dslhal_support_byteSwap32(SuperFrameCnt.wSuperFrameCntDstrm); ++ ++ /* Determine Frame Mode and Max Frame Mode */ ++ ++ dspOamSharedInterface.atucMsg_p = (DEV_HOST_msg_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.atucMsg_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.atucMsg_p,&atuc_msg, sizeof(DEV_HOST_msg_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ ++ ptidsl->AppData.FrmMode = (unsigned int)atuc_msg.framingMode; ++ ptidsl->AppData.MaxFrmMode = (unsigned int)atuc_msg.maxFrameMode; ++ ++ /* Determine Gross Gain */ ++ ++ dspOamSharedInterface.aturMsg_p = (DEV_HOST_msg_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.aturMsg_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.aturMsg_p,&aturMsg, sizeof(DEV_HOST_msg_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ ptidsl->AppData.grossGain = (unsigned int)aturMsg.grossGain; ++ /* Determine DS Line Attenuation & Margin */ ++ dspOamSharedInterface.eocVar_p = (DEV_HOST_eocVarDef_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.eocVar_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.eocVar_p,&eocVar, sizeof(DEV_HOST_eocVarDef_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return; ++ } ++ ++ ptidsl->AppData.dsLineAttn = (unsigned int)eocVar.lineAtten; ++ ptidsl->AppData.dsMargin = (unsigned int)eocVar.dsMargin; ++ } ++ ++#if __HOST_FORINTERNALUSEONLY_R_H__ ++ ptidsl->AppData.BER = dslhal_INTERNAL_computeAtmBitErrorRate(ptidsl); ++#endif ++ dprintf(5, "initstatistics done\n"); ++ return; ++ } ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_disableLosAlarm(tidsl_t *ptidsl,unsigned int set) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction enables/disables all the LOS alarms ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * unsigned int set; //if set is TRUE: LOS Alarms are disabled else enabled ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * NOTES: Currently not supported in any version other than MR4 Patch release.. ++ *****************************************************************************************/ ++unsigned int dslhal_api_disableLosAlarm(tidsl_t *ptidsl,unsigned int set) ++{ ++ DEV_HOST_oamWrNegoParaDef_t NegoPara; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ int rc; ++ dprintf(5," dslhal_api_setTrainingMode()\n"); ++ if(!ptidsl) ++ { ++ dprintf(3, "Error: PTIDSL pointer invalid\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface, ++ sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ dspOamSharedInterface.oamWriteNegoParams_p = (DEV_HOST_oamWrNegoParaDef_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.oamWriteNegoParams_p); ++ ++ rc = dslhal_support_blockRead((PVOID) dspOamSharedInterface.oamWriteNegoParams_p,&NegoPara, sizeof(DEV_HOST_oamWrNegoParaDef_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ if(set) ++ { ++ NegoPara.disableLosAlarm = TRUE; ++ /* NegoPara.marginMonitorTrning = TRUE; ++ NegoPara.marginMonitorShwtme = TRUE;*/ ++ } ++ else ++ { ++ NegoPara.disableLosAlarm = FALSE; ++ /* NegoPara.marginMonitorTrning = FALSE; ++ NegoPara.marginMonitorShwtme = FALSE;*/ ++ } ++ ++ rc = dslhal_support_blockWrite(&NegoPara,(PVOID)dspOamSharedInterface.oamWriteNegoParams_p, sizeof(DEV_HOST_oamWrNegoParaDef_t)); ++ if(rc) ++ return DSLHAL_ERROR_CONFIG_API_FAILURE; ++ dprintf(5," dslhal_api_disableLosAlarm() Done\n"); ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_setMarginThreshold(tidsl_t *ptidsl,int threshold) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction does sets the Margin threshold ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * int threshold ++ * ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_setMarginThreshold(tidsl_t *ptidsl, int threshold) ++{ ++ DEV_HOST_oamWrNegoParaDef_t NegoPara; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ int rc; ++ ++ dprintf(5," dslhal_ctrl_setThreshold()\n"); ++ ++ if(!ptidsl) ++ { ++ dprintf(3, "Error: PTIDSL pointer invalid\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ dspOamSharedInterface.oamWriteNegoParams_p = (DEV_HOST_oamWrNegoParaDef_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.oamWriteNegoParams_p); ++ ++ ++ rc = dslhal_support_blockRead((PVOID) dspOamSharedInterface.oamWriteNegoParams_p,&NegoPara, sizeof(DEV_HOST_oamWrNegoParaDef_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ NegoPara.marginThreshold = threshold; ++ ++ rc = dslhal_support_blockWrite(&NegoPara,dspOamSharedInterface.oamWriteNegoParams_p, sizeof(DEV_HOST_oamWrNegoParaDef_t)); ++ ++ if(rc) ++ return DSLHAL_ERROR_MARGIN_API_FAILURE; ++ ++ dprintf(5," dslhal_api_setThreshold() Done\n"); ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_setMonitorFlags(tidsl_t *ptidsl, unsigned int trainflag,unsigned int shwtflag) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction does sets the Margin monitoring flag ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * unsigned int trainflag ++ * unsigned int shwtflag ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_setMarginMonitorFlags(tidsl_t *ptidsl,unsigned int trainflag,unsigned int shwtflag) ++{ ++ DEV_HOST_oamWrNegoParaDef_t NegoPara; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ int rc; ++ ++ dprintf(5," dslhal_ctrl_setMonitorFlags()\n"); ++ ++ if(!ptidsl) ++ { ++ dprintf(3, "Error: PTIDSL pointer invalid\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ dspOamSharedInterface.oamWriteNegoParams_p = (DEV_HOST_oamWrNegoParaDef_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.oamWriteNegoParams_p); ++ ++ ++ rc = dslhal_support_blockRead((PVOID) dspOamSharedInterface.oamWriteNegoParams_p,&NegoPara, sizeof(DEV_HOST_oamWrNegoParaDef_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ if (trainflag) ++ { ++ NegoPara.marginMonitorTrning = TRUE; ++ } ++ else ++ { ++ NegoPara.marginMonitorTrning = FALSE; ++ } ++ if (shwtflag) ++ { ++ NegoPara.marginMonitorShwtme = TRUE; ++ } ++ else ++ { ++ NegoPara.marginMonitorShwtme = FALSE; ++ } ++ ++ rc = dslhal_support_blockWrite(&NegoPara,dspOamSharedInterface.oamWriteNegoParams_p, sizeof(DEV_HOST_oamWrNegoParaDef_t)); ++ if(rc) ++ return DSLHAL_ERROR_MARGIN_API_FAILURE; ++ dprintf(5," dslhal_api_setMonitorFlags() Done\n"); ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_setEocSerialNumber(tidsl_t *ptidsl,char *SerialNum) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction Sets the eoc Serial Number ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * char *SerialNum : Input eoc Serial Number ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_setEocSerialNumber(tidsl_t *ptidsl,char *SerialNumber) ++{ ++ DEV_HOST_eocVarDef_t eocVar; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ int rc; ++ dprintf(5," dslhal_api_setEocSerialNumber()\n"); ++ ++ if(!ptidsl) ++ { ++ dprintf(3, "Error: PTIDSL pointer invalid\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ dspOamSharedInterface.eocVar_p = (DEV_HOST_eocVarDef_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.eocVar_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.eocVar_p, ++ &eocVar, sizeof(DEV_HOST_eocVarDef_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ shim_osMoveMemory(eocVar.serialNumber,SerialNumber,32); ++ ++ rc= dslhal_support_blockWrite(&eocVar,dspOamSharedInterface.eocVar_p,sizeof(DEV_HOST_eocVarDef_t)); ++ if(rc) ++ return DSLHAL_ERROR_EOCREG_API_FAILURE; ++ dprintf(5," dslhal_api_setEocSerialNumber() Done\n"); ++ ++ return DSLHAL_ERROR_NO_ERRORS; ++ ++} ++ ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_setEocVendorId(tidsl_t *ptidsl,char *VendorID) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction Sets the eoc Vendor ID ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * char *VendorID : Input eoc Vendor ID ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_setEocVendorId(tidsl_t *ptidsl,char *VendorID) ++{ ++ DEV_HOST_oamWrNegoParaDef_t NegoPara; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ int rc; ++ dprintf(5," dslhal_api_setEocVendorId()\n"); ++ ++ if(!ptidsl) ++ { ++ dprintf(3, "Error: PTIDSL pointer invalid\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ dspOamSharedInterface.oamWriteNegoParams_p = (DEV_HOST_oamWrNegoParaDef_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.oamWriteNegoParams_p); ++ ++ ++ rc = dslhal_support_blockRead((PVOID) dspOamSharedInterface.oamWriteNegoParams_p,&NegoPara, sizeof(DEV_HOST_oamWrNegoParaDef_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ shim_osMoveMemory(NegoPara.gdmtVendorId,VendorID,8); ++ rc= dslhal_support_blockWrite(&NegoPara,dspOamSharedInterface.oamWriteNegoParams_p, sizeof(DEV_HOST_oamWrNegoParaDef_t)); ++ if(rc) ++ return DSLHAL_ERROR_EOCREG_API_FAILURE; ++ ++ dprintf(5," dslhal_api_setEocVendorId() Done\n"); ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_setEocRevisionNumber(tidsl_t *ptidsl,char *RevNum) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction Sets the eoc Revision Number ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * char *RevNum : Input eoc Revision Number ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_setEocRevisionNumber(tidsl_t *ptidsl,char *RevNumber) ++{ ++ ++ DEV_HOST_eocVarDef_t eocVar; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ int rc; ++ /*add for UR2 test */ ++ UINT8 selfTestResults[2]; ++ memset(selfTestResults,0x00,sizeof(selfTestResults)); ++ /* add for UR2 test */ ++ dprintf(5," dslhal_api_setEocRevisionNumber()\n"); ++ ++ if(!ptidsl) ++ { ++ dprintf(3, "Error: PTIDSL pointer invalid\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ dspOamSharedInterface.eocVar_p = (DEV_HOST_eocVarDef_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.eocVar_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.eocVar_p, ++ &eocVar, sizeof(DEV_HOST_eocVarDef_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ shim_osMoveMemory(eocVar.revNumber,RevNumber,4); ++ /* add for UR2 test */ ++ shim_osMoveMemory(eocVar.dummy,selfTestResults,2); ++ /* add for UR2 test */ ++ rc=dslhal_support_blockWrite(&eocVar,dspOamSharedInterface.eocVar_p,sizeof(DEV_HOST_eocVarDef_t)); ++ if(rc) ++ return DSLHAL_ERROR_EOCREG_API_FAILURE; ++ dprintf(5," dslhal_api_setEocRevisionNumber Done\n"); ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_setAturConfig(tidsl_t *ptidsl,char *ATURConfig) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction Sets the eoc ATUR Config Register ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * char *ATURConfig : Input eoc ATUR Config Register ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_setAturConfig(tidsl_t *ptidsl,char *ATURConfig) ++{ ++ ++ DEV_HOST_eocVarDef_t eocVar; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ int rc; ++ dprintf(5," dslhal_api_setAturConfig()\n"); ++ ++ if(!ptidsl) ++ { ++ dprintf(3, "Error: PTIDSL pointer invalid\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ dspOamSharedInterface.eocVar_p = (DEV_HOST_eocVarDef_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.eocVar_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.eocVar_p, ++ &eocVar, sizeof(DEV_HOST_eocVarDef_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ shim_osMoveMemory(eocVar.aturConfig,ATURConfig,30); ++ rc= dslhal_support_blockWrite(&eocVar,dspOamSharedInterface.eocVar_p,sizeof(DEV_HOST_eocVarDef_t)); ++ if(rc) ++ return DSLHAL_ERROR_EOCREG_API_FAILURE; ++ dprintf(5," dslhal_api_setAturConfig() Done\n"); ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_api_setRateAdaptFlag(tidsl_t *ptidsl,unsigned int flag) ++* ++******************************************************************************************* ++* DESCRIPTION: This fuction Sets the Rate Adapt Enable Flag ++* ++* INPUT: PITIDSLHW_T *ptidsl ++* unsigned int flag; //if flag = TRUE set rateadapt flag else reset it ++* RETURN: 0 SUCCESS ++* 1 FAILED ++* ++*****************************************************************************************/ ++unsigned int dslhal_api_setRateAdaptFlag(tidsl_t *ptidsl,unsigned int flag) ++{ ++ DEV_HOST_msg_t aturMsg; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ int rc; ++ dprintf(5," dslhal_api_setRateAdaptFlag()\n"); ++ ++ if(!ptidsl) ++ { ++ dprintf(3, "Error: PTIDSL pointer invalid\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ dspOamSharedInterface.aturMsg_p = (DEV_HOST_msg_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.aturMsg_p); ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.aturMsg_p, ++ &aturMsg, sizeof(DEV_HOST_msg_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ if(flag) ++ aturMsg.rateAdapt = TRUE; ++ else ++ aturMsg.rateAdapt = FALSE; ++ ++ rc= dslhal_support_blockWrite(&aturMsg,dspOamSharedInterface.aturMsg_p,sizeof(DEV_HOST_msg_t)); ++ if(rc) ++ return DSLHAL_ERROR_CONFIG_API_FAILURE; ++ dprintf(5," dslhal_api_setRateAdaptFlag() Done\n"); ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_api_setTrellisFlag(tidsl_t *ptidsl,unsigned int flag) ++* ++******************************************************************************************* ++* DESCRIPTION: This fuction Sets the Trellis Coding Enable Flag ++* ++* INPUT: PITIDSLHW_T *ptidsl ++* unsigned int flag; // if flag = TRUE, set trellis flag else reset ++* RETURN: 0 SUCCESS ++* 1 FAILED ++* ++*****************************************************************************************/ ++unsigned int dslhal_api_setTrellisFlag(tidsl_t *ptidsl,unsigned int flag) ++{ ++ ++ DEV_HOST_msg_t aturMsg; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ DEV_HOST_oamWrNegoParaDef_t negoPara; ++ int rc; ++ dprintf(5," dslhal_api_setTrellisFlag()\n"); ++ if(!ptidsl) ++ { ++ dprintf(3, "Error: PTIDSL pointer invalid\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ dspOamSharedInterface.aturMsg_p = (DEV_HOST_msg_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.aturMsg_p); ++ rc += dslhal_support_blockRead((PVOID)dspOamSharedInterface.aturMsg_p,&aturMsg, sizeof(DEV_HOST_msg_t)); ++ dspOamSharedInterface.oamWriteNegoParams_p = (DEV_HOST_oamWrNegoParaDef_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.oamWriteNegoParams_p); ++ rc += dslhal_support_blockRead((PVOID) dspOamSharedInterface.oamWriteNegoParams_p,&negoPara, sizeof(DEV_HOST_oamWrNegoParaDef_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ if(flag) ++ { ++ aturMsg.trellis = TRUE; ++ negoPara.rMsgs1[2] |= 0x02; ++ } ++ else ++ { ++ aturMsg.trellis = FALSE; ++ negoPara.rMsgs1[2] &= 0xFD; ++ } ++ rc=0; ++ rc+=dslhal_support_blockWrite(&aturMsg,dspOamSharedInterface.aturMsg_p,sizeof(DEV_HOST_msg_t)); ++ rc+= dslhal_support_blockWrite(&negoPara,dspOamSharedInterface.oamWriteNegoParams_p, sizeof(DEV_HOST_oamWrNegoParaDef_t)); ++ if(rc) ++ return DSLHAL_ERROR_CONFIG_API_FAILURE; ++ ++ dprintf(5," dslhal_api_setTrellisFlag() Done\n"); ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_api_setMaxBitsPerCarrier(tidsl_t *ptidsl,unsigned int maxbits) ++* ++******************************************************************************************* ++* DESCRIPTION: This fuction Sets the Maximum bits per carrier value ++* ++* INPUT: PITIDSLHW_T *ptidsl ++* unsigned int maxbits : should be a value between 0-15 ++* ++* RETURN: 0 SUCCESS ++* 1 FAILED ++* ++*****************************************************************************************/ ++unsigned int dslhal_api_setMaxBitsPerCarrier(tidsl_t *ptidsl,unsigned int maxbits) ++{ ++ ++ DEV_HOST_msg_t aturMsg; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ int rc; ++ ++ dprintf(5," dslhal_api_setMaxBitsPerCarrier()\n"); ++ if(maxbits>15) ++ { ++ dprintf(3,"Maximum Number of Bits per carrier cannot exceed 15!\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ ++ if(!ptidsl) ++ { ++ dprintf(3, "Error: PTIDSL pointer invalid\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ dspOamSharedInterface.aturMsg_p = (DEV_HOST_msg_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.aturMsg_p); ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.aturMsg_p, ++ &aturMsg, sizeof(DEV_HOST_msg_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ aturMsg.maxBits = maxbits; ++ ++ rc=dslhal_support_blockWrite(&aturMsg,dspOamSharedInterface.aturMsg_p,sizeof(DEV_HOST_msg_t)); ++ if(rc) ++ return DSLHAL_ERROR_CONFIG_API_FAILURE; ++ dprintf(5," dslhal_api_setMaxBitsPerCarrier() Done\n"); ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_api_setMaxInterleaverDepth(tidsl_t *ptidsl,unsigned int maxdepth) ++* ++******************************************************************************************* ++* DESCRIPTION: This fuction Sets the Maximum Interleave Depth Supported ++* ++* INPUT: PITIDSLHW_T *ptidsl ++* unsigned int maxdepth : Should be between 0 and 3 depending on intlv buffer ++* size 64-512 ++* RETURN: 0 SUCCESS ++* 1 FAILED ++* ++*****************************************************************************************/ ++unsigned int dslhal_api_setMaxInterleaverDepth(tidsl_t *ptidsl,unsigned int maxdepth) ++{ ++ DEV_HOST_msg_t aturMsg; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ int rc; ++ dprintf(5," dslhal_api_setMaxInterleaverDepth()\n"); ++ if(maxdepth>3) ++ { ++ dprintf(3,"Invalid Value for maximum interleave depth (must be <3)\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ ++ if(!ptidsl) ++ { ++ dprintf(3, "Error: PTIDSL pointer invalid\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ dspOamSharedInterface.aturMsg_p = (DEV_HOST_msg_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.aturMsg_p); ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.aturMsg_p, ++ &aturMsg, sizeof(DEV_HOST_msg_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ aturMsg.maxIntlvDepth = maxdepth; ++ ++ rc=dslhal_support_blockWrite(&aturMsg,dspOamSharedInterface.aturMsg_p,sizeof(DEV_HOST_msg_t)); ++ if(rc) ++ return DSLHAL_ERROR_CONFIG_API_FAILURE; ++ dprintf(5," dslhal_api_setMaxInterleaverDepth() Done\n"); ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_acknowledgeInterrupt() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Sets the host interrupt bit masks ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_acknowledgeInterrupt(tidsl_t * ptidsl) ++{ ++ unsigned int interruptSources=0; ++ /* Clear out the DSLSS Interrupt Registers to acknowledge Interrupt */ ++ if(DSLHAL_REG32(dslhal_support_hostDspAddressTranslate(DSP_INTERRUPT_SOURCE_REGISTER))&MASK_MAILBOX_INTERRUPTS) ++ { ++ DSLHAL_REG32(dslhal_support_hostDspAddressTranslate(DSP_INTERRUPT_CLEAR_REGISTER))|=MASK_MAILBOX_INTERRUPTS; ++ dprintf(5,"Mailbox Interrupt \n"); ++ } ++ if(DSLHAL_REG32(dslhal_support_hostDspAddressTranslate(DSP_INTERRUPT_SOURCE_REGISTER))&MASK_BITFIELD_INTERRUPTS) ++ { ++ DSLHAL_REG32(dslhal_support_hostDspAddressTranslate(DSP_INTERRUPT_CLEAR_REGISTER))|=MASK_BITFIELD_INTERRUPTS; ++ dprintf(5,"Bitfield Interrupt \n"); ++ } ++ if(DSLHAL_REG32(dslhal_support_hostDspAddressTranslate(DSP_INTERRUPT_SOURCE_REGISTER))&MASK_HEARTBEAT_INTERRUPTS) ++ { ++ DSLHAL_REG32(dslhal_support_hostDspAddressTranslate(DSP_INTERRUPT_CLEAR_REGISTER))|=MASK_HEARTBEAT_INTERRUPTS; ++ dprintf(5,"HeartBeat Interrupt \n"); ++ } ++ interruptSources = dslhal_support_parseInterruptSource(ptidsl); ++ if(interruptSources < 0) ++ return DSLHAL_ERROR_INTERRUPT_FAILURE; ++ else ++ return interruptSources; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_disableDspHybridSelect() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Sets the host interrupt bit masks ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_disableDspHybridSelect(tidsl_t * ptidsl,unsigned int disable) ++{ ++ int rc; ++ DEV_HOST_phyPerf_t phyPerf; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ dspOamSharedInterface.phyPerf_p = (DEV_HOST_phyPerf_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.phyPerf_p); ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.phyPerf_p, ++ &phyPerf, sizeof(DEV_HOST_phyPerf_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ if(disable==1) ++ { ++ phyPerf.disableDspHybridSelect_f = TRUE; ++ // hybrid_selected = 888; ++ } ++ else ++ { ++ phyPerf.disableDspHybridSelect_f = FALSE; ++ // hybrid_selected = 888; ++ } ++ rc=dslhal_support_blockWrite(&phyPerf,dspOamSharedInterface.phyPerf_p,sizeof(DEV_HOST_phyPerf_t)); ++ if(rc) ++ return DSLHAL_ERROR_HYBRID_API_FAILURE; ++ else ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_selectHybrid() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Sets the host interrupt bit masks ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_selectHybrid(tidsl_t * ptidsl,unsigned int hybridNum) ++{ ++ int rc; ++ DEV_HOST_phyPerf_t phyPerf; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ if(hybridNum<1||hybridNum>4) ++ { ++ dprintf(3,"Invalid Value for Hybrid Number \n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ ++ if(!ptidsl) ++ { ++ dprintf(3, "Error: PTIDSL pointer invalid\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ dspOamSharedInterface.phyPerf_p = (DEV_HOST_phyPerf_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.phyPerf_p); ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.phyPerf_p, ++ &phyPerf, sizeof(DEV_HOST_phyPerf_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ phyPerf.hostSelectHybridNum = hybridNum; ++ rc=dslhal_support_blockWrite(&phyPerf,dspOamSharedInterface.phyPerf_p,sizeof(DEV_HOST_phyPerf_t)); ++ if(rc) ++ return DSLHAL_ERROR_HYBRID_API_FAILURE; ++ else ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_reportHybridMetrics() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Sets the host interrupt bit masks ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_reportHybridMetrics(tidsl_t * ptidsl,int *metric) ++{ ++ int rc,i; ++ DEV_HOST_phyPerf_t phyPerf; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ if(hybrid_selected>5) ++ { ++ dprintf(4,"Hybrid Metrics Not Yet Available \n"); ++ } ++ if(!ptidsl) ++ { ++ dprintf(3, "Error: PTIDSL pointer invalid\n"); ++ return (0-DSLHAL_ERROR_INVALID_PARAM); ++ } ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return (0-DSLHAL_ERROR_BLOCK_READ); ++ } ++ ++ dspOamSharedInterface.phyPerf_p = (DEV_HOST_phyPerf_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.phyPerf_p); ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.phyPerf_p, ++ &phyPerf, sizeof(DEV_HOST_phyPerf_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return (0-DSLHAL_ERROR_BLOCK_READ); ++ } ++ rc = sizeof(phyPerf.hybridCost); ++ for(i=0;i<(rc/4);i++) ++ { ++ metric[i] = dslhal_support_byteSwap32(phyPerf.hybridCost[i]); ++ } ++ return hybrid_selected; ++} ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_selectInnerOuterPair(tidsl_t *ptidsl,unsigned int pairSelect) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction selects inner/outer pair on RJ11. ++ * ++ * INPUT: PITIDSLHW_T *ptidsl , unsigned int pairSelect ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_selectInnerOuterPair(tidsl_t *ptidsl,unsigned int pairSelect) ++{ ++ int rc; ++ ++ dprintf(5, "dslhal_api_sendQuiet\n"); ++ rc = dslhal_support_writeHostMailbox(ptidsl, HOST_RJ11SELECT, (unsigned int)pairSelect, 0, 0); ++ if(rc) ++ { ++ dprintf(1,"dslhal_api_sendQuiet failed\n"); ++ return DSLHAL_ERROR_CTRL_API_FAILURE; ++ } ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_resetTrainFailureLog(tidsl_t *ptidsl) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction resets the failed state log stored ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_resetTrainFailureLog(tidsl_t *ptidsl) ++{ ++ ++ int rc; ++ dprintf(5, "dslhal_api_resetTrainFailureLog \n"); ++ for(rc=0;rc<ptidsl->AppData.trainFails;rc++) ++ { ++ ptidsl->AppData.trainFailStates[rc]=0; ++ } ++ ptidsl->AppData.trainFails = 0; ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_configureLed() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Sets the host interrupt bit masks ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_configureLed(tidsl_t * ptidsl,unsigned int idLed, unsigned int onOff) ++{ ++ int rc; ++ DEV_HOST_modemEnvPublic_t modemEnv; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ if(idLed>2 || onOff>2) ++ { ++ dprintf(3,"Invalid input parameter \n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ ++ if(!ptidsl) ++ { ++ dprintf(3, "Error: PTIDSL pointer invalid\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ dspOamSharedInterface.modemEnvPublic_p = (DEV_HOST_modemEnvPublic_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.modemEnvPublic_p); ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.modemEnvPublic_p, ++ &modemEnv, sizeof(DEV_HOST_modemEnvPublic_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ if(idLed==ID_DSL_LINK_LED) ++ { ++ modemEnv.overrideDslLinkLed_f = TRUE; ++ if(onOff!=2) ++ modemEnv.dslLinkLedState_f = onOff; ++ } ++ if(idLed==ID_DSL_ACT_LED) ++ { ++ modemEnv.overrideDslLinkLed_f = TRUE; ++ if(onOff!=2) ++ modemEnv.dslLinkLedState_f = onOff; ++ } ++ if(idLed==ID_RESTORE_DEFAULT_LED) ++ { ++ modemEnv.overrideDslLinkLed_f = FALSE; ++ modemEnv.overrideDslActLed_f = FALSE; ++ } ++ rc=dslhal_support_blockWrite(&modemEnv,dspOamSharedInterface.modemEnvPublic_p,sizeof(DEV_HOST_modemEnvPublic_t)); ++ if(rc) ++ return DSLHAL_ERROR_MODEMENV_API_FAILURE; ++ else ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_configureExternBert() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Sets the host interrupt bit masks ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_configureExternBert(tidsl_t * ptidsl,unsigned int configParm, unsigned int parmVal) ++{ ++ int rc; ++ DEV_HOST_modemEnvPublic_t modemEnv; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ if(configParm>1 || parmVal>1) ++ { ++ dprintf(3,"Invalid input parameter \n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ ++ if(!ptidsl) ++ { ++ dprintf(3, "Error: PTIDSL pointer invalid\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ dspOamSharedInterface.modemEnvPublic_p = (DEV_HOST_modemEnvPublic_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.modemEnvPublic_p); ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.modemEnvPublic_p, ++ &modemEnv, sizeof(DEV_HOST_modemEnvPublic_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ if(configParm==0) ++ { ++ modemEnv.externalBert = parmVal; ++ } ++ if(configParm==1) ++ { ++ modemEnv.usBertPattern = parmVal; ++ } ++ rc=dslhal_support_blockWrite(&modemEnv,dspOamSharedInterface.modemEnvPublic_p,sizeof(DEV_HOST_modemEnvPublic_t)); ++ if(rc) ++ return DSLHAL_ERROR_MODEMENV_API_FAILURE; ++ else ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_configureAtmBert() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Sets the host interrupt bit masks ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_configureAtmBert(tidsl_t * ptidsl,unsigned int configParm, unsigned int parmVal) ++{ ++ int rc; ++ DEV_HOST_atmDsBert_t atmDsBert; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ if(configParm>1 || parmVal>1) ++ { ++ dprintf(3,"Invalid input parameter \n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ ++ if(!ptidsl) ++ { ++ dprintf(3, "Error: PTIDSL pointer invalid\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ dspOamSharedInterface.atmDsBert_p = (DEV_HOST_atmDsBert_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.atmDsBert_p); ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.atmDsBert_p, ++ &atmDsBert, sizeof(DEV_HOST_atmDsBert_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ if(configParm==0) ++ { ++ atmDsBert.atmBertFlag = parmVal; ++ rc=dslhal_support_blockWrite(&atmDsBert,dspOamSharedInterface.atmDsBert_p,sizeof(DEV_HOST_atmDsBert_t)); ++ if(rc) ++ return DSLHAL_ERROR_CONFIG_API_FAILURE; ++ } ++ if(configParm==1) ++ { ++ ptidsl->AppData.atmBertBitCountLow = atmDsBert.bitCountLow; ++ ptidsl->AppData.atmBertBitCountHigh = atmDsBert.bitCountHigh; ++ ptidsl->AppData.atmBertBitErrorCountLow = atmDsBert.bitErrorCountLow; ++ ptidsl->AppData.atmBertBitErrorCountHigh = atmDsBert.bitErrorCountHigh; ++ } ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_configureDgaspLpr() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Configures dying gasp LPR signal ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_configureDgaspLpr(tidsl_t * ptidsl,unsigned int configParm, unsigned int parmVal) ++{ ++ int rc; ++ DEV_HOST_modemEnvPublic_t modemEnv; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ if(configParm>1 || parmVal>1) ++ { ++ dprintf(3,"Invalid input parameter \n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ ++ if(!ptidsl) ++ { ++ dprintf(3, "Error: PTIDSL pointer invalid\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ dspOamSharedInterface.modemEnvPublic_p = (DEV_HOST_modemEnvPublic_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.modemEnvPublic_p); ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.modemEnvPublic_p, ++ &modemEnv, sizeof(DEV_HOST_modemEnvPublic_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ if(configParm==0) ++ { ++ modemEnv.dGaspLprIndicator_f = parmVal; ++ } ++ if(configParm==1) ++ { ++ modemEnv.overrideDspLprGasp_f = parmVal; ++ } ++ rc=dslhal_support_blockWrite(&modemEnv,dspOamSharedInterface.modemEnvPublic_p,sizeof(DEV_HOST_modemEnvPublic_t)); ++ if(rc) ++ return DSLHAL_ERROR_MODEMENV_API_FAILURE; ++ else ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_genericDspRead() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Reads from a Generic Location in the DSP Host Interface ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_genericDspRead(tidsl_t * ptidsl,unsigned int offset1, unsigned int offset2, ++ unsigned int offset3, unsigned char *localBuffer, unsigned int numBytes) ++{ ++ int rc=0; ++ unsigned int hostIfLoc,structLoc,elementLoc; ++ hostIfLoc = (unsigned int)ptidsl->pmainAddr; ++ if(numBytes<=0 || !localBuffer || !ptidsl) ++ { ++ dprintf(3,"Invalid input parameter \n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ rc += dslhal_support_blockRead((PVOID)(hostIfLoc+sizeof(int)*offset1), &structLoc,sizeof(int)); ++ structLoc = dslhal_support_byteSwap32(structLoc); ++ rc += dslhal_support_blockRead((PVOID)(structLoc+sizeof(int)*offset2), &elementLoc,sizeof(int)); ++ elementLoc = dslhal_support_byteSwap32(elementLoc); ++ dprintf(3,"Host IF Location: 0x%x Struct1 Location: 0x%x Element Location: 0x%x \n",hostIfLoc, structLoc, elementLoc); ++ rc += dslhal_support_blockRead((PVOID)(elementLoc+(offset3*4)), localBuffer,numBytes); ++ if (rc) ++ return DSLHAL_ERROR_BLOCK_READ; ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_genericDspWrite() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Writes to a Generic Location in the DSP Host Interface ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_genericDspWrite(tidsl_t * ptidsl,unsigned int offset1, unsigned int offset2, ++ unsigned int offset3, unsigned char *localBuffer, unsigned int numBytes) ++{ ++ ++ int rc=0; ++ unsigned int hostIfLoc,structLoc,elementLoc; ++ hostIfLoc = (unsigned int)ptidsl->pmainAddr; ++ if(numBytes<=0 || !localBuffer || !ptidsl) ++ { ++ dprintf(3,"Invalid input parameter \n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ rc += dslhal_support_blockRead((PVOID)(hostIfLoc+(offset1*4)), &structLoc,4); ++ structLoc = dslhal_support_byteSwap32(structLoc); ++ rc += dslhal_support_blockRead((PVOID)(structLoc+(offset2*4)), &elementLoc,4); ++ elementLoc = dslhal_support_byteSwap32(elementLoc); ++ dprintf(3,"Host IF Location: 0x%x Struct1 Location: 0x%x Element Location: 0x%x \n",hostIfLoc, structLoc, elementLoc); ++ rc += dslhal_support_blockWrite(localBuffer,(PVOID)(elementLoc+(offset3*4)),numBytes); ++ if (rc) ++ return DSLHAL_ERROR_BLOCK_READ; ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_dspInterfaceRead() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Reads from a Generic Location in the DSP Host Interface ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_dspInterfaceRead(tidsl_t * ptidsl,unsigned int baseAddr, unsigned int numOffsets, ++ unsigned int *offsets, unsigned char *localBuffer, unsigned int numBytes) ++{ ++ int rc=0, off=0; ++ unsigned int prevAddr,currAddr; ++ prevAddr = baseAddr; ++ if(numBytes<=0 || !localBuffer || !ptidsl || !offsets) ++ { ++ dprintf(3,"Invalid input parameter \n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ for(off=0;off<numOffsets-1;off++) ++ { ++ rc += dslhal_support_blockRead((PVOID)(prevAddr+(4*offsets[off])), &currAddr,4); ++ currAddr = dslhal_support_byteSwap32(currAddr); ++ prevAddr = currAddr; ++ dprintf(5,"Curr Addr = 0x%x Current Level: %d \n",currAddr,off); ++ } ++ currAddr = currAddr + offsets[numOffsets-1]*4; ++ rc += dslhal_support_blockRead((PVOID)(currAddr),localBuffer,numBytes); ++ if (rc) ++ return DSLHAL_ERROR_BLOCK_READ; ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_dspInterfaceWrite() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Writes to a Generic Location in the DSP Host Interface ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_dspInterfaceWrite(tidsl_t * ptidsl,unsigned int baseAddr, unsigned int numOffsets, ++ unsigned int *offsets,unsigned char *localBuffer, unsigned int numBytes) ++{ ++ ++ int rc=0, off=0; ++ unsigned int prevAddr,currAddr; ++ prevAddr = baseAddr; ++ if(numBytes<=0 || !localBuffer || !ptidsl || !offsets) ++ { ++ dprintf(3,"Invalid input parameter \n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ for(off=0;off<numOffsets-1;off++) ++ { ++ rc += dslhal_support_blockRead((PVOID)(prevAddr+(4*offsets[off])), &currAddr,4); ++ currAddr = dslhal_support_byteSwap32(currAddr); ++ prevAddr = currAddr; ++ dprintf(5,"Curr Addr = 0x%x Current Level: %d \n",currAddr,off); ++ } ++ currAddr = currAddr + offsets[numOffsets-1]*4; ++ rc += dslhal_support_blockWrite(localBuffer,(PVOID)(currAddr),numBytes); ++ if (rc) ++ return DSLHAL_ERROR_BLOCK_READ; ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_sendMailboxCommand(tidsl_t *ptidsl, unsigned int cmd) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction sends the passed mailbox command to the DSP ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * unsigned int cmd ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++/* Function is commented out for now since, its not tested */ ++ /*unsigned int dslhal_api_sendMailboxCommand(tidsl_t *ptidsl, unsigned int cmd) ++{ ++ int rc; ++ ++ dprintf(5, "dslhal_api_sendMailboxCommand\n"); ++ rc = dslhal_support_writeHostMailbox(ptidsl, cmd, 0, 0, 0); ++ if(rc) ++ { ++ dprintf(1,"dslhal_api_sendMailboxCommand failed\n"); ++ return DSLHAL_ERROR_CTRL_API_FAILURE; ++ } ++ return DSLHAL_ERROR_NO_ERRORS; ++} */ ++ ++ +diff -urN linux.old/drivers/atm/sangam_atm/dsl_hal_api.h linux.dev/drivers/atm/sangam_atm/dsl_hal_api.h +--- linux.old/drivers/atm/sangam_atm/dsl_hal_api.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/dsl_hal_api.h 2005-08-23 04:46:50.097843696 +0200 +@@ -0,0 +1,1721 @@ ++#ifndef __DSL_HAL_API_H__ ++#define __DSL_HAL_API_H__ 1 ++/******************************************************************************* ++* FILE PURPOSE: DSL HAL to Application Interface for Sangam ++* ++******************************************************************************** ++* FILE NAME: dsl_application_interface.h ++* ++* DESCRIPTION: ++* DSL-Application Interface Structures ++* ++* ++* By: Ramakrishnan Parasuraman ++* ++* (C) Copyright 2003, Texas Instruments, Inc. ++* History ++* Data Version By Notes ++* 06Feb03 0.00 RamP Initial Version Written ++* 07Apr03 0.01 RamP Commented out typedefs ++* 09Apr03 0.02 RamP Added deviceContext and extended ++* dspVer to include bugfixes ++* 14Apr03 0.03 RamP Added stateTransition to structure ++* 16Apr03 0.04 RamP Removed typedefs; changed dspVer ++* 22Apr03 0.05 RamP Moved acknowledgeInterrupt from ++* (alpha) support module into this ++* 24Apr03 0.06 RamP Moved the RSTATE enum from register ++* ++* 28Apr03 0.07 RamP Added additional parameter to the ++* (alpha +) handleInterrupt function for intrSrc ++* 14May03 0.08 RamP Added hybrid switching APIs ++* (alpha ++) Added statistics fields in AppData ++* Added netService identifier ++* 20May03 0.09 RamP Added Inner/Outer pair API support. ++* Added dying gasp message. ++* 29May03 0.10 RamP Added coProfile structure ++* 04Jun03 0.11 RamP Added margin per tone statistics, ++* Added timing counters, added train ++* failure functions,added config flags ++* 06Jun03 0.12 RamP Added LED, STM Bert, dGasp LPR ++* config API functions ++* 09Jun03 0.13 RamP Added ATM Bert function, CO stats ++* Moved stateTransition to ITIDSLHW ++* (Beta) Moved configFlag to ITIDSLHW, ++* Cleaned up fifoInfo structure ++* Added US/DS R/S FEC parameters ++* 21Aug03 0.14 RamP Added g.hs message buffer, us/ds ++* bits n gains table, negoMsgs struct ++* (act) bitswap stucts/indices, trainstate, ++* Added functions for advanced config ++* Added gross gain and line length ++* 29Sep03 0.15 RamP Added tokens for advanced config ++* module api functions ++* 12Oct03 0.16 RamP Added adsl2Msgs structure with worst ++* case size for variable length msgs ++* Added API function prototypes ++* 21Oct03 0.17 RamP Added typedef for current modem ++* user settings ++* 28Oct03 0.18 RamP Added function to config blackout ++* bitmap in the RMSGPCB message ++* 20Nov03 0.19 RamP Added functions for generic and ++* host interface read - write ++* 24Nov03 0.20 RamP Added enum for detailed state track ++* Added element for state bit fields ++* Addded rState for encoded main state ++* Added blackout valid flag ++* 26Dec03 0.21 RamP Added defines for oamFeature masks ++* 30Dec03 0.22 RamP Increased sizes for cMsgPcb,RMsgPcb ++* to incorporate DELT mode messages ++* 30Dec03 0.23 RamP Added generic mailbox command fxn ++*******************************************************************************/ ++ ++#ifdef INTERNAL_BUILD ++#include <dsl_hal_api_pvt.h> ++#endif ++ ++#define NUM_PAGES 4 ++#define OAMFEATURE_AUTORETRAIN_MASK 0x00000001 ++#define OAMFEATURE_TC_SYNC_DETECT_MASK 0x00000002 ++#define OAMFEATURE_EOCAOC_INTERRUPT_MASK 0x00000004 ++#define OAMFEATURE_CONS_DISP_DISABLE_MASK 0x00000008 ++#define OAMFEATURE_GHSMSG_INTERRUPT_MASK 0x00000010 ++ ++typedef struct tagTIOIDINFO ++{ ++ unsigned int bState; /* addr->bDSPATURState */ ++ unsigned int USConRate; /* US Conection Rates */ ++ unsigned int DSConRate; /* DS Connection Rates */ ++ unsigned int USPayload; /* ennic_tx_pullup*/ ++ unsigned int DSPayload; /* ennic_indicate_receive_packet*/ ++ unsigned int FrmMode; /* addr->atur_msg.framing_mode*/ ++ unsigned int MaxFrmMode; ++ unsigned int TrainedPath; /* Status of the Modem in which trained (Fast or Interleaved Path) */ ++ unsigned int TrainedMode; /* Status of the mode in which the modem is trained (G.dmt, T1.413, etc) */ ++ ++ /* Superframe Count */ ++ unsigned int usSuperFrmCnt; /* Num of US Superframes */ ++ unsigned int dsSuperFrmCnt; /* Num of DS Superframes */ ++ ++ /* LOS & SEF Stats */ ++ unsigned int LOS_errors; /* Num of ADSL frames where loss-of-sync */ ++ unsigned int SEF_errors; /* Num of severly errored ADSL frames - LOS > MAXBADSYNC ADSL frames */ ++ unsigned int coLosErrors; /* CO LOS Defects */ ++ unsigned int coRdiErrors; /* CO RDI defects */ ++ /* CRC Stats */ ++ unsigned int usICRC_errors; /* Num of Upstream CRC errored ADSL frames on Interleaved Path */ ++ unsigned int usFCRC_errors; /* Num of Upstream CRC errored ADSL frames on Fast Path */ ++ unsigned int dsICRC_errors; /* Num of Downstream CRC errored ADSL frames on Interleaved Path */ ++ unsigned int dsFCRC_errors; /* Num of Downstream CRC errored ADSL frames on Fast Path */ ++ ++ /* FEC Stats */ ++ unsigned int usIFEC_errors; /* Num of Upstream FEC errored (corrected) ADSL frames on Interleaved Path */ ++ unsigned int usFFEC_errors; /* Num of Upstream FEC errored (corrected) ADSL frames on Fast Path */ ++ unsigned int dsIFEC_errors; /* Num of Downstream FEC errored (corrected) ADSL frames on Interleaved Path */ ++ unsigned int dsFFEC_errors; /* Num of Downstream FEC errored (corrected) ADSL frames on Fast Path */ ++ ++ /* NCD Stats */ ++ unsigned int usINCD_error; /* UpStream No Cell Delineation on Interleaved Path */ ++ unsigned int usFNCD_error; /* UpStream No Cell Delineation on Fast Path */ ++ unsigned int dsINCD_error; /* Downstream No Cell Delineation on Interleaved Path */ ++ unsigned int dsFNCD_error; /* Downstream No Cell Delineation on Fast Path */ ++ ++ /* LCD Stats */ ++ unsigned int usILCD_errors; /* UpStream Loss of Cell Delineation (within the same connection) on Interleaved Path */ ++ unsigned int usFLCD_errors; /* UpStream Loss of Cell Delineation (within the same connection) on Fast Path */ ++ unsigned int dsILCD_errors; /* Downstream Loss of Cell Delineation (within the same connection) on Interleaved Path */ ++ unsigned int dsFLCD_errors; /* Downstream Loss of Cell Delineation (within the same connection) on Fast Path */ ++ ++ /* HEC Stats */ ++ unsigned int usIHEC_errors; /* Num of Upstream HEC errored ADSL frames on Interleaved Path */ ++ unsigned int usFHEC_errors; /* Num of Upstream HEC errored ADSL frames on Fast Path */ ++ unsigned int dsIHEC_errors; /* Num of Downstream HEC errored ADSL frames on Interleaved Path */ ++ unsigned int dsFHEC_errors; /* Num of Downstream HEC errored ADSL frames on Fast Path */ ++ ++ /* Upstream ATM Stats */ ++ unsigned int usAtm_count[2]; /* Upstream Good Cell Count */ ++ unsigned int usIdle_count[2]; /* Upstream Idle Cell Count */ ++ unsigned int usPdu_count[2]; /* UpStream PDU Count */ ++ ++ /* Downstream ATM Stats */ ++ unsigned int dsGood_count[2]; /* Downstream Good Cell Count */ ++ unsigned int dsIdle_count[2]; /* Downstream Idle Cell Count */ ++ unsigned int dsBadHec_count[2]; /* Downstream Bad Hec Cell Count */ ++ unsigned int dsOVFDrop_count[2]; /* Downstream Overflow Dropped Cell Count */ ++ unsigned int dsPdu_count[2]; /* Downstream PDU Count */ ++ /* (only looks for end of pdu on good atm cells received, */ ++ /* not on Bad_Hec or Overflow cell) */ ++ ++ unsigned int dsLineAttn; /* DS Line Attenuation */ ++ unsigned int dsMargin; /* Measured DS MArgin */ ++ ++ unsigned int usLineAttn; ++ unsigned int usMargin; ++ ++ unsigned char bCMsgs1[6]; ++ unsigned char bRMsgs1[6]; ++ unsigned char bCRates2; ++ unsigned char bRRates2; ++ unsigned char bRRates1[4][11]; ++ unsigned char bCMsgs2[4]; ++ unsigned char bCRates1[4][30]; ++ unsigned char bRMsgs2[4]; ++ ++ unsigned int USPeakCellRate; ++ ++ unsigned int dsl_status; ++ unsigned int dsl_modulation; ++ unsigned char dsl_ghsRxBuf[10][64]; ++ unsigned char dsl_GHS_msg_type[2]; ++ ++ int TxVCs[12]; ++ int RxVCs[12]; ++ ++ unsigned int vci_vpi_val; ++ ++ unsigned char BitAllocTblDstrm[256]; ++ unsigned char BitAllocTblUstrm[32]; ++ signed char marginTblDstrm[256]; ++ unsigned char rBng[512]; ++ unsigned char cBng[126]; ++ int usTxPower; ++ int dsTxPower; ++ short rxSnrPerBin0[256]; ++ short rxSnrPerBin1[256]; ++ short rxSnrPerBin2[256]; ++ ++ unsigned int StdMode; ++ unsigned int atucVendorId; ++ unsigned char currentHybridNum; ++ unsigned char atucRevisionNum; ++ unsigned int trainFails; ++ unsigned int trainFailStates[30]; ++ unsigned int idleTick; ++ unsigned int initTick; ++ unsigned int showtimeTick; ++ unsigned char dsFastParityBytesPerSymbol; ++ unsigned char dsIntlvParityBytesPerSymbol; ++ unsigned char dsSymbolsPerCodeWord; ++ unsigned int dsInterleaverDepth; ++ unsigned char usFastParityBytesPerSymbol; ++ unsigned char usIntlvParityBytesPerSymbol; ++ unsigned char usSymbolsPerCodeWord; ++ unsigned int usInterleaverDepth; ++ unsigned int atmBertBitCountLow; ++ unsigned int atmBertBitCountHigh; ++ unsigned int atmBertBitErrorCountLow; ++ unsigned int atmBertBitErrorCountHigh; ++ unsigned int lineLength; ++ unsigned int grossGain; ++ int rxNoisePower0[256]; ++ int rxNoisePower1[256]; ++}TIOIDINFO,*PTIOIDINFO; ++ ++typedef struct{ ++ unsigned char bCMsgs1[6]; ++ unsigned char bCRates2; ++ unsigned char bRRates2; ++ unsigned char bRRates1[4][11]; ++ unsigned char bCMsgs2[4]; ++ unsigned char bCRates1[4][30]; ++ unsigned char bCRatesRA[4][30]; ++ unsigned char bRMsgs2[4]; ++ unsigned char bRRatesRA[4]; ++ unsigned char bRMsgsRA[12]; ++ unsigned char bCMsgsRA[6]; ++}negoMsgs; ++ ++typedef struct{ ++ unsigned char cMsgFmt[2]; ++ unsigned char rMsgFmt[2]; ++ unsigned char cMsgPcb[12]; ++ unsigned char rMsgPcb[70]; ++ unsigned char dummy1[2]; ++ unsigned char cMsg1[40]; ++ unsigned char rMsg1[4]; ++ unsigned char cMsg2[8]; ++ unsigned char rMsg2[64]; ++ unsigned char cParams[264]; ++ unsigned char rParams[2088]; ++ unsigned short cMsgPcbLen; ++ unsigned short rMsgPcbLen; ++ unsigned short cMsg1Len; ++ unsigned short rMsg1Len; ++ unsigned short cMsg2Len; ++ unsigned short rMsg2Len; ++ unsigned short cParamsLen; ++ unsigned short rParamsLen; ++}adsl2Msgs; ++ ++typedef struct{ ++ unsigned char rMsg1Ld[16]; ++ unsigned char rMsg2Ld[260]; ++ unsigned char rMsg3Ld[260]; ++ unsigned char rMsg4Ld[260]; ++ unsigned char rMsg5Ld[260]; ++ unsigned char rMsg6Ld[260]; ++ unsigned char rMsg7Ld[260]; ++ unsigned char rMsg8Ld[260]; ++ unsigned char rMsg9Ld[260]; ++ unsigned char cMsg1Ld[16]; ++ unsigned char cMsg2Ld[260]; ++ unsigned char cMsg3Ld[132]; ++ unsigned char cMsg4Ld[68]; ++ unsigned char cMsg5Ld[68]; ++ unsigned short rMsg1LdLen; ++ unsigned short rMsgxLdLen; ++ unsigned short cMsg1LdLen; ++ unsigned short cMsg2LdLen; ++ unsigned short cMsg3LdLen; ++ unsigned short cMsg4LdLen; ++ unsigned short cMsg5LdLen; ++ unsigned short dummy8; ++}adsl2DeltMsgs; ++ ++typedef struct{ ++ unsigned char trellisFlag; ++ unsigned char rateAdaptFlag; ++ unsigned char marginMonitorTraining; ++ unsigned char marginMonitorShowtime; ++ signed char marginThreshold; ++ unsigned char disableLosFlag; ++ unsigned char aturConfig[30]; ++ unsigned char eocVendorId[8]; ++ unsigned char eocSerialNumber[32]; ++ unsigned char eocRevisionNumber[4]; ++}currentPhySettings; ++ ++ ++typedef struct ++{ ++ unsigned int PmemStartWtAddr; /* source address in host memory */ ++ unsigned int OverlayXferCount; /* number of 32bit words to be transfered */ ++ unsigned int BinAddr; /* destination address in dsp's pmem */ ++ unsigned int overlayHostAddr; ++ unsigned int olayPageCrc32; ++ unsigned int SecOffset; ++} OlayDP_Def; ++ ++typedef struct ++{ ++ unsigned int timeStamp; /* TimeStp revision */ ++ unsigned char major; /* Major revision */ ++ unsigned char minor; /* Minor revision */ ++ unsigned char bugFix; /* BugFix revision */ ++ unsigned char buildNum; /* BuildNum revision */ ++ unsigned char reserved; /* for future use */ ++}dspVer; ++ ++typedef struct{ ++ unsigned char major; ++ unsigned char minor; ++ unsigned char bugfix; ++ unsigned char buildNum; ++ unsigned int timeStamp; ++}dslVer; ++ ++typedef struct{ ++ unsigned char bitSwapCommand[6]; ++ unsigned char bitSwapBinNum[6]; ++ unsigned char bitSwapSFrmCnt; ++}dslBitSwapDef; ++ ++typedef struct{ ++ unsigned int aturState; ++ unsigned int subStateIndex; ++ unsigned int timeStamp; ++}trainStateInfo; ++ ++typedef struct{ ++ unsigned char ctrlBits; ++ unsigned char infoBits; ++}eocMessageDef; ++ ++enum ++{ ++ RSTATE_TEST, ++ RSTATE_IDLE, ++ RSTATE_INIT, ++ RSTATE_HS, ++ RSTATE_RTDL, ++ RSTATE_SHOWTIME, ++}; ++ ++typedef enum ++{ ++ ATU_RZERO1 = 100, ++ ATU_RTEST = 101, ++ ATU_RIDLE = 102, ++ ATU_RINIT = 103, ++ ATU_RRESET = 104, ++ GDMT_NSFLR = 105, ++ GDMT_TONE = 106, ++ GDMT_SILENT = 107, ++ GDMT_NEGO = 108, ++ GDMT_FAIL = 109, ++ GDMT_ACKX = 110, ++ GDMT_QUIET2 = 111, ++ ATU_RZERO2 = 200, ++ T1413_NSFLR = 201, ++ T1413_ACTREQ = 202, ++ T1413_ACTMON = 203, ++ T1413_FAIL = 204, ++ T1413_ACKX = 205, ++ T1413_QUIET2 = 206, ++ ATU_RQUIET2 = 207, ++ ATU_RREVERB1 = 208, ++ ATU_RQUIET3 = 209, ++ ATU_RECT = 210, ++ ATU_RREVERB2 = 211, ++ ATU_RSEGUE1 = 212, ++ ATU_RREVERB3 = 213, ++ ATU_RSEGUE2 = 214, ++ ATU_RRATES1 = 215, ++ ATU_RMSGS1 = 216, ++ ATU_RMEDLEY = 217, ++ ATU_RREVERB4 = 218, ++ ATU_RSEGUE3 = 219, ++ ATU_RMSGSRA = 220, ++ ATU_RRATESRA = 221, ++ ATU_RREVERBRA = 222, ++ ATU_RSEGUERA = 223, ++ ATU_RMSGS2 = 224, ++ ATU_RRATES2 = 225, ++ ATU_RREVERB5 = 226, ++ ATU_RSEGUE4 = 227, ++ ATU_RBNG = 228, ++ ATU_RREVERB6 = 229, ++ ATU_RSHOWTIME = 230, ++ ATU_RZERO3 = 300, ++ ADSL2_QUIET1 = 301, ++ ADSL2_COMB1 = 302, ++ ADSL2_QUIET2 = 303, ++ ADSL2_COMB2 = 304, ++ ADSL2_ICOMB1 = 305, ++ ADSL2_LINEPROBE = 306, ++ ADSL2_QUIET3 = 307, ++ ADSL2_COMB3 = 308, ++ ADSL2_ICOMB2 = 309, ++ ADSL2_RMSGFMT = 310, ++ ADSL2_RMSGPCB = 311, ++ ADSL2_REVERB1 = 312, ++ ADSL2_QUIET4 = 313, ++ ADSL2_REVERB2 = 314, ++ ADSL2_QUIET5 = 315, ++ ADSL2_REVERB3 = 316, ++ ADSL2_ECT = 317, ++ ADSL2_REVERB4 = 318, ++ ADSL2_SEGUE1 = 319, ++ ADSL2_REVERB5 = 320, ++ ADSL2_SEGUE2 = 321, ++ ADSL2_RMSG1 = 322, ++ ADSL2_MEDLEY = 323, ++ ADSL2_EXCHANGE = 324, ++ ADSL2_RMSG2 = 325, ++ ADSL2_REVERB6 = 326, ++ ADSL2_SEGUE3 = 327, ++ ADSL2_RPARAMS = 328, ++ ADSL2_REVERB7 = 329, ++ ADSL2_SEGUE4 = 330, ++ ATU_RZERO4 = 400, ++ DELT_SEGUE1 = 401, ++ DELT_REVERB5 = 402, ++ DELT_SEGUE2 = 403, ++ DELT_EXCHANGE = 404, ++ DELT_SEGUELD = 405, ++ DELT_RMSGLD = 406, ++ DELT_QUIET1LD = 407, ++ DELT_QUIET2LD = 408, ++ DELT_RACK1 = 409, ++ DELT_RNACK1 = 410, ++ DELT_QUIETLAST = 411 ++} modemStates_t; ++ ++enum ++{ ++ DSLTRAIN_NO_MODE, ++ DSLTRAIN_MULTI_MODE, ++ DSLTRAIN_T1413_MODE, ++ DSLTRAIN_GDMT_MODE, ++ DSLTRAIN_GLITE_MODE ++}; ++ ++enum ++{ ++ ID_RESTORE_DEFAULT_LED, ++ ID_DSL_LINK_LED, ++ ID_DSL_ACT_LED ++}; ++ ++typedef struct _ITIDSLHW ++{ ++ /* struct _TIDSL_IHwVtbl * pVtbl; */ ++ unsigned char* fwimage; ++ void* pmainAddr; ++ void* pOsContext; ++ unsigned int ReferenceCount; ++ unsigned int netService; ++ ++ int InitFlag; ++ ++ int imagesize; ++ ++ unsigned int lConnected; ++ unsigned int bStatisticsInitialized; ++ unsigned int rState; ++ unsigned int bShutdown; ++ unsigned int blackOutValid_f; ++ unsigned char blackOutBits[64]; ++ unsigned int bAutoRetrain; ++ volatile unsigned int bOverlayPageLoaded; ++ unsigned int stateTransition; ++ unsigned int configFlag; ++ unsigned int dsBitSwapInx; ++ unsigned int usBitSwapInx; ++ unsigned int trainStateInx; ++ unsigned int usEocMsgInx; ++ unsigned int dsEocMsgInx; ++ unsigned int reasonForDrop; ++ TIOIDINFO AppData; ++ dspVer dspVer; ++ ++ OlayDP_Def olayDpPage[NUM_PAGES]; ++ OlayDP_Def coProfiles; ++ OlayDP_Def constDisplay; ++ dslBitSwapDef dsBitSwap[30]; ++ dslBitSwapDef usBitSwap[30]; ++ trainStateInfo trainHistory[120]; ++ eocMessageDef usEocMsgBuf[30]; ++ eocMessageDef dsEocMsgBuf[30]; ++ adsl2Msgs adsl2TrainingMessages; ++ adsl2DeltMsgs adsl2DiagnosticMessages; ++ unsigned int modemStateBitField[4]; ++#ifdef INTERNAL_BUILD ++ internalParameters internalVars; ++#endif ++} ITIDSLHW_T, *PITIDSLHW_T, tidsl_t; ++ ++ ++/********************************************************************************** ++* API proto type defines ++**********************************************************************************/ ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_api_dslStartup ++* ++******************************************************************************************* ++* DESCRIPTION: Entry point to initialize and load ax5 daughter board ++* ++* INPUT: PITIDSLHW_T *ppIHw ++* ++* RETURN: 0 --succeeded ++* 1 --Failed ++* ++* Notes: external function osAllocateMemory(), osZeroMemory(), osLoadFWImage() are required ++*****************************************************************************************/ ++int dslhal_api_dslStartup ++( ++ PITIDSLHW_T *ppIHw ++); ++ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_gatherStatistics ++* ++********************************************************************************************* ++* DESCRIPTION: Read statistical infromation from ax5 modem daugter card. ++* Input: tidsl_t *ptidsl ++* ++* Return: 0 success ++* 1 failed ++* ++********************************************************************************************/ ++ ++void dslhal_api_gatherStatistics ++( ++ tidsl_t * ptidsl ++); ++ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_initStatistics ++* ++********************************************************************************************* ++* DESCRIPTION: init statistical infromation of ax5 modem daugter card. ++* ++* Input: tidsl_t *ptidsl ++* ++* Return: NULL ++* ++********************************************************************************************/ ++ ++void dslhal_api_initStatistics ++( ++ tidsl_t * ptidsl ++); ++ ++ ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_api_getDslDriverVersion ++* ++******************************************************************************************* ++* DESCRIPTION: This routine supply DSL Driver version. ++* ++* INPUT: tidsl_t * ptidsl ++* void *pVer, DSP Driver Version Pointer ++* ++* RETURN: 0 --succeeded ++* 1 --Failed ++* Note: See verdef_u.h for version structure definition. ++*****************************************************************************************/ ++ ++void dslhal_api_getDslHalVersion ++( ++ void *pVer ++); ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_api_dslShutdown ++* ++******************************************************************************************* ++* DESCRIPTION: routine to shutdown ax5 modem and free the resource ++* ++* INPUT: tidsl_t *ptidsl ++* ++* RETURN: NULL ++* ++* Notes: external function osFreeMemory() is required. ++*****************************************************************************************/ ++ ++int dslhal_api_dslShutdown ++( ++ tidsl_t *ptidsl ++); ++ ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_api_getDspVersion ++* ++******************************************************************************************* ++* DESCRIPTION: This routine supply AX5 daugther card DSP version. ++* ++* INPUT: tidsl_t * ptidsl ++* void *pVer, DSP version struct is returned starting at this pointer ++* ++* RETURN: 0 --succeeded ++* 1 --Failed ++* ++*****************************************************************************************/ ++ ++int dslhal_api_getDspVersion ++( ++ tidsl_t *ptidsl, ++ void *pVer ++); ++ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_diags_digi_memTestA() ++* ++********************************************************************************************* ++* DESCRIPTION: This function does the digital tests on the DSP. It does the DSP ID test, ++* memory tests on the external and internal memories of DSP, Codec Interconnect ++* test and Interrupt Test. ++* ++* Input: Test selects the test to be performed based on the elements set of 9 element ++* array passed the the parameter. ++* ++* Return: Status of the Tests Failed ++* ++********************************************************************************************/ ++ ++unsigned int dslhal_diags_digi_memTestA ++( ++unsigned int* Test ++); ++ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_diags_digi_memTestB() ++* ++********************************************************************************************* ++* DESCRIPTION: This function does the digital tests on the DSP. It does the DSP ID test, ++* memory tests on the external and internal memories of DSP, Codec Interconnect ++* test and Interrupt Test. ++* ++* Input: Test selects the digital test to be performed. ++* ++* Return: Status of the Tests Failed ++* ++********************************************************************************************/ ++ ++unsigned int dslhal_diags_digi_memTestB ++( ++unsigned int Test, ++unsigned int *Status ++); ++ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_diags_anlg_tonesTestA() ++* ++********************************************************************************************* ++* DESCRIPTION: This function instructs the Transciever to transmit the Reverb with missing ++* tones and Medley's with missing tones. These signals are defined in ITU ++* G.992.1 ADSL Standards. ++* ++* Input: Test selects between the Reverb or Medley tests. 0 - Reverb, 1 - Medley ++* Array is a 64 element unsigned integer type array. The element of this array ++* describe which tones are to be generated by selecting the element of ++* the array to be non zero. ++* Return: NULL ++* ++********************************************************************************************/ ++ ++void dslhal_diags_anlg_tonesTestA ++( ++unsigned int Test, ++unsigned int* Array ++); ++ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_diags_anlg_tonesTestB() ++* ++********************************************************************************************* ++* DESCRIPTION: This function instructs the Transciever to transmit the Reverb with missing ++* tones and Medley's with missing tones. These signals are defined in ITU ++* G.992.1 ADSL Standards. ++* ++* Input: Test selects between the Reverb or Medley tests. 0 - Reverb, 1 - Medley ++* Array is a 64 element unsigned integer type array. The element of this array ++* describe which tones are to be generated by selecting the element of ++* the array to be non zero. ++* Return: NULL ++* ++********************************************************************************************/ ++ ++void dslhal_diags_anlg_tonesTestB ++( ++unsigned int Test, ++unsigned int Tones ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_diags_anlg_rxNoiseTest() ++* ++********************************************************************************************* ++* DESCRIPTION: This function instructs the Transciever to transmit the Reverb with missing ++* tones and Medley's with missing tones. These signals are defined in ITU ++* G.992.1 ADSL Standards. ++* ++* Input: Test selects between the Reverb or Medley tests. 0 - Reverb, 1 - Medley ++* Tones selects the . ++* Return: NULL ++* ++********************************************************************************************/ ++ ++void dslhal_diags_anlg_rxNoiseTest ++(int agcFlag, ++short pga1, ++short pga2, ++short pga3, ++short aeq ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_diags_anlg_ecNoiseTest() ++* ++********************************************************************************************* ++* DESCRIPTION: This function instructs the Transciever to transmit the Reverb with missing ++* tones and Medley's with missing tones. These signals are defined in ITU ++* G.992.1 ADSL Standards. ++* ++* Input: Test selects between the Reverb or Medley tests. 0 - Reverb, 1 - Medley ++* Tones selects the . ++* Return: NULL ++* ++********************************************************************************************/ ++ ++void dslhal_diags_anlg_ecNoiseTest ++(int agcFlag, ++short pga1, ++short pga2, ++short pga3, ++short aeq ++); ++ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_pollTrainingStatus() ++* ++********************************************************************************************* ++* DESCRIPTION: code to decode modem status and to start modem training ++* ++* Input: tidsl_t *ptidsl ++* ++* Return: 0-? status mode training ++* -1 failed ++* ++********************************************************************************************/ ++int dslhal_api_pollTrainingStatus ++( ++ tidsl_t *ptidsl ++); ++ ++ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_handleTrainingInterrupt() ++* ++********************************************************************************************* ++* DESCRIPTION: Code to handle ax5 hardware interrupts ++* ++* Input: tidsl_t *ptidsl ++* int *pMsg, pointer to returned hardware messages. Each byte represent a messge ++* int *pTag, pointer to returned hardware message tags. Each byte represent a tag. ++* Return: 0 success ++* 1 failed ++* ++********************************************************************************************/ ++int dslhal_api_handleTrainingInterrupt ++( ++ tidsl_t *ptidsl, ++ int intrSource ++); ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_setEocSerialNumber(tidsl_t *ptidsl,char *SerialNumber) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction Sets the EOC Serial Number ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * char *SerialNumber : Input EOC Serial Number ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_setEocSerialNumber ++( ++tidsl_t *ptidsl, ++char *SerialNumber ++); ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_setEocVendorId(tidsl_t *ptidsl,char *VendorID) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction Sets the EOC Serial Number ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * char *VendorID : EOC Vendor ID ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_setEocVendorId ++( ++tidsl_t *ptidsl, ++char *VendorID ++); ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_setEocRevisionNumber(tidsl_t *ptidsl,char *RevNum) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction Sets the EOC Revision Number ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * char *RevNum : Input EOC Revision Number ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_setEocRevisionNumber ++( ++tidsl_t *ptidsl, ++char *RevNumber ++); ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_setAturConfig(tidsl_t *ptidsl,char *ATURConfig) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction Sets the EOC ATUR Config Register ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * char *RevNum : Input EOC ATUR Config Register ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_setAturConfig ++( ++tidsl_t *ptidsl, ++char *ATURConfig ++); ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_disableLosAlarm(tidsl_t *ptidsl, unsigned int set) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction disables all the LOS alarms ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * unsigned int set // if set == TRUE : Disable LOS alarms, else enable ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * NOTES: Currently not supported in any version other than MR4 Patch release.. ++ *****************************************************************************************/ ++unsigned int dslhal_api_disableLosAlarm ++( ++tidsl_t *ptidsl, ++unsigned int ++); ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_sendIdle(tidsl_t *ptidsl) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction sends the CMD_IDLE message to the DSP ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_sendIdle ++( ++tidsl_t *ptidsl ++); ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_sendQuiet(tidsl_t *ptidsl) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction sends the CMD_QUIET message to the DSP ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_sendQuiet ++( ++tidsl_t *ptidsl ++); ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_sendDgasp(tidsl_t *ptidsl) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction sends the HOST_DGASP message to the DSP ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_sendDgasp ++( ++tidsl_t *ptidsl ++); ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_setMarginThreshold(tidsl_t *ptidsl, int threshold) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction does sets the Margin threshold ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * int threshold ++ * ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_setMarginThreshold ++( ++tidsl_t *ptidsl, ++int threshold ++); ++ ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_setMarginMonitorFlags(tidsl_t *ptidsl, unsigned int trainflag,unsigned int shwtflag) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction does sets the Margin monitoring flag ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * unsigned int trainflag ++ * unsigned int shwtflag ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_setMarginMonitorFlags ++( ++tidsl_t *ptidsl, ++unsigned int trainflag, ++unsigned int shwtflag ++); ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_api_setRateAdaptFlag(tidsl_t *ptidsl) ++* ++******************************************************************************************* ++* DESCRIPTION: This fuction Sets the Rate Adapt Enable Flag ++* ++* INPUT: PITIDSLHW_T *ptidsl ++* unsigned int flag //if flag = TRUE set flag else reset ++* RETURN: 0 SUCCESS ++* 1 FAILED ++* ++*****************************************************************************************/ ++unsigned int dslhal_api_setRateAdaptFlag ++( ++tidsl_t *ptidsl, ++unsigned int flag ++); ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_api_setTrellisFlag(tidsl_t *ptidsl, unsigned int flag) ++* ++******************************************************************************************* ++* DESCRIPTION: This fuction Sets the Trellis Coding Enable Flag ++* ++* INPUT: PITIDSLHW_T *ptidsl ++* unsigned int flag //if flag = TRUE set flag else reset ++* RETURN: 0 SUCCESS ++* 1 FAILED ++* ++*****************************************************************************************/ ++unsigned int dslhal_api_setTrellisFlag ++( ++tidsl_t *ptidsl, ++unsigned int flag ++); ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_api_setMaxBitsPerCarrier(tidsl_t *ptidsl,unsigned int maxbits) ++* ++******************************************************************************************* ++* DESCRIPTION: This fuction Sets the Maximum bits per carrier value ++* ++* INPUT: PITIDSLHW_T *ptidsl ++* unsigned int maxbits : should be a value between 0-15 ++* ++* RETURN: 0 SUCCESS ++* 1 FAILED ++* ++*****************************************************************************************/ ++unsigned int dslhal_api_setMaxBitsPerCarrier ++( ++tidsl_t *ptidsl, ++unsigned int maxbits ++); ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_api_setMaxInterleaverDepth(tidsl_t *ptidsl,unsigned int maxdepth) ++* ++******************************************************************************************* ++* DESCRIPTION: This fuction Sets the Maximum Interleave Depth Supported ++* ++* INPUT: PITIDSLHW_T *ptidsl ++* unsigned int maxdepth : Should be between 0 and 3 depending on intlv buffer ++* size 64-512 ++* RETURN: 0 SUCCESS ++* 1 FAILED ++* ++*****************************************************************************************/ ++unsigned int dslhal_api_setMaxInterleaverDepth ++( ++tidsl_t *ptidsl, ++unsigned int maxdepth ++); ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_api_setTrainingMode(tidsl_t *ptidsl,unsigned int trainmode) ++* ++******************************************************************************************* ++* DESCRIPTION: This fuction Sets the desired training mode(none/T1.413/G.dmt/G.lite) ++* ++* INPUT: PITIDSLHW_T *ptidsl ++* unsigned int trainmode :Should be between 0 and 4; 0:No Mode 1:Multimode ++* 2: T1.413, 3:G.dmt, 4: G.lite ++* RETURN: 0 SUCCESS ++* 1 FAILED ++* ++*****************************************************************************************/ ++ ++unsigned int dslhal_api_setTrainingMode ++( ++tidsl_t *ptidsl, ++unsigned int trainmode ++); ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_dslRetrain(tidsl_t *ptidsl) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction sends the CMD_QUIET message to the DSP ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_dslRetrain ++( ++tidsl_t *ptidsl ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_acknowledgeInterrupt() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Sets the host interrupt bit masks ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_acknowledgeInterrupt ++(tidsl_t * ptidsl ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_disableDspHybridSelect() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Sets the host interrupt bit masks ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_disableDspHybridSelect ++(tidsl_t * ptidsl, ++ unsigned int disable ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_disableDspHybridSelect() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Sets the host interrupt bit masks ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_selectHybrid ++(tidsl_t * ptidsl, ++ unsigned int hybridNum ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_reportHybridMetrics() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Sets the host interrupt bit masks ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_reportHybridMetrics ++(tidsl_t * ptidsl, ++ int *metric ++); ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_selectInnerOuterPair(tidsl_t *ptidsl, unsigned int pairSelect) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction sends the CMD_QUIET message to the DSP ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++ ++unsigned int dslhal_api_selectInnerOuterPair ++(tidsl_t *ptidsl, ++unsigned int pairSelect ++); ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_resetTrainFailureLog(tidsl_t *ptidsl, unsigned int pairSelect) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction sends the CMD_QUIET message to the DSP ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++ ++unsigned int dslhal_api_resetTrainFailureLog ++(tidsl_t *ptidsl ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_controlLed() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Sets the host interrupt bit masks ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_configureLed ++(tidsl_t * ptidsl, ++unsigned int idLed, ++unsigned int onOff ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_configureExternBert() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Sets the host interrupt bit masks ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_configureExternBert ++(tidsl_t * ptidsl, ++unsigned int configParm, ++unsigned int parmVal ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_configureAtmBert() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Sets the host interrupt bit masks ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_configureAtmBert ++(tidsl_t * ptidsl, ++unsigned int configParm, ++unsigned int parmVal ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_configureDgaspLpr() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Sets the host interrupt bit masks ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_configureDgaspLpr ++(tidsl_t * ptidsl, ++unsigned int configParm, ++unsigned int parmVal ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_advcfg_onOffPcb() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Sets the host interrupt bit masks ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_advcfg_onOffPcb ++(tidsl_t * ptidsl, ++unsigned int onOff ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_advcfg_onOffBitSwap() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Turns on / off the power cutback feature; ++* Input ++* usDs; 0 = us and 1 = ds; ++* onOff; 0 = OFF and 1 = ON ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_advcfg_onOffBitSwap ++(tidsl_t * ptidsl, ++ unsigned int usDs, ++ unsigned int onOff ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_advcfg_configDsTones() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Turns on / off specific tones in the downstream direction; ++* Input ++* pointer to the array specifying the tones to be turned on/off ++* ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_advcfg_configDsTones ++(tidsl_t * ptidsl, ++ unsigned int *dsTones ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_advcfg_getAocBitSwapBuffer() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Fetches the Tx/Rx AOC bitswap Buffer; ++* Input ++* Transmit / Receive buffer to be fetched ++* ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_advcfg_getAocBitswapBuffer ++(tidsl_t * ptidsl, ++unsigned int usDs ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_advcfg_readTrainingMessages() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Reads all the training messages on demand; ++* Input ++* tidsl_t *ptidsl : Pointer to application structure ++* void *msgStruct : Pointer to Message Structure ++* ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_advcfg_readTrainingMessages ++(tidsl_t * ptidsl, ++void *msgPtr ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_advcfg_getTrainingState() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Reads all the training messages on demand; ++* Input ++* tidsl_t *ptidsl : Pointer to application structure ++* void *msgStruct : Pointer to training state structure ++* ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_advcfg_getTrainingState ++(tidsl_t * ptidsl, ++void *statePtr ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_advcfg_resetBitSwapMessageLog() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Clears the Aoc Bitswap Message Log ++* Input ++* tidsl_t *ptidsl : Pointer to application structure ++* unsigned int usDs ; Upstream=0, Downstream=1 ++* ++* Return: 0 success ++* 1 failed ++* ++********************************************************************************************/ ++unsigned int dslhal_advcfg_resetBitSwapMessageLog ++(tidsl_t * ptidsl, ++ unsigned int usDs ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_advcfg_setConstellationBinNumber() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Specifies the bin number for which constellation data should be fetched ++* Input ++* tidsl_t *ptidsl : Pointer to application structure ++* unsigned int binNum : constellation bin number whose data is required ++* ++* Return: 0 success ++* 1 failed ++* ++********************************************************************************************/ ++unsigned int dslhal_advcfg_setConstellationBinNumber ++(tidsl_t * ptidsl, ++ unsigned int binNum ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_advcfg_resetTrainStateHistory() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Clears the Training State History Log ++* Input ++* tidsl_t *ptidsl : Pointer to application structure ++* ++* ++* Return: 0 success ++* 1 failed ++* ++********************************************************************************************/ ++unsigned int dslhal_advcfg_resetTrainStateHistory ++(tidsl_t * ptidsl ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_advcfg_getSnrPerBin() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Get SNR data per bin ++* Input ++* tidsl_t *ptidsl : Pointer to application structure ++* ++* ++* Return: 0 success ++* 1 failed ++* ++********************************************************************************************/ ++unsigned int dslhal_advcfg_getSnrPerBin ++(tidsl_t * ptidsl, ++ unsigned int snrBufferOpt ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_advcfg_logEocMessages() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Logs EOC messages sent by the Modem to the CO ++* Input ++* tidsl_t *ptidsl : Pointer to application structure ++* unsigned int eocLowerBytes : Lower [1-5] bits of EOC Message ++* unsigned int eocUpperBytes : Upper [6-13] bits of EOC Message ++* ++* Return: 0 success ++* 1 failed ++* ++********************************************************************************************/ ++unsigned int dslhal_advcfg_logEocMessages ++(tidsl_t * ptidsl, ++ unsigned int usDs, ++ unsigned int eocLowerBytes, ++ unsigned int eocUpperBytes ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_advcfg_getReasonForDrop() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Reads the reason for dropping DSL connection; ++* Input ++* tidsl_t *ptidsl : Pointer to application structure ++ ++* ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_advcfg_getReasonForDrop ++(tidsl_t * ptidsl ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_advcfg_ctrlMaxAvgFineGains() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Turns on / off the host control for Max Avg Fine Gains; 0 = OFF and 1 = ON ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_advcfg_ctrlMaxAvgFineGains ++(tidsl_t * ptidsl, ++unsigned int onOff ++); ++ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_advcfg_setMaxAvgFineGain() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Set the Maximum Average Fine Gain Value ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_advcfg_setMaxAvgFineGain ++(tidsl_t * ptidsl, ++ short fineGain ++); ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_advcfg_readPhySettings() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Reads the advanced Phy layer settings on demand; ++* Input ++* tidsl_t *ptidsl : Pointer to application structure ++* void *cfgStruct : Pointer to Phy Config Structure ++* ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_advcfg_readPhySettings ++(tidsl_t * ptidsl, ++void *cfgPtr ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_advcfg_setBlackOutBits() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Sets the Blackout Bits in the RMSGPCB message ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_advcfg_setBlackOutBits ++(tidsl_t * ptidsl ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_genericDspRead() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Reads from a generic location in the host interface ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_genericDspRead ++(tidsl_t * ptidsl, ++ unsigned int offset1, ++ unsigned int offset2, ++ unsigned int offset3, ++ unsigned char* localBuffer, ++ unsigned int numBytes ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_genericDspWrite() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Writes to a generic location in the host interface ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_genericDspWrite ++(tidsl_t * ptidsl, ++ unsigned int offset1, ++ unsigned int offset2, ++ unsigned int offset3, ++ unsigned char* localBuffer, ++ unsigned int numBytes ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_dspInterfaceRead() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Reads from a generic location in the host interface ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_dspInterfaceRead ++(tidsl_t * ptidsl, ++ unsigned int baseAddr, ++ unsigned int numOffsets, ++ unsigned int *offsets, ++ unsigned char* localBuffer, ++ unsigned int numBytes ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_api_dspInterfaceWrite() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Writes to a generic location in the host interface ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_api_dspInterfaceWrite ++(tidsl_t * ptidsl, ++ unsigned int baseAddr, ++ unsigned int numOffsets, ++ unsigned int *offsets, ++ unsigned char* localBuffer, ++ unsigned int numBytes ++); ++ ++/****************************************************************************************** ++ * FUNCTION NAME: dslhal_api_sendMailboxCommand(tidsl_t *ptidsl, unsigned int cmd) ++ * ++ ******************************************************************************************* ++ * DESCRIPTION: This fuction sends the passed mailbox command to the DSP ++ * ++ * INPUT: PITIDSLHW_T *ptidsl ++ * unsigned int cmd ++ * ++ * RETURN: 0 SUCCESS ++ * 1 FAILED ++ * ++ *****************************************************************************************/ ++unsigned int dslhal_api_sendMailboxCommand ++(tidsl_t *ptidsl, ++unsigned int cmd ++); ++ ++#ifdef INTERNAL_BUILD ++#include <dsl_hal_internal_api.h> ++#endif ++ ++ ++#endif /* pairs #ifndef __DSL_APPLICATION_INTERFACE_H__ */ +diff -urN linux.old/drivers/atm/sangam_atm/dsl_hal_logtable.h linux.dev/drivers/atm/sangam_atm/dsl_hal_logtable.h +--- linux.old/drivers/atm/sangam_atm/dsl_hal_logtable.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/dsl_hal_logtable.h 2005-08-23 04:46:50.097843696 +0200 +@@ -0,0 +1,259 @@ ++unsigned int log10[]= ++{ ++ 0, ++ 771, ++ 1221, ++ 1541, ++ 1789, ++ 1992, ++ 2163, ++ 2312, ++ 2443, ++ 2560, ++ 2666, ++ 2763, ++ 2852, ++ 2934, ++ 3011, ++ 3083, ++ 3150, ++ 3213, ++ 3274, ++ 3331, ++ 3385, ++ 3437, ++ 3486, ++ 3533, ++ 3579, ++ 3622, ++ 3664, ++ 3705, ++ 3744, ++ 3781, ++ 3818, ++ 3853, ++ 3887, ++ 3921, ++ 3953, ++ 3984, ++ 4015, ++ 4044, ++ 4073, ++ 4101, ++ 4129, ++ 4156, ++ 4182, ++ 4207, ++ 4232, ++ 4257, ++ 4281, ++ 4304, ++ 4327, ++ 4349, ++ 4371, ++ 4393, ++ 4414, ++ 4435, ++ 4455, ++ 4475, ++ 4495, ++ 4514, ++ 4533, ++ 4552, ++ 4570, ++ 4589, ++ 4606, ++ 4624, ++ 4641, ++ 4658, ++ 4675, ++ 4691, ++ 4707, ++ 4723, ++ 4739, ++ 4755, ++ 4770, ++ 4785, ++ 4800, ++ 4815, ++ 4829, ++ 4844, ++ 4858, ++ 4872, ++ 4886, ++ 4899, ++ 4913, ++ 4926, ++ 4939, ++ 4952, ++ 4965, ++ 4978, ++ 4990, ++ 5003, ++ 5015, ++ 5027, ++ 5039, ++ 5051, ++ 5063, ++ 5075, ++ 5086, ++ 5098, ++ 5109, ++ 5120, ++ 5131, ++ 5142, ++ 5153, ++ 5164, ++ 5174, ++ 5185, ++ 5195, ++ 5206, ++ 5216, ++ 5226, ++ 5236, ++ 5246, ++ 5256, ++ 5266, ++ 5275, ++ 5285, ++ 5295, ++ 5304, ++ 5313, ++ 5323, ++ 5332, ++ 5341, ++ 5350, ++ 5359, ++ 5368, ++ 5377, ++ 5386, ++ 5394, ++ 5403, ++ 5412, ++ 5420, ++ 5429, ++ 5437, ++ 5445, ++ 5454, ++ 5462, ++ 5470, ++ 5478, ++ 5486, ++ 5494, ++ 5502, ++ 5510, ++ 5518, ++ 5525, ++ 5533, ++ 5541, ++ 5548, ++ 5556, ++ 5563, ++ 5571, ++ 5578, ++ 5586, ++ 5593, ++ 5600, ++ 5607, ++ 5614, ++ 5622, ++ 5629, ++ 5636, ++ 5643, ++ 5649, ++ 5656, ++ 5663, ++ 5670, ++ 5677, ++ 5683, ++ 5690, ++ 5697, ++ 5703, ++ 5710, ++ 5716, ++ 5723, ++ 5729, ++ 5736, ++ 5742, ++ 5749, ++ 5755, ++ 5761, ++ 5767, ++ 5773, ++ 5780, ++ 5786, ++ 5792, ++ 5798, ++ 5804, ++ 5810, ++ 5816, ++ 5822, ++ 5828, ++ 5834, ++ 5839, ++ 5845, ++ 5851, ++ 5857, ++ 5862, ++ 5868, ++ 5874, ++ 5879, ++ 5885, ++ 5891, ++ 5896, ++ 5902, ++ 5907, ++ 5913, ++ 5918, ++ 5924, ++ 5929, ++ 5934, ++ 5940, ++ 5945, ++ 5950, ++ 5955, ++ 5961, ++ 5966, ++ 5971, ++ 5976, ++ 5981, ++ 5986, ++ 5992, ++ 5997, ++ 6002, ++ 6007, ++ 6012, ++ 6017, ++ 6022, ++ 6027, ++ 6031, ++ 6036, ++ 6041, ++ 6046, ++ 6051, ++ 6056, ++ 6060, ++ 6065, ++ 6070, ++ 6075, ++ 6079, ++ 6084, ++ 6089, ++ 6093, ++ 6098, ++ 6103, ++ 6107, ++ 6112, ++ 6116, ++ 6121, ++ 6125, ++ 6130, ++ 6134, ++ 6139, ++ 6143, ++ 6148, ++ 6152, ++ 6156, ++ 6161, ++ 6165 ++ }; +diff -urN linux.old/drivers/atm/sangam_atm/dsl_hal_register.h linux.dev/drivers/atm/sangam_atm/dsl_hal_register.h +--- linux.old/drivers/atm/sangam_atm/dsl_hal_register.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/dsl_hal_register.h 2005-08-23 04:46:50.097843696 +0200 +@@ -0,0 +1,337 @@ ++#ifndef ___DSL_REGISTER_DEFINES_H___ ++#define ___DSL_REGISTER_DEFINES_H___ 1 ++ ++/******************************************************************************* ++* FILE PURPOSE: DSL HAL H/W Registers and Constant Declarations for Sangam ++* ++******************************************************************************** ++* FILE NAME: dsl_hal_register.h ++* ++* DESCRIPTION: ++* Contains DSL HAL APIs for Adam2 OS functions ++* ++* ++* (C) Copyright 2001-02, Texas Instruments, Inc. ++* History ++* Date Version Notes ++* 06Feb03 0.00.00 RamP Created ++* 21Mar03 0.00.01 RamP Changed header files for Modular ++* build framework ++* 21Mar03 0.00.02 RamP Introduced malloc size for DSP f/w ++* 07Apr03 0.00.03 RamP Implemented new error reporting scheme ++* Changed Commenting to C style only ++* 12Apr03 0.00.04 RamP Added Interrupt Mask defines ++* 14Apr03 0.00.05 RamP Renamed macros for REG8, REG16 & REG32 ++* 21Apr03 0.01.00 RamP Added Interrupt source/clear registers ++* Changed enum RSTATE_SHOWTIME to 5 ++* 24Apr03 0.01.01 RamP Moved the RSTATE enum to api.h ++* Added olay recovery error condition ++* 14May03 0.01.02 RamP Added defines for power computation ++* Added error condition for hybrids ++* 04Jun03 0.01.03 RamP Added enum for config flags, ++* Cleaned up AR5 register defines ++* Added defines for higher data rate ++* 06Jun03 0.01.04 RamP Added error & interrupt defines ++* 09Jun03 0.01.05 RamP Modified enum for current config ++* Added additional C-Rates defines ++* 18Jul03 0.01.06 RamP Modified internal build flow ++* 21Aug03 0.01.07 RamP Added constellation buffer size ++* 08Oct03 0.01.08 RamP Added us/ds Bits n gains size ++* 12Oct03 0.01.08 RamP Added ADSL2 Message sizes, lengths ++* and offsets for various formats ++* 29Oct03 0.01.09 RamP Added ADSL2 Delt offsets & sizes ++* 24Nov03 0.01.10 RamP Added bit field number, scan vector ++* 26Dec03 0.01.11 RamP Removed the oamFeature masks to api.h ++*******************************************************************************/ ++ ++#include "env_def_typedefs.h" ++#ifdef INTERNAL_BUILD ++#include "dev_host_internalinterface.h" ++#endif ++#include "dev_host_interface.h" ++#include "dsl_hal_api.h" ++ ++#define ADSLSS_BASE 0x01000000 ++#define BBIF_BASE 0x02000000 ++ ++#define ADSLSSADR (BBIF_BASE+0x0000) ++#define ADSLSSADRMASK 0xff000000 ++#define WAKEUP_DSP 0x00000001 ++ ++/* Ax7 Reset Control */ ++ ++#define RST_CNTRL_BASE 0x8611600 ++#define RST_CNTRL_PRCR (RST_CNTRL_BASE + 0x00 ) ++ ++#define RST_CNTRL_PRCR_GPIO 0x00000040 ++#define RST_CNTRL_PRCR_ADSLSS 0x00000080 ++#define RST_CNTRL_PRCR_USB 0x00000100 ++#define RST_CNTRL_PRCR_SAR 0x00000200 ++#define RST_CNTRL_PRCR_DSP 0x00800000 ++#define RST_CNTRL_PRCR_EMAC1 0x00200000 /* EMAC1 reset */ ++ ++#define RST_CNTRL_SWRCR (RST_CNTRL_BASE + 0x04 ) ++#define RST_SWRCR_SWR0 0x00000001 ++#define RST_SWRCR_SWR1 0x00000002 ++ ++#define RST_CNTRL_RSR (TNETD53XX_RST_CNTRL_BASE + 0x08 ) ++#define RST_RSR_RSCAUSE 0x00000003 /* Software Reset Caused by writing to SWR1 bit */ ++ ++ ++/* ****************************************************** ++Interrupt sources on Ax7 interrupt controller. ++The reserved sources are noted. ++********************************************************* */ ++ ++#define INTR_CNTRL_SRC_SECOND 0 ++#define INTR_CNTRL_SRC_EXTERNAL0 1 ++#define INTR_CNTRL_SRC_EXTERNAL1 2 ++/* reserved sources ... */ ++#define INTR_CNTRL_SRC_TIMER0 5 ++#define INTR_CNTRL_SRC_TIMER1 6 ++#define INTR_CNTRL_SRC_UART0 7 ++#define INTR_CNTRL_SRC_UART1 8 ++#define INTR_CNTRL_SRC_DMA0 9 ++#define INTR_CNTRL_SRC_DMA1 10 ++/* reserved sources ... */ ++#define INTR_CNTRL_SRC_SAR 15 ++/* reserved sources ... */ ++#define INTR_CNTRL_SRC_EMAC0 19 ++/* reserved sources ... */ ++#define INTR_CNTRL_SRC_VLYNQ0 21 ++#define INTR_CNTRL_SRC_CODEC_WAKE 22 ++/* reserved sources ... */ ++#define INTR_CNTRL_SRC_USB 24 ++#define INTR_CNTRL_SRC_VLYNQ1 25 ++/* reserved sources ... */ ++#define INTR_CNTRL_SRC_EMAC1 28 ++#define INTR_CNTRL_SRC_I2C 29 ++#define INTR_CNTRL_SRC_DMA2 30 ++#define INTR_CNTRL_SRC_DMA3 31 ++/* reserved sources ... */ ++#define INTR_CNTRL_SRC_VDMA_RX 37 ++#define INTR_CNTRL_SRC_VDMA_TX 38 ++#define INTR_CNTRL_SRC_ADSLSS 39 ++ ++#ifndef K0BASE ++#define K0BASE 0x80000000 ++#endif ++ ++#ifndef K1BASE ++#define K1BASE 0xA0000000 ++#endif ++ ++#ifndef PHYS_ADDR ++#define PHYS_ADDR(X) ((X) & 0X1FFFFFFF) ++#endif ++ ++#ifndef PHYS_TO_K0 ++#define PHYS_TO_K0(X) (PHYS_ADDR(X)|K0BASE) ++#endif ++ ++#ifndef PHYS_TO_K1 ++#define PHYS_TO_K1(X) (PHYS_ADDR(X)|K1BASE) ++#endif ++ ++#ifndef DSLHAL_REG8 ++#define DSLHAL_REG8( addr ) (*(volatile unsigned short *) PHYS_TO_K1(addr)) ++#endif ++ ++#ifndef DSLHAL_REG16 ++#define DSLHAL_REG16( addr ) (*(volatile unsigned short *)PHYS_TO_K1(addr)) ++#endif ++ ++#ifndef DSLHAL_REG32 ++#define DSLHAL_REG32( addr ) (*(volatile unsigned int *)PHYS_TO_K1(addr)) ++#endif ++ ++#ifndef NULL ++#define NULL 0 ++#endif ++ ++#ifndef TRUE ++#define TRUE (1==1) ++#endif ++ ++#ifndef FALSE ++#define FALSE (1==2) ++#endif ++ ++/******************************************************************************* ++* Type Defines for Library ++********************************************************************************/ ++typedef unsigned int size_t; ++ ++#define TIDSL_HW_CREATED 0x00000001 ++#define TIDSL_HW_OPENED 0x00000002 ++#define TIDSL_HW_STARTED 0x00000004 ++#define TIDSL_OS_INITIALIZED 0x00000008 ++ ++/* Data Pump CRATES Table Defines */ ++#define SIZE_OF_CRATES1_TABLE 120 ++#define CRATES1_BF_LS0 7 ++#define CRATES1_BI_LS0 17 ++#define CRATES1_BF_AS0 0 ++#define CRATES1_BI_AS0 10 ++#define CRATES1_BF_DSRS 20 ++#define CRATES1_BI_DSRS 21 ++#define CRATES1_BFI_DSS 22 ++#define CRATES1_BFI_DSI 23 ++#define CRATES1_BF_USRS 25 ++#define CRATES1_BI_USRS 26 ++#define CRATES1_BFI_USS 27 ++#define CRATES1_BFI_USI 28 ++ ++#define FAST_PATH 0 ++#define INTERLEAVED_PATH 1 ++ ++#define LINE_NOT_CONNECTED 0 ++#define LINE_CONNECTED 1 ++#define LINE_DISCONNECTED 2 ++#define LINE_NOT_TO_CONNECT 3 ++ ++#define MAXSECTIONS 125 ++ ++/***************************************************************************************** ++ * Localstructure declarations ++ * ++ ****************************************************************************************/ ++enum ++{ ++ DSLHAL_ERROR_NO_ERRORS, /* 00 */ ++ DSLHAL_ERROR_UNRESET_ADSLSS, /* 01 */ ++ DSLHAL_ERROR_RESET_ADSLSS, /* 02 */ ++ DSLHAL_ERROR_UNRESET_DSP, /* 03 */ ++ DSLHAL_ERROR_RESET_DSP, /* 04 */ ++ DSLHAL_ERROR_NO_FIRMWARE_IMAGE, /* 05 */ ++ DSLHAL_ERROR_MALLOC, /* 06 */ ++ DSLHAL_ERROR_FIRMWARE_MALLOC, /* 07 */ ++ DSLHAL_ERROR_DIAG_MALLOC, /* 08 */ ++ DSLHAL_ERROR_OVERLAY_MALLOC, /* 09 */ ++ DSLHAL_ERROR_CODE_DOWNLOAD, /* 10 */ ++ DSLHAL_ERROR_DIAGCODE_DOWNLOAD, /* 11 */ ++ DSLHAL_ERROR_BLOCK_READ, /* 12 */ ++ DSLHAL_ERROR_BLOCK_WRITE, /* 13 */ ++ DSLHAL_ERROR_MAILBOX_READ, /* 14 */ ++ DSLHAL_ERROR_MAILBOX_WRITE, /* 15 */ ++ DSLHAL_ERROR_MAILBOX_NOMAIL, /* 16 */ ++ DSLHAL_ERROR_MAILBOX_OVERFLOW, /* 17 */ ++ DSLHAL_ERROR_INVALID_PARAM, /* 18 */ ++ DSLHAL_ERROR_ADDRESS_TRANSLATE, /* 19 */ ++ DSLHAL_ERROR_FIRMWARE_CRC, /* 20 */ ++ DSLHAL_ERROR_FIRMWARE_OFFSET, /* 21 */ ++ DSLHAL_ERROR_CONFIG_API_FAILURE, /* 22 */ ++ DSLHAL_ERROR_EOCREG_API_FAILURE, /* 23 */ ++ DSLHAL_ERROR_VERSION_API_FAILURE, /* 24 */ ++ DSLHAL_ERROR_STATS_API_FAILURE, /* 25 */ ++ DSLHAL_ERROR_MARGIN_API_FAILURE, /* 26 */ ++ DSLHAL_ERROR_CTRL_API_FAILURE, /* 27 */ ++ DSLHAL_ERROR_HYBRID_API_FAILURE, /* 28 */ ++ DSLHAL_ERROR_MODEMENV_API_FAILURE, /* 29 */ ++ DSLHAL_ERROR_INTERRUPT_FAILURE, /* 30 */ ++ DSLHAL_ERROR_INTERNAL_API_FAILURE, /* 31 */ ++ DSLHAL_ERROR_DIGIDIAG_FAILURE, /* 32 */ ++ DSLHAL_ERROR_TONETEST_FAILURE, /* 33 */ ++ DSLHAL_ERROR_NOISETEST_FAILURE, /* 34 */ ++ DSLHAL_ERROR_MODEMSTATE, /* 35 */ ++ DSLHAL_ERROR_OVERLAY_CORRUPTED /* 36 */ ++}; ++ ++enum ++{ ++ CONFIG_FLAG_NOFLAG, /* 00 */ ++ CONFIG_FLAG_TRELLIS, /* 01 */ ++ CONFIG_FLAG_EC, /* 02 */ ++ CONFIG_FLAG_RS /* 03 */ ++}; ++ ++#define USE_EMIF_REV 0 ++#define USE_CVR_REV 1 ++#define TNETD53XX_MAXLOOP 10000 ++#define REVERB 0 ++#define MEDLEY 1 ++#define NONINTENSE 0 ++#define slavespace0 0xa1000000 ++ ++#define MASK_MAILBOX_INTERRUPTS 0x00000001 ++#define MASK_BITFIELD_INTERRUPTS 0x00000002 ++#define MASK_HEARTBEAT_INTERRUPTS 0x00000004 ++#define DSP_INTERRUPT_SOURCE_REGISTER 0x020007A0 ++#define DSP_INTERRUPT_CLEAR_REGISTER 0x020007A4 ++ ++#define DIGITAL_DIAG_MEMSIZE 1048576 ++#define CRC32_QUOTIENT 0x04c11db7 ++#define DSP_FIRMWARE_MALLOC_SIZE 0x7ffff ++#define DSP_CONSTELLATION_BUFFER_SIZE 1024*4 ++#define LOG43125 9303 ++#define US_NOMINAL_POWER (-38) ++#define US_BNG_LENGTH 32 ++#define DS_BNG_LENGTH 256 ++#define NUMBER_OF_BITFIELDS 4 ++#define BITFIELD_SCAN 0x80000000 ++ ++/* ADSL Message offsets from Host Interface Pointer */ ++ ++/* ADSL2 Messages Index and Length defines */ ++ ++#define CMSGFMT_INDEX 0 ++#define CMSGPCB_INDEX 1 ++#define RMSGFMT_INDEX 2 ++#define RMSGPCB_INDEX 3 ++#define RMSG1LD_INDEX 13 ++#define RMSG2LD_INDEX 14 ++#define RMSG3LD_INDEX 15 ++#define RMSG4LD_INDEX 16 ++#define RMSG5LD_INDEX 17 ++#define RMSG6LD_INDEX 18 ++#define RMSG7LD_INDEX 19 ++#define RMSG8LD_INDEX 20 ++#define RMSG9LD_INDEX 21 ++#define CMSG1LD_INDEX 22 ++#define CMSG2LD_INDEX 23 ++#define CMSG3LD_INDEX 24 ++#define CMSG4LD_INDEX 25 ++#define CMSG5LD_INDEX 26 ++#define CMSGPCB2_INDEX 28 ++#define CMSGPCB2L_INDEX 29 ++#define RMSGFMT2_INDEX 30 ++#define RMSGPCB2L_INDEX 31 ++#define CMSG1ADSL2_INDEX 32 ++#define RMSG1ADSL2_INDEX 33 ++#define CMSG2ADSL2_INDEX 34 ++#define RMSG2ADSL2_INDEX 35 ++#define CPARAMS_INDEX 36 ++#define RPARAMS_INDEX 37 ++ ++/* ADSL2 Message Sizes */ ++ ++#define CMSGFMT_SIZE 2 ++#define RMSGFMT_SIZE 2 ++#define CMSGPCB_SIZE 2 ++#define CMSGPCB2_SIZE 6 /* Annex A with Blackout */ ++#define CMSGPCB2L_SIZE 10 /* Annex B with Blackout */ ++#define RMSGPCB_SIZE 36 ++#define RMSG1LD_SIZE 16 ++#define RMSGxLD_SIZE 258 ++#define CMSG1LD_SIZE 16 ++#define CMSG2LD_SIZE 130 ++#define CMSG3LD_SIZE 66 ++#define CMSG4LD_SIZE 34 ++#define CMSG5LD_SIZE 34 ++#define CMSG1ADSL2_SIZE 24 ++#define RMSG1ADSL2_SIZE 4 ++#define CMSG2ADSL2_SIZE 4 ++#define RMSG2ADSL2_SIZE 32 ++#define CPARAMS_SIZE 136 ++#define RPARAMS_SIZE 808 ++ ++/* ADSL2 Plus Message Sizes (if Different from ADSL2) */ ++ ++#define RMSGPCB_P_SIZE 68 ++#define CMSG1ADSL2P_SIZE 40 /* With Blackout */ ++#define CPARAMS_PA_SIZE 168 ++#define RPARAMS_PA_SIZE 2088 ++#define CPARAMS_PB_SIZE 296 ++#define RPARAMS_PB_SIZE 2088 ++ ++#endif /* pairs #ifndef ___DSL_REGISTER_DEFINES_H___ */ +diff -urN linux.old/drivers/atm/sangam_atm/dsl_hal_support.c linux.dev/drivers/atm/sangam_atm/dsl_hal_support.c +--- linux.old/drivers/atm/sangam_atm/dsl_hal_support.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/dsl_hal_support.c 2005-08-23 04:46:50.100843240 +0200 +@@ -0,0 +1,2788 @@ ++/******************************************************************************* ++* FILE PURPOSE: DSL Driver API functions for Sangam ++********************************************************************************* ++* FILE NAME: dsl_hal_support.c ++* ++* DESCRIPTION: ++* Contains DSL HAL APIs for Modem Control ++* ++* ++* (C) Copyright 2001-02, Texas Instruments, Inc. ++* History ++* Date Version Notes ++* 06Feb03 0.00.00 RamP Created ++* 21Mar03 0.00.01 RamP Inserted byteswap functions ++* 07Apr03 0.00.02 RamP Implemented new error reporting scheme ++* Changed Commenting to C style only ++* 12Apr03 0.00.03 RamP Added function to set Interrupt Bit ++* Masks for bitfield & Mailboxes ++* 14Apr03 0.00.04 RamP Added function to process modem state ++* bit fields; renamed REG32 macros ++* Changed interrupt bit field settings ++* 15Apr03 0.00.05 RamP Fixed exit condition on dslShutdown ++* 21Apr03 0.01.00 RamP Fixed dslShutdown function & changed ++* loop counter for overlay byteswaps ++* (Alpha) Added cache writeback for overlays ++* Added function acknowledgeInterrupt ++* 22Apr03 0.01.01 RamP Moved acknowledgeInterrupt into api ++* 24Apr03 0.01.02 RamP Added function to compare crc32 with ++* pre-computed value as a recovery ++* scheme for corrupt overlay pages ++* 28Apr03 0.01.03 RamP Fixed a parameter in crc32 fxn call ++* 05May03 0.01.04 RamP Fixed Message structure access in ++* writeHostMailbox function ++* 14May03 0.01.05 RamP Lookup to netService of dsp version ++* (alpha ++) to determine pots/isdn service ++* 21May03 0.01.06 RamP Added support for CO profiles ++* 29May03 0.01.07 RamP Added critical section tabs for block ++* read/write operations ++* Added functions to reload overlay pages ++* and CO Profiles ++* 04Jun03 0.01.08 RamP Added state transition timing counters ++* 06Jun03 0.01.09 RamP Added Interrupt source parsing function ++* Interrupt masking for heartbeat added ++* 09Jun03 0.01.10 RamP Modified modem state bit field processing ++* for structure changes in ITIDSLHW ++* fixed problem in free memory for CO prof ++* 18Jul03 0.01.11 RamP Optimized free memory for CO profiles & ++* overlay pages in the supporting APIs ++* 28Jul03 0.02.00 RamP Modified the process bitfield functn ++* for LED & Application State report ++* 21Aug03 0.03.00 RamP Added logic to allocate & communicate ++* memory for constellation buffer display ++* 29Sep03 0.03.01 RamP Added API switch calls to advcfg module ++* to abstract them from the API module ++* 12Oct03 0.03.02 RamP Added API to gather ADSL2 Messages ++* 14Oct03 0.03.03 RamP Added function to read CMsgsRA ++* 23Oct03 0.03.04 RamP Changed train history index to circular ++* buffer upon rollover ++* 29Oct03 0.03.05 RamP Added Adsl2 Delt Message Parsing ++* 12Nov03 0.03.06 RamP Fixed endianness issues with ++* Constellation Display ++* 14Nov03 0.03.07 RamP Added function to gather CRates1/RRates1 ++* before they get overwritten by CRatesRA ++* 19Nov03 0.03.08 JohnP Revised dslhal_support_aocBitSwapProcessing to ++* prevent duplicate ATU-R bitswaps going to ACT ++* 24Nov03 0.03.09 RamP Implemented detailed State Tracking through ++* Modem State bit fields for ADSL/2 ++* 12Dec03 0.03.10 RamP Tokenized advanced configuration code ++* 12Dec03 0.03.11 RamP Added state reset upon IDLE ++* 19Dec03 0.03.12 RamP Added static adsl2 byteswap function for ++* handling pointer to pointer cases ++* Changed adsl2 messages to correct pointer to ++* pointer dereferencing problems in some OS ++* 26Dec03 0.03.13 RamP Setting Current Address for Constellation ++* buffer in addition to start address ++* Added additional check to overlay page malloc ++*******************************************************************************/ ++#include "dsl_hal_register.h" ++#include "dsl_hal_support.h" ++ ++static unsigned int dslhal_support_adsl2ByteSwap32(unsigned int in32Bits); ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_support_unresetDslSubsystem ++* ++******************************************************************************************* ++* DESCRIPTION: This function unreset Dsl Subsystem ++* ++* INPUT: None ++* ++* RETURN: 0 if Pass; 1 if Fail ++* ++*****************************************************************************************/ ++int dslhal_support_unresetDslSubsystem(void) ++{ ++ dprintf(4," dslhal_support_unresetDslSubsystem()\n"); ++ /* Put ADSLSS in to reset */ ++ DSLHAL_REG32(0xa8611a10) = 0x1; ++ shim_osClockWait(64); ++ dprintf(5,"Selected APLL Reg \n"); ++ ++ DSLHAL_REG32(0xa8610a90) = 0x4; ++ shim_osClockWait(64); ++ dprintf(5,"Enable Analog PLL \n"); ++ ++ DSLHAL_REG32(0xa8610a90) = 0x77fe; ++ shim_osClockWait(64); ++ dprintf(5,"Set PLL for DSP\n"); ++ ++ /* DSLHAL_REG32(0xa8611600) = 0x007f1bdf;*/ ++ DSLHAL_REG32(0xa8611600) |= RST_CNTRL_PRCR_ADSLSS; ++ shim_osClockWait(64); ++ dprintf(5,"Brought ADSLSS out of Reset \n"); ++ ++ DSLHAL_REG32(0xa861090c) &= ~((1<<20)|(1<<21)|(1<<22)|(1<<23)|(1<<24)|(1<<25)); ++ shim_osClockWait(64); ++ dprintf(5,"Configured GPIO 20-25 for McBSP \n"); ++ ++ /*DSLHAL_REG32(0xa8611600) |= RST_CNTRL_PRCR_ADSLSS;*/ ++ ++ ++ /* DSLHAL_REG32(0xa8611a04) = 0x00000001; ++ shim_osClockWait(64); */ ++ ++ dprintf(4," dslhal_support_unresetDslSubsystem done\n"); ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_support_resetDslSubsystem ++* ++******************************************************************************************* ++* DESCRIPTION: This function unreset Dsl Subsystem ++* ++* INPUT: None ++* ++* RETURN: 0 if Pass; 1 if Fail ++* ++*****************************************************************************************/ ++int dslhal_support_resetDslSubsystem(void) ++{ ++ dprintf(4, "dslhal_support_resetDslSubsystem \n"); ++ /* Put ADSLSS into reset */ ++ DSLHAL_REG32(0xa8611600) &= ~RST_CNTRL_PRCR_ADSLSS; ++ shim_osClockWait(64); ++ /* DSLHAL_REG32(0xa8611a04) = 0x00000000; ++ shim_osClockWait(64); */ ++ dprintf(4, "dslhal_support_resetDslSubsystem Done \n"); ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_support_unresetDsp() ++* ++******************************************************************************************* ++* DESCRIPTION: This fuction takes ax5 daugter board out of reset. ++* ++* INPUT: None ++* ++* RETURN: 0 --successful. ++* 1 --failed ++* ++*****************************************************************************************/ ++int dslhal_support_unresetDsp(void) ++{ ++#ifdef PRE_SILICON ++ /* unsigned char value; */ ++ int rc; ++ ++ rc=dslhal_support_hostDspAddressTranslate((unsigned int)DEV_MDMA0_SRC_ADDR); ++ if(rc==DSLHAL_ERROR_ADDRESS_TRANSLATE) ++ { ++ dprintf(1, "dslhal_support_hostDspAddressTranslate failed\n"); ++ return DSLHAL_ERROR_ADDRESS_TRANSLATE; ++ } ++ dprintf(5,"MDMA SRC: %08x\n", rc); ++ DSLHAL_REG32(rc) = 0x80000001; ++ rc=dslhal_support_hostDspAddressTranslate((unsigned int)DEV_MDMA0_DST_ADDR); ++ if(rc==DSLHAL_ERROR_ADDRESS_TRANSLATE) ++ { ++ dprintf(1, "dslhal_support_hostDspAddressTranslate failed\n"); ++ return DSLHAL_ERROR_ADDRESS_TRANSLATE; ++ } ++ dprintf(5,"MDMA DST: %08x\n", rc); ++ DSLHAL_REG32(rc) = 0x02090001; ++ rc=dslhal_support_hostDspAddressTranslate((unsigned int)DEV_MDMA0_CTL_ADDR); ++ if(rc== DSLHAL_ERROR_ADDRESS_TRANSLATE) ++ { ++ dprintf(1, "dslhal_support_hostDspAddressTranslate failed\n"); ++ return DSLHAL_ERROR_ADDRESS_TRANSLATE; ++ } ++ dprintf(5,"MDMA CTL: %08x\n", rc); ++ DSLHAL_REG32(rc) = (DEV_MDMA_START | DEV_MDMA_DST_INC | DEV_MDMA_SRC_INC | ++ DEV_MDMA_BURST1 | (1 << DEV_MDMA_LEN_SHF)); ++ /* statusMask = 0x00000010;*/ ++#else ++ dprintf(4, "dslhal_support_unresetDsp()\n"); ++ ++ /* Bring the DSP core out of reset */ ++ /* DSLHAL_REG32(0xa8611600) = 0x00ff1bdf; */ ++ DSLHAL_REG32(0xa8611600) |= RST_CNTRL_PRCR_DSP; ++ shim_osClockWait(64); ++ dprintf(5,"Brought DSP out of Reset \n"); ++ dprintf(6,"Current Contents of PRCR: 0x%x\n",(unsigned int)DSLHAL_REG32(0xa8611600)); ++ /* DSLHAL_REG32(0xa8611a0c) = 0x00000007; ++ shim_osClockWait(64); */ ++#endif ++ ++ dprintf(4, "dslhal_support_unresetDsp() done\n"); ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_support_resetDsp() ++* ++******************************************************************************************* ++* DESCRIPTION: This fuction takes ax5 daugter board into reset. ++* ++* INPUT: None ++* ++* RETURN: 0 --successful. ++* 1 --failed ++* ++*****************************************************************************************/ ++int dslhal_support_resetDsp(void) ++{ ++ dprintf(4, "dslhal_support_resetDsp \n"); ++ /* Put ADSLSS into reset */ ++ DSLHAL_REG32(0xa8611600) &= ~RST_CNTRL_PRCR_DSP; ++ shim_osClockWait(64); ++ dprintf(4, "dslhal_support_resetDsp Done \n"); ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_hostDspAddressTranslate() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Maps ax5 daugter card dsp memory address to avalanche memory space ++* ++* Input: unsigned int addr, dsp memory address. ++* ++* Return: >=0, unsigned int, mapped Avalanche address(VBUS address). ++* -1, mapping failed ++* ++* ++********************************************************************************************/ ++/* static unsigned int bbifmap0,bbifmap1; */ ++ ++unsigned int dslhal_support_hostDspAddressTranslate( unsigned int addr ) ++{ ++ unsigned int addrMap; ++ /* This function should just be used to move the memory window of the ADSLSS */ ++ dprintf(5, "dslhal_support_hostDspAddressTranslate()\n"); ++ ++ /* select vbus to xbus memory */ ++ /* addrMap = addr & 0xff000000; */ ++ addrMap = addr & ADSLSSADRMASK; ++ ++ DSLHAL_REG32(ADSLSSADR) = addrMap; ++ ++ dprintf(6, "dslhal_support_hostDspAddressTranslate() done\n"); ++#ifdef PRE_SILICON ++ return ((ADSLSS_BASE | (~ADSLSSADRMASK & addr))+ 0x00000100); ++ /* Added 0x100 for Pre-Silicon VLNQ offset.. to be removed for Silicon */ ++#else ++ return ((ADSLSS_BASE | (~ADSLSSADRMASK & addr))); ++ /* Added 0x100 for Pre-Silicon VLNQ offset.. to be removed for Silicon */ ++#endif ++ ++} ++ ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_support_blockWrite ++* ++******************************************************************************************* ++* DESCRIPTION: This rouin simulates DSP memory write as done in ax5 pci nic card ++* ++* INPUT: void *buffer, data need to written ++* void *adde, memory address to be written ++* size_t count, number of bytes to be written ++* ++* RETURN: 0 --succeeded ++* 1 --Failed ++* ++*****************************************************************************************/ ++ ++int dslhal_support_blockWrite(void *buffer, void *addr, size_t count) ++{ ++ int rc, byteCnt=0; ++ unsigned char* ptr; ++ union ++ { ++ unsigned char *cptr; ++ short *sptr; ++ int *iptr; ++ } src; ++ union ++ { ++ int anint; /* DSP location */ ++ unsigned char *cptr; /* to avoid casts */ ++ } dst; ++ union ++ { ++ unsigned int anint; ++ unsigned char byte[4]; ++ }data,dword,sword; ++ ++ /* Enter Critical Section */ ++ shim_osCriticalEnter(); ++ ++ dprintf(6, "dslhal_support_blockWrite\n"); ++ ++ dprintf(6,"addr=0x%X, length=0x%X, buffer=0x%X\n", (unsigned int) addr, (unsigned int) count, (unsigned int)buffer); ++ ++ src.cptr = (unsigned char*) buffer; /* local buffer */ ++ dst.cptr = addr; /* DSP memory location */ ++ ++ /*Maps address first*/ ++ rc=dslhal_support_hostDspAddressTranslate((unsigned int)addr); ++ dprintf(5, "NewAddr: %08x\n", rc); ++ if(rc== DSLHAL_ERROR_ADDRESS_TRANSLATE) ++ { ++ dprintf(1, "dslhal_support_hostDspAddressTranslate failed\n"); ++ return DSLHAL_ERROR_ADDRESS_TRANSLATE; ++ } ++ ++ dst.cptr=(unsigned char *)rc; ++ ++ /* check wether address is at 32bits boundary */ ++ ++ if ((dst.anint & 0x3) && count) ++ { ++ sword.anint = *(unsigned int*)((unsigned int)src.cptr & 0xfffffffc); ++ dword.anint = DSLHAL_REG32((unsigned int)dst.cptr & 0xfffffffc); ++ sword.anint = (unsigned int) dslhal_support_byteSwap32(sword.anint); ++ dword.anint = (unsigned int) dslhal_support_byteSwap32(dword.anint); ++ ptr = (unsigned char *)((unsigned int)dst.cptr & 0xfffffffc); ++ ++ if((dst.anint & 3) ==3) /* last byte of a dword */ ++ { ++ dword.byte[3] = sword.byte[3]; ++ dst.anint++; /* bump the address by one */ ++ byteCnt++; ++ count--; ++ } ++ ++ if((dst.anint & 3) ==1) /* second byte */ ++ { ++ if(count>3) ++ { ++ dword.byte[3] = sword.byte[3]; ++ dst.anint++; ++ count--; ++ byteCnt++; ++ } ++ if(count>2) ++ { ++ dword.byte[2] = sword.byte[2]; ++ dst.anint++; ++ count--; ++ byteCnt++; ++ } ++ if(count) ++ { ++ dword.byte[1] = sword.byte[1]; ++ dst.anint++; ++ count--; ++ byteCnt++; ++ } ++ } ++ ++ if((dst.anint & 3) && (count >1)) ++ { ++ dword.byte[2] = sword.byte[2]; ++ dword.byte[3] = sword.byte[3]; ++ byteCnt+=2; ++ dst.anint += 2; /* bump the address by two */ ++ count -= 2; /* decrement the byte count by two */ ++ } ++ ++ if((dst.anint & 3) && (count==1)) ++ { ++ dword.byte[2] = sword.byte[2]; ++ dst.anint++; ++ byteCnt++; ++ count--; ++ } ++ src.cptr = (char *)((unsigned int)src.cptr & 0xfffffffc); /* fix 032802 */ ++ dword.anint = dslhal_support_byteSwap32(dword.anint); ++ DSLHAL_REG32((unsigned int)ptr) = dword.anint; ++ ptr = src.cptr; ++ for(rc=0;rc<count;rc++) ++ { ++ *ptr = *(ptr+byteCnt); ++ ptr++; ++ } ++ } ++ ++ /* the dst pointer should now be on a 32-bit boundary */ ++ ++ while (count > 3) ++ { ++ DSLHAL_REG32((unsigned int)dst.cptr) = dslhal_support_byteSwap32(*src.iptr); ++ src.iptr++; /* bump the data pointer by four */ ++ dst.anint += 4; /* bump the address by four */ ++ count -= 4; /* decrement the byte count by four */ ++ } ++ ++ /* write remaining bytes */ ++ if(count) ++ { ++ int i; ++ ++ data.anint= DSLHAL_REG32((unsigned int)dst.cptr); ++ data.anint=dslhal_support_byteSwap32(data.anint); ++ for (i=0; i< count; i++) ++ { ++ data.byte[i]=*(src.cptr+i); ++ } ++ data.anint=dslhal_support_byteSwap32(data.anint); ++ DSLHAL_REG32((unsigned int)dst.cptr) = data.anint; ++ src.cptr +=count; ++ dst.anint +=count; ++ count=0; ++ } ++ dprintf(6, "dslhal_support_blockWrite done\n"); ++ /* Exit Critical Section */ ++ shim_osCriticalExit(); ++ return DSLHAL_ERROR_NO_ERRORS; ++} /* end of dslhal_support_blockWrite() */ ++ ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_support_blockRead ++* ++********************************************************************************************* ++* DESCRIPTION: This rouin simulates DSP memory read as done in ax5 pci nic card ++* ++* INPUT: void *addr, memory address to be read ++* void *buffer, dat buffer to be filled with from memmory ++* size_t count, number of bytes to be written ++* ++* RETURN: 0 --succeeded ++* 1 --Failed ++* ++*****************************************************************************************/ ++ ++int dslhal_support_blockRead(void *addr, void *buffer, size_t count) ++{ ++ int rc; ++ union ++ { ++ int anint; /* DSP location */ ++ char *cptr; /* to avoid casts */ ++ } src; ++ union ++ { ++ char byte[4]; ++ int anint; /* DSP data */ ++ } data; ++ union ++ { ++ char *cptr; ++ int *iptr; ++ } dst; ++ ++ /* Enter Critical Section */ ++ shim_osCriticalEnter(); ++ ++ dprintf(6,"dslhal_support_blockRead\n"); ++ ++ ++ src.cptr = addr; /* DSP memory location */ ++ dst.cptr = buffer; /* local buffer */ ++ ++ dprintf(6, "Read addr=0x%X, size=0x%X\n", (unsigned int)addr, count); ++ ++ ++ /*Maps address first*/ ++ rc=dslhal_support_hostDspAddressTranslate((unsigned int)addr); ++ if(rc== DSLHAL_ERROR_ADDRESS_TRANSLATE) ++ { ++ dprintf(1, "dslhal_support_hostDspAddressTranslate failed\n"); ++ return DSLHAL_ERROR_ADDRESS_TRANSLATE; ++ } ++ ++ src.cptr=(unsigned char *)rc; ++ ++ /********************************************** ++ * if the source is NOT on a 32-bit boundary * ++ * then we read the full word * ++ * and ignore the first part of it * ++ **********************************************/ ++ ++ if ((src.anint & 3) && count) ++ { ++ unsigned int anword; ++ ++ anword = DSLHAL_REG32((unsigned int)src.cptr & 0xfffffffc); ++ data.anint = dslhal_support_byteSwap32(anword); ++ ++ /************************************ ++ * there is no need for case 0 * ++ * notice that there are no breaks * ++ * each falls through to the next * ++ ************************************/ ++ ++ switch (src.anint & 3) ++ { ++ case 1: ++ /* use only byte[1-3] */ ++ *(dst.cptr++) = data.byte[1]; ++ src.anint++; ++ count--; ++ case 2: ++ /* use byte[2-3] */ ++ if (count) ++ { ++ *(dst.cptr++) = data.byte[2]; ++ src.anint++; ++ count--; ++ } ++ case 3: ++ /* use byte[3] */ ++ if (count) ++ { ++ *(dst.cptr++) = data.byte[3]; ++ src.anint++; ++ count--; ++ } ++ } ++ } ++ ++ /* the src pointer should now be on a 32-bit boundary */ ++ while (count > 3) ++ { ++ unsigned int anword; ++ ++ anword=DSLHAL_REG32((unsigned int)src.cptr); ++ ++ *dst.iptr = dslhal_support_byteSwap32(anword); ++ src.anint += 4; /* bump the address by four */ ++ dst.iptr++; /* bump the data pointer by four */ ++ count -= 4; /* decrement the byte count by four */ ++ } ++ ++ /******************************* ++ * if there's any count left * ++ * then we read the next word * ++ * and ignore the end of it * ++ *******************************/ ++ if (count) ++ { ++ unsigned int anword; ++ ++ anword= DSLHAL_REG32((unsigned int)src.cptr); ++ data.anint = dslhal_support_byteSwap32(anword); ++ ++ /************************************ ++ * there is no need for case 0 * ++ * notice that there are no breaks * ++ * each falls through to the next * ++ ************************************/ ++ switch (count) ++ { ++ case 1: ++ /* use byte[0] */ ++ *(dst.cptr++) = data.byte[0]; ++ src.anint++; ++ count--; ++ break; ++ case 2: ++ /* use byte[0-1] */ ++ *(dst.cptr++) = data.byte[0]; ++ *(dst.cptr++) = data.byte[1]; ++ src.anint +=2; ++ count -= 2; ++ break; ++ case 3: ++ /* use only byte[0-2] */ ++ *(dst.cptr++) = data.byte[0]; ++ *(dst.cptr++) = data.byte[1]; ++ *(dst.cptr++) = data.byte[2]; ++ src.anint +=3; ++ count -= 3; ++ break; ++ } ++ } ++ /* Exit Critical Section */ ++ shim_osCriticalExit(); ++ ++ return DSLHAL_ERROR_NO_ERRORS; ++ ++} /* end of dslhal_support_blockRead() */ ++ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_readDspMailbox ++* ++********************************************************************************************* ++* DESCRIPTION: Reads a message from the mailbox ++* ++* ARGUMENTS: int *pcmd Pointer to command read ++* ++* RETURNS: 0 if successful ++* 1 if no mail ++* NZ otherwise ++* ++*****************************************************************************************/ ++ ++int dslhal_support_readDspMailbox(tidsl_t *ptidsl, int *pcmd, int *ptag, int *pprm1, int *pprm2) ++{ ++ int rc; ++ int cmd; ++ int tag; ++ int prm1; ++ int prm2; ++ unsigned char dspOutInx; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ DEV_HOST_mailboxControl_t mailboxControl; ++ DEV_HOST_dspHostMsg_t dspMailboxMsg[DEV_HOST_DSPQUEUE_LENGTH]; ++ ++ dprintf(6,"dslhal_support_readDspMailbox\n"); ++ ++ /* get the DSP main pointer */ ++ ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface, ++ sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ /* Read in the command/response buffer */ ++ dspOamSharedInterface.dspHostMailboxControl_p = (DEV_HOST_mailboxControl_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.dspHostMailboxControl_p); ++ ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.dspHostMailboxControl_p, ++ &mailboxControl, sizeof(DEV_HOST_mailboxControl_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ /* Change the endianness of the Mailbox Pointer */ ++ mailboxControl.dspMsgBuf_p = (DEV_HOST_dspHostMsg_t *) dslhal_support_byteSwap32((unsigned int)mailboxControl.dspMsgBuf_p); ++ ++ rc = dslhal_support_blockRead((PVOID)mailboxControl.dspMsgBuf_p, ++ &dspMailboxMsg, (sizeof(DEV_HOST_dspHostMsg_t)*DEV_HOST_DSPQUEUE_LENGTH)); ++ ++ if (rc) ++ return DSLHAL_ERROR_BLOCK_READ; ++ /* Extract the command/response message index */ ++ mailboxControl.hostInInx &= 7; ++ mailboxControl.hostOutInx &= 7; ++ mailboxControl.dspOutInx &= 7; ++ mailboxControl.dspInInx &= 7; ++ ++ ++ /* check for messages in the mailbox */ ++ ++ if (mailboxControl.dspOutInx == mailboxControl.dspInInx) ++ { ++ return DSLHAL_ERROR_MAILBOX_NOMAIL; ++ /* no messages to read */ ++ } ++ ++ /* use bDRESPOutInx as index to DRESPMsgBuf */ ++ ++ cmd = dspMailboxMsg[mailboxControl.dspOutInx].cmd; ++ tag = dspMailboxMsg[mailboxControl.dspOutInx].tag; ++ prm1= dspMailboxMsg[mailboxControl.dspOutInx].param1; ++ prm2= dspMailboxMsg[mailboxControl.dspOutInx].param2; ++ ++ mailboxControl.dspOutInx++; /* increment count */ ++ mailboxControl.dspOutInx &= 7; /* only two bits */ ++ ++ dspOutInx = mailboxControl.dspOutInx; ++ ++ /* Read in the command response buffer again to take care of changes */ ++ mailboxControl.dspOutInx = dspOutInx; ++ rc = dslhal_support_blockWrite(&mailboxControl.dspOutInx, ++ &dspOamSharedInterface.dspHostMailboxControl_p->dspOutInx, sizeof(BYTE)); ++ ++ if (rc) ++ return DSLHAL_ERROR_BLOCK_WRITE; ++ ++ /* Is the input parameter address non-zero*/ ++ ++ if (pcmd) ++ { ++ *pcmd = cmd; ++ } ++ if (ptag) ++ { ++ *ptag = tag; ++ } ++ if (pprm1) ++ { ++ *pprm1 = prm1; ++ } ++ if (pprm2) ++ { ++ *pprm2 = prm2; ++ } ++ ++ dprintf(6,"dslhal_support_readDspMailbox done\n"); ++ dprintf(6,"cmd=%d, tag=%d\n", cmd, tag); ++ dprintf(6,"dslhal_support_readDspMailbox:cmd: 0x%x, tag=%d\n", cmd, tag); ++ return DSLHAL_ERROR_NO_ERRORS; ++ ++} /* end of dslhal_support_readDspMailbox() */ ++ ++/******************************************************************************************* ++* FUNCTION NAME: dslhal_support_writeHostMailbox ++* ++******************************************************************************************** ++* DESCRIPTION: Send a message to a mailbox ++* ++* ARGUMENTS: int cmd command to write ++* int tag tag (currently unused) ++* int p1 parameter 1 (currently unused) ++* int p2 parameter 2 (currently unused) ++* ++* RETURNS: 0 if successful ++* NZ otherwise ++* ++*******************************************************************************************/ ++ ++int dslhal_support_writeHostMailbox(tidsl_t *ptidsl, int cmd, int tag, int p1, int p2) ++{ ++ int rc; ++ int index; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ DEV_HOST_mailboxControl_t mailboxControl; ++ DEV_HOST_dspHostMsg_t hostMailboxMsg[DEV_HOST_HOSTQUEUE_LENGTH]; ++ unsigned char hostInInx; ++ ++ dprintf(6,"dslhal_support_writeHostMailbox:cmd: 0x%x, tag=%d\n", cmd, tag); ++ ++ dprintf(6,"cmd=%d, tag=%d\n", cmd, tag); ++ ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface, ++ sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ /* Read in the command/response buffer */ ++ dspOamSharedInterface.dspHostMailboxControl_p = (DEV_HOST_mailboxControl_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.dspHostMailboxControl_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.dspHostMailboxControl_p, ++ &mailboxControl, sizeof(DEV_HOST_mailboxControl_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ /* Change the endianness of the Mailbox Control Pointer */ ++ mailboxControl.hostMsgBuf_p = (DEV_HOST_dspHostMsg_t *) dslhal_support_byteSwap32((unsigned int)mailboxControl.hostMsgBuf_p); ++ rc = dslhal_support_blockRead((PVOID)mailboxControl.hostMsgBuf_p, ++ &hostMailboxMsg, (sizeof(DEV_HOST_dspHostMsg_t)*DEV_HOST_HOSTQUEUE_LENGTH)); ++ ++ if (rc) ++ return DSLHAL_ERROR_BLOCK_READ; ++ /* Extract the command/response message index */ ++ mailboxControl.hostInInx &= 7; ++ mailboxControl.hostOutInx &= 7; ++ mailboxControl.dspOutInx &= 7; ++ mailboxControl.dspInInx &= 7; ++ ++ /* make sure there's room in the mailbox */ ++ ++ index = mailboxControl.hostInInx; ++ mailboxControl.hostInInx++; ++ mailboxControl.hostInInx &= 7; ++ hostInInx = mailboxControl.hostInInx; ++ if (mailboxControl.hostInInx == mailboxControl.hostOutInx) ++ { ++ /* mailbox is full */ ++ return DSLHAL_ERROR_MAILBOX_OVERFLOW; ++ } ++ ++ /* use bOCMDInInx as index to OCMDMsgBuf */ ++ hostMailboxMsg[index].cmd = (BYTE) cmd; ++ hostMailboxMsg[index].tag = (BYTE) tag; ++ hostMailboxMsg[index].param1 = (BYTE) p1; ++ hostMailboxMsg[index].param2 = (BYTE) p2; ++ rc = dslhal_support_blockWrite(&hostMailboxMsg, ++ (PVOID)mailboxControl.hostMsgBuf_p, ++ sizeof(DEV_HOST_dspHostMsg_t)*DEV_HOST_HOSTQUEUE_LENGTH); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockWrite failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ rc = dslhal_support_blockWrite(&mailboxControl, ++ &dspOamSharedInterface.dspHostMailboxControl_p, ++ sizeof(DEV_HOST_mailboxControl_t)); ++ if (rc) ++ return DSLHAL_ERROR_BLOCK_WRITE; ++ /* update the index */ ++ mailboxControl.hostInInx = hostInInx; ++ rc = dslhal_support_blockWrite(&mailboxControl.hostInInx, ++ &dspOamSharedInterface.dspHostMailboxControl_p->hostInInx, ++ sizeof(BYTE)); ++ if (rc) ++ return DSLHAL_ERROR_BLOCK_WRITE; ++ ++ dprintf(6,"dslhal_support_writeHostMailbox done\n"); ++ return DSLHAL_ERROR_NO_ERRORS; ++ ++} ++/* end of dslhal_support_writeHostMailbox() */ ++ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_readTextMailbox ++* ++********************************************************************************************* ++* DESCRIPTION: Reads a message from the mailbox ++* ++* ARGUMENTS: int *pcmd Pointer to command read ++* ++* RETURNS: 0 if successful ++* 1 if no mail ++* NZ otherwise ++* ++*****************************************************************************************/ ++ ++int dslhal_support_readTextMailbox(tidsl_t *ptidsl, int *pmsg1, int *pmsg2) ++{ ++ int rc; ++ unsigned int msg1; ++ unsigned int msg2; ++ unsigned char textOutInx; ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ DEV_HOST_mailboxControl_t mailboxControl; ++ DEV_HOST_textMsg_t textMailboxMsg[DEV_HOST_TEXTQUEUE_LENGTH]; ++ ++ dprintf(6,"dslhal_support_readTextMailbox\n"); ++ ++ /* get the DSP main pointer */ ++ ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterfacePtr_t) ptidsl->pmainAddr; ++ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface, ++ sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ /* Read in the command/response buffer */ ++ dspOamSharedInterface.dspHostMailboxControl_p = (DEV_HOST_mailboxControl_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.dspHostMailboxControl_p); ++ ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.dspHostMailboxControl_p, ++ &mailboxControl, sizeof(DEV_HOST_mailboxControl_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ /* Change the endianness of the Mailbox Pointer */ ++ mailboxControl.textMsgBuf_p = (DEV_HOST_textMsg_t *) dslhal_support_byteSwap32((unsigned int)mailboxControl.textMsgBuf_p); ++ ++ rc = dslhal_support_blockRead((PVOID)mailboxControl.textMsgBuf_p, ++ &textMailboxMsg, (sizeof(DEV_HOST_textMsg_t)*DEV_HOST_DSPQUEUE_LENGTH)); ++ ++ if (rc) ++ return DSLHAL_ERROR_BLOCK_READ; ++ /* Extract the command/response message index */ ++ ++ mailboxControl.textInInx &= 7; ++ mailboxControl.textOutInx &= 7; ++ ++ /* check for messages in the mailbox */ ++ ++ if (mailboxControl.textOutInx == mailboxControl.textInInx) ++ { ++ return DSLHAL_ERROR_MAILBOX_NOMAIL; ++ /* no messages to read */ ++ } ++ ++ /* use bDRESPOutInx as index to DRESPMsgBuf */ ++ ++ msg1 = textMailboxMsg[mailboxControl.textOutInx].msgPart1; ++ msg2 = textMailboxMsg[mailboxControl.textOutInx].msgPart2; ++ msg1 = (unsigned int) dslhal_support_byteSwap32((unsigned int)msg1); ++ msg2 = (unsigned int) dslhal_support_byteSwap32((unsigned int)msg2); ++ ++ mailboxControl.textOutInx++; /* increment count */ ++ mailboxControl.textOutInx &= 7; /* only two bits */ ++ ++ textOutInx = mailboxControl.textOutInx; ++ ++ /* Read in the command response buffer again to take care of changes */ ++ ++ mailboxControl.textOutInx = textOutInx; ++ ++ rc = dslhal_support_blockWrite(&mailboxControl.textOutInx, ++ &dspOamSharedInterface.dspHostMailboxControl_p->textOutInx, sizeof(BYTE)); ++ ++ if (rc) ++ return DSLHAL_ERROR_BLOCK_WRITE; ++ ++ /* Is the input parameter address non-zero*/ ++ ++ if (pmsg1) ++ { ++ *pmsg1 = msg1; ++ } ++ if (pmsg2) ++ { ++ *pmsg2 = msg2; ++ } ++ ++ dprintf(6,"dslhal_support_readTextMailbox done\n"); ++ dprintf(6,"msgPart1=%d, msgPart2=%d\n", msg1, msg2); ++ dprintf(6,"dslhal_support_readTextMailbox:Message Part1: 0x%x, tag=0x%x\n", msg1, msg2); ++ return DSLHAL_ERROR_NO_ERRORS; ++ ++} /* end of dslhal_support_readTextMailbox() */ ++ ++ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_hostDspCodeDownload() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* download DSP image from host memory to dsp memory ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++ ++int dslhal_support_hostDspCodeDownload(tidsl_t * ptidsl) ++{ ++ ++ unsigned int index; ++ int rc = 0, i; ++ unsigned char *iptr; /* image pointer */ ++ unsigned int numbytes,olayXfer,olayStore; ++ /* unsigned int holdSecPhyAddr=0,holdSecVirtAddr; */ ++ unsigned int *olayStart; ++ size_t len; /* size of the file */ ++ size_t expoffset; /* expected offset for next section header */ ++ unsigned short checksum; ++ unsigned int crc32; ++ unsigned char * image; ++ char *tmp = (char *)DEV_HOST_DSP_OAM_POINTER_LOCATION; ++ DEV_HOST_dspVersionDef_t dspVersion; ++#if SWTC ++ DEV_HOST_tcHostCommDef_t TCHostCommDef; ++#endif ++ DEV_HOST_oamWrNegoParaDef_t OamWrNegoParaDef; ++ DEV_HOST_dspOamSharedInterface_t dspOamSharedInterface, *pdspOamSharedInterface; ++ DEV_HOST_olayDpDef_t olayDpParms; ++ DEV_HOST_profileBase_t profileList; ++#ifndef NO_ACT ++ DEV_HOST_consBufDef_t constDisp; ++#endif ++#if CO_PROFILES ++ DEV_HOST_coData_t coData; ++#endif ++ DEV_HOST_olayDpPageDef_t olayDpPageDef[NUM_PAGES]; ++ union ++ { ++ char byte[4]; ++ unsigned short hword[2]; ++ unsigned int aword; ++ } data; ++ ++ struct _header ++ { ++ char signature[6]; ++ unsigned short sectcount; ++ unsigned int length; ++ } header; ++ ++ struct _section ++ { ++ unsigned int addr; ++ unsigned int length; ++ unsigned int offset; ++ unsigned int page; ++ };/* section[MAXSECTIONS]; */ ++ ++ struct _section *sptr; ++ unsigned int secAddr, secLength, secOffset, secPage; ++ ++ ++ dprintf(5,"dslhal_support_hostDspCodeDownload\n"); ++ image = ptidsl->fwimage; ++ ++ if (!image) ++ { ++ dprintf(1,"no image file\n"); ++ return DSLHAL_ERROR_NO_FIRMWARE_IMAGE; ++ } ++ ++ iptr=image; ++ ++ numbytes = sizeof(header); ++ ++ shim_osMoveMemory((char *) &header, (char *)iptr, numbytes); ++ header.length = dslhal_support_byteSwap32(header.length); ++ header.sectcount = dslhal_support_byteSwap16(header.sectcount); ++#if 0 ++ crc32 = dslhal_support_computeCrc32((unsigned char*)&crcTest[0],20); ++ dprintf(6,"CRC-32 for the crcTest: 0x%x",crc32); ++ dprintf(4,"header.length=%d, header.sectcount=0x%X\n", header.length, header.sectcount); ++#endif ++ /* point to the checksum */ ++ /* compute the checksum on CRC32 here */ ++ iptr = image + header.length-4; ++ numbytes = sizeof(data.aword); ++ ++ dprintf(5,"tiload: check checksum\n"); ++ shim_osMoveMemory((char *)&(data.byte), (char *)iptr, numbytes); ++ ++ crc32 = dslhal_support_computeCrc32(image,ptidsl->imagesize); ++ dprintf(5,"CRC-32 for the Binary: 0x%x",crc32); ++ /* CRC currently not added to the DSP binary, so this code is commented out */ ++ /* ++ data.aword = dslhal_support_byteSwap32(data.aword); ++ if (data.aword != crc32) ++ { ++ dprintf(1,"Checksum error\n"); ++ } ++ */ ++ /* Verify signature - Changed from "320C6x" to "TIDSL" for load 80 */ ++ ++ header.signature[5]='\0'; ++ dprintf(5, "signature=%s\n", header.signature); ++ ++ if (shim_osStringCmp(header.signature, "TIDSL")) ++ { ++ dprintf(1,"Signature not match\n"); ++ return DSLHAL_ERROR_FIRMWARE_OFFSET; ++ } ++ ++ dprintf(5,"tiload: check sect count\n"); ++ /* check section count */ ++ ++ if (header.sectcount > MAXSECTIONS) ++ { ++ dprintf(1,"Section # %d exceeds max %d\n", header.sectcount, MAXSECTIONS); ++ return DSLHAL_ERROR_FIRMWARE_OFFSET; ++ } ++ else ++ { ++ dprintf(5,"found %d sections\n", header.sectcount); ++ } ++ ++ /* Validation of Section offsets */ ++ ++ /* point to the first section */ ++ len = header.length; /* file size in bytes */ ++ expoffset = sizeof(struct _header) + header.sectcount * sizeof(struct _section); ++ ++ dprintf(5,"tiload: check offset\n"); ++ for (index=0; index<header.sectcount; index++) /* parse the sections one by one */ ++ { ++ numbytes = sizeof(struct _header) + index * sizeof(struct _section); /* Compute Section Offset */ ++ sptr = (struct _section *)(image + numbytes); /* Section Pointer to beginning of the section */ ++ ++ secAddr = dslhal_support_byteSwap32(sptr->addr); ++ secOffset = dslhal_support_byteSwap32(sptr->offset); ++ secLength = dslhal_support_byteSwap32(sptr->length); ++ secPage = dslhal_support_byteSwap32(sptr->page); ++ ++ /* validate offset */ ++ if ( secOffset== 0xffffffff) ++ { ++ /* special case: zero fill */ ++ /* offset is valid, don't change expoffset */ ++ } ++ else ++ { ++ if (secOffset > len-4) ++ { ++ dprintf(5,"Offset error\n"); ++ return DSLHAL_ERROR_FIRMWARE_OFFSET; ++ } ++ ++ /* determine expected offset of NEXT section */ ++ expoffset = secLength + secOffset; ++ ++ /* all addresses must be on word boundaries */ ++ if (secAddr & 3) ++ { ++ ++ } ++ } ++ } ++ ++ /* check final offset - should just be a checksum left */ ++/* IMPORTANT 11/24/02 --> Got this error... but bypassed for Pf of Concept*/ ++ /* ++ if (expoffset != len-4) ++ { ++ dprintf(5,"Final offset error\n"); ++ return DSLHAL_ERROR_FIRMWARE_OFFSET; ++ } ++ */ ++ ++ /* Actual Code loading to DSP Memory */ ++ ++ /* Initialize DSP Data Memory before code load*/ ++ dprintf(5,"Zero Prefill DSP DMEM\n"); ++ DSLHAL_REG32(ADSLSSADR)=0x80000000; ++ shim_osZeroMemory((char *)0xa1000000, 0x10000); ++ /* Load sections from the image */ ++ for (index=0; index<header.sectcount; index++) /* Parse each section */ ++ { ++ numbytes = sizeof(header) + index * sizeof(struct _section); /* Compute offset to next section */ ++ sptr = (struct _section *)(image + numbytes); /* Point to next section */ ++ ++ secAddr = dslhal_support_byteSwap32(sptr->addr); ++ secOffset = dslhal_support_byteSwap32(sptr->offset); ++ secLength = dslhal_support_byteSwap32(sptr->length); ++ secPage = dslhal_support_byteSwap32(sptr->page); ++ ++ data.aword = secAddr; ++ checksum += data.byte[0] + data.byte[1] + data.byte[2] + data.byte[3]; ++ ++ data.aword = secLength; ++ checksum += data.byte[0] + data.byte[1] + data.byte[2] + data.byte[3]; ++ ++ data.aword = secOffset; ++ checksum += data.byte[0] + data.byte[1] + data.byte[2] + data.byte[3]; ++ ++ data.aword = secPage; ++ checksum += data.byte[0] + data.byte[1] + data.byte[2] + data.byte[3]; ++ ++ ++ /* validate offset */ ++ if (secOffset == 0xffffffff) ++ { ++ /* special case: zero fill */ ++ /* offset is valid, don't change expoffset */ ++ } ++ else ++ { ++ /* real offset */ ++ if(secOffset > len-4) ++ { ++ dprintf(5,"section[%u] offset too big (%X/%X)\n", index, ++ secOffset, len-4); ++ ++ return DSLHAL_ERROR_FIRMWARE_OFFSET; ++ } ++ ++ /* determine expected offset of NEXT section */ ++ expoffset = secLength + secOffset; ++ ++ } ++ ++ } ++ ++ /* check final offset - should just be a checksum left */ ++ /* ++ if(expoffset != len-4) ++ { ++ dprintf(1,"sections don't span full file (%X/%X)\n",expoffset,len-2); ++ return DSLHAL_ERROR_FIRMWARE_OFFSET; ++ } ++ */ ++ dprintf(5,"tiload: load binary\n"); ++ ++ for (index=0; index<header.sectcount; index++) ++ { ++ numbytes = sizeof(header) + index * sizeof(struct _section); ++ sptr = (struct _section *)(image + numbytes); ++ ++ secAddr = dslhal_support_byteSwap32(sptr->addr); ++ secOffset = dslhal_support_byteSwap32(sptr->offset); ++ secLength = dslhal_support_byteSwap32(sptr->length); ++ secPage = dslhal_support_byteSwap32(sptr->page); ++ dprintf(5,"loading section %u\n", index); ++ dprintf(5,"section %u: addr: %X\n", index, secAddr); ++ dprintf(5,"section %u: length: %X\n", index, secLength); ++ dprintf(5,"section %u: offset: %X\n", index, secOffset); ++ dprintf(5,"section %u: page: %X\n", index, secPage); ++ ++ /* point to the section's data */ ++ if(secOffset != 0xffffffff) ++ { ++ /* Load this section of data */ ++ iptr = image + secOffset; ++ dprintf(6, "iptr %8x\n", (unsigned int)iptr); ++ } ++ ++ if(secPage) ++ { ++ dprintf(6,"OVERLAY PAGE #%d\n",secPage); ++ /* overlay page, don't write to dsp yet, save into host memory*/ ++ ++ dprintf(6,"Section Length: %d \n",secLength); ++ ptidsl->olayDpPage[secPage].PmemStartWtAddr = (unsigned int) shim_osAllocateDmaMemory(secLength); ++ if(ptidsl->olayDpPage[secPage].PmemStartWtAddr == NULL) ++ { ++ dprintf(1, "overlay page allocate error\n"); ++ return DSLHAL_ERROR_OVERLAY_MALLOC; ++ } ++#ifdef PRE_SILICON ++ ptidsl->olayDpPage[secPage].overlayHostAddr = ((((ptidsl->olayDpPage[secPage].PmemStartWtAddr)-0x84000000)-0x10000000)+0x030b0000); ++#else ++ /* ptidsl->olayDpPage[secPage].overlayHostAddr = ((unsigned int)(ptidsl->olayDpPage[secPage].PmemStartWtAddr)&~0xe0000000); */ ++ ptidsl->olayDpPage[secPage].overlayHostAddr = virtual2Physical((unsigned int)ptidsl->olayDpPage[secPage].PmemStartWtAddr); ++#endif ++ dprintf(6,"Allocated Addr: 0x%x \t Xlated Addr: 0x%x \n",ptidsl->olayDpPage[secPage].PmemStartWtAddr,ptidsl->olayDpPage[secPage].overlayHostAddr); ++ ++ ptidsl->olayDpPage[secPage].overlayHostAddr = (unsigned int)dslhal_support_byteSwap32(ptidsl->olayDpPage[secPage].overlayHostAddr); ++ ptidsl->olayDpPage[secPage].OverlayXferCount = secLength; ++ ptidsl->olayDpPage[secPage].BinAddr = secAddr; ++ ptidsl->olayDpPage[secPage].SecOffset = secOffset; ++ shim_osMoveMemory((char *)ptidsl->olayDpPage[secPage].PmemStartWtAddr, (char *)iptr, secLength); ++ /* RamP Image ByteSwap test */ ++ olayStart = (unsigned int *)ptidsl->olayDpPage[secPage].PmemStartWtAddr; ++ ++ for(olayXfer=0;olayXfer< secLength/4;olayXfer++) ++ { ++ olayStore = *(unsigned int *)olayStart; ++ olayStore = (unsigned int)dslhal_support_byteSwap32(olayStore); ++ *(unsigned int*)olayStart = olayStore; ++ dprintf(5, "Addr:0x%x \t Content: 0x%x \n",olayStart,olayStore); ++ olayStart++; ++ olayStore=0; ++ } ++ /* RamP Image ByteSwap test */ ++ /* compute the CRC of each overlay page and Store the Checksum in a local global variable */ ++ /* This Value of CRC is to be compared with the header where all the CRC bytes are lumped together */ ++ ptidsl->olayDpPage[secPage].olayPageCrc32 = dslhal_support_computeCrc32((char *)ptidsl->olayDpPage[secPage].PmemStartWtAddr, ptidsl->olayDpPage[secPage].OverlayXferCount); ++ ++ shim_osWriteBackCache((void *)ptidsl->olayDpPage[secPage].PmemStartWtAddr, secLength); ++ } ++ else ++ { ++ rc = secAddr&0xff000000; ++ if(rc && rc!=0x80000000) ++ { ++ dprintf(4,"Not DSP PMEM/DMEM\n"); ++ /* don't write to dsp, save into host memory*/ ++ dprintf(4,"Section Addr: %x Section Length: %d \n",secAddr,secLength); ++ ptidsl->coProfiles.PmemStartWtAddr = (unsigned int) shim_osAllocateDmaMemory(secLength); ++ if(ptidsl->coProfiles.PmemStartWtAddr == NULL) ++ { ++ dprintf(1, "memory allocate error\n"); ++ return DSLHAL_ERROR_OVERLAY_MALLOC; ++ } ++ ptidsl->coProfiles.overlayHostAddr = virtual2Physical((unsigned int)ptidsl->coProfiles.PmemStartWtAddr); ++ dprintf(4,"Allocated Addr: 0x%x \t Xlated Addr: 0x%x \n",ptidsl->coProfiles.PmemStartWtAddr, ptidsl->coProfiles.overlayHostAddr); ++ ptidsl->coProfiles.overlayHostAddr = (unsigned int)dslhal_support_byteSwap32(ptidsl->coProfiles.overlayHostAddr); ++ ptidsl->coProfiles.OverlayXferCount = secLength; ++ ptidsl->coProfiles.BinAddr = secAddr; ++ ptidsl->coProfiles.SecOffset = secOffset; ++ ++ shim_osMoveMemory((char *)ptidsl->coProfiles.PmemStartWtAddr, (char *)iptr, secLength); ++ /* RamP Image ByteSwap test */ ++ olayStart = (unsigned int *)ptidsl->coProfiles.PmemStartWtAddr; ++ ++ for(olayXfer=0;olayXfer< secLength/4;olayXfer++) ++ { ++ olayStore = *(unsigned int *)olayStart; ++ olayStore = (unsigned int)dslhal_support_byteSwap32(olayStore); ++ *(unsigned int*)olayStart = olayStore; ++ dprintf(5, "Addr:0x%x \t Content: 0x%x \n",olayStart,olayStore); ++ olayStart++; ++ olayStore=0; ++ } ++ shim_osWriteBackCache((void *)ptidsl->coProfiles.PmemStartWtAddr, secLength); ++ } ++ else ++ { ++ /* IMPORTANT: write image to DSP memory */ ++ rc=dslhal_support_blockWrite((void *)iptr, (void *)secAddr, secLength); ++ if(rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ shim_osClockWait(0x50000); ++ /* ++ rc=dslhal_support_blockRead((void*)secAddr, (void*)tmpBuffer, secLength); ++ if(rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ for(i=0;i<secLength;i++) ++ { ++ if(*iptr ++ }*/ ++ } ++ } ++ } /* end of write dsp image */ ++ ++ /*********************************************************************************** ++ * Start to fillup various values to our hardware structure for late use ++ ************************************************************************************/ ++ ++ /* get main pointer for data */ ++ ++ rc = dslhal_support_blockRead(tmp, &pdspOamSharedInterface, sizeof(unsigned int)); ++ dprintf(5, "tmp=0x%X, addr=0x%X\n", (unsigned int)tmp, (unsigned int)pdspOamSharedInterface); ++ pdspOamSharedInterface= (DEV_HOST_dspOamSharedInterface_t *)dslhal_support_byteSwap32((unsigned int)pdspOamSharedInterface); ++ dprintf(5, "tmp=0x%X, addr=0x%X\n", (unsigned int)tmp, (unsigned int)pdspOamSharedInterface); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ if(!pdspOamSharedInterface) ++ { ++ dprintf(1,"Couldn't read main pointer\n"); ++ return DSLHAL_ERROR_INVALID_PARAM; ++ } ++ ++ ptidsl->pmainAddr=pdspOamSharedInterface; ++ ++ /* read the OamSharedInterfaceStructure */ ++ ++ dprintf(5,"ptidsl->hostIf.mainAddr=0x%X\n", (unsigned int)ptidsl->pmainAddr); ++ ++ /* get the pointer to DSP-OAM Shared Interface */ ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface, ++ sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ /* Communicate the Allocated Memory Address to DSP to choose CO Profiles */ ++ ++ /* Change the Endianness of the profileList pointer */ ++ dspOamSharedInterface.profileList_p = (DEV_HOST_profileBase_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.profileList_p); ++ /* Access the profileList Structure */ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.profileList_p,&profileList, sizeof(DEV_HOST_profileBase_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ dprintf(2,"Old Addr:%x New: %x \n",profileList.hostProfileBase_p,ptidsl->coProfiles.overlayHostAddr); ++ profileList.hostProfileBase_p = (DEV_HOST_coData_t *)ptidsl->coProfiles.overlayHostAddr; ++ rc = dslhal_support_blockWrite(&profileList,(PVOID)dspOamSharedInterface.profileList_p,sizeof(DEV_HOST_profileBase_t)); ++ if (rc) ++ return DSLHAL_ERROR_BLOCK_WRITE; ++ ++ /* Communicate the Allocated Memory Address to DSP to do overlays */ ++ ++ /* Change the Endianness of the olayDpDef pointer */ ++ dspOamSharedInterface.olayDpParms_p = (DEV_HOST_olayDpDef_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.olayDpParms_p); ++ /* Access the olayDpDef Structure */ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.olayDpParms_p,&olayDpParms, sizeof(DEV_HOST_olayDpDef_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ ++ for(i=1;i<NUM_PAGES;i++) ++ { ++ /* Change the endianness of the olayDpPageDef Pointer */ ++ olayDpParms.olayDpPage_p[i] = (DEV_HOST_olayDpPageDef_t *) dslhal_support_byteSwap32((unsigned int)olayDpParms.olayDpPage_p[i]); ++ /* Access the olayDpPageDef Structure */ ++ rc = dslhal_support_blockRead((PVOID)olayDpParms.olayDpPage_p[i],&olayDpPageDef[i],sizeof(DEV_HOST_olayDpPageDef_t)); ++ if (rc) ++ return DSLHAL_ERROR_BLOCK_READ; ++ olayDpPageDef[i].overlayHostAddr = ptidsl->olayDpPage[i].overlayHostAddr; ++ rc = dslhal_support_blockWrite(&olayDpPageDef[i],(PVOID)olayDpParms.olayDpPage_p[i],sizeof(DEV_HOST_olayDpPageDef_t)); ++ if (rc) ++ return DSLHAL_ERROR_BLOCK_WRITE; ++ } ++ ++ /* Change the endianness of the Datapump Version Pointer */ ++ dspOamSharedInterface.datapumpVersion_p = (DEV_HOST_dspVersionDef_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.datapumpVersion_p); ++ ++ /* get DSPVersion itself */ ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.datapumpVersion_p,&dspVersion, sizeof(DEV_HOST_dspVersionDef_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ /* table_dsp info */ ++#if SWTC ++ dspOamSharedInterface.tcHostComm_p = (DEV_HOST_tcHostCommDef_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.tcHostComm_p); ++ rc = dslhal_support_blockRead(&pdspOamSharedInterface->tcHostComm_p, ++ &pTCHostCommDef, 4); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ pTCHostCommDef=(DEV_HOST_tcHostCommDef_t *) dslhal_support_byteSwap32((unsigned int)pTCHostCommDef); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.tcHostComm_p, ++ &TCHostCommDef, sizeof(DEV_HOST_tcHostCommDef_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++#endif ++ /* Select the Multimode Training */ ++ dspOamSharedInterface.oamWriteNegoParams_p = (DEV_HOST_oamWrNegoParaDef_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.oamWriteNegoParams_p); ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.oamWriteNegoParams_p, &OamWrNegoParaDef, sizeof(DEV_HOST_oamWrNegoParaDef_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++switch(dspVersion.netService) ++ { ++ case 1: OamWrNegoParaDef.stdMode = MULTI_MODE; ++ dprintf(5,"POTS Service \n"); ++ ptidsl->netService = 1; ++ break; ++ case 2: OamWrNegoParaDef.stdMode = GDMT_MODE; ++ dprintf(5,"ISDN Service \n"); ++ ptidsl->netService = 2; ++ break; ++ default: OamWrNegoParaDef.stdMode = T1413_MODE; ++ dprintf(5,"Default Service \n"); ++ break; ++ } ++ ++ ptidsl->AppData.StdMode = (unsigned int)OamWrNegoParaDef.stdMode; ++ ++ OamWrNegoParaDef.oamFeature = dslhal_support_byteSwap32((OAMFEATURE_TC_SYNC_DETECT_MASK)); ++ /* Set the flag to start retraining if the margin of the modem drops below ++ default margin during showtime */ ++ ++ OamWrNegoParaDef.marginMonitorShwtme = FALSE; ++ /* Set the flag to start retraining if the margin of the modem drops below default margin during training */ ++ ++ OamWrNegoParaDef.marginMonitorTrning = FALSE; ++ OamWrNegoParaDef.dsToneTurnoff_f = 0; ++ dslhal_support_blockWrite(&OamWrNegoParaDef, ++ (PVOID)dspOamSharedInterface.oamWriteNegoParams_p, sizeof(DEV_HOST_oamWrNegoParaDef_t)); ++ rc=dslhal_support_setInterruptMask(ptidsl,0); ++ if(rc!=DSLHAL_ERROR_NO_ERRORS) ++ return rc; ++ /* Co Profile Test */ ++#if CO_PROFILES ++ dspOamSharedInterface.profileList_p = (DEV_HOST_profileBase_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.profileList_p); ++ /* Access the profileList Structure */ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.profileList_p,&profileList, sizeof(DEV_HOST_profileBase_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ profileList.hostProfileBase_p = (DEV_HOST_coData_t *)dslhal_support_byteSwap32((unsigned int)profileList.hostProfileBase_p); ++ rc = dslhal_support_blockRead((PVOID)profileList.hostProfileBase_p,&coData, sizeof(DEV_HOST_coData_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ dprintf(2,"Current Profile Vendor Id: %x \n",coData.phyAgcPgaTarget); ++ coData.phyAgcPgaTarget = 0xcaba; ++ rc = dslhal_support_blockWrite(&coData,(PVOID)profileList.hostProfileBase_p,sizeof(DEV_HOST_coData_t)); ++ if(rc) ++ return DSLHAL_ERROR_BLOCK_WRITE; ++#endif ++ /* End of CO Profile Test */ ++ ++#ifndef NO_ACT ++ /* Constellation Display Buffer Allocate */ ++ ptidsl->constDisplay.PmemStartWtAddr = (unsigned int) shim_osAllocateDmaMemory(DSP_CONSTELLATION_BUFFER_SIZE); ++ if(ptidsl->constDisplay.PmemStartWtAddr == NULL) ++ { ++ dprintf(1, "memory allocate error\n"); ++ return DSLHAL_ERROR_OVERLAY_MALLOC; ++ } ++ shim_osZeroMemory((void*)ptidsl->constDisplay.PmemStartWtAddr,DSP_CONSTELLATION_BUFFER_SIZE); ++ ptidsl->constDisplay.overlayHostAddr = virtual2Physical((unsigned int)ptidsl->constDisplay.PmemStartWtAddr); ++ dprintf(4,"Allocated Addr: 0x%x \t Xlated Addr: 0x%x \n",ptidsl->constDisplay.PmemStartWtAddr, ptidsl->constDisplay.overlayHostAddr); ++ ptidsl->constDisplay.OverlayXferCount = DSP_CONSTELLATION_BUFFER_SIZE; ++ ++ /* Communicate the Allocated Buffer for DSP load Constellation Data */ ++ ++ /* Change the Endianness of the profileList pointer */ ++ dspOamSharedInterface.consDispVar_p = (DEV_HOST_consBufDef_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.consDispVar_p); ++ /* Access the profileList Structure */ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.consDispVar_p,&constDisp, sizeof(DEV_HOST_consBufDef_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ dprintf(2,"Constellation Old Addr:%x New: %x \n",constDisp.consDispStartAddr,ptidsl->constDisplay.overlayHostAddr); ++ constDisp.consDispStartAddr = (unsigned int)dslhal_support_byteSwap32(ptidsl->constDisplay.overlayHostAddr); ++ constDisp.consDispCurrentAddr = constDisp.consDispStartAddr; ++ constDisp.consDispBufLen = (unsigned int)dslhal_support_byteSwap32(DSP_CONSTELLATION_BUFFER_SIZE); ++ rc = dslhal_support_blockWrite(&constDisp,(PVOID)dspOamSharedInterface.consDispVar_p,sizeof(DEV_HOST_consBufDef_t)); ++ if (rc) ++ return DSLHAL_ERROR_BLOCK_WRITE; ++#endif ++ dprintf(5,"dslhal_support_hostDspCodeDownload() completed.\n"); ++ return DSLHAL_ERROR_NO_ERRORS; ++ ++} /* end of dslhal_support_hostDspCodeDownload() */ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_readDelineationState() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* download DSP image from host memory to dsp memory ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++ ++unsigned int dslhal_support_readDelineationState(tidsl_t * ptidsl) ++{ ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ DEV_HOST_atmStats_t atmStats; ++ DEV_HOST_dsAtmStats_t dsAtmStats0; ++ unsigned int rc=0, delinState=0; ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterface_t *) ptidsl->pmainAddr; ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ dspOamSharedInterface.atmStats_p = (DEV_HOST_atmStats_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.atmStats_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.atmStats_p,&atmStats, sizeof(DEV_HOST_atmStats_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ atmStats.ds0_p = (DEV_HOST_dsAtmStats_t *) dslhal_support_byteSwap32((unsigned int)atmStats.ds0_p); ++ ++ rc = dslhal_support_blockRead((PVOID)atmStats.ds0_p,&dsAtmStats0, (sizeof(DEV_HOST_dsAtmStats_t))); ++ ++ if (rc) ++ return rc; ++ delinState = dslhal_support_byteSwap32(dsAtmStats0.delineationState); ++ if(delinState == TC_SYNC) ++ ptidsl->lConnected = 1; ++ else ++ ptidsl->lConnected = 0; ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_processModemStateBitField() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* download DSP image from host memory to dsp memory ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++ ++unsigned int dslhal_support_processModemStateBitField(tidsl_t * ptidsl) ++{ ++ int rc, offset[2]={2,0}; ++ int modemStateBitFields[NUMBER_OF_BITFIELDS],changedField=0; ++ rc = dslhal_api_dspInterfaceRead(ptidsl,(unsigned int)ptidsl->pmainAddr,2,(unsigned int *)&offset, ++ (unsigned char *)&modemStateBitFields,NUMBER_OF_BITFIELDS*sizeof(int)); ++ if (rc) ++ return DSLHAL_ERROR_BLOCK_READ; ++ for(rc=0;rc<NUMBER_OF_BITFIELDS;rc++) ++ dprintf(4,"Bit Field %d: 0x%x \n",rc+1,dslhal_support_byteSwap32((unsigned int)modemStateBitFields[rc])); ++ ++ for(rc=NUMBER_OF_BITFIELDS;rc>0;rc--) ++ { ++ if(ptidsl->modemStateBitField[rc-1]!=modemStateBitFields[rc-1]) ++ { ++ changedField = rc; ++ break; ++ } ++ } ++ if(changedField) ++ { ++ for(rc=0;rc<32;rc++) ++ { ++ if(modemStateBitFields[changedField-1] & dslhal_support_byteSwap32((BITFIELD_SCAN >> rc))) ++ break; ++ } ++ dprintf(5,"Changed Field : %d Changed Bit : %d \n",changedField,(31-rc)); ++ ptidsl->rState = ((changedField*100) + (31-rc)); ++ dprintf(5,"Modem State : %d \n",ptidsl->rState); ++ shim_osMoveMemory((void *)ptidsl->modemStateBitField,(void *)modemStateBitFields, 4*NUMBER_OF_BITFIELDS); ++ } ++ ++ switch(changedField) ++ { ++ case 1: if((ptidsl->rState >= ATU_RIDLE) && (ptidsl->AppData.bState < RSTATE_IDLE)) ++ ptidsl->AppData.bState = RSTATE_IDLE; ++ if((ptidsl->rState >= GDMT_NSFLR) && (ptidsl->AppData.bState < RSTATE_INIT)) ++ ptidsl->AppData.bState = RSTATE_INIT; ++ if((ptidsl->rState >= GDMT_ACKX) && (ptidsl->AppData.bState < RSTATE_HS)) ++ ptidsl->AppData.bState = RSTATE_HS; ++ break; ++ ++ case 2: if((ptidsl->rState >= T1413_NSFLR) && (ptidsl->AppData.bState < RSTATE_INIT)) ++ ptidsl->AppData.bState = RSTATE_INIT; ++ if((ptidsl->rState >= T1413_ACKX) && (ptidsl->AppData.bState < RSTATE_HS)) ++ ptidsl->AppData.bState = RSTATE_HS; ++ if((ptidsl->rState == ATU_RSHOWTIME) && (ptidsl->AppData.bState < RSTATE_SHOWTIME)) ++ ptidsl->AppData.bState = RSTATE_SHOWTIME; ++ break; ++ ++ case 3: if((ptidsl->rState >= ADSL2_COMB3) && (ptidsl->AppData.bState < RSTATE_INIT)) ++ ptidsl->AppData.bState = RSTATE_INIT; ++ if((ptidsl->rState >= ADSL2_RPARAMS) && (ptidsl->AppData.bState < RSTATE_HS)) ++ ptidsl->AppData.bState = RSTATE_HS; ++ break; ++ ++ case 4: break; ++ default: break; ++ } ++ ++ ptidsl->stateTransition = modemStateBitFields[1]; ++ switch(ptidsl->AppData.bState) ++ { ++ case RSTATE_IDLE: ptidsl->AppData.idleTick=shim_osClockTick(); ++ ptidsl->AppData.initTick=0; ++ ptidsl->AppData.showtimeTick=0; ++ break; ++ case RSTATE_HS: if(!ptidsl->AppData.initTick) ++ { ++ ptidsl->AppData.initTick=shim_osClockTick(); ++ } ++ ptidsl->AppData.showtimeTick=0; ++ break; ++ case RSTATE_SHOWTIME: if(!ptidsl->AppData.showtimeTick) ++ ptidsl->AppData.showtimeTick=shim_osClockTick(); ++ break; ++ default: break; ++ } ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_setInterruptMask() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Sets the host interrupt bit masks ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++ ++unsigned int dslhal_support_setInterruptMask(tidsl_t * ptidsl,unsigned int inputMask) ++{ ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ DEV_HOST_hostInterruptMask_t interruptMask; ++ unsigned int rc=0; ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterface_t *) ptidsl->pmainAddr; ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ dspOamSharedInterface.hostInterruptMask_p =(DEV_HOST_hostInterruptMask_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.hostInterruptMask_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.hostInterruptMask_p, ++ &interruptMask, sizeof(DEV_HOST_hostInterruptMask_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ if(inputMask & MASK_MAILBOX_INTERRUPTS) ++ { ++ dprintf(7,"Mailbox Interrupts Masked \n"); ++ dprintf(7,"interruptMask.maskBitField1 = %d \n",dslhal_support_byteSwap32(interruptMask.maskBitField1)); ++ interruptMask.maskBitField1 |= dslhal_support_byteSwap32(MASK_MAILBOX_INTERRUPTS); ++ dprintf(7,"interruptMask.maskBitField1 = %d \n",dslhal_support_byteSwap32(interruptMask.maskBitField1)); ++ } ++ if(inputMask & MASK_BITFIELD_INTERRUPTS) ++ { ++ dprintf(7,"Bit field Interrupts Masked \n"); ++ dprintf(7,"interruptMask.maskBitField1 = %d \n",dslhal_support_byteSwap32(interruptMask.maskBitField1)); ++ interruptMask.maskBitField1 |= dslhal_support_byteSwap32(MASK_BITFIELD_INTERRUPTS); ++ dprintf(7,"interruptMask.maskBitField1 = %d \n",dslhal_support_byteSwap32(interruptMask.maskBitField1)); ++ } ++ if(inputMask & MASK_HEARTBEAT_INTERRUPTS) ++ { ++ dprintf(7,"Bit field Interrupts Masked \n"); ++ dprintf(7,"interruptMask.maskBitField1 = %d \n",dslhal_support_byteSwap32(interruptMask.maskBitField1)); ++ interruptMask.maskBitField1 |= dslhal_support_byteSwap32(MASK_HEARTBEAT_INTERRUPTS); ++ dprintf(7,"interruptMask.maskBitField1 = %d \n",dslhal_support_byteSwap32(interruptMask.maskBitField1)); ++ } ++ dslhal_support_blockWrite(&interruptMask, ++ dspOamSharedInterface.hostInterruptMask_p, sizeof(DEV_HOST_hostInterruptMask_t)); ++ dprintf(5,"dslhal_support_setInterruptMask() completed.\n"); ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_parseInterruptSource() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Parses the Interrupt Source Bit Field ++* ++* Return: interrupt Code if successful ++* negative error code if failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++ ++unsigned int dslhal_support_parseInterruptSource(tidsl_t * ptidsl) ++{ ++ DEV_HOST_dspOamSharedInterface_t *pdspOamSharedInterface, dspOamSharedInterface; ++ DEV_HOST_hostInterruptSource_t interruptSource; ++ unsigned int rc=0,intrCode=0; ++ pdspOamSharedInterface = (DEV_HOST_dspOamSharedInterface_t *) ptidsl->pmainAddr; ++ rc = dslhal_support_blockRead(pdspOamSharedInterface, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return (0-DSLHAL_ERROR_BLOCK_READ); ++ } ++ dspOamSharedInterface.hostInterruptSource_p =(DEV_HOST_hostInterruptSource_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.hostInterruptSource_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.hostInterruptSource_p, ++ &interruptSource, sizeof(DEV_HOST_hostInterruptSource_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return (0-DSLHAL_ERROR_BLOCK_READ); ++ } ++ if(interruptSource.sourceBitField1 & dslhal_support_byteSwap32(MASK_MAILBOX_INTERRUPTS)) ++ { ++ dprintf(7,"Mailbox Interrupts Acknowledge \n"); ++ intrCode |= 0x00000011; ++ } ++ if(interruptSource.sourceBitField1 & dslhal_support_byteSwap32(MASK_BITFIELD_INTERRUPTS)) ++ { ++ dprintf(7,"Bit field Interrupt Acknowledge \n"); ++ intrCode |= 0x00001002; ++ } ++ if(interruptSource.sourceBitField1 & dslhal_support_byteSwap32(MASK_HEARTBEAT_INTERRUPTS)) ++ { ++ dprintf(7,"HeartBeat Interrupt Acknowledge \n"); ++ intrCode |= 0x00100004; ++ } ++ ++ interruptSource.sourceBitField1 &=0x0; ++ rc=dslhal_support_blockWrite(&interruptSource, ++ dspOamSharedInterface.hostInterruptSource_p, sizeof(DEV_HOST_hostInterruptSource_t)); ++ if(rc) ++ return (0-DSLHAL_ERROR_BLOCK_WRITE); ++ dprintf(5,"dslhal_support_parseInterruptSource() completed.\n"); ++ return intrCode; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_byteSwap16() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* input 16 bit short, byte swap from little endian to big endian or vise versa ++* ++********************************************************************************************/ ++ ++unsigned short dslhal_support_byteSwap16(unsigned short in16Bits) ++{ ++ unsigned short out16Bits; ++ ++#ifdef EB ++ unsigned char *pchar; ++ unsigned char tmp; ++#endif ++ ++ out16Bits = in16Bits; ++ ++#ifdef EB ++ pchar = (unsigned char *)(&out16Bits); ++ ++ tmp = *pchar; ++ *pchar = *(pchar + 1); ++ *(pchar + 1) = tmp; ++#endif ++ ++ return out16Bits; ++ ++} /* end of dslhal_support_byteSwap16() */ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_byteSwap32() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* input 32 bit int, byte swap from little endian to big endian or vise versa ++* ++********************************************************************************************/ ++ ++unsigned int dslhal_support_byteSwap32(unsigned int in32Bits) ++{ ++ int out32Bits; ++ ++#ifdef EB ++ unsigned char tmp; ++ unsigned char *pchar; ++#endif ++ ++ out32Bits = in32Bits; ++ ++#ifdef EB ++ pchar = (unsigned char *)(&out32Bits); ++ ++ tmp = *pchar; ++ *pchar = *(pchar + 3); ++ *(pchar + 3) = tmp; ++ ++ tmp = *(pchar + 1); ++ *(pchar + 1) = *(pchar + 2); ++ *(pchar + 2) = tmp; ++#endif ++ ++ return out32Bits; ++ ++} /* end of dslhal_support_byteSwap32() */ ++ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_computeCrc32() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Computes the CRC-32 for the input data ++* ++* Return: 32 bit CRC of the input data ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_computeCrc32(unsigned char *data, int len) ++{ ++ unsigned int result; ++ int i,j; ++ unsigned char octet; ++ ++ if ((len < 4) || (data==NULL)) ++ return(0xdeaddead); ++ result = *data++ << 24; ++ result |= *data++ << 16; ++ result |= *data++ << 8; ++ result |= *data++; ++ result = ~ result; ++ ++ len -=4; ++ ++ for (i=0; i<len; i++) ++ { ++ octet = *(data++); ++ for (j=0; j<8; j++) ++ { ++ if (result & 0x80000000) ++ { ++ result = (result << 1) ^ CRC32_QUOTIENT ^ (octet >> 7); ++ } ++ else ++ { ++ result = (result << 1) ^ (octet >> 7); ++ } ++ octet <<= 1; ++ } ++ } ++ return ~result; /* The complement of the remainder */ ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_checkOverlayPage() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Computes the CRC-32 for the input data and compares it with reference ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_checkOverlayPage(tidsl_t *ptidsl, unsigned int tag) ++{ ++ unsigned int computedCrc; ++ if((unsigned char *)ptidsl->olayDpPage[tag].PmemStartWtAddr == NULL) ++ { ++ dprintf(5,"Null Address for Page: %d\n",tag); ++ return DSLHAL_ERROR_OVERLAY_MALLOC; ++ } ++ computedCrc = dslhal_support_computeCrc32((unsigned char *)ptidsl->olayDpPage[tag].PmemStartWtAddr, ptidsl->olayDpPage[tag].OverlayXferCount); ++ dprintf(6,"\n Pre-Computed CRC32 = 0x%x \t Current CRC32 = 0x%x \n",ptidsl->olayDpPage[tag].olayPageCrc32,computedCrc); ++ if(computedCrc != ptidsl->olayDpPage[tag].olayPageCrc32) ++ return DSLHAL_ERROR_OVERLAY_CORRUPTED; ++ else ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_clearTrainingInfo() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Computes the CRC-32 for the input data and compares it with reference ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++ ++int dslhal_support_clearTrainingInfo(tidsl_t *ptidsl) ++{ ++ int i; ++ ++ for(i=0; i<NUM_PAGES; i++) ++ { ++ if(ptidsl->olayDpPage[i].PmemStartWtAddr !=NULL) ++ { ++ shim_osFreeDmaMemory((void *) ptidsl->olayDpPage[i].PmemStartWtAddr, ++ ptidsl->olayDpPage[i].OverlayXferCount); ++ ptidsl->olayDpPage[i].PmemStartWtAddr =NULL; ++ } ++ } ++ if(ptidsl->coProfiles.PmemStartWtAddr != NULL) ++ { ++ shim_osFreeDmaMemory((void *)ptidsl->coProfiles.PmemStartWtAddr, ptidsl->coProfiles.OverlayXferCount); ++ ptidsl->coProfiles.PmemStartWtAddr = NULL; ++ } ++ return 0; ++} ++ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_reloadTrainingInfo() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Reload overlay pages from flash or memory ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++ ++int dslhal_support_reloadTrainingInfo(tidsl_t * ptidsl) ++{ ++ ++ int rc = 0, i; ++ unsigned int olayXfer,olayStore; ++ unsigned int *olayStart; ++ ++ unsigned int crc32; ++ DEV_HOST_dspOamSharedInterface_t dspOamSharedInterface; ++ DEV_HOST_olayDpDef_t olayDpParms; ++ DEV_HOST_olayDpPageDef_t olayDpPageDef[NUM_PAGES]; ++ DEV_HOST_profileBase_t profileList; ++ ++ unsigned int secLength, secOffset, secPage; ++ ++ /* co profile */ ++ secLength = ptidsl->coProfiles.OverlayXferCount; ++ secOffset = ptidsl->coProfiles.SecOffset; ++ ptidsl->coProfiles.PmemStartWtAddr = (unsigned int) shim_osAllocateDmaMemory(secLength); ++ if(ptidsl->coProfiles.PmemStartWtAddr == NULL) ++ { ++ dprintf(1, "memory allocate error\n"); ++ return DSLHAL_ERROR_OVERLAY_MALLOC; ++ } ++ /* holdSecPhyAddr = virtual2Physical((unsigned int)holdSecVirtAddr); */ ++ ptidsl->coProfiles.overlayHostAddr = virtual2Physical((unsigned int)ptidsl->coProfiles.PmemStartWtAddr); ++ dprintf(4,"Allocated Addr: 0x%x \t Xlated Addr: 0x%x \n",ptidsl->coProfiles.PmemStartWtAddr, ptidsl->coProfiles.overlayHostAddr); ++ ptidsl->coProfiles.overlayHostAddr = (unsigned int)dslhal_support_byteSwap32(ptidsl->coProfiles.overlayHostAddr); ++ ++ rc = shim_read_overlay_page((void *)ptidsl->coProfiles.PmemStartWtAddr, secOffset, secLength); ++ if(rc != secLength) ++ { ++ dprintf(1, "shim_read_overlay_page failed\n"); ++ return DSLHAL_ERROR_OVERLAY_MALLOC; ++ } ++ ++ /*shim_osMoveMemory((char *)ptidsl->coProfiles.PmemStartWtAddr, (char *)iptr, secLength);*/ ++ /* RamP Image ByteSwap test */ ++ olayStart = (unsigned int *)ptidsl->coProfiles.PmemStartWtAddr; ++ ++ for(olayXfer=0;olayXfer< secLength/4;olayXfer++) ++ { ++ olayStore = *(unsigned int *)olayStart; ++ olayStore = (unsigned int)dslhal_support_byteSwap32(olayStore); ++ *(unsigned int*)olayStart = olayStore; ++ dprintf(5, "Addr:0x%x \t Content: 0x%x \n",olayStart,olayStore); ++ olayStart++; ++ olayStore=0; ++ } ++ shim_osWriteBackCache((void *)ptidsl->coProfiles.PmemStartWtAddr, secLength); ++ ++ ++ for (secPage=1;secPage<NUM_PAGES; secPage++) ++ { ++ ++ dprintf(6,"OVERLAY PAGE #%d\n",secPage); ++ ++ secLength = ptidsl->olayDpPage[secPage].OverlayXferCount; ++ ++ dprintf(4,"Section[%d] Length: %d \n",secPage, secLength); ++ ++ secOffset = ptidsl->olayDpPage[secPage].SecOffset; ++ ptidsl->olayDpPage[secPage].PmemStartWtAddr = (unsigned int) shim_osAllocateDmaMemory(secLength); ++ if(ptidsl->olayDpPage[secPage].PmemStartWtAddr == NULL) ++ { ++ dprintf(1, "overlay page allocate error\n"); ++ return DSLHAL_ERROR_OVERLAY_MALLOC; ++ } ++ ++ rc = shim_read_overlay_page((void *)ptidsl->olayDpPage[secPage].PmemStartWtAddr,secOffset, secLength); ++ if(rc != secLength) ++ { ++ dprintf(1, "overlay page read error\n"); ++ return DSLHAL_ERROR_OVERLAY_MALLOC; ++ } ++ ++ /* ptidsl->olayDpPage[secPage].overlayHostAddr = ((unsigned int)(ptidsl->olayDpPage[secPage].PmemStartWtAddr)&~0xe0000000); */ ++ ptidsl->olayDpPage[secPage].overlayHostAddr = virtual2Physical((unsigned int)ptidsl->olayDpPage[secPage].PmemStartWtAddr); ++ dprintf(6,"Allocated Addr: 0x%x \t Xlated Addr: 0x%x \n",ptidsl->olayDpPage[secPage].PmemStartWtAddr,ptidsl->olayDpPage[secPage].overlayHostAddr); ++ ++ ptidsl->olayDpPage[secPage].overlayHostAddr = (unsigned int)dslhal_support_byteSwap32(ptidsl->olayDpPage[secPage].overlayHostAddr); ++ /*ptidsl->olayDpPage[secPage].OverlayXferCount = secLength; ++ ptidsl->olayDpPage[secPage].BinAddr = secAddr; ++ shim_osMoveMemory((char *)ptidsl->olayDpPage[secPage].PmemStartWtAddr, (char *)iptr, secLength); ++ */ ++ olayStart = (unsigned int *)ptidsl->olayDpPage[secPage].PmemStartWtAddr; ++ ++ for(olayXfer=0;olayXfer< secLength/4;olayXfer++) ++ { ++ olayStore = *(unsigned int *)olayStart; ++ olayStore = (unsigned int)dslhal_support_byteSwap32(olayStore); ++ *(unsigned int*)olayStart = olayStore; ++ dprintf(5, "Addr:0x%x \t Content: 0x%x \n",olayStart,olayStore); ++ olayStart++; ++ olayStore=0; ++ } ++ /* RamP Image ByteSwap test */ ++ /* compute the CRC of each overlay page and Store the Checksum in a local global variable */ ++ /* This Value of CRC is to be compared with the header where all the CRC bytes are lumped together */ ++ crc32 = dslhal_support_computeCrc32((char *)ptidsl->olayDpPage[secPage].PmemStartWtAddr, ptidsl->olayDpPage[secPage].OverlayXferCount); ++ if(crc32 != ptidsl->olayDpPage[secPage].olayPageCrc32) ++ return DSLHAL_ERROR_OVERLAY_MALLOC; ++ ++ shim_osWriteBackCache((void *)ptidsl->olayDpPage[secPage].PmemStartWtAddr, secLength); ++ } ++ ++ ++ dprintf(5,"ptidsl->hostIf.mainAddr=0x%X\n", (unsigned int)ptidsl->pmainAddr); ++ ++ /* get the pointer to DSP-OAM Shared Interface */ ++ rc = dslhal_support_blockRead(ptidsl->pmainAddr, &dspOamSharedInterface, ++ sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ /* Communicate the Allocated Memory Address to DSP to choose CO Profiles */ ++ ++ /* Change the Endianness of the profileList pointer */ ++ dspOamSharedInterface.profileList_p = (DEV_HOST_profileBase_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.profileList_p); ++ /* Access the profileList Structure */ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.profileList_p,&profileList, sizeof(DEV_HOST_profileBase_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ dprintf(2,"Old Addr:%x New: %x \n",profileList.hostProfileBase_p,ptidsl->coProfiles.overlayHostAddr); ++ profileList.hostProfileBase_p = (DEV_HOST_coData_t *)ptidsl->coProfiles.overlayHostAddr; ++ rc = dslhal_support_blockWrite(&profileList,(PVOID)dspOamSharedInterface.profileList_p,sizeof(DEV_HOST_profileBase_t)); ++ if (rc) ++ return DSLHAL_ERROR_BLOCK_WRITE; ++ ++ /* Communicate the Allocated Memory Address to DSP to do overlays */ ++ ++ /* Change the Endianness of the olayDpDef pointer */ ++ dspOamSharedInterface.olayDpParms_p = (DEV_HOST_olayDpDef_t *)dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.olayDpParms_p); ++ /* Access the olayDpDef Structure */ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.olayDpParms_p,&olayDpParms, sizeof(DEV_HOST_olayDpDef_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ ++ for(i=1;i<NUM_PAGES;i++) ++ { ++ /* Change the endianness of the olayDpPageDef Pointer */ ++ olayDpParms.olayDpPage_p[i] = (DEV_HOST_olayDpPageDef_t *) dslhal_support_byteSwap32((unsigned int)olayDpParms.olayDpPage_p[i]); ++ /* Access the olayDpPageDef Structure */ ++ rc = dslhal_support_blockRead((PVOID)olayDpParms.olayDpPage_p[i],&olayDpPageDef[i],sizeof(DEV_HOST_olayDpPageDef_t)); ++ if (rc) ++ return DSLHAL_ERROR_BLOCK_READ; ++ olayDpPageDef[i].overlayHostAddr = ptidsl->olayDpPage[i].overlayHostAddr; ++ rc = dslhal_support_blockWrite(&olayDpPageDef[i],(PVOID)olayDpParms.olayDpPage_p[i],sizeof(DEV_HOST_olayDpPageDef_t)); ++ if (rc) ++ return DSLHAL_ERROR_BLOCK_WRITE; ++ } ++ ++ ptidsl->bOverlayPageLoaded = 1; ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ /* end of dslhal_support_reloadTrainingInfo() */ ++ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_restoreTrainingInfo() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Computes the CRC-32 for the input data and compares it with reference ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++ ++ ++int dslhal_support_restoreTrainingInfo(tidsl_t *ptidsl) ++{ ++ int rc; ++ ++ rc=1; ++ while(rc != 0) ++ { ++ dslhal_support_clearTrainingInfo(ptidsl); ++ //shim_osCriticalEnter(); ++ rc = dslhal_support_reloadTrainingInfo(ptidsl); ++ //shim_osCriticalExit(); ++ shim_osClockWait(6400); ++ } ++ return 0; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_advancedIdleProcessing() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Calls Advanced Idle State Processing Functions ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_advancedIdleProcessing(tidsl_t *ptidsl) ++{ ++ int rc=0; ++ ptidsl->AppData.bState = RSTATE_IDLE; ++#ifndef NO_ACT ++ rc += dslhal_advcfg_resetBitSwapMessageLog(ptidsl,0); ++ rc += dslhal_advcfg_resetBitSwapMessageLog(ptidsl,1); ++ rc += dslhal_advcfg_resetTrainStateHistory(ptidsl); ++ rc += dslhal_advcfg_getReasonForDrop(ptidsl); ++#endif ++ if(rc) ++ return DSLHAL_ERROR_CONFIG_API_FAILURE; ++ else ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_aocBitSwapProcessing() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Calls Advanced Idle State Processing Functions ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_aocBitSwapProcessing(tidsl_t *ptidsl,unsigned int usDs) ++{ ++ int rc=0; ++#ifndef NO_ACT ++ int i; ++ int differentCmd_f; ++ unsigned int dsSwapInx; ++ ++ static UINT8 lastAturBitSwapCommands[6] = {0, 0, 0, 0, 0, 0}; ++ static UINT8 lastAturBitSwapBinNum[6] = {0, 0, 0, 0, 0, 0}; ++ ++ if (usDs == 0) ++ { ++ dprintf(4," DSP_XMITBITSWAP\n"); ++ rc += dslhal_advcfg_getAocBitswapBuffer(ptidsl,0); ++ ptidsl->usBitSwapInx++; ++ if (ptidsl->usBitSwapInx > 29) ++ ptidsl->usBitSwapInx=0; ++ } ++ ++ if (usDs == 1) ++ { ++ dprintf(4," DSP_RCVBITSWAP\n"); ++ rc += dslhal_advcfg_getAocBitswapBuffer(ptidsl,1); ++ differentCmd_f = FALSE; ++ dsSwapInx = ptidsl->dsBitSwapInx; ++ if (! rc) ++ { ++ for (i = 0; i < 6; i++) ++ { ++ if (lastAturBitSwapCommands[i] != ptidsl->dsBitSwap[dsSwapInx].bitSwapCommand[i]) ++ { ++ differentCmd_f = TRUE; ++ break; ++ } ++ } ++ if (! differentCmd_f) ++ { ++ for (i = 0; i < 6; i++) ++ { ++ if (lastAturBitSwapBinNum[i] != ptidsl->dsBitSwap[dsSwapInx].bitSwapBinNum[i]) ++ { ++ differentCmd_f = TRUE; ++ break; ++ } ++ } ++ } ++ //CPE data pump seems to occasionally send us the same bit swap twice in a row with different sframe counter. ++ //Since these are never counted twice by the debug output of AC5, we should not count them twice either. ++ //So, we ignore the sframe_counter in determining whether the most recent bitswap is a duplicate. ++ if (differentCmd_f) ++ { ++ shim_osMoveMemory((void *)lastAturBitSwapCommands, (void *)ptidsl->dsBitSwap[dsSwapInx].bitSwapCommand, 6); ++ shim_osMoveMemory((void *)lastAturBitSwapBinNum, (void *)ptidsl->dsBitSwap[dsSwapInx].bitSwapBinNum, 6); ++ ptidsl->dsBitSwapInx++; ++ if (ptidsl->dsBitSwapInx > 29) ++ ptidsl->dsBitSwapInx = 0; ++ } ++ } ++ } ++#endif ++ if(rc) ++ return DSLHAL_ERROR_CONFIG_API_FAILURE; ++ else ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_gatherEocMessages() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Calls Advanced EOC Buffering functions ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_gatherEocMessages(tidsl_t *ptidsl,int usDs, int msgPart1, int msgPart2) ++{ ++ int rc=0; ++#ifndef NO_ACT ++ rc = dslhal_advcfg_logEocMessages(ptidsl,usDs, msgPart1, msgPart2); ++#endif ++ if(rc) ++ return DSLHAL_ERROR_CONFIG_API_FAILURE; ++ else ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_gatherSnrPerBin() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Calls Advanced Snr per bin buffering Functions ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_gatherSnrPerBin(tidsl_t *ptidsl,unsigned int snrParam) ++{ ++ int rc=0; ++#ifndef NO_ACT ++ rc = dslhal_advcfg_getSnrPerBin(ptidsl,snrParam); ++#endif ++ if(rc) ++ return DSLHAL_ERROR_CONFIG_API_FAILURE; ++ else ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_processTrainingState() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Calls Advanced Training State Processing Functions ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_processTrainingState(tidsl_t *ptidsl) ++{ ++ int rc=0; ++#ifndef NO_ACT ++ ++ if(ptidsl->trainStateInx<120) ++ { ++ rc = dslhal_advcfg_getTrainingState(ptidsl,(void *)&ptidsl->trainHistory[ptidsl->trainStateInx++]); ++ if(ptidsl->trainHistory[(ptidsl->trainStateInx-1)].subStateIndex == ++ ptidsl->trainHistory[(ptidsl->trainStateInx-2)].subStateIndex) ++ ptidsl->trainStateInx--; ++ } ++ else ++ ptidsl->trainStateInx = 0; ++#endif ++ if(rc) ++ return DSLHAL_ERROR_CONFIG_API_FAILURE; ++ else ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_gatherAdsl2Messages() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Gathers ADSL2 Training Messages ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_gatherAdsl2Messages(tidsl_t *ptidsl,int tag, int param1, int param2) ++{ ++ int rc=0; ++ unsigned int adsl2MsgLoc; ++ switch(tag) ++ { ++ case CMSGFMT_INDEX: ++ dprintf(5,"C-Msg-FMT rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, CMSGFMT_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2TrainingMessages.cMsgFmt,CMSGFMT_SIZE); ++ break; ++ case RMSGFMT_INDEX: ++ case RMSGFMT2_INDEX: ++ dprintf(5,"R-Msg-FMT rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, RMSGFMT_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2TrainingMessages.rMsgFmt,RMSGFMT_SIZE); ++ break; ++ case CMSGPCB_INDEX: ++ dprintf(5,"C-Msg-PCB rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, CMSGPCB_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2TrainingMessages.cMsgPcb,CMSGPCB_SIZE); ++ ptidsl->adsl2TrainingMessages.cMsgPcbLen = CMSGPCB_SIZE; ++ break; ++ case CMSGPCB2_INDEX: ++ dprintf(5,"C-Msg-PCB2 rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, CMSGPCB2_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2TrainingMessages.cMsgPcb,CMSGPCB2_SIZE); ++ ptidsl->adsl2TrainingMessages.cMsgPcbLen = CMSGPCB2_SIZE; ++#ifndef NO_ACT ++ rc += dslhal_advcfg_setBlackOutBits(ptidsl); ++#endif ++ break; ++ case CMSGPCB2L_INDEX: ++ dprintf(5,"C-Msg-PCB2L rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, CMSGPCB2L_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2TrainingMessages.cMsgPcb,CMSGPCB2L_SIZE); ++ ptidsl->adsl2TrainingMessages.cMsgPcbLen = CMSGPCB2L_SIZE; ++ break; ++ case RMSGPCB_INDEX: ++ case RMSGPCB2L_INDEX: ++ dprintf(5,"R-Msg-PCB rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, RMSGPCB_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2TrainingMessages.rMsgPcb,RMSGPCB_SIZE); ++ ptidsl->adsl2TrainingMessages.rMsgPcbLen = RMSGPCB_SIZE; ++ break; ++ ++ case CMSG1ADSL2_INDEX: ++ dprintf(5,"C-Msg1 rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, CMSG1ADSL2_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2TrainingMessages.cMsg1,CMSG1ADSL2_SIZE); ++ ptidsl->adsl2TrainingMessages.cMsg1Len = CMSG1ADSL2_SIZE; ++ break; ++ case CMSG2ADSL2_INDEX: ++ dprintf(5,"C-Msg2 rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, CMSG2ADSL2_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2TrainingMessages.cMsg2,CMSG2ADSL2_SIZE); ++ ptidsl->adsl2TrainingMessages.cMsg2Len = CMSG2ADSL2_SIZE; ++ break; ++ case RMSG1ADSL2_INDEX: ++ dprintf(5,"R-Msg1 rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, RMSG1ADSL2_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2TrainingMessages.rMsg1,RMSG1ADSL2_SIZE); ++ ptidsl->adsl2TrainingMessages.rMsg1Len = RMSG1ADSL2_SIZE; ++ break; ++ case RMSG2ADSL2_INDEX: ++ dprintf(5,"R-Msg2 rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, RMSG2ADSL2_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2TrainingMessages.rMsg2,RMSG2ADSL2_SIZE); ++ ptidsl->adsl2TrainingMessages.rMsg2Len = RMSG2ADSL2_SIZE; ++ break; ++ case CPARAMS_INDEX: ++ dprintf(5,"C-Params rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, CPARAMS_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2TrainingMessages.cParams,CPARAMS_SIZE); ++ ptidsl->adsl2TrainingMessages.cParamsLen = CPARAMS_SIZE; ++ break; ++ case RPARAMS_INDEX: ++ dprintf(5,"R-Params rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, RPARAMS_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2TrainingMessages.rParams,RPARAMS_SIZE); ++ ptidsl->adsl2TrainingMessages.rParamsLen = RPARAMS_SIZE; ++ break; ++ case RMSG1LD_INDEX: ++ dprintf(5,"R-Msg1 LD rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, RMSG1LD_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2DiagnosticMessages.rMsg1Ld,RMSG1LD_SIZE); ++ ptidsl->adsl2DiagnosticMessages.rMsg1LdLen = RMSG1LD_SIZE; ++ break; ++ case RMSG2LD_INDEX: ++ dprintf(5,"R-Msg2 LD rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, RMSG2LD_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2DiagnosticMessages.rMsg2Ld,RMSGxLD_SIZE); ++ ptidsl->adsl2DiagnosticMessages.rMsgxLdLen = RMSGxLD_SIZE; ++ break; ++ case RMSG3LD_INDEX: ++ dprintf(5,"R-Msg3 LD rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, RMSG3LD_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2DiagnosticMessages.rMsg3Ld,RMSGxLD_SIZE); ++ ptidsl->adsl2DiagnosticMessages.rMsgxLdLen = RMSGxLD_SIZE; ++ break; ++ case RMSG4LD_INDEX: ++ dprintf(5,"R-Msg4 LD rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, RMSG4LD_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2DiagnosticMessages.rMsg4Ld,RMSGxLD_SIZE); ++ ptidsl->adsl2DiagnosticMessages.rMsgxLdLen = RMSGxLD_SIZE; ++ break; ++ case RMSG5LD_INDEX: ++ dprintf(5,"R-Msg5 LD rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, RMSG5LD_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2DiagnosticMessages.rMsg5Ld,RMSGxLD_SIZE); ++ ptidsl->adsl2DiagnosticMessages.rMsgxLdLen = RMSGxLD_SIZE; ++ break; ++ case RMSG6LD_INDEX: ++ dprintf(5,"R-Msg6 LD rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, RMSG6LD_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2DiagnosticMessages.rMsg6Ld,RMSGxLD_SIZE); ++ ptidsl->adsl2DiagnosticMessages.rMsgxLdLen = RMSGxLD_SIZE; ++ break; ++ case RMSG7LD_INDEX: ++ dprintf(5,"R-Msg7 LD rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, RMSG7LD_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2DiagnosticMessages.rMsg7Ld,RMSGxLD_SIZE); ++ ptidsl->adsl2DiagnosticMessages.rMsgxLdLen = RMSGxLD_SIZE; ++ break; ++ case RMSG8LD_INDEX: ++ dprintf(5,"R-Msg8 LD rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, RMSG8LD_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2DiagnosticMessages.rMsg8Ld,RMSGxLD_SIZE); ++ ptidsl->adsl2DiagnosticMessages.rMsgxLdLen = RMSGxLD_SIZE; ++ break; ++ case RMSG9LD_INDEX: ++ dprintf(5,"R-Msg9 LD rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, RMSG9LD_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2DiagnosticMessages.rMsg9Ld,RMSGxLD_SIZE); ++ ptidsl->adsl2DiagnosticMessages.rMsgxLdLen = RMSGxLD_SIZE; ++ break; ++ case CMSG1LD_INDEX: ++ dprintf(5,"C-Msg1 LD rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, CMSG1LD_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2DiagnosticMessages.cMsg1Ld,CMSG1LD_SIZE); ++ ptidsl->adsl2DiagnosticMessages.cMsg1LdLen = CMSG1LD_SIZE; ++ break; ++ case CMSG2LD_INDEX: ++ dprintf(5,"C-Msg2 LD rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, CMSG2LD_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2DiagnosticMessages.cMsg2Ld,CMSG2LD_SIZE); ++ ptidsl->adsl2DiagnosticMessages.cMsg2LdLen = CMSG2LD_SIZE; ++ break; ++ case CMSG3LD_INDEX: ++ dprintf(5,"C-Msg3 LD rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, CMSG3LD_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2DiagnosticMessages.cMsg3Ld,CMSG3LD_SIZE); ++ ptidsl->adsl2DiagnosticMessages.cMsg3LdLen = CMSG3LD_SIZE; ++ break; ++ case CMSG4LD_INDEX: ++ dprintf(5,"C-Msg4 LD rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, CMSG4LD_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2DiagnosticMessages.cMsg4Ld,CMSG4LD_SIZE); ++ ptidsl->adsl2DiagnosticMessages.cMsg4LdLen = CMSG4LD_SIZE; ++ break; ++ case CMSG5LD_INDEX: ++ dprintf(5,"C-Msg5 LD rec'd\n"); ++ adsl2MsgLoc = dslhal_support_getAdsl2MessageLocation ++ (ptidsl, CMSG5LD_INDEX); ++ rc += dslhal_support_blockRead((PVOID)adsl2MsgLoc, ++ ptidsl->adsl2DiagnosticMessages.cMsg5Ld,CMSG5LD_SIZE); ++ ptidsl->adsl2DiagnosticMessages.cMsg5LdLen = CMSG5LD_SIZE; ++ break; ++ default: ++ dprintf(5,"Unknown ADSL2 Message rec'd\n"); ++ break; ++ } ++ if(rc) ++ return DSLHAL_ERROR_CONFIG_API_FAILURE; ++ else ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_getAdsl2MessageLocation() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Gets the address to the ADSL2 Message being looked up ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_getAdsl2MessageLocation(tidsl_t *ptidsl,int msgOffset) ++{ ++ int rc=0; ++ ++ DEV_HOST_dspOamSharedInterface_t *pSharedInterface, sharedInterface; ++ DEV_HOST_dspWrNegoParaDef_t dspNegoPara; ++ int adsl2MsgString, adsl2MsgAddr; ++ ++ pSharedInterface = (DEV_HOST_dspOamSharedInterface_t *) ptidsl->pmainAddr; ++ rc += dslhal_support_blockRead(pSharedInterface, &sharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ sharedInterface.dspWriteNegoParams_p = (DEV_HOST_dspWrNegoParaDef_t *) dslhal_support_adsl2ByteSwap32((unsigned int)sharedInterface.dspWriteNegoParams_p); ++ rc += dslhal_support_blockRead((PVOID)sharedInterface.dspWriteNegoParams_p,&dspNegoPara, sizeof(DEV_HOST_dspWrNegoParaDef_t)); ++ ++ if (rc) ++ { ++ dprintf(1,"dslhal_support_blockRead failed\n"); ++ return DSLHAL_ERROR_BLOCK_READ; ++ } ++ ++ adsl2MsgString = dslhal_support_adsl2ByteSwap32((unsigned int)dspNegoPara.adsl2DeltMsgs_p); ++ dprintf(5,"ADSL2 Message String Address: 0x%x\n",adsl2MsgString); ++ rc += dslhal_support_blockRead((PVOID)(adsl2MsgString + ++ ((sizeof(unsigned char *)*msgOffset))), ++ &adsl2MsgAddr, sizeof(int)); ++ adsl2MsgAddr = dslhal_support_adsl2ByteSwap32((unsigned int)adsl2MsgAddr); ++ dprintf(5," Message Address: 0x%x\n",adsl2MsgAddr); ++ ++ if(rc) ++ return DSLHAL_ERROR_BLOCK_READ; ++ else ++ return adsl2MsgAddr; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_getCMsgsRa() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Calls Advanced Training Message functions ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_getCMsgsRa(tidsl_t *ptidsl,void *cMsg) ++{ ++ int rc=0; ++ DEV_HOST_raMsgsDef_t raMsgParms; ++ DEV_HOST_dspOamSharedInterface_t dspOamSharedInterface; ++ rc += dslhal_support_blockRead(ptidsl->pmainAddr, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ ++ dspOamSharedInterface.raMsgs_p = (DEV_HOST_raMsgsDef_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.raMsgs_p); ++ ++ rc += dslhal_support_blockRead((PVOID)dspOamSharedInterface.raMsgs_p, ++ &raMsgParms, sizeof(DEV_HOST_raMsgsDef_t)); ++ shim_osMoveMemory((void *)cMsg,(void *)raMsgParms.cMsgsRaString,6); ++ ++ if(rc) ++ return DSLHAL_ERROR_CONFIG_API_FAILURE; ++ else ++ return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_gatherRateMessages() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Gathers Rate Training Messages ++* Input ++* tidsl_t *ptidsl : Pointer to application structure ++* ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_gatherRateMessages(tidsl_t * ptidsl) ++{ ++ int rc; ++ DEV_HOST_dspWrNegoParaDef_t negoParms; ++ DEV_HOST_dspOamSharedInterface_t dspOamSharedInterface; ++ ++ dprintf(1, "dslhal_support_gatherRateMessages\n"); ++ ++ rc += dslhal_support_blockRead(ptidsl->pmainAddr, &dspOamSharedInterface,sizeof(DEV_HOST_dspOamSharedInterface_t)); ++ dspOamSharedInterface.dspWriteNegoParams_p = (DEV_HOST_dspWrNegoParaDef_t *) dslhal_support_byteSwap32((unsigned int)dspOamSharedInterface.dspWriteNegoParams_p); ++ ++ rc = dslhal_support_blockRead((PVOID)dspOamSharedInterface.dspWriteNegoParams_p, &negoParms, sizeof(DEV_HOST_dspWrNegoParaDef_t)); ++ if (rc) ++ return DSLHAL_ERROR_BLOCK_READ; ++ else ++ { ++ shim_osMoveMemory((void *)ptidsl->AppData.bCRates1, (void *)negoParms.cRates1, 120); ++ shim_osMoveMemory((void *)ptidsl->AppData.bRRates1, (void *)negoParms.rRates1, 44); ++ } ++return DSLHAL_ERROR_NO_ERRORS; ++} ++ ++static unsigned int dslhal_support_adsl2ByteSwap32(unsigned int in32Bits) ++{ ++ int out32Bits=0; ++ ++#ifdef EB ++ out32Bits = (in32Bits << 24); ++ out32Bits |=((in32Bits & 0x0000ff00) << 8); ++ out32Bits |=((in32Bits & 0xff000000) >> 24); ++ out32Bits |=((in32Bits & 0x00ff0000) >> 8); ++#else ++ out32Bits = in32Bits; ++#endif ++ ++ return out32Bits; ++ ++} /* end of dslhal_support_byteSwap32() */ +diff -urN linux.old/drivers/atm/sangam_atm/dsl_hal_support.h linux.dev/drivers/atm/sangam_atm/dsl_hal_support.h +--- linux.old/drivers/atm/sangam_atm/dsl_hal_support.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/dsl_hal_support.h 2005-08-23 04:46:50.101843088 +0200 +@@ -0,0 +1,718 @@ ++#ifndef DSL_HAL_SUPPORT_H__ ++#define DSL_HAL_SUPPORT_H__ 1 ++ ++/******************************************************************************* ++* FILE PURPOSE: DSL Driver API functions for Sangam ++* ++******************************************************************************** ++* FILE NAME: dsl_hal_functiondefines.c ++* ++* DESCRIPTION: ++* Contains basic DSL HAL API declarations for Sangam ++* ++* ++* (C) Copyright 2001-02, Texas Instruments, Inc. ++* History ++* Date Version Notes ++* 06Feb03 0.00.00 RamP Created ++* 21Mar03 0.00.01 RamP Removed byteswap functions ++* 21Mar03 0.00.02 RamP Added extern osFreeVMemory declaration ++* 10Apr03 0.00.03 RamP Changed declaration for loadFWImage & ++* loadDebugFWImage to remove ptidsl param ++* 12Apr03 0.00.04 RamP Added function to set Interrupt Bit ++* Masks for bitfield & Mailboxes ++* 14Apr03 0.00.05 RamP Added modem state bit field processing ++* 15Apr03 0.00.06 RamP Added function osAllocateVMemory ++* 21Apr03 0.01.00 RamP Added function osAllocateDmaMemory ++* Added function osFreeDmaMemory ++* (Alpha) Added macro virtual2Physical, ++* 22Apr03 0.01.01 RamP Moved acknowledgeInterrupt to api.h ++* 24Apr03 0.01.02 RamP Added checkOvelayPage function ++* 29May03 0.01.03 RamP Added critical enter/exit function decl ++* 06Jun03 0.01.04 RamP Added Interrupt source parsing function ++* 06Oct03 0.01.05 RamP Added function abstraction switches ++* 12Oct03 0.01.06 RamP Added ADSL2 Message function prototypes ++* 14Nov03 0.03.07 RamP Added function to gather Rate Messages ++*******************************************************************************/ ++ ++#include "dsl_hal_api.h" ++ ++#define virtual2Physical(a) (((int)a)&~0xe0000000) ++/* External Function Prototype Declarations */ ++ ++extern unsigned int shim_osGetCpuFrequency(void); ++extern void shim_osClockWait(int val); ++extern unsigned int shim_osClockTick(void); ++ ++extern int shim_osStringCmp(const char *s1, const char *s2); ++ ++extern void dprintf( int uDbgLevel, char * szFmt, ...); ++ ++extern int shim_osLoadFWImage(unsigned char *firmwareImage); ++extern int shim_osLoadDebugFWImage(unsigned char *debugFirmwareImage); ++extern unsigned int shim_read_overlay_page(void *ptr, unsigned int secOffset, unsigned int secLength); ++extern void shim_osMoveMemory(char *dst, char *src, unsigned int numBytes); ++extern void shim_osZeroMemory(char *dst, unsigned int numBytes); ++ ++extern void *shim_osAllocateMemory(unsigned int size); ++extern void *shim_osAllocateVMemory(unsigned int size); ++extern void *shim_osAllocateDmaMemory(unsigned int size); ++ ++extern void shim_osFreeMemory(void *ptr, unsigned int size); ++extern void shim_osFreeVMemory(void *ptr, unsigned int size); ++extern void shim_osFreeDmaMemory(void *ptr, unsigned int size); ++ ++extern void shim_osWriteBackCache(void *pMem, unsigned int size); ++extern void shim_osCriticalEnter(void); ++extern void shim_osCriticalExit(void); ++ ++ ++/******************************************************************************************* ++* FUNCTION NAME: dslhal_support_writeHostMailbox ++* ++******************************************************************************************** ++* DESCRIPTION: Send a message to a mailbox ++* ++* ARGUMENTS: int cmd command to write ++* int tag tag (currently unused) ++* int p1 parameter 1 (currently unused) ++* int p2 parameter 2 (currently unused) ++* ++* RETURNS: 0 if successful ++* NZ otherwise ++* ++*******************************************************************************************/ ++ ++int dslhal_support_writeHostMailbox ++(tidsl_t *ptidsl, ++ int cmd, ++ int tag, ++ int p1, ++ int p2); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_readDspMailbox ++* ++********************************************************************************************* ++* DESCRIPTION: Reads a message from the mailbox ++* ++* ARGUMENTS: int *pcmd Pointer to command read ++* ++* RETURNS: 0 if successful ++* 1 if no mail ++* NZ otherwise ++* ++*****************************************************************************************/ ++ ++int dslhal_support_readDspMailbox ++(tidsl_t *ptidsl, ++ int *pcmd, ++ int *ptag, ++ int *pprm1, ++ int *pprm2); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_readTextMailbox ++* ++********************************************************************************************* ++* DESCRIPTION: Reads a message from the mailbox ++* ++* ARGUMENTS: int *pcmd Pointer to command read ++* ++* RETURNS: 0 if successful ++* 1 if no mail ++* NZ otherwise ++* ++*****************************************************************************************/ ++ ++int dslhal_support_readTextMailbox ++(tidsl_t *ptidsl, ++ int *pmsg1, ++ int *pmsg2); ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_support_blockRead ++* ++********************************************************************************************* ++* DESCRIPTION: This rouin simulates DSP memory read as done in ax5 pci nic card ++* ++* INPUT: void *addr, memory address to be read ++* void *buffer, dat buffer to be filled with from memmory ++* size_t count, number of bytes to be written ++* ++* RETURN: 0 --succeeded ++* 1 --Failed ++* ++*****************************************************************************************/ ++ ++int dslhal_support_blockRead ++(void *addr, ++ void *buffer, ++ size_t count); ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_support_blockWrite ++* ++******************************************************************************************* ++* DESCRIPTION: This rouin simulates DSP memory write as done in ax5 pci nic card ++* ++* INPUT: void *buffer, data need to written ++* void *adde, memory address to be written ++* size_t count, number of bytes to be written ++* ++* RETURN: 0 --succeeded ++* 1 --Failed ++* ++*****************************************************************************************/ ++ ++int dslhal_support_blockWrite ++(void *buffer, ++ void *addr, ++ size_t count); ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_support_hostDspAddressTranslate ++* ++******************************************************************************************* ++* DESCRIPTION: This function moves the address window to translate physical address ++* ++* INPUT: unsigned int addr : address that requires translation ++* ++* RETURN: Translated address or error condition ++* ++* ++*****************************************************************************************/ ++ ++unsigned int dslhal_support_hostDspAddressTranslate ++( unsigned int addr ++); ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_support_unresetDslSubsystem ++* ++******************************************************************************************* ++* DESCRIPTION: This function unreset Dsl Subsystem ++* ++* INPUT: None ++* ++* RETURN: 0 if Pass; 1 if Fail ++* ++*****************************************************************************************/ ++int dslhal_support_unresetDslSubsystem ++(void ++); ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_support_unresetDsp() ++* ++******************************************************************************************* ++* DESCRIPTION: This fuction takes ax5 daugter board out of reset. ++* ++* INPUT: None ++* ++* RETURN: 0 --successful. ++* 1 --failed ++* ++*****************************************************************************************/ ++int dslhal_support_unresetDsp ++(void ++); ++ ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_support_resetDslSubsystem ++* ++******************************************************************************************* ++* DESCRIPTION: This function unreset Dsl Subsystem ++* ++* INPUT: None ++* ++* RETURN: 0 if Pass; 1 if Fail ++* ++*****************************************************************************************/ ++int dslhal_support_resetDslSubsystem ++(void ++); ++ ++/****************************************************************************************** ++* FUNCTION NAME: dslhal_support_resetDsp() ++* ++******************************************************************************************* ++* DESCRIPTION: This fuction takes ax5 daugter board out of reset. ++* ++* INPUT: None ++* ++* RETURN: 0 --successful. ++* 1 --failed ++* ++*****************************************************************************************/ ++int dslhal_support_resetDsp ++(void ++); ++ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_hostDspCodeDownload() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* download DSP image from host memory to dsp memory ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++ ++int dslhal_support_hostDspCodeDownload ++(tidsl_t * ptidsl ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_diags_digi_assignMemTestSpace() ++* ++********************************************************************************************* ++* DESCRIPTION: Assigns Memory Space in SDRAM for External Memory Test ++* Input: tidsl_t *ptidsl ++* ++* Return: 0 success ++* 1 failed ++* ++********************************************************************************************/ ++ ++unsigned int dslhal_diags_digi_assignMemTestSpace ++(tidsl_t *ptidsl ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_diags_digi_readMemTestResult() ++* ++********************************************************************************************* ++* DESCRIPTION: Reads Results of External Memory Test ++* Input: tidsl_t *ptidsl ++* ++* Return: 0 success ++* 1 failed ++* ++********************************************************************************************/ ++ ++unsigned int dslhal_diags_digi_readMemTestResult ++(tidsl_t *ptidsl, ++unsigned int testResult ++); ++ ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_diags_codeDownload() ++* ++********************************************************************************************* ++* DESCRIPTION: Brings DSLSS out of Reset, Downloads Diag Firmware, ++* brings DSP out of Reset ++* Input: tidsl_t *ptidsl ++* ++* Return: 0 success ++* 1 failed ++* ++********************************************************************************************/ ++ ++unsigned int dslhal_diags_codeDownload ++(tidsl_t *ptidsl, ++unsigned char* missingTones ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_diags_anlg_setPgaParams() ++* ++********************************************************************************************* ++* DESCRIPTION: This function instructs the Transciever to transmit the Reverb with missing ++* tones and Medley's with missing tones. These signals are defined in ITU ++* G.992.1 ADSL Standards. ++* ++* Input: Test selects between the Reverb or Medley tests. 0 - Reverb, 1 - Medley ++* Tones selects the . ++* Return: NULL ++* ++********************************************************************************************/ ++ ++unsigned int dslhal_diags_anlg_setPgaParams ++(tidsl_t *ptidsl, ++int agcFlag, ++short pga1, ++short pga2, ++short pga3, ++short aeq ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_diags_anlg_getRxNoisePower() ++* ++********************************************************************************************* ++* DESCRIPTION: This function instructs the Transciever to transmit the Reverb with missing ++* tones and Medley's with missing tones. These signals are defined in ITU ++* G.992.1 ADSL Standards. ++* ++* Input: Test selects between the Reverb or Medley tests. 0 - Reverb, 1 - Medley ++* Tones selects the . ++* Return: NULL ++* ++********************************************************************************************/ ++ ++unsigned int dslhal_diags_anlg_getRxNoisePower ++(tidsl_t *ptidsl ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_diags_anlg_setMissingTones() ++* ++********************************************************************************************* ++* DESCRIPTION: This function instructs the Transciever to transmit the Reverb with missing ++* tones and Medley's with missing tones. These signals are defined in ITU ++* G.992.1 ADSL Standards. ++* ++* Input: Test selects between the Reverb or Medley tests. 0 - Reverb, 1 - Medley ++* Tones selects the . ++* Return: NULL ++* ++********************************************************************************************/ ++ ++unsigned int dslhal_diags_anlg_setMissingTones ++(tidsl_t *ptidsl, ++unsigned char* missingTones ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_readDelineationState() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* download DSP image from host memory to dsp memory ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_readDelineationState ++(tidsl_t *ptidsl ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_processModemStateBitField() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* download DSP image from host memory to dsp memory ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_processModemStateBitField ++(tidsl_t *ptidsl ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_setInterruptMask() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Sets the host interrupt bit masks ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++ ++unsigned int dslhal_support_setInterruptMask ++(tidsl_t * ptidsl, ++unsigned int inputMask ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_computeCrc32() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Computes the CRC-32 for the input data ++* ++* Return: 32 bit CRC of the input data ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_computeCrc32 ++(unsigned char *data, ++int len ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_checkOverlayPage() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Computes the CRC-32 for the input data and compares it with reference ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_checkOverlayPage ++(tidsl_t *ptidsl, ++unsigned int tag ++); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_restoreTrainingInfo() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Computes the CRC-32 for the input data and compares it with reference ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++ ++int dslhal_support_restoreTrainingInfo(tidsl_t * ptidsl); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_reloadTrainingInfo() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Computes the CRC-32 for the input data and compares it with reference ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++ ++int dslhal_support_reloadTrainingInfo(tidsl_t * ptidsl); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_clearTrainingInfo() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Computes the CRC-32 for the input data and compares it with reference ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++ ++int dslhal_support_clearTrainingInfo(tidsl_t * ptidsl); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_parseInterruptSource() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Sets the host interrupt bit masks ++* ++* Return: 0 success ++* 1 failed ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++ ++unsigned int dslhal_support_parseInterruptSource(tidsl_t * ptidsl); ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_advancedIdleProcessing() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Calls Advanced Idle State Processing Functions ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_advancedIdleProcessing(tidsl_t *ptidsl); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_aocBitSwapProcessing() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Calls Advanced Bitswap buffer Processing Functions ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_aocBitSwapProcessing(tidsl_t *ptidsl,unsigned int usDs); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_gatherEocMessages() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Calls Advanced EOC Buffering functions ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_gatherEocMessages(tidsl_t *ptidsl,int usDs, int msgPart1, int msgPart2); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_gatherSnrPerBin() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Calls Advanced Snr per bin buffering Functions ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_gatherSnrPerBin(tidsl_t *ptidsl,unsigned int snrParm); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_processTrainingState() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Calls Advanced Training State Processing Functions ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_processTrainingState(tidsl_t *ptidsl); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_gatherAdsl2Messages() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Calls Advanced EOC Buffering functions ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_gatherAdsl2Messages(tidsl_t *ptidsl,int msgTag, int param1, int param2); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_getAdsl2MsgLocation() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Gets the address to the ADSL2 Message being looked up ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_getAdsl2MessageLocation(tidsl_t *ptidsl,int msgOffset); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_getCMsgsRa() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Calls Advanced Training Message functions ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_getCMsgsRa(tidsl_t *ptidsl,void *cMsg); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_gatherRateMessages() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* Gathers Advanced Training Messages ++* ++* Return: Error Condition (if any) ++* ++* ++* NOTE: ++* DSP image is based on LITTLE endian ++* ++********************************************************************************************/ ++unsigned int dslhal_support_gatherRateMessages(tidsl_t *ptidsl); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_byteSwap16() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* byteswap a short ++* ++* INPUT: ++* Return: NULL ++* ++********************************************************************************************/ ++ ++unsigned short dslhal_support_byteSwap16(unsigned short in16Bits); ++ ++/******************************************************************************************** ++* FUNCTION NAME: dslhal_support_byteSwap32() ++* ++********************************************************************************************* ++* DESCRIPTION: ++* byteswap a word ++* ++* INPUT: ++* Return: NULL ++* ++********************************************************************************************/ ++ ++unsigned int dslhal_support_byteSwap32(unsigned int in32Bits); ++ ++#endif /* Pairs #ifndef DSL_HAL_FUNCTIONDEFINES_H__ */ +diff -urN linux.old/drivers/atm/sangam_atm/dsl_hal_version.h linux.dev/drivers/atm/sangam_atm/dsl_hal_version.h +--- linux.old/drivers/atm/sangam_atm/dsl_hal_version.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/dsl_hal_version.h 2005-08-23 04:46:50.102842936 +0200 +@@ -0,0 +1,94 @@ ++#ifndef __SYSSW_VERSION_H__ ++#define __SYSSW_VERSION_H__ 1 ++ ++/******************************************************************************* ++* FILE PURPOSE: DSL Driver API functions for Sangam ++* ++******************************************************************************** ++* FILE NAME: dsl_hal_basicapi.c ++* ++* DESCRIPTION: ++* Contains basic DSL HAL APIs for Sangam ++* ++* (C) Copyright 2003-04, Texas Instruments, Inc. ++* History ++* Date Version Notes ++* 14May03 0.00.00 RamP Original Version Created ++* 14May03 0.00.01 RamP Initial Rev numbers inserted ++* 14May03 0.00.02 RamP Bumped version numbers for Dsl Hal ++* & dhalapp for alpha plus ++* 19May03 0.00.03 MCB Bumped dslhal version number ++* because of dependant changes ++* wrt. linux-nsp atm drivers. ++* 22May03 0.00.04 RamP Bumped dslhal & dhalapp buildnum ++* for inner/outer pair & DGASP code ++* 06Jun03 0.00.05 RamP Bumped up buildnum for LED, STM, ++* interrupt processing, statistics ++* and other pre-beta features ++* 09Jun03 0.00.06 JEB Fixed error in DHALAPP bugfix/buildnum ++* 09Jun03 0.00.07 RamP Bumped up buildnum for incremental ++* changes to apis, statistics, memory ++* fixes, parameter configurations ++* 11Jun03 0.00.08 RamP Bumped up buildnum for Co profile ++* free memory fix ++* 12Jun03 0.00.09 JEB Bumped version numbers for AR7 1.00 Beta ++* 02Jul03 0.00.10 ZT Bumped HAL version for overlay page ++* 18Jul03 0.00.11 RamP Bumped HAL version for analog diags ++* 22Jul03 0.00.12 JEB Bumped DHALAPP buildnum for analog diags ++* 31Jul03 0.00.13 RamP Bumped HAL version for engr. drop ++* 04Aug03 0.00.14 JEB Bumped HAL version buildnum for CHECKPOINT65 changes ++* Bumped LINUX version buildnum for CHECKPOINT65 changes ++* 06Aug03 0.00.15 MCB Bumped all version numbers in prep for AR7 1.0 R2 release for POTS. ++* 13Aug03 0.00.16 MCB Set rev id's for D3/R1.1 (ADSL2). ++* 21Aug03 0.00.17 JEB Bumped up build numbers for merge of code additions from D1 ++* 26Sep03 0.00.18 JEB Set rev id's for another D3/R1 (ADSL2). ++* 14Oct03 0.00.19 JEB Bumped Linux minor number and reset bugfix number for release. ++* Bumped build numbers on DSLHAL and DHALAPP for this checkpoint. ++* 14Oct03 0.00.20 JEB Bumped build numbers on DSLHAL and DHALAPP for CHECKPOINT15. ++* 21Oct03 0.00.21 JEB Bumped build number on DSLHAL for CHECKPOINT16. ++* 22Oct03 0.00.22 MCB Bumped all version numbers in support of D3R1 release. ++* 27Oct03 0.00.23 JEB Bumped build numbers on DSLHAL and DHALAPP for CHECKPOINT19. ++* Updated version for DSLAGENT to be 02.01.00.01 for ACT 2.1 R0. ++* 30Oct03 0.00.24 JEB Bumped bugfix number on LINUXATM Version for next release. ++* Bumped build numbers on DSLHAL and DHALAPP ++* 31Oct03 0.00.25 MCB Bumped all version numbers in support of D3R2 release. ++* 14Nov03 0.00.26 JEB Bumped build numbers on DSLHAL and DHALAPP ++* Changed version for DSLAGENT to be 02.00.01.01 for an ACT 2.0 R0 ++* 20Nov03 0.00.27 JEB Bumped build number on DSLHAL. ++* Changed version for DSLAGENT to be 02.00.02.00 for the next ACT 2.0 R2 ++* 21Nov03 0.00.28 MCB Bumped all version numbers in support of D3R2 release. ++* 21Nov03 0.00.29 JEB Bumped build numbers on DSLHAL and DHALAPP for D3-R0 drop on 11/21. ++* 16Dec03 0.00.30 JEB Bumped build numbers on DSLHAL and DHALAPP for CHECKPOINT31. ++* 21Dec03 0.00.31 MCB Bumped all version numbers in support of D3R2 release. ++* 05Jan04 0.00.32 JEB Bumped build numbers on DSLHAL and Linux ATM for CHECKPOINT 34. ++* 15Jan04 0.00.33 JEB Bumped build numbers on DSLHAL and Linux ATM for CHECKPOINT 36. ++* 26Jan04 0.00.34 JEB Changed Linux ATM version number to be 04.02.03.00. ++* 27Jan04 0.00.35 MCB Bumped all version numbers in support of D3R2 release. ++*******************************************************************************/ ++ ++/* Dsl Hal API Version Numbers */ ++#define DSLHAL_VERSION_MAJOR 03 ++#define DSLHAL_VERSION_MINOR 00 ++#define DSLHAL_VERSION_BUGFIX 06 ++#define DSLHAL_VERSION_BUILDNUM 00 ++#define DSLHAL_VERSION_TIMESTAMP 00 ++ ++/* dhalapp Adam2 Application Version Numbers */ ++#define DHALAPP_VERSION_MAJOR 03 ++#define DHALAPP_VERSION_MINOR 00 ++#define DHALAPP_VERSION_BUGFIX 05 ++#define DHALAPP_VERSION_BUILDNUM 00 ++ ++/* Linux ATM Driver Version Numbers */ ++#define LINUXATM_VERSION_MAJOR 04 ++#define LINUXATM_VERSION_MINOR 02 ++#define LINUXATM_VERSION_BUGFIX 04 ++#define LINUXATM_VERSION_BUILDNUM 00 ++ ++/* DSL Agent Version Numbers */ ++#define DSLAGENT_VERSION_MAJOR 02 ++#define DSLAGENT_VERSION_MINOR 00 ++#define DSLAGENT_VERSION_BUGFIX 02 ++#define DSLAGENT_VERSION_BUILDNUM 00 ++ ++#endif /* pairs with #ifndef __SYSSW_VERSION_H__ */ +diff -urN linux.old/drivers/atm/sangam_atm/ec_errors_cpaal5.h linux.dev/drivers/atm/sangam_atm/ec_errors_cpaal5.h +--- linux.old/drivers/atm/sangam_atm/ec_errors_cpaal5.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/ec_errors_cpaal5.h 2005-08-23 04:46:50.102842936 +0200 +@@ -0,0 +1,118 @@ ++/*************************************************************************** ++ Copyright(c) 2001, Texas Instruments Incorporated. All Rights Reserved. ++ ++ FILE: ec_errors.h ++ ++ DESCRIPTION: ++ This file contains definitions and function declarations for ++ error code support. ++ ++ HISTORY: ++ 14Dec00 MJH Added masking to EC_CLASS etc macros ++ 17Sep02 GSG Added HAL support (new class&devices) ++ 03Oct02 GSG Removed C++ style comments ++***************************************************************************/ ++#ifndef _INC_EC_ERRORS ++#define _INC_EC_ERRORS ++ ++/* ++ 31 - CRITICAL ++ 30-28 - CLASS (ie. DIAG, KERNEL, FLASH, etc) ++ 27-24 - INSTANCE (ie. 1, 2, 3, etc ) ++ 23-16 - DEVICE (ie. EMAC, IIC, etc) ++ 15-08 - FUNCTION (ie. RX, TX, INIT, etc) ++ 07-00 - ERROR CODE (ie. NO_BASE, FILE_NOT_FOUND, etc ) ++*/ ++ ++/*--------------------------------------------------------------------------- ++ Useful defines for accessing fields within error code ++---------------------------------------------------------------------------*/ ++#define CRITICAL_SHIFT 31 ++#define CLASS_SHIFT 28 ++#define INST_SHIFT 24 ++#define DEVICE_SHIFT 16 ++#define FUNCTION_SHIFT 8 ++#define ERROR_CODE_SHIFT 0 ++ ++#define CRITICAL_MASK 1 ++#define CLASS_MASK 0x07 ++#define DEVICE_MASK 0xFF ++#define INST_MASK 0x0F ++#define FUNCTION_MASK 0xFF ++#define ERROR_CODE_MASK 0xFF ++ ++#define EC_CLASS(val) ((val&CLASS_MASK) << CLASS_SHIFT) ++#define EC_DEVICE(val) ((val&DEVICE_MASK) << DEVICE_SHIFT) ++#define EC_INST(val) ((val&INST_MASK) << INST_SHIFT) ++#define EC_FUNC(val) ((val&FUNCTION_MASK) << FUNCTION_SHIFT) ++#define EC_ERR(val) ((val&ERROR_CODE_MASK) << ERROR_CODE_SHIFT) ++ ++/*--------------------------------------------------------------------------- ++ Operation classes ++---------------------------------------------------------------------------*/ ++#define EC_HAL EC_CLASS(0) ++#define EC_DIAG EC_CLASS(8) ++ ++/*--------------------------------------------------------------------------- ++ Device types ++---------------------------------------------------------------------------*/ ++#define EC_DEV_EMAC EC_DEVICE(1) ++#define EC_DEV_IIC EC_DEVICE(2) ++#define EC_DEV_RESET EC_DEVICE(3) ++#define EC_DEV_ATMSAR EC_DEVICE(4) ++#define EC_DEV_MEM EC_DEVICE(5) ++#define EC_DEV_DES EC_DEVICE(6) ++#define EC_DEV_DMA EC_DEVICE(7) ++#define EC_DEV_DSP EC_DEVICE(8) ++#define EC_DEV_TMR EC_DEVICE(9) ++#define EC_DEV_WDT EC_DEVICE(10) ++#define EC_DEV_DCL EC_DEVICE(11) ++#define EC_DEV_BBIF EC_DEVICE(12) ++#define EC_DEV_PCI EC_DEVICE(13) ++#define EC_DEV_XBUS EC_DEVICE(14) ++#define EC_DEV_DSLIF EC_DEVICE(15) ++#define EC_DEV_USB EC_DEVICE(16) ++#define EC_DEV_CLKC EC_DEVICE(17) ++#define EC_DEV_RAPTOR EC_DEVICE(18) ++#define EC_DEV_DSPC EC_DEVICE(19) ++#define EC_DEV_INTC EC_DEVICE(20) ++#define EC_DEV_GPIO EC_DEVICE(21) ++#define EC_DEV_BIST EC_DEVICE(22) ++#define EC_DEV_HDLC EC_DEVICE(23) ++#define EC_DEV_UART EC_DEVICE(24) ++#define EC_DEV_VOIC EC_DEVICE(25) ++/* 9.17.02 (new HAL modules) */ ++#define EC_DEV_CPSAR EC_DEVICE(0x1A) ++#define EC_DEV_AAL5 EC_DEVICE(0x1B) ++#define EC_DEV_AAL2 EC_DEVICE(0x1C) ++#define EC_DEV_CPMAC EC_DEVICE(0x1D) ++#define EC_DEV_VDMA EC_DEVICE(0x1E) ++#define EC_DEV_VLYNQ EC_DEVICE(0x1F) ++#define EC_DEV_CPPI EC_DEVICE(0x20) ++#define EC_DEV_CPMDIO EC_DEVICE(0x21) ++ ++/*--------------------------------------------------------------------------- ++ Function types ++---------------------------------------------------------------------------*/ ++#define EC_FUNC_READ_CONF EC_FUNC(1) ++#define EC_FUNC_INIT EC_FUNC(2) ++ ++/*--------------------------------------------------------------------------- ++ Error codes ++---------------------------------------------------------------------------*/ ++#define EC_CRITICAL (1<<CRITICAL_SHIFT) ++#define EC_NO_ERRORS 0 ++#define EC_VAL_NO_BASE EC_ERR(1) ++#define EC_VAL_NO_RESET_BIT EC_ERR(2) ++#define EC_VAL_NO_RESET EC_ERR(3) ++#define EC_VAL_BAD_BASE EC_ERR(4) ++#define EC_VAL_MALLOCFAILED EC_ERR(5) ++#define EC_VAL_NO_RESETBASE EC_ERR(6) ++#define EC_DEVICE_NOT_FOUND EC_ERR(7) ++ ++/*--------------------------------------------------------------------------- ++ Function declarations ++---------------------------------------------------------------------------*/ ++extern void ec_log_error( unsigned int ); ++ ++#endif /* _INC_EC_ERRORS */ +diff -urN linux.old/drivers/atm/sangam_atm/ec_errors_cpsar.h linux.dev/drivers/atm/sangam_atm/ec_errors_cpsar.h +--- linux.old/drivers/atm/sangam_atm/ec_errors_cpsar.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/ec_errors_cpsar.h 2005-08-23 04:46:50.102842936 +0200 +@@ -0,0 +1,118 @@ ++/*************************************************************************** ++ Copyright(c) 2001, Texas Instruments Incorporated. All Rights Reserved. ++ ++ FILE: ec_errors.h ++ ++ DESCRIPTION: ++ This file contains definitions and function declarations for ++ error code support. ++ ++ HISTORY: ++ 14Dec00 MJH Added masking to EC_CLASS etc macros ++ 17Sep02 GSG Added HAL support (new class&devices) ++ 03Oct02 GSG Removed C++ style comments ++***************************************************************************/ ++#ifndef _INC_EC_ERRORS ++#define _INC_EC_ERRORS ++ ++/* ++ 31 - CRITICAL ++ 30-28 - CLASS (ie. DIAG, KERNEL, FLASH, etc) ++ 27-24 - INSTANCE (ie. 1, 2, 3, etc ) ++ 23-16 - DEVICE (ie. EMAC, IIC, etc) ++ 15-08 - FUNCTION (ie. RX, TX, INIT, etc) ++ 07-00 - ERROR CODE (ie. NO_BASE, FILE_NOT_FOUND, etc ) ++*/ ++ ++/*--------------------------------------------------------------------------- ++ Useful defines for accessing fields within error code ++---------------------------------------------------------------------------*/ ++#define CRITICAL_SHIFT 31 ++#define CLASS_SHIFT 28 ++#define INST_SHIFT 24 ++#define DEVICE_SHIFT 16 ++#define FUNCTION_SHIFT 8 ++#define ERROR_CODE_SHIFT 0 ++ ++#define CRITICAL_MASK 1 ++#define CLASS_MASK 0x07 ++#define DEVICE_MASK 0xFF ++#define INST_MASK 0x0F ++#define FUNCTION_MASK 0xFF ++#define ERROR_CODE_MASK 0xFF ++ ++#define EC_CLASS(val) ((val&CLASS_MASK) << CLASS_SHIFT) ++#define EC_DEVICE(val) ((val&DEVICE_MASK) << DEVICE_SHIFT) ++#define EC_INST(val) ((val&INST_MASK) << INST_SHIFT) ++#define EC_FUNC(val) ((val&FUNCTION_MASK) << FUNCTION_SHIFT) ++#define EC_ERR(val) ((val&ERROR_CODE_MASK) << ERROR_CODE_SHIFT) ++ ++/*--------------------------------------------------------------------------- ++ Operation classes ++---------------------------------------------------------------------------*/ ++#define EC_HAL EC_CLASS(0) ++#define EC_DIAG EC_CLASS(8) ++ ++/*--------------------------------------------------------------------------- ++ Device types ++---------------------------------------------------------------------------*/ ++#define EC_DEV_EMAC EC_DEVICE(1) ++#define EC_DEV_IIC EC_DEVICE(2) ++#define EC_DEV_RESET EC_DEVICE(3) ++#define EC_DEV_ATMSAR EC_DEVICE(4) ++#define EC_DEV_MEM EC_DEVICE(5) ++#define EC_DEV_DES EC_DEVICE(6) ++#define EC_DEV_DMA EC_DEVICE(7) ++#define EC_DEV_DSP EC_DEVICE(8) ++#define EC_DEV_TMR EC_DEVICE(9) ++#define EC_DEV_WDT EC_DEVICE(10) ++#define EC_DEV_DCL EC_DEVICE(11) ++#define EC_DEV_BBIF EC_DEVICE(12) ++#define EC_DEV_PCI EC_DEVICE(13) ++#define EC_DEV_XBUS EC_DEVICE(14) ++#define EC_DEV_DSLIF EC_DEVICE(15) ++#define EC_DEV_USB EC_DEVICE(16) ++#define EC_DEV_CLKC EC_DEVICE(17) ++#define EC_DEV_RAPTOR EC_DEVICE(18) ++#define EC_DEV_DSPC EC_DEVICE(19) ++#define EC_DEV_INTC EC_DEVICE(20) ++#define EC_DEV_GPIO EC_DEVICE(21) ++#define EC_DEV_BIST EC_DEVICE(22) ++#define EC_DEV_HDLC EC_DEVICE(23) ++#define EC_DEV_UART EC_DEVICE(24) ++#define EC_DEV_VOIC EC_DEVICE(25) ++/* 9.17.02 (new HAL modules) */ ++#define EC_DEV_CPSAR EC_DEVICE(0x1A) ++#define EC_DEV_AAL5 EC_DEVICE(0x1B) ++#define EC_DEV_AAL2 EC_DEVICE(0x1C) ++#define EC_DEV_CPMAC EC_DEVICE(0x1D) ++#define EC_DEV_VDMA EC_DEVICE(0x1E) ++#define EC_DEV_VLYNQ EC_DEVICE(0x1F) ++#define EC_DEV_CPPI EC_DEVICE(0x20) ++#define EC_DEV_CPMDIO EC_DEVICE(0x21) ++ ++/*--------------------------------------------------------------------------- ++ Function types ++---------------------------------------------------------------------------*/ ++#define EC_FUNC_READ_CONF EC_FUNC(1) ++#define EC_FUNC_INIT EC_FUNC(2) ++ ++/*--------------------------------------------------------------------------- ++ Error codes ++---------------------------------------------------------------------------*/ ++#define EC_CRITICAL (1<<CRITICAL_SHIFT) ++#define EC_NO_ERRORS 0 ++#define EC_VAL_NO_BASE EC_ERR(1) ++#define EC_VAL_NO_RESET_BIT EC_ERR(2) ++#define EC_VAL_NO_RESET EC_ERR(3) ++#define EC_VAL_BAD_BASE EC_ERR(4) ++#define EC_VAL_MALLOCFAILED EC_ERR(5) ++#define EC_VAL_NO_RESETBASE EC_ERR(6) ++#define EC_DEVICE_NOT_FOUND EC_ERR(7) ++ ++/*--------------------------------------------------------------------------- ++ Function declarations ++---------------------------------------------------------------------------*/ ++extern void ec_log_error( unsigned int ); ++ ++#endif /* _INC_EC_ERRORS */ +diff -urN linux.old/drivers/atm/sangam_atm/env_def_defines.h linux.dev/drivers/atm/sangam_atm/env_def_defines.h +--- linux.old/drivers/atm/sangam_atm/env_def_defines.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/env_def_defines.h 2005-08-23 04:46:50.103842784 +0200 +@@ -0,0 +1,926 @@ ++#ifndef __ENV_DEF_DEFINES_H__ ++#define __ENV_DEF_DEFINES_H__ 1 ++ ++//******************************************************************** ++//* DMT-BASE ADSL MODEM PROGRAM ++//* TEXAS INSTRUMENTS PROPRIETARTY INFORMATION ++//* AMATI CONFIDENTIAL PROPRIETARY ++//* ++//* (c) Copyright May 1999, Texas Instruments Incorporated. ++//* All Rights Reserved. ++//* ++//* Property of Texas Instruments Incorporated and Amati Communications Corp. ++//* ++//* Restricted Rights - Use, duplication, or disclosure is subject to ++//* restrictions set forth in TI's and Amati program license agreement and ++//* associated documentation ++//* ++//********************************************************************* ++//* ++//* FILENAME: dpsys_defines.h ++//* ++//* ABSTRACT: This file provides a mechanism for defining standard ++//* preprocessor flag sets for datapump. ++//* ++//* TARGET: Non specific. ++//* ++//* TOOLSET: Non specific. ++//* ++//* ACTIVATION: ++//* ++//* HISTORY: DATE AUTHOR DESCRIPTION ++//* 05/11/99 FLW Created ++//* 01/21/00 FLW derfmake changes ++//* 02/07/00 FLW/M.Seidl added _debug targets ++//* 02/23/00 FLW/M.Barnett merged in from G.lite branch ++//* 03/03/00 FLW/M.Barnett added TRELLIS token ++//* 05/11/00 Barnett Added ap036btp & ap037btp support. ++//* 02/07/00 M.Seidl added HW_TEQ, HW_DEC and DC_BIAS tokens ++//* 02/28/00 Derf/Seidl Mod's in support of suppressing compiler warnings for empty source files ++//* 02/28/00 M. Seidl added SWTC token ++//* 02/28/00 M. Seidl added ap0501tp and its _debug target ++//* 03/03/00 M. Seidl added MODPILOT token, ap0307tp_debug has SWDI and FDD enabled ++//* 03/08/00 Jack Huang Added HWRSDEC token ++//* 03/29/00 Derf/Seidl Mod's in support Soft-TC and derfmake ++//* 04/10/00 Jack Huang Added PCIMASTER token ++//* 04/11/00 Jack Huang Added STBFIX token ++//* 04/24/00 M. Seidl ap0500tp has OLAYDP turned on, ap0500tp_debug has OLAYDP turned off now ++//* 04/28/00 M.Seidl added KAPIL token for ap0501tp targets ++//* 06/02/00 P.Sexton Added OAM_EOC token ++//* 06/06/00 M. Seidl added au0501tp target ++//* 06/12/00 Michael Seidl activated h/w TEQ for KAPIL targets, disabled STBFIX for all targets ++//* 06/14/00 Derf added ap0308tp, alphabetized token lists ++//* 06/16/00 Jack Huang added au0501tp_debug target ++//* 06/22/00 M. Seidl Enabled code overlays through EMIF from external memory. Now there are 3 ++//* different code overlay schemes that are differentiated by the following tokens: ++//* OLAYDP_PCI: uses PCI DMA in PCI Master Mode ++//* OLAYDP_HOST: Host downloads overlay code into DMEM upon request from DSP ++//* OLAYDP_EMIF: Host downloads overlay code into ext. mem at boot-time. DSP uses ++//* DMA channel 0 to load code into on-chip PMEM ++//* OLAYDP: turns overlays generally on or off ++//* 07/15/00 B.Srinivasan Cleaned up default tokens and tokens for au0501tp, au0501tp_debug, ++//* ap0501tp and ap0501tp_debug targets as well ++//* 07/19/00 B.Srinivasan Made changes w.r.t cleaning/fixing Rufus Interrupt related code ++//* (changed token TC_INTRPT_RUFUS to INTRPT_RUFUS ++//* 06/14/00 Derf added au0501cp ++//* 08/12/00 Yinong Ding Added DPLL_MODE token. ++//* 08/16/00 F. Mujica Moved DOUBLE_XMT_RATE, RX_HPF, and LEAKY_LMS tokens here. ++//* 09/05/00 M. Seidl Changed ap0501tp back to do overlay through PCI (OLAY_PCI = 1) ++//* 09/11/00 M. Seidl moved USB and OLAYDP_HOST definitions to be CHIPSET specific, not target specific ++//* 09/21/00 U.Dasgupta/ Added a token for separate transmit and receive buffers. ++//* F.Mujica (SEPARATE_TX_RX_BUFFERS). ++//* 10/02/00 U.Dasgupta/ Added DPLL and SEPARATE_TX_RX_BUFFER tokens for au0502 target. ++//* F.Mujica ++//* 10/02/00 M. Castellano Added new tokens for new Host/EMIF DSP code overlay. ++//* OLAYDP_2STEP: Host downloads overlay code into ext. mem upon DSP request. DSP ++//* DMA channel 0 to load code into on-chip PMEM. It is a somewhat hybrid version ++//* of OLAYDP_HOST and OLAYDP_EMIF. The test target is ap0502tp. ++//* 10/25/00 Balaji Added tokens for arv500tp target ++//* 10/31/00 U. Iyer Added TEQ_AVG token and set it one for Ax5 ++//* 11/02/00 Barnett Added OAM_EOC=0 in defaults at bottom of file. ++//* 11/21/00 M. Seidl turned OLAYDP and AOC off for ap0307tp to make binary compatible w. whql'ed driver ++//* 11/28/00 Paul Hunt added FASTRETRAIN token for fast retrain specific code ++//* 11/28/00 Paul Hunt added PILOTDATA token to control channel estimation and transmission ++//* of data on the upstream pilot tone for ITU standard code loads ++//* 12/20/00 Jack Huang added EIGHTBITSRAM toekn for the targets that use 8-bit SRAM for ++//* interleaver/deinterleaver ++//* 01/11/01 U.Dasgupta Added mp targets and cleaned up GHS/PILOTDATA variables ++//* 01/23/01 U.Dasgupta Cleaned up code within GLITE tokens ++//* 01/23/00 Barnett Added in full EOC support for AP3/Ax5. Got rid of UTC. No longer needed. ++//* 02/08/01 Barnett Added DDC token. ++//* 03/09/01 Nirmal Warke Added in TOKEN definition for line diagnostics (LINE_DIAG): IMP DEPENDENCIES - ++//* TEQ_AVG must be off when LINE_DIAG is on (since they share a union buffer at the same time) ++//* 03/13/01 M. Seidl Recovered ap0500tp target. Added GHS token as PMEM saving option ++//* 03/14/01 Barnett Added ap0500mb target support. Look-and-feel is similar to ap0500tp. ++//* Added seperate-but-equal def's wrt. ISDN Annex B, Annex C, and PROP. ++//* 03/14/01 J. Bergsagel Added EXTERNBERT token. ++//* 03/15/01 Barnett/Balaji Merged AR5(H) -> 03.00.00 datapump. ++//* 03/16/01 Nirmal Warke Added in TOKEN definition for crosstalk performance mods (CROSSTALK): IMP DEPENDENCIES - ++//* TEQ_AVG must be off and LEAKY_LMS must be on when CROSSTALK is on ++//* 03/21/01 Barnett Added support for ar0500lp, ar0500mp, ar0500dp, arv500lp, arv500mp, and arv500dp. ++//* 03/26/01 M. Seidl enabled 64pt IFFT for ap0500mb (Raptor+AD11, FDM) ++//* 03/28/01 J. Bergsagel Removed EXTERNBERT token (now use host intf. var. instead) ++//* 04/03/01 J. Bergsagel Removed condition of DSPDP_CHIPSET_GEN==5 for default defines ++//* Removed LEAKY_LMS token (assumed always 1) ++//* Removed OLAYDP_HOST token (assumed always 0) ++//* Removed RX_HPF token (assumed always 1) ++//* Removed TRIBRID token (not used any more) ++//* Removed FDD token (assumed always 1) ++//* Removed HW_DEC token (assumed always 1) ++//* Removed HW_TEQ token (assumed always 1) ++//* Removed HWRSDEC token (assumed always 1) ++//* Removed ILEC_AD11_ALCATEL337 token (assumed always 0) ++//* Removed ILEC_AD11_HDSLNOISEFIX token (assumed always 0) ++//* Removed ILEC_AD11_MODULATEPILOT token (assumed always 0) ++//* Removed ILEC_AD11_NEWINTERPOLATE token (assumed always 0) ++//* Removed ILEC_AD11_USTXHPF token (assumed always 0) ++//* Removed SWDI token (assumed always 1) ++//* Removed TD_AGC token (assumed always 1) ++//* Removed DSPDP_LEGACY_TARGET token (assumed always 0) ++//* Removed AD11_20, AD11_20NL and AD11_20_NEWPREC token (always 1) ++//* Removed AI token (assumed always 1) ++//* Removed ATUC token (assumed always 0) ++//* Removed EU token (assumed always 0) ++//* Removed EVM2 token (assumed always 0) ++//* Removed INTRPT_RUFUS token (assumed always 0) ++//* Removed MODPILOT token (assumed always 0) ++//* Removed SL and SL_EVM tokens (assumed always 0) ++//* Removed STBIFX token (assumed always 0) ++//* Removed STD token (assumed always 1) ++//* Removed SWDI_LOOPBACK token (assumed always 0) ++//* Removed TID token (assumed always 0) ++//* Removed TII token (assumed always 1) ++//* Removed TIPCI token (assumed always 1) ++//* Removed UDI token (assumed always 1) ++//* Removed DC_BIAS token (assumed always 1) ++//* 04/05/01 Barnett Added DSPDP_ prefix to tokens that originate ++//* in the public interface. ++//* 05/07/01 Jack Huang Removed DOUBLE_XMT_RATE token. ++//* 05/16/01 Barnett Added back in EXTERNBERT token in support ++//* of saving PMEM. ++//* 06/05/01 Jack Huang Fixed the rules for ar0500mp_debug target ++//* 04/23/01 M. Halleck Merge Astro Wu's DDC enhancements ++//* 06/05/01 M. Capps Changed DSP_DEBUG to ENHANCED_SERIAL_DEBUG ++//* 07/03/01 M. Capps Replaced ESD token with !DDC, added DEV_DEBUG ++//* 06/26/01 J. Bergsagel Removed all the old ap03... stuff ++//* Removed OLAYDP_HOST token (again) ++//* Removed CROSSTALK token (assumed always 1) ++//* Removed TEQ_AVG token (assumed always 0) ++//* Removed DE token (assumed always 1) ++//* Removed PVAT token and au0501cp target ++//* Removed FASTRETRAIN token (assumed always 0) ++//* 07/05/01 J. Bergsagel Changed PCIMASTER token to TC_ATM_PCIMASTER ++//* 07/20/01 Umesh Iyer Added ATMBERT token. ATMBERT is conditional on SWTC definition. if SWTC is 0 ++//* ATMBERT should be 0. Else it can be 0/1. Default 0. ++//* 07/23/01 J. Bergsagel Changed name from defines_u.h to dpsys_defines.h ++//* 07/24/01 Barnett Added support for build of $(TARGET)_diag mfgr'ing targets. ++//* 08/02/01 Michael Seidl renamed KAPIL token to !AD1X ++//* 08/02/01 Michael Seidl renamed GHS token to PMEMSAVE_GHS ++//* 08/03/01 S.Yim Added MFGR_DIAG token for afe diagnostic ++//* Added AFEDEV token for afe device driver ++//* Added DSPBIOSII token for dsp bios ++//* 09/21/01 Sameer Enable EXTERNBERT. Disable ATMBERT. ++//* 10/01/01 U.Dasgupta Turned off SMART_MARGIN for ap0500mb because of FECs/CRCs; ++//* 10/09/01 Barnett Added support for ar0500db. ++//* 10/12/01 Barnett Disable EXTERNBERT. ++//* 10/15/01 Barnett Turn off SMART_MARGIN. ++//* 11/07/01 Barnett Def'ed ISDN_DEBUG for all targets to avoid compiler warnings. ++//* Assumed defaul value is zero. ++//* 11/13/01 Barnett Reworked ar0500db_debug to build JTAG-bootable load. ++//* The equivalent production target should only be flash-bootable. ++//* 01/11/02 Yim Added TOKEN JTAG to build JTAG load ar0500db_diag. ++//* 01/23/02 U Iyer Added DEBUG_LOG token. Default value 0 ++//* 01/31/02 Barnett Added support for ar0700mp target. ++//* 02/04/02 S.Yim Added TOKEN JTAG to build JTAG load ar0500mp_diag ++//* 02/11/02 U Iyer Added MARGIN_DELTA_RETRAIN token. Default value 1 ++//* 05/15/02 Sameer V Enabled EXTERNBERT token for AR5 and AU5 platforms. EXTERNBERT is ++//* not supported on AR5H. ++//* 02/14/02 Barnett Don't ref the SWTC feature token if mfgr'ing diag target. ++//* 02/19/02 Yim Added support to build au0502db_diag target. ++//* 03/08/02 Nirmal Warke Added feature token HYBRID_SWITCH ++//* 03/15/02 U G Jani Turned ON Bitswap support for AU5I (au0502db) targets. ++//* 04/08/02 U G Jani Enabled NLNOISEADJSNR token for AU5I targets. ++//* 06/24/02 Seungmok Oh Added PERTONE_EQ token support for those targets: ++//* (ar0500mp_debug, au0502mp_debug, ar0500mp, au0502mp) ++//* 06/26/02 Mallesh Added DS_PWR_CUTBACK token. Default value 1. ++//* 06/27/02 Mallesh Changed default value of DS_PWR_CUTBACK token to 0. ++//* 06/29/02 U.Dasgupta Token cleanup: Removed ISDN_DEBUG token ++//* 04/29/02 Mannering Remove EIGHTBITSRAM, Combined DOUBLEBUFFER with ++//* BITSWAP, added FPGA token ++//* 05/03/02 Mannering cleanup token changed by the new routine names ++//* 05/06/02 Mannering Add tokens OUTBAND and INBAND for codec commands ++//* If both OUTBAND and INBAND are 0 codec register are ++//* memory mapped. ++//* 05/29/2002 S.Yim Removed AD1X, AFEDEV ++//* 08/31/2002 Paul Hunt Added PERTONE_EQ and HYBRID_SWITCH for ar0700mp ++//* 09/12/2002 Paul Hunt Added support for ar0700db target. ++//* 08/07/2002 U.Dasgupta Turned off MARGIN_DELTA_RETRAIN feature for ISDN platforms ++//* 11/14/2002 Paul Hunt Merged AX5 MR6 PC modifications into AR7 codebase, specifically ++//* turned off MARGIN_DELTA_RETRAIN feature for ar0700db target ++//* 08/26/2002 N. Warke Added DUAL_TEQ token. Active only for Ax7 target ++//* 09/26/2002 Mannering Add token CODEC_EMU for codec emulator board ++//* 10/15/2002 Iyer/Molla Added DMT_BIS token for DELT support ++//* 10/21/2002 A. Redfern Added PHY_EC_ENABLE and PHY_PATH_ENABLE tokens ++//* 10/23/2002 A. Redfern Removed LINE_DIAG token ++//* 10/28/2002 J. Bergsagel Cleaned up old targets and cleaned up the token list ++//* 10/30/2002 A. Redfern Added PHY_TDW_ENABLE ++//* 11/01/2002 A. Redfern Removed SMART_MARGIN token ++//* 11/01/2002 Mustafa Turned on SPECTRAL_SHAPING features for Lucent AnyMedia O.69 Interop. ++//* 11/15/2002 Yim/Mannering Added CODEC_EMU token for analog emulation board specifics ++//* 11/15/2002 Iyer/Molla Added DEBUG_DELT and MEM_STR token to support DELT debug ++//* 12/27/2002 Sameer V Added ATM_TC_HW token for Sangam. ++//* 01/06/2003 J. Bergsagel Added default values for NLNOISEADJSNR, ARTT and DS_PWR_CUTBACK ++//* 01/07/2003 S.Yim Modified ar0700db_diag target to turn on ISDN token ++//* 01/22/2003 J. Bergsagel Added back in defines for the debug targets. ++//* 01/21/2003 MCB Implemented Ax7 UNIT-MODULE modular software framework. ++//* 01/31/2003 J. Bergsagel Made debug targets to be for the FPGA platform; non-debug for Sangam. ++//* Turned off DUAL_TEQ, PHY_EC_ENABLE and PHY_PATH_ENABLE by default ++//* for the Sangam (non-debug) targets. ++//* Turned off OLAYDP token by default. ++//* Turned off SWTC and turned on ATM_TC_HW by default for Sangam targets. ++//* 01/29/2003 Sameer V Added ATMBERT_HW token for Sangam. ++//* 02/04/2003 D. Mannering Added CO_PROFILE token ++//* 02/19/2003 Sameer V Added back EXTERNBERT token for ar0700mp_dp and ar0700db_dp targets. ++//* Disabled EXTERNBERT for debug target since it is not supported on the ++//* FPGA platform. ++//* 02/21/2003 A. Redfern Turned off OAM_EOC, AOC and BITSWAP (until memory issues are resolved). ++//* Turned on DUAL_TEQ, PHY_PATH_ENABLE and PHY_EC_ENABLE. ++//* 02/21/2003 D. Mannering Added DEBUG_DUMP. ++//* 03/06/2003 J. Bergsagel Cleaned up tokens for each target and switched diag targets ++//* over to the Sangam platform (instead of the FPGA platform). ++//* 03/07/2003 J. Bergsagel Cleaned up TC and BERT tokens ++//* 03/11/2003 J. Bergsagel Turned on AOC and BITSWAP for Sangam POTS and ISDN targets. ++//* 03/20/2003 Mallesh Added SHALF token. ++//* 03/24/2003 F. Mujica Enable hybrid selection ++//* 03/26/2003 A. Redfern Removed PMEMSAVE_GHS (always = 1). ++//* 04/08/2003 F. Mujica Renamed HYBRID_SWITCH token to PHY_HYB_ENABLE ++//* 04/08/2003 J. Bergsagel Turned off PHY_HYB_ENABLE for _debug targets (FPGA board builds) ++//* 04/09/2003 J. Bergsagel Turned on OLAYDP only for ar0700mp and ar0700db. ++//* Turned on AOC, BITSWAP, and OAM_EOC for ar0700mp and ar0700db. ++//* 04/09/2003 J. Bergsagel Corrected name "PHY_HYB_SELECT" to "PHY_HYB_ENABLE" ++//* 04/15/2003 A. Redfern Turned on ECI_PULSECOM_INTEROP because phase optimization was enabled. ++//* 05/05/2003 D. Mannering Review Comments - turn on AOC, EXTERNBERT, SHALF, for ar0700mp; amd ++//* turn on AOC for ar0700db ++//* 05/11/2003 Prashant S Added DMT_BIS token for AR7 Soft DI work ++//* 05/13/2003 J. Bergsagel Turned on IMPROVED_STAT_SUPPORT_06_03_00 by default for necessary statistics ++//* 05/15/2003 J. Bergsagel Turned off CO_PROFILE for diag targets. ++//* 05/27/2003 U.Dasgupta Added NLNOISEADJSNR_EC token for ISDN - to take care of non-linear noise ++//* (from ISDN splitter) compensation. ++//* 06/02/2003 Z. Yang Added PHY_NDIAG_ENABLE token. ++//* 06/02/2003 Z. Yang Added COMB_LINEDIAG_ENABLE token. ++//* 06/05/2003 P. Hunt Turned on ATUC_CLEARDOWN_CHANGE token for all targets. ++//* 06/05/2003 Mallesh Turned on CENTILLIUM_VENDORID_AND_TXRATE_CHNG to enable logging the vendor ID ++//* for centillium and litespan ++//* 06/05/2003 U.Dasgupta Turned on SHALF token for ISDN. ++//* 06/06/2003 U.Dasgupta Turned on G.hs nonstandard field token for ar0700db target. ++//* 06/12/2003 J. Bergsagel Changed *_debug targets to be for JTAG=1 instead of FPGA targets ++//* IMPORTANT: For non-JTAG cases, "JTAG" should be undefined. ++//* Therefore, "JTAG" should not have a default case at the bottom (JTAG 0) ++//* 06/18/2003 A. Redfern Turned on spectral shaping token for all targets. ++//* 06/23/2003 J. Bergsagel Turned off GHS_NON_STD_FIELD token for ar0700db until bugs are fixed. ++//* 06/23/2003 U G Jani Undid the above change since the bug is fixed. ++//* 06/27/2003 Mallesh Removed all the interop tokens which are no longer required. ++//* 08/20/2003 J. Bergsagel Added default value for OVHD_PMDTEST_PARA and put default section ++//* tokens in alphabetical order. ++//* 10/09/2003 Hanyu Liu Defined token ADSL2_1BIT_TONE to support Rx one bit constellation. ++//* 10/12/2003 Hanyu Liu Defined token ADSL2_BSWP for bitswap. ++//* 10/20/2003 Xiaohui Li Added READSL2_ENABLE token. ++//* 12/01/2003 Seungmok Oh Added TXDF2B_PROFILING token, which is active only for POTS target. ++//* 12/09/2003 Jack Huang Turned on GHS_NON_STD_FIELD support for AR7 POTS targets ++//* 12/16/2003 Mustafa T. Added the necessary definitions for diag target. ++//***************************************************************************************************** ++//* ++//* The default flag settings are: ++//* ++//* -dATUC=1 -dSTD=0 -dISDN=0 -dTIPCI=0 -dTID=0 -dTII=0 -dAI=0 ++//* -dEVM2=0 -dEU=0 -dSL=0 -dSL_EVM=1 -dGLITE=0 ++//* ++//* and are set after all the per-suffix options have had a chance to ++//* set them. Each flag is only set if it has not previously been set, so ++//* per-suffix settings can override defaults, and command-line defines can ++//* override per-suffix settings. ++//* ++//***************************************************************************** ++ ++ ++//* =========================================================================== ++//* Suffix codes ++//* The command-line can include -dOBJSFX_xxx to get a flag set ++//* instead of explicitly setting each flag on each CC/ASM command-line. ++//* and the object suffix will control the settings of "feature" constants. ++//* =========================================================================== ++// ++//* =========================================================================== ++// Flag settings for new suffixes (in alphabetical order of suffix) ++// Each suffix has to specify only those flags which differ from the ++// default settings. ++//* =========================================================================== ++// NOTE: Try to keep feature flags in alphabetical order to ease maintenance. ++//* =========================================================================== ++//* ++ ++#define CHIPSET_ID_UNKN '?' ++#define CHIPSET_ID_AH 'H' ++#define CHIPSET_ID_AP 'P' ++#define CHIPSET_ID_AR 'R' ++#define CHIPSET_ID_ARV 'R' ++#define CHIPSET_ID_AT 'T' ++#define CHIPSET_ID_AU 'U' ++ ++#define CHIPSET_ID2_GENERIC '0' ++#define CHIPSET_ID2_ARV 'R' ++ ++ #define DSPDP_IMAGE_ID_STANDARD(code) ( \ ++ STANDARD_is_MULTIMODE(code) ? "M" : \ ++ STANDARD_is_GDMT(code) ? "D" : \ ++ STANDARD_is_GLITE(code) ? "L" : \ ++ STANDARD_is_T1413(code) ? "T" : "_") ++ ++ #define DSPDP_IMAGE_ID_SERVICE(code) ( \ ++ SERVICE_is_POTS(code) ? "P" : \ ++ SERVICE_is_ISDN_ANNEXB(code) ? "B" : \ ++ SERVICE_is_ISDN_ANNEXC(code) ? "C" : \ ++ SERVICE_is_ISDN_PROP(code) ? "I" : "") ++ ++// Bit-codes for feature byte in new version. ++// ++// 0000 0000 ++// |||| |||| ++// |||| |||+ -- POTS ++// |||| ||+---- ISDN_ANNEXB ++// |||| |+----- ISDN_ANNEXC ++// |||| +------ ISDN_PROP ++// |||+-------- ++// ||+--------- GHS ++// |+---------- GLITE ++// +----------- T1413 ++// ++// ++#define FEATURE_BIT_T1413 0x80 ++#define FEATURE_BIT_GLITE 0x40 ++#define FEATURE_BIT_GHS 0x20 ++#define FEATURE_BIT_ISDN_PROP 0x08 ++#define FEATURE_BIT_ISDN_ANNEXC 0x04 ++#define FEATURE_BIT_ISDN_ANNEXB 0x02 ++#define FEATURE_BIT_POTS 0x01 ++ ++#define STANDARD_BITS_MASK (FEATURE_BIT_T1413 | FEATURE_BIT_GLITE | FEATURE_BIT_GHS) ++#define STANDARD_BITS_T1413 FEATURE_BIT_T1413 ++#define STANDARD_BITS_GHS FEATURE_BIT_GHS ++#define STANDARD_BITS_GLITE (FEATURE_BIT_GLITE | FEATURE_BIT_GHS) ++#define STANDARD_BITS_GDMT (STANDARD_BITS_T1413 | STANDARD_BITS_GHS) ++#define STANDARD_BITS_MULTIMODE (STANDARD_BITS_T1413 | STANDARD_BITS_GLITE | STANDARD_BITS_GDMT) ++ ++#define SERVICE_BIT_ISDN_ANNEXB FEATURE_BIT_ISDN_ANNEXB ++#define SERVICE_BIT_ISDN_ANNEXC FEATURE_BIT_ISDN_ANNEXC ++#define SERVICE_BIT_ISDN_PROP FEATURE_BIT_ISDN_PROP ++#define SERVICE_BIT_POTS FEATURE_BIT_POTS ++ ++// ++// Debug new-style suffixes ++// ++// ++ ++#if defined(OBJSFX_ar0700db_debugobj) ++#ifndef OBJSFX_ar0700dbobj ++#define OBJSFX_ar0700dbobj 1 ++#endif ++// Here, in alphabetic order, are the feature tokens that ++// distinguish this suffix from its non-_debug partner: ++// (All other tokens from the non-_debug partner that are non-conflicting will also be picked up) ++ ++#ifndef JTAG ++#define JTAG 1 ++#endif ++ ++#elif defined(OBJSFX_ar0700mp_debugobj) ++#ifndef OBJSFX_ar0700mpobj ++#define OBJSFX_ar0700mpobj 1 ++#endif ++// Here, in alphabetic order, are the feature tokens that ++// distinguish this suffix from its non-_debug partner: ++// (All other tokens from the non-_debug partner that are non-conflicting will also be picked up) ++ ++#ifndef ADSL2_BSWP ++#define ADSL2_BSWP 1 ++#endif ++#ifndef AOC ++#define AOC 1 ++#endif ++#ifndef BITSWAP ++#define BITSWAP 1 ++#endif ++#ifndef DEBUG_ADSL2 ++#define DEBUG_ADSL2 0 ++#endif ++#ifndef DEBUG_LOG ++#define DEBUG_LOG 0 ++#endif ++#ifndef GHS_NON_STD_FIELD ++#define GHS_NON_STD_FIELD 1 ++#endif ++#ifndef JTAG ++#define JTAG 1 ++#endif ++#endif // end of the series of "#elif defined" for debug targets ++ ++ ++// ++// Standard new-style suffixes for operational and mfgr'ing diag. ++// ++ ++#if defined(OBJSFX_ar0700dbobj) ++#define CHIPSET_AR07 1 ++#define PLATFORM_AR0700 1 ++#define DSPDP_CHIPSET_ID CHIPSET_ID_AR ++#define DSPDP_CHIPSET_ID2 CHIPSET_ID2_GENERIC ++#define DSPDP_CHIPSET_GEN 7 ++#define DSPDP_HARDWARE_REV1 '0' ++#define DSPDP_HARDWARE_REV2 '0' ++#define DSPDP_FEATURE_CODE (STANDARD_BITS_GDMT|SERVICE_BIT_ISDN_ANNEXB) ++#ifndef AOC ++#define AOC 1 ++#endif ++// ATM_TC_HW and SWTC are mutually exclusive ++#ifndef ATM_TC_HW ++#define ATM_TC_HW 1 ++#endif ++#ifndef SWTC ++#define SWTC 0 ++#endif ++#ifndef BITSWAP ++#define BITSWAP 1 ++#endif ++#ifndef EXTERNBERT ++#define EXTERNBERT 0 ++#endif ++#ifndef GHS_NON_STD_FIELD ++#define GHS_NON_STD_FIELD 1 ++#endif ++#ifndef MARGIN_DELTA_RETRAIN ++#define MARGIN_DELTA_RETRAIN 0 ++#endif ++#ifndef NLNOISEADJSNR_EC ++#define NLNOISEADJSNR_EC 1 ++#endif ++#ifndef OLAYDP ++#define OLAYDP 1 ++#endif ++#ifndef SHALF ++#define SHALF 1 ++#endif ++ ++ ++#elif defined(OBJSFX_ar0700db_diagobj) ++#define CHIPSET_AR07 1 ++#define PLATFORM_AR0700 1 ++#define DSPDP_CHIPSET_ID CHIPSET_ID_AR ++#define DSPDP_CHIPSET_ID2 CHIPSET_ID2_GENERIC ++#define DSPDP_CHIPSET_GEN 7 ++#define DSPDP_HARDWARE_REV1 '0' ++#define DSPDP_HARDWARE_REV2 '0' ++#define DSPDP_FEATURE_CODE (STANDARD_BITS_GDMT|SERVICE_BIT_ISDN_ANNEXB) ++#ifndef AOC ++#define AOC 0 ++#endif ++// ATM_TC_HW and SWTC are mutually exclusive (or both must be off) ++#ifndef ATM_TC_HW ++#define ATM_TC_HW 0 ++#endif ++#ifndef SWTC ++#define SWTC 0 ++#endif ++#ifndef BITSWAP ++#define BITSWAP 0 ++#endif ++#ifndef CO_PROFILE ++#define CO_PROFILE 0 ++#endif ++#ifndef MARGIN_DELTA_RETRAIN ++#define MARGIN_DELTA_RETRAIN 0 ++#endif ++#ifndef MFGR_DIAG ++#define MFGR_DIAG 1 ++#endif ++#ifndef OAM_EOC ++#define OAM_EOC 0 ++#endif ++#ifndef OLAYDP ++#define OLAYDP 0 ++#endif ++#ifndef SNR_UPDATE ++#define SNR_UPDATE 0 ++#endif ++ ++#elif defined(OBJSFX_ar0700mpobj) ++#define CHIPSET_AR07 1 ++#define PLATFORM_AR0700 1 ++#define DSPDP_CHIPSET_ID CHIPSET_ID_AR ++#define DSPDP_CHIPSET_ID2 CHIPSET_ID2_GENERIC ++#define DSPDP_CHIPSET_GEN 7 ++#define DSPDP_HARDWARE_REV1 '0' ++#define DSPDP_HARDWARE_REV2 '0' ++#define DSPDP_FEATURE_CODE (STANDARD_BITS_MULTIMODE|SERVICE_BIT_POTS) ++#ifndef AOC ++#define AOC 1 ++#endif ++// ATM_TC_HW and SWTC are mutually exclusive ++#ifndef ADSL2_1BIT_TONE ++#define ADSL2_1BIT_TONE 0 ++#endif ++#ifndef ADSL2_BSWP ++#define ADSL2_BSWP 1 ++#endif ++#ifndef ATM_TC_HW ++#define ATM_TC_HW 1 ++#endif ++#ifndef SWTC ++#define SWTC 0 ++#endif ++#ifndef BITSWAP ++#define BITSWAP 1 ++#endif ++#ifndef EXTERNBERT ++#define EXTERNBERT 0 ++#endif ++#ifndef OLAYDP ++#define OLAYDP 1 ++#endif ++#ifndef DMT_BIS ++#define DMT_BIS 1 ++#endif ++#ifndef SHALF ++#define SHALF 1 ++#endif ++#ifndef MEM_STR ++#define MEM_STR 0 ++#endif ++#ifndef DS_LOOP_BACK ++#define DS_LOOP_BACK 0 ++#endif ++#ifndef LOOP_BACK_DEBUG ++#define LOOP_BACK_DEBUG 0 ++#endif ++#ifndef US_LOOP_BACK ++#define US_LOOP_BACK 0 ++#endif ++#ifndef OVHD_PMDTEST_PARA ++#define OVHD_PMDTEST_PARA 0 ++#endif ++#ifndef DS_RX_CODEWORD ++#define DS_RX_CODEWORD 1 ++#endif ++#ifndef READSL2_ENABLE ++#define READSL2_ENABLE 1 ++#endif ++#ifndef GHS_NON_STD_FIELD ++#define GHS_NON_STD_FIELD 1 ++#endif ++ ++#elif defined(OBJSFX_ar0700mp_diagobj) ++#define CHIPSET_AR07 1 ++#define PLATFORM_AR0700 1 ++#define DSPDP_CHIPSET_ID CHIPSET_ID_AR ++#define DSPDP_CHIPSET_ID2 CHIPSET_ID2_GENERIC ++#define DSPDP_CHIPSET_GEN 7 ++#define DSPDP_HARDWARE_REV1 '0' ++#define DSPDP_HARDWARE_REV2 '0' ++#define DSPDP_FEATURE_CODE (STANDARD_BITS_MULTIMODE|SERVICE_BIT_POTS) ++#ifndef ADSL2_BSWP ++#define ADSL2_BSWP 0 ++#endif ++#ifndef AOC ++#define AOC 0 ++#endif ++// ATM_TC_HW and SWTC are mutually exclusive (or both must be off) ++#ifndef ATM_TC_HW ++#define ATM_TC_HW 0 ++#endif ++#ifndef SWTC ++#define SWTC 0 ++#endif ++#ifndef BITSWAP ++#define BITSWAP 0 ++#endif ++#ifndef CO_PROFILE ++#define CO_PROFILE 0 ++#endif ++#ifndef DMT_BIS ++#define DMT_BIS 0 ++#endif ++#ifndef MARGIN_DELTA_RETRAIN ++#define MARGIN_DELTA_RETRAIN 0 ++#endif ++#ifndef MFGR_DIAG ++#define MFGR_DIAG 1 ++#endif ++#ifndef OAM_EOC ++#define OAM_EOC 0 ++#endif ++#ifndef OLAYDP ++#define OLAYDP 0 ++#endif ++#ifndef SNR_UPDATE ++#define SNR_UPDATE 0 ++#endif ++#ifndef US_CRC_RETRAIN ++#define US_CRC_RETRAIN 0 ++#endif ++#ifndef ADSL2_BSWP ++#define ADSL2_BSWP 0 ++#endif ++#ifndef DMT_BIS ++#define DMT_BIS 0 ++#endif ++#ifndef DS_RX_CODEWORD ++#define DS_RX_CODEWORD 0 ++#endif ++ ++#else ++#define DSPDP_CHIPSET_ID CHIPSET_ID_UNKN ++#define DSPDP_CHIPSET_ID2 CHIPSET_ID2_GENERIC ++#define DSPDP_CHIPSET_GEN 0 ++#define DSPDP_HARDWARE_REV1 '0' ++#define DSPDP_HARDWARE_REV2 '0' ++#define DSPDP_FEATURE_CODE 0 ++#endif ++ ++// For use in checking the code in drivers -- indented to avoid .h->.ah ++ #define STANDARD_is_T1413(code) (!(((code) & STANDARD_BITS_MASK) ^ STANDARD_BITS_T1413)) ++ #define STANDARD_is_GLITE(code) (!(((code) & STANDARD_BITS_MASK) ^ STANDARD_BITS_GLITE)) ++ #define STANDARD_is_GHS(code) (((code) & STANDARD_BITS_MASK) & STANDARD_BITS_GHS) ++ #define STANDARD_is_GDMT(code) (!(((code) & STANDARD_BITS_MASK) ^ (STANDARD_BITS_T1413 | STANDARD_BITS_GHS))) ++ #define STANDARD_is_MULTIMODE(code) (!(((code) & STANDARD_BITS_MASK) ^ (STANDARD_BITS_T1413 | STANDARD_BITS_GLITE | STANDARD_BITS_GDMT))) ++ #define SERVICE_is_POTS(code) ((code) & SERVICE_BIT_POTS) ++ #define SERVICE_is_ISDN_ANNEXB(code) ((code) & SERVICE_BIT_ISDN_ANNEXB) ++ #define SERVICE_is_ISDN_ANNEXC(code) ((code) & SERVICE_BIT_ISDN_ANNEXC) ++ #define SERVICE_is_ISDN_PROP(code) ((code) & SERVICE_BIT_ISDN_PROP) ++ ++#define STANDARD_T1413 (!((DSPDP_FEATURE_CODE & STANDARD_BITS_MASK) ^ STANDARD_BITS_T1413)) ++#define STANDARD_GLITE (!((DSPDP_FEATURE_CODE & STANDARD_BITS_MASK) ^ STANDARD_BITS_GLITE)) ++#define STANDARD_GHS ((DSPDP_FEATURE_CODE & STANDARD_BITS_MASK) & STANDARD_BITS_GHS) ++#define STANDARD_GDMT (!((DSPDP_FEATURE_CODE & STANDARD_BITS_MASK) ^ (STANDARD_BITS_T1413 | STANDARD_BITS_GHS))) ++#define STANDARD_MULTIMODE (!((DSPDP_FEATURE_CODE & STANDARD_BITS_MASK) ^ (STANDARD_BITS_T1413 | STANDARD_BITS_GLITE | STANDARD_BITS_GDMT))) ++ ++#define SERVICE_POTS (DSPDP_FEATURE_CODE & SERVICE_BIT_POTS) ++#define SERVICE_ISDN_ANNEXB (DSPDP_FEATURE_CODE & SERVICE_BIT_ISDN_ANNEXB) ++#define SERVICE_ISDN_ANNEXC (DSPDP_FEATURE_CODE & SERVICE_BIT_ISDN_ANNEXC) ++#define SERVICE_ISDN_PROP (DSPDP_FEATURE_CODE & SERVICE_BIT_ISDN_PROP) ++#define SERVICE_ISDN (SERVICE_ISDN_ANNEXB | SERVICE_ISDN_ANNEXC | SERVICE_ISDN_PROP) ++ ++ ++// ++// Backwards compatibility with old tokens ++// ++ ++#if (SERVICE_POTS) ++#ifndef ISDN ++#define ISDN 0 ++#endif ++#endif ++ ++#if (SERVICE_ISDN_ANNEXB | SERVICE_ISDN_PROP) ++#ifndef ISDN ++#define ISDN 1 ++#endif ++#endif ++ ++ ++// ++//* =========================================================================== ++// More Default settings ++//* =========================================================================== ++// ++ ++// ++// BEGIN Could automatically generate showdefs code ++// ++#ifndef AOC ++#define AOC 1 ++#endif ++#ifndef ARTT ++#define ARTT 0 ++#endif ++#ifndef ATMBERT ++#define ATMBERT 0 ++#endif ++// ATM_TC_HW and SWTC are mutually exclusive ++#ifndef ATM_TC_HW ++#define ATM_TC_HW 1 ++#endif ++#if ATM_TC_HW ++#ifndef ATMBERT_HW ++#define ATMBERT_HW 1 ++#endif ++#ifndef SWTC ++#define SWTC 0 ++#endif ++#else // else case for #if ATM_TC_HW ++#ifndef ATMBERT_HW ++#define ATMBERT_HW 0 ++#endif ++#ifndef SWTC ++#define SWTC 1 ++#endif ++#endif // end of #if ATM_TC_HW ++#ifndef ATM_TC_PATH1_ON ++#define ATM_TC_PATH1_ON 0 ++#endif ++#ifndef BITSWAP ++#define BITSWAP 1 ++#endif ++#ifndef COMB_LINEDIAG_ENABLE ++#define COMB_LINEDIAG_ENABLE 0 ++#endif ++#ifndef CODEC_EMU ++#define CODEC_EMU 0 ++#endif ++#ifndef CO_PROFILE ++#define CO_PROFILE 1 ++#endif ++#ifndef DDC ++#define DDC 0 ++#endif ++#ifndef DEBUG_ADSL2 ++#define DEBUG_ADSL2 0 ++#endif ++#ifndef DEBUG_DUMP ++#define DEBUG_DUMP 0 ++#endif ++#ifndef DEBUG_LOG ++#define DEBUG_LOG 0 ++#endif ++#ifndef DEV_DEBUG ++#define DEV_DEBUG 0 ++#endif ++#ifndef DS_LOOP_BACK ++#define DS_LOOP_BACK 0 ++#endif ++#ifndef DS_RX_CODEWORD ++#define DS_RX_CODEWORD 1 ++#endif ++#ifndef LOOP_BACK_DEBUG ++#define LOOP_BACK_DEBUG 0 ++#endif ++#ifndef US_LOOP_BACK ++#define US_LOOP_BACK 0 ++#endif ++#ifndef DPLL_MODE ++#define DPLL_MODE 0 ++#endif ++#ifndef DSPBIOSII ++#define DSPBIOSII 0 ++#endif ++#ifndef DMT_BIS ++#define DMT_BIS 1 ++#endif ++#ifndef ADSL2_1BIT_TONE ++#define ADSL2_1BIT_TONE 0 ++#endif ++#ifndef ADSL2_BSWP ++#define ADSL2_BSWP 1 ++#endif ++#ifndef MEM_STR ++#define MEM_STR 0 ++#endif ++#ifndef DS_PWR_CUTBACK ++#define DS_PWR_CUTBACK 0 ++#endif ++#ifndef DUAL_TEQ ++#define DUAL_TEQ 1 ++#endif ++#ifndef EXTERNBERT ++#define EXTERNBERT 0 ++#endif ++#ifndef FPGA ++#define FPGA 0 ++#endif ++#ifndef INBAND ++#define INBAND 0 ++#endif ++#ifndef ISDN ++#define ISDN 0 ++#endif ++#ifndef ISDN_DEBUG ++#define ISDN_DEBUG 0 ++#endif ++#ifndef LINE_DIAG ++#define LINE_DIAG 1 ++#endif ++#ifndef LOOP_BACK_DEBUG ++#define LOOP_BACK_DEBUG 0 ++#endif ++#ifndef MANUFACTURING_TESTS ++#define MANUFACTURING_TESTS 0 ++#endif ++#ifndef MARGIN_DELTA_RETRAIN ++#define MARGIN_DELTA_RETRAIN 1 ++#endif ++#ifndef MEM_STR ++#define MEM_STR 0 ++#endif ++#ifndef MFGR_DIAG ++#define MFGR_DIAG 0 ++#endif ++#ifndef NLNOISEADJSNR ++#define NLNOISEADJSNR 0 ++#endif ++#ifndef NLNOISEADJSNR_EC ++#define NLNOISEADJSNR_EC 0 ++#endif ++#ifndef NTR_MODE ++#define NTR_MODE 0 ++#endif ++#ifndef OAM_EOC ++#define OAM_EOC 1 ++#endif ++#ifndef OLAYDP ++#define OLAYDP 0 ++#endif ++#ifndef OLAYDP_EMIF ++#define OLAYDP_EMIF 0 ++#endif ++#ifndef OLAYDP_2STEP ++#define OLAYDP_2STEP 0 ++#endif ++#ifndef OLAYDP_PCI ++#define OLAYDP_PCI 0 ++#endif ++#ifndef OUTBAND ++#define OUTBAND 0 ++#endif ++#ifndef OVHD_PMDTEST_PARA ++#define OVHD_PMDTEST_PARA 0 ++#endif ++#ifndef PERTONE_EQ ++#define PERTONE_EQ 0 ++#endif ++#ifndef PHY_EC_ENABLE ++#define PHY_EC_ENABLE 1 ++#endif ++#ifndef PHY_HYB_ENABLE ++#define PHY_HYB_ENABLE 1 ++#endif ++#ifndef PHY_NDIAG_ENABLE ++#define PHY_NDIAG_ENABLE 0 ++#endif ++#ifndef PHY_PATH_ENABLE ++#define PHY_PATH_ENABLE 1 ++#endif ++#ifndef PHY_TDW_ENABLE ++#define PHY_TDW_ENABLE 0 ++#endif ++#ifndef TC_ATM_PCIMASTER ++#define TC_ATM_PCIMASTER 0 ++#endif ++#ifndef SEPARATE_TX_RX_BUFFERS ++#define SEPARATE_TX_RX_BUFFERS 0 ++#endif ++#ifndef SHALF ++#define SHALF 0 ++#endif ++#ifndef SPECTRAL_SHAPING ++#define SPECTRAL_SHAPING 1 ++#endif ++#ifndef SNR_UPDATE ++#define SNR_UPDATE 1 ++#endif ++#ifndef TC_DEBUG ++#define TC_DEBUG 0 ++#endif ++#ifndef TC_LOOPBACK ++#define TC_LOOPBACK 0 ++#endif ++#ifndef TESTMODE ++#define TESTMODE 0 ++#endif ++#ifndef TRELLIS ++#define TRELLIS 1 ++#endif ++#ifndef TXDF2B_PROFILING ++#if (SERVICE_POTS & (!MFGR_DIAG) & (CO_PROFILE)) ++#define TXDF2B_PROFILING 1 ++#else ++#define TXDF2B_PROFILING 0 ++#endif ++#endif ++#ifndef US_CRC_RETRAIN ++#define US_CRC_RETRAIN 1 ++#endif ++#ifndef US_LOOP_BACK ++#define US_LOOP_BACK 0 ++#endif ++#ifndef USB ++#define USB 0 ++#endif ++#ifndef READSL2_ENABLE ++#define READSL2_ENABLE 1 ++#endif ++ ++// Interop tokens ++#ifndef GHS_NON_STD_FIELD ++#define GHS_NON_STD_FIELD 0 ++#endif ++#ifndef LUCENT_ANYMEDIA_ENIATT_INTEROP ++#define LUCENT_ANYMEDIA_ENIATT_INTEROP 0 ++#endif ++ ++ ++// ++// END Could automatically generate showdefs code ++// ++#if DSPDP_FEATURE_CODE ++#else ++// Unrecognized_suffix____check_spelling ++#endif ++// ++// LNK_CMD is set when running CPP to generate lnk_cpe.cmd file ++// -- the linker is not happy when it sees C code show up in the ++// result! ++// ++#ifndef LNK_CMD ++extern int compile_happy; // Keep the compiler from complaining about an empty file ++#endif ++ ++#endif ++ +diff -urN linux.old/drivers/atm/sangam_atm/env_def_typedefs.h linux.dev/drivers/atm/sangam_atm/env_def_typedefs.h +--- linux.old/drivers/atm/sangam_atm/env_def_typedefs.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/env_def_typedefs.h 2005-08-23 04:46:50.104842632 +0200 +@@ -0,0 +1,228 @@ ++#ifndef __ENV_DEF_TYPEDEFS_H__ ++#define __ENV_DEF_TYPEDEFS_H__ 1 ++ ++/******************************************************************************* ++* FILE PURPOSE: Define data types for C and TMS320C6x C compilers ++******************************************************************************** ++* ++* FILE NAME: dpsys_typedefs.h ++* ++* DESCRIPTION: ++* This file contains the main typedefs that we need. ++* ++* HISTORY: ++* ++* 03/11/97 Bob Lee Created ++* 03/13/97 Chishtie ++* 03/14/97 Bob Lee Format change to meet "Engineering Model ++* - System Architucture Specification" ++* Rev AP3. Jan. 29, 1997 ++* 07/21/00 Barnett Moved many common typedefs from ++* host i/f header file to here. ++* 03/30/01 Barnett Mod's per driver team feedback. ++* Some tokens cannot be def'ed ++* if _WINDEF_ is def'ed. ++* 04/05/01 Barnett Added DSPDP_ prefix to tokens that originate ++* in the public interface. ++* 06/01/01 J. Bergsagel Modified to add standard typedefs ++* 07/25/01 J. Bergsagel Changed name from typedefs.h to dpsys_typedefs.h ++* 07/30/01 J. Bergsagel Moved typedefs that were conflicting with Windows ++* driver software to the "#ifndef _WINDEF_" section. ++* 08/09/01 S. Yim Moved FALSE/TRUE definitions from ctl_interface_u.h ++* (conflict with BIOS/std.h) ++* 09/03/01 S. Yim Do not include typedef char and float if _STD defined ++* (conflict with BIOS/std.h) ++* 01/21/03 MCB Implemented Ax7 UNIT-MODULE modular software framework. ++* 03/20/03 Mallesh Defined size of basic variables ++* 03/27/03 F. Mujica Added SINT40 and UINT40 definitions. ++* ++* (C) Copyright Texas Instruments Inc. 1997-2001. All rights reserved. ++*******************************************************************************/ ++ ++// Common type definitions ++ ++// Basic constants needed everywhere ++#ifndef STD_ ++#define FALSE 0 ++#define TRUE 1 ++#endif ++ ++// Read-Write Data Types ++typedef signed char SINT8; // Signed 8-bit integer (7-bit magnitude) ++typedef unsigned char UINT8; // Unsigned 8-bit integer ++typedef signed short SINT16; // Signed 16-bit integer (15-bit magnitude) ++typedef unsigned short UINT16; // Unsigned 16-bit integer ++typedef signed int SINT32; // Signed 32-bit integer (31-bit magnitude) ++typedef unsigned int UINT32; // Unsigned 32-bit integer ++typedef long signed int SINT40; // Long signed 40-bit integer ++typedef long unsigned int UINT40; // Long unsigned 40-bit integer ++ ++// All pointers are 32 bits long ++typedef SINT8 *PSINT8; // Pointer to SINT8 ++typedef UINT8 *PUINT8; // Pointer to UINT8 ++typedef SINT16 *PSINT16; // Pointer to SINT16 ++typedef UINT16 *PUINT16; // Pointer to UINT16 ++typedef SINT32 *PSINT32; // Pointer to SINT32 ++typedef UINT32 *PUINT32; // Pointer to UINT32 ++ ++#define SIZEOF_SINT8 1 ++#define SIZEOF_UINT8 1 ++#define SIZEOF_SINT16 2 ++#define SIZEOF_UINT16 2 ++#define SIZEOF_SINT32 4 ++#define SIZEOF_UINT32 4 ++#define SIZEOF_SINT40 8 ++#define SIZEOF_UINT40 8 ++ ++// Size of Read-Write Data Types - in bytes ++#define SIZEOF_char 1 ++#define SIZEOF_Int8 1 ++#define SIZEOF_UChar 1 ++#define SIZEOF_UInt8 1 ++#define SIZEOF_Float 4 ++#define SIZEOF_Double 8 ++#define SIZEOF_byte 1 ++ ++// Read-Only Data Types - should be only used for ROM code ++typedef const char CharRom; // 8 bit signed character ++typedef const signed char Int8Rom; // 8 bit signed integer ++typedef const unsigned char UCharRom; // 8 bit unsigned character ++typedef const unsigned char UInt8Rom; // 8 bit unsigned integer ++typedef const float FloatRom; // IEEE 32-bit ++typedef const double DoubleRom; // IEEE 64-bit ++ ++#ifndef _WINDEF_ ++ ++// Read-Write Data Types ++typedef signed char Int8; // 8 bit signed integer ++typedef unsigned char UChar; // 8 bit unsigned character ++typedef unsigned char UInt8; // 8 bit unsigned integer ++#ifndef STD_ ++typedef char Char; // 8 bit signed character ++typedef float Float; // IEEE 32-bit ++#endif ++typedef double Double; // IEEE 64-bit ++typedef signed char byte; // 8 bit signed integer ++ ++ ++// These typedefs collide with those in Win2k DDK inc\WINDEF.H ++ ++// common type definition ++typedef unsigned char BYTE; // 8-bit ++typedef signed short SHORT; // 16-bit signed ++typedef unsigned short WORD; // 16-bit ++typedef unsigned int DWORD; // 32-bit, TI DSP has 40 bit longs ++ ++// All pointers are 32 bits long ++typedef BYTE *PBYTE; // pointer to 8 bit data ++typedef unsigned char *PCHAR; // pointer to 8 bit data ++typedef SHORT *PSHORT; // pointer to 16 bit data ++typedef WORD *PWORD; // pointer to 16 bit data ++typedef DWORD *PDWORD; // pointer to 32 bit data ++ ++#endif // #ifndef _WINDEF_ ++ ++ ++#define SIZEOF_BYTE 1 ++#define SIZEOF_SHORT 2 ++#define SIZEOF_WORD 2 ++#define SIZEOF_DWORD 4 ++#define SIZEOF_PCHAR 4 ++#define SIZEOF_PWORD 4 ++#define SIZEOF_PDWORD 4 ++ ++// Size of Read-Only Data Types - in bytes ++#define SIZEOF_CharRom 1 ++#define SIZEOF_Int8Rom 1 ++#define SIZEOF_UCharRom 1 ++#define SIZEOF_UInt8Rom 1 ++#define SIZEOF_FloatRom 4 ++#define SIZEOF_DoubleRom 8 ++ ++#define SIZEOF_complex_byte (2*SIZEOF_byte) ++#define SIZEOF_PTR_complex_byte 4 ++typedef struct { ++ byte re; ++ byte im; ++} complex_byte, *PTR_complex_byte; ++ ++#define SIZEOF_complex_short 4 ++#define SIZEOF_PTR_complex_short 4 ++typedef struct { ++ short re; ++ short im; ++} complex_short, *PTR_complex_short; ++ ++#define SIZEOF_complex_int 8 ++#define SIZEOF_PTR_complex_int 4 ++typedef struct { ++ int re; ++ int im; ++} complex_int, *PTR_complex_int; ++ ++typedef struct { ++ int high; ++ unsigned int low; ++} int64; ++ ++typedef struct { ++ int64 real; ++ int64 imag; ++} complex_int64; ++ ++#define SIZEOF_PVOID 4 ++typedef void *PVOID; // pointer to void ++ ++//* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ++ ++#if defined(_TMS320C6X) // TMS320C6xx type definitions ++ ++// Read-Write Data Types ++typedef short Int16; // 16 bit signed integer ++typedef unsigned short UInt16; // 16 bit unsigned integer ++typedef int Int32; // 32 bit signed integer ++typedef unsigned int UInt32; // 32 bit unsigned signed integer ++typedef long Long40; // 40 bit signed integer ++typedef unsigned long ULong40; // 40 bit unsigned signed integer ++ ++// Size of Read-Write Data Types - in bytes ++#define SIZEOF_Int16 2 ++#define SIZEOF_UInt16 2 ++#define SIZEOF_Int32 4 ++#define SIZEOF_UInt32 4 ++#define SIZEOF_Long40 5 ++#define SIZEOF_ULong40 5 ++ ++// Read-Only Data Types - should be only used for ROM code ++typedef const short Int16Rom; // 16 bit signed integer ++typedef const unsigned short UInt16Rom; // 16 bit unsigned integer ++typedef const int Int32Rom; // 32 bit signed integer ++typedef const unsigned int UInt32Rom; // 32 bit unsigned signed integer ++typedef const long Long40Rom; // 40 bit signed integer ++typedef const unsigned long ULong40Rom; // 40 bit unsigned signed integer ++ ++// Size of Read-Only Data Types - in bytes ++#define SIZEOF_Int16Rom 2 ++#define SIZEOF_UInt16Rom 2 ++#define SIZEOF_Int32Rom 4 ++#define SIZEOF_UInt32Rom 4 ++#define SIZEOF_Long40Rom 5 ++#define SIZEOF_ULong40Rom 5 ++ ++#else // 32 bits PC Host type definitions ++ ++// Read-Write Data Types ++typedef short Int16; // 16 bit signed integer ++typedef unsigned short UInt16; // 16 bit unsigned integer ++typedef int Int32; // 32 bit signed integer ++typedef unsigned int UInt32; // 32 bit unsigned integer ++ ++// Read-Only Data Types - should be only used for ROM code ++typedef const short Int16Rom; // 16 bit signed integer ++typedef const unsigned short UInt16Rom; // 16 bit unsigned integer ++typedef const int Int32Rom; // 32 bit signed integer ++typedef const unsigned int UInt32Rom; // 32 bit unsigned integer ++ ++#endif ++ ++#endif +diff -urN linux.old/drivers/atm/sangam_atm/Makefile linux.dev/drivers/atm/sangam_atm/Makefile +--- linux.old/drivers/atm/sangam_atm/Makefile 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/Makefile 2005-08-23 04:46:50.104842632 +0200 +@@ -0,0 +1,35 @@ ++# File: drivers/net/avalanche_cpmac/Makefile ++# ++# Makefile for the Linux network (CPMAC) device drivers. ++# ++ ++ ++O_TARGET := tiatm.o ++obj-$(CONFIG_MIPS_SANGAM_ATM) += tiatm.o ++list-multi := tiatm.o ++ ++tiatm-objs := tn7atm.o tn7dsl.o tn7sar.o dsl_hal_api.o dsl_hal_support.o cpsar.o aal5sar.o ++ ++EXTRA_CFLAGS += -DEL -I$(TOPDIR)/drivers/atm/sangam_atm -DPOST_SILICON -DCOMMON_NSP -DCONFIG_LED_MODULE -DDEREGISTER_LED -DNO_ACT ++ ++ifeq ($(ANNEX),B) ++EXTRA_CFLAGS += -DANNEX_B -DB ++else ++ifeq ($(ANNEX),C) ++EXTRA_CFLAGS += -DANNEX_C -DC ++else ++EXTRA_CFLAGS += -DANNEX_A -DP ++endif ++endif ++ ++ ++include $(TOPDIR)/Rules.make ++ ++tiatm.o: $(tiatm-objs) ++ $(LD) -r -o $@ $(tiatm-objs) ++ ++#avalanche_cpmac.o: $(avalanche_cpmac-objs) ++# $(LD) -r -o $@ $(avalanche_cpmac-objs) ++ ++clean: ++ rm -f core *.o *.a *.s +diff -urN linux.old/drivers/atm/sangam_atm/queue.h linux.dev/drivers/atm/sangam_atm/queue.h +--- linux.old/drivers/atm/sangam_atm/queue.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/queue.h 2005-08-23 04:46:50.104842632 +0200 +@@ -0,0 +1,167 @@ ++ ++#if !defined( __QUEUE_H__ ) ++#define __QUEUE_H__ ++ ++typedef spinlock_t OS_SPIN_LOCK; ++#define osFreeSpinLock(pLock) while(0) ++void osAcquireSpinLock(OS_SPIN_LOCK *pLock); ++void osReleaseSpinLock(OS_SPIN_LOCK *pLock); ++void osAllocateSpinLock(OS_SPIN_LOCK *pLock); ++ ++//#define osAcquireSpinLock(pLock) spin_lock(pLock) ++//#define osReleaseSpinLock(pLock) spin_unlock(pLock) ++//#define osAllocateSpinLock(pLock) spin_lock_init(pLock) ++ ++ ++typedef struct _TI_LIST_ENTRY { ++ struct _TI_LIST_ENTRY *Flink; ++ struct _TI_LIST_ENTRY *Blink; ++} TI_LIST_ENTRY, *PTI_LIST_ENTRY, TQE, *PTQE; ++ ++typedef struct _TIATM_LIST_ENTRY ++{ ++ TI_LIST_ENTRY Link; ++} TIATM_LIST_ENTRY, *PTIATM_LIST_ENTRY; ++ ++//------------------------------------------------------------------------- ++// QueueInitList -- Macro which will initialize a queue to NULL. ++//------------------------------------------------------------------------- ++#define QueueInitList(_L) (_L)->Link.Flink = (_L)->Link.Blink = (PTI_LIST_ENTRY)0; ++ ++//------------------------------------------------------------------------- ++// QueueEmpty -- Macro which checks to see if a queue is empty. ++//------------------------------------------------------------------------- ++#define QueueEmpty(_L) (QueueGetHead((_L)) == (PTIATM_LIST_ENTRY)0) ++ ++//------------------------------------------------------------------------- ++// QueueGetHead -- Macro which returns the head of the queue, but does not ++// remove the head from the queue. ++//------------------------------------------------------------------------- ++#define QueueGetHead(_L) ((PTIATM_LIST_ENTRY)((_L)->Link.Flink)) ++ ++#define QueueGetNext(Elem) ((PTIATM_LIST_ENTRY)((Elem)->Link.Flink)) ++ ++//------------------------------------------------------------------------- ++// QueuePushHead -- Macro which puts an element at the head of the queue. ++//------------------------------------------------------------------------- ++#define QueuePushHead(_L,_E) \ ++ if (!((_E)->Link.Flink = (_L)->Link.Flink)) \ ++ { \ ++ (_L)->Link.Blink = (PTI_LIST_ENTRY)(_E); \ ++ } \ ++(_L)->Link.Flink = (PTI_LIST_ENTRY)(_E); ++ ++//------------------------------------------------------------------------- ++// QueueRemoveHead -- Macro which removes the head of the head of queue. ++//------------------------------------------------------------------------- ++#define QueueRemoveHead(_L) \ ++{ \ ++ PTIATM_LIST_ENTRY ListElem; \ ++ if (ListElem = (PTIATM_LIST_ENTRY)(_L)->Link.Flink) \ ++ { \ ++ if(!((_L)->Link.Flink = ListElem->Link.Flink)) \ ++ (_L)->Link.Blink = (PTI_LIST_ENTRY) 0; \ ++ } \ ++} ++ ++//------------------------------------------------------------------------- ++// QueuePutTail -- Macro which puts an element at the tail (end) of the queue. ++//------------------------------------------------------------------------- ++#define QueuePutTail(_L,_E) \ ++{ \ ++ if ((_L)->Link.Blink) \ ++ { \ ++ ((PTIATM_LIST_ENTRY)(_L)->Link.Blink)->Link.Flink = (PTI_LIST_ENTRY)(_E); \ ++ (_L)->Link.Blink = (PTI_LIST_ENTRY)(_E); \ ++ } \ ++ else \ ++ { \ ++ (_L)->Link.Flink = \ ++ (_L)->Link.Blink = (PTI_LIST_ENTRY)(_E); \ ++ } \ ++ (_E)->Link.Flink = (PTI_LIST_ENTRY)0; \ ++} ++ ++//------------------------------------------------------------------------- ++// QueuePutTailWithLock -- Macro which puts an element at the tail (end) of ++// the queue, using spin lock. ++//------------------------------------------------------------------------- ++#define QueuePutTailWithLock(_L,_E, pLock) \ ++{ \ ++ osAcquireSpinLock(pLock); \ ++ if ((_L)->Link.Blink) \ ++ { \ ++ ((PTIATM_LIST_ENTRY)(_L)->Link.Blink)->Link.Flink = (PTI_LIST_ENTRY)(_E); \ ++ (_L)->Link.Blink = (PTI_LIST_ENTRY)(_E); \ ++ } \ ++ else \ ++ { \ ++ (_L)->Link.Flink = \ ++ (_L)->Link.Blink = (PTI_LIST_ENTRY)(_E); \ ++ } \ ++ (_E)->Link.Flink = (PTI_LIST_ENTRY)0; \ ++ osReleaseSpinLock(pLock); \ ++} ++ ++//------------------------------------------------------------------------- ++// QueueGetTail -- Macro which returns the tail of the queue, but does not ++// remove the tail from the queue. ++//------------------------------------------------------------------------- ++#define QueueGetTail(_L) ((PTIATM_LIST_ENTRY)((_L)->Link.Blink)) ++ ++//------------------------------------------------------------------------- ++// QueuePopHead -- Macro which will pop the head off of a queue (list), and ++// return it (this differs only from queueremovehead only in ++// the 1st line) ++//------------------------------------------------------------------------- ++#define QueuePopHead(_L) \ ++(PTIATM_LIST_ENTRY) (_L)->Link.Flink; QueueRemoveHead(_L); ++ ++#define QueueRemoveTail(_L) \ ++{ \ ++ PTIATM_LIST_ENTRY ListElem; \ ++ ListElem = (PTIATM_LIST_ENTRY)(_L)->Link.Flink; \ ++ if(ListElem == (PTIATM_LIST_ENTRY)(_L)->Link.Blink) \ ++ { \ ++ (_L)->Link.Flink = (_L)->Link.Blink = (PTI_LIST_ENTRY) 0; \ ++ } \ ++ else \ ++ { \ ++ while(ListElem->Link.Flink != (PTI_LIST_ENTRY)(_L)->Link.Blink) \ ++ { \ ++ ListElem = (PTIATM_LIST_ENTRY)ListElem->Link.Flink; \ ++ } \ ++ (_L)->Link.Blink = (PTI_LIST_ENTRY) ListElem; \ ++ ListElem->Link.Flink = (PTI_LIST_ENTRY)0; \ ++ } \ ++} ++ ++#define QueueRemoveItem(_L, Elem) \ ++{ \ ++ PTIATM_LIST_ENTRY ListElem; \ ++ ListElem = (PTIATM_LIST_ENTRY)(_L)->Link.Flink; \ ++ if(ListElem == Elem) \ ++ { \ ++ QueueRemoveHead(_L); \ ++ } \ ++ else \ ++ { \ ++ while(ListElem) \ ++ { \ ++ if(Elem == (PTIATM_LIST_ENTRY)ListElem->Link.Flink) \ ++ { \ ++ ListElem->Link.Flink = ((PTIATM_LIST_ENTRY)Elem)->Link.Flink; \ ++ if(Elem == (PTIATM_LIST_ENTRY)(_L)->Link.Blink) \ ++ (_L)->Link.Blink = (PTI_LIST_ENTRY) 0; \ ++ break; \ ++ } \ ++ ListElem = (PTIATM_LIST_ENTRY)ListElem->Link.Flink; \ ++ }\ ++ } \ ++ ((PTIATM_LIST_ENTRY)Elem)->Link.Flink = (PTI_LIST_ENTRY) 0; \ ++} ++ ++#define QueuePopTail(_L) \ ++((PTIATM_LIST_ENTRY)((_L)->Link.Blink)); QueueRemoveTail(_L); ++ ++#endif +diff -urN linux.old/drivers/atm/sangam_atm/release.txt linux.dev/drivers/atm/sangam_atm/release.txt +--- linux.old/drivers/atm/sangam_atm/release.txt 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/release.txt 2005-08-23 04:46:50.104842632 +0200 +@@ -0,0 +1,118 @@ ++This is release notes for AR7 Linux ATM driver. ++ ++version 04.02.04.00 ++------------------- ++ ++1. Corrected the conditional logic from logical AND to logical OR in the case ++ of check for DSL line down condition. This is to fix PPPoA crashing ++ problem when DSL line is unplugged. ++ ++version 04.02.03.00 ++------------------- ++1. Changed overlay page to static allocation. ++2. Added flag to stop TX during channel closing. ++3. Changed DMA memory allocation back to "GFP_ATOMIC" flag. ++ ++version 04.02.02.00 ++------------------- ++1. Changed DMA memory allocation from "GFP_ATOMIC" to "GFP_KERNEL" flag. ++2. Added "DoMask" setting for VBR channel setup. ++ ++version 04.02.01.01 ++------------------- ++1. Modified priority check scheme per SPTC request. ++ ++Version 04.02.01.00 ++------------------- ++1. Add check to skb->priority to place packets to either normal or priority queue. ++2. Add spin lock to increment and decrement of queued buffer number. ++ ++Version 04.02.00.00 ++------------------- ++Features: ++1. Add MBS and CDVT QoS support for ATM driver. ++2. Add "stop/start queue" for ToS application. ++3. Add Showtime margin retrain based on EOC message. ++4. Add EOC vendor ID customalization logic for Annex B. ++5. Supports D3 datapump. ++ ++Version 04.01.00.00 ++------------------- ++Re-release of 04.00.07.00 for D1.1 datapump. ++ ++Version 04.00.07.00 ++------------------- ++Features: ++1. Add marging retrain capability by setting following Adam2 Env. ++ setenv enable_margin_retrain 1 ++ setenv margin_threshold xx, xx is in half db, i.e., 10 means 5db. ++ ++Bugfixs: ++1. New PDSP firmware that fix the F5 OAM cell loopback probelm in Cisco DSLAM. ++ ++Version 04.00.06.00 ++------------------- ++1. ATM interrupt pacing is defauted to 2 interrupts/s. ++2. Rx Service MAX changed ftom 16 to 8. ++ ++Version 04.00.05.00 ++------------------- ++Features: ++1. Add Adam2 env to disable the TurboDSL by entering "setenv TurboDSL 0". ++2. Add ability to set interrupt pacing for ATM driver. ++ ++Bugfixs: ++1. Fixed the RFC2684 and CLIP problems for Cisco router. ++2. Fixed LED blinking problem when DSL cable is unplugged. ++3. Fixed problem that "selected mode" is not updated. ++ ++Version 04.00.04.00 ++------------------- ++Features: ++1. Added feature so OAM F5 ping will not require a corresponding PVC channel to ++ be setup. ++2. Added timeout value for F5 OAM ping. The new command are "exxxpyyycdzzzt" for ++ end-to-end and "sxxxpyyycdzzzt" for segment. "zzz" is timeout value in milli-second. ++3. Added proc entry "avsar_pvc_table" to record received VPIs and VCIs. The format is ++ vpi,vci ++ seperated by new line. To search for PVCs, an application can do the following. ++ i) Send a (or several) F5 OAM cell on a VPI/VPI pairs with command ++ echo exxxpyyycd2t > /proc/sys/dev/dslmod ++ ii) Wait >2ms or poll proc entry /proc/avalanche/avsar_oam_ping until the result ++ indicates a failure. (It will be failed all the time with 2ms timeout.) ++ iii) Repeat above two steps for new VPI/VCI pairs. ++ iv) Check proc entry /proc/avalanche/avsar_pvc_table any time for PVCs that responded. ++ ++Version 04.00.03.00 ++------------------- ++Bug Fixs: ++1. Fixed bug that caused crash when phone cable is unplugged. ++2. Fixed LED operation for "flexible LEDs". ++ ++Features: ++1. Added the proc entry "avsar_oam_ping" to signal oam ping result. ++ 0 - failed; 1 - success; 2 - in progress. ++2. Added oam ping timeout env variable. The timeout can be specified by ++ adding Adam2 env "oam_lb_timeout". The value is in millisecond. ++ ++Version 04.00.02.00 ++------------------- ++1. The driver uses hardware queue for Turbo DSL. ++2. Added new modem statistics listed below: ++ US and DS TX powers, atuc Vendor ID and revision, training mode selected, ++ Hybrid Selected, and etc. ++ ++Version 04.00.01.00 ++------------------- ++ ++1. This driver release contains all the features that exists in AR5 Linux ATM ++ 3.1 driver. ++ ++2. F4 OAM generation is added. ++ ++3. Software queuing is used for TURBO DSL. ++ ++4. Porting guide "is created. Please look into that document for detailed ++ information. ++ ++ +diff -urN linux.old/drivers/atm/sangam_atm/syssw_version.h linux.dev/drivers/atm/sangam_atm/syssw_version.h +--- linux.old/drivers/atm/sangam_atm/syssw_version.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/syssw_version.h 2005-08-23 04:46:50.105842480 +0200 +@@ -0,0 +1,94 @@ ++#ifndef __SYSSW_VERSION_H__ ++#define __SYSSW_VERSION_H__ 1 ++ ++/******************************************************************************* ++* FILE PURPOSE: DSL Driver API functions for Sangam ++* ++******************************************************************************** ++* FILE NAME: dsl_hal_basicapi.c ++* ++* DESCRIPTION: ++* Contains basic DSL HAL APIs for Sangam ++* ++* (C) Copyright 2003-04, Texas Instruments, Inc. ++* History ++* Date Version Notes ++* 14May03 0.00.00 RamP Original Version Created ++* 14May03 0.00.01 RamP Initial Rev numbers inserted ++* 14May03 0.00.02 RamP Bumped version numbers for Dsl Hal ++* & dhalapp for alpha plus ++* 19May03 0.00.03 MCB Bumped dslhal version number ++* because of dependant changes ++* wrt. linux-nsp atm drivers. ++* 22May03 0.00.04 RamP Bumped dslhal & dhalapp buildnum ++* for inner/outer pair & DGASP code ++* 06Jun03 0.00.05 RamP Bumped up buildnum for LED, STM, ++* interrupt processing, statistics ++* and other pre-beta features ++* 09Jun03 0.00.06 JEB Fixed error in DHALAPP bugfix/buildnum ++* 09Jun03 0.00.07 RamP Bumped up buildnum for incremental ++* changes to apis, statistics, memory ++* fixes, parameter configurations ++* 11Jun03 0.00.08 RamP Bumped up buildnum for Co profile ++* free memory fix ++* 12Jun03 0.00.09 JEB Bumped version numbers for AR7 1.00 Beta ++* 02Jul03 0.00.10 ZT Bumped HAL version for overlay page ++* 18Jul03 0.00.11 RamP Bumped HAL version for analog diags ++* 22Jul03 0.00.12 JEB Bumped DHALAPP buildnum for analog diags ++* 31Jul03 0.00.13 RamP Bumped HAL version for engr. drop ++* 04Aug03 0.00.14 JEB Bumped HAL version buildnum for CHECKPOINT65 changes ++* Bumped LINUX version buildnum for CHECKPOINT65 changes ++* 06Aug03 0.00.15 MCB Bumped all version numbers in prep for AR7 1.0 R2 release for POTS. ++* 13Aug03 0.00.16 MCB Set rev id's for D3/R1.1 (ADSL2). ++* 21Aug03 0.00.17 JEB Bumped up build numbers for merge of code additions from D1 ++* 26Sep03 0.00.18 JEB Set rev id's for another D3/R1 (ADSL2). ++* 14Oct03 0.00.19 JEB Bumped Linux minor number and reset bugfix number for release. ++* Bumped build numbers on DSLHAL and DHALAPP for this checkpoint. ++* 14Oct03 0.00.20 JEB Bumped build numbers on DSLHAL and DHALAPP for CHECKPOINT15. ++* 21Oct03 0.00.21 JEB Bumped build number on DSLHAL for CHECKPOINT16. ++* 22Oct03 0.00.22 MCB Bumped all version numbers in support of D3R1 release. ++* 27Oct03 0.00.23 JEB Bumped build numbers on DSLHAL and DHALAPP for CHECKPOINT19. ++* Updated version for DSLAGENT to be 02.01.00.01 for ACT 2.1 R0. ++* 30Oct03 0.00.24 JEB Bumped bugfix number on LINUXATM Version for next release. ++* Bumped build numbers on DSLHAL and DHALAPP ++* 31Oct03 0.00.25 MCB Bumped all version numbers in support of D3R2 release. ++* 14Nov03 0.00.26 JEB Bumped build numbers on DSLHAL and DHALAPP ++* Changed version for DSLAGENT to be 02.00.01.01 for an ACT 2.0 R0 ++* 20Nov03 0.00.27 JEB Bumped build number on DSLHAL. ++* Changed version for DSLAGENT to be 02.00.02.00 for the next ACT 2.0 R2 ++* 21Nov03 0.00.28 MCB Bumped all version numbers in support of D3R2 release. ++* 21Nov03 0.00.29 JEB Bumped build numbers on DSLHAL and DHALAPP for D3-R0 drop on 11/21. ++* 16Dec03 0.00.30 JEB Bumped build numbers on DSLHAL and DHALAPP for CHECKPOINT31. ++* 21Dec03 0.00.31 MCB Bumped all version numbers in support of D3R2 release. ++* 05Jan04 0.00.32 JEB Bumped build numbers on DSLHAL and Linux ATM for CHECKPOINT 34. ++* 15Jan04 0.00.33 JEB Bumped build numbers on DSLHAL and Linux ATM for CHECKPOINT 36. ++* 26Jan04 0.00.34 JEB Changed Linux ATM version number to be 04.02.03.00. ++* 27Jan04 0.00.35 MCB Bumped all version numbers in support of D3R2 release. ++*******************************************************************************/ ++ ++/* Dsl Hal API Version Numbers */ ++#define DSLHAL_VERSION_MAJOR 03 ++#define DSLHAL_VERSION_MINOR 00 ++#define DSLHAL_VERSION_BUGFIX 06 ++#define DSLHAL_VERSION_BUILDNUM 00 ++#define DSLHAL_VERSION_TIMESTAMP 00 ++ ++/* dhalapp Adam2 Application Version Numbers */ ++#define DHALAPP_VERSION_MAJOR 03 ++#define DHALAPP_VERSION_MINOR 00 ++#define DHALAPP_VERSION_BUGFIX 05 ++#define DHALAPP_VERSION_BUILDNUM 00 ++ ++/* Linux ATM Driver Version Numbers */ ++#define LINUXATM_VERSION_MAJOR 04 ++#define LINUXATM_VERSION_MINOR 02 ++#define LINUXATM_VERSION_BUGFIX 04 ++#define LINUXATM_VERSION_BUILDNUM 00 ++ ++/* DSL Agent Version Numbers */ ++#define DSLAGENT_VERSION_MAJOR 02 ++#define DSLAGENT_VERSION_MINOR 00 ++#define DSLAGENT_VERSION_BUGFIX 02 ++#define DSLAGENT_VERSION_BUILDNUM 00 ++ ++#endif /* pairs with #ifndef __SYSSW_VERSION_H__ */ +diff -urN linux.old/drivers/atm/sangam_atm/tn7api.h linux.dev/drivers/atm/sangam_atm/tn7api.h +--- linux.old/drivers/atm/sangam_atm/tn7api.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/tn7api.h 2005-08-23 04:46:50.105842480 +0200 +@@ -0,0 +1,54 @@ ++/* ++ * Tnetd73xx ATM driver. ++ * by Zhicheng Tang, ztang@ti.com ++ * 2000 (c) Texas Instruments Inc. ++ * ++ * ++*/ ++ ++#ifndef __SAPI_H ++#define __SAPI_H ++ ++/* tn7atm.c */ ++void xdump(unsigned char *buff, int len, int debugLev); ++int tn7atm_receive(void *os_dev, int ch, unsigned int packet_size, void *os_receive_info, void *data); ++void *tn7atm_allocate_rx_skb(void *os_dev, void **os_receive_info, unsigned int size); ++void tn7atm_free_rx_skb(void *skb); ++void tn7atm_sarhal_isr_register(void *os_dev, void *hal_isr, int interrupt_num); ++int tn7atm_send_complete(void *osSendInfo); ++int tn7atm_device_connect_status(void *priv, int state); ++int tn7atm_lut_find(short vpi, int vci); ++ ++/* tn7dsl.h */ ++void tn7dsl_exit(void); ++int tn7dsl_init(void *priv); ++int tn7dsl_proc_stats(char* buf, char **start, off_t offset, int count,int *eof, void *data); ++int tn7dsl_proc_modem(char* buf, char **start, off_t offset, int count,int *eof, void *data); ++int tn7dsl_handle_interrupt(void); ++void dprintf( int uDbgLevel, char * szFmt, ...); ++void tn7dsl_dslmod_sysctl_register(void); ++void tn7dsl_dslmod_sysctl_unregister(void); ++int tn7dsl_get_dslhal_version(char *pVer); ++int tn7dsl_get_dsp_version(char *pVer); ++ ++int os_atoi(const char *pStr); ++int os_atoh(const char *pStr); ++unsigned long os_atoul(const char *pStr); ++ ++/* tn7sar.c */ ++int tn7sar_activate_vc(Tn7AtmPrivate *priv, short vpi, int vci, int pcr, int scr, int mbs, int cdvt, int chan, int qos); ++int tn7sar_init(struct atm_dev *dev, Tn7AtmPrivate *priv); ++int tn7sar_register_interrupt_handle(void *os_dev, void *hal_isr, int *interrupt_num); ++void tn7sar_exit(struct atm_dev *dev, Tn7AtmPrivate *priv); ++int tn7sar_deactivate_vc(Tn7AtmPrivate *priv, int chan); ++int tn7sar_handle_interrupt(struct atm_dev *dev, Tn7AtmPrivate *priv); ++int tn7sar_send_packet(Tn7AtmPrivate *priv, int chan, void *new_skb, void *data,unsigned int len, int priority); ++void tn7sar_get_sar_version(Tn7AtmPrivate *priv, char **pVer); ++int tn7sar_get_near_end_loopback_count(unsigned int *pF4count, unsigned int *pF5count); ++int tn7sar_oam_generation(void *privContext, int chan, int type, int vpi, int vci, int timeout); ++int tn7sar_get_stats(void *priv1); ++int tn7sar_proc_sar_stat(char* buf, char **start, off_t offset, int count,int *eof, void *data); ++void tn7sar_get_sar_firmware_version(unsigned int *pdsp_version_ms, unsigned int *pdsp_version_ls); ++int tn7sar_proc_oam_ping(char* buf, char **start, off_t offset, int count,int *eof, void *data); ++int tn7sar_proc_pvc_table(char* buf, char **start, off_t offset, int count,int *eof, void *data); ++#endif +diff -urN linux.old/drivers/atm/sangam_atm/tn7atm.c linux.dev/drivers/atm/sangam_atm/tn7atm.c +--- linux.old/drivers/atm/sangam_atm/tn7atm.c 2005-08-28 01:52:26.000000000 -0600 ++++ linux.dev/drivers/atm/sangam_atm/tn7atm.c 2005-08-28 02:08:07.000000000 -0600 +@@ -0,0 +1,1233 @@ ++/* ++ * tn7.c ++ * Linux atm module implementation. ++ * Zhicheng Tang 01/08/2003 ++ * 2003 (c) Texas Instruments Inc. ++ * ++ * ++*/ ++ ++#include <linux/config.h> ++#include <linux/kernel.h> ++#include <linux/module.h> ++#include <linux/init.h> ++#include <linux/atmdev.h> ++#include <linux/delay.h> ++#include <linux/spinlock.h> ++#include <linux/smp_lock.h> ++#include <asm/io.h> ++#include <asm/mips-boards/prom.h> ++#include <linux/proc_fs.h> ++#include <linux/string.h> ++#include <linux/ctype.h> ++#include "tn7atm.h" ++#include "tn7api.h" ++#include "syssw_version.h" ++ ++#ifdef CONFIG_LED_MODULE ++#include <asm/ar7/ledapp.h> ++#endif ++#include <asm/ar7/avalanche_intc.h> ++ ++#ifdef MODULE ++MODULE_DESCRIPTION ("Tnetd73xx ATM Device Driver"); ++MODULE_AUTHOR ("Zhicheng Tang"); ++#endif ++ ++/* Version Information */ ++//static char atm_version[] ="1.0.0.1"; ++ ++#define TRUE 1 ++#define FALSE 0 ++ ++#define STOP_EMPTY_BUFF 2 ++#define START_EMPTY_BUFF 3 ++/* externs */ ++ ++/*end of externs */ ++ ++#define tn7atm_kfree_skb(x) dev_kfree_skb(x) ++ ++/* prototypes */ ++int tn7atm_open (struct atm_vcc *vcc, short vpi, int vci); ++ ++void tn7atm_close (struct atm_vcc *vcc); ++ ++static int tn7atm_ioctl (struct atm_dev *dev, unsigned int cmd, void *arg); ++ ++int tn7atm_send (struct atm_vcc *vcc, struct sk_buff *skb); ++ ++static int tn7atm_change_qos (struct atm_vcc *vcc, struct atm_qos *qos,int flags); ++ ++static int tn7atm_detect(void); ++static int tn7atm_init(struct atm_dev* dev); ++//static int tn7atm_reset(void); ++static int tn7atm_irq_request(struct atm_dev* dev); ++static int tn7atm_proc_version(char* buf, char **start, off_t offset, int count,int *eof, void *data); ++static void tn7atm_exit(void); ++static int tn7atm_proc_channels(char* buf, char **start, off_t offset, int count,int *eof, void *data); ++static int tn7atm_proc_private(char* buf, char **start, off_t offset, int count,int *eof,void *data); ++//static void tn7atm_free_packet(void *vcc1, void *priv, void *skb1); ++static int tn7atm_queue_packet_to_sar(void *vcc1, void *skb1); ++ ++#include "turbodsl.c" ++ ++/* ATM device operations */ ++ ++struct atm_dev *mydev; ++ ++static const struct atmdev_ops tn7atm_ops = { ++ open: tn7atm_open, ++ close: tn7atm_close, ++ ioctl: tn7atm_ioctl, ++ getsockopt: NULL, ++ setsockopt: NULL, ++ send: tn7atm_send, ++ sg_send: NULL, ++ phy_put: NULL, ++ phy_get: NULL, ++ change_qos: tn7atm_change_qos, ++}; ++ ++ ++int __guDbgLevel = 1; ++ ++ ++void xdump(unsigned char *buff, int len, int debugLev) ++{ ++#ifdef DEBUG_BUILD ++ int i, j; ++ if( __guDbgLevel < debugLev) ++ return; ++ ++ j=0; ++ for(i=0;i<len;i++) ++ { ++ printk("%02x ", buff[i]); ++ j++; ++ if(j==8) ++ { ++ j=0; ++ printk("\n"); ++ } ++ } ++ printk("\n"); ++#endif ++} ++ ++ ++#if 0 /* by nbd */ ++/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ++ * ++ * Function: int tn7atm_walk_vccs(struct atm_dev *dev, short *vcc, int *vci) ++ * ++ * Description: retrieve VPI/VCI for connection ++ * ++ *~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/ ++static int ++tn7atm_walk_vccs(struct atm_vcc *vcc, short *vpi, int *vci) ++{ ++ struct atm_vcc* walk; ++ ++ // printk(tn7 "tn7atm_walk_vccs\n"); ++ /* find a free VPI */ ++ if (*vpi == ATM_VPI_ANY) { ++ ++ for (*vpi = 0, walk = vcc->dev->vccs; walk; walk = walk->next) { ++ ++ if ((walk->vci == *vci) && (walk->vpi == *vpi)) { ++ (*vpi)++; ++ walk = vcc->dev->vccs; ++ } ++ } ++ } ++ ++ /* find a free VCI */ ++ if (*vci == ATM_VCI_ANY) { ++ ++ for (*vci = ATM_NOT_RSV_VCI, walk = vcc->dev->vccs; walk; walk = walk->next) { ++ ++ if ((walk->vpi = *vpi) && (walk->vci == *vci)) { ++ *vci = walk->vci + 1; ++ walk = vcc->dev->vccs; ++ } ++ } ++ } ++ ++ return 0; ++} ++#endif ++ ++ ++/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ++ * ++ * Function: int tn7atm_sar_irq(void) ++ * ++ * Description: tnetd73xx SAR interrupt. ++ * ++ *~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/ ++static void ++tn7atm_sar_irq(int irq , void *voiddev , struct pt_regs *regs) ++{ ++ struct atm_dev *atmdev; ++ Tn7AtmPrivate *priv; ++ ++ dprintf(6, "tn7atm_sar_irq\n"); ++ atmdev = (struct atm_dev *) voiddev; ++ priv = (Tn7AtmPrivate *)atmdev->dev_data; ++ ++ tn7sar_handle_interrupt(atmdev, priv); ++ ++ dprintf(6, "Leaving tn7atm_sar_irq\n"); ++} ++ ++/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ++ * ++ * Function: int tn7atm_dsl_irq(void) ++ * ++ * Description: tnetd73xx DSL interrupt. ++ * ++ *~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/ ++static void ++tn7atm_dsl_irq(int irq , void *voiddev , struct pt_regs *regs) ++{ ++ struct atm_dev *atmdev; ++ Tn7AtmPrivate *priv; ++ ++ dprintf(4, "tn7atm_dsl_irq\n"); ++ atmdev = (struct atm_dev *) voiddev; ++ priv = (Tn7AtmPrivate *)atmdev->dev_data; ++ ++ tn7dsl_handle_interrupt(); ++ ++ dprintf(4, "Leaving tn7atm_dsl_irq\n"); ++} ++ ++/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ++ * ++ * Function: int tn7atm_Inittxcomp(struct tn7* tn7) ++ * ++ * Description: Initialize Interrupt handler ++ * ++ *~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ */ ++static int __init ++tn7atm_irq_request (struct atm_dev *dev) ++{ ++ Tn7AtmPrivate *priv; ++ char *ptr; ++ int ipace=2; ++ ++ dprintf(4, "tn7atm_irq_request()\n"); ++ priv = (Tn7AtmPrivate *) dev->dev_data; ++ ++ /* Register SAR interrupt */ ++ priv->sar_irq = LNXINTNUM(ATM_SAR_INT); /* Interrupt line # */ ++ if (request_irq(priv->sar_irq, tn7atm_sar_irq, SA_INTERRUPT, "SAR ", dev)) ++ printk ("Could not register tn7atm_sar_irq\n"); ++ ++ /* interrupt pacing */ ++ ptr= prom_getenv("sar_ipacemax"); ++ if(ptr) ++ { ++ ipace=os_atoi(ptr); ++ } ++ avalanche_request_pacing(priv->sar_irq, ATM_SAR_INT_PACING_BLOCK_NUM, ipace); ++ ++ /* Reigster Receive interrupt A */ ++ priv->dsl_irq = LNXINTNUM(ATM_DSL_INT); /* Interrupt line # */ ++ if (request_irq(priv->dsl_irq, tn7atm_dsl_irq, SA_INTERRUPT, "DSL ", dev)) ++ printk ("Could not register tn7atm_dsl_irq\n"); ++ ++ return 0; ++} ++ ++/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ++ * ++ * Function: int tn7atm_lut_find(struct atm_vcc *vcc) ++ * ++ * Description: find an TX DMA channel ++ * that matches a vpi/vci pair ++ *~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ */ ++int ++tn7atm_lut_find(short vpi, int vci) ++{ ++ int i; ++ Tn7AtmPrivate *priv; ++ ++ priv = (Tn7AtmPrivate *)mydev->dev_data; ++ ++ if(vci==0) // find first vpi channel ++ { ++ for(i=0; i< MAX_DMA_CHAN; i++) ++ { ++ if((priv->lut[i].vpi == vpi)) ++ return i; ++ } ++ } ++ ++ dprintf(4, "vpi=%d, vci=%d\n", vpi, vci); ++ for(i=0; i< MAX_DMA_CHAN; i++) ++ { ++ if((priv->lut[i].vpi == vpi) && (priv->lut[i].vci == vci)) ++ return i; ++ } ++ ++ ++ ++ return ATM_NO_DMA_CHAN; ++} ++ ++/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ++ * ++ * Function: int tn7atm_lut_clear(struct atm_vcc *vcc,int chan) ++ * ++ * Description: find an TX DMA channel ++ * that matches a vpi/vci pair ++ *~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ */ ++static int ++tn7atm_lut_clear(struct atm_vcc *vcc, int chan) ++{ ++ Tn7AtmPrivate *priv; ++ ++ priv = (Tn7AtmPrivate *)vcc->dev->dev_data; ++ ++ memset(&priv->lut[chan], 0, sizeof(priv->lut[chan])); ++ ++ return 0; ++} ++ ++/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ++ * ++ * Function: int tn7atm_walk_lut(void) ++ * ++ * Description: find an available TX DMA channel ++ * and initialize LUT ++ *~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ */ ++static int ++tn7atm_walk_lut(Tn7AtmPrivate *priv) ++{ ++ int i; ++ ++ for(i=0; i< MAX_DMA_CHAN; i++){ ++ if(!priv->lut[i].inuse) ++ { ++ return i; /* return available dma channel number */ ++ } ++ } ++ return ATM_NO_DMA_CHAN; /* no tx dma channels available */ ++} ++ ++static int ++tn7atm_set_lut(Tn7AtmPrivate *priv, struct atm_vcc *vcc, int chan) ++{ ++ ++ if(!priv->lut[chan].inuse) ++ { ++ priv->lut[chan].vpi = (int)vcc->vpi; ++ priv->lut[chan].vci = vcc->vci; ++ priv->lut[chan].chanid = chan; ++ priv->lut[chan].inuse = 1; /* claim the channel */ ++ priv->lut[chan].vcc = (void *)vcc; ++ priv->lut[chan].bClosing = 0; ++ priv->lut[chan].ready = 0; ++ priv->lut[chan].tx_total_bufs = TX_BUFFER_NUM; ++ priv->lut[chan].tx_used_bufs[0] = 0; ++ priv->lut[chan].tx_used_bufs[1] = 0; ++ return 0; ++ } ++ return -1; /* no tx dma channels available */ ++} ++ ++#if 0 ++static void tn7atm_free_packet(void *pVc, void *pDev, void *pPacket) ++ { ++ Tn7AtmPrivate *priv; ++ struct atm_vcc *vcc; ++ struct sk_buff *skb; ++ ++ vcc = (struct atm_vcc *)pVc; ++ priv = (Tn7AtmPrivate *)pDev; ++ skb = (struct sk_buff *) pPacket; ++ ++ if(vcc->pop) ++ vcc->pop(vcc, skb); ++ else ++ tn7atm_kfree_skb(skb); ++ } ++#endif ++ ++static void str2eaddr(char *pMac, char *pStr) ++{ ++ char tmp[3]; ++ int i; ++ ++ for(i=0;i<6;i++) ++ { ++ tmp[0]=pStr[i*3]; ++ tmp[1]=pStr[i*3+1]; ++ tmp[2]=0; ++ pMac[i]=os_atoh(tmp); ++ } ++} ++ ++static int __init ++tn7atm_get_ESI(struct atm_dev *dev) ++{ ++ int i; ++ char esi_addr[ESI_LEN]={0x00,0x00,0x11,0x22,0x33,0x44}; ++ char *esiaddr_str = NULL; ++ ++ esiaddr_str = prom_getenv("macc"); ++ ++ if (!esiaddr_str) { ++ //printk("macc address not set in adam2 environment space\n"); ++ //printk("Using default macc address = 00:01:02:03:04:05\n"); ++ esiaddr_str = "00:00:02:03:04:05"; ++ } ++ str2eaddr(esi_addr, esiaddr_str); ++ ++ for(i=0; i < ESI_LEN; i++) ++ dev->esi[i] = esi_addr[i]; ++ ++ return 0; ++} ++ ++/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ++ * ++ * Function: int tn7atm_open(struct atm_vcc *vcc, short vpi, int vci) ++ * ++ * Description: Device operation: open ++ * ++ *~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ */ ++//static int ++int tn7atm_open (struct atm_vcc *vcc, short vpi, int vci) ++{ ++ Tn7AtmPrivate *priv; ++ int dmachan; ++ int rc; ++ int traffic_type; ++ int pcr = 0x20000; ++ int scr = 0x20000; ++ int mbs = 0x20000; ++ int cdvt = 10000; ++ int err; ++ ++ dprintf(1, "tn7atm_open()\n"); ++ ++ priv = (Tn7AtmPrivate *)vcc->dev->dev_data; ++ if(priv==NULL) ++ { ++ printk("null priv\n"); ++ return -1; ++ } ++ ++ MOD_INC_USE_COUNT; ++ ++#if 0 /* by nbd */ ++ /* find a free VPI/VCI */ ++ tn7atm_walk_vccs(vcc, &vpi, &vci); ++#else ++ if ((err = atm_find_ci(vcc, &vpi, &vci))) { ++ printk("atm_find_ci err = %d\n", err); ++ return err; ++ } ++ ++#endif ++ ++ vcc->vpi = vpi; ++ vcc->vci = vci; ++ ++ if (vci == ATM_VCI_UNSPEC || vpi == ATM_VCI_UNSPEC) ++ { ++ MOD_DEC_USE_COUNT; ++ return -EBUSY; ++ } ++ ++ /* check to see whether PVC is opened or not */ ++ if((dmachan = tn7atm_lut_find(vcc->vpi, vcc->vci)) != ATM_NO_DMA_CHAN) ++ { ++ MOD_DEC_USE_COUNT; ++ printk("PVC already opened. dmachan = %d\n", dmachan); ++ return -EBUSY; ++ } ++ /*check for available channel */ ++ if((dmachan = tn7atm_walk_lut(priv)) == ATM_NO_DMA_CHAN) ++ { ++ printk("No TX DMA channels available\n"); ++ return -EBUSY; ++ } ++ ++ set_bit(ATM_VF_ADDR, &vcc->flags); /* claim address */ ++ ++ vcc->itf = vcc->dev->number; /* interface number */ ++ ++ switch(vcc->qos.txtp.traffic_class) ++ { ++ case ATM_CBR: /* Constant Bit Rate */ ++ traffic_type = 0; ++ pcr = vcc->qos.txtp.pcr; ++ scr = vcc->qos.txtp.pcr; ++ cdvt = vcc->qos.txtp.max_cdv; ++ printk("cdvt=%d\n", cdvt); ++ break; ++ case ATM_UBR: /* Unspecified Bit Rate */ ++ traffic_type = 2; ++ break; ++ ++ /* Disable ATM_VBR until pppd ppoatm plugin supports it. ++ * NOTE: Support ATM_VBR requires the addition of a scr ++ * field to the atm_trafprm structure which will cause ++ * a change in the SO_ATMQOS ioctl. Make sure that the ++ * revised header file becomes visible to the pppd ++ * pppoatm plugin source, or the SO_ATMQOS ioctl will fail. ++ */ ++#if 0 ++ case ATM_VBR: /* Variable Bit Rate */ ++ traffic_type = 1; ++ pcr = vcc->qos.txtp.pcr; ++ scr = vcc->qos.txtp.scr; ++ if(vcc->qos.txtp.max_pcr >= 0) ++ mbs = vcc->qos.txtp.max_pcr; ++ cdvt = vcc->qos.txtp.max_cdv; ++ printk("cdvt=%d\n", cdvt); ++ printk("mbs=%d\n", mbs); ++ break; ++#endif ++ default: ++ traffic_type = 2; ++ } ++ ++ dprintf(4, "vpi=%d, vci=%d, pcr=%d, dmachan=%d, qos=%d\n", vpi,vci,pcr,dmachan,traffic_type); ++ /* Activate SAR channel */ ++ rc = tn7sar_activate_vc(priv, vpi, vci, pcr, scr, mbs, cdvt, dmachan, traffic_type); ++ if(rc < 0) ++ { ++ ++ MOD_DEC_USE_COUNT; ++ return -EBUSY; ++ } ++ ++ /* insure that the the vcc struct points to the correct entry ++ in the lookup table */ ++ ++ tn7atm_set_lut(priv,vcc, dmachan); ++ vcc->dev_data = (void *)&priv->lut[dmachan]; ++ set_bit(ATM_VF_READY, &vcc->flags); ++ ++ mdelay(100); ++ priv->lut[dmachan].ready = 1; ++ dprintf (1, "Leave tn7atm_open\n"); ++ return 0; ++} ++ ++ ++//static void ++void tn7atm_close (struct atm_vcc *vcc) ++{ ++ Tn7AtmPrivate *priv; ++ int dmachan; ++ ++ priv = (Tn7AtmPrivate *)vcc->dev->dev_data; ++ dprintf(4, "closing %d.%d.%d.%d\n", vcc->itf, vcc->vpi, vcc->vci, vcc->qos.aal); ++ ++ clear_bit(ATM_VF_READY, &vcc->flags); /* ATM_VF_READY: channel is ready to transfer data */ ++ ++ dmachan = tn7atm_lut_find(vcc->vpi, vcc->vci); ++ printk("closing channel: %d\n", dmachan); ++ if(dmachan == ATM_NO_DMA_CHAN) ++ { ++ printk("Closing channel not found.\n"); ++ return; ++ } ++ priv->lut[dmachan].bClosing = 1; ++ priv->lut[dmachan].ready = 0; ++ if(tn7sar_deactivate_vc(priv,dmachan)) /* tear down channel */ ++ { ++ printk("failed to close channel %d.\n", dmachan); ++ } ++ ++ clear_bit(ATM_VF_READY, &vcc->flags); /* ATM_VF_READY: channel is ready to transfer data */ ++ tn7atm_lut_clear(vcc, dmachan); ++ ++ MOD_DEC_USE_COUNT; ++ ++ dprintf (1, "Leave tn7atm_close\n"); ++} ++ ++#define ATM_TXSTOP 0x800c61f4 ++static int ++tn7atm_ioctl (struct atm_dev *dev, unsigned int cmd, void *arg) ++{ ++ Tn7AtmPrivate *priv; ++ priv = (Tn7AtmPrivate *) dev->dev_data; ++ ++ //printk("tn7atm_ioctl\n"); ++ //printk("arg = %x\n", *(int *)arg); ++ //printk("cmd =%x\n", cmd); ++ switch(cmd) ++ { ++ ++ case ATM_TXSTOP: /*temp fix for SAR tear down problem */ ++// printk("ioctl cmd = 0x%x (%u), arg = 0x%p (%lu)\n", cmd, cmd, arg, (unsigned long)arg); ++// printk("arg = %d\n", *(int*)arg); ++ priv->xmitStop = *(int *)arg; ++ //printk("Executing ATM_SETLOOP for tn7 \n"); ++ //printk("Stop variable = :%d: \n",priv->xmitStop); ++ return 0; ++ ++ //case SAR_DSL_RESET_SOFTBOOT: ++ // return tn7atm_dsl_clean_reboot(); ++ case 0: ++ return 0; ++ } ++ ++ return -ENOSYS; ++ ++} ++ ++static int ++tn7atm_change_qos (struct atm_vcc *vcc, struct atm_qos *qos,int flags) ++{ ++ dprintf (1, "Enter tn7atm_change_qos\n"); ++ dprintf (1, "Leave tn7atm_change_qos\n"); ++ return 0; ++} ++ ++ ++int tn7atm_send (struct atm_vcc *vcc, struct sk_buff *skb) ++{ ++ ++ Tn7AtmPrivate *priv; ++ int bret; ++ int chan; ++ ++ dprintf(4, "tn7atm_send()\n"); ++ ++ priv = (Tn7AtmPrivate*)vcc->dev->dev_data; ++ ++ //if(skb->len < 64) ++ //xdump((unsigned char *)skb->data, skb->len, 1); ++ //else ++ //xdump((unsigned char *)skb->data, 64, 1); ++ /* check for dsl line connection */ ++ ++ /* add vcc field in skb for clip inATMARP fix */ ++ ATM_SKB(skb)->vcc = vcc; ++ /* Ron change 2.3 -> 2.4 ??*/ ++ //if(priv->lConnected != 1 || priv->xmitStop == 1) ++ if(priv->lConnected != 1 && priv->xmitStop == 1) ++ { ++ dprintf(4,"dsl line down\n"); ++ if(vcc->pop) ++ vcc->pop(vcc, skb); ++ else ++ tn7atm_kfree_skb(skb); ++ return 1; ++ } ++ ++ /* check whether PVC is closing */ ++ chan = tn7atm_lut_find(vcc->vpi, vcc->vci); ++ /* set br2684 dev pointer */ ++ priv->lut[chan].net_device = skb->dev; ++ if(chan == ATM_NO_DMA_CHAN || priv->lut[chan].bClosing == 1) ++ { ++ dprintf(4, "can find sar channel\n"); ++ if(vcc->pop) ++ vcc->pop(vcc, skb); ++ else ++ tn7atm_kfree_skb(skb); ++ return 1; ++ } ++ ++ bret=tn7atm_queue_packet_to_sar(vcc, skb); ++ ++ return bret; ++} ++ ++ ++static int tn7atm_queue_packet_to_sar(void *vcc1, void *skb1) ++{ ++ struct atm_vcc *vcc; ++ struct sk_buff *skb; ++ int priority = 1; ++ Tn7AtmPrivate *priv; ++ int dmachan; ++ ++ vcc = (struct atm_vcc *)vcc1; ++ skb = (struct sk_buff *)skb1; ++ ++ priv = (Tn7AtmPrivate*)vcc->dev->dev_data; ++ ++ dprintf(4, "vcc->vci=%d\n", vcc->vci); ++ dmachan = tn7atm_lut_find(vcc->vpi, vcc->vci); ++ if(dmachan == ATM_NO_DMA_CHAN) ++ { ++ dprintf(4, "can find sar channel\n"); ++ if(vcc->pop) ++ vcc->pop(vcc, skb); ++ else ++ tn7atm_kfree_skb(skb); ++ return 1; ++ } ++ ++ // turbo dsl TCP ack check ++ if(priv->bTurboDsl) ++ priority = turbodsl_check_priority_type(skb->data); ++ ++ //skb priority check ++ if(priority != 0) ++ { ++ if((skb->cb[47])>>1) ++ priority=1; ++ else ++ priority = 0; ++ } ++ ++ /* add queue info here */ ++ skb->cb[47] = (char)priority; ++ spin_lock_irqsave(&priv->netifqueueLock, priv->netifqueueLockFlag); ++ priv->lut[dmachan].tx_used_bufs[priority]++; ++ spin_unlock_irqrestore(&priv->netifqueueLock, priv->netifqueueLockFlag); ++ ++ if(tn7sar_send_packet(priv,dmachan, skb, skb->data, skb->len, priority) != 0) ++ { ++ dprintf(1, "failed to send packet\n"); ++ if(vcc->pop) ++ vcc->pop(vcc, skb); ++ else ++ tn7atm_kfree_skb(skb); ++ ++ spin_lock_irqsave(&priv->netifqueueLock, priv->netifqueueLockFlag); ++ priv->lut[dmachan].tx_used_bufs[priority]--; ++ spin_unlock_irqrestore(&priv->netifqueueLock, priv->netifqueueLockFlag); ++ return 1; ++ } ++ ++ /* check for whether tx queue is full or not */ ++ //printk("bufs used = %d\n", priv->lut[dmachan].tx_used_bufs[1]); ++ spin_lock_irqsave(&priv->netifqueueLock, priv->netifqueueLockFlag); ++ if(priv->lut[dmachan].tx_used_bufs[1] >= (priv->lut[dmachan].tx_total_bufs - STOP_EMPTY_BUFF) || ++ priv->lut[dmachan].tx_used_bufs[0] >= (priv->lut[dmachan].tx_total_bufs - STOP_EMPTY_BUFF)) ++ { ++ //printk("net queue stoped\n"); ++ netif_stop_queue(priv->lut[dmachan].net_device); ++ priv->lut[dmachan].netqueue_stop = 1; ++ } ++ spin_unlock_irqrestore(&priv->netifqueueLock, priv->netifqueueLockFlag); ++ ++ return 0; ++} ++ ++/* functions needed by SAR HAL */ ++ ++int tn7atm_send_complete(void *osSendInfo) ++{ ++ Tn7AtmPrivate *priv; ++ //struct atm_dev *dev; ++ struct sk_buff *skb; ++ struct atm_vcc *vcc; ++ int chan; ++ ++ dprintf(4, "tn7atm_send_complete()\n"); ++ ++ ++ skb = (struct sk_buff *)osSendInfo; ++ //dev = (struct atm_dev *) (skb->dev); ++ priv = (Tn7AtmPrivate *)mydev->dev_data; ++ vcc =ATM_SKB(skb)->vcc; ++ if(vcc) ++ { ++ dprintf(4, "vcc->vci=%d\n",vcc->vci ); ++ chan = tn7atm_lut_find(vcc->vpi, vcc->vci); ++ if(chan==ATM_NO_DMA_CHAN) ++ return 1; ++ ++ /*decreament packet queued number */ ++ spin_lock_irqsave(&priv->netifqueueLock, priv->netifqueueLockFlag); ++ priv->lut[chan].tx_used_bufs[(int)skb->cb[47]] --; ++ if(priv->lut[chan].tx_used_bufs[1] < priv->lut[chan].tx_total_bufs - START_EMPTY_BUFF && ++ priv->lut[chan].tx_used_bufs[0] < priv->lut[chan].tx_total_bufs - START_EMPTY_BUFF) ++ { ++ if(priv->lut[chan].netqueue_stop) ++ { ++ //printk("net queue restarted\n"); ++ netif_wake_queue(priv->lut[chan].net_device); ++ priv->lut[chan].netqueue_stop = 0; ++ } ++ } ++ spin_unlock_irqrestore(&priv->netifqueueLock, priv->netifqueueLockFlag); ++ ++ if(vcc->pop) ++ { ++ dprintf(5, "free packet\n"); ++ vcc->pop(vcc, skb); ++ } ++ ++ ++ } ++ ++ ++ ++ /* Update Stats: There may be a better place to do this, but this is a start */ ++ priv->stats.tx_packets++; ++#ifdef CONFIG_LED_MODULE ++// led_operation(MOD_ADSL, DEF_ADSL_ACTIVITY); ++#endif ++ ++ /* track number of buffer used */ ++ ++ dprintf(4, "tn7atm_send_complete() done\n"); ++ ++ return 0; ++} ++ ++void *tn7atm_allocate_rx_skb(void *os_dev, void **os_receive_info, unsigned int size) ++{ ++ struct sk_buff *skb; ++ dprintf(4, "tn7atm_allocate_rx_skb size=%d\n", size); ++ size = ((size+3)&0xfffffffc); ++ skb = dev_alloc_skb(size); ++ if(skb==NULL) ++ { ++ //printk("rx allocate skb failed\n"); ++ return NULL; ++ } ++ *os_receive_info = (void *)skb; ++ return (skb->data); ++} ++ ++void tn7atm_free_rx_skb(void *skb) ++{ ++ dprintf(4, "tn7atm_free_rx_skb\n"); ++ tn7atm_kfree_skb((struct sk_buff *)skb); ++} ++ ++ ++int tn7atm_receive(void *os_dev, int ch, unsigned int packet_size, void *os_receive_info, void *data) ++{ ++ Tn7AtmPrivate *priv; ++ struct atm_dev *dev; ++ struct sk_buff *skb; ++ struct atm_vcc *vcc; ++ ++ ++ dprintf(4, "tn7atm_receive()\n"); ++ dev = (struct atm_dev *)os_dev; ++ ++ priv = (Tn7AtmPrivate *)dev->dev_data; ++ ++ if(priv->lConnected != 1 || priv->lut[ch].ready == 0) ++ { ++ //printk("channel not ready\n"); ++ return 1; ++ } ++ ++ vcc = (struct atm_vcc *)priv->lut[ch].vcc; ++ if(vcc == NULL) ++ { ++ printk("vcc=Null"); ++ return 1; ++ } ++ ++ ++ /* assume no fragment packet for now */ ++ skb = (struct sk_buff *)os_receive_info; ++ ++ if(skb==NULL) ++ { ++ dprintf(1, "received empty skb.\n"); ++ return 1; ++ } ++ /* see skbuff->cb definition in include/linux/skbuff.h */ ++ ATM_SKB(skb)->vcc = vcc; ++ ++ skb->len = packet_size; ++ dprintf(3, "skb:[0x%p]:0x%x pdu_len: 0x%04x\n",skb,skb->len,packet_size); ++ dprintf(3, "data location: 0x%x, 0x%x\n", (unsigned int)skb->data, (unsigned int)data); ++ ++ /*skb_trim(skb,skb->len); */ /* skb size is incorrect for large packets > 1428 bytes ?? */ ++ __skb_trim(skb,skb->len); /* change to correct > 1500 ping when firewall is on */ ++ ++ dprintf(3, "pushing the skb...\n"); ++ skb->stamp = xtime; ++ ++ xdump((unsigned char *)skb->data, skb->len, 5); ++ ++ if(atm_charge(vcc, skb->truesize) == 0) ++ { ++ dprintf(1,"Receive buffers saturated for %d.%d.%d - PDU dropped\n", vcc->itf, vcc->vci, vcc->vpi); ++ return 1; ++ } ++ ++ /*pass it up to kernel networking layer and update stats*/ ++ vcc->push(vcc,skb); ++ ++ /* Update receive packet stats */ ++ priv->stats.rx_packets++; ++ atomic_inc(&vcc->stats->rx); ++ ++#ifdef CONFIG_LED_MODULE ++// led_operation(MOD_ADSL, DEF_ADSL_ACTIVITY); ++#endif ++ dprintf(3, "(a) Receiving:vpi/vci[%d/%d] chan_id: %d skb len:0x%x skb truesize:0x%x\n", ++ vcc->vpi,vcc->vci,ch,skb->len, skb->truesize); ++ ++ return 0; ++} ++ ++static int ++tn7atm_proc_channels(char* buf, char **start, off_t offset, int count,int *eof, void *data) ++{ ++ int len = 0; ++ int limit = count - 80; ++ int i; ++ ++ struct atm_dev *dev; ++ Tn7AtmPrivate *priv; ++ ++ dev = (struct atm_dev *)data; ++ priv = (Tn7AtmPrivate *)dev->dev_data; ++ ++ if(len<=limit) ++ len += sprintf(buf+len,"Chan Inuse ChanID VPI VCI \n"); ++ if(len<=limit) ++ len += sprintf(buf+len,"------------------------------------------------------------------\n"); ++ ++ for(i=0; i < MAX_DMA_CHAN; i++) ++ { ++ if(len<=limit) ++ { ++ len += sprintf(buf+len, ++ " %02d %05d %05d %05d %05d \n", ++ i,priv->lut[i].inuse,priv->lut[i].chanid, ++ priv->lut[i].vpi,priv->lut[i].vci); ++ } ++ } ++ ++ return len; ++} ++ ++static int ++tn7atm_proc_private(char* buf, char **start, off_t offset, int count,int *eof, void *data) ++{ ++ int len = 0; ++ int limit = count - 80; ++ struct atm_dev *dev; ++ Tn7AtmPrivate *priv; ++ ++ dev = (struct atm_dev *)data; ++ priv = (Tn7AtmPrivate *)dev->dev_data; ++ ++ if(len<=limit) ++ len += sprintf(buf+len, "\nPrivate Data Structure(%s):\n",priv->name); ++ if(len<=limit) ++ len += sprintf(buf+len, "----------------------------------------\n"); ++ if(len<=limit) ++ len += sprintf(buf+len, "priv: 0x%p\n",priv); ++ if(len<=limit) ++ len += sprintf(buf+len, "next: 0x%p",priv->next); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tdev: 0x%p\n",priv->dev); ++ ++ if(len<=limit) ++ len += sprintf(buf+len, "tx_irq: %02d",priv->sar_irq); ++ if(len<=limit) ++ len += sprintf(buf+len, "rx_irq: %02d",priv->dsl_irq); ++ ++ ++ return len; ++} ++ ++void tn7atm_sarhal_isr_register(void *os_dev, void *hal_isr, int interrupt_num) ++{ ++ struct atm_dev *dev; ++ Tn7AtmPrivate *priv; ++ ++ dprintf(4, "tn7atm_sarhal_isr_register()\n"); ++ ++ dev = (struct atm_dev *)os_dev; ++ priv = (Tn7AtmPrivate *)dev->dev_data; ++ priv->halIsr = (void *)hal_isr; ++ priv->int_num = interrupt_num; ++} ++ ++ ++/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ++ * ++ * Function: int tn7atm_exit(void) ++ * ++ * Description: Avalanche SAR exit function ++ * ++ *~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/ ++ ++static void ++tn7atm_exit (void) ++{ ++ ++ struct atm_dev *dev; ++ ++ Tn7AtmPrivate *priv; ++ ++ dprintf(4, "tn7atm_exit()\n"); ++ ++ dev=mydev; ++ priv = (Tn7AtmPrivate *)dev->dev_data; ++ priv->lConnected = 0; ++ tn7dsl_exit(); ++ ++ tn7sar_exit(dev, priv); ++ ++ /* freeup irq's */ ++ free_irq(priv->dsl_irq,priv->dev); ++ free_irq(priv->sar_irq,priv->dev); ++ ++ kfree (dev->dev_data); ++ ++ // atm_dev_deregister (dev); ++ shutdown_atm_dev(dev); ++ ++ /* remove proc entries */ ++ remove_proc_entry("tiatm/avsar_ver",NULL); ++ remove_proc_entry("tiatm/avsar_modem_stats",NULL); ++ remove_proc_entry("tiatm/avsar_modem_training",NULL); ++ remove_proc_entry("tiatm/avsar_channels",NULL); ++ remove_proc_entry("tiatm/avsar_private",NULL); ++ remove_proc_entry("tiatm/avsar_sarhal_stats",NULL); ++ remove_proc_entry("tiatm/avsar_oam_ping",NULL); ++ remove_proc_entry("tiatm/avsar_pvc_table",NULL); ++ remove_proc_entry("tiatm",NULL); ++ tn7dsl_dslmod_sysctl_unregister(); ++ ++ printk ("Module Removed\n"); ++ ++} ++ ++ ++ ++/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ++ * ++ * Function: int tn7atm_registration(struct tn7* tn7) ++ * ++ * Description: ATM driver registration ++ * ++ *~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/ ++ ++static int __init ++tn7atm_register (Tn7AtmPrivate * priv) ++{ ++ /* allocate memory for the device */ ++ ++ dprintf(4,"device %s being registered\n", priv->name); ++ ++ mydev = atm_dev_register (priv->proc_name, &tn7atm_ops, -1, NULL); ++ ++ if (mydev == NULL) ++ { ++ printk ("atm_dev_register returning NULL\n"); ++ return ATM_REG_FAILED; ++ } ++ ++ printk ("registered device %s\n", priv->name); ++ ++ mydev->dev_data = priv; /* setup device data in atm_dev struct */ ++ priv->dev = mydev; /* setup atm_device in avalanche sar struct */ ++ ++ mydev->ci_range.vpi_bits = ATM_CI_MAX; /* atm supports 11 bits */ ++ mydev->ci_range.vci_bits = 16; /* atm VCI max = 16 bits */ ++ ++ ++ return ATM_REG_OK; ++} ++ ++static int ++tn7atm_proc_version(char* buf, char **start, off_t offset, int count,int *eof, void *data) ++{ ++ int len = 0; ++ char dslVer[8]; ++ char dspVer[10]; ++ char *pSarVer; ++ Tn7AtmPrivate *priv; ++ int i; ++ unsigned int pdspV1, pdspV2; ++ ++ priv = mydev->dev_data; ++ ++ len += sprintf(buf+len, "ATM Driver version:[%d.%02d.%02d.%02d]\n",LINUXATM_VERSION_MAJOR, LINUXATM_VERSION_MINOR, ++ LINUXATM_VERSION_BUGFIX, LINUXATM_VERSION_BUILDNUM); ++ ++ tn7dsl_get_dslhal_version(dslVer); ++ ++ len += sprintf(buf+len, "DSL HAL version: [%d.%02d.%02d.%02d]\n", dslVer[0], dslVer[1], dslVer[2], ++ dslVer[3]); ++ tn7dsl_get_dsp_version(dspVer); ++ ++ len += sprintf(buf+len, "DSP Datapump version: [%d.%02d.%02d.%02d] ", dspVer[4], dspVer[5], dspVer[6], ++ dspVer[7]); ++ if(dspVer[8]==2) // annex B ++ len += sprintf(buf+len, "Annex B\n"); ++ else if(dspVer[8]==3) //annex c ++ len += sprintf(buf+len, "Annex c\n"); ++ else ++ len += sprintf(buf+len, "Annex A\n"); ++ ++ tn7sar_get_sar_version(priv, &pSarVer); ++ ++ len += sprintf(buf+len, "SAR HAL version: ["); ++ for(i=0;i<8;i++) ++ { ++ len += sprintf(buf+len, "%c", pSarVer[i+7]); ++ } ++ len += sprintf(buf+len, "]\n"); ++ ++ tn7sar_get_sar_firmware_version(&pdspV1, &pdspV2); ++ len += sprintf(buf+len, "PDSP Firmware version:[%01x.%02x]\n", ++ pdspV1,pdspV2); ++ ++ return len; ++} ++ ++/* ++static struct net_device_stats ++*tn7atm_get_stats(struct atm_dev *dev) ++{ ++ Tn7AtmPrivate *priv; ++ //unsigned long flags; ++ ++ //spin_lock_irqsave(&priv->stats_lock,flags); ++ priv= (Tn7AtmPrivate *)dev->dev_data; ++ //spin_unlock_irqrestore(&priv->stats_lock,flags); ++ ++ return &priv->stats; ++ ++} ++*/ ++/* Device detection */ ++ ++static int __init ++tn7atm_detect (void) ++{ ++ Tn7AtmPrivate *priv; ++ //static struct proc_dir_entry *proc_dir; ++ ++ dprintf(4, "tn7atm_detect().\n"); ++ /* Device allocated as a global static structure at top of code "mydev" */ ++ ++ /* Alloc priv struct */ ++ priv=kmalloc(sizeof(Tn7AtmPrivate),GFP_KERNEL); ++ if(!priv) ++ { ++ printk("unable to kmalloc priv structure. Killing autoprobe.\n"); ++ return -ENODEV; ++ } ++ memset(priv, 0, sizeof(Tn7AtmPrivate)); ++#ifdef COMMON_NSP ++ priv->name = "TI Avalanche SAR"; ++ priv->proc_name = "avsar"; ++#else ++ priv->name = "TI tnetd73xx ATM Driver"; ++ priv->proc_name = "tn7"; ++#endif ++ ++ if ((tn7atm_register (priv)) == ATM_REG_FAILED) ++ return -ENODEV; ++ ++ tn7atm_init(mydev); ++ ++ /* Set up proc entry for atm stats */ ++ proc_mkdir("tiatm", NULL); ++ create_proc_read_entry("tiatm/avsar_modem_stats",0,NULL,tn7dsl_proc_stats,NULL); ++ create_proc_read_entry("tiatm/avsar_modem_training",0,NULL,tn7dsl_proc_modem,NULL); ++ create_proc_read_entry("tiatm/avsar_ver",0,NULL,tn7atm_proc_version,NULL); ++ create_proc_read_entry("tiatm/avsar_channels",0,NULL,tn7atm_proc_channels,mydev); ++ create_proc_read_entry("tiatm/avsar_private",0,NULL,tn7atm_proc_private,mydev); ++ create_proc_read_entry("tiatm/avsar_sarhal_stats",0,NULL,tn7sar_proc_sar_stat,mydev); ++ create_proc_read_entry("tiatm/avsar_oam_ping",0,NULL,tn7sar_proc_oam_ping,mydev); ++ create_proc_read_entry("tiatm/avsar_pvc_table",0,NULL,tn7sar_proc_pvc_table,mydev); ++ ++ tn7dsl_dslmod_sysctl_register(); ++ ++ printk("Texas Instruments ATM driver: version:[%d.%02d.%02d.%02d]\n",LINUXATM_VERSION_MAJOR, LINUXATM_VERSION_MINOR, ++ LINUXATM_VERSION_BUGFIX, LINUXATM_VERSION_BUILDNUM); ++ return 0; ++} ++ ++ ++/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ++ * ++ * Function: int tn7atm_probe(void) ++ * ++ * Description: Avalanche SAR driver probe (see net/atm/pvc.c) ++ * this is utilized when the SAR driver is built ++ * into the kernel and needs to be configured. ++ * ++ *~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/ ++int __init tn7atm_probe(void) ++{ ++ tn7atm_detect(); ++ return -ENODEV; ++} ++ ++ ++/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ++ * ++ * Function: int tn7atm_init(struct atm_dev *dev) ++ * ++ * Description: Device Initialization ++ * ++ *~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/ ++static int __init ++tn7atm_init(struct atm_dev *dev) ++{ ++ Tn7AtmPrivate *priv; ++ char *ptr; ++ ++ dprintf(4, "tn7atm_init()\n"); ++ ++ priv = (Tn7AtmPrivate *)dev->dev_data; ++ ++ if(tn7sar_init(dev, priv) != 0) ++ { ++ printk("Failed to init SAR.\n"); ++ return -ENODEV; ++ } ++ ++ if(tn7dsl_init(priv) < 0) ++ { ++ printk("Failed to init DSL.\n"); ++ return -ENODEV; ++ } ++ ++ if(tn7atm_get_ESI(dev) < 0) /* set ESI */ ++ return -ENODEV; ++ ++ if(tn7atm_irq_request(dev) < 0) ++ return -EBUSY; ++ ++ priv->bTurboDsl = 1; ++ // read config for turbo dsl ++ ptr = prom_getenv("TurboDSL"); ++ if(ptr) ++ { ++ priv->bTurboDsl = os_atoi(ptr); ++ } ++ ++ return 0; ++} ++ ++int tn7atm_device_connect_status(void *priv, int state) ++{ ++ Tn7AtmPrivate *priv1; ++ ++ dprintf(5, "tn7atm_device_connect_status()\n"); ++ priv1 = (Tn7AtmPrivate *)priv; ++ ++ priv1->lConnected = state; ++ dprintf(5, "priv1->lConnected=%d\n", priv1->lConnected); ++ return 0; ++} ++ ++ ++#ifdef MODULE ++module_init (tn7atm_detect); ++module_exit (tn7atm_exit); ++#endif /* MODULE */ +diff -urN linux.old/drivers/atm/sangam_atm/tn7atm.h linux.dev/drivers/atm/sangam_atm/tn7atm.h +--- linux.old/drivers/atm/sangam_atm/tn7atm.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/tn7atm.h 2005-08-23 04:46:50.107842176 +0200 +@@ -0,0 +1,115 @@ ++/* ++ * Tnetd73xx ATM driver. ++ * by Zhicheng Tang, ztang@ti.com ++ * 2000 (c) Texas Instruments Inc. ++ * ++ * ++*/ ++ ++#ifndef __TN7ATM_H ++#define __TN7ATM_H ++ ++//#include "mips_support.h" ++#include <linux/list.h> ++ ++#define ATM_REG_OK 1 ++#define ATM_REG_FAILED 0 ++ ++#define TX_SERVICE_MAX 32 ++#define RX_SERVICE_MAX 20 ++#define TX_BUFFER_NUM 64 ++#define RX_BUFFER_NUM 28 ++#define TX_QUEUE_NUM 2 ++#define RX_BUFFER_SIZE 1582 ++ ++#define TX_DMA_CHAN 16 /* number of tx dma channels available */ ++#define MAX_DMA_CHAN 16 ++#define ATM_NO_DMA_CHAN MAX_DMA_CHAN + 1 /* no tx dma channels available */ ++#define ATM_SAR_INT 15 ++#define ATM_SAR_INT_PACING_BLOCK_NUM 2 ++#define ATM_DSL_INT 39 ++ ++#define CONFIG_ATM_TN7ATM_DEBUG 0 /* Debug level (0=no mtn7s 5=verbose) */ ++ ++#define TN7ATM_DEV(d) ((struct tn7atm*)((d)->dev_data)) ++ ++ ++/* Avalanche SAR state information */ ++ ++typedef enum tn7atm_state ++{ ++ TN7ATM_STATE_REGISTER /* device registered */ ++}tn7atm_state; ++ ++typedef struct _sar_stat ++{ ++ unsigned int txErrors; ++ unsigned int rxErrors; ++ unsigned int rxPktCnt; ++ unsigned int txPktCnt; ++ unsigned int rxBytes; ++ unsigned int txBytes; ++}sar_stat_t; ++ ++/* Host based look up table to xref Channel Id's, VPI/VCI, LC, CID, packet type */ ++typedef struct _tn7atm_tx_lut ++{ ++ int inuse; /* is DMA channel available (1=y) */ ++ int chanid; /* DMA channel ID (0-0x1f) This corresponds to the Channel ID ++ that is used in the connection config reg (TN7ATM_CONN_CONFIG) */ ++ int vpi; /* Virtual path identifier */ ++ int vci; /* Virtual channel identifier */ ++ void *vcc; ++ int bClosing; ++ int ready; ++ void *net_device; ++ int tx_total_bufs; ++ int tx_used_bufs[2]; ++ int netqueue_stop; ++}tn7atm_lut_t; ++ ++/* per device data */ ++ ++typedef struct _tn7atm_private ++{ ++ struct _tn7atm_private *next; /* next device */ ++ struct atm_dev *dev; /* ATM device */ ++ struct net_device_stats stats; /* Used to report Tx/Rx frames from ifconfig */ ++ tn7atm_lut_t lut[MAX_DMA_CHAN]; /* Tx DMA look up table (LUT) */ ++ int dsl_irq; /* ATM SAR TransmitA interrupt number */ ++ int sar_irq; /* ATM SAR ReceiveA interrupt number */ ++ char* name; /* device name */ ++ char* proc_name; /* board name under /proc/atm */ ++ unsigned int available_cell_rate; /* cell rate */ ++ unsigned int connection_cell_rate; /* cell rate */ ++ int lConnected; ++ ++ /* Tnetd73xx CPHAL */ ++ void *pSarHalDev; ++ void *pSarHalFunc; ++ void *pSarOsFunc; ++ void *halIsr; ++ int int_num; ++ ++ /* turbo dsl */ ++ int bTurboDsl; ++ ++ /* spin lock for netifqueue */ ++ spinlock_t netifqueueLock; ++ int netifqueueLockFlag; ++ int xmitStop; /* temp fix for SAR problem */ ++}tn7atm_private_t, Tn7AtmPrivate; ++ ++ ++ ++/* ATM adaptation layer id */ ++typedef enum tn7atm_aal { ++ TN7ATM_AAL0 = 0, ++ TN7ATM_AAL2 = 2, ++ TN7ATM_AAL5 = 5, ++} tn7atm_aal_t; ++ ++ ++ ++ ++#endif +diff -urN linux.old/drivers/atm/sangam_atm/tn7dsl.c linux.dev/drivers/atm/sangam_atm/tn7dsl.c +--- linux.old/drivers/atm/sangam_atm/tn7dsl.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/tn7dsl.c 2005-08-23 04:46:50.109841872 +0200 +@@ -0,0 +1,1780 @@ ++/* ++ * $Id$ ++ * ++ * Avalanche SAR driver ++ * ++ * Zhicheng Tang, ztang@ti.com ++ * 2000 (c) Texas Instruments Inc. ++ * ++ * ++*/ ++#include <linux/config.h> ++#include <linux/kernel.h> ++#include <linux/module.h> ++#include <linux/init.h> ++#include <linux/atmdev.h> ++#include <linux/delay.h> ++#include <linux/spinlock.h> ++#include <linux/smp_lock.h> ++#include <asm/io.h> ++#include <asm/mips-boards/prom.h> ++#include <linux/proc_fs.h> ++#include <linux/string.h> ++#include <linux/ctype.h> ++#include <linux/sysctl.h> ++#include <linux/timer.h> ++#include <linux/vmalloc.h> ++#include <linux/file.h> ++#include <asm/uaccess.h> ++ ++#include "tn7atm.h" ++#include "tn7api.h" ++#include "dsl_hal_api.h" ++ ++#ifdef CONFIG_LED_MODULE ++#include <asm/ar7/ledapp.h> ++#define MOD_ADSL 1 ++#define DEF_ADSL_IDLE 1 ++#define DEF_ADSL_TRAINING 2 ++#define DEF_ADSL_SYNC 3 ++#define DEF_ADSL_ACTIVITY 4 ++ ++#define LED_NUM_1 3 ++#define LED_NUM_2 4 ++ ++led_reg_t ledreg[2]; ++ ++static int led_on; ++#endif ++ ++extern int __guDbgLevel; ++extern sar_stat_t sarStat; ++static int dslInSync = 0; ++static int bMarginThConfig; ++static int bMarginRetrainEnable; ++static char EOCVendorID[8]= {0xb5, 0x00, 0x54, 0x53, 0x54, 0x43, 0x00, 0x00}; ++ ++#define TC_SYNC 1 ++#define SYNC_TIME_DELAY 500000 ++ ++ ++#define DEV_DSLMOD 1 ++#define MAX_STR_SIZE 256 ++#define DSL_MOD_SIZE 256 ++ ++#define TRUE 1 ++#define FALSE 0 ++ ++ ++enum ++{ ++ NO_MODE, ++ MULTI_MODE, ++ T1413_MODE, ++ GDMT_MODE, ++ GLITE_MODE ++}; ++ ++ ++ ++/* a structure to store all information we need ++ for our thread */ ++typedef struct kthread_struct ++{ ++ /* private data */ ++ ++ /* Linux task structure of thread */ ++ struct task_struct *thread; ++ /* Task queue need to launch thread */ ++ struct tq_struct tq; ++ /* function to be started as thread */ ++ void (*function) (struct kthread_struct *kthread); ++ /* semaphore needed on start and creation of thread. */ ++ struct semaphore startstop_sem; ++ ++ /* public data */ ++ ++ /* queue thread is waiting on. Gets initialized by ++ init_kthread, can be used by thread itself. ++ */ ++ wait_queue_head_t queue; ++ /* flag to tell thread whether to die or not. ++ When the thread receives a signal, it must check ++ the value of terminate and call exit_kthread and terminate ++ if set. ++ */ ++ int terminate; ++ /* additional data to pass to kernel thread */ ++ void *arg; ++} kthread_t; ++ ++#ifndef ADIAG ++#define DSP_FIRMWARE_PATH "/lib/modules/ar0700xx.bin" ++#else ++#define DSP_FIRMWARE_PATH "/var/tmp/ar0700xx_diag.bin" ++#endif ++ ++/* externs */ ++extern struct atm_dev *mydev; ++extern unsigned int oamFarLBCount[4]; ++extern int dslhal_support_restoreTrainingInfo(PITIDSLHW_T pIhw); ++/* gloabal functions */ ++ ++/* end of global functions */ ++ ++/* module wide declars */ ++static PITIDSLHW_T pIhw; ++static char mod_req[16]={'\t'}; ++static volatile int bshutdown; ++static char info[MAX_STR_SIZE]; ++static DECLARE_MUTEX_LOCKED(adsl_sem_overlay); /* Used for DSL Polling enable */ ++kthread_t overlay_thread; ++/* end of module wide declars */ ++ ++/* Internal Functions */ ++static void tn7dsl_chng_modulation(void* data); ++static void tn7dsl_set_modulation(void* data); ++static int tn7dsl_reload_overlay(void); ++static int dslmod_sysctl(ctl_table *ctl, int write, struct file * filp, void *buffer, size_t *lenp); ++static void tn7dsl_register_dslss_led(void); ++void tn7dsl_dslmod_sysctl_register(void); ++void tn7dsl_dslmod_sysctl_unregister(void); ++/* end of internal functions */ ++ ++ ++ ++ ++ ++/* prototypes */ ++ ++/* start new kthread (called by creator) */ ++void start_kthread(void (*func)(kthread_t *), kthread_t *kthread); ++ ++/* stop a running thread (called by "killer") */ ++void stop_kthread(kthread_t *kthread); ++ ++/* setup thread environment (called by new thread) */ ++void init_kthread(kthread_t *kthread, char *name); ++ ++/* cleanup thread environment (called by thread upon receiving termination signal) */ ++void exit_kthread(kthread_t *kthread); ++ ++ ++ ++/* private functions */ ++static void kthread_launcher(void *data) ++{ ++ kthread_t *kthread = data; ++ kernel_thread((int (*)(void *))kthread->function, (void *)kthread, 0); ++ ++} ++ ++/* public functions */ ++ ++/* create a new kernel thread. Called by the creator. */ ++void start_kthread(void (*func)(kthread_t *), kthread_t *kthread) ++{ ++ /* initialize the semaphore: ++ we start with the semaphore locked. The new kernel ++ thread will setup its stuff and unlock it. This ++ control flow (the one that creates the thread) blocks ++ in the down operation below until the thread has reached ++ the up() operation. ++ */ ++ //init_MUTEX_LOCKED(&kthread->startstop_sem); ++ ++ /* store the function to be executed in the data passed to ++ the launcher */ ++ kthread->function=func; ++ ++ /* create the new thread my running a task through keventd */ ++ ++ /* initialize the task queue structure */ ++ kthread->tq.sync = 0; ++ INIT_LIST_HEAD(&kthread->tq.list); ++ kthread->tq.routine = kthread_launcher; ++ kthread->tq.data = kthread; ++ ++ /* and schedule it for execution */ ++ schedule_task(&kthread->tq); ++ ++ /* wait till it has reached the setup_thread routine */ ++ //down(&kthread->startstop_sem); ++ ++} ++ ++/* stop a kernel thread. Called by the removing instance */ ++void stop_kthread(kthread_t *kthread) ++{ ++ if (kthread->thread == NULL) ++ { ++ printk("stop_kthread: killing non existing thread!\n"); ++ return; ++ } ++ ++ /* this function needs to be protected with the big ++ kernel lock (lock_kernel()). The lock must be ++ grabbed before changing the terminate ++ flag and released after the down() call. */ ++ lock_kernel(); ++ ++ /* initialize the semaphore. We lock it here, the ++ leave_thread call of the thread to be terminated ++ will unlock it. As soon as we see the semaphore ++ unlocked, we know that the thread has exited. ++ */ ++ //init_MUTEX_LOCKED(&kthread->startstop_sem); ++ ++ /* We need to do a memory barrier here to be sure that ++ the flags are visible on all CPUs. ++ */ ++ mb(); ++ ++ /* set flag to request thread termination */ ++ kthread->terminate = 1; ++ ++ /* We need to do a memory barrier here to be sure that ++ the flags are visible on all CPUs. ++ */ ++ mb(); ++ kill_proc(kthread->thread->pid, SIGKILL, 1); ++ ++ /* block till thread terminated */ ++ //down(&kthread->startstop_sem); ++ ++ /* release the big kernel lock */ ++ unlock_kernel(); ++ ++ /* now we are sure the thread is in zombie state. We ++ notify keventd to clean the process up. ++ */ ++ kill_proc(2, SIGCHLD, 1); ++ ++} ++ ++/* initialize new created thread. Called by the new thread. */ ++void init_kthread(kthread_t *kthread, char *name) ++{ ++ /* lock the kernel. A new kernel thread starts without ++ the big kernel lock, regardless of the lock state ++ of the creator (the lock level is *not* inheritated) ++ */ ++ lock_kernel(); ++ ++ /* fill in thread structure */ ++ kthread->thread = current; ++ ++ /* set signal mask to what we want to respond */ ++ siginitsetinv(¤t->blocked, sigmask(SIGKILL)|sigmask(SIGINT)|sigmask(SIGTERM)); ++ ++ /* initialise wait queue */ ++ init_waitqueue_head(&kthread->queue); ++ ++ /* initialise termination flag */ ++ kthread->terminate = 0; ++ ++ /* set name of this process (max 15 chars + 0 !) */ ++ sprintf(current->comm, name); ++ ++ /* let others run */ ++ unlock_kernel(); ++ ++ /* tell the creator that we are ready and let him continue */ ++ //up(&kthread->startstop_sem); ++ ++} ++ ++/* cleanup of thread. Called by the exiting thread. */ ++void exit_kthread(kthread_t *kthread) ++{ ++ /* we are terminating */ ++ ++ /* lock the kernel, the exit will unlock it */ ++ lock_kernel(); ++ kthread->thread = NULL; ++ mb(); ++ ++ /* notify the stop_kthread() routine that we are terminating. */ ++ //up(&kthread->startstop_sem); ++ /* the kernel_thread that called clone() does a do_exit here. */ ++ ++ /* there is no race here between execution of the "killer" and real termination ++ of the thread (race window between up and do_exit), since both the ++ thread and the "killer" function are running with the kernel lock held. ++ The kernel lock will be freed after the thread exited, so the code ++ is really not executed anymore as soon as the unload functions gets ++ the kernel lock back. ++ The init process may not have made the cleanup of the process here, ++ but the cleanup can be done safely with the module unloaded. ++ */ ++ ++} ++ ++ ++ ++int os_atoi(const char *pStr) ++{ ++ int retVal = -1; ++ ++ if(*pStr=='-') ++ retVal = -simple_strtoul(pStr+1, (char **)NULL, 10); ++ else ++ retVal = simple_strtoul(pStr, (char **)NULL, 10); ++ return retVal ; ++} ++ ++ ++int os_atoh(const char *pStr) ++{ ++ int retVal = -1; ++ ++ if(*pStr=='-') ++ retVal = -simple_strtoul(pStr+1, (char **)NULL, 16); ++ else ++ retVal = simple_strtoul(pStr, (char **)NULL, 16); ++ return retVal ; ++} ++ ++unsigned long os_atoul(const char *pStr) ++{ ++ unsigned long retVal = -1; ++ ++ retVal = simple_strtoul(pStr, (char **)NULL, 10); ++ return retVal ; ++} ++ ++void dprintf( int uDbgLevel, char * szFmt, ...) ++{ ++#ifdef DEBUG_BUILD ++ static char buff[256]; ++ va_list ap; ++ ++ if( __guDbgLevel < uDbgLevel) ++ return; ++ ++ va_start( ap, szFmt); ++ vsprintf((char *)buff, szFmt, ap); ++ va_end(ap); ++ printk("%s", buff); ++#endif ++} ++ ++/*int strcmp(const char *s1, const char *s2) ++{ ++ ++ int i=0; ++ ++ while(s1[i] !=0) ++ { ++ if(s2[i]==0) ++ return -1; ++ if(s1[i] != s2[i]) ++ return 1; ++ i++; ++ } ++ if(s2[i] != 0) ++ return 1; ++ return 0; ++} ++*/ ++ ++int shim_osLoadFWImage(unsigned char *ptr) ++{ ++ unsigned int bytesRead; ++ mm_segment_t oldfs; ++ static struct file *filp; ++ unsigned int imageLength=0x4ffff; ++ ++ ++ dprintf(4, "tn7dsl_read_dsp()\n"); ++ ++ dprintf(4,"open file %s\n", DSP_FIRMWARE_PATH); ++ ++ filp=filp_open(DSP_FIRMWARE_PATH ++ ,00,O_RDONLY); ++ ++ if(filp ==NULL) ++ { ++ printk("Failed: Could not open DSP binary file\n"); ++ return -1; ++ } ++ ++ if (filp->f_op->read==NULL) ++ return -1; /* File(system) doesn't allow reads */ ++ ++ /* Now read bytes from postion "StartPos" */ ++ filp->f_pos = 0; ++ oldfs = get_fs(); ++ set_fs(KERNEL_DS); ++ bytesRead = filp->f_op->read(filp,ptr,imageLength,&filp->f_pos); ++ ++ dprintf(4,"file length = %d\n", bytesRead); ++ ++ set_fs(oldfs); ++ ++ /* Close the file */ ++ fput(filp); ++ ++ return bytesRead; ++} ++ ++unsigned int shim_read_overlay_page(void *ptr, unsigned int secOffset, unsigned int secLength) ++{ ++ unsigned int bytesRead; ++ mm_segment_t oldfs; ++ struct file *filp; ++ ++ dprintf(4,"shim_read_overlay_page\n"); ++ //dprintf(4,"sec offset=%d, sec length =%d\n", secOffset, secLength); ++ ++ filp=filp_open(DSP_FIRMWARE_PATH,00,O_RDONLY); ++ if(filp ==NULL) ++ { ++ printk("Failed: Could not open DSP binary file\n"); ++ return -1; ++ } ++ ++ if (filp->f_op->read==NULL) ++ return -1; /* File(system) doesn't allow reads */ ++ ++ /* Now read bytes from postion "StartPos" */ ++ ++ if(filp->f_op->llseek) ++ filp->f_op->llseek(filp,secOffset, 0); ++ oldfs = get_fs(); ++ set_fs(KERNEL_DS); ++ filp->f_pos = secOffset; ++ bytesRead = filp->f_op->read(filp,ptr,secLength,&filp->f_pos); ++ ++ set_fs(oldfs); ++ /* Close the file */ ++ fput(filp); ++ return bytesRead; ++} ++ ++int shim_osLoadDebugFWImage(unsigned char *ptr) ++{ ++ return 0; ++} ++int shim_osStringCmp(const char *s1, const char *s2) ++{ ++ return strcmp(s1, s2); ++} ++ ++void *shim_osAllocateMemory(unsigned int size) ++{ ++ return ((void *)kmalloc(size, GFP_KERNEL)); ++} ++ ++void *shim_osAllocateDmaMemory(unsigned int size) ++{ ++ /* ++ int order; ++ ++ order=1; ++ size=size/4096; ++ while(size >= 1) ++ { ++ order++; ++ size=size/2; ++ } ++ ++ return ( (void *)__get_free_pages(GFP_ATOMIC, order)); ++ */ ++ //return ((void *)kmalloc(size, GFP_ATOMIC)); ++ //return ((void *)kmalloc(size, GFP_KERNEL)); ++ void *ptr; ++ ++ ptr = kmalloc(size, GFP_ATOMIC); ++ if(ptr==NULL) ++ { ++ printk("failed atomic\n"); ++ ptr = kmalloc(size, GFP_KERNEL); ++ if(ptr==NULL) ++ { ++ printk("failed kernel\n"); ++ ptr = kmalloc(size, GFP_KERNEL|GFP_DMA); ++ } ++ } ++ printk("size=%d\n", size); ++ return ptr; ++ ++} ++ ++ ++void shim_osFreeMemory(void *ptr, unsigned int size) ++{ ++ ++ kfree(ptr); ++} ++ ++void shim_osFreeDmaMemory(void *ptr, unsigned int size) ++{ ++/* ++ int order; ++ ++ order=1; ++ size=size/4096; ++ while(size >=1) ++ { ++ order++; ++ size=size/2; ++ } ++ free_pages(ptr, order); ++*/ ++ kfree(ptr); ++} ++ ++void *shim_osAllocateVMemory(unsigned int size) ++{ ++ ++ return ((void *)vmalloc(size)); ++} ++ ++void shim_osFreeVMemory(void *ptr, unsigned int size) ++{ ++ vfree(ptr); ++} ++ ++void shim_osMoveMemory(char *dst, char *src, unsigned int numBytes) ++{ ++ memcpy(dst, src, numBytes); ++} ++ ++void shim_osZeroMemory(char *dst, unsigned int numBytes) ++{ ++ memset(dst, 0, numBytes); ++} ++ ++void shim_osWriteBackCache(void *addr, unsigned int size) ++{ ++ unsigned int i,Size=(((unsigned int)addr)&0xf)+size; ++ ++ for (i=0;i<Size;i+=16,addr+=16) ++ { ++ __asm__(" .set mips3 "); ++ __asm__(" cache 25, (%0)" : : "r" (addr)); ++ __asm__(" .set mips0 "); ++ } ++} ++ ++void shim_osInvalidateCache(void *addr, unsigned int size) ++{ ++ unsigned int i,Size=(((unsigned int)addr)&0xf)+size; ++ ++ for (i=0;i<Size;i+=16,addr+=16) ++ { ++ __asm__(" .set mips3 "); ++ __asm__("cache 17, (%0)" : : "r" (addr)); ++ __asm__(" .set mips0 "); ++ } ++} ++ ++void shim_osClockWait(int val) ++{ ++ unsigned int chkvalue; ++ chkvalue=val/64; ++ ++ if(chkvalue > 1000) ++ { ++ mdelay(chkvalue/1000); ++ return; ++ } ++ else ++ udelay(val/64); ++} /* end of cwait() */ ++ ++unsigned int shim_osClockTick(int val) ++{ ++ return jiffies; ++} ++ ++int flags; ++spinlock_t shimLock; ++ ++void shim_osCriticalEnter(void) ++{ ++ spin_lock_irqsave(&shimLock, flags); ++ ++} ++ ++ ++void shim_osCriticalExit(void) ++{ ++ spin_unlock_irqrestore(&shimLock, flags); ++} ++ ++ ++int tn7dsl_proc_stats(char* buf, char **start, off_t offset, int count, ++ int *eof, void *data) ++{ ++ ++ int len = 0; ++ int limit = count - 80; ++ int F4count, F5count; ++ ++ ++ /* Read Ax5 Stats */ ++ dslhal_api_gatherStatistics(pIhw); ++ ++ if(len<=limit) ++ len += sprintf(buf+len, "\nAR7 DSL Modem Statistics:\n"); ++ if(len<=limit) ++ len += sprintf(buf+len, "--------------------------------\n"); ++ /* us and ds Connection Rates */ ++ if(len<=limit) ++ len += sprintf(buf+len, "[DSL Modem Stats]\n"); ++ ++ ++ if(len<=limit) ++ { ++ if(pIhw->lConnected != 1) ++ { ++ pIhw->AppData.USConRate = 0; ++ pIhw->AppData.DSConRate = 0; ++ } ++ len += sprintf(buf+len, "\tUS Connection Rate:\t%u\tDS Connection Rate:\t%u\n", ++ (unsigned int)pIhw->AppData.USConRate, ++ (unsigned int)pIhw->AppData.DSConRate ); ++ } ++ if(len<=limit) ++ len += sprintf(buf+len, "\tDS Line Attenuation:\t%u\tDS Margin:\t\t%u\n", ++ (unsigned int)pIhw->AppData.dsLineAttn/2, ++ (unsigned int)pIhw->AppData.dsMargin/2 ); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tUS Line Attenuation:\t%u\tUS Margin:\t\t%u\n", ++ (unsigned int)pIhw->AppData.usLineAttn, ++ (unsigned int)pIhw->AppData.usMargin ); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tUS Payload :\t\t%u\tDS Payload:\t\t%u\n", ++ ((unsigned int)pIhw->AppData.usAtm_count[0] + (unsigned int)pIhw->AppData.usAtm_count[1])*48, ++ ((unsigned int)pIhw->AppData.dsGood_count[0] + (unsigned int)pIhw->AppData.dsGood_count[1])*48); ++ /* Superframe Count */ ++ if(len<=limit) ++ len += sprintf(buf+len, "\tUS Superframe Cnt :\t%u\tDS Superframe Cnt:\t%u\n", ++ (unsigned int)pIhw->AppData.usSuperFrmCnt, ++ (unsigned int)pIhw->AppData.dsSuperFrmCnt ); ++ ++ /* US and DS power */ ++ if(len<=limit) ++ len += sprintf(buf+len, "\tUS Transmit Power :\t%u\tDS Transmit Power:\t%u\n", ++ (unsigned int)pIhw->AppData.usTxPower/256, ++ (unsigned int)pIhw->AppData.dsTxPower/256 ); ++ /* DSL Stats Errors*/ ++ if(len<=limit) ++ len += sprintf(buf+len, "\tLOS errors:\t\t%u\tSEF errors:\t\t%u\n", ++ (unsigned int)pIhw->AppData.LOS_errors, ++ (unsigned int)pIhw->AppData.SEF_errors ); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tFrame mode:\t\t%u\tMax Frame mode:\t\t%u\n", ++ (unsigned int)pIhw->AppData.FrmMode, ++ (unsigned int)pIhw->AppData.MaxFrmMode ); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tTrained Path:\t\t%u\tUS Peak Cell Rate:\t%u\n", ++ (unsigned int)pIhw->AppData.TrainedPath, ++ (unsigned int)pIhw->AppData.USConRate*1000/8/53 ); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tTrained Mode:\t\t%u\tSelected Mode:\t\t%u\n", ++ (unsigned int)pIhw->AppData.TrainedMode, (unsigned int)pIhw->AppData.StdMode ); ++ ++ if(len<=limit) ++ len += sprintf(buf+len, "\tATUC Vendor ID:\t%u\tATUC Revision:\t\t%u\n", ++ (unsigned int)pIhw->AppData.atucVendorId, pIhw->AppData.atucRevisionNum); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tHybrid Selected:\t%u\n", ++ (unsigned int)pIhw->AppData.currentHybridNum); ++ ++ /* Upstream Interleaved Errors */ ++ if(len<=limit) ++ len += sprintf(buf+len, "\n\t[Upstream (TX) Interleave path]\n"); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tCRC: \t%u\tFEC: \t%u\tNCD: \t%u\n", ++ (unsigned int)pIhw->AppData.usICRC_errors, ++ (unsigned int)pIhw->AppData.usIFEC_errors, ++ (unsigned int)pIhw->AppData.usINCD_error); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tLCD: \t%u\tHEC: \t%u\n", ++ (unsigned int)pIhw->AppData.usILCD_errors, ++ (unsigned int)pIhw->AppData.usIHEC_errors); ++ /* Downstream Interleaved Errors */ ++ if(len<=limit) ++ len += sprintf(buf+len, "\n\t[Downstream (RX) Interleave path]\n"); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tCRC: \t%u\tFEC: \t%u\tNCD: \t%u\n", ++ (unsigned int)pIhw->AppData.dsICRC_errors, ++ (unsigned int)pIhw->AppData.dsIFEC_errors, ++ (unsigned int)pIhw->AppData.dsINCD_error); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tLCD: \t%u\tHEC: \t%u\n", ++ (unsigned int)pIhw->AppData.dsILCD_errors, ++ (unsigned int)pIhw->AppData.dsIHEC_errors); ++ /* Upstream Fast Errors */ ++ if(len<=limit) ++ len += sprintf(buf+len, "\n\t[Upstream (TX) Fast path]\n"); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tCRC: \t%u\tFEC: \t%u\tNCD: \t%u\n", ++ (unsigned int)pIhw->AppData.usFCRC_errors, ++ (unsigned int)pIhw->AppData.usFFEC_errors, ++ (unsigned int)pIhw->AppData.usFNCD_error); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tLCD: \t%u\tHEC: \t%u\n", ++ (unsigned int)pIhw->AppData.usFLCD_errors, ++ (unsigned int)pIhw->AppData.usFHEC_errors); ++ /* Downstream Fast Errors */ ++ if(len<=limit) ++ len += sprintf(buf+len, "\n\t[Downstream (RX) Fast path]\n"); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tCRC: \t%u\tFEC: \t%u\tNCD: \t%u\n", ++ (unsigned int)pIhw->AppData.dsFCRC_errors, ++ (unsigned int)pIhw->AppData.dsFFEC_errors, ++ (unsigned int)pIhw->AppData.dsFNCD_error); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tLCD: \t%u\tHEC: \t%u\n", ++ (unsigned int)pIhw->AppData.dsFLCD_errors, ++ (unsigned int)pIhw->AppData.dsFHEC_errors); ++ /* ATM stats upstream */ ++ if(len<=limit) ++ len += sprintf(buf+len, "\n[ATM Stats]"); ++ if(len<=limit) ++ len += sprintf(buf+len, "\n\t[Upstream/TX]\n"); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tGood Cell Cnt:\t%u\n\tIdle Cell Cnt:\t%u\n\n", ++ (unsigned int)pIhw->AppData.usAtm_count[0] + (unsigned int)pIhw->AppData.usAtm_count[1], ++ (unsigned int)pIhw->AppData.usIdle_count[0] + (unsigned int)pIhw->AppData.usIdle_count[1]); ++ /* ATM stats downstream */ ++ if(len<=limit) ++ len += sprintf(buf+len, "\n\t[Downstream/RX)]\n"); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tGood Cell Cnt:\t%u\n\tIdle Cell Cnt:\t%u\n\tBad Hec Cell Cnt:\t%u\n", ++ (unsigned int)pIhw->AppData.dsGood_count[0] + (unsigned int)pIhw->AppData.dsGood_count[1], ++ (unsigned int)pIhw->AppData.dsIdle_count[0] + (unsigned int)pIhw->AppData.dsIdle_count[1], ++ (unsigned int)pIhw->AppData.dsBadHec_count[0] + (unsigned int)pIhw->AppData.dsBadHec_count[1]); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tOverflow Dropped Cell Cnt:\t%u\n", ++ (unsigned int)pIhw->AppData.dsOVFDrop_count[0] + (unsigned int)pIhw->AppData.dsOVFDrop_count[1]); ++ tn7sar_get_stats(pIhw->pOsContext); ++ if(len<=limit) ++ len += sprintf(buf+len, "\n[SAR AAL5 Stats]\n"); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tTx PDU's:\t%u\n\tRx PDU's:\t%u\n", ++ sarStat.txPktCnt, ++ sarStat.rxPktCnt); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tTx Total Bytes:\t%u\n\tRx Total Bytes:\t%u\n", ++ sarStat.txBytes, ++ sarStat.rxBytes); ++ if(len<=limit) ++ len += sprintf(buf+len, "\tTx Total Error Counts:\t%u\n\tRx Total Error Counts:\t%u\n\n", ++ sarStat.txErrors, ++ sarStat.rxErrors); ++ ++ /* oam loopback info */ ++ if(len<=limit) ++ len += sprintf(buf+len, "\n[OAM Stats]\n"); ++ ++ tn7sar_get_near_end_loopback_count(&F4count, &F5count); ++ ++ if(len<=limit) ++ { ++ len += sprintf(buf+len, "\tNear End F5 Loop Back Count:\t%u\n\tNear End F4 Loop Back Count:\t%u\n\tFar End F5 Loop Back Count:\t%u\n\tFar End F4 Loop Back Count:\t%u\n", ++ F5count, ++ F4count, ++ oamFarLBCount[0] + oamFarLBCount[2], ++ oamFarLBCount[1] + oamFarLBCount[3]); ++ } ++ return len; ++} ++ ++int ++tn7dsl_proc_modem(char* buf, char **start, off_t offset, int count, ++ int *eof, void *data) ++{ ++ ++ int len = 0; ++ int limit = count - 80; ++ ++ char *state; ++ int tag; ++ ++ tag= dslhal_api_pollTrainingStatus(pIhw); ++ tag = pIhw->AppData.bState; ++ ++ switch(tag){ ++ case 0: state = "ACTREQ"; break; ++ case 1: state = "QUIET1"; break; ++ case 2: state = "IDLE"; break; ++ case 3: state = "INIT"; break; ++ case 4: state = "RTDL"; break; ++ case 5: state = "SHOWTIME"; break; ++ default: state = "unknown"; break; ++ } ++ ++ if(pIhw->lConnected == 1) ++ state = "SHOWTIME"; ++ if(len<=limit) ++ len += sprintf(buf+len,"%s\n",state); ++ ++ return len; ++} ++ ++ ++ ++int tn7dsl_handle_interrupt(void) ++{ ++ int intsrc; ++ unsigned char cMsgRa[6]; ++ short margin; ++ ++ dprintf(4, "tn7dsl_handle_dsl_interrupt()\n"); ++ if(pIhw) ++ { ++ intsrc=dslhal_api_acknowledgeInterrupt(pIhw); ++ dslhal_api_handleTrainingInterrupt(pIhw, intsrc); ++ ++ if(pIhw->lConnected == TC_SYNC) ++ { ++ ++ if(dslInSync == 0) ++ { ++ printk("DSL in Sync\n"); ++ tn7atm_device_connect_status(pIhw->pOsContext, 1); ++ dslhal_api_initStatistics(pIhw); ++ dslhal_api_gatherStatistics(pIhw); ++#ifdef CONFIG_LED_MODULE ++// led_operation(MOD_ADSL, DEF_ADSL_SYNC); ++ led_on = DEF_ADSL_SYNC; ++#endif ++ /* add auto margin retrain */ ++ if(pIhw->AppData.TrainedMode < 5) ++ { ++ if(bMarginRetrainEnable && bMarginThConfig == 0) ++ { ++ dslhal_support_getCMsgsRa(pIhw, cMsgRa); ++ margin = *(unsigned short *)&cMsgRa[4]; ++ margin = (margin >> 6) & 0x3f; ++ if(margin & 0x20) // highest bit is 1 ++ { ++ margin = -(margin & 0x1f); ++ } ++ ++ //printk("margin = %d, cmsg-ra = %02x %02x %02x %02x %02x %02x\n", margin, cMsgRa[0],cMsgRa[1],cMsgRa[2],cMsgRa[3],cMsgRa[4],cMsgRa[5]); ++ dslhal_api_setMarginThreshold(pIhw, margin*2); /* DSL margin is in 0.5db */ ++ } ++ } ++ ++ } ++ dslInSync = 1; ++ } ++ else ++ { ++ if(dslInSync == 1) ++ { ++ dslInSync = 0; ++ tn7atm_device_connect_status(pIhw->pOsContext, 0); ++ up(&adsl_sem_overlay); ++ printk("DSL out of syn\n"); ++ } ++#ifdef CONFIG_LED_MODULE ++ if(pIhw->AppData.bState < RSTATE_INIT) ++ { ++ if(led_on != DEF_ADSL_IDLE) ++ { ++// led_operation(MOD_ADSL, DEF_ADSL_IDLE); ++ led_on = DEF_ADSL_IDLE; ++ } ++ } ++ else ++ { ++ if(led_on != DEF_ADSL_TRAINING) ++ { ++// led_operation(MOD_ADSL, DEF_ADSL_TRAINING); ++ led_on = DEF_ADSL_TRAINING; ++ } ++ ++ } ++ ++#endif ++ ++ } ++ } ++ return 0; ++} ++ ++ ++int tn7dsl_get_dslhal_version(char *pVer) ++{ ++ dslVer ver; ++ ++ dslhal_api_getDslHalVersion(&ver); ++ ++ memcpy(pVer,&ver,8); ++ return 0; ++} ++ ++int tn7dsl_get_dsp_version(char *pVer) ++{ ++ dspVer ver; ++ dslhal_api_getDspVersion(pIhw, &ver); ++ memcpy(pVer, &ver, 9); ++ return 0; ++} ++ ++ ++static int ++tn7dsl_get_modulation(void) ++{ ++ char *ptr = NULL; ++ ++ dprintf(4, "tn7dsl_get_modulation\n"); ++ //printk("tn7dsl_get_modulation\n"); ++ ptr = prom_getenv("modulation"); ++ ++ if (!ptr) { ++ //printk("modulation is not set in adam2 env\n"); ++ //printk("Using multimode\n"); ++ return 0; ++ } ++ printk("dsl modulation = %s\n", ptr); ++ ++ tn7dsl_set_modulation(ptr); ++ ++ return 0; ++} ++ ++ ++static int tn7dsl_set_dsl(void) ++{ ++ ++ char *ptr = NULL; ++ int value; ++ int i, offset[2]={4,11},oamFeature=0; ++ char tmp[4]; ++ char dspVer[10]; ++ ++ // OAM Feature Configuration ++ dslhal_api_dspInterfaceRead(pIhw,(unsigned int)pIhw->pmainAddr, 2, (unsigned int *)&offset, (unsigned char *)&oamFeature, 4); ++ oamFeature |= dslhal_support_byteSwap32(0x0000000C); ++ dslhal_api_dspInterfaceWrite(pIhw,(unsigned int)pIhw->pmainAddr, 2, (unsigned int *)&offset, (unsigned char *)&oamFeature, 4); ++ ++ // modulation ++ ptr = prom_getenv("modulation"); ++ if (ptr) ++ { ++ printk("dsl modulation = %s\n", ptr); ++ tn7dsl_set_modulation(ptr); ++ } ++ ++ // margin retrain ++ ptr = NULL; ++ ptr = prom_getenv("enable_margin_retrain"); ++ if(ptr) ++ { ++ value = os_atoi(ptr); ++ if(value == 1) ++ { ++ dslhal_api_setMarginMonitorFlags(pIhw, 0, 1); ++ bMarginRetrainEnable = 1; ++ printk("enable showtime margin monitor.\n"); ++ ptr = NULL; ++ ptr = prom_getenv("margin_threshold"); ++ if(ptr) ++ { ++ value = os_atoi(ptr); ++ printk("Set margin threshold to %d x 0.5 db\n",value); ++ if(value >= 0) ++ { ++ dslhal_api_setMarginThreshold(pIhw, value); ++ bMarginThConfig=1; ++ } ++ } ++ } ++ } ++ ++ // rate adapt ++ ptr = NULL; ++ ptr = prom_getenv("enable_rate_adapt"); ++ if(ptr) ++ { ++ dslhal_api_setRateAdaptFlag(pIhw, os_atoi(ptr)); ++ } ++ ++ // trellis ++ ptr = NULL; ++ ptr = prom_getenv("enable_trellis"); ++ if(ptr) ++ { ++ dslhal_api_setTrellisFlag(pIhw, os_atoi(ptr)); ++ } ++ ++ // maximum bits per carrier ++ ptr = NULL; ++ ptr = prom_getenv("maximum_bits_per_carrier"); ++ if(ptr) ++ { ++ dslhal_api_setMaxBitsPerCarrier(pIhw, os_atoi(ptr)); ++ } ++ ++ // maximum interleave depth ++ ptr = NULL; ++ ptr = prom_getenv("maximum_interleave_depth"); ++ if(ptr) ++ { ++ dslhal_api_setMaxInterleaverDepth(pIhw, os_atoi(ptr)); ++ } ++ ++ // inner and outer pairs ++ ptr = NULL; ++ ptr = prom_getenv("pair_selection"); ++ if(ptr) ++ { ++ dslhal_api_selectInnerOuterPair(pIhw, os_atoi(ptr)); ++ } ++ ++ ptr = NULL; ++ ptr = prom_getenv("dgas_polarity"); ++ if(ptr) ++ { ++ dslhal_api_configureDgaspLpr(pIhw, 1, 1); ++ dslhal_api_configureDgaspLpr(pIhw, 0, os_atoi(ptr)); ++ } ++ ++ ptr = NULL; ++ ptr = prom_getenv("los_alarm"); ++ if(ptr) ++ { ++ dslhal_api_disableLosAlarm(pIhw, os_atoi(ptr)); ++ } ++ ++ ptr = NULL; ++ ptr = prom_getenv("eoc_vendor_id"); ++ if(ptr) ++ { ++ for(i=0;i<8;i++) ++ { ++ tmp[0]=ptr[i*2]; ++ tmp[1]=ptr[i*2+1]; ++ tmp[2]=0; ++ EOCVendorID[i] = os_atoh(tmp); ++ //printk("tmp=%s--", tmp); ++ //printk("ID[%d]=0x%02x ", i, (unsigned char)EOCVendorID[i]); ++ } ++ tn7dsl_get_dsp_version(dspVer); ++ //printk("Annex =%d\n", dspVer[8]); ++ if(dspVer[8]==2) // annex b ++ { ++ //printk("EOCVendorID=%02x %02x %02x %02x %02x %02x %02x %02x\n", EOCVendorID[0], EOCVendorID[1], EOCVendorID[2], EOCVendorID[3], ++ // EOCVendorID[4], EOCVendorID[5], EOCVendorID[6], EOCVendorID[7]); ++ dslhal_api_setEocVendorId(pIhw, EOCVendorID); ++ } ++ ++ } ++ ++ return 0; ++} ++ ++ ++ ++ ++ ++/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ++ * ++ * Function: static void tn7dsl_init(void) ++ * ++ * Description: This function initializes ++ * Ar7 DSL interface ++ *~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/ ++ ++int tn7dsl_init(void *priv) ++{ ++ ++ printk("Initializing DSL interface\n"); ++ ++ ++ /* start dsl */ ++ if(dslhal_api_dslStartup(&pIhw) !=0 ) ++ { ++ printk("DSL start failed.\n"); ++ return -1; ++ } ++ ++ // set dsl into overlay page reload mode ++ pIhw->bAutoRetrain = 1; ++ ++ // set default training properties ++ tn7dsl_set_dsl(); ++ ++ pIhw->pOsContext = priv; ++ ++ //start_kthread(tn7dsl_reload_overlay, &overlay_thread); ++ ++ /*register dslss LED with led module */ ++#ifdef CONFIG_LED_MODULE ++ tn7dsl_register_dslss_led(); ++#endif ++ ++ ++ return 0; /* What do we return here? */ ++} ++ ++/*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ++ * ++ * Function: int avsar_exit(void) ++ * ++ * Description: Avalanche SAR exit function ++ * ++ *~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~*/ ++ ++void tn7dsl_exit (void) ++{ ++ ++ bshutdown = 1; ++#ifdef CONFIG_LED_MODULE ++#ifdef DEREGISTER_LED ++ //down(&adsl_sem_overlay); ++ deregister_led_drv(LED_NUM_1); ++ deregister_led_drv(LED_NUM_2); ++#else ++// led_operation(MOD_ADSL,DEF_ADSL_IDLE); ++#endif ++#endif ++ stop_kthread(&overlay_thread); ++ dslhal_api_dslShutdown(pIhw); ++ ++} ++ ++ ++static int tn7dsl_process_oam_string(int *type, int *pvpi, int *pvci, int *pdelay) ++{ ++ int i=1; ++ int j=0; ++ int vci, vpi; ++ char tmp[16]; ++ int chan; ++ int tt; ++ ++ while(j<8) ++ { ++ tmp[j] = mod_req[i]; ++ //printk("tmp[%d]=%c, %d\n", j, tmp[j], tmp[j]); ++ if(tmp[j] == 0x50 || tmp[j] == 0x70) ++ break; ++ j++; ++ i++; ++ } ++ ++ tmp[j] = 0; ++ vpi = os_atoi(tmp); ++ ++ i++; ++ j=0; ++ while(j<8) ++ { ++ tmp[j] = mod_req[i]; ++ //printk("tmp[%d]=%c, %d\n", j, tmp[j], tmp[j]); ++ if(tmp[j] == 0x43 || tmp[j] == 0x63) ++ break; ++ ++ j++; ++ i++; ++ } ++ ++ vci = os_atoi(tmp); ++ ++ if(vci==0) // f4 oam ++ *type = 1; ++ else ++ *type = 0; ++ ++ ++ tt=5000; ++ i++; ++ j=0; ++ tmp[j] = mod_req[i]; ++ if(tmp[j]==0x44 || tmp[j]==0x64) ++ { ++ i++; ++ while(j<8) ++ { ++ tmp[j] = mod_req[i]; ++ ++ //printk("tmp[%d]=%c, %d\n", j, tmp[j], tmp[j]); ++ if(tmp[j] == 0x54 || tmp[j] == 0x74) ++ break; ++ ++ j++; ++ i++; ++ } ++ tt = os_atoi(tmp); ++ } ++ ++ chan = tn7atm_lut_find(vpi, vci); ++ ++ *pvci=vci; ++ *pvpi=vpi; ++ *pdelay =tt; ++ dprintf(2, "oam chan=%d, type =%d\n", chan, *type); ++ ++ return chan; ++} ++ ++static void tn7dsl_dump_memory(void) ++{ ++ unsigned int *pUi; ++ int i=1; ++ int j=0; ++ int addr, len; ++ char tmp[16]; ++ ++ ++ while(j<8) ++ { ++ tmp[j] = mod_req[i]; ++ j++; ++ i++; ++ } ++ ++ tmp[j] = 0; ++ ++ addr = os_atoh(tmp); ++ ++ printk("start dump address =0x%x\n", addr); ++ pUi = (unsigned int *)addr; ++ i++; ++ j=0; ++ while(j<8) ++ { ++ tmp[j] = mod_req[i]; ++ //printk("tmp[%d]=%c, %d\n", j, tmp[j], tmp[j]); ++ if(tmp[j] == 0x43 || tmp[j] == 0x63) ++ break; ++ ++ j++; ++ i++; ++ } ++ ++ len = os_atoi(tmp); ++ j=0; ++ for(i=0; i<len; i++) ++ { ++ if(j==0) ++ printk("0x%08x: ", (unsigned int)pUi); ++ printk("%08x ", *pUi); ++ pUi++; ++ j++; ++ if(j==4) ++ { ++ printk("\n"); ++ j=0; ++ } ++ } ++ ++} ++ ++ ++ ++static int dslmod_sysctl(ctl_table *ctl, int write, struct file * filp, ++ void *buffer, size_t *lenp) ++{ ++ char *ptr; ++ int ret, len = 0; ++ int chan; ++ int type; ++ int vpi,vci,timeout; ++ ++ if (!*lenp || (filp->f_pos && !write)) { ++ *lenp = 0; ++ return 0; ++ } ++ /* DSL MODULATION is changed */ ++ if(write) ++ { ++ ret = proc_dostring(ctl, write, filp, buffer, lenp); ++ ++ switch (ctl->ctl_name) ++ { ++ case DEV_DSLMOD: ++ ptr = strpbrk(info, " \t"); ++ strcpy(mod_req, info); ++ ++ /* parse the string to determine the action */ ++ if(mod_req[0] == 0x45 || mod_req[0] == 0x65 ) // 'e', or 'E' f5 end to end ++ { ++ chan = tn7dsl_process_oam_string(&type, &vpi, &vci, &timeout); ++ tn7sar_oam_generation(pIhw->pOsContext, chan, type, vpi, vci, timeout); ++ } ++ else if(mod_req[0] == 0x53 || mod_req[0] == 0x73 ) // 's', or 'S' f5 seg to seg ++ { ++ chan=tn7dsl_process_oam_string(&type, &vpi, &vci,&timeout); ++ type = type | (1<<1); ++ tn7sar_oam_generation(pIhw->pOsContext, chan, type, vpi, vci,timeout); ++ } ++ //debug only. Dump memory ++ else if(mod_req[0] == 0x44 || mod_req[0] == 0x64 ) // 'd' or 'D' ++ tn7dsl_dump_memory(); ++ else ++ tn7dsl_chng_modulation(info); ++ break; ++ } ++ } ++ else ++ { ++ len += sprintf(info+len, mod_req); ++ ret = proc_dostring(ctl, write, filp, buffer, lenp); ++ } ++ return ret; ++} ++ ++ ++ctl_table dslmod_table[] = { ++ {DEV_DSLMOD, "dslmod", info, DSL_MOD_SIZE, 0644, NULL, &dslmod_sysctl}, ++ {0} ++ }; ++ ++/* Make sure that /proc/sys/dev is there */ ++ctl_table dslmod_root_table[] = { ++#ifdef CONFIG_PROC_FS ++ {CTL_DEV, "dev", NULL, 0, 0555, dslmod_table}, ++#endif /* CONFIG_PROC_FS */ ++ {0} ++ }; ++ ++static struct ctl_table_header *dslmod_sysctl_header; ++ ++void tn7dsl_dslmod_sysctl_register(void) ++{ ++ static int initialized; ++ ++ if (initialized == 1) ++ return; ++ ++ dslmod_sysctl_header = register_sysctl_table(dslmod_root_table, 1); ++ dslmod_root_table->child->de->owner = THIS_MODULE; ++ ++ /* set the defaults */ ++ info[0] = 0; ++ ++ initialized = 1; ++} ++ ++void tn7dsl_dslmod_sysctl_unregister(void) ++{ ++ unregister_sysctl_table(dslmod_sysctl_header); ++} ++ ++static void ++tn7dsl_set_modulation(void* data) ++{ ++ dprintf(4,"tn7dsl_set_modulation\n"); ++ ++ if(!strcmp(data, "T1413")) ++ { ++ printk("retraining in T1413 mode\n"); ++ dslhal_api_setTrainingMode(pIhw, T1413_MODE); ++ return; ++ } ++ if(!strcmp(data, "GDMT")) ++ { ++ dslhal_api_setTrainingMode(pIhw, GDMT_MODE); ++ return; ++ } ++ if(!strcmp(data, "GLITE")) ++ { ++ dslhal_api_setTrainingMode(pIhw, GLITE_MODE); ++ return; ++ } ++ if(!strcmp(data, "MMODE")) ++ { ++ dslhal_api_setTrainingMode(pIhw, MULTI_MODE); ++ return; ++ } ++ if(!strcmp(data, "NMODE")) ++ { ++ dslhal_api_setTrainingMode(pIhw, NO_MODE); ++ return; ++ } ++ ++ return; ++} ++ ++ ++/* Codes added for compiling tiadiag.o for Analog Diagnostic tests */ ++#ifdef ADIAG ++ ++enum ++{ ++ HOST_ACTREQ, // Send R-ACKREQ and monitor for C-ACKx ++ HOST_QUIET, // Sit quietly doing nothing for about 60 seconds, DEFAULT STATE; R_IDLE ++ HOST_XMITBITSWAP, // Perform upstream bitswap - FOR INTERNAL USE ONLY ++ HOST_RCVBITSWAP, // Perform downstream bitswap - FOR INTERNAL USE ONLY ++ HOST_RTDLPKT, // Send a remote download packet - FOR INTERNAL USE ONLY ++ HOST_CHANGELED, // Read the LED settings and change accordingly ++ HOST_IDLE, // Sit quiet ++ HOST_REVERBTEST, // Generate REVERB for manufacturing test ++ HOST_CAGCTEST, // Set coarse receive gain for manufacturing test ++ HOST_DGASP, // send Dying Gasp messages through EOC channel ++ HOST_GHSREQ, // G.hs - FOR INTERNAL USE ONLY ++ HOST_GHSMSG, // G.hs - FOR INTERNAL USE ONLY ++ HOST_GHS_SENDGALF, // G.hs - FOR INTERNAL USE ONLY ++ HOST_GHSEXIT, // G.hs - FOR INTERNAL USE ONLY ++ HOST_GHSMSG1, // G.hs - FOR INTERNAL USE ONLY ++ HOST_HYBRID, // Enable/Disable automatic hybrid switch ++ HOST_RJ11SELECT, // RJ11 inner/outer pair select ++ HOST_DIGITAL_MEM, // Digital Diags: run external memory tests ++ HOST_TXREVERB, // AFE Diags: TX path Reverb ++ HOST_TXMEDLEY, // AFE Diags: TX path Medley ++ HOST_RXNOISEPOWER, // AFE Diags: RX noise power ++ HOST_ECPOWER, // AFE Diags: RX eco power ++ HOST_ALL_ADIAG, // AFE Diags: all major analog diagnostic modes. Host is responsible to initiate each diagnostic sessions ++ HOST_USER_ADIAG, // AFE Diags: Host fills in analog diagnostic input data structure as specified and requests DSP to perform measurements as specified ++ HOST_QUIT_ADIAG, // AFE Diags: Host requests DSP to quit current diagnostic session. This is used for stopping the transmit REVERB/MEDLEY ++ HOST_NO_CMD, // All others - G.hs - FOR INTERNAL USE ONLY ++ HOST_DSLSS_SHUTDOWN, // Host initiated DSLSS shutdown message ++ HOST_SET_GENERIC, // Set generic CO profile ++ HOST_UNDO_GENERIC // Set profile previous to Generic ++}; ++ ++enum ++{ ++ DSP_IDLE, // R_IDLE state entered ++ DSP_ACTMON, // R_ACTMON state entered ++ DSP_TRAIN, // R_TRAIN state entered ++ DSP_ACTIVE, // R_ACTIVE state entered ++ DSP_XMITBITSWAP, // Upstream bitswap complete - FOR INTERNAL USE ONLY ++ DSP_RCVBITSWAP, // Downstream bitswap complete - FOR INTERNAL USE ONLY ++ DSP_RTDL, // R_RTDL state entered - FOR INTERNAL USE ONLY ++ DSP_RRTDLPKT, // RTDL packet received - FOR INTERNAL USE ONLY ++ DSP_XRTDLPKT, // RTDL packet transmitted - FOR INTERNAL USE ONLY ++ DSP_ERROR, // Command rejected, wrong state for this command ++ DSP_REVERBTEST, // Manufacturing REVERB test mode entered ++ DSP_CAGCTEST, // Manufacturing receive gain test done ++ DSP_OVERLAY_START, // Notify host that page overlay has started - overlay number indicated by "tag" ++ DSP_OVERLAY_END, // Notify host that page overlay has ended - overlay number indicated by "tag" ++ DSP_CRATES1, // CRATES1 message is valid and should be copied to host memory now ++ DSP_SNR, // SNR calculations are ready and should be copied to host memory now ++ DSP_GHSMSG, // G.hs - FOR INTERNAL USE ONLY ++ DSP_RCVBITSWAP_TIMEOUT, // Acknowledge Message was not received within ~500 msec (26 Superframes). ++ DSP_ATM_TC_SYNC, // Indicates true TC sync on both the upstream and downstream. Phy layer ready for data xfer. ++ DSP_ATM_NO_TC_SYNC, // Indicates loss of sync on phy layer on either US or DS. ++ DSP_HYBRID, // DSP completed hybrid switch ++ DSP_RJ11SELECT, // DSP completed RJ11 inner/outer pair select ++ DSP_INVALID_CMD, // Manufacturing (Digital and AFE) diags: CMD received not recognized ++ DSP_TEST_PASSED, // Manufacturing diags: test passed ++ DSP_TEST_FAILED, // Manufacturing diags: test failed ++ DSP_TXREVERB, // Manufacturing AFE diags: Response to HOST_TXREVERB ++ DSP_TXMEDLEY, // Manufacturing AFE diags: Response to HOST_TXMEDLEY ++ DSP_RXNOISEPOWER, // Manufacturing AFE diags: Response to HOST_RXNOISEPOWER ++ DSP_ECPOWER, // Manufacturing AFE diags: Response to HOST_ECPOWER ++ DSP_ALL_ADIAG, // Manufacturing AFE diags: Response to HOST_ALL_ADIAG ++ DSP_USER_ADIAG, // Manufacturing AFE diags: Response to HOST_USER_ADIAG ++ DSP_QUIT_ADIAG, // Manufacturing AFE diags: Response to HOST_QUIT_ADIAG ++ DSP_DGASP // DSP Message to indicate dying gasp ++}; ++ ++static unsigned char analogNoTonesTestArray[64]= ++ { ++ 0,0,0,0,0,0,0,0, // Tones 01-08 ++ 0,0,0,0,0,0,0,0, // Tones 09-16 ++ 0,0,0,0,0,0,0,0, // Tones 17-24 ++ 0,0,0,0,0,0,0,0, // Tones 25-32 ++ 0,0,0,0,0,0,0,0, // Tones 33-40 ++ 0,0,0,0,0,0,0,0, // Tones 41-48 ++ 0,0,0,0,0,0,0,0, // Tones 49-56 ++ 0,0,0,0,0,0,0,0 // Tones 57-64 ++ }; ++ ++static unsigned char analogAllTonesTestArray[64]= ++ { ++ 1,1,1,1,1,1,1,1, // Tones 01-08 ++ 1,1,1,1,1,1,1,1, // Tones 09-16 ++ 1,1,1,1,1,1,1,1, // Tones 17-24 ++ 1,1,1,1,1,1,1,1, // Tones 25-32 ++ 1,1,1,1,1,1,1,1, // Tones 33-40 ++ 1,1,1,1,1,1,1,1, // Tones 41-48 ++ 1,1,1,1,1,1,1,1, // Tones 49-56 ++ 1,1,1,1,1,1,1,1 // Tones 57-64 ++ }; ++ ++static unsigned char analogEvenTonesTestArray[64]= ++ { ++ 0,1,0,1,0,1,0,1, // Tones 01-08 ++ 0,1,0,1,0,1,0,1, // Tones 09-16 ++ 0,1,0,1,0,1,0,1, // Tones 17-24 ++ 0,1,0,1,0,1,0,1, // Tones 25-32 ++ 0,1,0,1,0,1,0,1, // Tones 33-40 ++ 0,1,0,1,0,1,0,1, // Tones 41-48 ++ 0,1,0,1,0,1,0,1, // Tones 49-56 ++ 0,1,0,1,0,1,0,1 // Tones 57-64 ++ }; ++ ++static unsigned char analogOddTonesTestArray[64]= ++ { ++ 1,0,1,0,1,0,1,0, // Tones 01-08 ++ 1,0,1,0,1,0,1,0, // Tones 09-16 ++ 1,0,1,0,1,0,1,0, // Tones 17-24 ++ 1,0,1,0,1,0,1,0, // Tones 25-32 ++ 1,0,1,0,1,0,1,0, // Tones 33-40 ++ 1,0,1,0,1,0,1,0, // Tones 41-48 ++ 1,0,1,0,1,0,1,0, // Tones 49-56 ++ 1,0,1,0,1,0,1,0 // Tones 57-64 ++ }; ++ ++unsigned int shim_osGetCpuFrequency(void) ++{ ++ return 150; ++} ++ ++static void tn7dsl_adiag(int Test, unsigned char *missingTones) ++{ ++ int rc,cmd, tag; ++ ++ rc = dslhal_diags_anlg_setMissingTones(pIhw,missingTones); ++ if(rc) ++ { ++ printk(" failed to set Missing town\n"); ++ return; ++ } ++ ++/*********** Start the actual test **********************/ ++ ++ if(Test==0) ++ { ++ printk("TX REVERB Test\n"); ++ rc = dslhal_support_writeHostMailbox(pIhw, HOST_TXREVERB, 0, 0, 0); ++ if (rc) ++ { ++ printk("HOST_TXREVERB failed\n"); ++ return; ++ } ++ ++ } ++ if(Test==1) ++ { ++ dprintf(0,"TX MEDLEY Test\n"); ++ rc = dslhal_support_writeHostMailbox(pIhw, HOST_TXMEDLEY, 0, 0, 0); ++ if (rc) ++ return; ++ } ++ dprintf(4,"dslhal_diags_anlg_testA() done\n"); ++ return; ++} ++ ++ ++static void tn7dsl_diagnostic_test(char *data) ++{ ++ if(!strcmp(data, "ADIAGRALL")) ++ { ++ printk("TX Reverb All tone\n"); ++ tn7dsl_adiag(0,analogAllTonesTestArray); ++ return; ++ } ++ if(!strcmp(data, "ADIAGRNONE")) ++ { ++ printk("TX Reverb No tone\n"); ++ tn7dsl_adiag(0,analogNoTonesTestArray); ++ return; ++ } ++ if(!strcmp(data, "ADIAGREVEN")) ++ { ++ printk("TX Reverb Even tone\n"); ++ tn7dsl_adiag(0,analogEvenTonesTestArray); ++ return; ++ } ++ if(!strcmp(data, "ADIAGRODD")) ++ { ++ printk("TX Reverb Odd tone\n"); ++ tn7dsl_adiag(0,analogOddTonesTestArray); ++ return; ++ } ++ if(!strcmp(data, "ADIAGMALL")) ++ { ++ printk("TX Mdelay All tone\n"); ++ tn7dsl_adiag(1,analogAllTonesTestArray); ++ return; ++ } ++ if(!strcmp(data, "ADIAGMNONE")) ++ { ++ printk("TX Mdelay No tone\n"); ++ tn7dsl_adiag(1,analogNoTonesTestArray); ++ return; ++ } ++ if(!strcmp(data, "ADIAGMEVEN")) ++ { ++ printk("TX Mdelay Even tone\n"); ++ tn7dsl_adiag(1,analogEvenTonesTestArray); ++ return; ++ } ++ if(!strcmp(data, "ADIAGMODD")) ++ { ++ printk("TX Mdelay Odd tone\n"); ++ tn7dsl_adiag(1,analogOddTonesTestArray); ++ return; ++ } ++ if(!strcmp(data, "ADIAGQUIET")) ++ { ++ dslhal_api_sendIdle(pIhw); ++ return; ++ } ++ if(!strncmp(data, "ADIAGRN", 7)) ++ { ++ char tones[64], tmp[4]; ++ int nth, i; ++ ++ tmp[0]=data[7]; ++ tmp[1]=data[8]; ++ tmp[2]=data[9]; ++ ++ nth = os_atoi(tmp); ++ ++ for(i=0;i<64;i++) ++ { ++ if(((i+1)% nth)==0) ++ { ++ tones[i]=0; ++ } ++ else ++ { ++ tones[i]=1; ++ } ++ } ++ printk("TX Reverb with %dth tones missing.\n", nth); ++ tn7dsl_adiag(0,tones); ++ return; ++ } ++ if(!strncmp(data, "ADIAGMN", 7)) ++ { ++ char tones[64], tmp[4]; ++ int nth, i; ++ ++ tmp[0]=data[7]; ++ tmp[1]=data[8]; ++ tmp[2]=data[9]; ++ nth = os_atoi(tmp); ++ ++ for(i=0;i<64;i++) ++ { ++ if(((i+1)% nth)==0) ++ { ++ tones[i]=0; ++ } ++ else ++ { ++ tones[i]=1; ++ } ++ } ++ printk("TX Mdelay with %dth tones missing.\n", nth); ++ tn7dsl_adiag(1,tones); ++ return; ++ } ++ ++ ++} ++ ++#endif ++ ++static void ++tn7dsl_chng_modulation(void* data) ++{ ++ //printk("DSL Modem Retraining\n"); ++ ++ if(!strcmp(data, "T1413")) ++ { ++ printk("retraining in T1413 mode\n"); ++ dslhal_api_setTrainingMode(pIhw, T1413_MODE); ++ dslhal_api_sendQuiet(pIhw); ++ return; ++ } ++ if(!strcmp(data, "GDMT")) ++ { ++ dslhal_api_setTrainingMode(pIhw, GDMT_MODE); ++ dslhal_api_sendQuiet(pIhw); ++ return; ++ } ++ if(!strcmp(data, "GLITE")) ++ { ++ dslhal_api_setTrainingMode(pIhw, GLITE_MODE); ++ dslhal_api_sendQuiet(pIhw); ++ return; ++ } ++ if(!strcmp(data, "MMODE")) ++ { ++ dslhal_api_setTrainingMode(pIhw, MULTI_MODE); ++ dslhal_api_sendQuiet(pIhw); ++ return; ++ } ++ if(!strcmp(data, "NMODE")) ++ { ++ dslhal_api_setTrainingMode(pIhw, NO_MODE); ++ dslhal_api_sendQuiet(pIhw); ++ return; ++ } ++ ++#ifdef ADIAG ++ tn7dsl_diagnostic_test(data); ++#endif ++ ++ ++ return; ++} ++ ++#ifdef CONFIG_LED_MODULE ++static void tn7dsl_led_on(unsigned long parm) ++{ ++ dslhal_api_configureLed(pIhw,parm, 0); ++} ++ ++ ++static void tn7dsl_led_off(unsigned long parm) ++{ ++ dslhal_api_configureLed(pIhw,parm, 1); ++} ++ ++static void tn7dsl_led_init(unsigned long parm) ++{ ++ dslhal_api_configureLed(pIhw,parm, 2); ++} ++#endif ++ ++static void tn7dsl_register_dslss_led(void) ++{ ++#ifdef CONFIG_LED_MODULE ++ ++ // register led0 with led module ++ ledreg[0].param = 0; ++ ledreg[0].init = (void *)tn7dsl_led_init; ++ ledreg[0].onfunc = (void *)tn7dsl_led_on; ++ ledreg[0].offfunc = (void *)tn7dsl_led_off; ++ register_led_drv(LED_NUM_1, &ledreg[0]); ++ ++ // register led1 output with led module ++ ledreg[1].param = 1; ++ ledreg[1].init = (void *)tn7dsl_led_init; ++ ledreg[1].onfunc = (void *)tn7dsl_led_on; ++ ledreg[1].offfunc = (void *)tn7dsl_led_off; ++ register_led_drv(LED_NUM_2, &ledreg[1]); ++#endif ++} ++ ++static int tn7dsl_reload_overlay(void) ++{ ++ int overlayFlag; ++ spinlock_t overlayLock; ++ ++ init_kthread(&overlay_thread, "adsl"); ++ down(&adsl_sem_overlay); ++ while(1) ++ { ++ mdelay(500); ++ if(pIhw->lConnected == 0) ++ { ++ spin_lock_irqsave(&overlayLock, overlayFlag); ++ dslhal_support_restoreTrainingInfo(pIhw); ++ spin_unlock_irqrestore(&overlayLock, overlayFlag); ++ } ++ down(&adsl_sem_overlay); ++ } ++ return 0; ++} ++ ++ ++ ++ +diff -urN linux.old/drivers/atm/sangam_atm/tn7sar.c linux.dev/drivers/atm/sangam_atm/tn7sar.c +--- linux.old/drivers/atm/sangam_atm/tn7sar.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/tn7sar.c 2005-08-23 04:46:50.110841720 +0200 +@@ -0,0 +1,1376 @@ ++/****************************************************************************** ++ * FILE PURPOSE: OS files for CPSAR ++ ****************************************************************************** ++ * FILE NAME: tn7sar.c ++ * ++ * DESCRIPTION: This file contains source for required os files for CPSAR ++ * ++ * (C) Copyright 2002, Texas Instruments Inc ++ * ++ * ++ * Revision History: ++ * 0/11/02 Zhicheng Tang, created. ++ * ++ *******************************************************************************/ ++ ++#include <linux/config.h> ++#include <linux/kernel.h> ++#include <linux/module.h> ++#include <linux/init.h> ++#include <linux/atmdev.h> ++#include <linux/delay.h> ++#include <linux/spinlock.h> ++#include <linux/smp_lock.h> ++#include <asm/io.h> ++#include <asm/mips-boards/prom.h> ++#include <linux/proc_fs.h> ++#include <linux/string.h> ++#include <linux/ctype.h> ++ ++ ++#define _CPHAL_AAL5 ++#define _CPHAL_SAR ++#define _CPHAL_HAL ++typedef void OS_PRIVATE; ++typedef void OS_DEVICE; ++typedef void OS_SENDINFO; ++typedef void OS_RECEIVEINFO; ++typedef void OS_SETUP; ++ ++#include "cpswhal_cpsar.h" ++#include "tn7atm.h" ++#include "tn7api.h" ++ ++ ++/* PDSP Firmware files */ ++#include "tnetd7300_sar_firm.h" ++ ++ ++enum ++{ ++ PACKET_TYPE_AAL5, ++ PACKET_TYPE_NULL, ++ PACKET_TYPE_OAM, ++ PACKET_TYPE_TRANS, ++ PACKET_TYPE_AAL2 ++}PACKET_TYPE; ++ ++enum ++{ ++ OAM_PING_FAILED, ++ OAM_PING_SUCCESS, ++ OAM_PING_PENDING, ++ OAM_PING_NOT_STARTED ++}OAM_PING; ++ ++/* PDSP OAM General Purpose Registers (@todo: These need to be used in the HAL!) */ ++ ++#define SAR_PDSP_HOST_OAM_CONFIG_REG_ADDR 0xa3000020 ++#define SAR_PDSP_OAM_CORR_REG_ADDR 0xa3000024 ++#define SAR_PDSP_OAM_LB_RESULT_REG_ADDR 0xa3000028 ++#define SAR_PDSP_OAM_F5LB_COUNT_REG_ADDR 0xa300002c ++#define SAR_PDSP_OAM_F4LB_COUNT_REG_ADDR 0xa3000030 ++ ++#define SAR_FREQUNCY 50000000 ++ ++#define AAL5_PARM "id=aal5, base = 0x03000000, offset = 0, int_line=15, ch0=[RxBufSize=1522; RxNumBuffers = 32; RxServiceMax = 50; TxServiceMax=50; TxNumBuffers=32; CpcsUU=0x5aa5; TxVc_CellRate=0x3000; TxVc_AtmHeader=0x00000640]" ++#define SAR_PARM "id=sar,base = 0x03000000, reset_bit = 9, offset = 0; UniNni = 0, PdspEnable = 1" ++#define RESET_PARM "id=ResetControl, base=0xA8611600" ++#define CH0_PARM "RxBufSize=1522, RxNumBuffers = 32, RxServiceMax = 50, TxServiceMax=50, TxNumBuffers=32, CpcsUU=0x5aa5, TxVc_CellRate=0x3000, TxVc_AtmHeader=0x00000640" ++ ++#define MAX_PVC_TABLE_ENTRY 16 ++ ++sar_stat_t sarStat; ++ ++typedef struct _channel_parm ++{ ++ unsigned int RxBufSize; ++ unsigned int RxNumBuffers; ++ unsigned int RxServiceMax; ++ unsigned int TxServiceMax; ++ unsigned int TxNumBuffers; ++ unsigned int CpcsUU; ++ unsigned int TxVc_CellRate; ++ unsigned int TxVc_AtmHeader; ++}channel_parm_t; ++ ++typedef struct _aal5_parm ++{ ++ unsigned int base; ++ unsigned int offset; ++ unsigned int int_line; ++ channel_parm_t chan[8]; ++}aal5_parm_t; ++ ++ ++typedef struct _sar_parm ++{ ++ unsigned int base; ++ unsigned int reset_bit; ++ unsigned int offset; ++ unsigned int UniNni; ++}sar_parm_t; ++ ++typedef struct _pvc_table ++{ ++ int bInUse; ++ int vpi; ++ int vci; ++}pvc_table; ++ ++static aal5_parm_t aal5Parm; ++static sar_parm_t sarParm; ++static char *pAal5, *pSar, *pReset; ++static int oam_type; ++static unsigned int oamPingStatus; ++static int oamAtmHdr; ++static int oamLbTimeout; ++static char parm_data[1024]; ++static char aal5Data[1024]; ++static char sarData[1024]; ++static char resetData[256]; ++static pvc_table pvc_result[MAX_PVC_TABLE_ENTRY]; ++ ++/* external function */ ++extern int __guDbgLevel; ++ ++/* gloabal function */ ++unsigned int oamFarLBCount[4]; ++/* end of gloabal function */ ++ ++/* internal APIs */ ++static int tn7sar_atm_header(int vpi, int vci); ++static void tn7sar_record_pvc(int atmheader); ++ ++/*end of internal APIs */ ++spinlock_t sar_lock; ++ ++/* HAL OS support functions */ ++ ++ ++unsigned long tn7sar_strtoul(const char *str, char **endptr, int base) ++{ ++ unsigned long ret; ++ ++ ret= simple_strtoul(str, endptr, base); ++ return ret; ++} ++ ++static void *tn7sar_malloc(unsigned int size) ++{ ++ return(kmalloc(size, GFP_KERNEL)); ++} ++ ++static unsigned long lockflags; ++static void tn7sar_critical_on(void) ++{ ++ spin_lock_irqsave(&sar_lock,lockflags); ++} ++ ++static void tn7sar_critical_off(void) ++{ ++ spin_unlock_irqrestore(&sar_lock,lockflags); ++} ++ ++static void tn7sar_data_invalidate(void *pmem, int size) ++{ ++ unsigned int i,Size=(((unsigned int)pmem)&0xf)+size; ++ ++ for (i=0;i<Size;i+=16,pmem+=16) ++ { ++ __asm__(" .set mips3 "); ++ __asm__("cache 17, (%0)" : : "r" (pmem)); ++ __asm__(" .set mips0 "); ++ } ++ ++} ++ ++static void tn7sar_data_writeback(void *pmem, int size) ++{ ++ unsigned int i,Size=(((unsigned int)pmem)&0xf)+size; ++ ++ for (i=0;i<Size;i+=16,pmem+=16) ++ { ++ __asm__(" .set mips3 "); ++ __asm__(" cache 25, (%0)" : : "r" (pmem)); ++ __asm__(" .set mips0 "); ++ } ++} ++ ++ ++static int ++tn7sar_find_device(int unit, const char *find_name, void *device_info) ++{ ++ int ret_val = 0; ++ char **ptr; ++ ++ ptr = (char **)device_info; ++ dprintf(3,"tn7sar_find_device\n"); ++ if(strcmp(find_name, "aal5")==0) ++ { ++ //dprintf(4,"pAal5=%s\n", pAal5); ++ *ptr = pAal5; ++ } ++ else if(strcmp(find_name, "sar")==0) ++ { ++ dprintf(3, "pSar=%s\n", pSar); ++ *ptr = pSar; ++ } ++ else if(strcmp(find_name, "reset")==0) ++ { ++ dprintf(3, "pReset=%s\n", pReset); ++ *ptr = pReset; ++ } ++ ++ device_info = NULL; ++ ++ return(ret_val); ++} ++ ++static int ++tn7sar_get_device_parm_uint(void *dev_info, const char *param, unsigned int *value) ++{ ++ char *dev_str; ++ char *pMatch; ++ int i=0, j=0; ++ char val_str[64]; ++ unsigned int val; ++ int base = 10; ++ ++ dprintf(6, "tn7sar_get_device_parm_uint()\n"); ++ ++ dev_str = (char *)dev_info; ++ dprintf(3, "parm=%s\n", param); ++ pMatch = strstr(dev_str, param); ++ //dprintf(4, "pMatch=%s\n", pMatch); ++ if(pMatch) ++ { ++ //get "=" position ++ while(pMatch[i] != 0x3d) ++ { ++ i++; ++ } ++ i++; ++ // get rid of spaces ++ while(pMatch[i]==0x20) ++ { ++ i++; ++ } ++ //get rid of 0x ++ if(pMatch[i]==0x30) ++ { ++ if(pMatch[i+1] == 0x58 || pMatch[i+1] == 0x78) ++ { ++ i+=2; ++ base = 16; ++ } ++ } ++ ++ // get next delineator ++ while(pMatch[i] != 0x2c && pMatch[i] != 0x0) ++ { ++ val_str[j]=pMatch[i]; ++ j++; ++ i++; ++ } ++ val_str[j]=0; ++ //dprintf(4, "val_str=\n%s\n", val_str); ++ //xdump(val_str, strlen(val_str) + 1, 4); ++ val = simple_strtoul(val_str, (char **)NULL, base); ++ dprintf(4, "val =%d\n", val); ++ *value = val; ++ return 0; ++ } ++ ++ ++ dprintf(3, "match not found.\n"); ++ if(strcmp(dev_str, "debug")==0) ++ { ++ dprintf(6,"debug..\n"); ++ *value = 6; ++ return 0; ++ } ++ return (1); ++} ++ ++static int tn7sar_get_device_parm_value(void *dev_info, const char *param, void *value) ++{ ++ char *dev_str; ++ char *pMatch; ++ int i=0, j=0; ++ char *pVal; ++ ++ ++ dprintf(3, "tn7sar_get_device_parm_value().\n"); ++ ++ pVal = (char *) parm_data; ++ dev_str = (char *)dev_info; ++ dprintf(3, "dev_info: \n%s\n", dev_str); ++ dprintf(3, "param=%s\n", param); ++ if(strcmp(param, "Ch0")==0) ++ { ++ *(char **)value = CH0_PARM; ++ dprintf(3, "value =%s\n", *(char **)value); ++ return 0; ++ } ++ ++ pMatch = strstr(dev_str, param); ++ if(pMatch) ++ { ++ //get "=" position ++ while(pMatch[i] != 0x3d) ++ { ++ i++; ++ } ++ i++; ++ // get rid of spaces ++ while(pMatch[i]==0x20) ++ { ++ i++; ++ } ++ ++ if(pMatch[i] != 0x5b) //"[" ++ { ++ // get next delineator ++ while(pMatch[i] != 0x2c && pMatch[i] != 0x0) ++ { ++ pVal[j] = pMatch[i]; ++ j++; ++ i++; ++ } ++ pVal[j]=0; ++ ++ *(char **)value = pVal; ++ return 0; ++ } ++ else ++ { ++ i++; //skip "[" ++ while(pMatch[i] != 0x5d) ++ { ++ if(pMatch[i] == 0x3b) //";" ++ pVal[j] = 0x2c; ++ else ++ pVal[j] = pMatch[i]; ++ j++; ++ i++; ++ } ++ pVal[j] = 0; ++ *(char **)value = pVal; ++ return 0; ++ } ++ ++ } ++ ++ return (1); ++} ++ ++static void tn7sar_free(void *pmem) ++{ ++ kfree(pmem); ++} ++ ++static void ++tn7sar_free_buffer(OS_RECEIVEINFO *os_receive_info, void *pmem) ++{ ++ tn7atm_free_rx_skb(os_receive_info); ++} ++ ++static void tn7sar_free_dev(void *pmem) ++{ ++ kfree(pmem); ++} ++ ++static void tn7sar_free_dma_xfer(void *pmem) ++{ ++ kfree(pmem); ++} ++ ++ ++static int ++tn7sar_control(void *dev_info, const char *key, const char *action, void *value) ++{ ++ int ret_val = -1; ++ ++ if (strcmp(key, "Firmware") == 0) ++ { ++ if (strcmp(action, "Get") == 0) ++ { ++ *(int **)value = &SarPdspFirmware[0]; ++ } ++ ret_val=0; ++ } ++ ++ if (strcmp(key, "FirmwareSize") == 0) ++ { ++ if (strcmp(action, "Get") == 0) ++ { ++ *(int *)value = sizeof(SarPdspFirmware); ++ } ++ ret_val=0; ++ } ++ ++ if (strcmp(key, "OamLbResult") == 0) ++ { ++ dprintf(2, "get looback source call back\n"); ++ if (strcmp(action, "Set") == 0) ++ { ++ dprintf(2, "oam result = %d\n", *(unsigned int *)value); ++ oamFarLBCount[oam_type] = oamFarLBCount[oam_type] + *(unsigned int *)value; ++ if(oamPingStatus == OAM_PING_PENDING) ++ { ++ oamPingStatus = *(unsigned int *)value; ++ if(oamPingStatus == OAM_PING_SUCCESS) ++ { ++ /* record pvc */ ++ tn7sar_record_pvc(oamAtmHdr); ++ } ++ } ++ ++ } ++ ret_val=0; ++ } ++ ++ if (strcmp(key, "SarFreq") == 0) ++ { ++ if (strcmp(action, "Get") == 0) ++ { ++ *(int *)value = SAR_FREQUNCY; ++ } ++ ret_val=0; ++ } ++ return(ret_val); ++} ++ ++ ++static void ++tn7sar_sarhal_isr_register(OS_DEVICE *os_dev, int(*hal_isr)(HAL_DEVICE *, int *), int interrupt_num) ++{ ++ tn7atm_sarhal_isr_register(os_dev, hal_isr, interrupt_num); ++} ++ ++static void ++tn7sar_isr_unregister(OS_DEVICE *os_dev, int interrupt_num) ++{ ++ /* TODO */ ++} ++ ++ ++static void * ++tn7sar_malloc_rxbuffer(unsigned int size, void *mem_base, unsigned int mem_range, HAL_DEVICE *hal_dev, ++ HAL_RECEIVEINFO *hal_info, OS_RECEIVEINFO **os_receive_info, OS_DEVICE *os_dev) ++{ ++ return tn7atm_allocate_rx_skb(os_dev, os_receive_info, size); ++} ++ ++static void * ++tn7sar_malloc_dev(unsigned int size) ++{ ++ return(kmalloc(size, GFP_KERNEL)); ++} ++ ++static void * ++tn7sar_malloc_dma_xfer(unsigned int size, void *mem_base, unsigned int mem_range) ++{ ++ dprintf(4, "tn7sar_malloc_dma_xfer, size =%d\n", size); ++ ++ return (kmalloc(size, GFP_DMA |GFP_KERNEL)); ++ ++} ++ ++static void * ++tn7sar_memset(void *dst, int set_char, size_t count) ++{ ++ return (memset(dst, set_char, count)); ++} ++ ++static int tn7sar_printf(const char *format, ...) ++{ ++ /* TODO: add debug levels */ ++ static char buff[256]; ++ va_list ap; ++ ++ va_start( ap, format); ++ vsprintf((char *)buff, format, ap); ++ va_end(ap); ++ ++ printk("SAR HAL: %s\n", buff); ++ return(0); ++} ++ ++static void tn7sar_record_pvc(int atmheader) ++{ ++ int vci,vpi; ++ int i; ++ ++ vci = 0xffff & (atmheader >> 4); ++ vpi = 0xff & (atmheader >> 20); ++ for(i=0;i<MAX_PVC_TABLE_ENTRY;i++) ++ { ++ if(pvc_result[i].bInUse) ++ { ++ if(pvc_result[i].vpi == vpi && pvc_result[i].vci == vci) ++ { ++ return; ++ } ++ } ++ } ++ for(i=0;i<MAX_PVC_TABLE_ENTRY;i++) ++ { ++ if(pvc_result[i].bInUse == 0) ++ { ++ pvc_result[i].bInUse = 1; ++ pvc_result[i].vpi = vpi; ++ pvc_result[i].vci = vci; ++ return; ++ } ++ } ++ return; ++} ++ ++static void tn7sar_clear_pvc_table(void) ++{ ++ int i; ++ ++ for(i=0;i<MAX_PVC_TABLE_ENTRY; i++) ++ { ++ pvc_result[i].bInUse = 0; ++ pvc_result[i].vpi = 0; ++ pvc_result[i].vci = 0; ++ } ++} ++ ++int tn7sar_process_unmatched_oam(FRAGLIST *frag_list, unsigned int frag_count, unsigned int packet_size, unsigned int mode) ++{ ++ ++ FRAGLIST *local_list; ++ int i; ++ unsigned int atmHdr; ++ ++ local_list = frag_list; ++ ++ for(i=0;i<(int)frag_count;i++) ++ { ++ tn7sar_data_invalidate(local_list->data, (int)local_list->len); ++ local_list ++; ++ } ++ local_list = frag_list; ++ if((mode>>31)) /*vci, vpi is attached */ ++ { ++ atmHdr = *(unsigned int *)frag_list->data; ++ tn7sar_record_pvc(atmHdr); ++ if(atmHdr & 0x8) //oam cell ++ { ++ atmHdr &= 0xfffffff0; ++ if(atmHdr == oamAtmHdr) ++ { ++ if(oamPingStatus == OAM_PING_PENDING) ++ { ++ oamPingStatus = OAM_PING_SUCCESS; ++ oamFarLBCount[oam_type] = oamFarLBCount[oam_type] + 1; ++ } ++ return 0; ++ } ++ } ++ } ++ ++ return 0; ++} ++ ++ ++static int ++tn7sar_receive(OS_DEVICE *os_dev,FRAGLIST *frag_list, unsigned int frag_count, unsigned int packet_size, ++ HAL_RECEIVEINFO *hal_receive_info, unsigned int mode) ++{ ++ int ch; ++ struct atm_dev *dev; ++ Tn7AtmPrivate *priv; ++ HAL_FUNCTIONS *pHalFunc; ++ HAL_DEVICE *pHalDev; ++ int bRet; ++ ++ ++ dprintf(4, "tn7sar_receive\n"); ++ ++ dev = (struct atm_dev *)os_dev; ++ priv= (Tn7AtmPrivate *)dev->dev_data; ++ pHalFunc = (HAL_FUNCTIONS *)priv->pSarHalFunc; ++ pHalDev = (HAL_DEVICE *)priv->pSarHalDev; ++ ++ ++ /* Mode contains channel info */ ++ ch = (mode & 0xFF); ++ ++ if(ch == 15) ++ { ++ tn7sar_process_unmatched_oam(frag_list, frag_count, packet_size, mode); ++ pHalFunc->RxReturn(hal_receive_info, 0); ++ return 0; ++ } ++ ++ if(frag_count > 1 || frag_list->len == 0) ++ { ++ printk("Packet fragment count > 1, not handdle.\n"); ++ return 1; ++ } ++ ++ tn7sar_data_invalidate(frag_list->data, (int)frag_list->len); ++ bRet=tn7atm_receive(os_dev, ch, packet_size, frag_list->OsInfo, frag_list->data); ++ ++ if(bRet==0) ++ { ++ sarStat.rxPktCnt++; ++ sarStat.rxBytes += packet_size; ++ pHalFunc->RxReturn(hal_receive_info, 1); ++ } ++ else ++ { ++ pHalFunc->RxReturn(hal_receive_info, 0); ++ } ++ ++ return bRet; ++} ++ ++static int ++tn7sar_send_complete(OS_SENDINFO *osSendInfo) ++{ ++ return (tn7atm_send_complete(osSendInfo)); ++} ++ ++void ++tn7sar_teardown_complete(OS_DEVICE *OsDev, int ch, int Dir) ++{ ++ return; ++} ++ ++ ++/* ++unsigned int tn7sar_virt(unsigned int address) ++{ ++ return phys_to_virt(address); ++} ++*/ ++ ++int tn7sar_init_module(OS_FUNCTIONS *os_funcs) ++{ ++ dprintf(4, "tn7sar_init_module\n"); ++ if( os_funcs == 0 ) ++ { ++ return(-1); ++ } ++ os_funcs->Control = tn7sar_control; ++ os_funcs->CriticalOn = tn7sar_critical_on; ++ os_funcs->CriticalOff = tn7sar_critical_off; ++ os_funcs->DataCacheHitInvalidate = tn7sar_data_invalidate; ++ os_funcs->DataCacheHitWriteback = tn7sar_data_writeback; ++ os_funcs->DeviceFindInfo = tn7sar_find_device; ++ os_funcs->DeviceFindParmUint = tn7sar_get_device_parm_uint; ++ os_funcs->DeviceFindParmValue = tn7sar_get_device_parm_value; ++ os_funcs->Free = tn7sar_free; ++ os_funcs->FreeRxBuffer = tn7sar_free_buffer; ++ os_funcs->FreeDev = tn7sar_free_dev; ++ os_funcs->FreeDmaXfer = tn7sar_free_dma_xfer; ++ os_funcs->IsrRegister = tn7sar_sarhal_isr_register; ++ os_funcs->IsrUnRegister = tn7sar_isr_unregister; ++ os_funcs->Malloc = tn7sar_malloc; ++ os_funcs->MallocRxBuffer = tn7sar_malloc_rxbuffer; ++ os_funcs->MallocDev = tn7sar_malloc_dev; ++ os_funcs->MallocDmaXfer = tn7sar_malloc_dma_xfer; ++ os_funcs->Memset = tn7sar_memset; ++ os_funcs->Printf = tn7sar_printf; ++ os_funcs->Receive = tn7sar_receive; ++ os_funcs->SendComplete = tn7sar_send_complete; ++ os_funcs->Strcmpi = strcmp; ++ os_funcs->Sprintf = sprintf; ++ os_funcs->Strlen = strlen; ++ os_funcs->Strstr = strstr; ++ os_funcs->Strtoul = tn7sar_strtoul; ++ os_funcs->TeardownComplete = tn7sar_teardown_complete; ++ ++ return(0); ++} ++ ++ ++static void tn7sar_init_dev_parm(void) ++{ ++ int i; ++ ++ ++ /* aal5 */ ++ //strcpy(aal5Parm.id, "aal5"); ++ aal5Parm.base = 0x03000000; ++ aal5Parm.offset = 0; ++ aal5Parm.int_line=15; ++ aal5Parm.chan[0].RxBufSize=1600; ++ aal5Parm.chan[0].RxNumBuffers = 32; ++ aal5Parm.chan[0].RxServiceMax = 50; ++ aal5Parm.chan[0].TxServiceMax=50; ++ aal5Parm.chan[0].TxNumBuffers=32; ++ aal5Parm.chan[0].CpcsUU=0x5aa5; ++ aal5Parm.chan[0].TxVc_CellRate=0x3000; ++ aal5Parm.chan[0].TxVc_AtmHeader=0x00000640; ++ for(i=1;i<8;i++) ++ { ++ memcpy(&aal5Parm.chan[i], &aal5Parm.chan[0], sizeof(aal5Parm.chan[0])); ++ } ++ ++ ++ /* sar */ ++ //strcpy(sarParm.id, "sar"); ++ sarParm.base = 0x03000000; ++ sarParm.reset_bit = 9; ++ sarParm.offset = 0; ++ sarParm.UniNni = 0; ++ ++ pAal5 = aal5Data; ++ pSar = sarData; ++ pReset = resetData; ++ strcpy(pAal5, AAL5_PARM); ++ strcpy(pSar, SAR_PARM); ++ strcpy(pReset, RESET_PARM); ++ ++} ++ ++ ++int tn7sar_get_stats(void *priv1) ++{ ++ HAL_FUNCTIONS *pHalFunc; ++ HAL_DEVICE *pHalDev; ++ Tn7AtmPrivate *priv; ++ int i, j; ++ unsigned int *pSarStat, *pStateBase; ++ char statString[64]; ++ int len; ++ ++ dprintf(2, "tn7sar_get_stats\n"); ++ ++ priv = (Tn7AtmPrivate *)priv1; ++ pHalFunc = (HAL_FUNCTIONS *)priv->pSarHalFunc; ++ pHalDev = (HAL_DEVICE *)priv->pSarHalDev; ++ ++ //memset(&sarStat, 0, sizeof(sarStat)); ++ sarStat.txErrors = 0; ++ sarStat.rxErrors = 0; ++ for(i=0;i<MAX_DMA_CHAN;i++) ++ { ++ if(priv->lut[i].inuse) ++ { ++ for(j=0;j<1;j++) ++ { ++ len=sprintf(statString, "Stats;0;%d", priv->lut[i].chanid); ++ statString[len]=0; ++ dprintf(2, "statString=%s\n",statString); ++ pHalFunc->Control(pHalDev, statString, "Get", &pSarStat); ++ pStateBase = pSarStat; ++ while(pSarStat) ++ { ++ if((char *)*pSarStat == NULL) ++ break; ++ dprintf(2, "%s\n", (char *) *pSarStat); ++ pSarStat++; ++ dprintf(2, "%s\n", (char *) *pSarStat); ++ sarStat.rxErrors += os_atoul((char *) *pSarStat); ++ pSarStat++; ++ } ++ ++ kfree(pStateBase); ++ } ++ } ++ } ++ return 0; ++} ++ ++int tn7sar_setup_oam_channel(Tn7AtmPrivate *priv) ++{ ++ ++ CHANNEL_INFO chInfo; ++ HAL_FUNCTIONS *pHalFunc; ++ HAL_DEVICE *pHalDev; ++ int chan=15; ++ dprintf(4, "tn7sar_setup_oam_channel\n"); ++ ++ pHalFunc = (HAL_FUNCTIONS *)priv->pSarHalFunc; ++ pHalDev = (HAL_DEVICE *)priv->pSarHalDev; ++ ++ memset(&chInfo, 0xff, sizeof(chInfo)); ++ ++ /* channel specific */ ++ chInfo.Channel = 15; /* hardcoded for last channel */ ++ chInfo.Direction = 0; ++ chInfo.Vci = 30; /* just need below 32 */ ++ chInfo.Vpi = 0; ++ chInfo.TxVc_QosType = 2; ++ ++ /*default */ ++ chInfo.PktType = PACKET_TYPE_TRANS; ++ chInfo.TxServiceMax = 2; ++ chInfo.RxServiceMax = 2; ++ chInfo.TxNumQueues = 1; ++ chInfo.TxNumBuffers = 4; ++ chInfo.RxNumBuffers = 4; ++ chInfo.RxBufSize = 256; ++ chInfo.RxVc_OamToHost = 0; ++ chInfo.RxVp_OamToHost = 0; ++ chInfo.FwdUnkVc = 1; //enable forwarding of unknown vc ++ chInfo.TxVc_AtmHeader = tn7sar_atm_header((int)chInfo.Vpi, chInfo.Vci); ++ chInfo.RxVc_AtmHeader = tn7sar_atm_header((int)chInfo.Vpi, chInfo.Vci); ++ chInfo.TxVp_AtmHeader = tn7sar_atm_header((int)chInfo.Vpi, 0); ++ chInfo.RxVp_AtmHeader = tn7sar_atm_header((int)chInfo.Vpi, 0); ++ ++ dprintf(4, "TxVc_AtmHeader=0x%x\n", chInfo.TxVc_AtmHeader); ++ ++ if(pHalFunc->ChannelSetup(pHalDev, &chInfo, NULL)) ++ { ++ printk("failed to setup channel =%d.\n", chan); ++ return -1; ++ } ++ ++ // claiming the channel ++ priv->lut[chan].vpi = 0; ++ priv->lut[chan].vci = 30; ++ priv->lut[chan].chanid = chan; ++ priv->lut[chan].inuse = 1; ++ return 0; ++} ++ ++int tn7sar_init(struct atm_dev *dev, Tn7AtmPrivate *priv) ++{ ++ int retCode; ++ int hal_funcs_size; ++ ++ HAL_FUNCTIONS *pHalFunc; ++ HAL_DEVICE *pHalDev; ++ OS_FUNCTIONS *pOsFunc; ++ int oamMod; ++ char *pLbTimeout; ++ int lbTimeout; ++ ++ ++ dprintf(4, "tn7sar_init\n"); ++ ++ pOsFunc = (OS_FUNCTIONS *)kmalloc(sizeof(OS_FUNCTIONS), GFP_KERNEL); ++ ++ ++ priv->pSarOsFunc = ( void *)pOsFunc; ++ ++ /* init boot parms */ ++ tn7sar_init_dev_parm(); ++ ++ /* init sar os call back functions */ ++ retCode = tn7sar_init_module(pOsFunc); ++ if (retCode != 0) /* error */ ++ { ++ printk("Failed to init SAR OS Functions\n"); ++ return (1); ++ } ++ ++ /* Init sar hal */ ++ retCode = cpaal5InitModule(&pHalDev, (OS_DEVICE*) dev, &pHalFunc, ++ pOsFunc, sizeof(OS_FUNCTIONS), &hal_funcs_size, 0); ++ if (retCode != 0) /* error */ ++ { ++ printk("Failed to init SAR HAL\n"); ++ return (1); ++ } ++ ++ /* sanity check */ ++ if (pHalDev == NULL || pHalFunc == NULL || hal_funcs_size != sizeof(HAL_FUNCTIONS) ) ++ { ++ printk("Invalid SAR hal and/or functions.\n"); ++ return (1); ++ } ++ ++ /* remeber HAL pointers */ ++ priv->pSarHalDev = (void *)pHalDev; ++ priv->pSarHalFunc = (void *)pHalFunc; ++ ++ /* Probe for the Device to get hardware info from driver */ ++ retCode = pHalFunc->Probe(pHalDev); ++ if (retCode !=0) ++ { ++ printk("SAR hal probing error.\n"); ++ return (1); ++ } ++ ++ /* init sar hal */ ++ retCode = pHalFunc->Init(pHalDev); ++ if (retCode != 0) /* error */ ++ { ++ ++ printk("pHalFunc->Init failed. err code =%d\n", retCode); ++ return (1); ++ } ++ ++ /* open hal module */ ++ retCode = pHalFunc->Open(pHalDev); ++ if (retCode != 0) /* error */ ++ { ++ printk("pHalFunc->open failed, err code: %d\n",retCode ); ++ return (1); ++ } ++ ++ /* init sar for firmware oam */ ++ oamMod= 1; ++ pHalFunc->Control(pHalDev,"OamMode", "Set", &oamMod); ++ ++ /* read in oam lb timeout value */ ++ pLbTimeout = prom_getenv("oam_lb_timeout"); ++ if(pLbTimeout) ++ { ++ lbTimeout =tn7sar_strtoul(pLbTimeout, NULL, 10); ++ oamLbTimeout = lbTimeout; ++ pHalFunc->Control(pHalDev,"OamLbTimeout", "Set", &lbTimeout); ++ } ++ else ++ { ++ oamLbTimeout = 5000; ++ } ++ ++ oamFarLBCount[0]=0; ++ oamFarLBCount[1]=0; ++ oamFarLBCount[2]=0; ++ oamFarLBCount[3]=0; ++ ++ memset(&sarStat, 0 , sizeof(sarStat)); ++ ++ /* setup channel 15 for oam operation */ ++ tn7sar_setup_oam_channel(priv); ++ dprintf(4, "tn7sar_init done"); ++ return 0; ++} ++ ++static int ++tn7sar_atm_header(int vpi, int vci) ++{ ++ union ++ { ++ unsigned char byte[4]; ++ unsigned int dword; ++ }atm_h; ++ int itmp = 0; ++ ++ //vci ++ itmp = vci &0xf; ++ atm_h.byte[0] = 0; ++ atm_h.byte[0] |= (itmp << 4); ++ atm_h.byte[1] = ((vci & 0xff0) >> 4); ++ atm_h.byte[2] = 0; ++ atm_h.byte[2] |= ((vci & 0xf000) >>12);; ++ atm_h.byte[2] |= ((vpi & 0xf) << 4); ++ atm_h.byte[3] = 0; ++ atm_h.byte[3] = ((vpi & 0xff0) >> 4); ++ return atm_h.dword; ++} ++ ++int tn7sar_activate_vc(Tn7AtmPrivate *priv, short vpi, int vci, int pcr, int scr, int mbs, int cdvt, int chan, int qos) ++{ ++ CHANNEL_INFO chInfo; ++ HAL_FUNCTIONS *pHalFunc; ++ HAL_DEVICE *pHalDev; ++ ++ dprintf(4, "tn7sar_activate_vc\n"); ++ ++ pHalFunc = (HAL_FUNCTIONS *)priv->pSarHalFunc; ++ pHalDev = (HAL_DEVICE *)priv->pSarHalDev; ++ ++ memset(&chInfo, 0xff, sizeof(chInfo)); ++ ++ /* channel specific */ ++ chInfo.Channel = chan; ++ chInfo.Direction = 0; ++ chInfo.Vci = vci; ++ chInfo.Vpi = vpi; ++ chInfo.TxVc_QosType = qos; ++ chInfo.Priority = qos; ++ ++ if(chInfo.TxVc_QosType == 1) /* if the connection is VBR than set the DaMask value to tell the schedular to accumalte the credit */ ++ { ++ chInfo.DaMask = 1; ++ } ++ chInfo.TxVc_Mbs = mbs; /* use pcr as MBS */ ++ pcr = SAR_FREQUNCY/pcr; ++ scr = SAR_FREQUNCY/scr; ++ chInfo.TxVc_CellRate = scr; ++ chInfo.TxVc_Pcr = pcr; ++ ++ /*default */ ++ chInfo.PktType = PACKET_TYPE_AAL5; ++ chInfo.TxServiceMax = TX_SERVICE_MAX; ++ chInfo.RxServiceMax = RX_SERVICE_MAX; ++ chInfo.TxNumQueues = TX_QUEUE_NUM; ++ chInfo.TxNumBuffers = TX_BUFFER_NUM; ++ chInfo.RxNumBuffers = RX_BUFFER_NUM; ++ chInfo.RxBufSize = RX_BUFFER_SIZE; ++ chInfo.RxVc_OamToHost = 0; ++ chInfo.RxVp_OamToHost = 0; ++ chInfo.TxVc_AtmHeader = tn7sar_atm_header((int)vpi, vci); ++ chInfo.RxVc_AtmHeader = tn7sar_atm_header((int)vpi, vci); ++ chInfo.TxVp_AtmHeader = tn7sar_atm_header((int)vpi, 0); ++ chInfo.RxVp_AtmHeader = tn7sar_atm_header((int)vpi, 0); ++ chInfo.CpcsUU = 0; ++ ++ dprintf(4, "TxVc_AtmHeader=0x%x\n", chInfo.TxVc_AtmHeader); ++ ++ if(pHalFunc->ChannelSetup(pHalDev, &chInfo, NULL)) ++ { ++ printk("failed to setup channel =%d.\n", chan); ++ return -1; ++ } ++ ++ ++ return 0; ++} ++ ++int tn7sar_send_packet(Tn7AtmPrivate *priv, int chan, void *new_skb, void *data,unsigned int len, int priority) ++{ ++ FRAGLIST fragList; ++ unsigned int mode; ++ HAL_FUNCTIONS *pHalFunc; ++ HAL_DEVICE *pHalDev; ++ ++ dprintf(4, "tn7sar_send_packet\n"); ++ pHalFunc = (HAL_FUNCTIONS *)priv->pSarHalFunc; ++ pHalDev = (HAL_DEVICE *)priv->pSarHalDev; ++ ++ fragList.len = len; ++ fragList.data = (void *)data; ++ ++ xdump((char *)fragList.data , fragList.len, 6); ++ ++ /*mode bit ++ 31-19 unused ++ 18 oam cell, 1 = true, 0=false ++ 17-16 oam type, 0=F4 seg, 1=F4 End, 2=F5 seg, 3=F5 end ++ 15-08 transimit queue, current, 0=priority queue, 1=normal queue ++ 07-00 channel number ++ */ ++ mode = 0; ++ mode |= (0xff & chan); ++ mode |= ((0xff & priority) << 8); ++ ++ dprintf(4, "mode = %d\n", mode); ++ ++ tn7sar_data_writeback(fragList.data, len); ++ if(pHalFunc->Send(pHalDev, &fragList, 1, len, new_skb, mode) != 0) ++ { ++ dprintf(1, "SAR hal failed to send packet.\n"); ++ return 1; ++ } ++ //tn7sar_get_stats(priv); ++ sarStat.txPktCnt++; ++ sarStat.txBytes +=len; ++ return 0; ++} ++ ++ ++ ++int tn7sar_handle_interrupt(struct atm_dev *dev, Tn7AtmPrivate *priv) ++{ ++ int more; ++ int rc; ++ HAL_FUNCTIONS *pHalFunc; ++ HAL_DEVICE *pHalDev; ++ int (*halIsr)(HAL_DEVICE *halDev, int *work); ++ ++ pHalFunc = (HAL_FUNCTIONS *)priv->pSarHalFunc; ++ pHalDev = (HAL_DEVICE *)priv->pSarHalDev; ++ halIsr = priv->halIsr; ++ ++ rc = halIsr(pHalDev, &more); ++ ++ pHalFunc->PacketProcessEnd(pHalDev); ++ ++ return rc; ++} ++ ++ ++int tn7sar_deactivate_vc(Tn7AtmPrivate *priv, int chan) ++{ ++ unsigned int mode; ++ HAL_FUNCTIONS *pHalFunc; ++ HAL_DEVICE *pHalDev; ++ ++ dprintf(4, "tn7sar_deactivate_vc\n"); ++ pHalFunc = (HAL_FUNCTIONS *)priv->pSarHalFunc; ++ pHalDev = (HAL_DEVICE *)priv->pSarHalDev; ++ ++ mode = 0xf; //tear down everything, wait for return; ++ ++ pHalFunc->ChannelTeardown(pHalDev, chan, mode); ++ return 0; ++} ++ ++void tn7sar_exit(struct atm_dev *dev, Tn7AtmPrivate *priv) ++{ ++ HAL_FUNCTIONS *pHalFunc; ++ HAL_DEVICE *pHalDev; ++ ++ dprintf(4, "tn7sar_exit()\n"); ++ ++ pHalFunc = (HAL_FUNCTIONS *)priv->pSarHalFunc; ++ pHalDev = (HAL_DEVICE *)priv->pSarHalDev; ++ ++ tn7sar_deactivate_vc(priv, 15); // de-activate oam channel ++ ++ pHalFunc->Close(pHalDev, 2); ++ pHalFunc->Shutdown(pHalDev); ++ ++ kfree(priv->pSarOsFunc); ++ ++} ++ ++void tn7sar_get_sar_version(Tn7AtmPrivate *priv, char **pVer) ++{ ++ HAL_FUNCTIONS *pHalFunc; ++ HAL_DEVICE *pHalDev; ++ ++ dprintf(4, "tn7sar_get_sar_version()\n"); ++ ++ pHalFunc = (HAL_FUNCTIONS *)priv->pSarHalFunc; ++ pHalDev = (HAL_DEVICE *)priv->pSarHalDev; ++ pHalFunc->Control(pHalDev, "Version", "Get", pVer); ++} ++ ++ ++int tn7sar_get_near_end_loopback_count(unsigned int *pF4count, unsigned int *pF5count) ++{ ++ unsigned int f4c, f5c; ++ ++ f4c = *(volatile unsigned int *)SAR_PDSP_OAM_F4LB_COUNT_REG_ADDR; ++ f5c = *(volatile unsigned int *)SAR_PDSP_OAM_F5LB_COUNT_REG_ADDR; ++ *pF4count = f4c; ++ *pF5count = f5c; ++ ++ return 0; ++} ++ ++ ++int tn7sar_unmatched_oam_generation(void *privContext, int vpi, int vci, int type) ++{ ++ ++ unsigned int regv = 0; ++ int chan=15; ++ static unsigned int tag; ++ HAL_FUNCTIONS *pHalFunc; ++ HAL_DEVICE *pHalDev; ++ Tn7AtmPrivate *priv; ++ unsigned int llid[4]={0xffffffff,0xffffffff,0xffffffff,0xffffffff}; ++ ++ dprintf(4, "tn7sar_unknow_oam_generation()\n"); ++ ++ priv = (Tn7AtmPrivate *)privContext; ++ pHalFunc = (HAL_FUNCTIONS *)priv->pSarHalFunc; ++ pHalDev = (HAL_DEVICE *)priv->pSarHalDev; ++ ++ if(vci==0) ++ { ++ oamPingStatus = OAM_PING_FAILED; ++ return 0; ++ } ++ /* calculate atm header */ ++ oamAtmHdr = tn7sar_atm_header(vpi,vci); ++ ++ /* config the atm header */ ++ pHalFunc->Control(pHalDev,"TxVc_AtmHeader.15", "Set", &oamAtmHdr); ++ ++ /*record oam type */ ++ oam_type = type; ++ ++ regv = (0xff & chan); ++ ++ switch(type) ++ { ++ case 0: ++ regv |= (1<<12); //f5 end ++ dprintf(2, "f5 loop back\n"); ++ break; ++ case 1: ++ regv |= (1<<13); // f4 end ++ break; ++ case 2: ++ regv |= (1<<14); //f5 seg ++ break; ++ case 3: ++ regv |= (1<<15); //f4 seg ++ break; ++ default: ++ break; ++ } ++ oamPingStatus = OAM_PING_PENDING; ++ pHalFunc->OamLoopbackConfig(pHalDev, regv, llid, tag); ++ tag++; ++ return 0; ++ ++} ++ ++int tn7sar_oam_generation(void *privContext, int chan, int type, int vpi, int vci, int timeout) ++{ ++ unsigned int regv = 0; ++ static unsigned int tag; ++ HAL_FUNCTIONS *pHalFunc; ++ HAL_DEVICE *pHalDev; ++ Tn7AtmPrivate *priv; ++ unsigned int llid[4]={0xffffffff,0xffffffff,0xffffffff,0xffffffff}; ++ ++ dprintf(2, "tn7sar_oam_generation()\n"); ++ ++ priv = (Tn7AtmPrivate *)privContext; ++ pHalFunc = (HAL_FUNCTIONS *)priv->pSarHalFunc; ++ pHalDev = (HAL_DEVICE *)priv->pSarHalDev; ++ ++ if(timeout >= 5000) ++ { ++ if(timeout == 6000) ++ { ++ tn7sar_clear_pvc_table(); ++ return 0; ++ } ++ timeout = oamLbTimeout; ++ } ++ ++ ++ pHalFunc->Control(pHalDev,"OamLbTimeout", "Set", &timeout); ++ ++ if(chan == ATM_NO_DMA_CHAN) ++ { ++ tn7sar_unmatched_oam_generation(priv, vpi, vci, type); ++ return 0; ++ } ++ ++ /* calculate atm header */ ++ oamAtmHdr = tn7sar_atm_header(vpi,vci); ++ ++ oam_type = type; ++ ++ regv = (0xff & chan); ++ switch(type) ++ { ++ case 0: ++ regv |= (1<<12); //f5 end ++ dprintf(2, "f5 loop back\n"); ++ break; ++ case 1: ++ regv |= (1<<13); // f4 end ++ break; ++ case 2: ++ regv |= (1<<14); //f5 seg ++ break; ++ case 3: ++ regv |= (1<<15); //f4 seg ++ break; ++ default: ++ break; ++ } ++ oamPingStatus = OAM_PING_PENDING; ++ pHalFunc->OamLoopbackConfig(pHalDev, regv, llid, tag); ++ tag++; ++ ++ return 0; ++} ++ ++int tn7sar_proc_oam_ping(char* buf, char **start, off_t offset, int count,int *eof, void *data) ++{ ++ int len = 0; ++ ++ len += sprintf(buf+len, "%d\n", oamPingStatus); ++ ++ return len; ++} ++ ++int tn7sar_proc_pvc_table(char* buf, char **start, off_t offset, int count,int *eof, void *data) ++{ ++ int len = 0; ++ int i; ++ ++ for(i=0;i<16;i++) ++ { ++ if(pvc_result[i].bInUse) ++ { ++ len += sprintf(buf+len, "%d,%d\n", pvc_result[i].vpi,pvc_result[i].vci); ++ } ++ else ++ { ++ len += sprintf(buf+len, "0,0\n"); ++ } ++ } ++ return len; ++} ++ ++ ++ ++int tn7sar_proc_sar_stat(char* buf, char **start, off_t offset, int count,int *eof, void *data) ++{ ++ int len = 0; ++ int limit = count - 80; ++ struct atm_dev *dev; ++ Tn7AtmPrivate *priv; ++ int i, j, k; ++ int stat_len; ++ char statString[32]; ++ unsigned int *pStateBase, *pSarStat; ++ HAL_FUNCTIONS *pHalFunc; ++ HAL_DEVICE *pHalDev; ++ int dBytes; ++ ++ dev = (struct atm_dev *)data; ++ priv = (Tn7AtmPrivate *)dev->dev_data; ++ ++ pHalFunc = (HAL_FUNCTIONS *)priv->pSarHalFunc; ++ pHalDev = (HAL_DEVICE *)priv->pSarHalDev; ++ ++ len += sprintf(buf+len, "SAR HAL Statistics\n"); ++ for(i=0;i<MAX_DMA_CHAN;i++) ++ { ++ if(priv->lut[i].inuse) ++ { ++ if(len<=limit) ++ len += sprintf(buf+len, "\nChannel %d:\n",priv->lut[i].chanid); ++ k=0; ++ for(j=0;j<4;j++) ++ { ++ stat_len =sprintf(statString, "Stats;%d;%d", j,priv->lut[i].chanid); ++ statString[stat_len]=0; ++ pHalFunc->Control(pHalDev, statString, "Get", &pSarStat); ++ pStateBase = pSarStat; ++ while(pSarStat) ++ { ++ if((char *)*pSarStat == NULL) ++ break; ++ if(len<=limit) ++ { ++ dBytes = sprintf(buf+len, "%s: ",(char *) *pSarStat); ++ len += dBytes; ++ k += dBytes; ++ } ++ pSarStat++; ++ if(len<=limit) ++ { ++ dBytes = sprintf(buf+len, "%s; ",(char *) *pSarStat); ++ len += dBytes; ++ k += dBytes; ++ } ++ pSarStat++; ++ ++ if(k > 60) ++ { ++ k=0; ++ if(len<=limit) ++ len += sprintf(buf+len, "\n"); ++ } ++ } ++ ++ kfree(pStateBase); ++ } ++ } ++ } ++ ++ return len; ++} ++ ++void tn7sar_get_sar_firmware_version(unsigned int *pdsp_version_ms, unsigned int *pdsp_version_ls) ++{ ++ ++ *pdsp_version_ms = (SarPdspFirmware[9]>>20) & 0xF; ++ *pdsp_version_ls = (SarPdspFirmware[9]>>12) & 0xFF; ++ return; ++} +diff -urN linux.old/drivers/atm/sangam_atm/tnetd7300_sar_firm.h linux.dev/drivers/atm/sangam_atm/tnetd7300_sar_firm.h +--- linux.old/drivers/atm/sangam_atm/tnetd7300_sar_firm.h 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/tnetd7300_sar_firm.h 2005-08-23 04:46:50.111841568 +0200 +@@ -0,0 +1,988 @@ ++//SarPdspFirmware Revision: 49 ++ ++static int SarPdspFirmware[] = { ++ 0xb0a8d1f1, ++ 0x000003d8, ++ 0x00000000, ++ 0x00000004, ++ 0x00000000, ++ 0x00000000, ++ 0x00000000, ++ 0x00000000, ++ 0x21000900, ++ 0x24049080, ++ 0x24000080, ++ 0x240000c0, ++ 0x10e0e0e1, ++ 0x10e0e0e2, ++ 0x10e0e0e3, ++ 0x10e0e0e4, ++ 0x10e0e0e5, ++ 0x10e0e0e6, ++ 0x10e0e0e7, ++ 0x10e0e0e8, ++ 0x10e0e0e9, ++ 0x10e0e0ea, ++ 0x10e0e0eb, ++ 0x10e0e0ec, ++ 0x10e0e0ed, ++ 0x10e0e0ee, ++ 0x10e0e0ef, ++ 0x10e0e0f0, ++ 0x10e0e0f1, ++ 0x10e0e0f2, ++ 0x10e0e0f3, ++ 0x10e0e0f4, ++ 0x10e0e0f5, ++ 0x10e0e0f6, ++ 0x10e0e0f7, ++ 0x10e0e0f8, ++ 0x10e0e0f9, ++ 0x10e0e0fa, ++ 0x10e0e0fb, ++ 0x10e0e0fc, ++ 0x10e0e0fd, ++ 0x10e0e0fe, ++ 0x10e0e0ff, ++ 0x81042680, ++ 0x810c2680, ++ 0x81042680, ++ 0x2483c080, ++ 0x81180b80, ++ 0x2484c080, ++ 0x811a0b80, ++ 0x2485c080, ++ 0x811c0b80, ++ 0x240100dd, ++ 0xa07d06fd, ++ 0x240400dd, ++ 0xa07d04fd, ++ 0x24c000dd, ++ 0x2400169d, ++ 0xa07d5cfd, ++ 0x511f9d03, ++ 0x01019d9d, ++ 0x7f0000fd, ++ 0xd11eff05, ++ 0x97c06890, ++ 0x1d00e5e5, ++ 0x2301229e, ++ 0x81bc2890, ++ 0x24000000, ++ 0xc917ff02, ++ 0x81000100, ++ 0x01010000, ++ 0xc918ff02, ++ 0x81000100, ++ 0x01010000, ++ 0xc919ff02, ++ 0x81000100, ++ 0xd110e70a, ++ 0xd11cff09, ++ 0x1d00e5e5, ++ 0xd100e704, ++ 0xd114ff06, ++ 0x2301179e, ++ 0x79000004, ++ 0xd70ffffd, ++ 0x91382486, ++ 0x2301059e, ++ 0xc903ff07, ++ 0xa06047e0, ++ 0xb10043e6, ++ 0xc910e602, ++ 0x81000106, ++ 0x24006025, ++ 0x2300d39e, ++ 0xd11dff09, ++ 0x1f00e5e5, ++ 0xc901e705, ++ 0xd111ff06, ++ 0x91382586, ++ 0x2301059e, ++ 0x79000003, ++ 0xd715fffc, ++ 0x2301179e, ++ 0xc910e706, ++ 0x110f2760, ++ 0x240000c6, ++ 0x24000086, ++ 0x13106006, ++ 0x7b00005a, ++ 0x11079f80, ++ 0x51008010, ++ 0xc912ff0f, ++ 0xd100ff04, ++ 0xd101ff05, ++ 0xa06046e0, ++ 0x79000004, ++ 0xa06044e0, ++ 0x79000002, ++ 0xa06045e0, ++ 0xb10043e6, ++ 0x61150602, ++ 0x2101c500, ++ 0xc910e602, ++ 0xa1001006, ++ 0x24000025, ++ 0x2300d39e, ++ 0xd11fff05, ++ 0x97c06a90, ++ 0x1f00e5e5, ++ 0x2301229e, ++ 0x81bc2a90, ++ 0xd11cff09, ++ 0x1d00e5e5, ++ 0xc900e705, ++ 0xd10fff06, ++ 0x91382486, ++ 0x2301059e, ++ 0x79000003, ++ 0xd714fffc, ++ 0x2301179e, ++ 0xc907ff07, ++ 0xa0604be0, ++ 0xb10043e6, ++ 0xc910e602, ++ 0x81000106, ++ 0x24006025, ++ 0x2300d39e, ++ 0xd111e70a, ++ 0xd11dff09, ++ 0x1f00e5e5, ++ 0xd101e704, ++ 0xd115ff06, ++ 0x2301179e, ++ 0x79000004, ++ 0xd711fffd, ++ 0x91382586, ++ 0x2301059e, ++ 0xc911e706, ++ 0x0b042760, ++ 0x240000c6, ++ 0x24000086, ++ 0x13106006, ++ 0x7b000024, ++ 0x11709f80, ++ 0x5100800e, ++ 0xc913ff0d, ++ 0xd104ff04, ++ 0xd105ff05, ++ 0xa0604ae0, ++ 0x79000004, ++ 0xa06048e0, ++ 0x79000002, ++ 0xa06049e0, ++ 0xb10043e6, ++ 0xc910e602, ++ 0xa1001106, ++ 0x24000025, ++ 0x2300d39e, ++ 0xc90bff02, ++ 0x7900000b, ++ 0xc90aff02, ++ 0x79000012, ++ 0xcf08ff89, ++ 0xb10002e0, ++ 0xcf18e087, ++ 0x790000b6, ++ 0x24000080, ++ 0x24fb00c0, ++ 0xa06003e0, ++ 0x7f000082, ++ 0xb10024e6, ++ 0xb10025e0, ++ 0xa06628e6, ++ 0xa06029e0, ++ 0x248000c6, ++ 0xa06624e6, ++ 0x671006f0, ++ 0x81082186, ++ 0x7f0000ee, ++ 0xb10027e6, ++ 0x61100604, ++ 0xa0662be6, ++ 0x810c2186, ++ 0x79000006, ++ 0xd70cffea, ++ 0xa0662be6, ++ 0x1f1be6e6, ++ 0x81382686, ++ 0x813c2680, ++ 0x248000c6, ++ 0xa06627e6, ++ 0x7f0000e3, ++ 0x110f0600, ++ 0x81100b00, ++ 0x01502545, ++ 0x90457888, ++ 0x5103091c, ++ 0x6901092a, ++ 0xc910e603, ++ 0xd108e90d, ++ 0x79000027, ++ 0x01582545, ++ 0x9045788a, ++ 0xd108e904, ++ 0x1f08e9e9, ++ 0x01552545, ++ 0x80451829, ++ 0x50eaeb20, ++ 0x0101ebeb, ++ 0x015c2545, ++ 0x8045388b, ++ 0x7900001c, ++ 0x015c2545, ++ 0x9045788b, ++ 0x6900eb05, ++ 0x1d08e9e9, ++ 0x01552545, ++ 0x80451829, ++ 0x79000004, ++ 0x0501ebeb, ++ 0x015c2545, ++ 0x8045388b, ++ 0x10ecece8, ++ 0x79000010, ++ 0x24000000, ++ 0x5110000e, ++ 0x690f6903, ++ 0x24000069, ++ 0x79000002, ++ 0x01016969, ++ 0x01010000, ++ 0x81100b69, ++ 0x01542545, ++ 0x90451809, ++ 0x6f0209f7, ++ 0xa1001069, ++ 0x81100b06, ++ 0x01572545, ++ 0x80451869, ++ 0xa06841e8, ++ 0xa1414006, ++ 0x209e0000, ++ 0x81100b06, ++ 0xd11fe603, ++ 0x9164388d, ++ 0x8108248d, ++ 0xd100e507, ++ 0x97406490, ++ 0x9108248d, ++ 0x813c2480, ++ 0x2302b4de, ++ 0x1d00e7e7, ++ 0x79000006, ++ 0x97406590, ++ 0x9108258d, ++ 0x813c2580, ++ 0x1d01e7e7, ++ 0x2302b9de, ++ 0x8164388d, ++ 0x209e0000, ++ 0x81040105, ++ 0x91002286, ++ 0x97086290, ++ 0x81042280, ++ 0xd100e504, ++ 0x2302b4de, ++ 0x1f00e7e7, ++ 0x209e0000, ++ 0x2302b9de, ++ 0x1f01e7e7, ++ 0x209e0000, ++ 0xd109ff00, ++ 0xa0702cf0, ++ 0x79000001, ++ 0xd109ff00, ++ 0xb1002de6, ++ 0xd11ee609, ++ 0xb1000de0, ++ 0xc91fe044, ++ 0x24c338c6, ++ 0x10000006, ++ 0x81382686, ++ 0x87406690, ++ 0x813c2680, ++ 0x7900003e, ++ 0x110f0600, ++ 0x81100b00, ++ 0x24000045, ++ 0x24000025, ++ 0x61100603, ++ 0x24006045, ++ 0x24006025, ++ 0x01704545, ++ 0x90451888, ++ 0x0b034600, ++ 0x11070000, ++ 0x69040004, ++ 0xc916ff2c, ++ 0x01019e9e, ++ 0x7900002f, ++ 0xc90cff04, ++ 0x6f0200fd, ++ 0xd308e8a1, ++ 0x7f0000fb, ++ 0x69020008, ++ 0xd308e89e, ++ 0xb1002fe6, ++ 0x91b82880, ++ 0xc91ce002, ++ 0x1f1ce6e6, ++ 0x10080806, ++ 0x79000015, ++ 0xb1002fe6, ++ 0x69030003, ++ 0x13c06666, ++ 0x79000011, ++ 0x91807809, ++ 0xc910ea09, ++ 0x81082689, ++ 0x01018a8a, ++ 0xc91ee60a, ++ 0x1d10eaea, ++ 0x240557c0, ++ 0x60c08a07, ++ 0x1f1de6e6, ++ 0x79000005, ++ 0x2400018a, ++ 0x1f10eaea, ++ 0x1f1fe6e6, ++ 0xd71ee6f8, ++ 0x51000002, ++ 0x11c76666, ++ 0x81382686, ++ 0x87406690, ++ 0x91082689, ++ 0x813c2680, ++ 0xb1002ee6, ++ 0xd103e609, ++ 0x81807809, ++ 0xc908e807, ++ 0x21039400, ++ 0x81002386, ++ 0x87086390, ++ 0x81042380, ++ 0xc908e802, ++ 0x21039400, ++ 0x209e0000, ++ 0xb10008ef, ++ 0x110f0f00, ++ 0x81100b00, ++ 0x24000025, ++ 0x61100f02, ++ 0x24005025, ++ 0x01952545, ++ 0x9045382e, ++ 0xc91def03, ++ 0x24000900, ++ 0x2301c09e, ++ 0xc91cef03, ++ 0x24001900, ++ 0x2301c09e, ++ 0xc91bef03, ++ 0x24000a00, ++ 0x2301c09e, ++ 0xc91aef03, ++ 0x24001a00, ++ 0x2301c09e, ++ 0x8045382e, ++ 0x01a82545, ++ 0x9045388e, ++ 0xc915ef03, ++ 0x24000000, ++ 0x2301c09e, ++ 0xc914ef03, ++ 0x24001000, ++ 0x2301c09e, ++ 0x8045388e, ++ 0x61100f02, ++ 0x24006025, ++ 0x016d2545, ++ 0x9045382e, ++ 0xc919ef03, ++ 0x24000900, ++ 0x2301c09e, ++ 0xc918ef03, ++ 0x24001900, ++ 0x2301c09e, ++ 0xc917ef03, ++ 0x24000a00, ++ 0x2301c09e, ++ 0xc916ef03, ++ 0x24001a00, ++ 0x2301c09e, ++ 0x8045382e, ++ 0x017c2545, ++ 0x9045388e, ++ 0xc913ef03, ++ 0x24000000, ++ 0x2301c09e, ++ 0xc912ef03, ++ 0x24001000, ++ 0x2301c09e, ++ 0x8045388e, ++ 0xd11eef19, ++ 0x11f02f00, ++ 0x51000017, ++ 0x24001520, ++ 0x81140b20, ++ 0x81b01a0f, ++ 0x1f02e7e7, ++ 0x24c000c0, ++ 0x24001580, ++ 0xa0605ce0, ++ 0xc90fef04, ++ 0x1d04e7e7, ++ 0x1d05e7e7, ++ 0x7900000c, ++ 0xc90eef04, ++ 0x1d04e7e7, ++ 0x1f05e7e7, ++ 0x79000008, ++ 0xc90def04, ++ 0x1f04e7e7, ++ 0x1d05e7e7, ++ 0x79000004, ++ 0xc90cef03, ++ 0x1f04e7e7, ++ 0x1f05e7e7, ++ 0x2100b900, ++ 0xd11eef03, ++ 0x1e00eeee, ++ 0x209e0000, ++ 0x1c00eeee, ++ 0x209e0000, ++ 0x110f0606, ++ 0x81140b06, ++ 0x13100606, ++ 0x91b01a83, ++ 0x24000025, ++ 0x61100304, ++ 0x24005025, ++ 0xc905e702, ++ 0x24006025, ++ 0x110f0300, ++ 0x81100b00, ++ 0x81120b00, ++ 0x51150611, ++ 0x61100302, ++ 0x24005025, ++ 0x1d01e5e5, ++ 0x51160639, ++ 0x511a0650, ++ 0x511c0657, ++ 0x5118065e, ++ 0x511e0685, ++ 0x61100302, ++ 0x24006025, ++ 0x1f01e5e5, ++ 0x51170634, ++ 0x511b064b, ++ 0x511d0652, ++ 0x51190658, ++ 0x511f067f, ++ 0xc903e708, ++ 0x1d03e7e7, ++ 0x24000060, ++ 0xa1000a60, ++ 0x244000c0, ++ 0x24001580, ++ 0xa0605ce0, ++ 0x21007d00, ++ 0xcf02e7fc, ++ 0x1d02e7e7, ++ 0x1f03e7e7, ++ 0xc904e703, ++ 0x1f08e3e3, ++ 0x79000002, ++ 0x1d08e3e3, ++ 0xc905e705, ++ 0x01682545, ++ 0x9045588d, ++ 0x2302879e, ++ 0x79000004, ++ 0x01902545, ++ 0x9045588d, ++ 0x2302819e, ++ 0x24001872, ++ 0x24000152, ++ 0xb10009e0, ++ 0x108080d3, ++ 0x10c0c092, ++ 0x2400102c, ++ 0x2302c8de, ++ 0x91021c97, ++ 0x91001cd8, ++ 0x91061c98, ++ 0x91041cd9, ++ 0x910a1c99, ++ 0x91081cda, ++ 0x910e1c9a, ++ 0x910c1cdb, ++ 0x91261d9b, ++ 0x91287d9c, ++ 0x23028dde, ++ 0x1f02e7e7, ++ 0x1d03e7e7, ++ 0x7d000070, ++ 0x01902545, ++ 0x9045798d, ++ 0x79000003, ++ 0x01682545, ++ 0x9045788d, ++ 0x0b09eee0, ++ 0x24001472, ++ 0xd108e303, ++ 0xc900e00b, ++ 0x79000002, ++ 0xc910e009, ++ 0xd101e503, ++ 0x2302819e, ++ 0x79000002, ++ 0x2302879e, ++ 0x91013d12, ++ 0x9504bd93, ++ 0x23028dde, ++ 0x7d00005d, ++ 0xd108ee03, ++ 0x1d10e7e7, ++ 0x7900009a, ++ 0x1d11e7e7, ++ 0x79000098, ++ 0x01902545, ++ 0x9045798d, ++ 0x79000003, ++ 0x01682545, ++ 0x9045788d, ++ 0x0b0aeee0, ++ 0x24001072, ++ 0x7f0000e8, ++ 0x01a02545, ++ 0x9045b98d, ++ 0x79000003, ++ 0x01742545, ++ 0x9045b88d, ++ 0x0b01efe0, ++ 0x24001172, ++ 0x7f0000e0, ++ 0x2302d1de, ++ 0x79000002, ++ 0x2302d6de, ++ 0x000c2545, ++ 0x9045198f, ++ 0xd100ef07, ++ 0x1d02efef, ++ 0xc901ef0c, ++ 0xc905ef0b, ++ 0x1d01efef, ++ 0x1d05efef, ++ 0x79000008, ++ 0xd102ef04, ++ 0x1f02efef, ++ 0x8045198f, ++ 0x79000078, ++ 0xd101ef04, ++ 0x1f01efef, ++ 0x1f05efef, ++ 0x8045198f, ++ 0x69180673, ++ 0x01ac2545, ++ 0x2302dbde, ++ 0xd100ef03, ++ 0x23036c9e, ++ 0x7900006e, ++ 0xc800e40b, ++ 0x110f0020, ++ 0x81100b20, ++ 0x100c0c45, ++ 0x61100002, ++ 0x01604545, ++ 0x9045188f, ++ 0xd101ef04, ++ 0x1f01efef, ++ 0x1f07efef, ++ 0x8045188f, ++ 0x01010000, ++ 0x6f1300f4, ++ 0x79000060, ++ 0x2302d1de, ++ 0x79000002, ++ 0x2302d6de, ++ 0x000c2545, ++ 0x9045198f, ++ 0xc903ef05, ++ 0x1d03efef, ++ 0x1f04efef, ++ 0x8045198f, ++ 0x79000056, ++ 0xc904ef55, ++ 0x1d04efef, ++ 0xc901ef04, ++ 0xc906ef03, ++ 0x1d01efef, ++ 0x1d06efef, ++ 0x8045198f, ++ 0x691e064e, ++ 0x01ac2545, ++ 0x2302dbde, ++ 0xc800e40c, ++ 0x110f0020, ++ 0x81100b20, ++ 0x100c0c45, ++ 0x61100002, ++ 0x01604545, ++ 0x9045188f, ++ 0xc901ef05, ++ 0xc908ef04, ++ 0x1d01efef, ++ 0x1d07efef, ++ 0x8045188f, ++ 0x01010000, ++ 0x6f1300f3, ++ 0x7900003d, ++ 0x10ededf0, ++ 0xc908e303, ++ 0x13401010, ++ 0x209e0000, ++ 0x13301010, ++ 0x209e0000, ++ 0x10ededf0, ++ 0xc908e303, ++ 0x130a1010, ++ 0x209e0000, ++ 0x13081010, ++ 0x209e0000, ++ 0x24000266, ++ 0x2400c800, ++ 0x24000020, ++ 0xd108ee17, ++ 0x01012020, ++ 0xc91cff09, ++ 0x6e0020fe, ++ 0xc910e702, ++ 0x20de0000, ++ 0x1f10e7e7, ++ 0x110f0600, ++ 0x11f02727, ++ 0x12002727, ++ 0x20de0000, ++ 0x1d10e7e7, ++ 0x2302b4de, ++ 0x511d0605, ++ 0x511c0602, ++ 0x7900001e, ++ 0x01a62545, ++ 0x79000002, ++ 0x01722545, ++ 0x90451880, ++ 0x01018080, ++ 0x80451880, ++ 0x79000017, ++ 0x01012020, ++ 0xc91dff09, ++ 0x6e0020fe, ++ 0xc911e702, ++ 0x20de0000, ++ 0x1f11e7e7, ++ 0x09040600, ++ 0x110f2727, ++ 0x12002727, ++ 0x20de0000, ++ 0x1d11e7e7, ++ 0x2302b9de, ++ 0x7f0000ea, ++ 0x81b82786, ++ 0x240000d1, ++ 0x87c06790, ++ 0x81bc2780, ++ 0x20de0000, ++ 0x81b82986, ++ 0x87c06990, ++ 0x81bc2980, ++ 0x20de0000, ++ 0x91b43a88, ++ 0x2301029e, ++ 0x51150608, ++ 0xc908e305, ++ 0x51120303, ++ 0x01010303, ++ 0x79000002, ++ 0x24000003, ++ 0x01012323, ++ 0x81b01a83, ++ 0x21007d00, ++ 0x902cfc88, ++ 0x10c8c893, ++ 0x108888d4, ++ 0x10c9c994, ++ 0x108989d5, ++ 0x10caca95, ++ 0x108a8ad6, ++ 0x10cbcb96, ++ 0x108b8bd7, ++ 0xd108e303, ++ 0x2400a80c, ++ 0x20de0000, ++ 0x2400aa0c, ++ 0x20de0000, ++ 0xd108e303, ++ 0x24007c0c, ++ 0x20de0000, ++ 0x24007e0c, ++ 0x20de0000, ++ 0x24000000, ++ 0x90453904, ++ 0xd108e303, ++ 0x24007c0c, ++ 0x20de0000, ++ 0x24007e0c, ++ 0x20de0000, ++ 0xb1002fe6, ++ 0x91b82880, ++ 0xc91ce002, ++ 0x209e0000, ++ 0xb1002ee6, ++ 0x69187279, ++ 0xd110f230, ++ 0xc903e769, ++ 0xc90be604, ++ 0xc904e767, ++ 0xd105e766, ++ 0x7900000c, ++ 0xc90ae604, ++ 0xd104e763, ++ 0xd105e762, ++ 0x79000008, ++ 0xc907e604, ++ 0xc904e75f, ++ 0xc905e75e, ++ 0x79000004, ++ 0xc906e65c, ++ 0xd104e75b, ++ 0xc905e75a, ++ 0x91003c80, ++ 0x6897c058, ++ 0x68d88057, ++ 0x91043c80, ++ 0x6898c055, ++ 0x68d98054, ++ 0x91083c80, ++ 0x6899c052, ++ 0x68da8051, ++ 0x910c3c80, ++ 0x689ac04f, ++ 0x68db804e, ++ 0xb10009e0, ++ 0x6892c04c, ++ 0x68d3804b, ++ 0x24000160, ++ 0xa1000a60, ++ 0x244000c0, ++ 0x24001580, ++ 0xa0605ce0, ++ 0x1d03e7e7, ++ 0x109393c8, ++ 0x10d4d488, ++ 0x109494c9, ++ 0x10d5d589, ++ 0x109595ca, ++ 0x10d6d68a, ++ 0x109696cb, ++ 0x10d7d78b, ++ 0x8110fc88, ++ 0x209e0000, ++ 0x91003c80, ++ 0x6893c00c, ++ 0x68d4800b, ++ 0x91043c80, ++ 0x6894c009, ++ 0x68d58008, ++ 0x91083c80, ++ 0x6895c006, ++ 0x68d68005, ++ 0x910c3c80, ++ 0x6896c003, ++ 0x68d78002, ++ 0x79000010, ++ 0x24ffff80, ++ 0x24ffffc0, ++ 0x68809306, ++ 0x68e0f405, ++ 0x68e0f504, ++ 0x68e0f603, ++ 0x6880d702, ++ 0x79000008, ++ 0x24000080, ++ 0x240000c0, ++ 0x68809323, ++ 0x68e0f422, ++ 0x68e0f521, ++ 0x68e0f620, ++ 0x6880d71f, ++ 0x1d10f2f2, ++ 0x2400002c, ++ 0x2302c8de, ++ 0x24000f80, ++ 0x240000c0, ++ 0x0101c0c0, ++ 0xd100e504, ++ 0xc91cff06, ++ 0x6e80c0fd, ++ 0x21016d00, ++ 0xc91dff03, ++ 0x6e80c0fa, ++ 0x21016d00, ++ 0xd104e606, ++ 0xc909e608, ++ 0xb1000ce0, ++ 0x0101e0e0, ++ 0xa0600ce0, ++ 0x79000004, ++ 0xb1000be0, ++ 0x0101e0e0, ++ 0xa0600be0, ++ 0xb1002fe6, ++ 0xd100e504, ++ 0x2302b4de, ++ 0x24000022, ++ 0x209e0000, ++ 0x2302b9de, ++ 0x24000042, ++ 0x209e0000, ++ 0xd104e609, ++ 0x01782545, ++ 0x9045180e, ++ 0x110f0e00, ++ 0x81100b00, ++ 0x2400a445, ++ 0x51002502, ++ 0x01504545, ++ 0x90451888, ++ 0xc909e87d, ++ 0xb1002fe6, ++ 0x1f1fe6e6, ++ 0x10080806, ++ 0x21015f00, ++ 0x6914721b, ++ 0x01782545, ++ 0x2303bade, ++ 0x900c188f, ++ 0x1d02efef, ++ 0xc901ef05, ++ 0xc905ef04, ++ 0x1d01efef, ++ 0x1d05efef, ++ 0x800c188f, ++ 0xc909e66e, ++ 0x2303d0de, ++ 0xc800e40c, ++ 0x110f0020, ++ 0x81100b20, ++ 0x100c0c45, ++ 0x61100002, ++ 0x01604545, ++ 0x9045188f, ++ 0xc901ef05, ++ 0xc907ef04, ++ 0x1d01efef, ++ 0x1d07efef, ++ 0x8045188f, ++ 0x01010000, ++ 0x6f1300f3, ++ 0x7900005e, ++ 0x6910725d, ++ 0x01782545, ++ 0x2303bade, ++ 0x900c188f, ++ 0x1f03efef, ++ 0xd101ef03, ++ 0x1f01efef, ++ 0x1f06efef, ++ 0x800c188f, ++ 0xc909e654, ++ 0x2303d0de, ++ 0xc800e40b, ++ 0x110f0020, ++ 0x81100b20, ++ 0x100c0c45, ++ 0x61100002, ++ 0x01604545, ++ 0x9045188f, ++ 0xd101ef04, ++ 0x1f01efef, ++ 0x1f08efef, ++ 0x8045188f, ++ 0x01010000, ++ 0x6f1300f4, ++ 0x79000045, ++ 0x01782545, ++ 0x9045788e, ++ 0x1d02efef, ++ 0x1d12efef, ++ 0xc905ef04, ++ 0x1d05efef, ++ 0x1d01efef, ++ 0x7900000c, ++ 0xc915ef04, ++ 0x1d15efef, ++ 0x1d11efef, ++ 0x79000008, ++ 0xc907ef04, ++ 0x1d07efef, ++ 0x1d01efef, ++ 0x79000004, ++ 0xc917ef03, ++ 0x1d17efef, ++ 0x1d11efef, ++ 0x017c2545, ++ 0x8045388f, ++ 0x110f0e00, ++ 0x81100b00, ++ 0x2400a845, ++ 0x51002502, ++ 0x01504545, ++ 0x9045388f, ++ 0x1d02efef, ++ 0x1d12efef, ++ 0xc905ef04, ++ 0x1d05efef, ++ 0x1d01efef, ++ 0x79000004, ++ 0xc915ef03, ++ 0x1d15efef, ++ 0x1d11efef, ++ 0x8045388f, ++ 0x7900001f, ++ 0xc909e60d, ++ 0x9045180e, ++ 0x110f0e00, ++ 0x81100b00, ++ 0xc90ae603, ++ 0x2400a80c, ++ 0x79000003, ++ 0xc90be617, ++ 0x2400aa0c, ++ 0x51002503, ++ 0x01500c0c, ++ 0x24005025, ++ 0x20de0000, ++ 0xc904e611, ++ 0xc906e603, ++ 0x24007c0c, ++ 0x79000003, ++ 0xc907e60d, ++ 0x24007e0c, ++ 0x51002502, ++ 0x01600c0c, ++ 0x20de0000, ++ 0x01ac2545, ++ 0x24000000, ++ 0x90453804, ++ 0xd10be603, ++ 0x24007c0c, ++ 0x20de0000, ++ 0x24007e0c, ++ 0x20de0000, ++ 0x209e0000}; +diff -urN linux.old/drivers/atm/sangam_atm/turbodsl.c linux.dev/drivers/atm/sangam_atm/turbodsl.c +--- linux.old/drivers/atm/sangam_atm/turbodsl.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux.dev/drivers/atm/sangam_atm/turbodsl.c 2005-08-23 04:46:50.111841568 +0200 +@@ -0,0 +1,223 @@ ++ ++ ++/* ++ * ++ * Turbo DSL Implementaion ++ * ++ * Zhicheng Tang ztang@ti.com ++ * ++ * 2002 (c) Texas Instruments Inc. ++ * ++*/ ++ ++/* defines and variables */ ++#define RFC2684_BRIDGED_HDR_SIZE 10 ++unsigned char LLC_BRIDGED_HEADER_2684[RFC2684_BRIDGED_HDR_SIZE] = ++ {0xAA, 0xAA, 0x03, 0x00, 0x80, 0xC2, 0x00, 0x07, 0x00, 0x00}; ++ ++#define RFC2684_ROUTED_HDR_SIZE 6 ++unsigned char LLC_ROUTED_HEADER_2684[6] ={0xAA, 0xAA, 0x03, 0x00, 0x00, 0x00}; ++ ++unsigned long PPP_LLC_HEADER = 0xCF03FEFE; ++ ++/* struct definition */ ++enum ++{ ++ AAL5_ENCAP_PPP_LLC, ++ AAL5_ENCAP_PPP_VCMUX, ++ AAL5_ENCAP_RFC2684_LLC_BRIDGED, ++ AAL5_ENCAP_RFC2684_LLC_ROUTED ++}; ++ ++/* Etherent header */ ++typedef struct _turbodsl_ether_header ++{ ++ unsigned char dst_mac_addr[6]; ++ unsigned char src_mac_addr[6]; ++ unsigned short ether_type; ++} turbodsl_ether_header_t; ++ ++ ++/* Ip header define */ ++typedef struct _turbodsl_ip_header ++{ ++ ++ unsigned short vit; ++ unsigned short total_length; ++ unsigned short ip_id; ++ unsigned char flag; /* bit 0 = 0, bit1 = don't fragment, bit2=more frag */ ++ unsigned char fragment_offset; /* offset include remaining 5 bits above, which make it 13 bits */ ++ unsigned char time_to_live; ++ unsigned char protocol; ++ unsigned short checksum; ++ unsigned int src_ip; ++ unsigned int dst_ip; ++} turbodsl_ip_header_t; ++ ++/* Arp packet define */ ++typedef struct _turbodsl_arp_header ++{ ++ unsigned short hardware_type; ++ unsigned short protocol_type; ++ unsigned char h_len; ++ unsigned char p_len; ++ unsigned short operation ; ++ unsigned char snd_hw_address[6]; ++ unsigned char snd_pt_address[4]; ++ unsigned char dst_hw_address[6]; ++ unsigned char dst_pt_address[4]; ++} turbodsl_arp_header_t; ++ ++#define FIN_FLAG 1 ++#define SYN_FLAG 1<<1 ++#define RST_FLAG 1<<2 ++#define PSH_FLAG 1<<3 ++#define ACK_FLAG 1<<4 ++#define URG_FLAG 1<<5 ++ ++typedef struct _turbodsl_tcp_header ++{ ++ unsigned short src_port; ++ unsigned short dst_port; ++ unsigned int seq_num; ++ unsigned int ack_num; ++ unsigned char offset; /* only bits 4-7 are for offset */ ++ unsigned char flags; /* bits: 0-FIN, 1-SYN, 2-RST, 3-PSH, 4-ACK, 5-URG */ ++ unsigned short windows; ++ unsigned short checksum; ++ unsigned short urgent_ptr; ++} turbodsl_tcp_header_t; ++ ++ ++ ++/*************************************************************************** ++ * Function: turbodsl_memory_compare ++ * Descripation: Memory compare ++ ****************************************************************************/ ++int turbodsl_memory_compare(unsigned char *pIn, unsigned char *pOut, unsigned int len) ++ { ++ int i; ++ ++ for(i=0;i<(int)len; i++) ++ { ++ if(pIn[i] != pOut[i]) ++ return 0; ++ } ++ return 1; ++ } ++ ++/*************************************************************************** ++ * Function: turbodsl_check_aal5_encap_type ++ * Descripation: Determine AAL5 Encapsulation type ++ * Input: ++ * unsigned char *pData, AAL5 Packet buffer pointer ++ ****************************************************************************/ ++int turbodsl_check_aal5_encap_type(unsigned char *pData) ++ { ++ ++ if(turbodsl_memory_compare(pData, LLC_BRIDGED_HEADER_2684, 6)) ++ return AAL5_ENCAP_RFC2684_LLC_BRIDGED; ++ if(turbodsl_memory_compare(pData, LLC_ROUTED_HEADER_2684, 6)) ++ return AAL5_ENCAP_RFC2684_LLC_ROUTED; ++ if(turbodsl_memory_compare(pData, (unsigned char *)&PPP_LLC_HEADER, sizeof(PPP_LLC_HEADER))) ++ return AAL5_ENCAP_PPP_LLC; ++ ++ return AAL5_ENCAP_PPP_VCMUX; ++ } ++ ++/*************************************************************************** ++ * Function: turbodsl_check_priority_type ++ * Descripation: Determine AAL5 Encapsulation type ++ * Input: ++ * unsigned char *pData, AAL5 Packet buffer pointer. ++ * short vpi, VPI. ++ * int vci, VCI ++ ****************************************************************************/ ++int turbodsl_check_priority_type(unsigned char *pData) ++ { ++ int encap; ++ unsigned char *pP; ++ unsigned short etherType; ++ turbodsl_ip_header_t *pIp; ++ turbodsl_tcp_header_t *pTcp; ++ unsigned short ip_length; ++ ++ dprintf(2, "turbodsl_check_priority_type ==>\n"); ++ ++ encap = turbodsl_check_aal5_encap_type(pData); ++ pP = pData; ++ ++ switch(encap) ++ { ++ case AAL5_ENCAP_RFC2684_LLC_BRIDGED: ++ pP += RFC2684_BRIDGED_HDR_SIZE; //skip off aal5 encap ++ pP += 12; //skip of mac address ++ etherType = *(unsigned short *)pP; ++ if(etherType != 0x6488 && etherType != 0x0008) ++ { ++ //Not an IP packet ++ return 1; ++ } ++ ++ pP +=2; //skip ether type ++ if(etherType == 0x6488) ++ { ++ pP += 6; ++ } ++ break; ++ case AAL5_ENCAP_RFC2684_LLC_ROUTED: ++ pP += RFC2684_ROUTED_HDR_SIZE; //skip of encap ++ pP += 2; //skip ether type ++ break; ++ case AAL5_ENCAP_PPP_LLC: ++ pP += sizeof(PPP_LLC_HEADER); ++ if(*pP == 0xff && *(pP+1) == 0x03) //ppp hdlc header ++ pP += 2; ++ break; ++ case AAL5_ENCAP_PPP_VCMUX: ++ if(*pP == 0xff && *(pP+1) == 0x03) //ppp hdlc header ++ pP += 2; ++ break; ++ default: ++ return 1; ++ } ++ ++ pIp = (turbodsl_ip_header_t *)pP; ++ if(pIp->vit != 0x0045) ++ { ++ //Not a IP packet ++ return 1; ++ } ++ ++ if(pIp->protocol != 0x06) ++ { ++ //not tcp packet ++ return 1; ++ } ++ ++ pTcp = (turbodsl_tcp_header_t *)(pP + sizeof(turbodsl_ip_header_t)); ++ ++ ip_length = (pIp->total_length>>8) + (pIp->total_length<<8); ++ ++ if((pTcp->flags & ACK_FLAG) && ip_length <=40) ++ return 0; ++ ++ return 1; ++ } ++ ++ ++ ++ ++ ++ ++ ++ ++ ++ ++ ++ ++ ++ ++ ++ ++ +diff -urN linux.old/include/linux/atmdev.h linux.dev/include/linux/atmdev.h +--- linux.old/include/linux/atmdev.h 2005-08-22 23:18:37.812526104 +0200 ++++ linux.dev/include/linux/atmdev.h 2005-08-23 06:33:33.425389944 +0200 +@@ -30,6 +30,9 @@ + #define ATM_DS3_PCR (8000*12) + /* DS3: 12 cells in a 125 usec time slot */ + ++#define ATM_PDU_OVHD 0 /* number of bytes to charge against buffer ++ quota per PDU */ ++ + #define ATM_SD(s) ((s)->sk->protinfo.af_atm) + + +@@ -94,7 +97,8 @@ + /* set backend handler */ + #define ATM_NEWBACKENDIF _IOW('a',ATMIOC_SPECIAL+3,atm_backend_t) + /* use backend to make new if */ +- ++#define ATM_STOPTX _IOW('a',ATMIOC_SPECIAL+4,struct atmif_sioc) ++ /* Stop Tx on Sangam DSL */ + /* + * These are backend handkers that can be set via the ATM_SETBACKEND call + * above. In the future we may support dynamic loading of these - for now, +@@ -199,7 +203,9 @@ + "SESSION", "HASSAP", "BOUND", "CLOSE" + + +-#ifdef __KERNEL__ ++#ifndef __KERNEL__ ++#undef __AAL_STAT_ITEMS ++#else + + #include <linux/sched.h> /* wait_queue_head_t */ + #include <linux/time.h> /* struct timeval */ +@@ -291,6 +297,7 @@ + int (*send)(struct atm_vcc *vcc,struct sk_buff *skb); + void *dev_data; /* per-device data */ + void *proto_data; /* per-protocol data */ ++ struct timeval timestamp; /* AAL timestamps */ + struct k_atm_aal_stats *stats; /* pointer to AAL stats group */ + wait_queue_head_t sleep; /* if socket is busy */ + struct sock *sk; /* socket backpointer */ +@@ -333,13 +340,14 @@ + struct k_atm_dev_stats stats; /* statistics */ + char signal; /* signal status (ATM_PHY_SIG_*) */ + int link_rate; /* link rate (default: OC3) */ +- atomic_t refcnt; /* reference count */ +- spinlock_t lock; /* protect internal members */ ++ atomic_t refcnt; /* reference count */ ++ spinlock_t lock; /* protect internal members */ + #ifdef CONFIG_PROC_FS + struct proc_dir_entry *proc_entry; /* proc entry */ + char *proc_name; /* proc entry name */ + #endif +- struct list_head dev_list; /* linkage */ ++ struct list_head dev_list; /* linkage */ ++ + }; + + diff --git a/target/linux/ar7-2.4/patches/005-wdt_driver.patch b/target/linux/ar7-2.4/patches/005-wdt_driver.patch new file mode 100644 index 0000000000..9b01a353da --- /dev/null +++ b/target/linux/ar7-2.4/patches/005-wdt_driver.patch @@ -0,0 +1,392 @@ +diff -ruN linux-2.4.30-patch006/drivers/char/ar7_wdt.c linux-2.4.30-patch007/drivers/char/ar7_wdt.c +--- linux-2.4.30-patch006/drivers/char/ar7_wdt.c 1970-01-01 01:00:00.000000000 +0100 ++++ linux-2.4.30-patch007/drivers/char/ar7_wdt.c 2005-10-27 09:39:40.000000000 +0200 +@@ -0,0 +1,335 @@ ++/* linux/drivers/char/ar7_wdt.c ++ ++ TI AR7 watch dog timer support ++ ++ Copyright (c) 2005 Enrik Berkhan <Enrik.Berkhan@akk.org> ++ ++ Som code taken from: ++ National Semiconductor SCx200 Watchdog support ++ Copyright (c) 2001,2002 Christer Weinigel <wingel@nano-system.com> ++ ++ This program is free software; you can redistribute it and/or ++ modify it under the terms of the GNU General Public License as ++ published by the Free Software Foundation; either version 2 of the ++ License, or (at your option) any later version. ++ ++ The author(s) of this software shall not be held liable for damages ++ of any nature resulting due to the use of this software. This ++ software is provided AS-IS with no warranties. */ ++ ++#include <linux/config.h> ++#include <linux/module.h> ++#include <linux/errno.h> ++#include <linux/kernel.h> ++#include <linux/init.h> ++#include <linux/miscdevice.h> ++#include <linux/watchdog.h> ++#include <linux/notifier.h> ++#include <linux/reboot.h> ++#include <linux/ioport.h> ++ ++#include <asm/uaccess.h> ++ ++#include <asm/ar7/avalanche_misc.h> ++#include <asm/ar7/sangam.h> ++ ++#define NAME "ar7_wdt" ++#define LONGNAME "TI AR7 Watchdog Timer" ++ ++MODULE_AUTHOR("Enrik Berkhan <Enrik.Berkhan@akk.org>"); ++MODULE_DESCRIPTION(LONGNAME); ++MODULE_LICENSE("GPL"); ++ ++#ifndef CONFIG_WATCHDOG_NOWAYOUT ++#define CONFIG_WATCHDOG_NOWAYOUT 0 ++#endif ++ ++static int margin = 60; ++MODULE_PARM(margin, "i"); ++MODULE_PARM_DESC(margin, "Watchdog margin in seconds (1 - ~68)"); ++ ++static int nowayout = CONFIG_WATCHDOG_NOWAYOUT; ++MODULE_PARM(nowayout, "i"); ++MODULE_PARM_DESC(nowayout, "Disable watchdog shutdown on close"); ++ ++typedef struct { ++ uint32_t kick_lock; ++ uint32_t kick; ++ uint32_t change_lock; ++ uint32_t change ; ++ uint32_t disable_lock; ++ uint32_t disable; ++ uint32_t prescale_lock; ++ uint32_t prescale; ++} ar7_wdt_t; ++ ++volatile ar7_wdt_t *ar7_wdt = (ar7_wdt_t *)AVALANCHE_WATCHDOG_TIMER_BASE; ++ ++static struct semaphore open_semaphore; ++static unsigned expect_close; ++ ++/* XXX correct? assumed to be sysfreq/2. get this dynamically ... */ ++#define vbus_freq 62500000 ++ ++/* XXX currently fixed, allows max margin ~68.72 secs */ ++#define prescale_value 0xFFFF ++ ++static void ar7_wdt_kick(uint32_t value) ++{ ++ ar7_wdt->kick_lock = 0x5555; ++ if ((ar7_wdt->kick_lock & 3) == 1) { ++ ar7_wdt->kick_lock = 0xAAAA; ++ if ((ar7_wdt->kick_lock & 3) == 3) { ++ ar7_wdt->kick = value; ++ return; ++ } ++ } ++ printk(KERN_ERR NAME "failed to unlock WDT kick reg\n"); ++} ++ ++static void ar7_wdt_prescale(uint32_t value) ++{ ++ ar7_wdt->prescale_lock = 0x5A5A; ++ if ((ar7_wdt->prescale_lock & 3) == 1) { ++ ar7_wdt->prescale_lock = 0xA5A5; ++ if ((ar7_wdt->prescale_lock & 3) == 3) { ++ ar7_wdt->prescale = value; ++ return; ++ } ++ } ++ printk(KERN_ERR NAME "failed to unlock WDT prescale reg\n"); ++} ++ ++static void ar7_wdt_change(uint32_t value) ++{ ++ ar7_wdt->change_lock = 0x6666; ++ if ((ar7_wdt->change_lock & 3) == 1) { ++ ar7_wdt->change_lock = 0xBBBB; ++ if ((ar7_wdt->change_lock & 3) == 3) { ++ ar7_wdt->change = value; ++ return; ++ } ++ } ++ printk(KERN_ERR NAME "failed to unlock WDT change reg\n"); ++} ++ ++static void ar7_wdt_disable(uint32_t value) ++{ ++ ar7_wdt->disable_lock = 0x7777; ++ if ((ar7_wdt->disable_lock & 3) == 1) { ++ ar7_wdt->disable_lock = 0xCCCC; ++ if ((ar7_wdt->disable_lock & 3) == 2) { ++ ar7_wdt->disable_lock = 0xDDDD; ++ if ((ar7_wdt->disable_lock & 3) == 3) { ++ ar7_wdt->disable = value; ++ return; ++ } ++ } ++ } ++ printk(KERN_ERR NAME "failed to unlock WDT disable reg\n"); ++ return; ++} ++ ++static void ar7_wdt_update_margin(int new_margin) ++{ ++ uint32_t change; ++ ++ change = new_margin * (vbus_freq / prescale_value); ++ if (change < 1) change = 1; ++ if (change > 0xFFFF) change = 0xFFFF; ++ ar7_wdt_change(change); ++ margin = change * prescale_value / vbus_freq; ++ printk(KERN_INFO NAME ++ ": timer margin %d seconds (prescale %d, change %d, freq %d)\n", ++ margin, prescale_value, change, vbus_freq); ++} ++ ++static void ar7_wdt_enable_wdt(void) ++{ ++ printk(KERN_DEBUG NAME ": enabling watchdog timer\n"); ++ ar7_wdt_disable(1); ++ ar7_wdt_kick(1); ++} ++ ++static void ar7_wdt_disable_wdt(void) ++{ ++ printk(KERN_DEBUG NAME ": disabling watchdog timer\n"); ++ ar7_wdt_disable(0); ++} ++ ++static int ar7_wdt_open(struct inode *inode, struct file *file) ++{ ++ /* only allow one at a time */ ++ if (down_trylock(&open_semaphore)) ++ return -EBUSY; ++ ar7_wdt_enable_wdt(); ++ expect_close = 0; ++ ++ return 0; ++} ++ ++static int ar7_wdt_release(struct inode *inode, struct file *file) ++{ ++ if (!expect_close) { ++ printk(KERN_WARNING NAME ": watchdog device closed unexpectedly, will not disable the watchdog timer\n"); ++ } else if (!nowayout) { ++ ar7_wdt_disable_wdt(); ++ } ++ up(&open_semaphore); ++ ++ return 0; ++} ++ ++static int ar7_wdt_notify_sys(struct notifier_block *this, ++ unsigned long code, void *unused) ++{ ++ if (code == SYS_HALT || code == SYS_POWER_OFF) ++ if (!nowayout) ++ ar7_wdt_disable_wdt(); ++ ++ return NOTIFY_DONE; ++} ++ ++static struct notifier_block ar7_wdt_notifier = ++{ ++ .notifier_call = ar7_wdt_notify_sys ++}; ++ ++static ssize_t ar7_wdt_write(struct file *file, const char *data, ++ size_t len, loff_t *ppos) ++{ ++ if (ppos != &file->f_pos) ++ return -ESPIPE; ++ ++ /* check for a magic close character */ ++ if (len) ++ { ++ size_t i; ++ ++ ar7_wdt_kick(1); ++ ++ expect_close = 0; ++ for (i = 0; i < len; ++i) { ++ char c; ++ if (get_user(c, data+i)) ++ return -EFAULT; ++ if (c == 'V') ++ expect_close = 1; ++ } ++ ++ } ++ return len; ++} ++ ++static int ar7_wdt_ioctl(struct inode *inode, struct file *file, ++ unsigned int cmd, unsigned long arg) ++{ ++ static struct watchdog_info ident = { ++ .identity = LONGNAME, ++ .firmware_version = 1, ++ .options = (WDIOF_SETTIMEOUT | WDIOF_KEEPALIVEPING), ++ }; ++ int new_margin; ++ ++ switch (cmd) { ++ default: ++ return -ENOTTY; ++ case WDIOC_GETSUPPORT: ++ if(copy_to_user((struct watchdog_info *)arg, &ident, ++ sizeof(ident))) ++ return -EFAULT; ++ return 0; ++ case WDIOC_GETSTATUS: ++ case WDIOC_GETBOOTSTATUS: ++ if (put_user(0, (int *)arg)) ++ return -EFAULT; ++ return 0; ++ case WDIOC_KEEPALIVE: ++ ar7_wdt_kick(1); ++ return 0; ++ case WDIOC_SETTIMEOUT: ++ if (get_user(new_margin, (int *)arg)) ++ return -EFAULT; ++ if (new_margin < 1) ++ return -EINVAL; ++ ++ ar7_wdt_update_margin(new_margin); ++ ar7_wdt_kick(1); ++ ++ case WDIOC_GETTIMEOUT: ++ if (put_user(margin, (int *)arg)) ++ return -EFAULT; ++ return 0; ++ } ++} ++ ++static struct file_operations ar7_wdt_fops = { ++ .owner = THIS_MODULE, ++ .write = ar7_wdt_write, ++ .ioctl = ar7_wdt_ioctl, ++ .open = ar7_wdt_open, ++ .release = ar7_wdt_release, ++}; ++ ++static struct miscdevice ar7_wdt_miscdev = { ++ .minor = WATCHDOG_MINOR, ++ .name = "watchdog", ++ .fops = &ar7_wdt_fops, ++}; ++ ++static __initdata char *last_initiator[] = { ++ [HARDWARE_RESET] = "hardware reset", ++ [SOFTWARE_RESET0] = "SW0 software reset", ++ [SOFTWARE_RESET1] = "SW1 software reset", ++ [WATCHDOG_RESET] = "watchdog" ++}; ++ ++static int __init ar7_wdt_init(void) ++{ ++ int r; ++ ++ if (!request_mem_region(AVALANCHE_WATCHDOG_TIMER_BASE, ++ sizeof(ar7_wdt_t), LONGNAME)) { ++ printk(KERN_WARNING NAME ": watchdog I/O region busy\n"); ++ return -EBUSY; ++ } ++ ++ printk(KERN_INFO NAME ": last system reset initiated by %s\n", ++ last_initiator[avalanche_get_sys_last_reset_status()]); ++ ++ ++ ar7_wdt_disable_wdt(); ++ ar7_wdt_prescale(prescale_value); ++ ar7_wdt_update_margin(margin); ++ ++ sema_init(&open_semaphore, 1); ++ ++ r = misc_register(&ar7_wdt_miscdev); ++ if (r) { ++ printk(KERN_ERR NAME ": unable to register misc device\n"); ++ release_mem_region(AVALANCHE_WATCHDOG_TIMER_BASE, ++ sizeof(ar7_wdt_t)); ++ return r; ++ } ++ ++ r = register_reboot_notifier(&ar7_wdt_notifier); ++ if (r) { ++ printk(KERN_ERR NAME ": unable to register reboot notifier\n"); ++ misc_deregister(&ar7_wdt_miscdev); ++ release_mem_region(AVALANCHE_WATCHDOG_TIMER_BASE, ++ sizeof(ar7_wdt_t)); ++ return r; ++ } ++ ++ return 0; ++} ++ ++static void __exit ar7_wdt_cleanup(void) ++{ ++ unregister_reboot_notifier(&ar7_wdt_notifier); ++ misc_deregister(&ar7_wdt_miscdev); ++ release_mem_region(AVALANCHE_WATCHDOG_TIMER_BASE, sizeof(ar7_wdt_t)); ++} ++ ++module_init(ar7_wdt_init); ++module_exit(ar7_wdt_cleanup); +diff -ruN linux-2.4.30-patch006/drivers/char/Config.in linux-2.4.30-patch007/drivers/char/Config.in +--- linux-2.4.30-patch006/drivers/char/Config.in 2005-10-27 11:25:29.000000000 +0200 ++++ linux-2.4.30-patch007/drivers/char/Config.in 2005-10-27 11:17:32.000000000 +0200 +@@ -251,6 +251,9 @@ + bool 'Watchdog Timer Support' CONFIG_WATCHDOG + if [ "$CONFIG_WATCHDOG" != "n" ]; then + bool ' Disable watchdog shutdown on close' CONFIG_WATCHDOG_NOWAYOUT ++ if [ "$CONFIG_AR7" = "y" ] ; then ++ tristate ' TI AR7 Watchdog Timer' CONFIG_AR7_WDT ++ else + tristate ' Acquire SBC Watchdog Timer' CONFIG_ACQUIRE_WDT + tristate ' Advantech SBC Watchdog Timer' CONFIG_ADVANTECH_WDT + tristate ' ALi M7101 PMU on ALi 1535D+ Watchdog Timer' CONFIG_ALIM1535_WDT +@@ -271,7 +274,6 @@ + tristate ' SBC-60XX Watchdog Timer' CONFIG_60XX_WDT + dep_tristate ' SC1200 Watchdog Timer (EXPERIMENTAL)' CONFIG_SC1200_WDT $CONFIG_EXPERIMENTAL + tristate ' NatSemi SCx200 Watchdog' CONFIG_SCx200_WDT +- tristate ' Software Watchdog' CONFIG_SOFT_WATCHDOG + tristate ' W83877F (EMACS) Watchdog Timer' CONFIG_W83877F_WDT + tristate ' WDT Watchdog timer' CONFIG_WDT + tristate ' WDT PCI Watchdog timer' CONFIG_WDTPCI +@@ -282,6 +284,8 @@ + fi + fi + tristate ' ZF MachZ Watchdog' CONFIG_MACHZ_WDT ++ fi ++ tristate ' Software Watchdog' CONFIG_SOFT_WATCHDOG + if [ "$CONFIG_SGI_IP22" = "y" ]; then + dep_tristate ' Indy/I2 Hardware Watchdog' CONFIG_INDYDOG $CONFIG_SGI_IP22 + fi +diff -ruN linux-2.4.30-patch006/drivers/char/Makefile linux-2.4.30-patch007/drivers/char/Makefile +--- linux-2.4.30-patch006/drivers/char/Makefile 2005-10-27 11:19:38.000000000 +0200 ++++ linux-2.4.30-patch007/drivers/char/Makefile 2005-10-27 09:39:40.000000000 +0200 +@@ -342,6 +342,7 @@ + obj-$(CONFIG_SOFT_WATCHDOG) += softdog.o + obj-$(CONFIG_INDYDOG) += indydog.o + obj-$(CONFIG_8xx_WDT) += mpc8xx_wdt.o ++obj-$(CONFIG_AR7_WDT) += ar7_wdt.o + + subdir-$(CONFIG_MWAVE) += mwave + ifeq ($(CONFIG_MWAVE),y) +diff -ruN linux-2.4.30-patch006/include/asm-mips/ar7/sangam.h linux-2.4.30-patch007/include/asm-mips/ar7/sangam.h +--- linux-2.4.30-patch006/include/asm-mips/ar7/sangam.h 2005-10-27 11:25:51.000000000 +0200 ++++ linux-2.4.30-patch007/include/asm-mips/ar7/sangam.h 2005-10-27 11:13:37.000000000 +0200 +@@ -152,7 +152,7 @@ + #define AVALANCHE_EMIF_SDRAM_CFG (AVALANCHE_EMIF_CONTROL_BASE + 0x8) + #define AVALANCHE_RST_CTRL_PRCR (KSEG1ADDR(0x08611600)) + #define AVALANCHE_RST_CTRL_SWRCR (KSEG1ADDR(0x08611604)) +-#define AVALANCHE_RST_CTRL_RSR (KSEG1ADDR(0x08611600)) ++#define AVALANCHE_RST_CTRL_RSR (KSEG1ADDR(0x08611608)) + + #define AVALANCHE_POWER_CTRL_PDCR (KSEG1ADDR(0x08610A00)) + #define AVALANCHE_WAKEUP_CTRL_WKCR (KSEG1ADDR(0x08610A0C)) diff --git a/target/linux/ar7-2.4/patches/006-sched_use_tsc.patch b/target/linux/ar7-2.4/patches/006-sched_use_tsc.patch new file mode 100644 index 0000000000..5b64310738 --- /dev/null +++ b/target/linux/ar7-2.4/patches/006-sched_use_tsc.patch @@ -0,0 +1,84 @@ +diff -urN linux.old/arch/mips/kernel/time.c linux.dev/arch/mips/kernel/time.c +--- linux.old/arch/mips/kernel/time.c 2005-11-14 11:06:38.661262000 +0100 ++++ linux.dev/arch/mips/kernel/time.c 2005-11-15 20:02:50.059676750 +0100 +@@ -151,6 +151,27 @@ + unsigned int (*mips_hpt_read)(void); + void (*mips_hpt_init)(unsigned int); + ++extern __u32 get_htscl(void) ++{ ++ return timerhi; ++} ++ ++static __u64 tscll_last = 0; ++ ++extern __u64 get_tscll(void) ++{ ++ __u64 h = (__u64) timerhi; ++ __u32 c = read_c0_count(); ++ ++ h <<= 32; ++ h += c; ++ ++ while (h < tscll_last) ++ h += (((__u64) 1) << 32); ++ ++ tscll_last = h; ++ return h; ++} + + /* + * timeofday services, for syscalls. +@@ -761,3 +782,5 @@ + EXPORT_SYMBOL(to_tm); + EXPORT_SYMBOL(rtc_set_time); + EXPORT_SYMBOL(rtc_get_time); ++EXPORT_SYMBOL(get_htscl); ++EXPORT_SYMBOL(get_tscll); +diff -urN linux.old/include/asm-mips/timex.h linux.dev/include/asm-mips/timex.h +--- linux.old/include/asm-mips/timex.h 2005-11-14 11:06:38.685263500 +0100 ++++ linux.dev/include/asm-mips/timex.h 2005-11-14 11:02:21.069163500 +0100 +@@ -31,6 +31,19 @@ + return read_c0_count(); + } + ++extern __u32 get_htscl(void); ++extern __u64 get_tscll(void); ++ ++#define rdtsc(low, high) \ ++ high = get_htscl(); \ ++ low = read_c0_count(); ++ ++#define rdtscl(low) \ ++ low = read_c0_count(); ++ ++#define rdtscll(val) \ ++ val = get_tscll(); ++ + #define vxtime_lock() do {} while (0) + #define vxtime_unlock() do {} while (0) + +diff -urN linux.old/include/net/pkt_sched.h linux.dev/include/net/pkt_sched.h +--- linux.old/include/net/pkt_sched.h 2005-11-14 11:06:38.709265000 +0100 ++++ linux.dev/include/net/pkt_sched.h 2005-11-14 11:02:21.069163500 +0100 +@@ -5,7 +5,11 @@ + #define PSCHED_JIFFIES 2 + #define PSCHED_CPU 3 + ++#ifdef __mips__ ++#define PSCHED_CLOCK_SOURCE PSCHED_CPU ++#else + #define PSCHED_CLOCK_SOURCE PSCHED_JIFFIES ++#endif + + #include <linux/config.h> + #include <linux/types.h> +@@ -271,7 +275,7 @@ + #define PSCHED_US2JIFFIE(delay) (((delay)+psched_clock_per_hz-1)/psched_clock_per_hz) + #define PSCHED_JIFFIE2US(delay) ((delay)*psched_clock_per_hz) + +-#ifdef CONFIG_X86_TSC ++#if defined(CONFIG_X86_TSC) || defined(__mips__) + + #define PSCHED_GET_TIME(stamp) \ + ({ u64 __cur; \ |