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|
/*
* ADM5120 HCD (Host Controller Driver) for USB
*
* Copyright (C) 2007,2008 Gabor Juhos <juhosg at openwrt.org>
*
* This file was derived from: drivers/usb/host/ohci.h
* (C) Copyright 1999 Roman Weissgaerber <weissg@vienna.at>
* (C) Copyright 2000-2002 David Brownell <dbrownell@users.sourceforge.net>
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 as published
* by the Free Software Foundation.
*
*/
/*
* __hc32 and __hc16 are "Host Controller" types, they may be equivalent to
* __leXX (normally) or __beXX (given OHCI_BIG_ENDIAN), depending on the
* host controller implementation.
*/
typedef __u32 __bitwise __hc32;
typedef __u16 __bitwise __hc16;
/*
* OHCI Endpoint Descriptor (ED) ... holds TD queue
* See OHCI spec, section 4.2
*
* This is a "Queue Head" for those transfers, which is why
* both EHCI and UHCI call similar structures a "QH".
*/
#define TD_DATALEN_MAX 4096
#define ED_ALIGN 16
#define ED_MASK ((u32)~(ED_ALIGN-1)) /* strip hw status in low addr bits */
struct ed {
/* first fields are hardware-specified */
__hc32 hwINFO; /* endpoint config bitmap */
/* info bits defined by hcd */
#define ED_DEQUEUE (1 << 27)
/* info bits defined by the hardware */
#define ED_MPS_SHIFT 16
#define ED_MPS_MASK ((1 << 11)-1)
#define ED_MPS_GET(x) (((x) >> ED_MPS_SHIFT) & ED_MPS_MASK)
#define ED_ISO (1 << 15) /* isochronous endpoint */
#define ED_SKIP (1 << 14)
#define ED_SPEED_FULL (1 << 13) /* fullspeed device */
#define ED_INT (1 << 11) /* interrupt endpoint */
#define ED_EN_SHIFT 7 /* endpoint shift */
#define ED_EN_MASK ((1 << 4)-1) /* endpoint mask */
#define ED_EN_GET(x) (((x) >> ED_EN_SHIFT) & ED_EN_MASK)
#define ED_FA_MASK ((1 << 7)-1) /* function address mask */
#define ED_FA_GET(x) ((x) & ED_FA_MASK)
__hc32 hwTailP; /* tail of TD list */
__hc32 hwHeadP; /* head of TD list (hc r/w) */
#define ED_C (0x02) /* toggle carry */
#define ED_H (0x01) /* halted */
__hc32 hwNextED; /* next ED in list */
/* rest are purely for the driver's use */
dma_addr_t dma; /* addr of ED */
struct td *dummy; /* next TD to activate */
struct list_head urb_list; /* list of our URBs */
/* host's view of schedule */
struct ed *ed_next; /* on schedule list */
struct ed *ed_prev; /* for non-interrupt EDs */
struct ed *ed_rm_next; /* on rm list */
struct list_head td_list; /* "shadow list" of our TDs */
/* create --> IDLE --> OPER --> ... --> IDLE --> destroy
* usually: OPER --> UNLINK --> (IDLE | OPER) --> ...
*/
u8 state; /* ED_{IDLE,UNLINK,OPER} */
#define ED_IDLE 0x00 /* NOT linked to HC */
#define ED_UNLINK 0x01 /* being unlinked from hc */
#define ED_OPER 0x02 /* IS linked to hc */
u8 type; /* PIPE_{BULK,...} */
/* periodic scheduling params (for intr and iso) */
u8 branch;
u16 interval;
u16 load;
u16 last_iso; /* iso only */
/* HC may see EDs on rm_list until next frame (frame_no == tick) */
u16 tick;
} __attribute__ ((aligned(ED_ALIGN)));
/*
* OHCI Transfer Descriptor (TD) ... one per transfer segment
* See OHCI spec, sections 4.3.1 (general = control/bulk/interrupt)
* and 4.3.2 (iso)
*/
#define TD_ALIGN 32
#define TD_MASK ((u32)~(TD_ALIGN-1)) /* strip hw status in low addr bits */
struct td {
/* first fields are hardware-specified */
__hc32 hwINFO; /* transfer info bitmask */
/* hwINFO bits */
#define TD_OWN (1 << 31) /* owner of the descriptor */
#define TD_CC_SHIFT 27 /* condition code */
#define TD_CC_MASK 0xf
#define TD_CC (TD_CC_MASK << TD_CC_SHIFT)
#define TD_CC_GET(x) (((x) >> TD_CC_SHIFT) & TD_CC_MASK)
#define TD_EC_SHIFT 25 /* error count */
#define TD_EC_MASK 0x3
#define TD_EC (TD_EC_MASK << TD_EC_SHIFT)
#define TD_EC_GET(x) ((x >> TD_EC_SHIFT) & TD_EC_MASK)
#define TD_T_SHIFT 23 /* data toggle state */
#define TD_T_MASK 0x3
#define TD_T (TD_T_MASK << TD_T_SHIFT)
#define TD_T_DATA0 (0x2 << TD_T_SHIFT) /* DATA0 */
#define TD_T_DATA1 (0x3 << TD_T_SHIFT) /* DATA1 */
#define TD_T_CARRY (0x0 << TD_T_SHIFT) /* uses ED_C */
#define TD_T_GET(x) (((x) >> TD_T_SHIFT) & TD_T_MASK)
#define TD_DP_SHIFT 21 /* direction/pid */
#define TD_DP_MASK 0x3
#define TD_DP (TD_DP_MASK << TD_DP_SHIFT)
#define TD_DP_GET (((x) >> TD_DP_SHIFT) & TD_DP_MASK)
#define TD_DP_SETUP (0x0 << TD_DP_SHIFT) /* SETUP pid */
#define TD_DP_OUT (0x1 << TD_DP_SHIFT) /* OUT pid */
#define TD_DP_IN (0x2 << TD_DP_SHIFT) /* IN pid */
#define TD_ISI_SHIFT 8 /* Interrupt Service Interval */
#define TD_ISI_MASK 0x3f
#define TD_ISI_GET(x) (((x) >> TD_ISI_SHIFT) & TD_ISI_MASK)
#define TD_FN_MASK 0x3f /* frame number */
#define TD_FN_GET(x) ((x) & TD_FN_MASK)
__hc32 hwDBP; /* Data Buffer Pointer (or 0) */
__hc32 hwCBL; /* Controller/Buffer Length */
/* hwCBL bits */
#define TD_BL_MASK 0xffff /* buffer length */
#define TD_BL_GET(x) ((x) & TD_BL_MASK)
#define TD_IE (1 << 16) /* interrupt enable */
__hc32 hwNextTD; /* Next TD Pointer */
/* rest are purely for the driver's use */
__u8 index;
struct ed *ed;
struct td *td_hash; /* dma-->td hashtable */
struct td *next_dl_td;
struct urb *urb;
dma_addr_t td_dma; /* addr of this TD */
dma_addr_t data_dma; /* addr of data it points to */
struct list_head td_list; /* "shadow list", TDs on same ED */
u32 flags;
#define TD_FLAG_DONE (1 << 17) /* retired to done list */
#define TD_FLAG_ISO (1 << 16) /* copy of ED_ISO */
} __attribute__ ((aligned(TD_ALIGN))); /* c/b/i need 16; only iso needs 32 */
/*
* Hardware transfer status codes -- CC from td->hwINFO
*/
#define TD_CC_NOERROR 0x00
#define TD_CC_CRC 0x01
#define TD_CC_BITSTUFFING 0x02
#define TD_CC_DATATOGGLEM 0x03
#define TD_CC_STALL 0x04
#define TD_CC_DEVNOTRESP 0x05
#define TD_CC_PIDCHECKFAIL 0x06
#define TD_CC_UNEXPECTEDPID 0x07
#define TD_CC_DATAOVERRUN 0x08
#define TD_CC_DATAUNDERRUN 0x09
/* 0x0A, 0x0B reserved for hardware */
#define TD_CC_BUFFEROVERRUN 0x0C
#define TD_CC_BUFFERUNDERRUN 0x0D
/* 0x0E, 0x0F reserved for HCD */
#define TD_CC_HCD0 0x0E
#define TD_CC_NOTACCESSED 0x0F
/*
* preshifted status codes
*/
#define TD_SCC_NOTACCESSED (TD_CC_NOTACCESSED << TD_CC_SHIFT)
/* map OHCI TD status codes (CC) to errno values */
static const int cc_to_error [16] = {
/* No Error */ 0,
/* CRC Error */ -EILSEQ,
/* Bit Stuff */ -EPROTO,
/* Data Togg */ -EILSEQ,
/* Stall */ -EPIPE,
/* DevNotResp */ -ETIME,
/* PIDCheck */ -EPROTO,
/* UnExpPID */ -EPROTO,
/* DataOver */ -EOVERFLOW,
/* DataUnder */ -EREMOTEIO,
/* (for hw) */ -EIO,
/* (for hw) */ -EIO,
/* BufferOver */ -ECOMM,
/* BuffUnder */ -ENOSR,
/* (for HCD) */ -EALREADY,
/* (for HCD) */ -EALREADY
};
#define NUM_INTS 32
/*
* This is the structure of the OHCI controller's memory mapped I/O region.
* You must use readl() and writel() (in <asm/io.h>) to access these fields!!
* Layout is in section 7 (and appendix B) of the spec.
*/
struct admhcd_regs {
__hc32 gencontrol; /* General Control */
__hc32 int_status; /* Interrupt Status */
__hc32 int_enable; /* Interrupt Enable */
__hc32 reserved00;
__hc32 host_control; /* Host General Control */
__hc32 reserved01;
__hc32 fminterval; /* Frame Interval */
__hc32 fmnumber; /* Frame Number */
__hc32 reserved02;
__hc32 reserved03;
__hc32 reserved04;
__hc32 reserved05;
__hc32 reserved06;
__hc32 reserved07;
__hc32 reserved08;
__hc32 reserved09;
__hc32 reserved10;
__hc32 reserved11;
__hc32 reserved12;
__hc32 reserved13;
__hc32 reserved14;
__hc32 reserved15;
__hc32 reserved16;
__hc32 reserved17;
__hc32 reserved18;
__hc32 reserved19;
__hc32 reserved20;
__hc32 reserved21;
__hc32 lsthresh; /* Low Speed Threshold */
__hc32 rhdesc; /* Root Hub Descriptor */
#define MAX_ROOT_PORTS 2
__hc32 portstatus[MAX_ROOT_PORTS]; /* Port Status */
__hc32 hosthead; /* Host Descriptor Head */
} __attribute__ ((aligned(32)));
/*
* General Control register bits
*/
#define ADMHC_CTRL_UHFE (1 << 0) /* USB Host Function Enable */
#define ADMHC_CTRL_SIR (1 << 1) /* Software Interrupt request */
#define ADMHC_CTRL_DMAA (1 << 2) /* DMA Arbitration Control */
#define ADMHC_CTRL_SR (1 << 3) /* Software Reset */
/*
* Host General Control register bits
*/
#define ADMHC_HC_BUSS 0x3 /* USB bus state */
#define ADMHC_BUSS_RESET 0x0
#define ADMHC_BUSS_RESUME 0x1
#define ADMHC_BUSS_OPER 0x2
#define ADMHC_BUSS_SUSPEND 0x3
#define ADMHC_HC_DMAE (1 << 2) /* DMA enable */
/*
* Interrupt Status/Enable register bits
*/
#define ADMHC_INTR_SOFI (1 << 4) /* start of frame */
#define ADMHC_INTR_RESI (1 << 5) /* resume detected */
#define ADMHC_INTR_6 (1 << 6) /* unknown */
#define ADMHC_INTR_7 (1 << 7) /* unknown */
#define ADMHC_INTR_BABI (1 << 8) /* babble detected */
#define ADMHC_INTR_INSM (1 << 9) /* root hub status change */
#define ADMHC_INTR_SO (1 << 10) /* scheduling overrun */
#define ADMHC_INTR_FNO (1 << 11) /* frame number overflow */
#define ADMHC_INTR_TDC (1 << 20) /* transfer descriptor completed */
#define ADMHC_INTR_SWI (1 << 29) /* software interrupt */
#define ADMHC_INTR_FATI (1 << 30) /* fatal error */
#define ADMHC_INTR_INTA (1 << 31) /* interrupt active */
#define ADMHC_INTR_MIE (1 << 31) /* master interrupt enable */
/*
* SOF Frame Interval register bits
*/
#define ADMHC_SFI_FI_MASK ((1 << 14)-1) /* Frame Interval value */
#define ADMHC_SFI_FSLDP_SHIFT 16
#define ADMHC_SFI_FSLDP_MASK ((1 << 15)-1)
#define ADMHC_SFI_FIT (1 << 31) /* Frame Interval Toggle */
/*
* SOF Frame Number register bits
*/
#define ADMHC_SFN_FN_MASK ((1 << 16)-1) /* Frame Number Mask */
#define ADMHC_SFN_FR_SHIFT 16 /* Frame Remaining Shift */
#define ADMHC_SFN_FR_MASK ((1 << 14)-1) /* Frame Remaining Mask */
#define ADMHC_SFN_FRT (1 << 31) /* Frame Remaining Toggle */
/*
* Root Hub Descriptor register bits
*/
#define ADMHC_RH_NUMP 0xff /* number of ports */
#define ADMHC_RH_PSM (1 << 8) /* power switching mode */
#define ADMHC_RH_NPS (1 << 9) /* no power switching */
#define ADMHC_RH_OCPM (1 << 10) /* over current protection mode */
#define ADMHC_RH_NOCP (1 << 11) /* no over current protection */
#define ADMHC_RH_PPCM (0xff << 16) /* port power control */
#define ADMHC_RH_LPS (1 << 24) /* local power switch */
#define ADMHC_RH_OCI (1 << 25) /* over current indicator */
/* status change bits */
#define ADMHC_RH_LPSC (1 << 26) /* local power switch change */
#define ADMHC_RH_OCIC (1 << 27) /* over current indicator change */
#define ADMHC_RH_DRWE (1 << 28) /* device remote wakeup enable */
#define ADMHC_RH_CRWE (1 << 29) /* clear remote wakeup enable */
#define ADMHC_RH_CGP (1 << 24) /* clear global power */
#define ADMHC_RH_SGP (1 << 26) /* set global power */
/*
* Port Status register bits
*/
#define ADMHC_PS_CCS (1 << 0) /* current connect status */
#define ADMHC_PS_PES (1 << 1) /* port enable status */
#define ADMHC_PS_PSS (1 << 2) /* port suspend status */
#define ADMHC_PS_POCI (1 << 3) /* port over current indicator */
#define ADMHC_PS_PRS (1 << 4) /* port reset status */
#define ADMHC_PS_PPS (1 << 8) /* port power status */
#define ADMHC_PS_LSDA (1 << 9) /* low speed device attached */
/* status change bits */
#define ADMHC_PS_CSC (1 << 16) /* connect status change */
#define ADMHC_PS_PESC (1 << 17) /* port enable status change */
#define ADMHC_PS_PSSC (1 << 18) /* port suspend status change */
#define ADMHC_PS_OCIC (1 << 19) /* over current indicator change */
#define ADMHC_PS_PRSC (1 << 20) /* port reset status change */
/* port feature bits */
#define ADMHC_PS_CPE (1 << 0) /* clear port enable */
#define ADMHC_PS_SPE (1 << 1) /* set port enable */
#define ADMHC_PS_SPS (1 << 2) /* set port suspend */
#define ADMHC_PS_CPS (1 << 3) /* clear suspend status */
#define ADMHC_PS_SPR (1 << 4) /* set port reset */
#define ADMHC_PS_SPP (1 << 8) /* set port power */
#define ADMHC_PS_CPP (1 << 9) /* clear port power */
/*
* the POTPGT value is not defined in the ADMHC, so define a dummy value
*/
#define ADMHC_POTPGT 2 /* in ms */
/* hcd-private per-urb state */
struct urb_priv {
struct ed *ed;
struct list_head pending; /* URBs on the same ED */
u32 td_cnt; /* # tds in this request */
u32 td_idx; /* index of the current td */
struct td *td[0]; /* all TDs in this request */
};
#define TD_HASH_SIZE 64 /* power'o'two */
/* sizeof (struct td) ~= 64 == 2^6 ... */
#define TD_HASH_FUNC(td_dma) ((td_dma ^ (td_dma >> 6)) % TD_HASH_SIZE)
/*
* This is the full ADMHCD controller description
*
* Note how the "proper" USB information is just
* a subset of what the full implementation needs. (Linus)
*/
struct admhcd {
spinlock_t lock;
/*
* I/O memory used to communicate with the HC (dma-consistent)
*/
struct admhcd_regs __iomem *regs;
/*
* hcd adds to schedule for a live hc any time, but removals finish
* only at the start of the next frame.
*/
struct ed *ed_head;
struct ed *ed_tails[4];
struct ed *ed_rm_list; /* to be removed */
struct ed *periodic[NUM_INTS]; /* shadow int_table */
#if 0 /* TODO: remove? */
/*
* OTG controllers and transceivers need software interaction;
* other external transceivers should be software-transparent
*/
struct otg_transceiver *transceiver;
#endif
/*
* memory management for queue data structures
*/
struct dma_pool *td_cache;
struct dma_pool *ed_cache;
struct td *td_hash[TD_HASH_SIZE];
struct list_head pending;
/*
* driver state
*/
int num_ports;
int load[NUM_INTS];
u32 host_control; /* copy of the host_control reg */
unsigned long next_statechange; /* suspend/resume */
u32 fminterval; /* saved register */
unsigned autostop:1; /* rh auto stopping/stopped */
unsigned long flags; /* for HC bugs */
#define OHCI_QUIRK_AMD756 0x01 /* erratum #4 */
#define OHCI_QUIRK_SUPERIO 0x02 /* natsemi */
#define OHCI_QUIRK_INITRESET 0x04 /* SiS, OPTi, ... */
#define OHCI_QUIRK_BE_DESC 0x08 /* BE descriptors */
#define OHCI_QUIRK_BE_MMIO 0x10 /* BE registers */
#define OHCI_QUIRK_ZFMICRO 0x20 /* Compaq ZFMicro chipset*/
// there are also chip quirks/bugs in init logic
};
/* convert between an hcd pointer and the corresponding ahcd_hcd */
static inline struct admhcd *hcd_to_admhcd(struct usb_hcd *hcd)
{
return (struct admhcd *)(hcd->hcd_priv);
}
static inline struct usb_hcd *admhcd_to_hcd(const struct admhcd *ahcd)
{
return container_of((void *)ahcd, struct usb_hcd, hcd_priv);
}
/*-------------------------------------------------------------------------*/
#ifndef DEBUG
#define STUB_DEBUG_FILES
#endif /* DEBUG */
#ifdef DEBUG
# define admhc_dbg(ahcd, fmt, args...) \
printk(KERN_DEBUG "adm5120-hcd: " fmt , ## args )
#else
# define admhc_dbg(ahcd, fmt, args...) do { } while (0)
#endif
#define admhc_err(ahcd, fmt, args...) \
printk(KERN_ERR "adm5120-hcd: " fmt , ## args )
#define admhc_info(ahcd, fmt, args...) \
printk(KERN_INFO "adm5120-hcd: " fmt , ## args )
#define admhc_warn(ahcd, fmt, args...) \
printk(KERN_WARNING "adm5120-hcd: " fmt , ## args )
#ifdef ADMHC_VERBOSE_DEBUG
# define admhc_vdbg admhc_dbg
#else
# define admhc_vdbg(ahcd, fmt, args...) do { } while (0)
#endif
/*-------------------------------------------------------------------------*/
/*
* While most USB host controllers implement their registers and
* in-memory communication descriptors in little-endian format,
* a minority (notably the IBM STB04XXX and the Motorola MPC5200
* processors) implement them in big endian format.
*
* In addition some more exotic implementations like the Toshiba
* Spider (aka SCC) cell southbridge are "mixed" endian, that is,
* they have a different endianness for registers vs. in-memory
* descriptors.
*
* This attempts to support either format at compile time without a
* runtime penalty, or both formats with the additional overhead
* of checking a flag bit.
*
* That leads to some tricky Kconfig rules howevber. There are
* different defaults based on some arch/ppc platforms, though
* the basic rules are:
*
* Controller type Kconfig options needed
* --------------- ----------------------
* little endian CONFIG_USB_ADMHC_LITTLE_ENDIAN
*
* fully big endian CONFIG_USB_ADMHC_BIG_ENDIAN_DESC _and_
* CONFIG_USB_ADMHC_BIG_ENDIAN_MMIO
*
* mixed endian CONFIG_USB_ADMHC_LITTLE_ENDIAN _and_
* CONFIG_USB_OHCI_BIG_ENDIAN_{MMIO,DESC}
*
* (If you have a mixed endian controller, you -must- also define
* CONFIG_USB_ADMHC_LITTLE_ENDIAN or things will not work when building
* both your mixed endian and a fully big endian controller support in
* the same kernel image).
*/
#ifdef CONFIG_USB_ADMHC_BIG_ENDIAN_DESC
#ifdef CONFIG_USB_ADMHC_LITTLE_ENDIAN
#define big_endian_desc(ahcd) (ahcd->flags & OHCI_QUIRK_BE_DESC)
#else
#define big_endian_desc(ahcd) 1 /* only big endian */
#endif
#else
#define big_endian_desc(ahcd) 0 /* only little endian */
#endif
#ifdef CONFIG_USB_ADMHC_BIG_ENDIAN_MMIO
#ifdef CONFIG_USB_ADMHC_LITTLE_ENDIAN
#define big_endian_mmio(ahcd) (ahcd->flags & OHCI_QUIRK_BE_MMIO)
#else
#define big_endian_mmio(ahcd) 1 /* only big endian */
#endif
#else
#define big_endian_mmio(ahcd) 0 /* only little endian */
#endif
/*
* Big-endian read/write functions are arch-specific.
* Other arches can be added if/when they're needed.
*
* REVISIT: arch/powerpc now has readl/writel_be, so the
* definition below can die once the STB04xxx support is
* finally ported over.
*/
#if defined(CONFIG_PPC) && !defined(CONFIG_PPC_MERGE)
#define readl_be(addr) in_be32((__force unsigned *)addr)
#define writel_be(val, addr) out_be32((__force unsigned *)addr, val)
#endif
static inline unsigned int admhc_readl(const struct admhcd *ahcd,
__hc32 __iomem *regs)
{
#ifdef CONFIG_USB_ADMHC_BIG_ENDIAN_MMIO
return big_endian_mmio(ahcd) ?
readl_be(regs) :
readl(regs);
#else
return readl(regs);
#endif
}
static inline void admhc_writel(const struct admhcd *ahcd,
const unsigned int val, __hc32 __iomem *regs)
{
#ifdef CONFIG_USB_ADMHC_BIG_ENDIAN_MMIO
big_endian_mmio(ahcd) ?
writel_be(val, regs) :
writel(val, regs);
#else
writel(val, regs);
#endif
}
static inline void admhc_writel_flush(const struct admhcd *ahcd)
{
#if 0
/* TODO: remove? */
(void) admhc_readl(ahcd, &ahcd->regs->gencontrol);
#endif
}
/*-------------------------------------------------------------------------*/
/* cpu to ahcd */
static inline __hc16 cpu_to_hc16(const struct admhcd *ahcd, const u16 x)
{
return big_endian_desc(ahcd) ?
(__force __hc16)cpu_to_be16(x) :
(__force __hc16)cpu_to_le16(x);
}
static inline __hc16 cpu_to_hc16p(const struct admhcd *ahcd, const u16 *x)
{
return big_endian_desc(ahcd) ?
cpu_to_be16p(x) :
cpu_to_le16p(x);
}
static inline __hc32 cpu_to_hc32(const struct admhcd *ahcd, const u32 x)
{
return big_endian_desc(ahcd) ?
(__force __hc32)cpu_to_be32(x) :
(__force __hc32)cpu_to_le32(x);
}
static inline __hc32 cpu_to_hc32p(const struct admhcd *ahcd, const u32 *x)
{
return big_endian_desc(ahcd) ?
cpu_to_be32p(x) :
cpu_to_le32p(x);
}
/* ahcd to cpu */
static inline u16 hc16_to_cpu(const struct admhcd *ahcd, const __hc16 x)
{
return big_endian_desc(ahcd) ?
be16_to_cpu((__force __be16)x) :
le16_to_cpu((__force __le16)x);
}
static inline u16 hc16_to_cpup(const struct admhcd *ahcd, const __hc16 *x)
{
return big_endian_desc(ahcd) ?
be16_to_cpup((__force __be16 *)x) :
le16_to_cpup((__force __le16 *)x);
}
static inline u32 hc32_to_cpu(const struct admhcd *ahcd, const __hc32 x)
{
return big_endian_desc(ahcd) ?
be32_to_cpu((__force __be32)x) :
le32_to_cpu((__force __le32)x);
}
static inline u32 hc32_to_cpup(const struct admhcd *ahcd, const __hc32 *x)
{
return big_endian_desc(ahcd) ?
be32_to_cpup((__force __be32 *)x) :
le32_to_cpup((__force __le32 *)x);
}
/*-------------------------------------------------------------------------*/
static inline u16 admhc_frame_no(const struct admhcd *ahcd)
{
u32 t;
t = admhc_readl(ahcd, &ahcd->regs->fmnumber) & ADMHC_SFN_FN_MASK;
return (u16)t;
}
static inline u16 admhc_frame_remain(const struct admhcd *ahcd)
{
u32 t;
t = admhc_readl(ahcd, &ahcd->regs->fmnumber) >> ADMHC_SFN_FR_SHIFT;
t &= ADMHC_SFN_FR_MASK;
return (u16)t;
}
/*-------------------------------------------------------------------------*/
static inline void admhc_disable(struct admhcd *ahcd)
{
admhcd_to_hcd(ahcd)->state = HC_STATE_HALT;
}
#define FI 0x2edf /* 12000 bits per frame (-1) */
#define FSLDP(fi) (0x7fff & ((6 * ((fi) - 1200)) / 7))
#define FIT ADMHC_SFI_FIT
#define LSTHRESH 0x628 /* lowspeed bit threshold */
static inline void periodic_reinit(struct admhcd *ahcd)
{
#if 0
u32 fi = ahcd->fminterval & ADMHC_SFI_FI_MASK;
u32 fit = admhc_readl(ahcd, &ahcd->regs->fminterval) & FIT;
/* TODO: adjust FSLargestDataPacket value too? */
admhc_writel(ahcd, (fit ^ FIT) | ahcd->fminterval,
&ahcd->regs->fminterval);
#else
u32 fit = admhc_readl(ahcd, &ahcd->regs->fminterval) & FIT;
/* TODO: adjust FSLargestDataPacket value too? */
admhc_writel(ahcd, (fit ^ FIT) | ahcd->fminterval,
&ahcd->regs->fminterval);
#endif
}
static inline u32 admhc_read_rhdesc(struct admhcd *ahcd)
{
return admhc_readl(ahcd, &ahcd->regs->rhdesc);
}
static inline u32 admhc_read_portstatus(struct admhcd *ahcd, int port)
{
return admhc_readl(ahcd, &ahcd->regs->portstatus[port]);
}
static inline void admhc_write_portstatus(struct admhcd *ahcd, int port,
u32 value)
{
admhc_writel(ahcd, value, &ahcd->regs->portstatus[port]);
}
static inline void roothub_write_status(struct admhcd *ahcd, u32 value)
{
/* FIXME: read-only bits must be masked out */
admhc_writel(ahcd, value, &ahcd->regs->rhdesc);
}
static inline void admhc_intr_disable(struct admhcd *ahcd, u32 ints)
{
u32 t;
t = admhc_readl(ahcd, &ahcd->regs->int_enable);
t &= ~(ints);
admhc_writel(ahcd, t, &ahcd->regs->int_enable);
/* TODO: flush writes ?*/
}
static inline void admhc_intr_enable(struct admhcd *ahcd, u32 ints)
{
u32 t;
t = admhc_readl(ahcd, &ahcd->regs->int_enable);
t |= ints;
admhc_writel(ahcd, t, &ahcd->regs->int_enable);
/* TODO: flush writes ?*/
}
static inline void admhc_intr_ack(struct admhcd *ahcd, u32 ints)
{
admhc_writel(ahcd, ints, &ahcd->regs->int_status);
}
static inline void admhc_dma_enable(struct admhcd *ahcd)
{
u32 t;
t = admhc_readl(ahcd, &ahcd->regs->host_control);
if (t & ADMHC_HC_DMAE)
return;
t |= ADMHC_HC_DMAE;
admhc_writel(ahcd, t, &ahcd->regs->host_control);
admhc_vdbg(ahcd,"DMA enabled\n");
}
static inline void admhc_dma_disable(struct admhcd *ahcd)
{
u32 t;
t = admhc_readl(ahcd, &ahcd->regs->host_control);
if (!(t & ADMHC_HC_DMAE))
return;
t &= ~ADMHC_HC_DMAE;
admhc_writel(ahcd, t, &ahcd->regs->host_control);
admhc_vdbg(ahcd,"DMA disabled\n");
}
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