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|
/*
* AR6K Driver layer event handling (i.e. interrupts, message polling)
*
* Copyright (c) 2007 Atheros Communications Inc.
* All rights reserved.
*
*
* 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;
*
* Software distributed under the License is distributed on an "AS
* IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
* implied. See the License for the specific language governing
* rights and limitations under the License.
*
*
*
*/
#include "a_config.h"
#include "athdefs.h"
#include "a_types.h"
#include "AR6Khwreg.h"
#include "a_osapi.h"
#include "a_debug.h"
#include "hif.h"
#include "htc_packet.h"
#include "ar6k.h"
extern void AR6KFreeIOPacket(AR6K_DEVICE *pDev, HTC_PACKET *pPacket);
extern HTC_PACKET *AR6KAllocIOPacket(AR6K_DEVICE *pDev);
static A_STATUS DevServiceDebugInterrupt(AR6K_DEVICE *pDev);
#define DELAY_PER_INTERVAL_MS 10 /* 10 MS delay per polling interval */
/* completion routine for ALL HIF layer async I/O */
A_STATUS DevRWCompletionHandler(void *context, A_STATUS status)
{
HTC_PACKET *pPacket = (HTC_PACKET *)context;
COMPLETE_HTC_PACKET(pPacket,status);
return A_OK;
}
/* mailbox recv message polling */
A_STATUS DevPollMboxMsgRecv(AR6K_DEVICE *pDev,
A_UINT32 *pLookAhead,
int TimeoutMS)
{
A_STATUS status = A_OK;
int timeout = TimeoutMS/DELAY_PER_INTERVAL_MS;
AR_DEBUG_ASSERT(timeout > 0);
AR_DEBUG_PRINTF(ATH_DEBUG_RECV,("+DevPollMboxMsgRecv \n"));
while (TRUE) {
if (pDev->GetPendingEventsFunc != NULL)
{
HIF_PENDING_EVENTS_INFO events;
/* the HIF layer uses a special mechanism to get events, do this
* synchronously */
status = pDev->GetPendingEventsFunc(pDev->HIFDevice,
&events,
NULL);
if (A_FAILED(status))
{
AR_DEBUG_PRINTF(ATH_DEBUG_ERR,("Failed to get pending events \n"));
break;
}
if (events.Events & HIF_RECV_MSG_AVAIL)
{
/* there is a message available, the lookahead should be valid now */
*pLookAhead = events.LookAhead;
break;
}
}
else
{
/* this is the standard HIF way.... */
/* load the register table */
status = HIFReadWrite(pDev->HIFDevice,
HOST_INT_STATUS_ADDRESS,
(A_UINT8 *)&pDev->IrqProcRegisters,
AR6K_IRQ_PROC_REGS_SIZE,
HIF_RD_SYNC_BYTE_INC,
NULL);
if (A_FAILED(status))
{
AR_DEBUG_PRINTF(ATH_DEBUG_ERR,("Failed to read register table \n"));
break;
}
/* check for MBOX data and valid lookahead */
if (pDev->IrqProcRegisters.host_int_status & (1 << HTC_MAILBOX))
{
if (pDev->IrqProcRegisters.rx_lookahead_valid & (1 << HTC_MAILBOX))
{
/* mailbox has a message and the look ahead is valid */
*pLookAhead = pDev->IrqProcRegisters.rx_lookahead[HTC_MAILBOX];
break;
}
}
}
timeout--;
if (timeout <= 0)
{
AR_DEBUG_PRINTF(ATH_DEBUG_ERR, (" Timeout waiting for recv message \n"));
status = A_ERROR;
/* check if the target asserted */
if ( pDev->IrqProcRegisters.counter_int_status & AR6K_TARGET_DEBUG_INTR_MASK) {
/* target signaled an assert, process this pending interrupt
* this will call the target failure handler */
DevServiceDebugInterrupt(pDev);
}
break;
}
/* delay a little */
msleep(DELAY_PER_INTERVAL_MS);
AR_DEBUG_PRINTF(ATH_DEBUG_RECV,(" Retry Mbox Poll : %d \n",timeout));
}
AR_DEBUG_PRINTF(ATH_DEBUG_RECV,("-DevPollMboxMsgRecv \n"));
return status;
}
static A_STATUS DevServiceCPUInterrupt(AR6K_DEVICE *pDev)
{
A_STATUS status;
A_UINT8 cpu_int_status;
A_UINT8 regBuffer[4];
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ, ("CPU Interrupt\n"));
cpu_int_status = pDev->IrqProcRegisters.cpu_int_status &
pDev->IrqEnableRegisters.cpu_int_status_enable;
AR_DEBUG_ASSERT(cpu_int_status);
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ,
("Valid interrupt source(s) in CPU_INT_STATUS: 0x%x\n",
cpu_int_status));
/* Clear the interrupt */
pDev->IrqProcRegisters.cpu_int_status &= ~cpu_int_status; /* W1C */
/* set up the register transfer buffer to hit the register 4 times , this is done
* to make the access 4-byte aligned to mitigate issues with host bus interconnects that
* restrict bus transfer lengths to be a multiple of 4-bytes */
/* set W1C value to clear the interrupt, this hits the register first */
regBuffer[0] = cpu_int_status;
/* the remaining 4 values are set to zero which have no-effect */
regBuffer[1] = 0;
regBuffer[2] = 0;
regBuffer[3] = 0;
status = HIFReadWrite(pDev->HIFDevice,
CPU_INT_STATUS_ADDRESS,
regBuffer,
4,
HIF_WR_SYNC_BYTE_FIX,
NULL);
AR_DEBUG_ASSERT(status == A_OK);
return status;
}
static A_STATUS DevServiceErrorInterrupt(AR6K_DEVICE *pDev)
{
A_STATUS status;
A_UINT8 error_int_status;
A_UINT8 regBuffer[4];
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ, ("Error Interrupt\n"));
error_int_status = pDev->IrqProcRegisters.error_int_status & 0x0F;
AR_DEBUG_ASSERT(error_int_status);
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ,
("Valid interrupt source(s) in ERROR_INT_STATUS: 0x%x\n",
error_int_status));
if (ERROR_INT_STATUS_WAKEUP_GET(error_int_status)) {
/* Wakeup */
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ, ("Error : Wakeup\n"));
}
if (ERROR_INT_STATUS_RX_UNDERFLOW_GET(error_int_status)) {
/* Rx Underflow */
AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("Error : Rx Underflow\n"));
}
if (ERROR_INT_STATUS_TX_OVERFLOW_GET(error_int_status)) {
/* Tx Overflow */
AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("Error : Tx Overflow\n"));
}
/* Clear the interrupt */
pDev->IrqProcRegisters.error_int_status &= ~error_int_status; /* W1C */
/* set up the register transfer buffer to hit the register 4 times , this is done
* to make the access 4-byte aligned to mitigate issues with host bus interconnects that
* restrict bus transfer lengths to be a multiple of 4-bytes */
/* set W1C value to clear the interrupt, this hits the register first */
regBuffer[0] = error_int_status;
/* the remaining 4 values are set to zero which have no-effect */
regBuffer[1] = 0;
regBuffer[2] = 0;
regBuffer[3] = 0;
status = HIFReadWrite(pDev->HIFDevice,
ERROR_INT_STATUS_ADDRESS,
regBuffer,
4,
HIF_WR_SYNC_BYTE_FIX,
NULL);
AR_DEBUG_ASSERT(status == A_OK);
return status;
}
static A_STATUS DevServiceDebugInterrupt(AR6K_DEVICE *pDev)
{
A_UINT32 dummy;
A_STATUS status;
/* Send a target failure event to the application */
AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("Target debug interrupt\n"));
if (pDev->TargetFailureCallback != NULL) {
pDev->TargetFailureCallback(pDev->HTCContext);
}
/* clear the interrupt , the debug error interrupt is
* counter 0 */
/* read counter to clear interrupt */
status = HIFReadWrite(pDev->HIFDevice,
COUNT_DEC_ADDRESS,
(A_UINT8 *)&dummy,
4,
HIF_RD_SYNC_BYTE_INC,
NULL);
AR_DEBUG_ASSERT(status == A_OK);
return status;
}
static A_STATUS DevServiceCounterInterrupt(AR6K_DEVICE *pDev)
{
A_UINT8 counter_int_status;
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ, ("Counter Interrupt\n"));
counter_int_status = pDev->IrqProcRegisters.counter_int_status &
pDev->IrqEnableRegisters.counter_int_status_enable;
AR_DEBUG_ASSERT(counter_int_status);
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ,
("Valid interrupt source(s) in COUNTER_INT_STATUS: 0x%x\n",
counter_int_status));
/* Check if the debug interrupt is pending */
if (counter_int_status & AR6K_TARGET_DEBUG_INTR_MASK) {
return DevServiceDebugInterrupt(pDev);
}
return A_OK;
}
/* callback when our fetch to get interrupt status registers completes */
static void DevGetEventAsyncHandler(void *Context, HTC_PACKET *pPacket)
{
AR6K_DEVICE *pDev = (AR6K_DEVICE *)Context;
A_UINT32 lookAhead = 0;
A_BOOL otherInts = FALSE;
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ,("+DevGetEventAsyncHandler: (dev: 0x%X)\n", (A_UINT32)pDev));
do {
if (A_FAILED(pPacket->Status)) {
AR_DEBUG_PRINTF(ATH_DEBUG_ERR,
(" GetEvents I/O request failed, status:%d \n", pPacket->Status));
/* bail out, don't unmask HIF interrupt */
break;
}
if (pDev->GetPendingEventsFunc != NULL) {
/* the HIF layer collected the information for us */
HIF_PENDING_EVENTS_INFO *pEvents = (HIF_PENDING_EVENTS_INFO *)pPacket->pBuffer;
if (pEvents->Events & HIF_RECV_MSG_AVAIL) {
lookAhead = pEvents->LookAhead;
if (0 == lookAhead) {
AR_DEBUG_PRINTF(ATH_DEBUG_ERR,(" DevGetEventAsyncHandler1, lookAhead is zero! \n"));
}
}
if (pEvents->Events & HIF_OTHER_EVENTS) {
otherInts = TRUE;
}
} else {
/* standard interrupt table handling.... */
AR6K_IRQ_PROC_REGISTERS *pReg = (AR6K_IRQ_PROC_REGISTERS *)pPacket->pBuffer;
A_UINT8 host_int_status;
host_int_status = pReg->host_int_status & pDev->IrqEnableRegisters.int_status_enable;
if (host_int_status & (1 << HTC_MAILBOX)) {
host_int_status &= ~(1 << HTC_MAILBOX);
if (pReg->rx_lookahead_valid & (1 << HTC_MAILBOX)) {
/* mailbox has a message and the look ahead is valid */
lookAhead = pReg->rx_lookahead[HTC_MAILBOX];
if (0 == lookAhead) {
AR_DEBUG_PRINTF(ATH_DEBUG_ERR,(" DevGetEventAsyncHandler2, lookAhead is zero! \n"));
}
}
}
if (host_int_status) {
/* there are other interrupts to handle */
otherInts = TRUE;
}
}
if (otherInts || (lookAhead == 0)) {
/* if there are other interrupts to process, we cannot do this in the async handler so
* ack the interrupt which will cause our sync handler to run again
* if however there are no more messages, we can now ack the interrupt */
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ,
(" Acking interrupt from DevGetEventAsyncHandler (otherints:%d, lookahead:0x%X)\n",
otherInts, lookAhead));
HIFAckInterrupt(pDev->HIFDevice);
} else {
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ,
(" DevGetEventAsyncHandler : detected another message, lookahead :0x%X \n",
lookAhead));
/* lookahead is non-zero and there are no other interrupts to service,
* go get the next message */
pDev->MessagePendingCallback(pDev->HTCContext, lookAhead, NULL);
}
} while (FALSE);
/* free this IO packet */
AR6KFreeIOPacket(pDev,pPacket);
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ,("-DevGetEventAsyncHandler \n"));
}
/* called by the HTC layer when it wants us to check if the device has any more pending
* recv messages, this starts off a series of async requests to read interrupt registers */
A_STATUS DevCheckPendingRecvMsgsAsync(void *context)
{
AR6K_DEVICE *pDev = (AR6K_DEVICE *)context;
A_STATUS status = A_OK;
HTC_PACKET *pIOPacket;
/* this is called in an ASYNC only context, we may NOT block, sleep or call any apis that can
* cause us to switch contexts */
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ,("+DevCheckPendingRecvMsgsAsync: (dev: 0x%X)\n", (A_UINT32)pDev));
do {
if (HIF_DEVICE_IRQ_SYNC_ONLY == pDev->HifIRQProcessingMode) {
/* break the async processing chain right here, no need to continue.
* The DevDsrHandler() will handle things in a loop when things are driven
* synchronously */
break;
}
/* first allocate one of our HTC packets we created for async I/O
* we reuse HTC packet definitions so that we can use the completion mechanism
* in DevRWCompletionHandler() */
pIOPacket = AR6KAllocIOPacket(pDev);
if (NULL == pIOPacket) {
/* there should be only 1 asynchronous request out at a time to read these registers
* so this should actually never happen */
status = A_NO_MEMORY;
AR_DEBUG_ASSERT(FALSE);
break;
}
/* stick in our completion routine when the I/O operation completes */
pIOPacket->Completion = DevGetEventAsyncHandler;
pIOPacket->pContext = pDev;
if (pDev->GetPendingEventsFunc) {
/* HIF layer has it's own mechanism, pass the IO to it.. */
status = pDev->GetPendingEventsFunc(pDev->HIFDevice,
(HIF_PENDING_EVENTS_INFO *)pIOPacket->pBuffer,
pIOPacket);
} else {
/* standard way, read the interrupt register table asynchronously again */
status = HIFReadWrite(pDev->HIFDevice,
HOST_INT_STATUS_ADDRESS,
pIOPacket->pBuffer,
AR6K_IRQ_PROC_REGS_SIZE,
HIF_RD_ASYNC_BYTE_INC,
pIOPacket);
}
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ,(" Async IO issued to get interrupt status...\n"));
} while (FALSE);
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ,("-DevCheckPendingRecvMsgsAsync \n"));
return status;
}
/* process pending interrupts synchronously */
static A_STATUS ProcessPendingIRQs(AR6K_DEVICE *pDev, A_BOOL *pDone, A_BOOL *pASyncProcessing)
{
A_STATUS status = A_OK;
A_UINT8 host_int_status = 0;
A_UINT32 lookAhead = 0;
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ,("+ProcessPendingIRQs: (dev: 0x%X)\n", (A_UINT32)pDev));
/*** NOTE: the HIF implementation guarantees that the context of this call allows
* us to perform SYNCHRONOUS I/O, that is we can block, sleep or call any API that
* can block or switch thread/task ontexts.
* This is a fully schedulable context.
* */
do {
if (pDev->GetPendingEventsFunc != NULL) {
HIF_PENDING_EVENTS_INFO events;
/* the HIF layer uses a special mechanism to get events
* get this synchronously */
status = pDev->GetPendingEventsFunc(pDev->HIFDevice,
&events,
NULL);
if (A_FAILED(status)) {
break;
}
if (events.Events & HIF_RECV_MSG_AVAIL) {
lookAhead = events.LookAhead;
if (0 == lookAhead) {
AR_DEBUG_PRINTF(ATH_DEBUG_ERR,(" ProcessPendingIRQs1 lookAhead is zero! \n"));
}
}
if (!(events.Events & HIF_OTHER_EVENTS) ||
!(pDev->IrqEnableRegisters.int_status_enable & OTHER_INTS_ENABLED)) {
/* no need to read the register table, no other interesting interrupts.
* Some interfaces (like SPI) can shadow interrupt sources without
* requiring the host to do a full table read */
break;
}
/* otherwise fall through and read the register table */
}
/*
* Read the first 28 bytes of the HTC register table. This will yield us
* the value of different int status registers and the lookahead
* registers.
* length = sizeof(int_status) + sizeof(cpu_int_status) +
* sizeof(error_int_status) + sizeof(counter_int_status) +
* sizeof(mbox_frame) + sizeof(rx_lookahead_valid) +
* sizeof(hole) + sizeof(rx_lookahead) +
* sizeof(int_status_enable) + sizeof(cpu_int_status_enable) +
* sizeof(error_status_enable) +
* sizeof(counter_int_status_enable);
*
*/
status = HIFReadWrite(pDev->HIFDevice,
HOST_INT_STATUS_ADDRESS,
(A_UINT8 *)&pDev->IrqProcRegisters,
AR6K_IRQ_PROC_REGS_SIZE,
HIF_RD_SYNC_BYTE_INC,
NULL);
if (A_FAILED(status)) {
break;
}
if (AR_DEBUG_LVL_CHECK(ATH_DEBUG_IRQ)) {
DevDumpRegisters(&pDev->IrqProcRegisters,
&pDev->IrqEnableRegisters);
}
/* Update only those registers that are enabled */
host_int_status = pDev->IrqProcRegisters.host_int_status &
pDev->IrqEnableRegisters.int_status_enable;
if (NULL == pDev->GetPendingEventsFunc) {
/* only look at mailbox status if the HIF layer did not provide this function,
* on some HIF interfaces reading the RX lookahead is not valid to do */
if (host_int_status & (1 << HTC_MAILBOX)) {
/* mask out pending mailbox value, we use "lookAhead" as the real flag for
* mailbox processing below */
host_int_status &= ~(1 << HTC_MAILBOX);
if (pDev->IrqProcRegisters.rx_lookahead_valid & (1 << HTC_MAILBOX)) {
/* mailbox has a message and the look ahead is valid */
lookAhead = pDev->IrqProcRegisters.rx_lookahead[HTC_MAILBOX];
if (0 == lookAhead) {
AR_DEBUG_PRINTF(ATH_DEBUG_ERR,(" ProcessPendingIRQs2, lookAhead is zero! \n"));
}
}
}
} else {
/* not valid to check if the HIF has another mechanism for reading mailbox pending status*/
host_int_status &= ~(1 << HTC_MAILBOX);
}
} while (FALSE);
do {
/* did the interrupt status fetches succeed? */
if (A_FAILED(status)) {
break;
}
if ((0 == host_int_status) && (0 == lookAhead)) {
/* nothing to process, the caller can use this to break out of a loop */
*pDone = TRUE;
break;
}
if (lookAhead != 0) {
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ,("Pending mailbox message, LookAhead: 0x%X\n",lookAhead));
/* Mailbox Interrupt, the HTC layer may issue async requests to empty the
* mailbox...
* When emptying the recv mailbox we use the async handler above called from the
* completion routine of the callers read request. This can improve performance
* by reducing context switching when we rapidly pull packets */
status = pDev->MessagePendingCallback(pDev->HTCContext, lookAhead, pASyncProcessing);
if (A_FAILED(status)) {
break;
}
}
/* now handle the rest of them */
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ,
(" Valid interrupt source(s) for OTHER interrupts: 0x%x\n",
host_int_status));
if (HOST_INT_STATUS_CPU_GET(host_int_status)) {
/* CPU Interrupt */
status = DevServiceCPUInterrupt(pDev);
if (A_FAILED(status)){
break;
}
}
if (HOST_INT_STATUS_ERROR_GET(host_int_status)) {
/* Error Interrupt */
status = DevServiceErrorInterrupt(pDev);
if (A_FAILED(status)){
break;
}
}
if (HOST_INT_STATUS_COUNTER_GET(host_int_status)) {
/* Counter Interrupt */
status = DevServiceCounterInterrupt(pDev);
if (A_FAILED(status)){
break;
}
}
} while (FALSE);
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ,("-ProcessPendingIRQs: (done:%d, async:%d) status=%d \n",
*pDone, *pASyncProcessing, status));
return status;
}
/* Synchronousinterrupt handler, this handler kicks off all interrupt processing.*/
A_STATUS DevDsrHandler(void *context)
{
AR6K_DEVICE *pDev = (AR6K_DEVICE *)context;
A_STATUS status = A_OK;
A_BOOL done = FALSE;
A_BOOL asyncProc = FALSE;
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ,("+DevDsrHandler: (dev: 0x%X)\n", (A_UINT32)pDev));
while (!done) {
status = ProcessPendingIRQs(pDev, &done, &asyncProc);
if (A_FAILED(status)) {
break;
}
if (HIF_DEVICE_IRQ_SYNC_ONLY == pDev->HifIRQProcessingMode) {
/* the HIF layer does not allow async IRQ processing, override the asyncProc flag */
asyncProc = FALSE;
/* this will cause us to re-enter ProcessPendingIRQ() and re-read interrupt status registers.
* this has a nice side effect of blocking us until all async read requests are completed.
* This behavior is required on some HIF implementations that do not allow ASYNC
* processing in interrupt handlers (like Windows CE) */
}
if (asyncProc) {
/* the function performed some async I/O for performance, we
need to exit the ISR immediately, the check below will prevent the interrupt from being
Ack'd while we handle it asynchronously */
break;
}
}
if (A_SUCCESS(status) && !asyncProc) {
/* Ack the interrupt only if :
* 1. we did not get any errors in processing interrupts
* 2. there are no outstanding async processing requests */
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ,(" Acking interrupt from DevDsrHandler \n"));
HIFAckInterrupt(pDev->HIFDevice);
}
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ,("-DevDsrHandler \n"));
return A_OK;
}
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