diff options
author | lars <lars@3c298f89-4303-0410-b956-a3cf2f4a3e73> | 2009-05-18 17:55:41 +0000 |
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committer | lars <lars@3c298f89-4303-0410-b956-a3cf2f4a3e73> | 2009-05-18 17:55:41 +0000 |
commit | fb189822fcab111e55d1c7e83c482dc2c144500a (patch) | |
tree | dd10e61f382ace3afbe40af3af8238757cf5e3d0 /target/linux/s3c24xx/files-2.6.30/drivers/ar6000/hif/hif.c | |
parent | c5f7c391b56bb88e21895f0fc9310cd0919e8d0c (diff) |
[s3c24xx] bump to 2.6.30-rc6
git-svn-id: svn://svn.openwrt.org/openwrt/trunk@15918 3c298f89-4303-0410-b956-a3cf2f4a3e73
Diffstat (limited to 'target/linux/s3c24xx/files-2.6.30/drivers/ar6000/hif/hif.c')
-rw-r--r-- | target/linux/s3c24xx/files-2.6.30/drivers/ar6000/hif/hif.c | 824 |
1 files changed, 824 insertions, 0 deletions
diff --git a/target/linux/s3c24xx/files-2.6.30/drivers/ar6000/hif/hif.c b/target/linux/s3c24xx/files-2.6.30/drivers/ar6000/hif/hif.c new file mode 100644 index 0000000000..d04486c35b --- /dev/null +++ b/target/linux/s3c24xx/files-2.6.30/drivers/ar6000/hif/hif.c @@ -0,0 +1,824 @@ +/* + * @file: hif.c + * + * @abstract: HIF layer reference implementation for Atheros SDIO stack + * + * @notice: Copyright (c) 2004-2006 Atheros Communications Inc. + * + * + * 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 "hif_internal.h" + +/* ------ Static Variables ------ */ + +/* ------ Global Variable Declarations ------- */ +SD_PNP_INFO Ids[] = { + { + .SDIO_ManufacturerID = MANUFACTURER_ID_AR6001_BASE | 0xB, + .SDIO_ManufacturerCode = MANUFACTURER_CODE, + .SDIO_FunctionClass = FUNCTION_CLASS, + .SDIO_FunctionNo = 1 + }, + { + .SDIO_ManufacturerID = MANUFACTURER_ID_AR6001_BASE | 0xA, + .SDIO_ManufacturerCode = MANUFACTURER_CODE, + .SDIO_FunctionClass = FUNCTION_CLASS, + .SDIO_FunctionNo = 1 + }, + { + .SDIO_ManufacturerID = MANUFACTURER_ID_AR6001_BASE | 0x9, + .SDIO_ManufacturerCode = MANUFACTURER_CODE, + .SDIO_FunctionClass = FUNCTION_CLASS, + .SDIO_FunctionNo = 1 + }, + { + .SDIO_ManufacturerID = MANUFACTURER_ID_AR6001_BASE | 0x8, + .SDIO_ManufacturerCode = MANUFACTURER_CODE, + .SDIO_FunctionClass = FUNCTION_CLASS, + .SDIO_FunctionNo = 1 + }, + { + .SDIO_ManufacturerID = MANUFACTURER_ID_AR6002_BASE | 0x0, + .SDIO_ManufacturerCode = MANUFACTURER_CODE, + .SDIO_FunctionClass = FUNCTION_CLASS, + .SDIO_FunctionNo = 1 + }, + { + .SDIO_ManufacturerID = MANUFACTURER_ID_AR6002_BASE | 0x1, + .SDIO_ManufacturerCode = MANUFACTURER_CODE, + .SDIO_FunctionClass = FUNCTION_CLASS, + .SDIO_FunctionNo = 1 + }, + { + } //list is null termintaed +}; + +TARGET_FUNCTION_CONTEXT FunctionContext = { + .function.Version = CT_SDIO_STACK_VERSION_CODE, + .function.pName = "sdio_wlan", + .function.MaxDevices = 1, + .function.NumDevices = 0, + .function.pIds = Ids, + .function.pProbe = hifDeviceInserted, + .function.pRemove = hifDeviceRemoved, + .function.pSuspend = NULL, + .function.pResume = NULL, + .function.pWake = NULL, + .function.pContext = &FunctionContext, +}; + +HIF_DEVICE hifDevice[HIF_MAX_DEVICES]; +HTC_CALLBACKS htcCallbacks; +BUS_REQUEST busRequest[BUS_REQUEST_MAX_NUM]; +static BUS_REQUEST *s_busRequestFreeQueue = NULL; +OS_CRITICALSECTION lock; +extern A_UINT32 onebitmode; +extern A_UINT32 busspeedlow; + +#ifdef DEBUG +extern A_UINT32 debughif; +#define ATH_DEBUG_ERROR 1 +#define ATH_DEBUG_WARN 2 +#define ATH_DEBUG_TRACE 3 +#define _AR_DEBUG_PRINTX_ARG(arg...) arg +#define AR_DEBUG_PRINTF(lvl, args)\ + {if (lvl <= debughif)\ + A_PRINTF(KERN_ALERT _AR_DEBUG_PRINTX_ARG args);\ + } +#else +#define AR_DEBUG_PRINTF(lvl, args) +#endif + +static BUS_REQUEST *hifAllocateBusRequest(void); +static void hifFreeBusRequest(BUS_REQUEST *busrequest); +static THREAD_RETURN insert_helper_func(POSKERNEL_HELPER pHelper); +static void ResetAllCards(void); + +/* ------ Functions ------ */ +int HIFInit(HTC_CALLBACKS *callbacks) +{ + SDIO_STATUS status; + DBG_ASSERT(callbacks != NULL); + + /* Store the callback and event handlers */ + htcCallbacks.deviceInsertedHandler = callbacks->deviceInsertedHandler; + htcCallbacks.deviceRemovedHandler = callbacks->deviceRemovedHandler; + htcCallbacks.deviceSuspendHandler = callbacks->deviceSuspendHandler; + htcCallbacks.deviceResumeHandler = callbacks->deviceResumeHandler; + htcCallbacks.deviceWakeupHandler = callbacks->deviceWakeupHandler; + htcCallbacks.rwCompletionHandler = callbacks->rwCompletionHandler; + htcCallbacks.dsrHandler = callbacks->dsrHandler; + + CriticalSectionInit(&lock); + + /* Register with bus driver core */ + status = SDIO_RegisterFunction(&FunctionContext.function); + DBG_ASSERT(SDIO_SUCCESS(status)); + + return(0); +} + +A_STATUS +HIFReadWrite(HIF_DEVICE *device, + A_UINT32 address, + A_UCHAR *buffer, + A_UINT32 length, + A_UINT32 request, + void *context) +{ + A_UINT8 rw; + A_UINT8 mode; + A_UINT8 funcNo; + A_UINT8 opcode; + A_UINT16 count; + SDREQUEST *sdrequest; + SDIO_STATUS sdiostatus; + BUS_REQUEST *busrequest; + A_STATUS status = A_OK; + + DBG_ASSERT(device != NULL); + DBG_ASSERT(device->handle != NULL); + + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, ("Device: %p\n", device)); + + do { + busrequest = hifAllocateBusRequest(); + if (busrequest == NULL) { + AR_DEBUG_PRINTF(ATH_DEBUG_ERROR, ("HIF Unable to allocate bus request\n")); + status = A_NO_RESOURCE; + break; + } + + sdrequest = busrequest->request; + busrequest->context = context; + + sdrequest->pDataBuffer = buffer; + if (request & HIF_SYNCHRONOUS) { + sdrequest->Flags = SDREQ_FLAGS_RESP_SDIO_R5 | SDREQ_FLAGS_DATA_TRANS; + sdrequest->pCompleteContext = NULL; + sdrequest->pCompletion = NULL; + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, ("Execution mode: Synchronous\n")); + } else if (request & HIF_ASYNCHRONOUS) { + sdrequest->Flags = SDREQ_FLAGS_RESP_SDIO_R5 | SDREQ_FLAGS_DATA_TRANS | + SDREQ_FLAGS_TRANS_ASYNC; + sdrequest->pCompleteContext = busrequest; + sdrequest->pCompletion = hifRWCompletionHandler; + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, ("Execution mode: Asynchronous\n")); + } else { + AR_DEBUG_PRINTF(ATH_DEBUG_ERROR, + ("Invalid execution mode: 0x%08x\n", request)); + status = A_EINVAL; + break; + } + + if (request & HIF_EXTENDED_IO) { + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, ("Command type: CMD53\n")); + sdrequest->Command = CMD53; + } else { + AR_DEBUG_PRINTF(ATH_DEBUG_ERROR, + ("Invalid command type: 0x%08x\n", request)); + status = A_EINVAL; + break; + } + + if (request & HIF_BLOCK_BASIS) { + mode = CMD53_BLOCK_BASIS; + sdrequest->BlockLen = HIF_MBOX_BLOCK_SIZE; + sdrequest->BlockCount = length / HIF_MBOX_BLOCK_SIZE; + count = sdrequest->BlockCount; + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, + ("Block mode (BlockLen: %d, BlockCount: %d)\n", + sdrequest->BlockLen, sdrequest->BlockCount)); + } else if (request & HIF_BYTE_BASIS) { + mode = CMD53_BYTE_BASIS; + sdrequest->BlockLen = length; + sdrequest->BlockCount = 1; + count = sdrequest->BlockLen; + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, + ("Byte mode (BlockLen: %d, BlockCount: %d)\n", + sdrequest->BlockLen, sdrequest->BlockCount)); + } else { + AR_DEBUG_PRINTF(ATH_DEBUG_ERROR, + ("Invalid data mode: 0x%08x\n", request)); + status = A_EINVAL; + break; + } + +#if 0 + /* useful for checking register accesses */ + if (length & 0x3) { + A_PRINTF(KERN_ALERT"HIF (%s) is not a multiple of 4 bytes, addr:0x%X, len:%d\n", + request & HIF_WRITE ? "write":"read", address, length); + } +#endif + + if ((address >= HIF_MBOX_START_ADDR(0)) && + (address <= HIF_MBOX_END_ADDR(3))) + { + + DBG_ASSERT(length <= HIF_MBOX_WIDTH); + + /* + * Mailbox write. Adjust the address so that the last byte + * falls on the EOM address. + */ + address += (HIF_MBOX_WIDTH - length); + } + + + + if (request & HIF_WRITE) { + rw = CMD53_WRITE; + sdrequest->Flags |= SDREQ_FLAGS_DATA_WRITE; + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, ("Direction: Write\n")); + } else if (request & HIF_READ) { + rw = CMD53_READ; + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, ("Direction: Read\n")); + } else { + AR_DEBUG_PRINTF(ATH_DEBUG_ERROR, + ("Invalid direction: 0x%08x\n", request)); + status = A_EINVAL; + break; + } + + if (request & HIF_FIXED_ADDRESS) { + opcode = CMD53_FIXED_ADDRESS; + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, ("Address mode: Fixed\n")); + } else if (request & HIF_INCREMENTAL_ADDRESS) { + opcode = CMD53_INCR_ADDRESS; + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, ("Address mode: Incremental\n")); + } else { + AR_DEBUG_PRINTF(ATH_DEBUG_ERROR, + ("Invalid address mode: 0x%08x\n", request)); + status = A_EINVAL; + break; + } + + funcNo = SDDEVICE_GET_SDIO_FUNCNO(device->handle); + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, ("Function number: %d\n", funcNo)); + SDIO_SET_CMD53_ARG(sdrequest->Argument, rw, funcNo, + mode, opcode, address, count); + + /* Send the command out */ + sdiostatus = SDDEVICE_CALL_REQUEST_FUNC(device->handle, sdrequest); + + if (!SDIO_SUCCESS(sdiostatus)) { + status = A_ERROR; + } + + } while (FALSE); + + if (A_FAILED(status) || (request & HIF_SYNCHRONOUS)) { + if (busrequest != NULL) { + hifFreeBusRequest(busrequest); + } + } + + if (A_FAILED(status) && (request & HIF_ASYNCHRONOUS)) { + /* call back async handler on failure */ + htcCallbacks.rwCompletionHandler(context, status); + } + + return status; +} + +A_STATUS +HIFConfigureDevice(HIF_DEVICE *device, HIF_DEVICE_CONFIG_OPCODE opcode, + void *config, A_UINT32 configLen) +{ + A_UINT32 count; + + switch(opcode) { + case HIF_DEVICE_GET_MBOX_BLOCK_SIZE: + ((A_UINT32 *)config)[0] = HIF_MBOX0_BLOCK_SIZE; + ((A_UINT32 *)config)[1] = HIF_MBOX1_BLOCK_SIZE; + ((A_UINT32 *)config)[2] = HIF_MBOX2_BLOCK_SIZE; + ((A_UINT32 *)config)[3] = HIF_MBOX3_BLOCK_SIZE; + break; + + case HIF_DEVICE_GET_MBOX_ADDR: + for (count = 0; count < 4; count ++) { + ((A_UINT32 *)config)[count] = HIF_MBOX_START_ADDR(count); + } + break; + case HIF_DEVICE_GET_IRQ_PROC_MODE: + /* the SDIO stack allows the interrupts to be processed either way, ASYNC or SYNC */ + *((HIF_DEVICE_IRQ_PROCESSING_MODE *)config) = HIF_DEVICE_IRQ_ASYNC_SYNC; + break; + default: + AR_DEBUG_PRINTF(ATH_DEBUG_WARN, + ("Unsupported configuration opcode: %d\n", opcode)); + return A_ERROR; + } + + return A_OK; +} + +void +HIFShutDownDevice(HIF_DEVICE *device) +{ + A_UINT8 data; + A_UINT32 count; + SDIO_STATUS status; + SDCONFIG_BUS_MODE_DATA busSettings; + SDCONFIG_FUNC_ENABLE_DISABLE_DATA fData; + + if (device != NULL) { + DBG_ASSERT(device->handle != NULL); + + /* Remove the allocated current if any */ + status = SDLIB_IssueConfig(device->handle, + SDCONFIG_FUNC_FREE_SLOT_CURRENT, NULL, 0); + DBG_ASSERT(SDIO_SUCCESS(status)); + + /* Disable the card */ + fData.EnableFlags = SDCONFIG_DISABLE_FUNC; + fData.TimeOut = 1; + status = SDLIB_IssueConfig(device->handle, SDCONFIG_FUNC_ENABLE_DISABLE, + &fData, sizeof(fData)); + DBG_ASSERT(SDIO_SUCCESS(status)); + + /* Perform a soft I/O reset */ + data = SDIO_IO_RESET; + status = SDLIB_IssueCMD52(device->handle, 0, SDIO_IO_ABORT_REG, + &data, 1, 1); + DBG_ASSERT(SDIO_SUCCESS(status)); + + /* + * WAR - Codetelligence driver does not seem to shutdown correctly in 1 + * bit mode. By default it configures the HC in the 4 bit. Its later in + * our driver that we switch to 1 bit mode. If we try to shutdown, the + * driver hangs so we revert to 4 bit mode, to be transparent to the + * underlying bus driver. + */ + if (onebitmode) { + ZERO_OBJECT(busSettings); + busSettings.BusModeFlags = SDDEVICE_GET_BUSMODE_FLAGS(device->handle); + SDCONFIG_SET_BUS_WIDTH(busSettings.BusModeFlags, + SDCONFIG_BUS_WIDTH_4_BIT); + + /* Issue config request to change the bus width to 4 bit */ + status = SDLIB_IssueConfig(device->handle, SDCONFIG_BUS_MODE_CTRL, + &busSettings, + sizeof(SDCONFIG_BUS_MODE_DATA)); + DBG_ASSERT(SDIO_SUCCESS(status)); + } + + /* Free the bus requests */ + for (count = 0; count < BUS_REQUEST_MAX_NUM; count ++) { + SDDeviceFreeRequest(device->handle, busRequest[count].request); + } + /* Clean up the queue */ + s_busRequestFreeQueue = NULL; + } else { + /* since we are unloading the driver anyways, reset all cards in case the SDIO card + * is externally powered and we are unloading the SDIO stack. This avoids the problem when + * the SDIO stack is reloaded and attempts are made to re-enumerate a card that is already + * enumerated */ + ResetAllCards(); + /* Unregister with bus driver core */ + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, + ("Unregistering with the bus driver\n")); + status = SDIO_UnregisterFunction(&FunctionContext.function); + DBG_ASSERT(SDIO_SUCCESS(status)); + } +} + +void +hifRWCompletionHandler(SDREQUEST *request) +{ + A_STATUS status; + void *context; + BUS_REQUEST *busrequest; + + if (SDIO_SUCCESS(request->Status)) { + status = A_OK; + } else { + status = A_ERROR; + } + + DBG_ASSERT(status == A_OK); + busrequest = (BUS_REQUEST *) request->pCompleteContext; + context = (void *) busrequest->context; + /* free the request before calling the callback, in case the + * callback submits another request, this guarantees that + * there is at least 1 free request available everytime the callback + * is invoked */ + hifFreeBusRequest(busrequest); + htcCallbacks.rwCompletionHandler(context, status); +} + +void +hifIRQHandler(void *context) +{ + A_STATUS status; + HIF_DEVICE *device; + + device = (HIF_DEVICE *)context; + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, ("Device: %p\n", device)); + status = htcCallbacks.dsrHandler(device->htc_handle); + DBG_ASSERT(status == A_OK); +} + +BOOL +hifDeviceInserted(SDFUNCTION *function, SDDEVICE *handle) +{ + BOOL enabled; + A_UINT8 data; + A_UINT32 count; + HIF_DEVICE *device; + SDIO_STATUS status; + A_UINT16 maxBlocks; + A_UINT16 maxBlockSize; + SDCONFIG_BUS_MODE_DATA busSettings; + SDCONFIG_FUNC_ENABLE_DISABLE_DATA fData; + TARGET_FUNCTION_CONTEXT *functionContext; + SDCONFIG_FUNC_SLOT_CURRENT_DATA slotCurrent; + SD_BUSCLOCK_RATE currentBusClock; + + DBG_ASSERT(function != NULL); + DBG_ASSERT(handle != NULL); + + device = addHifDevice(handle); + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, ("Device: %p\n", device)); + functionContext = (TARGET_FUNCTION_CONTEXT *)function->pContext; + + /* + * Issue commands to get the manufacturer ID and stuff and compare it + * against the rev Id derived from the ID registered during the + * initialization process. Report the device only in the case there + * is a match. In the case od SDIO, the bus driver has already queried + * these details so we just need to use their data structures to get the + * relevant values. Infact, the driver has already matched it against + * the Ids that we registered with it so we dont need to the step here. + */ + + /* Configure the SDIO Bus Width */ + if (onebitmode) { + data = SDIO_BUS_WIDTH_1_BIT; + status = SDLIB_IssueCMD52(handle, 0, SDIO_BUS_IF_REG, &data, 1, 1); + if (!SDIO_SUCCESS(status)) { + AR_DEBUG_PRINTF(ATH_DEBUG_ERROR, + ("Unable to set the bus width to 1 bit\n")); + return FALSE; + } + } + + /* Get current bus flags */ + ZERO_OBJECT(busSettings); + + busSettings.BusModeFlags = SDDEVICE_GET_BUSMODE_FLAGS(handle); + if (onebitmode) { + SDCONFIG_SET_BUS_WIDTH(busSettings.BusModeFlags, + SDCONFIG_BUS_WIDTH_1_BIT); + } + + /* get the current operating clock, the bus driver sets us up based + * on what our CIS reports and what the host controller can handle + * we can use this to determine whether we want to drop our clock rate + * down */ + currentBusClock = SDDEVICE_GET_OPER_CLOCK(handle); + busSettings.ClockRate = currentBusClock; + + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, + ("HIF currently running at: %d \n",currentBusClock)); + + /* see if HIF wants to run at a lower clock speed, we may already be + * at that lower clock speed */ + if (currentBusClock > (SDIO_CLOCK_FREQUENCY_DEFAULT >> busspeedlow)) { + busSettings.ClockRate = SDIO_CLOCK_FREQUENCY_DEFAULT >> busspeedlow; + AR_DEBUG_PRINTF(ATH_DEBUG_WARN, + ("HIF overriding clock to %d \n",busSettings.ClockRate)); + } + + /* Issue config request to override clock rate */ + status = SDLIB_IssueConfig(handle, SDCONFIG_FUNC_CHANGE_BUS_MODE, &busSettings, + sizeof(SDCONFIG_BUS_MODE_DATA)); + if (!SDIO_SUCCESS(status)) { + AR_DEBUG_PRINTF(ATH_DEBUG_ERROR, + ("Unable to configure the host clock\n")); + return FALSE; + } else { + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, + ("Configured clock: %d, Maximum clock: %d\n", + busSettings.ActualClockRate, + SDDEVICE_GET_MAX_CLOCK(handle))); + } + + /* + * Check if the target supports block mode. This result of this check + * can be used to implement the HIFReadWrite API. + */ + if (SDDEVICE_GET_SDIO_FUNC_MAXBLKSIZE(handle)) { + /* Limit block size to operational block limit or card function + capability */ + maxBlockSize = min(SDDEVICE_GET_OPER_BLOCK_LEN(handle), + SDDEVICE_GET_SDIO_FUNC_MAXBLKSIZE(handle)); + + /* check if the card support multi-block transfers */ + if (!(SDDEVICE_GET_SDIOCARD_CAPS(handle) & SDIO_CAPS_MULTI_BLOCK)) { + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, ("Byte basis only\n")); + + /* Limit block size to max byte basis */ + maxBlockSize = min(maxBlockSize, + (A_UINT16)SDIO_MAX_LENGTH_BYTE_BASIS); + maxBlocks = 1; + } else { + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, ("Multi-block capable\n")); + maxBlocks = SDDEVICE_GET_OPER_BLOCKS(handle); + status = SDLIB_SetFunctionBlockSize(handle, HIF_MBOX_BLOCK_SIZE); + if (!SDIO_SUCCESS(status)) { + AR_DEBUG_PRINTF(ATH_DEBUG_ERROR, + ("Failed to set block size. Err:%d\n", status)); + return FALSE; + } + } + + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, + ("Bytes Per Block: %d bytes, Block Count:%d \n", + maxBlockSize, maxBlocks)); + } else { + AR_DEBUG_PRINTF(ATH_DEBUG_ERROR, + ("Function does not support Block Mode!\n")); + return FALSE; + } + + /* Allocate the slot current */ + status = SDLIB_GetDefaultOpCurrent(handle, &slotCurrent.SlotCurrent); + if (SDIO_SUCCESS(status)) { + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, ("Allocating Slot current: %d mA\n", + slotCurrent.SlotCurrent)); + status = SDLIB_IssueConfig(handle, SDCONFIG_FUNC_ALLOC_SLOT_CURRENT, + &slotCurrent, sizeof(slotCurrent)); + if (!SDIO_SUCCESS(status)) { + AR_DEBUG_PRINTF(ATH_DEBUG_ERROR, + ("Failed to allocate slot current %d\n", status)); + return FALSE; + } + } + + /* Enable the dragon function */ + count = 0; + enabled = FALSE; + fData.TimeOut = 1; + fData.EnableFlags = SDCONFIG_ENABLE_FUNC; + while ((count++ < SDWLAN_ENABLE_DISABLE_TIMEOUT) && !enabled) + { + /* Enable dragon */ + status = SDLIB_IssueConfig(handle, SDCONFIG_FUNC_ENABLE_DISABLE, + &fData, sizeof(fData)); + if (!SDIO_SUCCESS(status)) { + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, + ("Attempting to enable the card again\n")); + continue; + } + + /* Mark the status as enabled */ + enabled = TRUE; + } + + /* Check if we were succesful in enabling the target */ + if (!enabled) { + AR_DEBUG_PRINTF(ATH_DEBUG_ERROR, + ("Failed to communicate with the target\n")); + return FALSE; + } + + /* Allocate the bus requests to be used later */ + A_MEMZERO(busRequest, sizeof(busRequest)); + for (count = 0; count < BUS_REQUEST_MAX_NUM; count ++) { + if ((busRequest[count].request = SDDeviceAllocRequest(handle)) == NULL){ + AR_DEBUG_PRINTF(ATH_DEBUG_ERROR, ("Unable to allocate memory\n")); + /* TODO: Free the memory that has already been allocated */ + return FALSE; + } + hifFreeBusRequest(&busRequest[count]); + + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, + ("0x%08x = busRequest[%d].request = 0x%08x\n", + (unsigned int) &busRequest[count], count, + (unsigned int) busRequest[count].request)); + } + + /* Schedule a worker to handle device inserted, this is a temporary workaround + * to fix a deadlock if the device fails to intialize in the insertion handler + * The failure causes the instance to shutdown the HIF layer and unregister the + * function driver within the busdriver probe context which can deadlock + * + * NOTE: we cannot use the default work queue because that would block + * SD bus request processing for all synchronous I/O. We must use a kernel + * thread that is creating using the helper library. + * */ + + if (SDIO_SUCCESS(SDLIB_OSCreateHelper(&device->insert_helper, + insert_helper_func, + device))) { + device->helper_started = TRUE; + } + + return TRUE; +} + +static THREAD_RETURN insert_helper_func(POSKERNEL_HELPER pHelper) +{ + + /* + * Adding a wait of around a second before we issue the very first + * command to dragon. During the process of loading/unloading the + * driver repeatedly it was observed that we get a data timeout + * while accessing function 1 registers in the chip. The theory at + * this point is that some initialization delay in dragon is + * causing the SDIO state in dragon core to be not ready even after + * the ready bit indicates that function 1 is ready. Accomodating + * for this behavior by adding some delay in the driver before it + * issues the first command after switching on dragon. Need to + * investigate this a bit more - TODO + */ + + A_MDELAY(1000); + /* Inform HTC */ + if ((htcCallbacks.deviceInsertedHandler(SD_GET_OS_HELPER_CONTEXT(pHelper))) != A_OK) { + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, ("Device rejected\n")); + } + + return 0; +} + +void +HIFAckInterrupt(HIF_DEVICE *device) +{ + SDIO_STATUS status; + DBG_ASSERT(device != NULL); + DBG_ASSERT(device->handle != NULL); + + /* Acknowledge our function IRQ */ + status = SDLIB_IssueConfig(device->handle, SDCONFIG_FUNC_ACK_IRQ, + NULL, 0); + DBG_ASSERT(SDIO_SUCCESS(status)); +} + +void +HIFUnMaskInterrupt(HIF_DEVICE *device) +{ + SDIO_STATUS status; + + DBG_ASSERT(device != NULL); + DBG_ASSERT(device->handle != NULL); + + /* Register the IRQ Handler */ + SDDEVICE_SET_IRQ_HANDLER(device->handle, hifIRQHandler, device); + + /* Unmask our function IRQ */ + status = SDLIB_IssueConfig(device->handle, SDCONFIG_FUNC_UNMASK_IRQ, + NULL, 0); + DBG_ASSERT(SDIO_SUCCESS(status)); +} + +void HIFMaskInterrupt(HIF_DEVICE *device) +{ + SDIO_STATUS status; + DBG_ASSERT(device != NULL); + DBG_ASSERT(device->handle != NULL); + + /* Mask our function IRQ */ + status = SDLIB_IssueConfig(device->handle, SDCONFIG_FUNC_MASK_IRQ, + NULL, 0); + DBG_ASSERT(SDIO_SUCCESS(status)); + + /* Unregister the IRQ Handler */ + SDDEVICE_SET_IRQ_HANDLER(device->handle, NULL, NULL); +} + +static BUS_REQUEST *hifAllocateBusRequest(void) +{ + BUS_REQUEST *busrequest; + + /* Acquire lock */ + CriticalSectionAcquire(&lock); + + /* Remove first in list */ + if((busrequest = s_busRequestFreeQueue) != NULL) + { + s_busRequestFreeQueue = busrequest->next; + } + + /* Release lock */ + CriticalSectionRelease(&lock); + + return busrequest; +} + +static void +hifFreeBusRequest(BUS_REQUEST *busrequest) +{ + DBG_ASSERT(busrequest != NULL); + + /* Acquire lock */ + CriticalSectionAcquire(&lock); + + /* Insert first in list */ + busrequest->next = s_busRequestFreeQueue; + s_busRequestFreeQueue = busrequest; + + /* Release lock */ + CriticalSectionRelease(&lock); +} + +void +hifDeviceRemoved(SDFUNCTION *function, SDDEVICE *handle) +{ + A_STATUS status; + HIF_DEVICE *device; + DBG_ASSERT(function != NULL); + DBG_ASSERT(handle != NULL); + + device = getHifDevice(handle); + status = htcCallbacks.deviceRemovedHandler(device->htc_handle, A_OK); + + /* cleanup the helper thread */ + if (device->helper_started) { + SDLIB_OSDeleteHelper(&device->insert_helper); + device->helper_started = FALSE; + } + + delHifDevice(handle); + DBG_ASSERT(status == A_OK); +} + +HIF_DEVICE * +addHifDevice(SDDEVICE *handle) +{ + DBG_ASSERT(handle != NULL); + hifDevice[0].handle = handle; + return &hifDevice[0]; +} + +HIF_DEVICE * +getHifDevice(SDDEVICE *handle) +{ + DBG_ASSERT(handle != NULL); + return &hifDevice[0]; +} + +void +delHifDevice(SDDEVICE *handle) +{ + DBG_ASSERT(handle != NULL); + hifDevice[0].handle = NULL; +} + +struct device* +HIFGetOSDevice(HIF_DEVICE *device) +{ + return &device->handle->Device->dev; +} + +static void ResetAllCards(void) +{ + UINT8 data; + SDIO_STATUS status; + int i; + + data = SDIO_IO_RESET; + + /* set the I/O CARD reset bit: + * NOTE: we are exploiting a "feature" of the SDIO core that resets the core when you + * set the RES bit in the SDIO_IO_ABORT register. This bit however "normally" resets the + * I/O functions leaving the SDIO core in the same state (as per SDIO spec). + * In this design, this reset can be used to reset the SDIO core itself */ + for (i = 0; i < HIF_MAX_DEVICES; i++) { + if (hifDevice[i].handle != NULL) { + AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, + ("Issuing I/O Card reset for instance: %d \n",i)); + /* set the I/O Card reset bit */ + status = SDLIB_IssueCMD52(hifDevice[i].handle, + 0, /* function 0 space */ + SDIO_IO_ABORT_REG, + &data, + 1, /* 1 byte */ + TRUE); /* write */ + } + } + +} + +void HIFSetHandle(void *hif_handle, void *handle) +{ + HIF_DEVICE *device = (HIF_DEVICE *) hif_handle; + + device->htc_handle = handle; + + return; +} |