Convert enum members to int as well.
Signed-off-by: Joe Perches <joe@perches.com>
Acked-by: Vipin Mehta <vipin.mehta@atheros.com>
Signed-off-by: Greg Kroah-Hartman <gregkh@suse.de>
/* ------ Global Variable Declarations ------- */
static A_BOOL bmiDone;
-A_STATUS
+int
bmiBufferSend(HIF_DEVICE *device,
A_UCHAR *buffer,
A_UINT32 length);
-A_STATUS
+int
bmiBufferReceive(HIF_DEVICE *device,
A_UCHAR *buffer,
A_UINT32 length,
}
}
-A_STATUS
+int
BMIDone(HIF_DEVICE *device)
{
- A_STATUS status;
+ int status;
A_UINT32 cid;
if (bmiDone) {
return A_OK;
}
-A_STATUS
+int
BMIGetTargetInfo(HIF_DEVICE *device, struct bmi_target_info *targ_info)
{
- A_STATUS status;
+ int status;
A_UINT32 cid;
if (bmiDone) {
return A_OK;
}
-A_STATUS
+int
BMIReadMemory(HIF_DEVICE *device,
A_UINT32 address,
A_UCHAR *buffer,
A_UINT32 length)
{
A_UINT32 cid;
- A_STATUS status;
+ int status;
A_UINT32 offset;
A_UINT32 remaining, rxlen;
return A_OK;
}
-A_STATUS
+int
BMIWriteMemory(HIF_DEVICE *device,
A_UINT32 address,
A_UCHAR *buffer,
A_UINT32 length)
{
A_UINT32 cid;
- A_STATUS status;
+ int status;
A_UINT32 offset;
A_UINT32 remaining, txlen;
const A_UINT32 header = sizeof(cid) + sizeof(address) + sizeof(length);
return A_OK;
}
-A_STATUS
+int
BMIExecute(HIF_DEVICE *device,
A_UINT32 address,
A_UINT32 *param)
{
A_UINT32 cid;
- A_STATUS status;
+ int status;
A_UINT32 offset;
A_ASSERT(BMI_COMMAND_FITS(sizeof(cid) + sizeof(address) + sizeof(param)));
return A_OK;
}
-A_STATUS
+int
BMISetAppStart(HIF_DEVICE *device,
A_UINT32 address)
{
A_UINT32 cid;
- A_STATUS status;
+ int status;
A_UINT32 offset;
A_ASSERT(BMI_COMMAND_FITS(sizeof(cid) + sizeof(address)));
return A_OK;
}
-A_STATUS
+int
BMIReadSOCRegister(HIF_DEVICE *device,
A_UINT32 address,
A_UINT32 *param)
{
A_UINT32 cid;
- A_STATUS status;
+ int status;
A_UINT32 offset;
A_ASSERT(BMI_COMMAND_FITS(sizeof(cid) + sizeof(address)));
return A_OK;
}
-A_STATUS
+int
BMIWriteSOCRegister(HIF_DEVICE *device,
A_UINT32 address,
A_UINT32 param)
{
A_UINT32 cid;
- A_STATUS status;
+ int status;
A_UINT32 offset;
A_ASSERT(BMI_COMMAND_FITS(sizeof(cid) + sizeof(address) + sizeof(param)));
return A_OK;
}
-A_STATUS
+int
BMIrompatchInstall(HIF_DEVICE *device,
A_UINT32 ROM_addr,
A_UINT32 RAM_addr,
A_UINT32 *rompatch_id)
{
A_UINT32 cid;
- A_STATUS status;
+ int status;
A_UINT32 offset;
A_ASSERT(BMI_COMMAND_FITS(sizeof(cid) + sizeof(ROM_addr) + sizeof(RAM_addr) +
return A_OK;
}
-A_STATUS
+int
BMIrompatchUninstall(HIF_DEVICE *device,
A_UINT32 rompatch_id)
{
A_UINT32 cid;
- A_STATUS status;
+ int status;
A_UINT32 offset;
A_ASSERT(BMI_COMMAND_FITS(sizeof(cid) + sizeof(rompatch_id)));
return A_OK;
}
-static A_STATUS
+static int
_BMIrompatchChangeActivation(HIF_DEVICE *device,
A_UINT32 rompatch_count,
A_UINT32 *rompatch_list,
A_UINT32 do_activate)
{
A_UINT32 cid;
- A_STATUS status;
+ int status;
A_UINT32 offset;
A_UINT32 length;
return A_OK;
}
-A_STATUS
+int
BMIrompatchActivate(HIF_DEVICE *device,
A_UINT32 rompatch_count,
A_UINT32 *rompatch_list)
return _BMIrompatchChangeActivation(device, rompatch_count, rompatch_list, 1);
}
-A_STATUS
+int
BMIrompatchDeactivate(HIF_DEVICE *device,
A_UINT32 rompatch_count,
A_UINT32 *rompatch_list)
return _BMIrompatchChangeActivation(device, rompatch_count, rompatch_list, 0);
}
-A_STATUS
+int
BMILZData(HIF_DEVICE *device,
A_UCHAR *buffer,
A_UINT32 length)
{
A_UINT32 cid;
- A_STATUS status;
+ int status;
A_UINT32 offset;
A_UINT32 remaining, txlen;
const A_UINT32 header = sizeof(cid) + sizeof(length);
return A_OK;
}
-A_STATUS
+int
BMILZStreamStart(HIF_DEVICE *device,
A_UINT32 address)
{
A_UINT32 cid;
- A_STATUS status;
+ int status;
A_UINT32 offset;
A_ASSERT(BMI_COMMAND_FITS(sizeof(cid) + sizeof(address)));
}
/* BMI Access routines */
-A_STATUS
+int
bmiBufferSend(HIF_DEVICE *device,
A_UCHAR *buffer,
A_UINT32 length)
{
- A_STATUS status;
+ int status;
A_UINT32 timeout;
A_UINT32 address;
A_UINT32 mboxAddress[HTC_MAILBOX_NUM_MAX];
return status;
}
-A_STATUS
+int
bmiBufferReceive(HIF_DEVICE *device,
A_UCHAR *buffer,
A_UINT32 length,
A_BOOL want_timeout)
{
- A_STATUS status;
+ int status;
A_UINT32 address;
A_UINT32 mboxAddress[HTC_MAILBOX_NUM_MAX];
HIF_PENDING_EVENTS_INFO hifPendingEvents;
return A_OK;
}
-A_STATUS
+int
BMIFastDownload(HIF_DEVICE *device, A_UINT32 address, A_UCHAR *buffer, A_UINT32 length)
{
- A_STATUS status = A_ERROR;
+ int status = A_ERROR;
A_UINT32 lastWord = 0;
A_UINT32 lastWordOffset = length & ~0x3;
A_UINT32 unalignedBytes = length & 0x3;
return status;
}
-A_STATUS
+int
BMIRawWrite(HIF_DEVICE *device, A_UCHAR *buffer, A_UINT32 length)
{
return bmiBufferSend(device, buffer, length);
}
-A_STATUS
+int
BMIRawRead(HIF_DEVICE *device, A_UCHAR *buffer, A_UINT32 length, A_BOOL want_timeout)
{
return bmiBufferReceive(device, buffer, length, want_timeout);
A_UINT32 length;
A_UINT32 request;
void *context;
- A_STATUS status;
+ int status;
struct _HIF_SCATTER_REQ_PRIV *pScatterReq; /* this request is a scatter request */
} BUS_REQUEST;
#define ATH_DEBUG_SCATTER ATH_DEBUG_MAKE_MODULE_MASK(0)
-A_STATUS SetupHIFScatterSupport(HIF_DEVICE *device, HIF_DEVICE_SCATTER_SUPPORT_INFO *pInfo);
+int SetupHIFScatterSupport(HIF_DEVICE *device, HIF_DEVICE_SCATTER_SUPPORT_INFO *pInfo);
void CleanupHIFScatterResources(HIF_DEVICE *device);
-A_STATUS DoHifReadWriteScatter(HIF_DEVICE *device, BUS_REQUEST *busrequest);
+int DoHifReadWriteScatter(HIF_DEVICE *device, BUS_REQUEST *busrequest);
#else // HIF_LINUX_MMC_SCATTER_SUPPORT
-static inline A_STATUS SetupHIFScatterSupport(HIF_DEVICE *device, HIF_DEVICE_SCATTER_SUPPORT_INFO *pInfo)
+static inline int SetupHIFScatterSupport(HIF_DEVICE *device, HIF_DEVICE_SCATTER_SUPPORT_INFO *pInfo)
{
return A_ENOTSUP;
}
-static inline A_STATUS DoHifReadWriteScatter(HIF_DEVICE *device, BUS_REQUEST *busrequest)
+static inline int DoHifReadWriteScatter(HIF_DEVICE *device, BUS_REQUEST *busrequest)
{
return A_ENOTSUP;
}
extern A_UINT32 debughif;
static void ResetAllCards(void);
-static A_STATUS hifDisableFunc(HIF_DEVICE *device, struct sdio_func *func);
-static A_STATUS hifEnableFunc(HIF_DEVICE *device, struct sdio_func *func);
+static int hifDisableFunc(HIF_DEVICE *device, struct sdio_func *func);
+static int hifEnableFunc(HIF_DEVICE *device, struct sdio_func *func);
#ifdef DEBUG
/* ------ Functions ------ */
-A_STATUS HIFInit(OSDRV_CALLBACKS *callbacks)
+int HIFInit(OSDRV_CALLBACKS *callbacks)
{
int status;
AR_DEBUG_ASSERT(callbacks != NULL);
}
-static A_STATUS
+static int
__HIFReadWrite(HIF_DEVICE *device,
A_UINT32 address,
A_UCHAR *buffer,
void *context)
{
A_UINT8 opcode;
- A_STATUS status = A_OK;
+ int status = A_OK;
int ret;
A_UINT8 *tbuffer;
A_BOOL bounced = FALSE;
/* queue a read/write request */
-A_STATUS
+int
HIFReadWrite(HIF_DEVICE *device,
A_UINT32 address,
A_UCHAR *buffer,
A_UINT32 request,
void *context)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
BUS_REQUEST *busrequest;
/* interrupted, exit */
return A_ERROR;
} else {
- A_STATUS status = busrequest->status;
+ int status = busrequest->status;
AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, ("AR6000: sync return freeing 0x%lX: 0x%X\n",
(unsigned long)busrequest, busrequest->status));
AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, ("AR6000: freeing req: 0x%X\n", (unsigned int)request));
{
HIF_DEVICE *device;
BUS_REQUEST *request;
- A_STATUS status;
+ int status;
unsigned long flags;
device = (HIF_DEVICE *)param;
return err;
}
-A_STATUS ReinitSDIO(HIF_DEVICE *device)
+int ReinitSDIO(HIF_DEVICE *device)
{
A_INT32 err;
struct mmc_host *host;
return (err) ? A_ERROR : A_OK;
}
-A_STATUS
+int
PowerStateChangeNotify(HIF_DEVICE *device, HIF_DEVICE_POWER_CHANGE_TYPE config)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
#if defined(CONFIG_PM)
struct sdio_func *func = device->func;
int old_reset_val;
return status;
}
-A_STATUS
+int
HIFConfigureDevice(HIF_DEVICE *device, HIF_DEVICE_CONFIG_OPCODE opcode,
void *config, A_UINT32 configLen)
{
A_UINT32 count;
- A_STATUS status = A_OK;
+ int status = A_OK;
switch(opcode) {
case HIF_DEVICE_GET_MBOX_BLOCK_SIZE:
static void
hifIRQHandler(struct sdio_func *func)
{
- A_STATUS status;
+ int status;
HIF_DEVICE *device;
AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, ("AR6000: +hifIRQHandler\n"));
spin_unlock_irqrestore(&device->lock, flag);
}
-static A_STATUS hifDisableFunc(HIF_DEVICE *device, struct sdio_func *func)
+static int hifDisableFunc(HIF_DEVICE *device, struct sdio_func *func)
{
int ret;
- A_STATUS status = A_OK;
+ int status = A_OK;
AR_DEBUG_PRINTF(ATH_DEBUG_TRACE, ("AR6000: +hifDisableFunc\n"));
device = getHifDevice(func);
static int hifDeviceSuspend(struct device *dev)
{
struct sdio_func *func=dev_to_sdio_func(dev);
- A_STATUS status = A_OK;
+ int status = A_OK;
HIF_DEVICE *device;
device = getHifDevice(func);
static int hifDeviceResume(struct device *dev)
{
struct sdio_func *func=dev_to_sdio_func(dev);
- A_STATUS status = A_OK;
+ int status = A_OK;
HIF_DEVICE *device;
device = getHifDevice(func);
static void hifDeviceRemoved(struct sdio_func *func)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
HIF_DEVICE *device;
AR_DEBUG_ASSERT(func != NULL);
/*
* This should be moved to AR6K HTC layer.
*/
-A_STATUS hifWaitForPendingRecv(HIF_DEVICE *device)
+int hifWaitForPendingRecv(HIF_DEVICE *device)
{
A_INT32 cnt = 10;
A_UINT8 host_int_status;
- A_STATUS status = A_OK;
+ int status = A_OK;
do {
while (atomic_read(&device->irqHandling)) {
device->claimedContext = NULL;
}
-A_STATUS HIFAttachHTC(HIF_DEVICE *device, HTC_CALLBACKS *callbacks)
+int HIFAttachHTC(HIF_DEVICE *device, HTC_CALLBACKS *callbacks)
{
if (device->htcCallbacks.context != NULL) {
/* already in use! */
}
/* called by async task to perform the operation synchronously using direct MMC APIs */
-A_STATUS DoHifReadWriteScatter(HIF_DEVICE *device, BUS_REQUEST *busrequest)
+int DoHifReadWriteScatter(HIF_DEVICE *device, BUS_REQUEST *busrequest)
{
int i;
A_UINT8 rw;
struct mmc_data data;
HIF_SCATTER_REQ_PRIV *pReqPriv;
HIF_SCATTER_REQ *pReq;
- A_STATUS status = A_OK;
+ int status = A_OK;
struct scatterlist *pSg;
pReqPriv = busrequest->pScatterReq;
}
/* callback to issue a read-write scatter request */
-static A_STATUS HifReadWriteScatter(HIF_DEVICE *device, HIF_SCATTER_REQ *pReq)
+static int HifReadWriteScatter(HIF_DEVICE *device, HIF_SCATTER_REQ *pReq)
{
- A_STATUS status = A_EINVAL;
+ int status = A_EINVAL;
A_UINT32 request = pReq->Request;
HIF_SCATTER_REQ_PRIV *pReqPriv = (HIF_SCATTER_REQ_PRIV *)pReq->HIFPrivate[0];
}
/* setup of HIF scatter resources */
-A_STATUS SetupHIFScatterSupport(HIF_DEVICE *device, HIF_DEVICE_SCATTER_SUPPORT_INFO *pInfo)
+int SetupHIFScatterSupport(HIF_DEVICE *device, HIF_DEVICE_SCATTER_SUPPORT_INFO *pInfo)
{
- A_STATUS status = A_ERROR;
+ int status = A_ERROR;
int i;
HIF_SCATTER_REQ_PRIV *pReqPriv;
BUS_REQUEST *busrequest;
#define MAILBOX_FOR_BLOCK_SIZE 1
-A_STATUS DevEnableInterrupts(AR6K_DEVICE *pDev);
-A_STATUS DevDisableInterrupts(AR6K_DEVICE *pDev);
+int DevEnableInterrupts(AR6K_DEVICE *pDev);
+int DevDisableInterrupts(AR6K_DEVICE *pDev);
static void DevCleanupVirtualScatterSupport(AR6K_DEVICE *pDev);
}
}
-A_STATUS DevSetup(AR6K_DEVICE *pDev)
+int DevSetup(AR6K_DEVICE *pDev)
{
A_UINT32 blocksizes[AR6K_MAILBOXES];
- A_STATUS status = A_OK;
+ int status = A_OK;
int i;
HTC_CALLBACKS htcCallbacks;
}
-A_STATUS DevEnableInterrupts(AR6K_DEVICE *pDev)
+int DevEnableInterrupts(AR6K_DEVICE *pDev)
{
- A_STATUS status;
+ int status;
AR6K_IRQ_ENABLE_REGISTERS regs;
LOCK_AR6K(pDev);
return status;
}
-A_STATUS DevDisableInterrupts(AR6K_DEVICE *pDev)
+int DevDisableInterrupts(AR6K_DEVICE *pDev)
{
AR6K_IRQ_ENABLE_REGISTERS regs;
}
/* enable device interrupts */
-A_STATUS DevUnmaskInterrupts(AR6K_DEVICE *pDev)
+int DevUnmaskInterrupts(AR6K_DEVICE *pDev)
{
/* for good measure, make sure interrupt are disabled before unmasking at the HIF
* layer.
* and when HTC is finally ready to handle interrupts, other software can perform target "soft" resets.
* The AR6K interrupt enables reset back to an "enabled" state when this happens.
* */
- A_STATUS IntStatus = A_OK;
+ int IntStatus = A_OK;
DevDisableInterrupts(pDev);
#ifdef THREAD_X
}
/* disable all device interrupts */
-A_STATUS DevMaskInterrupts(AR6K_DEVICE *pDev)
+int DevMaskInterrupts(AR6K_DEVICE *pDev)
{
/* mask the interrupt at the HIF layer, we don't want a stray interrupt taken while
* we zero out our shadow registers in DevDisableInterrupts()*/
/* disable packet reception (used in case the host runs out of buffers)
* this is the "override" method when the HIF reports another methods to
* disable recv events */
-static A_STATUS DevDoEnableDisableRecvOverride(AR6K_DEVICE *pDev, A_BOOL EnableRecv, A_BOOL AsyncMode)
+static int DevDoEnableDisableRecvOverride(AR6K_DEVICE *pDev, A_BOOL EnableRecv, A_BOOL AsyncMode)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
HTC_PACKET *pIOPacket = NULL;
AR_DEBUG_PRINTF(ATH_DEBUG_TRC,("DevDoEnableDisableRecvOverride: Enable:%d Mode:%d\n",
/* disable packet reception (used in case the host runs out of buffers)
* this is the "normal" method using the interrupt enable registers through
* the host I/F */
-static A_STATUS DevDoEnableDisableRecvNormal(AR6K_DEVICE *pDev, A_BOOL EnableRecv, A_BOOL AsyncMode)
+static int DevDoEnableDisableRecvNormal(AR6K_DEVICE *pDev, A_BOOL EnableRecv, A_BOOL AsyncMode)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
HTC_PACKET *pIOPacket = NULL;
AR6K_IRQ_ENABLE_REGISTERS regs;
}
-A_STATUS DevStopRecv(AR6K_DEVICE *pDev, A_BOOL AsyncMode)
+int DevStopRecv(AR6K_DEVICE *pDev, A_BOOL AsyncMode)
{
if (NULL == pDev->HifMaskUmaskRecvEvent) {
return DevDoEnableDisableRecvNormal(pDev,FALSE,AsyncMode);
}
}
-A_STATUS DevEnableRecv(AR6K_DEVICE *pDev, A_BOOL AsyncMode)
+int DevEnableRecv(AR6K_DEVICE *pDev, A_BOOL AsyncMode)
{
if (NULL == pDev->HifMaskUmaskRecvEvent) {
return DevDoEnableDisableRecvNormal(pDev,TRUE,AsyncMode);
}
}
-A_STATUS DevWaitForPendingRecv(AR6K_DEVICE *pDev,A_UINT32 TimeoutInMs,A_BOOL *pbIsRecvPending)
+int DevWaitForPendingRecv(AR6K_DEVICE *pDev,A_UINT32 TimeoutInMs,A_BOOL *pbIsRecvPending)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
A_UCHAR host_int_status = 0x0;
A_UINT32 counter = 0x0;
UNLOCK_AR6K(pDev);
}
-A_STATUS DevCopyScatterListToFromDMABuffer(HIF_SCATTER_REQ *pReq, A_BOOL FromDMA)
+int DevCopyScatterListToFromDMABuffer(HIF_SCATTER_REQ *pReq, A_BOOL FromDMA)
{
A_UINT8 *pDMABuffer = NULL;
int i, remaining;
AR_DEBUG_PRINTF(ATH_DEBUG_RECV,("-DevReadWriteScatterAsyncHandler \n"));
}
-static A_STATUS DevReadWriteScatter(HIF_DEVICE *Context, HIF_SCATTER_REQ *pReq)
+static int DevReadWriteScatter(HIF_DEVICE *Context, HIF_SCATTER_REQ *pReq)
{
AR6K_DEVICE *pDev = (AR6K_DEVICE *)Context;
- A_STATUS status = A_OK;
+ int status = A_OK;
HTC_PACKET *pIOPacket = NULL;
A_UINT32 request = pReq->Request;
}
/* function to set up virtual scatter support if HIF layer has not implemented the interface */
-static A_STATUS DevSetupVirtualScatterSupport(AR6K_DEVICE *pDev)
+static int DevSetupVirtualScatterSupport(AR6K_DEVICE *pDev)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
int bufferSize, sgreqSize;
int i;
DEV_SCATTER_DMA_VIRTUAL_INFO *pVirtualInfo;
}
-A_STATUS DevSetupMsgBundling(AR6K_DEVICE *pDev, int MaxMsgsPerTransfer)
+int DevSetupMsgBundling(AR6K_DEVICE *pDev, int MaxMsgsPerTransfer)
{
- A_STATUS status;
+ int status;
if (pDev->MailBoxInfo.Flags & HIF_MBOX_FLAG_NO_BUNDLING) {
AR_DEBUG_PRINTF(ATH_DEBUG_WARN, ("HIF requires bundling disabled\n"));
return status;
}
-A_STATUS DevSubmitScatterRequest(AR6K_DEVICE *pDev, HIF_SCATTER_REQ *pScatterReq, A_BOOL Read, A_BOOL Async)
+int DevSubmitScatterRequest(AR6K_DEVICE *pDev, HIF_SCATTER_REQ *pScatterReq, A_BOOL Read, A_BOOL Async)
{
- A_STATUS status;
+ int status;
if (Read) {
/* read operation */
#define ATH_PRINT_OUT_ZONE ATH_DEBUG_ERR
/* send the ordered buffers to the target */
-static A_STATUS SendBuffers(AR6K_DEVICE *pDev, int mbox)
+static int SendBuffers(AR6K_DEVICE *pDev, int mbox)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
A_UINT32 request = HIF_WR_SYNC_BLOCK_INC;
BUFFER_PROC_LIST sendList[BUFFER_PROC_LIST_DEPTH];
int i;
}
/* poll the mailbox credit counter until we get a credit or timeout */
-static A_STATUS GetCredits(AR6K_DEVICE *pDev, int mbox, int *pCredits)
+static int GetCredits(AR6K_DEVICE *pDev, int mbox, int *pCredits)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
int timeout = TEST_CREDITS_RECV_TIMEOUT;
A_UINT8 credits = 0;
A_UINT32 address;
/* wait for the buffers to come back */
-static A_STATUS RecvBuffers(AR6K_DEVICE *pDev, int mbox)
+static int RecvBuffers(AR6K_DEVICE *pDev, int mbox)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
A_UINT32 request = HIF_RD_SYNC_BLOCK_INC;
BUFFER_PROC_LIST recvList[BUFFER_PROC_LIST_DEPTH];
int curBuffer;
}
-static A_STATUS DoOneMboxHWTest(AR6K_DEVICE *pDev, int mbox)
+static int DoOneMboxHWTest(AR6K_DEVICE *pDev, int mbox)
{
- A_STATUS status;
+ int status;
do {
/* send out buffers */
}
/* here is where the test starts */
-A_STATUS DoMboxHWTest(AR6K_DEVICE *pDev)
+int DoMboxHWTest(AR6K_DEVICE *pDev)
{
int i;
- A_STATUS status;
+ int status;
int credits = 0;
A_UINT8 params[4];
int numBufs;
typedef struct _AR6K_GMBOX_INFO {
void *pProtocolContext;
- A_STATUS (*pMessagePendingCallBack)(void *pContext, A_UINT8 LookAheadBytes[], int ValidBytes);
- A_STATUS (*pCreditsPendingCallback)(void *pContext, int NumCredits, A_BOOL CreditIRQEnabled);
- void (*pTargetFailureCallback)(void *pContext, A_STATUS Status);
+ int (*pMessagePendingCallBack)(void *pContext, A_UINT8 LookAheadBytes[], int ValidBytes);
+ int (*pCreditsPendingCallback)(void *pContext, int NumCredits, A_BOOL CreditIRQEnabled);
+ void (*pTargetFailureCallback)(void *pContext, int Status);
void (*pStateDumpCallback)(void *pContext);
A_BOOL CreditCountIRQEnabled;
} AR6K_GMBOX_INFO;
HTC_PACKET_QUEUE RegisterIOList;
AR6K_ASYNC_REG_IO_BUFFER RegIOBuffers[AR6K_MAX_REG_IO_BUFFERS];
void (*TargetFailureCallback)(void *Context);
- A_STATUS (*MessagePendingCallback)(void *Context,
+ int (*MessagePendingCallback)(void *Context,
A_UINT32 LookAheads[],
int NumLookAheads,
A_BOOL *pAsyncProc,
#define UNLOCK_AR6K(p) A_MUTEX_UNLOCK(&(p)->Lock);
#define REF_IRQ_STATUS_RECHECK(p) (p)->RecheckIRQStatusCnt = 1 /* note: no need to lock this, it only gets set */
-A_STATUS DevSetup(AR6K_DEVICE *pDev);
+int DevSetup(AR6K_DEVICE *pDev);
void DevCleanup(AR6K_DEVICE *pDev);
-A_STATUS DevUnmaskInterrupts(AR6K_DEVICE *pDev);
-A_STATUS DevMaskInterrupts(AR6K_DEVICE *pDev);
-A_STATUS DevPollMboxMsgRecv(AR6K_DEVICE *pDev,
+int DevUnmaskInterrupts(AR6K_DEVICE *pDev);
+int DevMaskInterrupts(AR6K_DEVICE *pDev);
+int DevPollMboxMsgRecv(AR6K_DEVICE *pDev,
A_UINT32 *pLookAhead,
int TimeoutMS);
-A_STATUS DevRWCompletionHandler(void *context, A_STATUS status);
-A_STATUS DevDsrHandler(void *context);
-A_STATUS DevCheckPendingRecvMsgsAsync(void *context);
+int DevRWCompletionHandler(void *context, int status);
+int DevDsrHandler(void *context);
+int DevCheckPendingRecvMsgsAsync(void *context);
void DevAsyncIrqProcessComplete(AR6K_DEVICE *pDev);
void DevDumpRegisters(AR6K_DEVICE *pDev,
AR6K_IRQ_PROC_REGISTERS *pIrqProcRegs,
#define DEV_STOP_RECV_SYNC FALSE
#define DEV_ENABLE_RECV_ASYNC TRUE
#define DEV_ENABLE_RECV_SYNC FALSE
-A_STATUS DevStopRecv(AR6K_DEVICE *pDev, A_BOOL ASyncMode);
-A_STATUS DevEnableRecv(AR6K_DEVICE *pDev, A_BOOL ASyncMode);
-A_STATUS DevEnableInterrupts(AR6K_DEVICE *pDev);
-A_STATUS DevDisableInterrupts(AR6K_DEVICE *pDev);
-A_STATUS DevWaitForPendingRecv(AR6K_DEVICE *pDev,A_UINT32 TimeoutInMs,A_BOOL *pbIsRecvPending);
+int DevStopRecv(AR6K_DEVICE *pDev, A_BOOL ASyncMode);
+int DevEnableRecv(AR6K_DEVICE *pDev, A_BOOL ASyncMode);
+int DevEnableInterrupts(AR6K_DEVICE *pDev);
+int DevDisableInterrupts(AR6K_DEVICE *pDev);
+int DevWaitForPendingRecv(AR6K_DEVICE *pDev,A_UINT32 TimeoutInMs,A_BOOL *pbIsRecvPending);
#define DEV_CALC_RECV_PADDED_LEN(pDev, length) (((length) + (pDev)->BlockMask) & (~((pDev)->BlockMask)))
#define DEV_CALC_SEND_PADDED_LEN(pDev, length) DEV_CALC_RECV_PADDED_LEN(pDev,length)
#define DEV_IS_LEN_BLOCK_ALIGNED(pDev, length) (((length) % (pDev)->BlockSize) == 0)
-static INLINE A_STATUS DevSendPacket(AR6K_DEVICE *pDev, HTC_PACKET *pPacket, A_UINT32 SendLength) {
+static INLINE int DevSendPacket(AR6K_DEVICE *pDev, HTC_PACKET *pPacket, A_UINT32 SendLength) {
A_UINT32 paddedLength;
A_BOOL sync = (pPacket->Completion == NULL) ? TRUE : FALSE;
- A_STATUS status;
+ int status;
/* adjust the length to be a multiple of block size if appropriate */
paddedLength = DEV_CALC_SEND_PADDED_LEN(pDev, SendLength);
return status;
}
-static INLINE A_STATUS DevRecvPacket(AR6K_DEVICE *pDev, HTC_PACKET *pPacket, A_UINT32 RecvLength) {
+static INLINE int DevRecvPacket(AR6K_DEVICE *pDev, HTC_PACKET *pPacket, A_UINT32 RecvLength) {
A_UINT32 paddedLength;
- A_STATUS status;
+ int status;
A_BOOL sync = (pPacket->Completion == NULL) ? TRUE : FALSE;
/* adjust the length to be a multiple of block size if appropriate */
*
*/
-A_STATUS DevCopyScatterListToFromDMABuffer(HIF_SCATTER_REQ *pReq, A_BOOL FromDMA);
+int DevCopyScatterListToFromDMABuffer(HIF_SCATTER_REQ *pReq, A_BOOL FromDMA);
/* copy any READ data back into scatter list */
#define DEV_FINISH_SCATTER_OPERATION(pR) \
}
/* copy any WRITE data to bounce buffer */
-static INLINE A_STATUS DEV_PREPARE_SCATTER_OPERATION(HIF_SCATTER_REQ *pReq) {
+static INLINE int DEV_PREPARE_SCATTER_OPERATION(HIF_SCATTER_REQ *pReq) {
if ((pReq->Request & HIF_WRITE) && (pReq->ScatterMethod == HIF_SCATTER_DMA_BOUNCE)) {
return DevCopyScatterListToFromDMABuffer(pReq,TO_DMA_BUFFER);
} else {
}
-A_STATUS DevSetupMsgBundling(AR6K_DEVICE *pDev, int MaxMsgsPerTransfer);
+int DevSetupMsgBundling(AR6K_DEVICE *pDev, int MaxMsgsPerTransfer);
#define DEV_GET_MAX_MSG_PER_BUNDLE(pDev) (pDev)->HifScatterInfo.MaxScatterEntries
#define DEV_GET_MAX_BUNDLE_LENGTH(pDev) (pDev)->HifScatterInfo.MaxTransferSizePerScatterReq
#define DEV_SCATTER_WRITE FALSE
#define DEV_SCATTER_ASYNC TRUE
#define DEV_SCATTER_SYNC FALSE
-A_STATUS DevSubmitScatterRequest(AR6K_DEVICE *pDev, HIF_SCATTER_REQ *pScatterReq, A_BOOL Read, A_BOOL Async);
+int DevSubmitScatterRequest(AR6K_DEVICE *pDev, HIF_SCATTER_REQ *pScatterReq, A_BOOL Read, A_BOOL Async);
#ifdef MBOXHW_UNIT_TEST
-A_STATUS DoMboxHWTest(AR6K_DEVICE *pDev);
+int DoMboxHWTest(AR6K_DEVICE *pDev);
#endif
/* completely virtual */
#ifdef ATH_AR6K_ENABLE_GMBOX
void DevCleanupGMbox(AR6K_DEVICE *pDev);
-A_STATUS DevSetupGMbox(AR6K_DEVICE *pDev);
-A_STATUS DevCheckGMboxInterrupts(AR6K_DEVICE *pDev);
+int DevSetupGMbox(AR6K_DEVICE *pDev);
+int DevCheckGMboxInterrupts(AR6K_DEVICE *pDev);
void DevNotifyGMboxTargetFailure(AR6K_DEVICE *pDev);
#else
#define DevCheckGMboxInterrupts(p) A_OK
#define DevNotifyGMboxTargetFailure(p)
-static INLINE A_STATUS DevSetupGMbox(AR6K_DEVICE *pDev) {
+static INLINE int DevSetupGMbox(AR6K_DEVICE *pDev) {
pDev->GMboxEnabled = FALSE;
return A_OK;
}
/* GMBOX protocol modules must expose each of these internal APIs */
HCI_TRANSPORT_HANDLE GMboxAttachProtocol(AR6K_DEVICE *pDev, HCI_TRANSPORT_CONFIG_INFO *pInfo);
-A_STATUS GMboxProtocolInstall(AR6K_DEVICE *pDev);
+int GMboxProtocolInstall(AR6K_DEVICE *pDev);
void GMboxProtocolUninstall(AR6K_DEVICE *pDev);
/* API used by GMBOX protocol modules */
#define DEV_GMBOX_GET_PROTOCOL(pDev) (pDev)->GMboxInfo.pProtocolContext
-A_STATUS DevGMboxWrite(AR6K_DEVICE *pDev, HTC_PACKET *pPacket, A_UINT32 WriteLength);
-A_STATUS DevGMboxRead(AR6K_DEVICE *pDev, HTC_PACKET *pPacket, A_UINT32 ReadLength);
+int DevGMboxWrite(AR6K_DEVICE *pDev, HTC_PACKET *pPacket, A_UINT32 WriteLength);
+int DevGMboxRead(AR6K_DEVICE *pDev, HTC_PACKET *pPacket, A_UINT32 ReadLength);
#define PROC_IO_ASYNC TRUE
#define PROC_IO_SYNC FALSE
GMBOX_CREDIT_IRQ_DISABLE,
} GMBOX_IRQ_ACTION_TYPE;
-A_STATUS DevGMboxIRQAction(AR6K_DEVICE *pDev, GMBOX_IRQ_ACTION_TYPE, A_BOOL AsyncMode);
-A_STATUS DevGMboxReadCreditCounter(AR6K_DEVICE *pDev, A_BOOL AsyncMode, int *pCredits);
-A_STATUS DevGMboxReadCreditSize(AR6K_DEVICE *pDev, int *pCreditSize);
-A_STATUS DevGMboxRecvLookAheadPeek(AR6K_DEVICE *pDev, A_UINT8 *pLookAheadBuffer, int *pLookAheadBytes);
-A_STATUS DevGMboxSetTargetInterrupt(AR6K_DEVICE *pDev, int SignalNumber, int AckTimeoutMS);
+int DevGMboxIRQAction(AR6K_DEVICE *pDev, GMBOX_IRQ_ACTION_TYPE, A_BOOL AsyncMode);
+int DevGMboxReadCreditCounter(AR6K_DEVICE *pDev, A_BOOL AsyncMode, int *pCredits);
+int DevGMboxReadCreditSize(AR6K_DEVICE *pDev, int *pCreditSize);
+int DevGMboxRecvLookAheadPeek(AR6K_DEVICE *pDev, A_UINT8 *pLookAheadBuffer, int *pLookAheadBytes);
+int DevGMboxSetTargetInterrupt(AR6K_DEVICE *pDev, int SignalNumber, int AckTimeoutMS);
#endif
extern void AR6KFreeIOPacket(AR6K_DEVICE *pDev, HTC_PACKET *pPacket);
extern HTC_PACKET *AR6KAllocIOPacket(AR6K_DEVICE *pDev);
-static A_STATUS DevServiceDebugInterrupt(AR6K_DEVICE *pDev);
+static int 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)
+int DevRWCompletionHandler(void *context, int status)
{
HTC_PACKET *pPacket = (HTC_PACKET *)context;
}
/* mailbox recv message polling */
-A_STATUS DevPollMboxMsgRecv(AR6K_DEVICE *pDev,
+int DevPollMboxMsgRecv(AR6K_DEVICE *pDev,
A_UINT32 *pLookAhead,
int TimeoutMS)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
int timeout = TimeoutMS/DELAY_PER_INTERVAL_MS;
A_ASSERT(timeout > 0);
return status;
}
-static A_STATUS DevServiceCPUInterrupt(AR6K_DEVICE *pDev)
+static int DevServiceCPUInterrupt(AR6K_DEVICE *pDev)
{
- A_STATUS status;
+ int status;
A_UINT8 cpu_int_status;
A_UINT8 regBuffer[4];
}
-static A_STATUS DevServiceErrorInterrupt(AR6K_DEVICE *pDev)
+static int DevServiceErrorInterrupt(AR6K_DEVICE *pDev)
{
- A_STATUS status;
+ int status;
A_UINT8 error_int_status;
A_UINT8 regBuffer[4];
return status;
}
-static A_STATUS DevServiceDebugInterrupt(AR6K_DEVICE *pDev)
+static int DevServiceDebugInterrupt(AR6K_DEVICE *pDev)
{
A_UINT32 dummy;
- A_STATUS status;
+ int status;
/* Send a target failure event to the application */
AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("Target debug interrupt\n"));
return status;
}
-static A_STATUS DevServiceCounterInterrupt(AR6K_DEVICE *pDev)
+static int DevServiceCounterInterrupt(AR6K_DEVICE *pDev)
{
A_UINT8 counter_int_status;
HIFAckInterrupt(pDev->HIFDevice);
} else {
int fetched = 0;
- A_STATUS status;
+ int status;
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ,
(" DevGetEventAsyncHandler : detected another message, lookahead :0x%X \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)
+int DevCheckPendingRecvMsgsAsync(void *context)
{
AR6K_DEVICE *pDev = (AR6K_DEVICE *)context;
- A_STATUS status = A_OK;
+ int 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
}
/* process pending interrupts synchronously */
-static A_STATUS ProcessPendingIRQs(AR6K_DEVICE *pDev, A_BOOL *pDone, A_BOOL *pASyncProcessing)
+static int ProcessPendingIRQs(AR6K_DEVICE *pDev, A_BOOL *pDone, A_BOOL *pASyncProcessing)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
A_UINT8 host_int_status = 0;
A_UINT32 lookAhead = 0;
/* Synchronousinterrupt handler, this handler kicks off all interrupt processing.*/
-A_STATUS DevDsrHandler(void *context)
+int DevDsrHandler(void *context)
{
AR6K_DEVICE *pDev = (AR6K_DEVICE *)context;
- A_STATUS status = A_OK;
+ int status = A_OK;
A_BOOL done = FALSE;
A_BOOL asyncProc = FALSE;
#ifdef ATH_DEBUG_MODULE
void DumpAR6KDevState(AR6K_DEVICE *pDev)
{
- A_STATUS status;
+ int status;
AR6K_IRQ_ENABLE_REGISTERS regs;
AR6K_IRQ_PROC_REGISTERS procRegs;
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ,("-DevGMboxIRQActionAsyncHandler \n"));
}
-static A_STATUS DevGMboxCounterEnableDisable(AR6K_DEVICE *pDev, GMBOX_IRQ_ACTION_TYPE IrqAction, A_BOOL AsyncMode)
+static int DevGMboxCounterEnableDisable(AR6K_DEVICE *pDev, GMBOX_IRQ_ACTION_TYPE IrqAction, A_BOOL AsyncMode)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
AR6K_IRQ_ENABLE_REGISTERS regs;
HTC_PACKET *pIOPacket = NULL;
}
-A_STATUS DevGMboxIRQAction(AR6K_DEVICE *pDev, GMBOX_IRQ_ACTION_TYPE IrqAction, A_BOOL AsyncMode)
+int DevGMboxIRQAction(AR6K_DEVICE *pDev, GMBOX_IRQ_ACTION_TYPE IrqAction, A_BOOL AsyncMode)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
HTC_PACKET *pIOPacket = NULL;
A_UINT8 GMboxIntControl[4];
}
}
-A_STATUS DevSetupGMbox(AR6K_DEVICE *pDev)
+int DevSetupGMbox(AR6K_DEVICE *pDev)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
A_UINT8 muxControl[4];
do {
return status;
}
-A_STATUS DevCheckGMboxInterrupts(AR6K_DEVICE *pDev)
+int DevCheckGMboxInterrupts(AR6K_DEVICE *pDev)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
A_UINT8 counter_int_status;
int credits;
A_UINT8 host_int_status2;
}
-A_STATUS DevGMboxWrite(AR6K_DEVICE *pDev, HTC_PACKET *pPacket, A_UINT32 WriteLength)
+int DevGMboxWrite(AR6K_DEVICE *pDev, HTC_PACKET *pPacket, A_UINT32 WriteLength)
{
A_UINT32 paddedLength;
A_BOOL sync = (pPacket->Completion == NULL) ? TRUE : FALSE;
- A_STATUS status;
+ int status;
A_UINT32 address;
/* adjust the length to be a multiple of block size if appropriate */
return status;
}
-A_STATUS DevGMboxRead(AR6K_DEVICE *pDev, HTC_PACKET *pPacket, A_UINT32 ReadLength)
+int DevGMboxRead(AR6K_DEVICE *pDev, HTC_PACKET *pPacket, A_UINT32 ReadLength)
{
A_UINT32 paddedLength;
- A_STATUS status;
+ int status;
A_BOOL sync = (pPacket->Completion == NULL) ? TRUE : FALSE;
/* adjust the length to be a multiple of block size if appropriate */
AR_DEBUG_PRINTF(ATH_DEBUG_IRQ,("-DevGMboxReadCreditsAsyncHandler \n"));
}
-A_STATUS DevGMboxReadCreditCounter(AR6K_DEVICE *pDev, A_BOOL AsyncMode, int *pCredits)
+int DevGMboxReadCreditCounter(AR6K_DEVICE *pDev, A_BOOL AsyncMode, int *pCredits)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
HTC_PACKET *pIOPacket = NULL;
AR_DEBUG_PRINTF(ATH_DEBUG_SEND,("+DevGMboxReadCreditCounter (%s) \n", AsyncMode ? "ASYNC" : "SYNC"));
return status;
}
-A_STATUS DevGMboxReadCreditSize(AR6K_DEVICE *pDev, int *pCreditSize)
+int DevGMboxReadCreditSize(AR6K_DEVICE *pDev, int *pCreditSize)
{
- A_STATUS status;
+ int status;
A_UINT8 buffer[4];
status = HIFReadWrite(pDev->HIFDevice,
}
}
-A_STATUS DevGMboxRecvLookAheadPeek(AR6K_DEVICE *pDev, A_UINT8 *pLookAheadBuffer, int *pLookAheadBytes)
+int DevGMboxRecvLookAheadPeek(AR6K_DEVICE *pDev, A_UINT8 *pLookAheadBuffer, int *pLookAheadBytes)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
AR6K_IRQ_PROC_REGISTERS procRegs;
int maxCopy;
return status;
}
-A_STATUS DevGMboxSetTargetInterrupt(AR6K_DEVICE *pDev, int Signal, int AckTimeoutMS)
+int DevGMboxSetTargetInterrupt(AR6K_DEVICE *pDev, int Signal, int AckTimeoutMS)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
int i;
A_UINT8 buffer[4];
(p)->HCIConfig.pHCISendComplete((p)->HCIConfig.pContext, (pt)); \
}
-static A_STATUS HCITrySend(GMBOX_PROTO_HCI_UART *pProt, HTC_PACKET *pPacket, A_BOOL Synchronous);
+static int HCITrySend(GMBOX_PROTO_HCI_UART *pProt, HTC_PACKET *pPacket, A_BOOL Synchronous);
static void HCIUartCleanup(GMBOX_PROTO_HCI_UART *pProtocol)
{
A_FREE(pProtocol);
}
-static A_STATUS InitTxCreditState(GMBOX_PROTO_HCI_UART *pProt)
+static int InitTxCreditState(GMBOX_PROTO_HCI_UART *pProt)
{
- A_STATUS status;
+ int status;
int credits;
int creditPollCount = CREDIT_POLL_COUNT;
A_BOOL gotCredits = FALSE;
return status;
}
-static A_STATUS CreditsAvailableCallback(void *pContext, int Credits, A_BOOL CreditIRQEnabled)
+static int CreditsAvailableCallback(void *pContext, int Credits, A_BOOL CreditIRQEnabled)
{
GMBOX_PROTO_HCI_UART *pProt = (GMBOX_PROTO_HCI_UART *)pContext;
A_BOOL enableCreditIrq = FALSE;
A_BOOL disableCreditIrq = FALSE;
A_BOOL doPendingSends = FALSE;
- A_STATUS status = A_OK;
+ int status = A_OK;
/** this callback is called under 2 conditions:
* 1. The credit IRQ interrupt was enabled and signaled.
return status;
}
-static INLINE void NotifyTransportFailure(GMBOX_PROTO_HCI_UART *pProt, A_STATUS status)
+static INLINE void NotifyTransportFailure(GMBOX_PROTO_HCI_UART *pProt, int status)
{
if (pProt->HCIConfig.TransportFailure != NULL) {
pProt->HCIConfig.TransportFailure(pProt->HCIConfig.pContext, status);
}
}
-static void FailureCallback(void *pContext, A_STATUS Status)
+static void FailureCallback(void *pContext, int Status)
{
GMBOX_PROTO_HCI_UART *pProt = (GMBOX_PROTO_HCI_UART *)pContext;
AR_DEBUG_PRINTF(ATH_DEBUG_ANY,("==================================================\n"));
}
-static A_STATUS HCIUartMessagePending(void *pContext, A_UINT8 LookAheadBytes[], int ValidBytes)
+static int HCIUartMessagePending(void *pContext, A_UINT8 LookAheadBytes[], int ValidBytes)
{
GMBOX_PROTO_HCI_UART *pProt = (GMBOX_PROTO_HCI_UART *)pContext;
- A_STATUS status = A_OK;
+ int status = A_OK;
int totalRecvLength = 0;
HCI_TRANSPORT_PACKET_TYPE pktType = HCI_PACKET_INVALID;
A_BOOL recvRefillCalled = FALSE;
AR_DEBUG_PRINTF(ATH_DEBUG_SEND,("+HCISendPacketCompletion \n"));
}
-static A_STATUS SeekCreditsSynch(GMBOX_PROTO_HCI_UART *pProt)
+static int SeekCreditsSynch(GMBOX_PROTO_HCI_UART *pProt)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
int credits;
int retry = 100;
return status;
}
-static A_STATUS HCITrySend(GMBOX_PROTO_HCI_UART *pProt, HTC_PACKET *pPacket, A_BOOL Synchronous)
+static int HCITrySend(GMBOX_PROTO_HCI_UART *pProt, HTC_PACKET *pPacket, A_BOOL Synchronous)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
int transferLength;
int creditsRequired, remainder;
A_UINT8 hciUartType;
/*** protocol module install entry point ***/
-A_STATUS GMboxProtocolInstall(AR6K_DEVICE *pDev)
+int GMboxProtocolInstall(AR6K_DEVICE *pDev)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
GMBOX_PROTO_HCI_UART *pProtocol = NULL;
do {
}
-static A_STATUS NotifyTransportReady(GMBOX_PROTO_HCI_UART *pProt)
+static int NotifyTransportReady(GMBOX_PROTO_HCI_UART *pProt)
{
HCI_TRANSPORT_PROPERTIES props;
- A_STATUS status = A_OK;
+ int status = A_OK;
do {
AR_DEBUG_PRINTF(ATH_DEBUG_TRC,("-HCI_TransportAttach \n"));
}
-A_STATUS HCI_TransportAddReceivePkts(HCI_TRANSPORT_HANDLE HciTrans, HTC_PACKET_QUEUE *pQueue)
+int HCI_TransportAddReceivePkts(HCI_TRANSPORT_HANDLE HciTrans, HTC_PACKET_QUEUE *pQueue)
{
GMBOX_PROTO_HCI_UART *pProt = (GMBOX_PROTO_HCI_UART *)HciTrans;
- A_STATUS status = A_OK;
+ int status = A_OK;
A_BOOL unblockRecv = FALSE;
HTC_PACKET *pPacket;
return A_OK;
}
-A_STATUS HCI_TransportSendPkt(HCI_TRANSPORT_HANDLE HciTrans, HTC_PACKET *pPacket, A_BOOL Synchronous)
+int HCI_TransportSendPkt(HCI_TRANSPORT_HANDLE HciTrans, HTC_PACKET *pPacket, A_BOOL Synchronous)
{
GMBOX_PROTO_HCI_UART *pProt = (GMBOX_PROTO_HCI_UART *)HciTrans;
AR_DEBUG_PRINTF(ATH_DEBUG_TRC,("-HCI_TransportStop \n"));
}
-A_STATUS HCI_TransportStart(HCI_TRANSPORT_HANDLE HciTrans)
+int HCI_TransportStart(HCI_TRANSPORT_HANDLE HciTrans)
{
- A_STATUS status;
+ int status;
GMBOX_PROTO_HCI_UART *pProt = (GMBOX_PROTO_HCI_UART *)HciTrans;
AR_DEBUG_PRINTF(ATH_DEBUG_TRC,("+HCI_TransportStart \n"));
return status;
}
-A_STATUS HCI_TransportEnableDisableAsyncRecv(HCI_TRANSPORT_HANDLE HciTrans, A_BOOL Enable)
+int HCI_TransportEnableDisableAsyncRecv(HCI_TRANSPORT_HANDLE HciTrans, A_BOOL Enable)
{
GMBOX_PROTO_HCI_UART *pProt = (GMBOX_PROTO_HCI_UART *)HciTrans;
return DevGMboxIRQAction(pProt->pDev,
}
-A_STATUS HCI_TransportRecvHCIEventSync(HCI_TRANSPORT_HANDLE HciTrans,
+int HCI_TransportRecvHCIEventSync(HCI_TRANSPORT_HANDLE HciTrans,
HTC_PACKET *pPacket,
int MaxPollMS)
{
GMBOX_PROTO_HCI_UART *pProt = (GMBOX_PROTO_HCI_UART *)HciTrans;
- A_STATUS status = A_OK;
+ int status = A_OK;
A_UINT8 lookAhead[8];
int bytes;
int totalRecvLength;
#define LSB_SCRATCH_IDX 4
#define MSB_SCRATCH_IDX 5
-A_STATUS HCI_TransportSetBaudRate(HCI_TRANSPORT_HANDLE HciTrans, A_UINT32 Baud)
+int HCI_TransportSetBaudRate(HCI_TRANSPORT_HANDLE HciTrans, A_UINT32 Baud)
{
GMBOX_PROTO_HCI_UART *pProt = (GMBOX_PROTO_HCI_UART *)HciTrans;
HIF_DEVICE *pHIFDevice = (HIF_DEVICE *)(pProt->pDev->HIFDevice);
A_UINT32 scaledBaud, scratchAddr;
- A_STATUS status = A_OK;
+ int status = A_OK;
/* Divide the desired baud rate by 100
* Store the LSB in the local scratch register 4 and the MSB in the local
return status;
}
-A_STATUS HCI_TransportEnablePowerMgmt(HCI_TRANSPORT_HANDLE HciTrans, A_BOOL Enable)
+int HCI_TransportEnablePowerMgmt(HCI_TRANSPORT_HANDLE HciTrans, A_BOOL Enable)
{
- A_STATUS status;
+ int status;
GMBOX_PROTO_HCI_UART *pProt = (GMBOX_PROTO_HCI_UART *)HciTrans;
if (Enable) {
HTC_HANDLE HTCCreate(void *hif_handle, HTC_INIT_INFO *pInfo)
{
HTC_TARGET *target = NULL;
- A_STATUS status = A_OK;
+ int status = A_OK;
int i;
A_UINT32 ctrl_bufsz;
A_UINT32 blocksizes[HTC_MAILBOX_NUM_MAX];
/* wait for the target to arrive (sends HTC Ready message)
* this operation is fully synchronous and the message is polled for */
-A_STATUS HTCWaitTarget(HTC_HANDLE HTCHandle)
+int HTCWaitTarget(HTC_HANDLE HTCHandle)
{
HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(HTCHandle);
- A_STATUS status;
+ int status;
HTC_PACKET *pPacket = NULL;
HTC_READY_EX_MSG *pRdyMsg;
/* Start HTC, enable interrupts and let the target know host has finished setup */
-A_STATUS HTCStart(HTC_HANDLE HTCHandle)
+int HTCStart(HTC_HANDLE HTCHandle)
{
HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(HTCHandle);
HTC_PACKET *pPacket;
- A_STATUS status;
+ int status;
AR_DEBUG_PRINTF(ATH_DEBUG_TRC, ("HTCStart Enter\n"));
/* internal HTC functions */
void HTCControlTxComplete(void *Context, HTC_PACKET *pPacket);
void HTCControlRecv(void *Context, HTC_PACKET *pPacket);
-A_STATUS HTCWaitforControlMessage(HTC_TARGET *target, HTC_PACKET **ppControlPacket);
+int HTCWaitforControlMessage(HTC_TARGET *target, HTC_PACKET **ppControlPacket);
HTC_PACKET *HTCAllocControlBuffer(HTC_TARGET *target, HTC_PACKET_QUEUE *pList);
void HTCFreeControlBuffer(HTC_TARGET *target, HTC_PACKET *pPacket, HTC_PACKET_QUEUE *pList);
-A_STATUS HTCIssueSend(HTC_TARGET *target, HTC_PACKET *pPacket);
+int HTCIssueSend(HTC_TARGET *target, HTC_PACKET *pPacket);
void HTCRecvCompleteHandler(void *Context, HTC_PACKET *pPacket);
-A_STATUS HTCRecvMessagePendingHandler(void *Context, A_UINT32 MsgLookAheads[], int NumLookAheads, A_BOOL *pAsyncProc, int *pNumPktsFetched);
+int HTCRecvMessagePendingHandler(void *Context, A_UINT32 MsgLookAheads[], int NumLookAheads, A_BOOL *pAsyncProc, int *pNumPktsFetched);
void HTCProcessCreditRpt(HTC_TARGET *target, HTC_CREDIT_REPORT *pRpt, int NumEntries, HTC_ENDPOINT_ID FromEndpoint);
-A_STATUS HTCSendSetupComplete(HTC_TARGET *target);
+int HTCSendSetupComplete(HTC_TARGET *target);
void HTCFlushRecvBuffers(HTC_TARGET *target);
void HTCFlushSendPkts(HTC_TARGET *target);
}
-static INLINE A_STATUS HTCProcessTrailer(HTC_TARGET *target,
+static INLINE int HTCProcessTrailer(HTC_TARGET *target,
A_UINT8 *pBuffer,
int Length,
A_UINT32 *pNextLookAheads,
HTC_LOOKAHEAD_REPORT *pLookAhead;
A_UINT8 *pOrigBuffer;
int origLength;
- A_STATUS status;
+ int status;
AR_DEBUG_PRINTF(ATH_DEBUG_RECV, ("+HTCProcessTrailer (length:%d) \n", Length));
/* process a received message (i.e. strip off header, process any trailer data)
* note : locks must be released when this function is called */
-static A_STATUS HTCProcessRecvHeader(HTC_TARGET *target,
+static int HTCProcessRecvHeader(HTC_TARGET *target,
HTC_PACKET *pPacket,
A_UINT32 *pNextLookAheads,
int *pNumLookAheads)
{
A_UINT8 temp;
A_UINT8 *pBuf;
- A_STATUS status = A_OK;
+ int status = A_OK;
A_UINT16 payloadLen;
A_UINT32 lookAhead;
{
/* was there a lookahead for the next packet? */
if (NumLookAheads > 0) {
- A_STATUS nextStatus;
+ int nextStatus;
int fetched = 0;
AR_DEBUG_PRINTF(ATH_DEBUG_RECV,
("HTCAsyncRecvCheckMorePackets - num lookaheads were non-zero : %d \n",
HTC_ENDPOINT *pEndpoint;
A_UINT32 nextLookAheads[HTC_HOST_MAX_MSG_PER_BUNDLE];
int numLookAheads = 0;
- A_STATUS status;
+ int status;
A_BOOL checkMorePkts = TRUE;
AR_DEBUG_PRINTF(ATH_DEBUG_RECV, ("+HTCRecvCompleteHandler (pkt:0x%lX, status:%d, ep:%d) \n",
/* synchronously wait for a control message from the target,
* This function is used at initialization time ONLY. At init messages
* on ENDPOINT 0 are expected. */
-A_STATUS HTCWaitforControlMessage(HTC_TARGET *target, HTC_PACKET **ppControlPacket)
+int HTCWaitforControlMessage(HTC_TARGET *target, HTC_PACKET **ppControlPacket)
{
- A_STATUS status;
+ int status;
A_UINT32 lookAhead;
HTC_PACKET *pPacket = NULL;
HTC_FRAME_HDR *pHdr;
return status;
}
-static A_STATUS AllocAndPrepareRxPackets(HTC_TARGET *target,
+static int AllocAndPrepareRxPackets(HTC_TARGET *target,
A_UINT32 LookAheads[],
int Messages,
HTC_ENDPOINT *pEndpoint,
HTC_PACKET_QUEUE *pQueue)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
HTC_PACKET *pPacket;
HTC_FRAME_HDR *pHdr;
int i,j;
A_UINT32 lookAheads[HTC_HOST_MAX_MSG_PER_BUNDLE];
int numLookAheads = 0;
HTC_TARGET *target = (HTC_TARGET *)pScatterReq->Context;
- A_STATUS status;
+ int status;
A_BOOL partialBundle = FALSE;
HTC_PACKET_QUEUE localRecvQueue;
A_BOOL procError = FALSE;
AR_DEBUG_PRINTF(ATH_DEBUG_RECV,("-HTCAsyncRecvScatterCompletion \n"));
}
-static A_STATUS HTCIssueRecvPacketBundle(HTC_TARGET *target,
+static int HTCIssueRecvPacketBundle(HTC_TARGET *target,
HTC_PACKET_QUEUE *pRecvPktQueue,
HTC_PACKET_QUEUE *pSyncCompletionQueue,
int *pNumPacketsFetched,
A_BOOL PartialBundle)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
HIF_SCATTER_REQ *pScatterReq;
int i, totalLength;
int pktsToScatter;
}
/* callback when device layer or lookahead report parsing detects a pending message */
-A_STATUS HTCRecvMessagePendingHandler(void *Context, A_UINT32 MsgLookAheads[], int NumLookAheads, A_BOOL *pAsyncProc, int *pNumPktsFetched)
+int HTCRecvMessagePendingHandler(void *Context, A_UINT32 MsgLookAheads[], int NumLookAheads, A_BOOL *pAsyncProc, int *pNumPktsFetched)
{
HTC_TARGET *target = (HTC_TARGET *)Context;
- A_STATUS status = A_OK;
+ int status = A_OK;
HTC_PACKET *pPacket;
HTC_ENDPOINT *pEndpoint;
A_BOOL asyncProc = FALSE;
return status;
}
-A_STATUS HTCAddReceivePktMultiple(HTC_HANDLE HTCHandle, HTC_PACKET_QUEUE *pPktQueue)
+int HTCAddReceivePktMultiple(HTC_HANDLE HTCHandle, HTC_PACKET_QUEUE *pPktQueue)
{
HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(HTCHandle);
HTC_ENDPOINT *pEndpoint;
A_BOOL unblockRecv = FALSE;
- A_STATUS status = A_OK;
+ int status = A_OK;
HTC_PACKET *pFirstPacket;
pFirstPacket = HTC_GET_PKT_AT_HEAD(pPktQueue);
}
/* Makes a buffer available to the HTC module */
-A_STATUS HTCAddReceivePkt(HTC_HANDLE HTCHandle, HTC_PACKET *pPacket)
+int HTCAddReceivePkt(HTC_HANDLE HTCHandle, HTC_PACKET *pPacket)
{
HTC_PACKET_QUEUE queue;
INIT_HTC_PACKET_QUEUE_AND_ADD(&queue,pPacket);
return HTC_PACKET_QUEUE_DEPTH(&(target->EndPoint[Endpoint].RxBuffers));
}
-A_STATUS HTCWaitForPendingRecv(HTC_HANDLE HTCHandle,
+int HTCWaitForPendingRecv(HTC_HANDLE HTCHandle,
A_UINT32 TimeoutInMs,
A_BOOL *pbIsRecvPending)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(HTCHandle);
status = DevWaitForPendingRecv(&target->Device,
DO_EP_TX_COMPLETION(pEndpoint,&container);
}
-A_STATUS HTCIssueSend(HTC_TARGET *target, HTC_PACKET *pPacket)
+int HTCIssueSend(HTC_TARGET *target, HTC_PACKET *pPacket)
{
- A_STATUS status;
+ int status;
A_BOOL sync = FALSE;
if (pPacket->Completion == NULL) {
HTC_PACKET *pPacket;
HTC_ENDPOINT *pEndpoint = (HTC_ENDPOINT *)pScatterReq->Context;
HTC_TARGET *target = (HTC_TARGET *)pEndpoint->target;
- A_STATUS status = A_OK;
+ int status = A_OK;
HTC_PACKET_QUEUE sendCompletes;
INIT_HTC_PACKET_QUEUE(&sendCompletes);
return HTC_SEND_QUEUE_OK;
}
-A_STATUS HTCSendPktsMultiple(HTC_HANDLE HTCHandle, HTC_PACKET_QUEUE *pPktQueue)
+int HTCSendPktsMultiple(HTC_HANDLE HTCHandle, HTC_PACKET_QUEUE *pPktQueue)
{
HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(HTCHandle);
HTC_ENDPOINT *pEndpoint;
}
/* HTC API - HTCSendPkt */
-A_STATUS HTCSendPkt(HTC_HANDLE HTCHandle, HTC_PACKET *pPacket)
+int HTCSendPkt(HTC_HANDLE HTCHandle, HTC_PACKET *pPacket)
{
HTC_PACKET_QUEUE queue;
HTC_RECYCLE_RX_PKT((HTC_TARGET*)Context,pPacket,&((HTC_TARGET*)Context)->EndPoint[0]);
}
-A_STATUS HTCSendSetupComplete(HTC_TARGET *target)
+int HTCSendSetupComplete(HTC_TARGET *target)
{
HTC_PACKET *pSendPacket = NULL;
- A_STATUS status;
+ int status;
do {
/* allocate a packet to send to the target */
}
-A_STATUS HTCConnectService(HTC_HANDLE HTCHandle,
+int HTCConnectService(HTC_HANDLE HTCHandle,
HTC_SERVICE_CONNECT_REQ *pConnectReq,
HTC_SERVICE_CONNECT_RESP *pConnectResp)
{
HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(HTCHandle);
- A_STATUS status = A_OK;
+ int status = A_OK;
HTC_PACKET *pRecvPacket = NULL;
HTC_PACKET *pSendPacket = NULL;
HTC_CONNECT_SERVICE_RESPONSE_MSG *pResponseMsg;
#endif
-A_STATUS a_get_module_mask(A_CHAR *module_name, A_UINT32 *pMask);
-A_STATUS a_set_module_mask(A_CHAR *module_name, A_UINT32 Mask);
+int a_get_module_mask(A_CHAR *module_name, A_UINT32 *pMask);
+int a_set_module_mask(A_CHAR *module_name, A_UINT32 Mask);
void a_dump_module_debug_info_by_name(A_CHAR *module_name);
void a_module_debug_support_init(void);
void a_module_debug_support_cleanup(void);
A_UINT8 bdaddr[6]; /* Bluetooth device address */
} AR3K_CONFIG_INFO;
-A_STATUS AR3KConfigure(AR3K_CONFIG_INFO *pConfigInfo);
+int AR3KConfigure(AR3K_CONFIG_INFO *pConfigInfo);
-A_STATUS AR3KConfigureExit(void *config);
+int AR3KConfigureExit(void *config);
#ifdef __cplusplus
}
#define AR6000_DIAG_H_
-A_STATUS
+int
ar6000_ReadRegDiag(HIF_DEVICE *hifDevice, A_UINT32 *address, A_UINT32 *data);
-A_STATUS
+int
ar6000_WriteRegDiag(HIF_DEVICE *hifDevice, A_UINT32 *address, A_UINT32 *data);
-A_STATUS
+int
ar6000_ReadDataDiag(HIF_DEVICE *hifDevice, A_UINT32 address,
A_UCHAR *data, A_UINT32 length);
-A_STATUS
+int
ar6000_WriteDataDiag(HIF_DEVICE *hifDevice, A_UINT32 address,
A_UCHAR *data, A_UINT32 length);
-A_STATUS
+int
ar6k_ReadTargetRegister(HIF_DEVICE *hifDevice, int regsel, A_UINT32 *regval);
void
void
BMICleanup(void);
-A_STATUS
+int
BMIDone(HIF_DEVICE *device);
-A_STATUS
+int
BMIGetTargetInfo(HIF_DEVICE *device, struct bmi_target_info *targ_info);
-A_STATUS
+int
BMIReadMemory(HIF_DEVICE *device,
A_UINT32 address,
A_UCHAR *buffer,
A_UINT32 length);
-A_STATUS
+int
BMIWriteMemory(HIF_DEVICE *device,
A_UINT32 address,
A_UCHAR *buffer,
A_UINT32 length);
-A_STATUS
+int
BMIExecute(HIF_DEVICE *device,
A_UINT32 address,
A_UINT32 *param);
-A_STATUS
+int
BMISetAppStart(HIF_DEVICE *device,
A_UINT32 address);
-A_STATUS
+int
BMIReadSOCRegister(HIF_DEVICE *device,
A_UINT32 address,
A_UINT32 *param);
-A_STATUS
+int
BMIWriteSOCRegister(HIF_DEVICE *device,
A_UINT32 address,
A_UINT32 param);
-A_STATUS
+int
BMIrompatchInstall(HIF_DEVICE *device,
A_UINT32 ROM_addr,
A_UINT32 RAM_addr,
A_UINT32 do_activate,
A_UINT32 *patch_id);
-A_STATUS
+int
BMIrompatchUninstall(HIF_DEVICE *device,
A_UINT32 rompatch_id);
-A_STATUS
+int
BMIrompatchActivate(HIF_DEVICE *device,
A_UINT32 rompatch_count,
A_UINT32 *rompatch_list);
-A_STATUS
+int
BMIrompatchDeactivate(HIF_DEVICE *device,
A_UINT32 rompatch_count,
A_UINT32 *rompatch_list);
-A_STATUS
+int
BMILZStreamStart(HIF_DEVICE *device,
A_UINT32 address);
-A_STATUS
+int
BMILZData(HIF_DEVICE *device,
A_UCHAR *buffer,
A_UINT32 length);
-A_STATUS
+int
BMIFastDownload(HIF_DEVICE *device,
A_UINT32 address,
A_UCHAR *buffer,
A_UINT32 length);
-A_STATUS
+int
BMIRawWrite(HIF_DEVICE *device,
A_UCHAR *buffer,
A_UINT32 length);
-A_STATUS
+int
BMIRawRead(HIF_DEVICE *device,
A_UCHAR *buffer,
A_UINT32 length,
/*
* Generic error codes that can be used by hw, sta, ap, sim, dk
- * and any other environments. Since these are enums, feel free to
- * add any more codes that you need.
+ * and any other environments.
+ * Feel free to add any more codes that you need.
*/
-typedef enum {
- A_ERROR = -1, /* Generic error return */
- A_OK = 0, /* success */
- /* Following values start at 1 */
- A_DEVICE_NOT_FOUND, /* not able to find PCI device */
- A_NO_MEMORY, /* not able to allocate memory, not available */
- A_MEMORY_NOT_AVAIL, /* memory region is not free for mapping */
- A_NO_FREE_DESC, /* no free descriptors available */
- A_BAD_ADDRESS, /* address does not match descriptor */
- A_WIN_DRIVER_ERROR, /* used in NT_HW version, if problem at init */
- A_REGS_NOT_MAPPED, /* registers not correctly mapped */
- A_EPERM, /* Not superuser */
- A_EACCES, /* Access denied */
- A_ENOENT, /* No such entry, search failed, etc. */
- A_EEXIST, /* The object already exists (can't create) */
- A_EFAULT, /* Bad address fault */
- A_EBUSY, /* Object is busy */
- A_EINVAL, /* Invalid parameter */
- A_EMSGSIZE, /* Inappropriate message buffer length */
- A_ECANCELED, /* Operation canceled */
- A_ENOTSUP, /* Operation not supported */
- A_ECOMM, /* Communication error on send */
- A_EPROTO, /* Protocol error */
- A_ENODEV, /* No such device */
- A_EDEVNOTUP, /* device is not UP */
- A_NO_RESOURCE, /* No resources for requested operation */
- A_HARDWARE, /* Hardware failure */
- A_PENDING, /* Asynchronous routine; will send up results la
-ter (typically in callback) */
- A_EBADCHANNEL, /* The channel cannot be used */
- A_DECRYPT_ERROR, /* Decryption error */
- A_PHY_ERROR, /* RX PHY error */
- A_CONSUMED /* Object was consumed */
-} A_STATUS;
+#define A_ERROR (-1) /* Generic error return */
+#define A_OK 0 /* success */
+#define A_DEVICE_NOT_FOUND 1 /* not able to find PCI device */
+#define A_NO_MEMORY 2 /* not able to allocate memory,
+ * not avail#defineable */
+#define A_MEMORY_NOT_AVAIL 3 /* memory region is not free for
+ * mapping */
+#define A_NO_FREE_DESC 4 /* no free descriptors available */
+#define A_BAD_ADDRESS 5 /* address does not match descriptor */
+#define A_WIN_DRIVER_ERROR 6 /* used in NT_HW version,
+ * if problem at init */
+#define A_REGS_NOT_MAPPED 7 /* registers not correctly mapped */
+#define A_EPERM 8 /* Not superuser */
+#define A_EACCES 0 /* Access denied */
+#define A_ENOENT 10 /* No such entry, search failed, etc. */
+#define A_EEXIST 11 /* The object already exists
+ * (can't create) */
+#define A_EFAULT 12 /* Bad address fault */
+#define A_EBUSY 13 /* Object is busy */
+#define A_EINVAL 14 /* Invalid parameter */
+#define A_EMSGSIZE 15 /* Bad message buffer length */
+#define A_ECANCELED 16 /* Operation canceled */
+#define A_ENOTSUP 17 /* Operation not supported */
+#define A_ECOMM 18 /* Communication error on send */
+#define A_EPROTO 19 /* Protocol error */
+#define A_ENODEV 20 /* No such device */
+#define A_EDEVNOTUP 21 /* device is not UP */
+#define A_NO_RESOURCE 22 /* No resources for
+ * requested operation */
+#define A_HARDWARE 23 /* Hardware failure */
+#define A_PENDING 24 /* Asynchronous routine; will send up
+ * results later
+ * (typically in callback) */
+#define A_EBADCHANNEL 25 /* The channel cannot be used */
+#define A_DECRYPT_ERROR 26 /* Decryption error */
+#define A_PHY_ERROR 27 /* RX PHY error */
+#define A_CONSUMED 28 /* Object was consumed */
#define A_SUCCESS(x) (x == A_OK)
#define A_FAILED(x) (!A_SUCCESS(x))
#endif
/* OS-independent APIs */
-A_STATUS ar6000_setup_credit_dist(HTC_HANDLE HTCHandle, COMMON_CREDIT_STATE_INFO *pCredInfo);
+int ar6000_setup_credit_dist(HTC_HANDLE HTCHandle, COMMON_CREDIT_STATE_INFO *pCredInfo);
-A_STATUS ar6000_ReadRegDiag(HIF_DEVICE *hifDevice, A_UINT32 *address, A_UINT32 *data);
+int ar6000_ReadRegDiag(HIF_DEVICE *hifDevice, A_UINT32 *address, A_UINT32 *data);
-A_STATUS ar6000_WriteRegDiag(HIF_DEVICE *hifDevice, A_UINT32 *address, A_UINT32 *data);
+int ar6000_WriteRegDiag(HIF_DEVICE *hifDevice, A_UINT32 *address, A_UINT32 *data);
-A_STATUS ar6000_ReadDataDiag(HIF_DEVICE *hifDevice, A_UINT32 address, A_UCHAR *data, A_UINT32 length);
+int ar6000_ReadDataDiag(HIF_DEVICE *hifDevice, A_UINT32 address, A_UCHAR *data, A_UINT32 length);
-A_STATUS ar6000_reset_device(HIF_DEVICE *hifDevice, A_UINT32 TargetType, A_BOOL waitForCompletion, A_BOOL coldReset);
+int ar6000_reset_device(HIF_DEVICE *hifDevice, A_UINT32 TargetType, A_BOOL waitForCompletion, A_BOOL coldReset);
void ar6000_dump_target_assert_info(HIF_DEVICE *hifDevice, A_UINT32 TargetType);
-A_STATUS ar6000_set_htc_params(HIF_DEVICE *hifDevice,
+int ar6000_set_htc_params(HIF_DEVICE *hifDevice,
A_UINT32 TargetType,
A_UINT32 MboxIsrYieldValue,
A_UINT8 HtcControlBuffers);
-A_STATUS ar6000_prepare_target(HIF_DEVICE *hifDevice,
+int ar6000_prepare_target(HIF_DEVICE *hifDevice,
A_UINT32 TargetType,
A_UINT32 TargetVersion);
-A_STATUS ar6000_set_hci_bridge_flags(HIF_DEVICE *hifDevice,
+int ar6000_set_hci_bridge_flags(HIF_DEVICE *hifDevice,
A_UINT32 TargetType,
A_UINT32 Flags);
A_UINT8 *ar6000_get_cust_data_buffer(A_UINT32 TargetType);
-A_STATUS ar6000_setBTState(void *context, A_UINT8 *pInBuf, A_UINT32 InBufSize);
+int ar6000_setBTState(void *context, A_UINT8 *pInBuf, A_UINT32 InBufSize);
-A_STATUS ar6000_setDevicePowerState(void *context, A_UINT8 *pInBuf, A_UINT32 InBufSize);
+int ar6000_setDevicePowerState(void *context, A_UINT8 *pInBuf, A_UINT32 InBufSize);
-A_STATUS ar6000_setWowMode(void *context, A_UINT8 *pInBuf, A_UINT32 InBufSize);
+int ar6000_setWowMode(void *context, A_UINT8 *pInBuf, A_UINT32 InBufSize);
-A_STATUS ar6000_setHostMode(void *context, A_UINT8 *pInBuf, A_UINT32 InBufSize);
+int ar6000_setHostMode(void *context, A_UINT8 *pInBuf, A_UINT32 InBufSize);
#ifdef __cplusplus
}
#endif
/* Called to send a DataSet Open Reply back to the Target. */
-A_STATUS wmi_dset_open_reply(struct wmi_t *wmip,
+int wmi_dset_open_reply(struct wmi_t *wmip,
A_UINT32 status,
A_UINT32 access_cookie,
A_UINT32 size,
A_UINT32 targ_reply_arg);
/* Called to send a DataSet Data Reply back to the Target. */
-A_STATUS wmi_dset_data_reply(struct wmi_t *wmip,
+int wmi_dset_data_reply(struct wmi_t *wmip,
A_UINT32 status,
A_UINT8 *host_buf,
A_UINT32 length,
/*
* Send a command to the Target in order to change output on GPIO pins.
*/
-A_STATUS wmi_gpio_output_set(struct wmi_t *wmip,
+int wmi_gpio_output_set(struct wmi_t *wmip,
A_UINT32 set_mask,
A_UINT32 clear_mask,
A_UINT32 enable_mask,
/*
* Send a command to the Target requesting input state of GPIO pins.
*/
-A_STATUS wmi_gpio_input_get(struct wmi_t *wmip);
+int wmi_gpio_input_get(struct wmi_t *wmip);
/*
* Send a command to the Target to change the value of a GPIO register.
*/
-A_STATUS wmi_gpio_register_set(struct wmi_t *wmip,
+int wmi_gpio_register_set(struct wmi_t *wmip,
A_UINT32 gpioreg_id,
A_UINT32 value);
/*
* Send a command to the Target to fetch the value of a GPIO register.
*/
-A_STATUS wmi_gpio_register_get(struct wmi_t *wmip, A_UINT32 gpioreg_id);
+int wmi_gpio_register_get(struct wmi_t *wmip, A_UINT32 gpioreg_id);
/*
* Send a command to the Target, acknowledging some GPIO interrupts.
*/
-A_STATUS wmi_gpio_intr_ack(struct wmi_t *wmip, A_UINT32 ack_mask);
+int wmi_gpio_intr_ack(struct wmi_t *wmip, A_UINT32 ack_mask);
#endif /* _GPIO_API_H_ */
int EventRecvBufferWaterMark; /* low watermark to trigger recv refill */
int MaxSendQueueDepth; /* max number of packets in the single send queue */
void *pContext; /* context for all callbacks */
- void (*TransportFailure)(void *pContext, A_STATUS Status); /* transport failure callback */
- A_STATUS (*TransportReady)(HCI_TRANSPORT_HANDLE, HCI_TRANSPORT_PROPERTIES *,void *pContext); /* transport is ready */
+ void (*TransportFailure)(void *pContext, int Status); /* transport failure callback */
+ int (*TransportReady)(HCI_TRANSPORT_HANDLE, HCI_TRANSPORT_PROPERTIES *,void *pContext); /* transport is ready */
void (*TransportRemoved)(void *pContext); /* transport was removed */
/* packet processing callbacks */
HCI_TRANSPORT_SEND_PKT_COMPLETE pHCISendComplete;
@example:
@see also:
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/
-A_STATUS HCI_TransportAddReceivePkts(HCI_TRANSPORT_HANDLE HciTrans, HTC_PACKET_QUEUE *pQueue);
+int HCI_TransportAddReceivePkts(HCI_TRANSPORT_HANDLE HciTrans, HTC_PACKET_QUEUE *pQueue);
/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
@desc: Send an HCI packet packet
@example:
@see also:
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/
-A_STATUS HCI_TransportSendPkt(HCI_TRANSPORT_HANDLE HciTrans, HTC_PACKET *pPacket, A_BOOL Synchronous);
+int HCI_TransportSendPkt(HCI_TRANSPORT_HANDLE HciTrans, HTC_PACKET *pPacket, A_BOOL Synchronous);
/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
@example:
@see also:
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/
-A_STATUS HCI_TransportStart(HCI_TRANSPORT_HANDLE HciTrans);
+int HCI_TransportStart(HCI_TRANSPORT_HANDLE HciTrans);
/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
@desc: Enable or Disable Asynchronous Recv
@example:
@see also:
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/
-A_STATUS HCI_TransportEnableDisableAsyncRecv(HCI_TRANSPORT_HANDLE HciTrans, A_BOOL Enable);
+int HCI_TransportEnableDisableAsyncRecv(HCI_TRANSPORT_HANDLE HciTrans, A_BOOL Enable);
/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
@desc: Receive an event packet from the HCI transport synchronously using polling
@example:
@see also: HCI_TransportEnableDisableAsyncRecv
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/
-A_STATUS HCI_TransportRecvHCIEventSync(HCI_TRANSPORT_HANDLE HciTrans,
+int HCI_TransportRecvHCIEventSync(HCI_TRANSPORT_HANDLE HciTrans,
HTC_PACKET *pPacket,
int MaxPollMS);
@example:
@see also:
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/
-A_STATUS HCI_TransportSetBaudRate(HCI_TRANSPORT_HANDLE HciTrans, A_UINT32 Baud);
+int HCI_TransportSetBaudRate(HCI_TRANSPORT_HANDLE HciTrans, A_UINT32 Baud);
/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
@desc: Enable/Disable HCI Transport Power Management
@example:
@see also:
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/
-A_STATUS HCI_TransportEnablePowerMgmt(HCI_TRANSPORT_HANDLE HciTrans, A_BOOL Enable);
+int HCI_TransportEnablePowerMgmt(HCI_TRANSPORT_HANDLE HciTrans, A_BOOL Enable);
#ifdef __cplusplus
}
A_UINT32 TotalLength; /* total length of entire transfer */
A_UINT32 CallerFlags; /* caller specific flags can be stored here */
HIF_SCATTER_COMP_CB CompletionRoutine; /* completion routine set by caller */
- A_STATUS CompletionStatus; /* status of completion */
+ int CompletionStatus; /* status of completion */
void *Context; /* caller context for this request */
int ValidScatterEntries; /* number of valid entries set by caller */
HIF_SCATTER_METHOD ScatterMethod; /* scatter method handled by HIF */
typedef HIF_SCATTER_REQ * ( *HIF_ALLOCATE_SCATTER_REQUEST)(HIF_DEVICE *device);
typedef void ( *HIF_FREE_SCATTER_REQUEST)(HIF_DEVICE *device, HIF_SCATTER_REQ *request);
-typedef A_STATUS ( *HIF_READWRITE_SCATTER)(HIF_DEVICE *device, HIF_SCATTER_REQ *request);
+typedef int ( *HIF_READWRITE_SCATTER)(HIF_DEVICE *device, HIF_SCATTER_REQ *request);
typedef struct _HIF_DEVICE_SCATTER_SUPPORT_INFO {
/* information returned from HIF layer */
struct htc_callbacks {
void *context; /* context to pass to the dsrhandler
note : rwCompletionHandler is provided the context passed to HIFReadWrite */
- A_STATUS (* rwCompletionHandler)(void *rwContext, A_STATUS status);
- A_STATUS (* dsrHandler)(void *context);
+ int (* rwCompletionHandler)(void *rwContext, int status);
+ int (* dsrHandler)(void *context);
};
typedef struct osdrv_callbacks {
void *context; /* context to pass for all callbacks except deviceRemovedHandler
the deviceRemovedHandler is only called if the device is claimed */
- A_STATUS (* deviceInsertedHandler)(void *context, void *hif_handle);
- A_STATUS (* deviceRemovedHandler)(void *claimedContext, void *hif_handle);
- A_STATUS (* deviceSuspendHandler)(void *context);
- A_STATUS (* deviceResumeHandler)(void *context);
- A_STATUS (* deviceWakeupHandler)(void *context);
- A_STATUS (* devicePowerChangeHandler)(void *context, HIF_DEVICE_POWER_CHANGE_TYPE config);
+ int (* deviceInsertedHandler)(void *context, void *hif_handle);
+ int (* deviceRemovedHandler)(void *claimedContext, void *hif_handle);
+ int (* deviceSuspendHandler)(void *context);
+ int (* deviceResumeHandler)(void *context);
+ int (* deviceWakeupHandler)(void *context);
+ int (* devicePowerChangeHandler)(void *context, HIF_DEVICE_POWER_CHANGE_TYPE config);
} OSDRV_CALLBACKS;
#define HIF_OTHER_EVENTS (1 << 0) /* other interrupts (non-Recv) are pending, host
/* function to get pending events , some HIF modules use special mechanisms
* to detect packet available and other interrupts */
-typedef A_STATUS ( *HIF_PENDING_EVENTS_FUNC)(HIF_DEVICE *device,
+typedef int ( *HIF_PENDING_EVENTS_FUNC)(HIF_DEVICE *device,
HIF_PENDING_EVENTS_INFO *pEvents,
void *AsyncContext);
#define HIF_MASK_RECV TRUE
#define HIF_UNMASK_RECV FALSE
/* function to mask recv events */
-typedef A_STATUS ( *HIF_MASK_UNMASK_RECV_EVENT)(HIF_DEVICE *device,
+typedef int ( *HIF_MASK_UNMASK_RECV_EVENT)(HIF_DEVICE *device,
A_BOOL Mask,
void *AsyncContext);
* and to set OS driver callbacks (i.e. insertion/removal) to the HIF layer
*
*/
-A_STATUS HIFInit(OSDRV_CALLBACKS *callbacks);
+int HIFInit(OSDRV_CALLBACKS *callbacks);
/* This API claims the HIF device and provides a context for handling removal.
* The device removal callback is only called when the OSDRV layer claims
void HIFReleaseDevice(HIF_DEVICE *device);
/* This API allows the HTC layer to attach to the HIF device */
-A_STATUS HIFAttachHTC(HIF_DEVICE *device, HTC_CALLBACKS *callbacks);
+int HIFAttachHTC(HIF_DEVICE *device, HTC_CALLBACKS *callbacks);
/* This API detaches the HTC layer from the HIF device */
void HIFDetachHTC(HIF_DEVICE *device);
* length - Amount of data to be transmitted or received.
* request - Characterizes the attributes of the command.
*/
-A_STATUS
+int
HIFReadWrite(HIF_DEVICE *device,
A_UINT32 address,
A_UCHAR *buffer,
int HIFRWCompleteEventNotify(void);
#endif
-A_STATUS
+int
HIFConfigureDevice(HIF_DEVICE *device, HIF_DEVICE_CONFIG_OPCODE opcode,
void *config, A_UINT32 configLen);
* This API wait for the remaining MBOX messages to be drained
* This should be moved to HTC AR6K layer
*/
-A_STATUS hifWaitForPendingRecv(HIF_DEVICE *device);
+int hifWaitForPendingRecv(HIF_DEVICE *device);
#ifdef __cplusplus
}
typedef struct _HTC_INIT_INFO {
void *pContext; /* context for target failure notification */
- void (*TargetFailure)(void *Instance, A_STATUS Status);
+ void (*TargetFailure)(void *Instance, int Status);
} HTC_INIT_INFO;
/* per service connection send completion */
@example:
@see also: HTCConnectService
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/
-A_STATUS HTCWaitTarget(HTC_HANDLE HTCHandle);
+int HTCWaitTarget(HTC_HANDLE HTCHandle);
/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
@desc: Start target service communications
@function name: HTCStart
@example:
@see also: HTCConnectService
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/
-A_STATUS HTCStart(HTC_HANDLE HTCHandle);
+int HTCStart(HTC_HANDLE HTCHandle);
/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
@desc: Add receive packet to HTC
@function name: HTCAddReceivePkt
@example:
@see also:
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/
-A_STATUS HTCAddReceivePkt(HTC_HANDLE HTCHandle, HTC_PACKET *pPacket);
+int HTCAddReceivePkt(HTC_HANDLE HTCHandle, HTC_PACKET *pPacket);
/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
@desc: Connect to an HTC service
@function name: HTCConnectService
@example:
@see also: HTCStart
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/
-A_STATUS HTCConnectService(HTC_HANDLE HTCHandle,
+int HTCConnectService(HTC_HANDLE HTCHandle,
HTC_SERVICE_CONNECT_REQ *pReq,
HTC_SERVICE_CONNECT_RESP *pResp);
/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
@example:
@see also: HTCFlushEndpoint
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/
-A_STATUS HTCSendPkt(HTC_HANDLE HTCHandle, HTC_PACKET *pPacket);
+int HTCSendPkt(HTC_HANDLE HTCHandle, HTC_PACKET *pPacket);
/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
@desc: Stop HTC service communications
@function name: HTCStop
@example:
@see also: HTCFlushEndpoint
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/
-A_STATUS HTCSendPktsMultiple(HTC_HANDLE HTCHandle, HTC_PACKET_QUEUE *pPktQueue);
+int HTCSendPktsMultiple(HTC_HANDLE HTCHandle, HTC_PACKET_QUEUE *pPktQueue);
/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
@desc: Add multiple receive packets to HTC
@example:
@see also:
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/
-A_STATUS HTCAddReceivePktMultiple(HTC_HANDLE HTCHandle, HTC_PACKET_QUEUE *pPktQueue);
+int HTCAddReceivePktMultiple(HTC_HANDLE HTCHandle, HTC_PACKET_QUEUE *pPktQueue);
/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
@desc: Check if an endpoint is marked active
/* internally used functions for testing... */
void HTCEnableRecv(HTC_HANDLE HTCHandle);
void HTCDisableRecv(HTC_HANDLE HTCHandle);
-A_STATUS HTCWaitForPendingRecv(HTC_HANDLE HTCHandle,
+int HTCWaitForPendingRecv(HTC_HANDLE HTCHandle,
A_UINT32 TimeoutInMs,
A_BOOL *pbIsRecvPending);
A_UINT32 BufferLength; /* length of buffer */
A_UINT32 ActualLength; /* actual length of payload */
HTC_ENDPOINT_ID Endpoint; /* endpoint that this packet was sent/recv'd from */
- A_STATUS Status; /* completion status */
+ int Status; /* completion status */
union {
HTC_TX_PACKET_INFO AsTx; /* Tx Packet specific info */
HTC_RX_PACKET_INFO AsRx; /* Rx Packet specific info */
void wlan_node_table_reset(struct ieee80211_node_table *nt);
void wlan_node_table_cleanup(struct ieee80211_node_table *nt);
-A_STATUS wlan_parse_beacon(A_UINT8 *buf, int framelen,
+int wlan_parse_beacon(A_UINT8 *buf, int framelen,
struct ieee80211_common_ie *cie);
A_UINT16 wlan_ieee2freq(int chan);
HTC_ENDPOINT_ID wmi_get_control_ep(struct wmi_t * wmip);
void wmi_set_control_ep(struct wmi_t * wmip, HTC_ENDPOINT_ID eid);
A_UINT16 wmi_get_mapped_qos_queue(struct wmi_t *, A_UINT8);
-A_STATUS wmi_dix_2_dot3(struct wmi_t *wmip, void *osbuf);
-A_STATUS wmi_data_hdr_add(struct wmi_t *wmip, void *osbuf, A_UINT8 msgType, A_BOOL bMoreData, WMI_DATA_HDR_DATA_TYPE data_type,A_UINT8 metaVersion, void *pTxMetaS);
-A_STATUS wmi_dot3_2_dix(void *osbuf);
+int wmi_dix_2_dot3(struct wmi_t *wmip, void *osbuf);
+int wmi_data_hdr_add(struct wmi_t *wmip, void *osbuf, A_UINT8 msgType, A_BOOL bMoreData, WMI_DATA_HDR_DATA_TYPE data_type,A_UINT8 metaVersion, void *pTxMetaS);
+int wmi_dot3_2_dix(void *osbuf);
-A_STATUS wmi_dot11_hdr_remove (struct wmi_t *wmip, void *osbuf);
-A_STATUS wmi_dot11_hdr_add(struct wmi_t *wmip, void *osbuf, NETWORK_TYPE mode);
+int wmi_dot11_hdr_remove (struct wmi_t *wmip, void *osbuf);
+int wmi_dot11_hdr_add(struct wmi_t *wmip, void *osbuf, NETWORK_TYPE mode);
-A_STATUS wmi_data_hdr_remove(struct wmi_t *wmip, void *osbuf);
-A_STATUS wmi_syncpoint(struct wmi_t *wmip);
-A_STATUS wmi_syncpoint_reset(struct wmi_t *wmip);
+int wmi_data_hdr_remove(struct wmi_t *wmip, void *osbuf);
+int wmi_syncpoint(struct wmi_t *wmip);
+int wmi_syncpoint_reset(struct wmi_t *wmip);
A_UINT8 wmi_implicit_create_pstream(struct wmi_t *wmip, void *osbuf, A_UINT32 layer2Priority, A_BOOL wmmEnabled);
A_UINT8 wmi_determine_userPriority (A_UINT8 *pkt, A_UINT32 layer2Pri);
-A_STATUS wmi_control_rx(struct wmi_t *wmip, void *osbuf);
+int wmi_control_rx(struct wmi_t *wmip, void *osbuf);
void wmi_iterate_nodes(struct wmi_t *wmip, wlan_node_iter_func *f, void *arg);
void wmi_free_allnodes(struct wmi_t *wmip);
bss_t *wmi_find_node(struct wmi_t *wmip, const A_UINT8 *macaddr);
END_WMIFLAG /* end marker */
} WMI_SYNC_FLAG;
-A_STATUS wmi_cmd_send(struct wmi_t *wmip, void *osbuf, WMI_COMMAND_ID cmdId,
+int wmi_cmd_send(struct wmi_t *wmip, void *osbuf, WMI_COMMAND_ID cmdId,
WMI_SYNC_FLAG flag);
-A_STATUS wmi_connect_cmd(struct wmi_t *wmip,
+int wmi_connect_cmd(struct wmi_t *wmip,
NETWORK_TYPE netType,
DOT11_AUTH_MODE dot11AuthMode,
AUTH_MODE authMode,
A_UINT16 channel,
A_UINT32 ctrl_flags);
-A_STATUS wmi_reconnect_cmd(struct wmi_t *wmip,
+int wmi_reconnect_cmd(struct wmi_t *wmip,
A_UINT8 *bssid,
A_UINT16 channel);
-A_STATUS wmi_disconnect_cmd(struct wmi_t *wmip);
-A_STATUS wmi_getrev_cmd(struct wmi_t *wmip);
-A_STATUS wmi_startscan_cmd(struct wmi_t *wmip, WMI_SCAN_TYPE scanType,
+int wmi_disconnect_cmd(struct wmi_t *wmip);
+int wmi_getrev_cmd(struct wmi_t *wmip);
+int wmi_startscan_cmd(struct wmi_t *wmip, WMI_SCAN_TYPE scanType,
A_BOOL forceFgScan, A_BOOL isLegacy,
A_UINT32 homeDwellTime, A_UINT32 forceScanInterval,
A_INT8 numChan, A_UINT16 *channelList);
-A_STATUS wmi_scanparams_cmd(struct wmi_t *wmip, A_UINT16 fg_start_sec,
+int wmi_scanparams_cmd(struct wmi_t *wmip, A_UINT16 fg_start_sec,
A_UINT16 fg_end_sec, A_UINT16 bg_sec,
A_UINT16 minact_chdw_msec,
A_UINT16 maxact_chdw_msec, A_UINT16 pas_chdw_msec,
A_UINT8 shScanRatio, A_UINT8 scanCtrlFlags,
A_UINT32 max_dfsch_act_time,
A_UINT16 maxact_scan_per_ssid);
-A_STATUS wmi_bssfilter_cmd(struct wmi_t *wmip, A_UINT8 filter, A_UINT32 ieMask);
-A_STATUS wmi_probedSsid_cmd(struct wmi_t *wmip, A_UINT8 index, A_UINT8 flag,
+int wmi_bssfilter_cmd(struct wmi_t *wmip, A_UINT8 filter, A_UINT32 ieMask);
+int wmi_probedSsid_cmd(struct wmi_t *wmip, A_UINT8 index, A_UINT8 flag,
A_UINT8 ssidLength, A_UCHAR *ssid);
-A_STATUS wmi_listeninterval_cmd(struct wmi_t *wmip, A_UINT16 listenInterval, A_UINT16 listenBeacons);
-A_STATUS wmi_bmisstime_cmd(struct wmi_t *wmip, A_UINT16 bmisstime, A_UINT16 bmissbeacons);
-A_STATUS wmi_associnfo_cmd(struct wmi_t *wmip, A_UINT8 ieType,
+int wmi_listeninterval_cmd(struct wmi_t *wmip, A_UINT16 listenInterval, A_UINT16 listenBeacons);
+int wmi_bmisstime_cmd(struct wmi_t *wmip, A_UINT16 bmisstime, A_UINT16 bmissbeacons);
+int wmi_associnfo_cmd(struct wmi_t *wmip, A_UINT8 ieType,
A_UINT8 ieLen, A_UINT8 *ieInfo);
-A_STATUS wmi_powermode_cmd(struct wmi_t *wmip, A_UINT8 powerMode);
-A_STATUS wmi_ibsspmcaps_cmd(struct wmi_t *wmip, A_UINT8 pmEnable, A_UINT8 ttl,
+int wmi_powermode_cmd(struct wmi_t *wmip, A_UINT8 powerMode);
+int wmi_ibsspmcaps_cmd(struct wmi_t *wmip, A_UINT8 pmEnable, A_UINT8 ttl,
A_UINT16 atim_windows, A_UINT16 timeout_value);
-A_STATUS wmi_apps_cmd(struct wmi_t *wmip, A_UINT8 psType, A_UINT32 idle_time,
+int wmi_apps_cmd(struct wmi_t *wmip, A_UINT8 psType, A_UINT32 idle_time,
A_UINT32 ps_period, A_UINT8 sleep_period);
-A_STATUS wmi_pmparams_cmd(struct wmi_t *wmip, A_UINT16 idlePeriod,
+int wmi_pmparams_cmd(struct wmi_t *wmip, A_UINT16 idlePeriod,
A_UINT16 psPollNum, A_UINT16 dtimPolicy,
A_UINT16 wakup_tx_policy, A_UINT16 num_tx_to_wakeup,
A_UINT16 ps_fail_event_policy);
-A_STATUS wmi_disctimeout_cmd(struct wmi_t *wmip, A_UINT8 timeout);
-A_STATUS wmi_sync_cmd(struct wmi_t *wmip, A_UINT8 syncNumber);
-A_STATUS wmi_create_pstream_cmd(struct wmi_t *wmip, WMI_CREATE_PSTREAM_CMD *pstream);
-A_STATUS wmi_delete_pstream_cmd(struct wmi_t *wmip, A_UINT8 trafficClass, A_UINT8 streamID);
-A_STATUS wmi_set_framerate_cmd(struct wmi_t *wmip, A_UINT8 bEnable, A_UINT8 type, A_UINT8 subType, A_UINT16 rateMask);
-A_STATUS wmi_set_bitrate_cmd(struct wmi_t *wmip, A_INT32 dataRate, A_INT32 mgmtRate, A_INT32 ctlRate);
-A_STATUS wmi_get_bitrate_cmd(struct wmi_t *wmip);
+int wmi_disctimeout_cmd(struct wmi_t *wmip, A_UINT8 timeout);
+int wmi_sync_cmd(struct wmi_t *wmip, A_UINT8 syncNumber);
+int wmi_create_pstream_cmd(struct wmi_t *wmip, WMI_CREATE_PSTREAM_CMD *pstream);
+int wmi_delete_pstream_cmd(struct wmi_t *wmip, A_UINT8 trafficClass, A_UINT8 streamID);
+int wmi_set_framerate_cmd(struct wmi_t *wmip, A_UINT8 bEnable, A_UINT8 type, A_UINT8 subType, A_UINT16 rateMask);
+int wmi_set_bitrate_cmd(struct wmi_t *wmip, A_INT32 dataRate, A_INT32 mgmtRate, A_INT32 ctlRate);
+int wmi_get_bitrate_cmd(struct wmi_t *wmip);
A_INT8 wmi_validate_bitrate(struct wmi_t *wmip, A_INT32 rate, A_INT8 *rate_idx);
-A_STATUS wmi_get_regDomain_cmd(struct wmi_t *wmip);
-A_STATUS wmi_get_channelList_cmd(struct wmi_t *wmip);
-A_STATUS wmi_set_channelParams_cmd(struct wmi_t *wmip, A_UINT8 scanParam,
+int wmi_get_regDomain_cmd(struct wmi_t *wmip);
+int wmi_get_channelList_cmd(struct wmi_t *wmip);
+int wmi_set_channelParams_cmd(struct wmi_t *wmip, A_UINT8 scanParam,
WMI_PHY_MODE mode, A_INT8 numChan,
A_UINT16 *channelList);
-A_STATUS wmi_set_snr_threshold_params(struct wmi_t *wmip,
+int wmi_set_snr_threshold_params(struct wmi_t *wmip,
WMI_SNR_THRESHOLD_PARAMS_CMD *snrCmd);
-A_STATUS wmi_set_rssi_threshold_params(struct wmi_t *wmip,
+int wmi_set_rssi_threshold_params(struct wmi_t *wmip,
WMI_RSSI_THRESHOLD_PARAMS_CMD *rssiCmd);
-A_STATUS wmi_clr_rssi_snr(struct wmi_t *wmip);
-A_STATUS wmi_set_lq_threshold_params(struct wmi_t *wmip,
+int wmi_clr_rssi_snr(struct wmi_t *wmip);
+int wmi_set_lq_threshold_params(struct wmi_t *wmip,
WMI_LQ_THRESHOLD_PARAMS_CMD *lqCmd);
-A_STATUS wmi_set_rts_cmd(struct wmi_t *wmip, A_UINT16 threshold);
-A_STATUS wmi_set_lpreamble_cmd(struct wmi_t *wmip, A_UINT8 status, A_UINT8 preamblePolicy);
+int wmi_set_rts_cmd(struct wmi_t *wmip, A_UINT16 threshold);
+int wmi_set_lpreamble_cmd(struct wmi_t *wmip, A_UINT8 status, A_UINT8 preamblePolicy);
-A_STATUS wmi_set_error_report_bitmask(struct wmi_t *wmip, A_UINT32 bitmask);
+int wmi_set_error_report_bitmask(struct wmi_t *wmip, A_UINT32 bitmask);
-A_STATUS wmi_get_challenge_resp_cmd(struct wmi_t *wmip, A_UINT32 cookie,
+int wmi_get_challenge_resp_cmd(struct wmi_t *wmip, A_UINT32 cookie,
A_UINT32 source);
-A_STATUS wmi_config_debug_module_cmd(struct wmi_t *wmip, A_UINT16 mmask,
+int wmi_config_debug_module_cmd(struct wmi_t *wmip, A_UINT16 mmask,
A_UINT16 tsr, A_BOOL rep, A_UINT16 size,
A_UINT32 valid);
-A_STATUS wmi_get_stats_cmd(struct wmi_t *wmip);
+int wmi_get_stats_cmd(struct wmi_t *wmip);
-A_STATUS wmi_addKey_cmd(struct wmi_t *wmip, A_UINT8 keyIndex,
+int wmi_addKey_cmd(struct wmi_t *wmip, A_UINT8 keyIndex,
CRYPTO_TYPE keyType, A_UINT8 keyUsage,
A_UINT8 keyLength,A_UINT8 *keyRSC,
A_UINT8 *keyMaterial, A_UINT8 key_op_ctrl, A_UINT8 *mac,
WMI_SYNC_FLAG sync_flag);
-A_STATUS wmi_add_krk_cmd(struct wmi_t *wmip, A_UINT8 *krk);
-A_STATUS wmi_delete_krk_cmd(struct wmi_t *wmip);
-A_STATUS wmi_deleteKey_cmd(struct wmi_t *wmip, A_UINT8 keyIndex);
-A_STATUS wmi_set_akmp_params_cmd(struct wmi_t *wmip,
+int wmi_add_krk_cmd(struct wmi_t *wmip, A_UINT8 *krk);
+int wmi_delete_krk_cmd(struct wmi_t *wmip);
+int wmi_deleteKey_cmd(struct wmi_t *wmip, A_UINT8 keyIndex);
+int wmi_set_akmp_params_cmd(struct wmi_t *wmip,
WMI_SET_AKMP_PARAMS_CMD *akmpParams);
-A_STATUS wmi_get_pmkid_list_cmd(struct wmi_t *wmip);
-A_STATUS wmi_set_pmkid_list_cmd(struct wmi_t *wmip,
+int wmi_get_pmkid_list_cmd(struct wmi_t *wmip);
+int wmi_set_pmkid_list_cmd(struct wmi_t *wmip,
WMI_SET_PMKID_LIST_CMD *pmkInfo);
-A_STATUS wmi_abort_scan_cmd(struct wmi_t *wmip);
-A_STATUS wmi_set_txPwr_cmd(struct wmi_t *wmip, A_UINT8 dbM);
-A_STATUS wmi_get_txPwr_cmd(struct wmi_t *wmip);
-A_STATUS wmi_addBadAp_cmd(struct wmi_t *wmip, A_UINT8 apIndex, A_UINT8 *bssid);
-A_STATUS wmi_deleteBadAp_cmd(struct wmi_t *wmip, A_UINT8 apIndex);
-A_STATUS wmi_set_tkip_countermeasures_cmd(struct wmi_t *wmip, A_BOOL en);
-A_STATUS wmi_setPmkid_cmd(struct wmi_t *wmip, A_UINT8 *bssid, A_UINT8 *pmkId,
+int wmi_abort_scan_cmd(struct wmi_t *wmip);
+int wmi_set_txPwr_cmd(struct wmi_t *wmip, A_UINT8 dbM);
+int wmi_get_txPwr_cmd(struct wmi_t *wmip);
+int wmi_addBadAp_cmd(struct wmi_t *wmip, A_UINT8 apIndex, A_UINT8 *bssid);
+int wmi_deleteBadAp_cmd(struct wmi_t *wmip, A_UINT8 apIndex);
+int wmi_set_tkip_countermeasures_cmd(struct wmi_t *wmip, A_BOOL en);
+int wmi_setPmkid_cmd(struct wmi_t *wmip, A_UINT8 *bssid, A_UINT8 *pmkId,
A_BOOL set);
-A_STATUS wmi_set_access_params_cmd(struct wmi_t *wmip, A_UINT8 ac, A_UINT16 txop,
+int wmi_set_access_params_cmd(struct wmi_t *wmip, A_UINT8 ac, A_UINT16 txop,
A_UINT8 eCWmin, A_UINT8 eCWmax,
A_UINT8 aifsn);
-A_STATUS wmi_set_retry_limits_cmd(struct wmi_t *wmip, A_UINT8 frameType,
+int wmi_set_retry_limits_cmd(struct wmi_t *wmip, A_UINT8 frameType,
A_UINT8 trafficClass, A_UINT8 maxRetries,
A_UINT8 enableNotify);
void wmi_get_current_bssid(struct wmi_t *wmip, A_UINT8 *bssid);
-A_STATUS wmi_get_roam_tbl_cmd(struct wmi_t *wmip);
-A_STATUS wmi_get_roam_data_cmd(struct wmi_t *wmip, A_UINT8 roamDataType);
-A_STATUS wmi_set_roam_ctrl_cmd(struct wmi_t *wmip, WMI_SET_ROAM_CTRL_CMD *p,
+int wmi_get_roam_tbl_cmd(struct wmi_t *wmip);
+int wmi_get_roam_data_cmd(struct wmi_t *wmip, A_UINT8 roamDataType);
+int wmi_set_roam_ctrl_cmd(struct wmi_t *wmip, WMI_SET_ROAM_CTRL_CMD *p,
A_UINT8 size);
-A_STATUS wmi_set_powersave_timers_cmd(struct wmi_t *wmip,
+int wmi_set_powersave_timers_cmd(struct wmi_t *wmip,
WMI_POWERSAVE_TIMERS_POLICY_CMD *pCmd,
A_UINT8 size);
-A_STATUS wmi_set_opt_mode_cmd(struct wmi_t *wmip, A_UINT8 optMode);
-A_STATUS wmi_opt_tx_frame_cmd(struct wmi_t *wmip,
+int wmi_set_opt_mode_cmd(struct wmi_t *wmip, A_UINT8 optMode);
+int wmi_opt_tx_frame_cmd(struct wmi_t *wmip,
A_UINT8 frmType,
A_UINT8 *dstMacAddr,
A_UINT8 *bssid,
A_UINT16 optIEDataLen,
A_UINT8 *optIEData);
-A_STATUS wmi_set_adhoc_bconIntvl_cmd(struct wmi_t *wmip, A_UINT16 intvl);
-A_STATUS wmi_set_voice_pkt_size_cmd(struct wmi_t *wmip, A_UINT16 voicePktSize);
-A_STATUS wmi_set_max_sp_len_cmd(struct wmi_t *wmip, A_UINT8 maxSpLen);
+int wmi_set_adhoc_bconIntvl_cmd(struct wmi_t *wmip, A_UINT16 intvl);
+int wmi_set_voice_pkt_size_cmd(struct wmi_t *wmip, A_UINT16 voicePktSize);
+int wmi_set_max_sp_len_cmd(struct wmi_t *wmip, A_UINT8 maxSpLen);
A_UINT8 convert_userPriority_to_trafficClass(A_UINT8 userPriority);
A_UINT8 wmi_get_power_mode_cmd(struct wmi_t *wmip);
-A_STATUS wmi_verify_tspec_params(WMI_CREATE_PSTREAM_CMD *pCmd, A_BOOL tspecCompliance);
+int wmi_verify_tspec_params(WMI_CREATE_PSTREAM_CMD *pCmd, A_BOOL tspecCompliance);
#ifdef CONFIG_HOST_TCMD_SUPPORT
-A_STATUS wmi_test_cmd(struct wmi_t *wmip, A_UINT8 *buf, A_UINT32 len);
+int wmi_test_cmd(struct wmi_t *wmip, A_UINT8 *buf, A_UINT32 len);
#endif
-A_STATUS wmi_set_bt_status_cmd(struct wmi_t *wmip, A_UINT8 streamType, A_UINT8 status);
-A_STATUS wmi_set_bt_params_cmd(struct wmi_t *wmip, WMI_SET_BT_PARAMS_CMD* cmd);
+int wmi_set_bt_status_cmd(struct wmi_t *wmip, A_UINT8 streamType, A_UINT8 status);
+int wmi_set_bt_params_cmd(struct wmi_t *wmip, WMI_SET_BT_PARAMS_CMD* cmd);
-A_STATUS wmi_set_btcoex_fe_ant_cmd(struct wmi_t *wmip, WMI_SET_BTCOEX_FE_ANT_CMD * cmd);
+int wmi_set_btcoex_fe_ant_cmd(struct wmi_t *wmip, WMI_SET_BTCOEX_FE_ANT_CMD * cmd);
-A_STATUS wmi_set_btcoex_colocated_bt_dev_cmd(struct wmi_t *wmip,
+int wmi_set_btcoex_colocated_bt_dev_cmd(struct wmi_t *wmip,
WMI_SET_BTCOEX_COLOCATED_BT_DEV_CMD * cmd);
-A_STATUS wmi_set_btcoex_btinquiry_page_config_cmd(struct wmi_t *wmip,
+int wmi_set_btcoex_btinquiry_page_config_cmd(struct wmi_t *wmip,
WMI_SET_BTCOEX_BTINQUIRY_PAGE_CONFIG_CMD *cmd);
-A_STATUS wmi_set_btcoex_sco_config_cmd(struct wmi_t *wmip,
+int wmi_set_btcoex_sco_config_cmd(struct wmi_t *wmip,
WMI_SET_BTCOEX_SCO_CONFIG_CMD * cmd);
-A_STATUS wmi_set_btcoex_a2dp_config_cmd(struct wmi_t *wmip,
+int wmi_set_btcoex_a2dp_config_cmd(struct wmi_t *wmip,
WMI_SET_BTCOEX_A2DP_CONFIG_CMD* cmd);
-A_STATUS wmi_set_btcoex_aclcoex_config_cmd(struct wmi_t *wmip, WMI_SET_BTCOEX_ACLCOEX_CONFIG_CMD* cmd);
+int wmi_set_btcoex_aclcoex_config_cmd(struct wmi_t *wmip, WMI_SET_BTCOEX_ACLCOEX_CONFIG_CMD* cmd);
-A_STATUS wmi_set_btcoex_debug_cmd(struct wmi_t *wmip, WMI_SET_BTCOEX_DEBUG_CMD * cmd);
+int wmi_set_btcoex_debug_cmd(struct wmi_t *wmip, WMI_SET_BTCOEX_DEBUG_CMD * cmd);
-A_STATUS wmi_set_btcoex_bt_operating_status_cmd(struct wmi_t * wmip,
+int wmi_set_btcoex_bt_operating_status_cmd(struct wmi_t * wmip,
WMI_SET_BTCOEX_BT_OPERATING_STATUS_CMD * cmd);
-A_STATUS wmi_get_btcoex_config_cmd(struct wmi_t * wmip, WMI_GET_BTCOEX_CONFIG_CMD * cmd);
+int wmi_get_btcoex_config_cmd(struct wmi_t * wmip, WMI_GET_BTCOEX_CONFIG_CMD * cmd);
-A_STATUS wmi_get_btcoex_stats_cmd(struct wmi_t * wmip);
+int wmi_get_btcoex_stats_cmd(struct wmi_t * wmip);
-A_STATUS wmi_SGI_cmd(struct wmi_t *wmip, A_UINT32 sgiMask, A_UINT8 sgiPERThreshold);
+int wmi_SGI_cmd(struct wmi_t *wmip, A_UINT32 sgiMask, A_UINT8 sgiPERThreshold);
/*
* This function is used to configure the fix rates mask to the target.
*/
-A_STATUS wmi_set_fixrates_cmd(struct wmi_t *wmip, A_UINT32 fixRatesMask);
-A_STATUS wmi_get_ratemask_cmd(struct wmi_t *wmip);
+int wmi_set_fixrates_cmd(struct wmi_t *wmip, A_UINT32 fixRatesMask);
+int wmi_get_ratemask_cmd(struct wmi_t *wmip);
-A_STATUS wmi_set_authmode_cmd(struct wmi_t *wmip, A_UINT8 mode);
+int wmi_set_authmode_cmd(struct wmi_t *wmip, A_UINT8 mode);
-A_STATUS wmi_set_reassocmode_cmd(struct wmi_t *wmip, A_UINT8 mode);
+int wmi_set_reassocmode_cmd(struct wmi_t *wmip, A_UINT8 mode);
-A_STATUS wmi_set_qos_supp_cmd(struct wmi_t *wmip,A_UINT8 status);
-A_STATUS wmi_set_wmm_cmd(struct wmi_t *wmip, WMI_WMM_STATUS status);
-A_STATUS wmi_set_wmm_txop(struct wmi_t *wmip, WMI_TXOP_CFG txEnable);
-A_STATUS wmi_set_country(struct wmi_t *wmip, A_UCHAR *countryCode);
+int wmi_set_qos_supp_cmd(struct wmi_t *wmip,A_UINT8 status);
+int wmi_set_wmm_cmd(struct wmi_t *wmip, WMI_WMM_STATUS status);
+int wmi_set_wmm_txop(struct wmi_t *wmip, WMI_TXOP_CFG txEnable);
+int wmi_set_country(struct wmi_t *wmip, A_UCHAR *countryCode);
-A_STATUS wmi_get_keepalive_configured(struct wmi_t *wmip);
+int wmi_get_keepalive_configured(struct wmi_t *wmip);
A_UINT8 wmi_get_keepalive_cmd(struct wmi_t *wmip);
-A_STATUS wmi_set_keepalive_cmd(struct wmi_t *wmip, A_UINT8 keepaliveInterval);
+int wmi_set_keepalive_cmd(struct wmi_t *wmip, A_UINT8 keepaliveInterval);
-A_STATUS wmi_set_appie_cmd(struct wmi_t *wmip, A_UINT8 mgmtFrmType,
+int wmi_set_appie_cmd(struct wmi_t *wmip, A_UINT8 mgmtFrmType,
A_UINT8 ieLen,A_UINT8 *ieInfo);
-A_STATUS wmi_set_halparam_cmd(struct wmi_t *wmip, A_UINT8 *cmd, A_UINT16 dataLen);
+int wmi_set_halparam_cmd(struct wmi_t *wmip, A_UINT8 *cmd, A_UINT16 dataLen);
A_INT32 wmi_get_rate(A_INT8 rateindex);
-A_STATUS wmi_set_ip_cmd(struct wmi_t *wmip, WMI_SET_IP_CMD *cmd);
+int wmi_set_ip_cmd(struct wmi_t *wmip, WMI_SET_IP_CMD *cmd);
/*Wake on Wireless WMI commands*/
-A_STATUS wmi_set_host_sleep_mode_cmd(struct wmi_t *wmip, WMI_SET_HOST_SLEEP_MODE_CMD *cmd);
-A_STATUS wmi_set_wow_mode_cmd(struct wmi_t *wmip, WMI_SET_WOW_MODE_CMD *cmd);
-A_STATUS wmi_get_wow_list_cmd(struct wmi_t *wmip, WMI_GET_WOW_LIST_CMD *cmd);
-A_STATUS wmi_add_wow_pattern_cmd(struct wmi_t *wmip,
+int wmi_set_host_sleep_mode_cmd(struct wmi_t *wmip, WMI_SET_HOST_SLEEP_MODE_CMD *cmd);
+int wmi_set_wow_mode_cmd(struct wmi_t *wmip, WMI_SET_WOW_MODE_CMD *cmd);
+int wmi_get_wow_list_cmd(struct wmi_t *wmip, WMI_GET_WOW_LIST_CMD *cmd);
+int wmi_add_wow_pattern_cmd(struct wmi_t *wmip,
WMI_ADD_WOW_PATTERN_CMD *cmd, A_UINT8* pattern, A_UINT8* mask, A_UINT8 pattern_size);
-A_STATUS wmi_del_wow_pattern_cmd(struct wmi_t *wmip,
+int wmi_del_wow_pattern_cmd(struct wmi_t *wmip,
WMI_DEL_WOW_PATTERN_CMD *cmd);
-A_STATUS wmi_set_wsc_status_cmd(struct wmi_t *wmip, A_UINT32 status);
+int wmi_set_wsc_status_cmd(struct wmi_t *wmip, A_UINT32 status);
-A_STATUS
+int
wmi_set_params_cmd(struct wmi_t *wmip, A_UINT32 opcode, A_UINT32 length, A_CHAR* buffer);
-A_STATUS
+int
wmi_set_mcast_filter_cmd(struct wmi_t *wmip, A_UINT8 dot1, A_UINT8 dot2, A_UINT8 dot3, A_UINT8 dot4);
-A_STATUS
+int
wmi_del_mcast_filter_cmd(struct wmi_t *wmip, A_UINT8 dot1, A_UINT8 dot2, A_UINT8 dot3, A_UINT8 dot4);
-A_STATUS
+int
wmi_mcast_filter_cmd(struct wmi_t *wmip, A_UINT8 enable);
bss_t *
wmi_set_nodeage(struct wmi_t *wmip, A_UINT32 nodeAge);
#if defined(CONFIG_TARGET_PROFILE_SUPPORT)
-A_STATUS wmi_prof_cfg_cmd(struct wmi_t *wmip, A_UINT32 period, A_UINT32 nbins);
-A_STATUS wmi_prof_addr_set_cmd(struct wmi_t *wmip, A_UINT32 addr);
-A_STATUS wmi_prof_start_cmd(struct wmi_t *wmip);
-A_STATUS wmi_prof_stop_cmd(struct wmi_t *wmip);
-A_STATUS wmi_prof_count_get_cmd(struct wmi_t *wmip);
+int wmi_prof_cfg_cmd(struct wmi_t *wmip, A_UINT32 period, A_UINT32 nbins);
+int wmi_prof_addr_set_cmd(struct wmi_t *wmip, A_UINT32 addr);
+int wmi_prof_start_cmd(struct wmi_t *wmip);
+int wmi_prof_stop_cmd(struct wmi_t *wmip);
+int wmi_prof_count_get_cmd(struct wmi_t *wmip);
#endif /* CONFIG_TARGET_PROFILE_SUPPORT */
#ifdef OS_ROAM_MANAGEMENT
void wmi_scan_indication (struct wmi_t *wmip);
#endif
-A_STATUS
+int
wmi_set_target_event_report_cmd(struct wmi_t *wmip, WMI_SET_TARGET_EVENT_REPORT_CMD* cmd);
bss_t *wmi_rm_current_bss (struct wmi_t *wmip, A_UINT8 *id);
-A_STATUS wmi_add_current_bss (struct wmi_t *wmip, A_UINT8 *id, bss_t *bss);
+int wmi_add_current_bss (struct wmi_t *wmip, A_UINT8 *id, bss_t *bss);
/*
* AP mode
*/
-A_STATUS
+int
wmi_ap_profile_commit(struct wmi_t *wmip, WMI_CONNECT_CMD *p);
-A_STATUS
+int
wmi_ap_set_hidden_ssid(struct wmi_t *wmip, A_UINT8 hidden_ssid);
-A_STATUS
+int
wmi_ap_set_num_sta(struct wmi_t *wmip, A_UINT8 num_sta);
-A_STATUS
+int
wmi_ap_set_acl_policy(struct wmi_t *wmip, A_UINT8 policy);
-A_STATUS
+int
wmi_ap_acl_mac_list(struct wmi_t *wmip, WMI_AP_ACL_MAC_CMD *a);
A_UINT8
acl_add_del_mac(WMI_AP_ACL *a, WMI_AP_ACL_MAC_CMD *acl);
-A_STATUS
+int
wmi_ap_set_mlme(struct wmi_t *wmip, A_UINT8 cmd, A_UINT8 *mac, A_UINT16 reason);
-A_STATUS
+int
wmi_set_pvb_cmd(struct wmi_t *wmip, A_UINT16 aid, A_BOOL flag);
-A_STATUS
+int
wmi_ap_conn_inact_time(struct wmi_t *wmip, A_UINT32 period);
-A_STATUS
+int
wmi_ap_bgscan_time(struct wmi_t *wmip, A_UINT32 period, A_UINT32 dwell);
-A_STATUS
+int
wmi_ap_set_dtim(struct wmi_t *wmip, A_UINT8 dtim);
-A_STATUS
+int
wmi_ap_set_rateset(struct wmi_t *wmip, A_UINT8 rateset);
-A_STATUS
+int
wmi_set_ht_cap_cmd(struct wmi_t *wmip, WMI_SET_HT_CAP_CMD *cmd);
-A_STATUS
+int
wmi_set_ht_op_cmd(struct wmi_t *wmip, A_UINT8 sta_chan_width);
-A_STATUS
+int
wmi_send_hci_cmd(struct wmi_t *wmip, A_UINT8 *buf, A_UINT16 sz);
-A_STATUS
+int
wmi_set_tx_select_rates_cmd(struct wmi_t *wmip, A_UINT32 *pMaskArray);
-A_STATUS
+int
wmi_setup_aggr_cmd(struct wmi_t *wmip, A_UINT8 tid);
-A_STATUS
+int
wmi_delete_aggr_cmd(struct wmi_t *wmip, A_UINT8 tid, A_BOOL uplink);
-A_STATUS
+int
wmi_allow_aggr_cmd(struct wmi_t *wmip, A_UINT16 tx_tidmask, A_UINT16 rx_tidmask);
-A_STATUS
+int
wmi_set_rx_frame_format_cmd(struct wmi_t *wmip, A_UINT8 rxMetaVersion, A_BOOL rxDot11Hdr, A_BOOL defragOnHost);
-A_STATUS
+int
wmi_set_thin_mode_cmd(struct wmi_t *wmip, A_BOOL bThinMode);
-A_STATUS
+int
wmi_set_wlan_conn_precedence_cmd(struct wmi_t *wmip, BT_WLAN_CONN_PRECEDENCE precedence);
-A_STATUS
+int
wmi_set_pmk_cmd(struct wmi_t *wmip, A_UINT8 *pmk);
A_UINT16
#define HCI_MAX_EVT_RECV_LENGTH 257
#define EXIT_MIN_BOOT_COMMAND_STATUS_OFFSET 5
-A_STATUS AthPSInitialize(AR3K_CONFIG_INFO *hdev);
+int AthPSInitialize(AR3K_CONFIG_INFO *hdev);
-static A_STATUS SendHCICommand(AR3K_CONFIG_INFO *pConfig,
+static int SendHCICommand(AR3K_CONFIG_INFO *pConfig,
A_UINT8 *pBuffer,
int Length)
{
HTC_PACKET *pPacket = NULL;
- A_STATUS status = A_OK;
+ int status = A_OK;
do {
return status;
}
-static A_STATUS RecvHCIEvent(AR3K_CONFIG_INFO *pConfig,
+static int RecvHCIEvent(AR3K_CONFIG_INFO *pConfig,
A_UINT8 *pBuffer,
int *pLength)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
HTC_PACKET *pRecvPacket = NULL;
do {
return status;
}
-A_STATUS SendHCICommandWaitCommandComplete(AR3K_CONFIG_INFO *pConfig,
+int SendHCICommandWaitCommandComplete(AR3K_CONFIG_INFO *pConfig,
A_UINT8 *pHCICommand,
int CmdLength,
A_UINT8 **ppEventBuffer,
A_UINT8 **ppBufferToFree)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
A_UINT8 *pBuffer = NULL;
A_UINT8 *pTemp;
int length;
return status;
}
-static A_STATUS AR3KConfigureHCIBaud(AR3K_CONFIG_INFO *pConfig)
+static int AR3KConfigureHCIBaud(AR3K_CONFIG_INFO *pConfig)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
A_UINT8 hciBaudChangeCommand[] = {0x0c,0xfc,0x2,0,0};
A_UINT16 baudVal;
A_UINT8 *pEvent = NULL;
return status;
}
-static A_STATUS AR3KExitMinBoot(AR3K_CONFIG_INFO *pConfig)
+static int AR3KExitMinBoot(AR3K_CONFIG_INFO *pConfig)
{
- A_STATUS status;
+ int status;
A_CHAR exitMinBootCmd[] = {0x25,0xFC,0x0c,0x03,0x00,0x00,0x00,0x00,0x00,0x00,
0x00,0x00,0x00,0x00,0x00};
A_UINT8 *pEvent = NULL;
return status;
}
-static A_STATUS AR3KConfigureSendHCIReset(AR3K_CONFIG_INFO *pConfig)
+static int AR3KConfigureSendHCIReset(AR3K_CONFIG_INFO *pConfig)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
A_UINT8 hciResetCommand[] = {0x03,0x0c,0x0};
A_UINT8 *pEvent = NULL;
A_UINT8 *pBufferToFree = NULL;
return status;
}
-static A_STATUS AR3KEnableTLPM(AR3K_CONFIG_INFO *pConfig)
+static int AR3KEnableTLPM(AR3K_CONFIG_INFO *pConfig)
{
- A_STATUS status;
+ int status;
/* AR3K vendor specific command for Host Wakeup Config */
A_CHAR hostWakeupConfig[] = {0x31,0xFC,0x18,
0x02,0x00,0x00,0x00,
return status;
}
-A_STATUS AR3KConfigure(AR3K_CONFIG_INFO *pConfig)
+int AR3KConfigure(AR3K_CONFIG_INFO *pConfig)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
AR_DEBUG_PRINTF(ATH_DEBUG_INFO,("AR3K Config: Configuring AR3K ...\n"));
return status;
}
-A_STATUS AR3KConfigureExit(void *config)
+int AR3KConfigureExit(void *config)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
AR3K_CONFIG_INFO *pConfig = (AR3K_CONFIG_INFO *)config;
AR_DEBUG_PRINTF(ATH_DEBUG_INFO,("AR3K Config: Cleaning up AR3K ...\n"));
AR3K_CONFIG_INFO *dev;
}HciCommandListParam;
-A_STATUS SendHCICommandWaitCommandComplete(AR3K_CONFIG_INFO *pConfig,
+int SendHCICommandWaitCommandComplete(AR3K_CONFIG_INFO *pConfig,
A_UINT8 *pHCICommand,
int CmdLength,
A_UINT8 **ppEventBuffer,
A_UINT32 Build_Version;
extern A_BOOL BDADDR;
-A_STATUS getDeviceType(AR3K_CONFIG_INFO *pConfig, A_UINT32 * code);
-A_STATUS ReadVersionInfo(AR3K_CONFIG_INFO *pConfig);
+int getDeviceType(AR3K_CONFIG_INFO *pConfig, A_UINT32 * code);
+int ReadVersionInfo(AR3K_CONFIG_INFO *pConfig);
#ifndef HCI_TRANSPORT_SDIO
DECLARE_WAIT_QUEUE_HEAD(PsCompleteEvent);
extern char *bdaddr;
#endif /* HCI_TRANSPORT_SDIO */
-A_STATUS write_bdaddr(AR3K_CONFIG_INFO *pConfig,A_UCHAR *bdaddr,int type);
+int write_bdaddr(AR3K_CONFIG_INFO *pConfig,A_UCHAR *bdaddr,int type);
int PSSendOps(void *arg);
-A_STATUS AthPSInitialize(AR3K_CONFIG_INFO *hdev)
+int AthPSInitialize(AR3K_CONFIG_INFO *hdev)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
if(hdev == NULL) {
AR_DEBUG_PRINTF(ATH_DEBUG_ERR,("Invalid Device handle received\n"));
return A_ERROR;
* with a HCI Command Complete event.
* For HCI SDIO transport, this will be internally defined.
*/
-A_STATUS SendHCICommandWaitCommandComplete(AR3K_CONFIG_INFO *pConfig,
+int SendHCICommandWaitCommandComplete(AR3K_CONFIG_INFO *pConfig,
A_UINT8 *pHCICommand,
int CmdLength,
A_UINT8 **ppEventBuffer,
}
#endif /* HCI_TRANSPORT_SDIO */
-A_STATUS ReadPSEvent(A_UCHAR* Data){
+int ReadPSEvent(A_UCHAR* Data){
AR_DEBUG_PRINTF(ATH_DEBUG_ERR,(" PS Event %x %x %x\n",Data[4],Data[5],Data[3]));
if(Data[4] == 0xFC && Data[5] == 0x00)
return 0;
}
-A_STATUS write_bdaddr(AR3K_CONFIG_INFO *pConfig,A_UCHAR *bdaddr,int type)
+int write_bdaddr(AR3K_CONFIG_INFO *pConfig,A_UCHAR *bdaddr,int type)
{
A_UCHAR bdaddr_cmd[] = { 0x0B, 0xFC, 0x0A, 0x01, 0x01,
0x00, 0x06, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 };
A_UINT8 *event;
A_UINT8 *bufferToFree = NULL;
- A_STATUS result = A_ERROR;
+ int result = A_ERROR;
int inc,outc;
if (type == BDADDR_TYPE_STRING)
return result;
}
-A_STATUS ReadVersionInfo(AR3K_CONFIG_INFO *pConfig)
+int ReadVersionInfo(AR3K_CONFIG_INFO *pConfig)
{
A_UINT8 hciCommand[] = {0x1E,0xfc,0x00};
A_UINT8 *event;
A_UINT8 *bufferToFree = NULL;
- A_STATUS result = A_ERROR;
+ int result = A_ERROR;
if(A_OK == SendHCICommandWaitCommandComplete(pConfig,hciCommand,sizeof(hciCommand),&event,&bufferToFree)) {
result = ReadPSEvent(event);
}
return result;
}
-A_STATUS getDeviceType(AR3K_CONFIG_INFO *pConfig, A_UINT32 * code)
+int getDeviceType(AR3K_CONFIG_INFO *pConfig, A_UINT32 * code)
{
A_UINT8 hciCommand[] = {0x05,0xfc,0x05,0x00,0x00,0x00,0x00,0x04};
A_UINT8 *event;
A_UINT8 *bufferToFree = NULL;
A_UINT32 reg;
- A_STATUS result = A_ERROR;
+ int result = A_ERROR;
*code = 0;
hciCommand[3] = (A_UINT8)(FPGA_REGISTER & 0xFF);
hciCommand[4] = (A_UINT8)((FPGA_REGISTER >> 8) & 0xFF);
extern A_UCHAR *HciEventpacket;
#endif /* #ifndef HCI_TRANSPORT_SDIO */
-A_STATUS AthPSInitialize(AR3K_CONFIG_INFO *hdev);
-A_STATUS ReadPSEvent(A_UCHAR* Data);
+int AthPSInitialize(AR3K_CONFIG_INFO *hdev);
+int ReadPSEvent(A_UCHAR* Data);
#endif /* __AR3KPSCONFIG_H */
tRamPatch RamPatch[MAX_NUM_PATCH_ENTRY];
-A_STATUS AthParseFilesUnified(A_UCHAR *srcbuffer,A_UINT32 srclen, int FileFormat);
+int AthParseFilesUnified(A_UCHAR *srcbuffer,A_UINT32 srclen, int FileFormat);
char AthReadChar(A_UCHAR *buffer, A_UINT32 len,A_UINT32 *pos);
char * AthGetLine(char * buffer, int maxlen, A_UCHAR *srcbuffer,A_UINT32 len,A_UINT32 *pos);
-static A_STATUS AthPSCreateHCICommand(A_UCHAR Opcode, A_UINT32 Param1,PSCmdPacket *PSPatchPacket,A_UINT32 *index);
+static int AthPSCreateHCICommand(A_UCHAR Opcode, A_UINT32 Param1,PSCmdPacket *PSPatchPacket,A_UINT32 *index);
/* Function to reads the next character from the input buffer */
char AthReadChar(A_UCHAR *buffer, A_UINT32 len,A_UINT32 *pos)
return (0x0FFF);
}
}
-A_STATUS AthParseFilesUnified(A_UCHAR *srcbuffer,A_UINT32 srclen, int FileFormat)
+int AthParseFilesUnified(A_UCHAR *srcbuffer,A_UINT32 srclen, int FileFormat)
{
char *Buffer;
char *pCharLine;
/********************/
-A_STATUS GetNextTwoChar(A_UCHAR *srcbuffer,A_UINT32 len, A_UINT32 *pos, char * buffer)
+int GetNextTwoChar(A_UCHAR *srcbuffer,A_UINT32 len, A_UINT32 *pos, char * buffer)
{
unsigned char ch;
return A_OK;
}
-A_STATUS AthDoParsePatch(A_UCHAR *patchbuffer, A_UINT32 patchlen)
+int AthDoParsePatch(A_UCHAR *patchbuffer, A_UINT32 patchlen)
{
char Byte[3];
/********************/
-A_STATUS AthDoParsePS(A_UCHAR *srcbuffer, A_UINT32 srclen)
+int AthDoParsePS(A_UCHAR *srcbuffer, A_UINT32 srclen)
{
- A_STATUS status;
+ int status;
int i;
A_BOOL BDADDR_Present = A_ERROR;
////////////////////////
/////////////
-static A_STATUS AthPSCreateHCICommand(A_UCHAR Opcode, A_UINT32 Param1,PSCmdPacket *PSPatchPacket,A_UINT32 *index)
+static int AthPSCreateHCICommand(A_UCHAR Opcode, A_UINT32 Param1,PSCmdPacket *PSPatchPacket,A_UINT32 *index)
{
A_UCHAR *HCI_PS_Command;
A_UINT32 Length;
}
return A_OK;
}
-A_STATUS AthFreeCommandList(PSCmdPacket **HciPacketList, A_UINT32 numPackets)
+int AthFreeCommandList(PSCmdPacket **HciPacketList, A_UINT32 numPackets)
{
int i;
if(*HciPacketList == NULL) {
} PSCmdPacket;
/* Parses a Patch information buffer and store it in global structure */
-A_STATUS AthDoParsePatch(A_UCHAR *, A_UINT32);
+int AthDoParsePatch(A_UCHAR *, A_UINT32);
/* parses a PS information buffer and stores it in a global structure */
-A_STATUS AthDoParsePS(A_UCHAR *, A_UINT32);
+int AthDoParsePS(A_UCHAR *, A_UINT32);
/*
* Uses the output of Both AthDoParsePS and AthDoParsePatch APIs to form HCI command array with
int AthCreateCommandList(PSCmdPacket **, A_UINT32 *);
/* Cleanup the dynamically allicated HCI command list */
-A_STATUS AthFreeCommandList(PSCmdPacket **HciPacketList, A_UINT32 numPackets);
+int AthFreeCommandList(PSCmdPacket **HciPacketList, A_UINT32 numPackets);
#endif /* __AR3KPSPARSER_H */
#ifdef USE_4BYTE_REGISTER_ACCESS
/* set the window address register (using 4-byte register access ). */
-A_STATUS ar6000_SetAddressWindowRegister(HIF_DEVICE *hifDevice, A_UINT32 RegisterAddr, A_UINT32 Address)
+int ar6000_SetAddressWindowRegister(HIF_DEVICE *hifDevice, A_UINT32 RegisterAddr, A_UINT32 Address)
{
- A_STATUS status;
+ int status;
A_UINT8 addrValue[4];
A_INT32 i;
#else
/* set the window address register */
-A_STATUS ar6000_SetAddressWindowRegister(HIF_DEVICE *hifDevice, A_UINT32 RegisterAddr, A_UINT32 Address)
+int ar6000_SetAddressWindowRegister(HIF_DEVICE *hifDevice, A_UINT32 RegisterAddr, A_UINT32 Address)
{
- A_STATUS status;
+ int status;
/* write bytes 1,2,3 of the register to set the upper address bytes, the LSB is written
* last to initiate the access cycle */
* Read from the AR6000 through its diagnostic window.
* No cooperation from the Target is required for this.
*/
-A_STATUS
+int
ar6000_ReadRegDiag(HIF_DEVICE *hifDevice, A_UINT32 *address, A_UINT32 *data)
{
- A_STATUS status;
+ int status;
/* set window register to start read cycle */
status = ar6000_SetAddressWindowRegister(hifDevice,
* Write to the AR6000 through its diagnostic window.
* No cooperation from the Target is required for this.
*/
-A_STATUS
+int
ar6000_WriteRegDiag(HIF_DEVICE *hifDevice, A_UINT32 *address, A_UINT32 *data)
{
- A_STATUS status;
+ int status;
/* set write data */
status = HIFReadWrite(hifDevice,
*address);
}
-A_STATUS
+int
ar6000_ReadDataDiag(HIF_DEVICE *hifDevice, A_UINT32 address,
A_UCHAR *data, A_UINT32 length)
{
A_UINT32 count;
- A_STATUS status = A_OK;
+ int status = A_OK;
for (count = 0; count < length; count += 4, address += 4) {
if ((status = ar6000_ReadRegDiag(hifDevice, &address,
return status;
}
-A_STATUS
+int
ar6000_WriteDataDiag(HIF_DEVICE *hifDevice, A_UINT32 address,
A_UCHAR *data, A_UINT32 length)
{
A_UINT32 count;
- A_STATUS status = A_OK;
+ int status = A_OK;
for (count = 0; count < length; count += 4, address += 4) {
if ((status = ar6000_WriteRegDiag(hifDevice, &address,
return status;
}
-A_STATUS
+int
ar6k_ReadTargetRegister(HIF_DEVICE *hifDevice, int regsel, A_UINT32 *regval)
{
- A_STATUS status;
+ int status;
A_UCHAR vals[4];
A_UCHAR register_selection[4];
}
#if 0
-static A_STATUS
+static int
_do_write_diag(HIF_DEVICE *hifDevice, A_UINT32 addr, A_UINT32 value)
{
- A_STATUS status;
+ int status;
status = ar6000_WriteRegDiag(hifDevice, &addr, &value);
if (status != A_OK)
* TBD: Might want to add special handling for AR6K_OPTION_BMI_DISABLE.
*/
#if 0
-static A_STATUS
+static int
_delay_until_target_alive(HIF_DEVICE *hifDevice, A_INT32 wait_msecs, A_UINT32 TargetType)
{
A_INT32 actual_wait;
#define AR6002_RESET_CONTROL_ADDRESS 0x00004000
#define AR6003_RESET_CONTROL_ADDRESS 0x00004000
/* reset device */
-A_STATUS ar6000_reset_device(HIF_DEVICE *hifDevice, A_UINT32 TargetType, A_BOOL waitForCompletion, A_BOOL coldReset)
+int ar6000_reset_device(HIF_DEVICE *hifDevice, A_UINT32 TargetType, A_BOOL waitForCompletion, A_BOOL coldReset)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
A_UINT32 address;
A_UINT32 data;
{
A_UINT32 address;
A_UINT32 regDumpArea = 0;
- A_STATUS status;
+ int status;
A_UINT32 regDumpValues[REGISTER_DUMP_LEN_MAX];
A_UINT32 regDumpCount = 0;
A_UINT32 i;
/* set HTC/Mbox operational parameters, this can only be called when the target is in the
* BMI phase */
-A_STATUS ar6000_set_htc_params(HIF_DEVICE *hifDevice,
+int ar6000_set_htc_params(HIF_DEVICE *hifDevice,
A_UINT32 TargetType,
A_UINT32 MboxIsrYieldValue,
A_UINT8 HtcControlBuffers)
{
- A_STATUS status;
+ int status;
A_UINT32 blocksizes[HTC_MAILBOX_NUM_MAX];
do {
}
-static A_STATUS prepare_ar6002(HIF_DEVICE *hifDevice, A_UINT32 TargetVersion)
+static int prepare_ar6002(HIF_DEVICE *hifDevice, A_UINT32 TargetVersion)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
/* placeholder */
return status;
}
-static A_STATUS prepare_ar6003(HIF_DEVICE *hifDevice, A_UINT32 TargetVersion)
+static int prepare_ar6003(HIF_DEVICE *hifDevice, A_UINT32 TargetVersion)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
/* placeholder */
}
/* this function assumes the caller has already initialized the BMI APIs */
-A_STATUS ar6000_prepare_target(HIF_DEVICE *hifDevice,
+int ar6000_prepare_target(HIF_DEVICE *hifDevice,
A_UINT32 TargetType,
A_UINT32 TargetVersion)
{
* THIS IS FOR USE ONLY WITH AR6002 REV 1.x.
* TBDXXX: Remove this function when REV 1.x is desupported.
*/
-A_STATUS
+int
ar6002_REV1_reset_force_host (HIF_DEVICE *hifDevice)
{
A_INT32 i;
};
struct forceROM_s *ForceROM;
A_INT32 szForceROM;
- A_STATUS status = A_OK;
+ int status = A_OK;
A_UINT32 address;
A_UINT32 data;
}
-A_STATUS a_get_module_mask(A_CHAR *module_name, A_UINT32 *pMask)
+int a_get_module_mask(A_CHAR *module_name, A_UINT32 *pMask)
{
ATH_DEBUG_MODULE_DBG_INFO *pInfo = FindModule(module_name);
return A_OK;
}
-A_STATUS a_set_module_mask(A_CHAR *module_name, A_UINT32 Mask)
+int a_set_module_mask(A_CHAR *module_name, A_UINT32 Mask)
{
ATH_DEBUG_MODULE_DBG_INFO *pInfo = FindModule(module_name);
}
/* can only be called during bmi init stage */
-A_STATUS ar6000_set_hci_bridge_flags(HIF_DEVICE *hifDevice,
+int ar6000_set_hci_bridge_flags(HIF_DEVICE *hifDevice,
A_UINT32 TargetType,
A_UINT32 Flags)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
do {
}
/* initialize and setup credit distribution */
-A_STATUS ar6000_setup_credit_dist(HTC_HANDLE HTCHandle, COMMON_CREDIT_STATE_INFO *pCredInfo)
+int ar6000_setup_credit_dist(HTC_HANDLE HTCHandle, COMMON_CREDIT_STATE_INFO *pCredInfo)
{
HTC_SERVICE_ID servicepriority[5];
static struct early_suspend ar6k_early_suspend;
#endif
-static A_STATUS (*ar6000_avail_ev_p)(void *, void *);
+static int (*ar6000_avail_ev_p)(void *, void *);
#if defined(CONFIG_ANDROID_LOGGER) && (!defined(CONFIG_MMC_MSM))
int logger_write(const enum logidx index,
}
}
-static A_STATUS ar6000_android_avail_ev(void *context, void *hif_handle)
+static int ar6000_android_avail_ev(void *context, void *hif_handle)
{
- A_STATUS ret;
+ int ret;
ar6000_enable_mmchost_detect_change(0);
ret = ar6000_avail_ev_p(context, hif_handle);
return ret;
/*
* HTC service connection handlers
*/
-static A_STATUS ar6000_avail_ev(void *context, void *hif_handle);
+static int ar6000_avail_ev(void *context, void *hif_handle);
-static A_STATUS ar6000_unavail_ev(void *context, void *hif_handle);
+static int ar6000_unavail_ev(void *context, void *hif_handle);
-A_STATUS ar6000_configure_target(AR_SOFTC_T *ar);
+int ar6000_configure_target(AR_SOFTC_T *ar);
-static void ar6000_target_failure(void *Instance, A_STATUS Status);
+static void ar6000_target_failure(void *Instance, int Status);
static void ar6000_rx(void *Context, HTC_PACKET *pPacket);
struct bin_attribute *bin_attr,
char *buf, loff_t pos, size_t count);
-static A_STATUS
+static int
ar6000_sysfs_bmi_init(AR_SOFTC_T *ar);
/* HCI PAL callback function declarations */
-A_STATUS ar6k_setup_hci_pal(AR_SOFTC_T *ar);
+int ar6k_setup_hci_pal(AR_SOFTC_T *ar);
void ar6k_cleanup_hci_pal(AR_SOFTC_T *ar);
static void
ar6000_sysfs_bmi_deinit(AR_SOFTC_T *ar);
-A_STATUS
+int
ar6000_sysfs_bmi_get_config(AR_SOFTC_T *ar, A_UINT32 mode);
/*
static struct ar_cookie *ar6000_alloc_cookie(AR_SOFTC_T *ar);
#ifdef USER_KEYS
-static A_STATUS ar6000_reinstall_keys(AR_SOFTC_T *ar,A_UINT8 key_op_ctrl);
+static int ar6000_reinstall_keys(AR_SOFTC_T *ar,A_UINT8 key_op_ctrl);
#endif
#ifdef CONFIG_AP_VIRTUAL_ADAPTER_SUPPORT
*/
#define REPORT_DEBUG_LOGS_TO_APP
-A_STATUS
+int
ar6000_set_host_app_area(AR_SOFTC_T *ar)
{
A_UINT32 address, data;
{
A_UINT32 param;
A_UINT32 address;
- A_STATUS status;
+ int status;
address = TARG_VTOP(ar->arTargetType, HOST_INTEREST_ITEM_ADDRESS(ar, hi_dbglog_hdr));
if ((status = ar6000_ReadDataDiag(ar->arHifDevice, address,
ar6000_init_module(void)
{
static int probed = 0;
- A_STATUS status;
+ int status;
OSDRV_CALLBACKS osdrvCallbacks;
a_module_debug_support_init();
A_UINT32 numbytes;
A_UINT32 throughput;
AR_SOFTC_T *ar;
- A_STATUS status;
+ int status;
ar = (AR_SOFTC_T *)arg;
A_ASSERT(ar != NULL);
return count;
}
-static A_STATUS
+static int
ar6000_sysfs_bmi_init(AR_SOFTC_T *ar)
{
- A_STATUS status;
+ int status;
AR_DEBUG_PRINTF(ATH_DEBUG_INFO,("BMI: Creating sysfs entry\n"));
A_MEMZERO(&ar->osDevInfo, sizeof(HIF_DEVICE_OS_DEVICE_INFO));
}
#endif /* SOFTMAC_FILE_USED */
-static A_STATUS
+static int
ar6000_transfer_bin_file(AR_SOFTC_T *ar, AR6K_BIN_FILE file, A_UINT32 address, A_BOOL compressed)
{
- A_STATUS status;
+ int status;
const char *filename;
const struct firmware *fw_entry;
A_UINT32 fw_entry_size;
}
#endif /* INIT_MODE_DRV_ENABLED */
-A_STATUS
+int
ar6000_update_bdaddr(AR_SOFTC_T *ar)
{
return A_OK;
}
-A_STATUS
+int
ar6000_sysfs_bmi_get_config(AR_SOFTC_T *ar, A_UINT32 mode)
{
AR_DEBUG_PRINTF(ATH_DEBUG_INFO,("BMI: Requesting device specific configuration\n"));
#ifdef INIT_MODE_DRV_ENABLED
} else {
/* The config is contained within the driver itself */
- A_STATUS status;
+ int status;
A_UINT32 param, options, sleep, address;
/* Temporarily disable system sleep */
return A_OK;
}
-A_STATUS
+int
ar6000_configure_target(AR_SOFTC_T *ar)
{
A_UINT32 param;
/*
* HTC Event handlers
*/
-static A_STATUS
+static int
ar6000_avail_ev(void *context, void *hif_handle)
{
int i;
#ifdef ATH6K_CONFIG_CFG80211
struct wireless_dev *wdev;
#endif /* ATH6K_CONFIG_CFG80211 */
- A_STATUS init_status = A_OK;
+ int init_status = A_OK;
AR_DEBUG_PRINTF(ATH_DEBUG_INFO,("ar6000_available\n"));
if ((wlaninitmode == WLAN_INIT_MODE_UDEV) ||
(wlaninitmode == WLAN_INIT_MODE_DRV))
{
- A_STATUS status = A_OK;
+ int status = A_OK;
do {
if ((status = ar6000_sysfs_bmi_get_config(ar, wlaninitmode)) != A_OK)
{
return init_status;
}
-static void ar6000_target_failure(void *Instance, A_STATUS Status)
+static void ar6000_target_failure(void *Instance, int Status)
{
AR_SOFTC_T *ar = (AR_SOFTC_T *)Instance;
WMI_TARGET_ERROR_REPORT_EVENT errEvent;
}
}
-static A_STATUS
+static int
ar6000_unavail_ev(void *context, void *hif_handle)
{
AR_SOFTC_T *ar = (AR_SOFTC_T *)context;
void
ar6000_restart_endpoint(struct net_device *dev)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
AR_SOFTC_T *ar = (AR_SOFTC_T *)ar6k_priv(dev);
BMIInit();
// FIXME: workaround to reset BT's UART baud rate to default
if (NULL != ar->exitCallback) {
AR3K_CONFIG_INFO ar3kconfig;
- A_STATUS status;
+ int status;
A_MEMZERO(&ar3kconfig,sizeof(ar3kconfig));
ar6000_set_default_ar3kconfig(ar, (void *)&ar3kconfig);
}
/* connect to a service */
-static A_STATUS ar6000_connectservice(AR_SOFTC_T *ar,
+static int ar6000_connectservice(AR_SOFTC_T *ar,
HTC_SERVICE_CONNECT_REQ *pConnect,
char *pDesc)
{
- A_STATUS status;
+ int status;
HTC_SERVICE_CONNECT_RESP response;
do {
int ar6000_init(struct net_device *dev)
{
AR_SOFTC_T *ar;
- A_STATUS status;
+ int status;
A_INT32 timeleft;
A_INT16 i;
int ret = 0;
hciHandles.netDevice = ar->arNetDev;
hciHandles.hifDevice = ar->arHifDevice;
hciHandles.htcHandle = ar->arHtcTarget;
- status = (A_STATUS)(ar6kHciTransCallbacks.setupTransport(&hciHandles));
+ status = (int)(ar6kHciTransCallbacks.setupTransport(&hciHandles));
}
#else
if (setuphci) {
A_UINT32 numbytes;
A_UINT32 throughput;
struct timeval ts;
- A_STATUS status;
+ int status;
AR6000_SPIN_LOCK(&ar->arLock, 0);
{
AR_SOFTC_T *ar = (AR_SOFTC_T *)Context;
A_UINT32 mapNo = 0;
- A_STATUS status;
+ int status;
struct ar_cookie * ar_cookie;
HTC_ENDPOINT_ID eid;
A_BOOL wakeEvent = FALSE;
struct sk_buff *skb = (struct sk_buff *)pPacket->pPktContext;
int minHdrLen;
A_UINT8 containsDot11Hdr = 0;
- A_STATUS status = pPacket->Status;
+ int status = pPacket->Status;
HTC_ENDPOINT_ID ept = pPacket->Endpoint;
A_ASSERT((status != A_OK) ||
void *osbuf = NULL;
A_INT8 i;
A_UINT8 size, *buf;
- A_STATUS ret = A_OK;
+ int ret = A_OK;
size = cmd->evt_buf_sz + 4;
osbuf = A_NETBUF_ALLOC(size);
}
void
-ar6000_scanComplete_event(AR_SOFTC_T *ar, A_STATUS status)
+ar6000_scanComplete_event(AR_SOFTC_T *ar, int status)
{
#ifdef ATH6K_CONFIG_CFG80211
A_UINT32 wmiSendCmdNum;
-A_STATUS
+int
ar6000_control_tx(void *devt, void *osbuf, HTC_ENDPOINT_ID eid)
{
AR_SOFTC_T *ar = (AR_SOFTC_T *)devt;
- A_STATUS status = A_OK;
+ int status = A_OK;
struct ar_cookie *cookie = NULL;
int i;
#ifdef CONFIG_PM
}
-A_STATUS
+int
ar6000_get_driver_cfg(struct net_device *dev,
A_UINT16 cfgParam,
void *result)
{
- A_STATUS ret = 0;
+ int ret = 0;
switch(cfgParam)
{
#endif
#ifdef USER_KEYS
-static A_STATUS
+static int
ar6000_reinstall_keys(AR_SOFTC_T *ar, A_UINT8 key_op_ctrl)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
struct ieee80211req_key *uik = &ar->user_saved_keys.ucast_ik;
struct ieee80211req_key *bik = &ar->user_saved_keys.bcast_ik;
CRYPTO_TYPE keyType = ar->user_saved_keys.keyType;
return 0;
}
-A_STATUS
+int
ar6000_connect_to_ap(struct ar6_softc *ar)
{
/* The ssid length check prevents second "essid off" from the user,
*/
if((ar->arWmiReady == TRUE) && (ar->arSsidLen > 0) && ar->arNetworkType!=AP_NETWORK)
{
- A_STATUS status;
+ int status;
if((ADHOC_NETWORK != ar->arNetworkType) &&
(NONE_AUTH==ar->arAuthMode) &&
(WEP_CRYPT==ar->arPairwiseCrypto)) {
return A_ERROR;
}
-A_STATUS
+int
ar6000_ap_mode_get_wpa_ie(struct ar6_softc *ar, struct ieee80211req_wpaie *wpaie)
{
sta_t *conn = NULL;
return 0;
}
-A_STATUS
+int
is_iwioctl_allowed(A_UINT8 mode, A_UINT16 cmd)
{
if(cmd >= SIOCSIWCOMMIT && cmd <= SIOCGIWPOWER) {
return A_ENOTSUP;
}
-A_STATUS
+int
is_xioctl_allowed(A_UINT8 mode, int cmd)
{
if(sizeof(xioctl_filter)-1 < cmd) {
{
struct ieee80211req_key *ik = (struct ieee80211req_key *)ikey;
KEY_USAGE keyUsage = 0;
- A_STATUS status;
+ int status;
if (A_MEMCMP(ik->ik_macaddr, bcast_mac, IEEE80211_ADDR_LEN) == 0) {
keyUsage = GROUP_USAGE;
* AP mode.
*/
-A_STATUS ar6000_start_ap_interface(AR_SOFTC_T *ar)
+int ar6000_start_ap_interface(AR_SOFTC_T *ar)
{
AR_VIRTUAL_INTERFACE_T *arApDev;
return A_OK;
}
-A_STATUS ar6000_stop_ap_interface(AR_SOFTC_T *ar)
+int ar6000_stop_ap_interface(AR_SOFTC_T *ar)
{
AR_VIRTUAL_INTERFACE_T *arApDev;
}
-A_STATUS ar6000_create_ap_interface(AR_SOFTC_T *ar, char *ap_ifname)
+int ar6000_create_ap_interface(AR_SOFTC_T *ar, char *ap_ifname)
{
struct net_device *dev;
AR_VIRTUAL_INTERFACE_T *arApDev;
return A_OK;
}
-A_STATUS ar6000_add_ap_interface(AR_SOFTC_T *ar, char *ap_ifname)
+int ar6000_add_ap_interface(AR_SOFTC_T *ar, char *ap_ifname)
{
/* Interface already added, need not proceed further */
if (ar->arApDev != NULL) {
return ar6000_start_ap_interface(ar);
}
-A_STATUS ar6000_remove_ap_interface(AR_SOFTC_T *ar)
+int ar6000_remove_ap_interface(AR_SOFTC_T *ar)
{
if (arApNetDev) {
ar6000_stop_ap_interface(ar);
#endif /* DEBUG */
-A_STATUS ar6000_exit_cut_power_state(AR_SOFTC_T *ar);
+int ar6000_exit_cut_power_state(AR_SOFTC_T *ar);
#ifdef CONFIG_PM
static void ar6k_send_asleep_event_to_app(AR_SOFTC_T *ar, A_BOOL asleep)
struct in_ifaddr *ifa = NULL;
struct in_device *in_dev;
A_UINT8 macMask[] = { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff };
- A_STATUS status;
+ int status;
WMI_ADD_WOW_PATTERN_CMD addWowCmd = { .filter = { 0 } };
WMI_DEL_WOW_PATTERN_CMD delWowCmd;
WMI_SET_HOST_SLEEP_MODE_CMD hostSleepMode = {FALSE, TRUE};
}
}
-A_STATUS ar6000_suspend_ev(void *context)
+int ar6000_suspend_ev(void *context)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
AR_SOFTC_T *ar = (AR_SOFTC_T *)context;
A_INT16 pmmode = ar->arSuspendConfig;
wow_not_connected:
return status;
}
-A_STATUS ar6000_resume_ev(void *context)
+int ar6000_resume_ev(void *context)
{
AR_SOFTC_T *ar = (AR_SOFTC_T *)context;
A_UINT16 powerState = ar->arWlanPowerState;
}
}
-A_STATUS ar6000_power_change_ev(void *context, A_UINT32 config)
+int ar6000_power_change_ev(void *context, A_UINT32 config)
{
AR_SOFTC_T *ar = (AR_SOFTC_T *)context;
- A_STATUS status = A_OK;
+ int status = A_OK;
AR_DEBUG_PRINTF(ATH_DEBUG_PM, ("%s: power change event callback %d \n", __func__, config));
switch (config) {
};
#endif /* CONFIG_PM */
-A_STATUS
+int
ar6000_setup_cut_power_state(struct ar6_softc *ar, AR6000_WLAN_STATE state)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
HIF_DEVICE_POWER_CHANGE_TYPE config;
AR_DEBUG_PRINTF(ATH_DEBUG_PM, ("%s: Cut power %d %d \n", __func__,state, ar->arWlanPowerState));
return status;
}
-A_STATUS
+int
ar6000_setup_deep_sleep_state(struct ar6_softc *ar, AR6000_WLAN_STATE state)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
AR_DEBUG_PRINTF(ATH_DEBUG_PM, ("%s: Deep sleep %d %d \n", __func__,state, ar->arWlanPowerState));
#ifdef CONFIG_PM
return status;
}
-A_STATUS
+int
ar6000_update_wlan_pwr_state(struct ar6_softc *ar, AR6000_WLAN_STATE state, A_BOOL pmEvent)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
A_UINT16 powerState, oldPowerState;
AR6000_WLAN_STATE oldstate = ar->arWlanState;
A_BOOL wlanOff = ar->arWlanOff;
return status;
}
-A_STATUS
+int
ar6000_set_bt_hw_state(struct ar6_softc *ar, A_UINT32 enable)
{
#ifdef CONFIG_PM
A_BOOL off = (enable == 0);
- A_STATUS status;
+ int status;
if (ar->arBTOff == off) {
return A_OK;
}
#endif
}
-A_STATUS
+int
ar6000_set_wlan_state(struct ar6_softc *ar, AR6000_WLAN_STATE state)
{
- A_STATUS status;
+ int status;
A_BOOL off = (state == WLAN_DISABLED);
if (ar->arWlanOff == off) {
return A_OK;
}
/* connect to a service */
-static A_STATUS ar6000_connect_raw_service(AR_SOFTC_T *ar,
+static int ar6000_connect_raw_service(AR_SOFTC_T *ar,
HTC_RAW_STREAM_ID StreamID)
{
- A_STATUS status;
+ int status;
HTC_SERVICE_CONNECT_RESP response;
A_UINT8 streamNo;
HTC_SERVICE_CONNECT_REQ connect;
int ar6000_htc_raw_open(AR_SOFTC_T *ar)
{
- A_STATUS status;
+ int status;
int streamID, endPt, count2;
raw_htc_buffer *buffer;
HTC_SERVICE_ID servicepriority;
struct hci_dev *hdev = (struct hci_dev *)skb->dev;
HCI_TRANSPORT_PACKET_TYPE type;
ar6k_hci_pal_info_t *pHciPalInfo;
- A_STATUS status = A_OK;
+ int status = A_OK;
struct sk_buff *txSkb = NULL;
AR_SOFTC_T *ar;
/*********************************************************
* Allocate HCI device and store in PAL private info structure.
*********************************************************/
-static A_STATUS bt_setup_hci_pal(ar6k_hci_pal_info_t *pHciPalInfo)
+static int bt_setup_hci_pal(ar6k_hci_pal_info_t *pHciPalInfo)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
struct hci_dev *pHciDev = NULL;
if (!setupbtdev) {
* Registers a HCI device.
* Registers packet receive callback function with ar6k
**********************************************************/
-A_STATUS ar6k_setup_hci_pal(void *ar_p)
+int ar6k_setup_hci_pal(void *ar_p)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
ar6k_hci_pal_info_t *pHciPalInfo;
ar6k_pal_config_t ar6k_pal_config;
AR_SOFTC_T *ar = (AR_SOFTC_T *)ar_p;
return status;
}
#else /* AR6K_ENABLE_HCI_PAL */
-A_STATUS ar6k_setup_hci_pal(void *ar_p)
+int ar6k_setup_hci_pal(void *ar_p)
{
return A_OK;
}
* Register init and callback function with ar6k
* when PAL driver is a separate kernel module.
****************************************************/
-A_STATUS ar6k_register_hci_pal(HCI_TRANSPORT_CALLBACKS *hciTransCallbacks);
+int ar6k_register_hci_pal(HCI_TRANSPORT_CALLBACKS *hciTransCallbacks);
static int __init pal_init_module(void)
{
HCI_TRANSPORT_CALLBACKS hciTransCallbacks;
struct cfg80211_connect_params *sme)
{
AR_SOFTC_T *ar = ar6k_priv(dev);
- A_STATUS status;
+ int status;
AR_DEBUG_PRINTF(ATH_DEBUG_INFO, ("%s: \n", __func__));
}
void
-ar6k_cfg80211_scanComplete_event(AR_SOFTC_T *ar, A_STATUS status)
+ar6k_cfg80211_scanComplete_event(AR_SOFTC_T *ar, int status)
{
AR_DEBUG_PRINTF(ATH_DEBUG_INFO, ("%s: status %d\n", __func__, status));
struct ar_key *key = NULL;
A_UINT8 key_usage;
A_UINT8 key_type;
- A_STATUS status = 0;
+ int status = 0;
AR_DEBUG_PRINTF(ATH_DEBUG_INFO, ("%s:\n", __func__));
{
AR_SOFTC_T *ar = (AR_SOFTC_T *)ar6k_priv(ndev);
struct ar_key *key = NULL;
- A_STATUS status = A_OK;
+ int status = A_OK;
AR_DEBUG_PRINTF(ATH_DEBUG_INFO, ("%s: index %d\n", __func__, key_index));
struct cfg80211_ibss_params *ibss_param)
{
AR_SOFTC_T *ar = ar6k_priv(dev);
- A_STATUS status;
+ int status;
AR_DEBUG_PRINTF(ATH_DEBUG_INFO, ("%s: \n", __func__));
HCI_TRANSPORT_HANDLE (*_HCI_TransportAttach)(void *HTCHandle, HCI_TRANSPORT_CONFIG_INFO *pInfo);
void (*_HCI_TransportDetach)(HCI_TRANSPORT_HANDLE HciTrans);
-A_STATUS (*_HCI_TransportAddReceivePkts)(HCI_TRANSPORT_HANDLE HciTrans, HTC_PACKET_QUEUE *pQueue);
-A_STATUS (*_HCI_TransportSendPkt)(HCI_TRANSPORT_HANDLE HciTrans, HTC_PACKET *pPacket, A_BOOL Synchronous);
+int (*_HCI_TransportAddReceivePkts)(HCI_TRANSPORT_HANDLE HciTrans, HTC_PACKET_QUEUE *pQueue);
+int (*_HCI_TransportSendPkt)(HCI_TRANSPORT_HANDLE HciTrans, HTC_PACKET *pPacket, A_BOOL Synchronous);
void (*_HCI_TransportStop)(HCI_TRANSPORT_HANDLE HciTrans);
-A_STATUS (*_HCI_TransportStart)(HCI_TRANSPORT_HANDLE HciTrans);
-A_STATUS (*_HCI_TransportEnableDisableAsyncRecv)(HCI_TRANSPORT_HANDLE HciTrans, A_BOOL Enable);
-A_STATUS (*_HCI_TransportRecvHCIEventSync)(HCI_TRANSPORT_HANDLE HciTrans,
+int (*_HCI_TransportStart)(HCI_TRANSPORT_HANDLE HciTrans);
+int (*_HCI_TransportEnableDisableAsyncRecv)(HCI_TRANSPORT_HANDLE HciTrans, A_BOOL Enable);
+int (*_HCI_TransportRecvHCIEventSync)(HCI_TRANSPORT_HANDLE HciTrans,
HTC_PACKET *pPacket,
int MaxPollMS);
-A_STATUS (*_HCI_TransportSetBaudRate)(HCI_TRANSPORT_HANDLE HciTrans, A_UINT32 Baud);
-A_STATUS (*_HCI_TransportEnablePowerMgmt)(HCI_TRANSPORT_HANDLE HciTrans, A_BOOL Enable);
+int (*_HCI_TransportSetBaudRate)(HCI_TRANSPORT_HANDLE HciTrans, A_UINT32 Baud);
+int (*_HCI_TransportEnablePowerMgmt)(HCI_TRANSPORT_HANDLE HciTrans, A_BOOL Enable);
extern HCI_TRANSPORT_CALLBACKS ar6kHciTransCallbacks;
-A_STATUS ar6000_register_hci_transport(HCI_TRANSPORT_CALLBACKS *hciTransCallbacks)
+int ar6000_register_hci_transport(HCI_TRANSPORT_CALLBACKS *hciTransCallbacks)
{
ar6kHciTransCallbacks = *hciTransCallbacks;
return A_OK;
}
-A_STATUS
+int
ar6000_get_hif_dev(HIF_DEVICE *device, void *config)
{
- A_STATUS status;
+ int status;
status = HIFConfigureDevice(device,
HIF_DEVICE_GET_OS_DEVICE,
return status;
}
-A_STATUS ar6000_set_uart_config(HIF_DEVICE *hifDevice,
+int ar6000_set_uart_config(HIF_DEVICE *hifDevice,
A_UINT32 scale,
A_UINT32 step)
{
A_UINT32 regAddress;
A_UINT32 regVal;
- A_STATUS status;
+ int status;
regAddress = WLAN_UART_BASE_ADDRESS | UART_CLKDIV_ADDRESS;
regVal = ((A_UINT32)scale << 16) | step;
return status;
}
-A_STATUS ar6000_get_core_clock_config(HIF_DEVICE *hifDevice, A_UINT32 *data)
+int ar6000_get_core_clock_config(HIF_DEVICE *hifDevice, A_UINT32 *data)
{
A_UINT32 regAddress;
- A_STATUS status;
+ int status;
regAddress = WLAN_RTC_BASE_ADDRESS | WLAN_CPU_CLOCK_ADDRESS;
/* read CPU clock settings*/
AR6K_HCI_BRIDGE_INFO *g_pHcidevInfo;
#endif
-static A_STATUS bt_setup_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo);
+static int bt_setup_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo);
static void bt_cleanup_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo);
-static A_STATUS bt_register_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo);
+static int bt_register_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo);
static A_BOOL bt_indicate_recv(AR6K_HCI_BRIDGE_INFO *pHcidevInfo,
HCI_TRANSPORT_PACKET_TYPE Type,
struct sk_buff *skb);
static void bt_free_buffer(AR6K_HCI_BRIDGE_INFO *pHcidevInfo, struct sk_buff *skb);
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
-A_STATUS ar6000_setup_hci(void *ar);
+int ar6000_setup_hci(void *ar);
void ar6000_cleanup_hci(void *ar);
-A_STATUS hci_test_send(void *ar, struct sk_buff *skb);
+int hci_test_send(void *ar, struct sk_buff *skb);
#else
-A_STATUS ar6000_setup_hci(AR_SOFTC_T *ar);
+int ar6000_setup_hci(AR_SOFTC_T *ar);
void ar6000_cleanup_hci(AR_SOFTC_T *ar);
/* HCI bridge testing */
-A_STATUS hci_test_send(AR_SOFTC_T *ar, struct sk_buff *skb);
+int hci_test_send(AR_SOFTC_T *ar, struct sk_buff *skb);
#endif /* EXPORT_HCI_BRIDGE_INTERFACE */
#define LOCK_BRIDGE(dev) spin_lock_bh(&(dev)->BridgeLock)
#define HOST_INTEREST_ITEM_ADDRESS(ar, item) \
(((ar)->arTargetType == TARGET_TYPE_AR6002) ? AR6002_HOST_INTEREST_ITEM_ADDRESS(item) : \
(((ar)->arTargetType == TARGET_TYPE_AR6003) ? AR6003_HOST_INTEREST_ITEM_ADDRESS(item) : 0))
-static A_STATUS ar6000_hci_transport_ready(HCI_TRANSPORT_HANDLE HCIHandle,
+static int ar6000_hci_transport_ready(HCI_TRANSPORT_HANDLE HCIHandle,
HCI_TRANSPORT_PROPERTIES *pProps,
void *pContext)
{
AR6K_HCI_BRIDGE_INFO *pHcidevInfo = (AR6K_HCI_BRIDGE_INFO *)pContext;
- A_STATUS status;
+ int status;
A_UINT32 address, hci_uart_pwr_mgmt_params;
// AR3K_CONFIG_INFO ar3kconfig;
return status;
}
-static void ar6000_hci_transport_failure(void *pContext, A_STATUS Status)
+static void ar6000_hci_transport_failure(void *pContext, int Status)
{
AR6K_HCI_BRIDGE_INFO *pHcidevInfo = (AR6K_HCI_BRIDGE_INFO *)pContext;
}
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
-A_STATUS ar6000_setup_hci(void *ar)
+int ar6000_setup_hci(void *ar)
#else
-A_STATUS ar6000_setup_hci(AR_SOFTC_T *ar)
+int ar6000_setup_hci(AR_SOFTC_T *ar)
#endif
{
HCI_TRANSPORT_CONFIG_INFO config;
- A_STATUS status = A_OK;
+ int status = A_OK;
int i;
HTC_PACKET *pPacket;
AR6K_HCI_BRIDGE_INFO *pHcidevInfo;
}
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
-A_STATUS hci_test_send(void *ar, struct sk_buff *skb)
+int hci_test_send(void *ar, struct sk_buff *skb)
#else
-A_STATUS hci_test_send(AR_SOFTC_T *ar, struct sk_buff *skb)
+int hci_test_send(AR_SOFTC_T *ar, struct sk_buff *skb)
#endif
{
int status = A_OK;
HCI_TRANSPORT_PACKET_TYPE type;
AR6K_HCI_BRIDGE_INFO *pHcidevInfo;
HTC_PACKET *pPacket;
- A_STATUS status = A_OK;
+ int status = A_OK;
struct sk_buff *txSkb = NULL;
if (!hdev) {
/* nothing to do here */
}
-static A_STATUS bt_setup_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo)
+static int bt_setup_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo)
{
- A_STATUS status = A_OK;
+ int status = A_OK;
struct hci_dev *pHciDev = NULL;
HIF_DEVICE_OS_DEVICE_INFO osDevInfo;
}
}
-static A_STATUS bt_register_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo)
+static int bt_register_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo)
{
int err;
- A_STATUS status = A_OK;
+ int status = A_OK;
do {
AR_DEBUG_PRINTF(ATH_DEBUG_HCI_BRIDGE, ("HCI Bridge: registering HCI... \n"));
#else // { CONFIG_BLUEZ_HCI_BRIDGE
/* stubs when we only want to test the HCI bridging Interface without the HT stack */
-static A_STATUS bt_setup_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo)
+static int bt_setup_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo)
{
return A_OK;
}
{
}
-static A_STATUS bt_register_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo)
+static int bt_register_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo)
{
A_ASSERT(FALSE);
return A_ERROR;
/* stubs when GMBOX support is not needed */
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
-A_STATUS ar6000_setup_hci(void *ar)
+int ar6000_setup_hci(void *ar)
#else
-A_STATUS ar6000_setup_hci(AR_SOFTC_T *ar)
+int ar6000_setup_hci(AR_SOFTC_T *ar)
#endif
{
return A_OK;
static int __init
hcibridge_init_module(void)
{
- A_STATUS status;
+ int status;
HCI_TRANSPORT_CALLBACKS hciTransCallbacks;
hciTransCallbacks.setupTransport = ar6000_setup_hci;
#define DBG_DEFAULTS (DBG_ERROR|DBG_WARNING)
-A_STATUS ar6000_ReadRegDiag(HIF_DEVICE *hifDevice, A_UINT32 *address, A_UINT32 *data);
-A_STATUS ar6000_WriteRegDiag(HIF_DEVICE *hifDevice, A_UINT32 *address, A_UINT32 *data);
+int ar6000_ReadRegDiag(HIF_DEVICE *hifDevice, A_UINT32 *address, A_UINT32 *data);
+int ar6000_WriteRegDiag(HIF_DEVICE *hifDevice, A_UINT32 *address, A_UINT32 *data);
#ifdef __cplusplus
extern "C" {
/* HCI support */
#ifndef EXPORT_HCI_BRIDGE_INTERFACE
-A_STATUS ar6000_setup_hci(AR_SOFTC_T *ar);
+int ar6000_setup_hci(AR_SOFTC_T *ar);
void ar6000_cleanup_hci(AR_SOFTC_T *ar);
void ar6000_set_default_ar3kconfig(AR_SOFTC_T *ar, void *ar3kconfig);
/* HCI bridge testing */
-A_STATUS hci_test_send(AR_SOFTC_T *ar, struct sk_buff *skb);
+int hci_test_send(AR_SOFTC_T *ar, struct sk_buff *skb);
#endif
ATH_DEBUG_DECLARE_EXTERN(htc);
void ar6000_ready_event(void *devt, A_UINT8 *datap, A_UINT8 phyCap,
A_UINT32 sw_ver, A_UINT32 abi_ver);
-A_STATUS ar6000_control_tx(void *devt, void *osbuf, HTC_ENDPOINT_ID eid);
+int ar6000_control_tx(void *devt, void *osbuf, HTC_ENDPOINT_ID eid);
void ar6000_connect_event(struct ar6_softc *ar, A_UINT16 channel,
A_UINT8 *bssid, A_UINT16 listenInterval,
A_UINT16 beaconInterval, NETWORK_TYPE networkType,
void ar6000_neighborReport_event(struct ar6_softc *ar, int numAps,
WMI_NEIGHBOR_INFO *info);
void ar6000_set_numdataendpts(struct ar6_softc *ar, A_UINT32 num);
-void ar6000_scanComplete_event(struct ar6_softc *ar, A_STATUS status);
+void ar6000_scanComplete_event(struct ar6_softc *ar, int status);
void ar6000_targetStats_event(struct ar6_softc *ar, A_UINT8 *ptr, A_UINT32 len);
void ar6000_rssiThreshold_event(struct ar6_softc *ar,
WMI_RSSI_THRESHOLD_VAL newThreshold,
void ar6000_ratemask_rx(void *devt, A_UINT32 ratemask);
-A_STATUS ar6000_get_driver_cfg(struct net_device *dev,
+int ar6000_get_driver_cfg(struct net_device *dev,
A_UINT16 cfgParam,
void *result);
void ar6000_bssInfo_event_rx(struct ar6_softc *ar, A_UINT8 *data, int len);
int ar6000_ap_mode_profile_commit(struct ar6_softc *ar);
struct ieee80211req_wpaie;
-A_STATUS
+int
ar6000_ap_mode_get_wpa_ie(struct ar6_softc *ar, struct ieee80211req_wpaie *wpaie);
-A_STATUS is_iwioctl_allowed(A_UINT8 mode, A_UINT16 cmd);
+int is_iwioctl_allowed(A_UINT8 mode, A_UINT16 cmd);
-A_STATUS is_xioctl_allowed(A_UINT8 mode, int cmd);
+int is_xioctl_allowed(A_UINT8 mode, int cmd);
void ar6000_pspoll_event(struct ar6_softc *ar,A_UINT8 aid);
void ap_wapi_rekey_event(struct ar6_softc *ar, A_UINT8 type, A_UINT8 *mac);
#endif
-A_STATUS ar6000_connect_to_ap(struct ar6_softc *ar);
-A_STATUS ar6000_update_wlan_pwr_state(struct ar6_softc *ar, AR6000_WLAN_STATE state, A_BOOL suspending);
-A_STATUS ar6000_set_wlan_state(struct ar6_softc *ar, AR6000_WLAN_STATE state);
-A_STATUS ar6000_set_bt_hw_state(struct ar6_softc *ar, A_UINT32 state);
+int ar6000_connect_to_ap(struct ar6_softc *ar);
+int ar6000_update_wlan_pwr_state(struct ar6_softc *ar, AR6000_WLAN_STATE state, A_BOOL suspending);
+int ar6000_set_wlan_state(struct ar6_softc *ar, AR6000_WLAN_STATE state);
+int ar6000_set_bt_hw_state(struct ar6_softc *ar, A_UINT32 state);
#ifdef CONFIG_PM
-A_STATUS ar6000_suspend_ev(void *context);
-A_STATUS ar6000_resume_ev(void *context);
-A_STATUS ar6000_power_change_ev(void *context, A_UINT32 config);
+int ar6000_suspend_ev(void *context);
+int ar6000_resume_ev(void *context);
+int ar6000_power_change_ev(void *context, A_UINT32 config);
void ar6000_check_wow_status(struct ar6_softc *ar, struct sk_buff *skb, A_BOOL isEvent);
#endif
void ar6000_pm_exit(void);
#ifdef CONFIG_AP_VIRTUAL_ADAPTER_SUPPORT
-A_STATUS ar6000_add_ap_interface(struct ar6_softc *ar, char *ifname);
-A_STATUS ar6000_remove_ap_interface(struct ar6_softc *ar);
+int ar6000_add_ap_interface(struct ar6_softc *ar, char *ifname);
+int ar6000_remove_ap_interface(struct ar6_softc *ar);
#endif /* CONFIG_AP_VIRTUAL_ADAPTER_SUPPORT */
#ifdef __cplusplus
struct wireless_dev *ar6k_cfg80211_init(struct device *dev);
void ar6k_cfg80211_deinit(AR_SOFTC_T *ar);
-void ar6k_cfg80211_scanComplete_event(AR_SOFTC_T *ar, A_STATUS status);
+void ar6k_cfg80211_scanComplete_event(AR_SOFTC_T *ar, int status);
void ar6k_cfg80211_connect_event(AR_SOFTC_T *ar, A_UINT16 channel,
A_UINT8 *bssid, A_UINT16 listenInterval,
extern HCI_TRANSPORT_HANDLE (*_HCI_TransportAttach)(void *HTCHandle, HCI_TRANSPORT_CONFIG_INFO *pInfo);
extern void (*_HCI_TransportDetach)(HCI_TRANSPORT_HANDLE HciTrans);
-extern A_STATUS (*_HCI_TransportAddReceivePkts)(HCI_TRANSPORT_HANDLE HciTrans, HTC_PACKET_QUEUE *pQueue);
-extern A_STATUS (*_HCI_TransportSendPkt)(HCI_TRANSPORT_HANDLE HciTrans, HTC_PACKET *pPacket, A_BOOL Synchronous);
+extern int (*_HCI_TransportAddReceivePkts)(HCI_TRANSPORT_HANDLE HciTrans, HTC_PACKET_QUEUE *pQueue);
+extern int (*_HCI_TransportSendPkt)(HCI_TRANSPORT_HANDLE HciTrans, HTC_PACKET *pPacket, A_BOOL Synchronous);
extern void (*_HCI_TransportStop)(HCI_TRANSPORT_HANDLE HciTrans);
-extern A_STATUS (*_HCI_TransportStart)(HCI_TRANSPORT_HANDLE HciTrans);
-extern A_STATUS (*_HCI_TransportEnableDisableAsyncRecv)(HCI_TRANSPORT_HANDLE HciTrans, A_BOOL Enable);
-extern A_STATUS (*_HCI_TransportRecvHCIEventSync)(HCI_TRANSPORT_HANDLE HciTrans,
+extern int (*_HCI_TransportStart)(HCI_TRANSPORT_HANDLE HciTrans);
+extern int (*_HCI_TransportEnableDisableAsyncRecv)(HCI_TRANSPORT_HANDLE HciTrans, A_BOOL Enable);
+extern int (*_HCI_TransportRecvHCIEventSync)(HCI_TRANSPORT_HANDLE HciTrans,
HTC_PACKET *pPacket,
int MaxPollMS);
-extern A_STATUS (*_HCI_TransportSetBaudRate)(HCI_TRANSPORT_HANDLE HciTrans, A_UINT32 Baud);
-extern A_STATUS (*_HCI_TransportEnablePowerMgmt)(HCI_TRANSPORT_HANDLE HciTrans, A_BOOL Enable);
+extern int (*_HCI_TransportSetBaudRate)(HCI_TRANSPORT_HANDLE HciTrans, A_UINT32 Baud);
+extern int (*_HCI_TransportEnablePowerMgmt)(HCI_TRANSPORT_HANDLE HciTrans, A_BOOL Enable);
#define HCI_TransportAttach(HTCHandle, pInfo) \
_HCI_TransportEnablePowerMgmt((HciTrans), (Enable))
-extern A_STATUS ar6000_register_hci_transport(HCI_TRANSPORT_CALLBACKS *hciTransCallbacks);
+extern int ar6000_register_hci_transport(HCI_TRANSPORT_CALLBACKS *hciTransCallbacks);
-extern A_STATUS ar6000_get_hif_dev(HIF_DEVICE *device, void *config);
+extern int ar6000_get_hif_dev(HIF_DEVICE *device, void *config);
-extern A_STATUS ar6000_set_uart_config(HIF_DEVICE *hifDevice, A_UINT32 scale, A_UINT32 step);
+extern int ar6000_set_uart_config(HIF_DEVICE *hifDevice, A_UINT32 scale, A_UINT32 step);
/* get core clock register settings
* data: 0 - 40/44MHz
* where (5G band/2.4G band)
* assume 2.4G band for now
*/
-extern A_STATUS ar6000_get_core_clock_config(HIF_DEVICE *hifDevice, A_UINT32 *data);
+extern int ar6000_get_core_clock_config(HIF_DEVICE *hifDevice, A_UINT32 *data);
void a_netbuf_free(void *bufPtr);
void *a_netbuf_to_data(void *bufPtr);
A_UINT32 a_netbuf_to_len(void *bufPtr);
-A_STATUS a_netbuf_push(void *bufPtr, A_INT32 len);
-A_STATUS a_netbuf_push_data(void *bufPtr, char *srcPtr, A_INT32 len);
-A_STATUS a_netbuf_put(void *bufPtr, A_INT32 len);
-A_STATUS a_netbuf_put_data(void *bufPtr, char *srcPtr, A_INT32 len);
-A_STATUS a_netbuf_pull(void *bufPtr, A_INT32 len);
-A_STATUS a_netbuf_pull_data(void *bufPtr, char *dstPtr, A_INT32 len);
-A_STATUS a_netbuf_trim(void *bufPtr, A_INT32 len);
-A_STATUS a_netbuf_trim_data(void *bufPtr, char *dstPtr, A_INT32 len);
-A_STATUS a_netbuf_setlen(void *bufPtr, A_INT32 len);
+int a_netbuf_push(void *bufPtr, A_INT32 len);
+int a_netbuf_push_data(void *bufPtr, char *srcPtr, A_INT32 len);
+int a_netbuf_put(void *bufPtr, A_INT32 len);
+int a_netbuf_put_data(void *bufPtr, char *srcPtr, A_INT32 len);
+int a_netbuf_pull(void *bufPtr, A_INT32 len);
+int a_netbuf_pull_data(void *bufPtr, char *dstPtr, A_INT32 len);
+int a_netbuf_trim(void *bufPtr, A_INT32 len);
+int a_netbuf_trim_data(void *bufPtr, char *dstPtr, A_INT32 len);
+int a_netbuf_setlen(void *bufPtr, A_INT32 len);
A_INT32 a_netbuf_headroom(void *bufPtr);
void a_netbuf_enqueue(A_NETBUF_QUEUE_T *q, void *pkt);
void a_netbuf_prequeue(A_NETBUF_QUEUE_T *q, void *pkt);
{
AR_SOFTC_T *ar = (AR_SOFTC_T *)ar6k_priv(dev);
WMI_SET_QOS_SUPP_CMD cmd;
- A_STATUS ret;
+ int ret;
if ((dev->flags & IFF_UP) != IFF_UP) {
return -EIO;
{
AR_SOFTC_T *ar = (AR_SOFTC_T *)ar6k_priv(dev);
WMI_SET_WMM_CMD cmd;
- A_STATUS ret;
+ int ret;
if ((dev->flags & IFF_UP) != IFF_UP) {
return -EIO;
{
AR_SOFTC_T *ar = (AR_SOFTC_T *)ar6k_priv(dev);
WMI_SET_WMM_TXOP_CMD cmd;
- A_STATUS ret;
+ int ret;
if ((dev->flags & IFF_UP) != IFF_UP) {
return -EIO;
ar6000_ioctl_get_rd(struct net_device *dev, struct ifreq *rq)
{
AR_SOFTC_T *ar = (AR_SOFTC_T *)ar6k_priv(dev);
- A_STATUS ret = 0;
+ int ret = 0;
if ((dev->flags & IFF_UP) != IFF_UP || ar->arWmiReady == FALSE) {
return -EIO;
{
AR_SOFTC_T *ar = (AR_SOFTC_T *)ar6k_priv(dev);
WMI_AP_SET_COUNTRY_CMD cmd;
- A_STATUS ret;
+ int ret;
if ((dev->flags & IFF_UP) != IFF_UP) {
return -EIO;
{
AR_SOFTC_T *ar = (AR_SOFTC_T *)ar6k_priv(dev);
WMI_CREATE_PSTREAM_CMD cmd;
- A_STATUS ret;
+ int ret;
if (ar->arWmiReady == FALSE) {
return -EIO;
}
#ifdef CONFIG_HOST_TCMD_SUPPORT
-static A_STATUS
+static int
ar6000_ioctl_tcmd_get_rx_report(struct net_device *dev,
struct ifreq *rq, A_UINT8 *data, A_UINT32 len)
{
wake_up(&arEvent);
}
-A_STATUS
+int
ar6000_gpio_output_set(struct net_device *dev,
A_UINT32 set_mask,
A_UINT32 clear_mask,
set_mask, clear_mask, enable_mask, disable_mask);
}
-static A_STATUS
+static int
ar6000_gpio_input_get(struct net_device *dev)
{
AR_SOFTC_T *ar = (AR_SOFTC_T *)ar6k_priv(dev);
return wmi_gpio_input_get(ar->arWmi);
}
-static A_STATUS
+static int
ar6000_gpio_register_set(struct net_device *dev,
A_UINT32 gpioreg_id,
A_UINT32 value)
return wmi_gpio_register_set(ar->arWmi, gpioreg_id, value);
}
-static A_STATUS
+static int
ar6000_gpio_register_get(struct net_device *dev,
A_UINT32 gpioreg_id)
{
return wmi_gpio_register_get(ar->arWmi, gpioreg_id);
}
-static A_STATUS
+static int
ar6000_gpio_intr_ack(struct net_device *dev,
A_UINT32 ack_mask)
{
static struct prof_count_s prof_count_results;
static A_BOOL prof_count_available; /* Requested GPIO data available */
-static A_STATUS
+static int
prof_count_get(struct net_device *dev)
{
AR_SOFTC_T *ar = (AR_SOFTC_T *)ar6k_priv(dev);
#endif /* CONFIG_TARGET_PROFILE_SUPPORT */
-static A_STATUS
+static int
ar6000_create_acl_data_osbuf(struct net_device *dev, A_UINT8 *userdata, void **p_osbuf)
{
void *osbuf = NULL;
A_UINT8 tmp_space[8];
HCI_ACL_DATA_PKT *acl;
A_UINT8 hdr_size, *datap=NULL;
- A_STATUS ret = A_OK;
+ int ret = A_OK;
/* ACL is in data path. There is a need to create pool
* mechanism for allocating and freeing NETBUFs - ToDo later.
ar6000_ioctl_setkey(AR_SOFTC_T *ar, struct ieee80211req_key *ik)
{
KEY_USAGE keyUsage;
- A_STATUS status;
+ int status;
CRYPTO_TYPE keyType = NONE_CRYPT;
#ifdef USER_KEYS
goto ioctl_done;
}
} else {
- A_STATUS ret = is_iwioctl_allowed(ar->arNextMode, cmd);
+ int ret = is_iwioctl_allowed(ar->arNextMode, cmd);
if(ret == A_ENOTSUP) {
A_PRINTF("iwioctl: cmd=0x%x not allowed in this mode\n", cmd);
ret = -EOPNOTSUPP;
} else if (copy_from_user(&req, userdata, sizeof(struct ieee80211req_addpmkid))) {
ret = -EFAULT;
} else {
- A_STATUS status;
+ int status;
AR_DEBUG_PRINTF(ATH_DEBUG_WLAN_CONNECT,("Add pmkid for %2.2x:%2.2x:%2.2x:%2.2x:%2.2x:%2.2x en=%d\n",
req.pi_bssid[0], req.pi_bssid[1], req.pi_bssid[2],
case AR6000_XIOCTL_WMI_SETFIXRATES:
{
WMI_FIX_RATES_CMD setFixRatesCmd;
- A_STATUS returnStatus;
+ int returnStatus;
if (ar->arWmiReady == FALSE) {
ret = -EIO;
* Add len # of bytes to the beginning of the network buffer
* pointed to by bufPtr
*/
-A_STATUS
+int
a_netbuf_push(void *bufPtr, A_INT32 len)
{
skb_push((struct sk_buff *)bufPtr, len);
* Add len # of bytes to the beginning of the network buffer
* pointed to by bufPtr and also fill with data
*/
-A_STATUS
+int
a_netbuf_push_data(void *bufPtr, char *srcPtr, A_INT32 len)
{
skb_push((struct sk_buff *) bufPtr, len);
* Add len # of bytes to the end of the network buffer
* pointed to by bufPtr
*/
-A_STATUS
+int
a_netbuf_put(void *bufPtr, A_INT32 len)
{
skb_put((struct sk_buff *)bufPtr, len);
* Add len # of bytes to the end of the network buffer
* pointed to by bufPtr and also fill with data
*/
-A_STATUS
+int
a_netbuf_put_data(void *bufPtr, char *srcPtr, A_INT32 len)
{
char *start = (char*)(((struct sk_buff *)bufPtr)->data +
/*
* Trim the network buffer pointed to by bufPtr to len # of bytes
*/
-A_STATUS
+int
a_netbuf_setlen(void *bufPtr, A_INT32 len)
{
skb_trim((struct sk_buff *)bufPtr, len);
/*
* Chop of len # of bytes from the end of the buffer.
*/
-A_STATUS
+int
a_netbuf_trim(void *bufPtr, A_INT32 len)
{
skb_trim((struct sk_buff *)bufPtr, ((struct sk_buff *)bufPtr)->len - len);
/*
* Chop of len # of bytes from the end of the buffer and return the data.
*/
-A_STATUS
+int
a_netbuf_trim_data(void *bufPtr, char *dstPtr, A_INT32 len)
{
char *start = (char*)(((struct sk_buff *)bufPtr)->data +
/*
* Removes specified number of bytes from the beginning of the buffer
*/
-A_STATUS
+int
a_netbuf_pull(void *bufPtr, A_INT32 len)
{
skb_pull((struct sk_buff *)bufPtr, len);
* Removes specified number of bytes from the beginning of the buffer
* and return the data
*/
-A_STATUS
+int
a_netbuf_pull_data(void *bufPtr, char *dstPtr, A_INT32 len)
{
A_MEMCPY(dstPtr, ((struct sk_buff *)bufPtr)->data, len);
struct iw_point *data, char *ssid)
{
AR_SOFTC_T *ar = (AR_SOFTC_T *)ar6k_priv(dev);
- A_STATUS status;
+ int status;
A_UINT8 arNetworkType;
A_UINT8 prevMode = ar->arNetworkType;
{
AR_SOFTC_T *ar = (AR_SOFTC_T *)ar6k_priv(dev);
A_INT32 ret;
- A_STATUS status;
+ int status;
struct iw_pmksa *pmksa;
pmksa = (struct iw_pmksa *)extra;
A_INT32 index;
A_UINT32 *PN;
A_INT32 i;
- A_STATUS status;
+ int status;
A_UINT8 wapiKeyRsc[16];
CRYPTO_TYPE keyType = WAPI_CRYPT;
const A_UINT8 broadcastMac[] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
A_INT32 keyLen;
A_UINT8 *keyData;
A_UINT8 keyRsc[8];
- A_STATUS status;
+ int status;
CRYPTO_TYPE keyType;
#ifdef USER_KEYS
struct ieee80211req_key ik;
#include "aggr_rx_internal.h"
#include "wmi.h"
-extern A_STATUS
+extern int
wmi_dot3_2_dix(void *osbuf);
static void
AGGR_INFO *p_aggr = NULL;
RXTID *rxtid;
A_UINT8 i;
- A_STATUS status = A_OK;
+ int status = A_OK;
A_PRINTF("In aggr_init..\n");
return frm[1] > 3 && LE_READ_4(frm+2) == ((0x04<<24)|WPA_OUI);
}
-A_STATUS
+int
wlan_parse_beacon(A_UINT8 *buf, int framelen, struct ieee80211_common_ie *cie)
{
A_UINT8 *frm, *efrm;
#define A_DPRINTF AR_DEBUG_PRINTF
#endif
-static A_STATUS wmi_ready_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
+static int wmi_ready_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
-static A_STATUS wmi_connect_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_connect_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
int len);
-static A_STATUS wmi_disconnect_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_disconnect_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
int len);
-static A_STATUS wmi_tkip_micerr_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_tkip_micerr_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
int len);
-static A_STATUS wmi_bssInfo_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_bssInfo_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
int len);
-static A_STATUS wmi_opt_frame_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_opt_frame_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
int len);
-static A_STATUS wmi_pstream_timeout_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_pstream_timeout_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
int len);
-static A_STATUS wmi_sync_point(struct wmi_t *wmip);
+static int wmi_sync_point(struct wmi_t *wmip);
-static A_STATUS wmi_bitrate_reply_rx(struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_bitrate_reply_rx(struct wmi_t *wmip, A_UINT8 *datap,
int len);
-static A_STATUS wmi_ratemask_reply_rx(struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_ratemask_reply_rx(struct wmi_t *wmip, A_UINT8 *datap,
int len);
-static A_STATUS wmi_channelList_reply_rx(struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_channelList_reply_rx(struct wmi_t *wmip, A_UINT8 *datap,
int len);
-static A_STATUS wmi_regDomain_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_regDomain_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
int len);
-static A_STATUS wmi_txPwr_reply_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
-static A_STATUS wmi_neighborReport_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_txPwr_reply_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
+static int wmi_neighborReport_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
int len);
-static A_STATUS wmi_dset_open_req_rx(struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_dset_open_req_rx(struct wmi_t *wmip, A_UINT8 *datap,
int len);
#ifdef CONFIG_HOST_DSET_SUPPORT
-static A_STATUS wmi_dset_close_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
-static A_STATUS wmi_dset_data_req_rx(struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_dset_close_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
+static int wmi_dset_data_req_rx(struct wmi_t *wmip, A_UINT8 *datap,
int len);
#endif /* CONFIG_HOST_DSET_SUPPORT */
-static A_STATUS wmi_scanComplete_rx(struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_scanComplete_rx(struct wmi_t *wmip, A_UINT8 *datap,
int len);
-static A_STATUS wmi_errorEvent_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
-static A_STATUS wmi_statsEvent_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
-static A_STATUS wmi_rssiThresholdEvent_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
-static A_STATUS wmi_hbChallengeResp_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
-static A_STATUS wmi_reportErrorEvent_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
-static A_STATUS wmi_cac_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
-static A_STATUS wmi_channel_change_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
-static A_STATUS wmi_roam_tbl_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_errorEvent_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
+static int wmi_statsEvent_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
+static int wmi_rssiThresholdEvent_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
+static int wmi_hbChallengeResp_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
+static int wmi_reportErrorEvent_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
+static int wmi_cac_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
+static int wmi_channel_change_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
+static int wmi_roam_tbl_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
int len);
-static A_STATUS wmi_roam_data_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_roam_data_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
int len);
-static A_STATUS wmi_get_wow_list_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_get_wow_list_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
int len);
-static A_STATUS
+static int
wmi_get_pmkid_list_event_rx(struct wmi_t *wmip, A_UINT8 *datap, A_UINT32 len);
-static A_STATUS
+static int
wmi_set_params_event_rx(struct wmi_t *wmip, A_UINT8 *datap, A_UINT32 len);
-static A_STATUS
+static int
wmi_acm_reject_event_rx(struct wmi_t *wmip, A_UINT8 *datap, A_UINT32 len);
#ifdef CONFIG_HOST_GPIO_SUPPORT
-static A_STATUS wmi_gpio_intr_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
-static A_STATUS wmi_gpio_data_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
-static A_STATUS wmi_gpio_ack_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
+static int wmi_gpio_intr_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
+static int wmi_gpio_data_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
+static int wmi_gpio_ack_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
#endif /* CONFIG_HOST_GPIO_SUPPORT */
#ifdef CONFIG_HOST_TCMD_SUPPORT
-static A_STATUS
+static int
wmi_tcmd_test_report_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
#endif
-static A_STATUS
+static int
wmi_txRetryErrEvent_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
-static A_STATUS
+static int
wmi_snrThresholdEvent_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
-static A_STATUS
+static int
wmi_lqThresholdEvent_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
static A_BOOL
wmi_is_bitrate_index_valid(struct wmi_t *wmip, A_INT32 rateIndex);
-static A_STATUS
+static int
wmi_aplistEvent_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
-static A_STATUS
+static int
wmi_dbglog_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
-static A_STATUS wmi_keepalive_reply_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
+static int wmi_keepalive_reply_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
-A_STATUS wmi_cmd_send_xtnd(struct wmi_t *wmip, void *osbuf, WMIX_COMMAND_ID cmdId,
+int wmi_cmd_send_xtnd(struct wmi_t *wmip, void *osbuf, WMIX_COMMAND_ID cmdId,
WMI_SYNC_FLAG syncflag);
A_UINT8 ar6000_get_upper_threshold(A_INT16 rssi, SQ_THRESHOLD_PARAMS *sq_thresh, A_UINT32 size);
void wmi_cache_configure_rssithreshold(struct wmi_t *wmip, WMI_RSSI_THRESHOLD_PARAMS_CMD *rssiCmd);
void wmi_cache_configure_snrthreshold(struct wmi_t *wmip, WMI_SNR_THRESHOLD_PARAMS_CMD *snrCmd);
-static A_STATUS wmi_send_rssi_threshold_params(struct wmi_t *wmip,
+static int wmi_send_rssi_threshold_params(struct wmi_t *wmip,
WMI_RSSI_THRESHOLD_PARAMS_CMD *rssiCmd);
-static A_STATUS wmi_send_snr_threshold_params(struct wmi_t *wmip,
+static int wmi_send_snr_threshold_params(struct wmi_t *wmip,
WMI_SNR_THRESHOLD_PARAMS_CMD *snrCmd);
#if defined(CONFIG_TARGET_PROFILE_SUPPORT)
-static A_STATUS
+static int
wmi_prof_count_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
#endif /* CONFIG_TARGET_PROFILE_SUPPORT */
-static A_STATUS wmi_pspoll_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_pspoll_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
int len);
-static A_STATUS wmi_dtimexpiry_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_dtimexpiry_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
int len);
-static A_STATUS wmi_peer_node_event_rx (struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_peer_node_event_rx (struct wmi_t *wmip, A_UINT8 *datap,
int len);
#ifdef ATH_AR6K_11N_SUPPORT
-static A_STATUS wmi_addba_req_event_rx(struct wmi_t *, A_UINT8 *, int);
-static A_STATUS wmi_addba_resp_event_rx(struct wmi_t *, A_UINT8 *, int);
-static A_STATUS wmi_delba_req_event_rx(struct wmi_t *, A_UINT8 *, int);
-static A_STATUS wmi_btcoex_config_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
-static A_STATUS wmi_btcoex_stats_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
+static int wmi_addba_req_event_rx(struct wmi_t *, A_UINT8 *, int);
+static int wmi_addba_resp_event_rx(struct wmi_t *, A_UINT8 *, int);
+static int wmi_delba_req_event_rx(struct wmi_t *, A_UINT8 *, int);
+static int wmi_btcoex_config_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
+static int wmi_btcoex_stats_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len);
#endif
-static A_STATUS wmi_hci_event_rx(struct wmi_t *, A_UINT8 *, int);
+static int wmi_hci_event_rx(struct wmi_t *, A_UINT8 *, int);
#ifdef WAPI_ENABLE
-static A_STATUS wmi_wapi_rekey_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
+static int wmi_wapi_rekey_event_rx(struct wmi_t *wmip, A_UINT8 *datap,
int len);
#endif
* Assumes the entire DIX header is contigous and that there is
* enough room in the buffer for a 802.3 mac header and LLC+SNAP headers.
*/
-A_STATUS
+int
wmi_dix_2_dot3(struct wmi_t *wmip, void *osbuf)
{
A_UINT8 *datap;
return (A_OK);
}
-A_STATUS wmi_meta_add(struct wmi_t *wmip, void *osbuf, A_UINT8 *pVersion,void *pTxMetaS)
+int wmi_meta_add(struct wmi_t *wmip, void *osbuf, A_UINT8 *pVersion,void *pTxMetaS)
{
switch(*pVersion){
case 0:
}
/* Adds a WMI data header */
-A_STATUS
+int
wmi_data_hdr_add(struct wmi_t *wmip, void *osbuf, A_UINT8 msgType, A_BOOL bMoreData,
WMI_DATA_HDR_DATA_TYPE data_type,A_UINT8 metaVersion, void *pTxMetaS)
{
WMI_DATA_HDR *dtHdr;
// A_UINT8 metaVersion = 0;
- A_STATUS status;
+ int status;
A_ASSERT(osbuf != NULL);
return trafficClass;
}
-A_STATUS
+int
wmi_dot11_hdr_add (struct wmi_t *wmip, void *osbuf, NETWORK_TYPE mode)
{
A_UINT8 *datap;
return (A_OK);
}
-A_STATUS
+int
wmi_dot11_hdr_remove(struct wmi_t *wmip, void *osbuf)
{
A_UINT8 *datap;
* performs 802.3 to DIX encapsulation for received packets.
* Assumes the entire 802.3 header is contigous.
*/
-A_STATUS
+int
wmi_dot3_2_dix(void *osbuf)
{
A_UINT8 *datap;
/*
* Removes a WMI data header
*/
-A_STATUS
+int
wmi_data_hdr_remove(struct wmi_t *wmip, void *osbuf)
{
A_ASSERT(osbuf != NULL);
/*
* WMI Extended Event received from Target.
*/
-A_STATUS
+int
wmi_control_rx_xtnd(struct wmi_t *wmip, void *osbuf)
{
WMIX_CMD_HDR *cmd;
A_UINT16 id;
A_UINT8 *datap;
A_UINT32 len;
- A_STATUS status = A_OK;
+ int status = A_OK;
if (A_NETBUF_LEN(osbuf) < sizeof(WMIX_CMD_HDR)) {
A_DPRINTF(DBG_WMI, (DBGFMT "bad packet 1\n", DBGARG));
*/
A_UINT32 cmdRecvNum;
-A_STATUS
+int
wmi_control_rx(struct wmi_t *wmip, void *osbuf)
{
WMI_CMD_HDR *cmd;
A_UINT16 id;
A_UINT8 *datap;
A_UINT32 len, i, loggingReq;
- A_STATUS status = A_OK;
+ int status = A_OK;
A_ASSERT(osbuf != NULL);
if (A_NETBUF_LEN(osbuf) < sizeof(WMI_CMD_HDR)) {
}
/* Send a "simple" wmi command -- one with no arguments */
-static A_STATUS
+static int
wmi_simple_cmd(struct wmi_t *wmip, WMI_COMMAND_ID cmdid)
{
void *osbuf;
Enabling this command only if GPIO or profiling support is enabled.
This is to suppress warnings on some platforms */
#if defined(CONFIG_HOST_GPIO_SUPPORT) || defined(CONFIG_TARGET_PROFILE_SUPPORT)
-static A_STATUS
+static int
wmi_simple_cmd_xtnd(struct wmi_t *wmip, WMIX_COMMAND_ID cmdid)
{
void *osbuf;
}
#endif
-static A_STATUS
+static int
wmi_ready_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_READY_EVENT *ev = (WMI_READY_EVENT *)datap;
}
-static A_STATUS
+static int
wmi_connect_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_CONNECT_EVENT *ev;
return A_OK;
}
-static A_STATUS
+static int
wmi_regDomain_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_REG_DOMAIN_EVENT *ev;
return A_OK;
}
-static A_STATUS
+static int
wmi_neighborReport_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_NEIGHBOR_REPORT_EVENT *ev;
return A_OK;
}
-static A_STATUS
+static int
wmi_disconnect_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_DISCONNECT_EVENT *ev;
return A_OK;
}
-static A_STATUS
+static int
wmi_peer_node_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_PEER_NODE_EVENT *ev;
return A_OK;
}
-static A_STATUS
+static int
wmi_tkip_micerr_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_TKIP_MICERR_EVENT *ev;
return A_OK;
}
-static A_STATUS
+static int
wmi_bssInfo_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
bss_t *bss = NULL;
return A_OK;
}
-static A_STATUS
+static int
wmi_opt_frame_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
bss_t *bss;
/* This event indicates inactivity timeout of a fatpipe(pstream)
* at the target
*/
-static A_STATUS
+static int
wmi_pstream_timeout_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_PSTREAM_TIMEOUT_EVENT *ev;
return A_OK;
}
-static A_STATUS
+static int
wmi_bitrate_reply_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_BIT_RATE_REPLY *reply;
return A_OK;
}
-static A_STATUS
+static int
wmi_ratemask_reply_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_FIX_RATES_REPLY *reply;
return A_OK;
}
-static A_STATUS
+static int
wmi_channelList_reply_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_CHANNEL_LIST_REPLY *reply;
return A_OK;
}
-static A_STATUS
+static int
wmi_txPwr_reply_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_TX_PWR_REPLY *reply;
return A_OK;
}
-static A_STATUS
+static int
wmi_keepalive_reply_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_GET_KEEPALIVE_CMD *reply;
}
-static A_STATUS
+static int
wmi_dset_open_req_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMIX_DSETOPENREQ_EVENT *dsetopenreq;
}
#ifdef CONFIG_HOST_DSET_SUPPORT
-static A_STATUS
+static int
wmi_dset_close_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMIX_DSETCLOSE_EVENT *dsetclose;
return A_OK;
}
-static A_STATUS
+static int
wmi_dset_data_req_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMIX_DSETDATAREQ_EVENT *dsetdatareq;
}
#endif /* CONFIG_HOST_DSET_SUPPORT */
-static A_STATUS
+static int
wmi_scanComplete_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_SCAN_COMPLETE_EVENT *ev;
ev = (WMI_SCAN_COMPLETE_EVENT *)datap;
- if ((A_STATUS)ev->status == A_OK) {
+ if ((int)ev->status == A_OK) {
wlan_refresh_inactive_nodes(&wmip->wmi_scan_table);
}
- A_WMI_SCANCOMPLETE_EVENT(wmip->wmi_devt, (A_STATUS) ev->status);
+ A_WMI_SCANCOMPLETE_EVENT(wmip->wmi_devt, (int) ev->status);
is_probe_ssid = FALSE;
return A_OK;
* Behavior of target after wmi error event is undefined.
* A reset is recommended.
*/
-static A_STATUS
+static int
wmi_errorEvent_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_CMD_ERROR_EVENT *ev;
}
-static A_STATUS
+static int
wmi_statsEvent_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
A_DPRINTF(DBG_WMI, (DBGFMT "Enter\n", DBGARG));
return A_OK;
}
-static A_STATUS
+static int
wmi_rssiThresholdEvent_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_RSSI_THRESHOLD_EVENT *reply;
}
-static A_STATUS
+static int
wmi_reportErrorEvent_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_TARGET_ERROR_REPORT_EVENT *reply;
return A_OK;
}
-static A_STATUS
+static int
wmi_cac_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_CAC_EVENT *reply;
return A_OK;
}
-static A_STATUS
+static int
wmi_channel_change_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_CHANNEL_CHANGE_EVENT *reply;
return A_OK;
}
-static A_STATUS
+static int
wmi_hbChallengeResp_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMIX_HB_CHALLENGE_RESP_EVENT *reply;
return A_OK;
}
-static A_STATUS
+static int
wmi_roam_tbl_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_TARGET_ROAM_TBL *reply;
return A_OK;
}
-static A_STATUS
+static int
wmi_roam_data_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_TARGET_ROAM_DATA *reply;
return A_OK;
}
-static A_STATUS
+static int
wmi_txRetryErrEvent_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
if (len < sizeof(WMI_TX_RETRY_ERR_EVENT)) {
return A_OK;
}
-static A_STATUS
+static int
wmi_snrThresholdEvent_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_SNR_THRESHOLD_EVENT *reply;
return A_OK;
}
-static A_STATUS
+static int
wmi_lqThresholdEvent_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_LQ_THRESHOLD_EVENT *reply;
return A_OK;
}
-static A_STATUS
+static int
wmi_aplistEvent_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
A_UINT16 ap_info_entry_size;
return A_OK;
}
-static A_STATUS
+static int
wmi_dbglog_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
A_UINT32 dropped;
}
#ifdef CONFIG_HOST_GPIO_SUPPORT
-static A_STATUS
+static int
wmi_gpio_intr_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMIX_GPIO_INTR_EVENT *gpio_intr = (WMIX_GPIO_INTR_EVENT *)datap;
return A_OK;
}
-static A_STATUS
+static int
wmi_gpio_data_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMIX_GPIO_DATA_EVENT *gpio_data = (WMIX_GPIO_DATA_EVENT *)datap;
return A_OK;
}
-static A_STATUS
+static int
wmi_gpio_ack_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
A_DPRINTF(DBG_WMI, (DBGFMT "Enter\n", DBGARG));
* Called to send a wmi command. Command specific data is already built
* on osbuf and current osbuf->data points to it.
*/
-A_STATUS
+int
wmi_cmd_send(struct wmi_t *wmip, void *osbuf, WMI_COMMAND_ID cmdId,
WMI_SYNC_FLAG syncflag)
{
- A_STATUS status;
+ int status;
#define IS_OPT_TX_CMD(cmdId) ((cmdId == WMI_OPT_TX_FRAME_CMDID))
WMI_CMD_HDR *cHdr;
HTC_ENDPOINT_ID eid = wmip->wmi_endpoint_id;
#undef IS_OPT_TX_CMD
}
-A_STATUS
+int
wmi_cmd_send_xtnd(struct wmi_t *wmip, void *osbuf, WMIX_COMMAND_ID cmdId,
WMI_SYNC_FLAG syncflag)
{
return wmi_cmd_send(wmip, osbuf, WMI_EXTENSION_CMDID, syncflag);
}
-A_STATUS
+int
wmi_connect_cmd(struct wmi_t *wmip, NETWORK_TYPE netType,
DOT11_AUTH_MODE dot11AuthMode, AUTH_MODE authMode,
CRYPTO_TYPE pairwiseCrypto, A_UINT8 pairwiseCryptoLen,
return (wmi_cmd_send(wmip, osbuf, WMI_CONNECT_CMDID, NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_reconnect_cmd(struct wmi_t *wmip, A_UINT8 *bssid, A_UINT16 channel)
{
void *osbuf;
return (wmi_cmd_send(wmip, osbuf, WMI_RECONNECT_CMDID, NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_disconnect_cmd(struct wmi_t *wmip)
{
- A_STATUS status;
+ int status;
wmip->wmi_traffic_class = 100;
/* Bug fix for 24817(elevator bug) - the disconnect command does not
return status;
}
-A_STATUS
+int
wmi_startscan_cmd(struct wmi_t *wmip, WMI_SCAN_TYPE scanType,
A_BOOL forceFgScan, A_BOOL isLegacy,
A_UINT32 homeDwellTime, A_UINT32 forceScanInterval,
return (wmi_cmd_send(wmip, osbuf, WMI_START_SCAN_CMDID, NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_scanparams_cmd(struct wmi_t *wmip, A_UINT16 fg_start_sec,
A_UINT16 fg_end_sec, A_UINT16 bg_sec,
A_UINT16 minact_chdw_msec, A_UINT16 maxact_chdw_msec,
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_bssfilter_cmd(struct wmi_t *wmip, A_UINT8 filter, A_UINT32 ieMask)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_probedSsid_cmd(struct wmi_t *wmip, A_UINT8 index, A_UINT8 flag,
A_UINT8 ssidLength, A_UCHAR *ssid)
{
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_listeninterval_cmd(struct wmi_t *wmip, A_UINT16 listenInterval, A_UINT16 listenBeacons)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_bmisstime_cmd(struct wmi_t *wmip, A_UINT16 bmissTime, A_UINT16 bmissBeacons)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_associnfo_cmd(struct wmi_t *wmip, A_UINT8 ieType,
A_UINT8 ieLen, A_UINT8 *ieInfo)
{
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_powermode_cmd(struct wmi_t *wmip, A_UINT8 powerMode)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_ibsspmcaps_cmd(struct wmi_t *wmip, A_UINT8 pmEnable, A_UINT8 ttl,
A_UINT16 atim_windows, A_UINT16 timeout_value)
{
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_apps_cmd(struct wmi_t *wmip, A_UINT8 psType, A_UINT32 idle_time,
A_UINT32 ps_period, A_UINT8 sleep_period)
{
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_pmparams_cmd(struct wmi_t *wmip, A_UINT16 idlePeriod,
A_UINT16 psPollNum, A_UINT16 dtimPolicy,
A_UINT16 tx_wakeup_policy, A_UINT16 num_tx_to_wakeup,
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_disctimeout_cmd(struct wmi_t *wmip, A_UINT8 timeout)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_addKey_cmd(struct wmi_t *wmip, A_UINT8 keyIndex, CRYPTO_TYPE keyType,
A_UINT8 keyUsage, A_UINT8 keyLength, A_UINT8 *keyRSC,
A_UINT8 *keyMaterial, A_UINT8 key_op_ctrl, A_UINT8 *macAddr,
return (wmi_cmd_send(wmip, osbuf, WMI_ADD_CIPHER_KEY_CMDID, sync_flag));
}
-A_STATUS
+int
wmi_add_krk_cmd(struct wmi_t *wmip, A_UINT8 *krk)
{
void *osbuf;
return (wmi_cmd_send(wmip, osbuf, WMI_ADD_KRK_CMDID, NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_delete_krk_cmd(struct wmi_t *wmip)
{
return wmi_simple_cmd(wmip, WMI_DELETE_KRK_CMDID);
}
-A_STATUS
+int
wmi_deleteKey_cmd(struct wmi_t *wmip, A_UINT8 keyIndex)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_setPmkid_cmd(struct wmi_t *wmip, A_UINT8 *bssid, A_UINT8 *pmkId,
A_BOOL set)
{
return (wmi_cmd_send(wmip, osbuf, WMI_SET_PMKID_CMDID, NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_tkip_countermeasures_cmd(struct wmi_t *wmip, A_BOOL en)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_akmp_params_cmd(struct wmi_t *wmip,
WMI_SET_AKMP_PARAMS_CMD *akmpParams)
{
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_pmkid_list_cmd(struct wmi_t *wmip,
WMI_SET_PMKID_LIST_CMD *pmkInfo)
{
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_get_pmkid_list_cmd(struct wmi_t *wmip)
{
return wmi_simple_cmd(wmip, WMI_GET_PMKID_LIST_CMDID);
}
-A_STATUS
+int
wmi_dataSync_send(struct wmi_t *wmip, void *osbuf, HTC_ENDPOINT_ID eid)
{
WMI_DATA_HDR *dtHdr;
void *osbuf;
}WMI_DATA_SYNC_BUFS;
-static A_STATUS
+static int
wmi_sync_point(struct wmi_t *wmip)
{
void *cmd_osbuf;
WMI_SYNC_CMD *cmd;
WMI_DATA_SYNC_BUFS dataSyncBufs[WMM_NUM_AC];
A_UINT8 i,numPriStreams=0;
- A_STATUS status = A_OK;
+ int status = A_OK;
A_DPRINTF(DBG_WMI, (DBGFMT "Enter\n", DBGARG));
return (status);
}
-A_STATUS
+int
wmi_create_pstream_cmd(struct wmi_t *wmip, WMI_CREATE_PSTREAM_CMD *params)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_delete_pstream_cmd(struct wmi_t *wmip, A_UINT8 trafficClass, A_UINT8 tsid)
{
void *osbuf;
WMI_DELETE_PSTREAM_CMD *cmd;
- A_STATUS status;
+ int status;
A_UINT16 activeTsids=0;
/* validate the parameters */
return status;
}
-A_STATUS
+int
wmi_set_framerate_cmd(struct wmi_t *wmip, A_UINT8 bEnable, A_UINT8 type, A_UINT8 subType, A_UINT16 rateMask)
{
void *osbuf;
* used to set the bit rate. rate is in Kbps. If rate == -1
* then auto selection is used.
*/
-A_STATUS
+int
wmi_set_bitrate_cmd(struct wmi_t *wmip, A_INT32 dataRate, A_INT32 mgmtRate, A_INT32 ctlRate)
{
void *osbuf;
return (wmi_cmd_send(wmip, osbuf, WMI_SET_BITRATE_CMDID, NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_get_bitrate_cmd(struct wmi_t *wmip)
{
return wmi_simple_cmd(wmip, WMI_GET_BITRATE_CMDID);
return A_OK;
}
-A_STATUS
+int
wmi_set_fixrates_cmd(struct wmi_t *wmip, A_UINT32 fixRatesMask)
{
void *osbuf;
return (wmi_cmd_send(wmip, osbuf, WMI_SET_FIXRATES_CMDID, NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_get_ratemask_cmd(struct wmi_t *wmip)
{
return wmi_simple_cmd(wmip, WMI_GET_FIXRATES_CMDID);
}
-A_STATUS
+int
wmi_get_channelList_cmd(struct wmi_t *wmip)
{
return wmi_simple_cmd(wmip, WMI_GET_CHANNEL_LIST_CMDID);
* should limit its operation to. It should be NULL if numChan == 0. Size of
* array should correspond to numChan entries.
*/
-A_STATUS
+int
wmi_set_channelParams_cmd(struct wmi_t *wmip, A_UINT8 scanParam,
WMI_PHY_MODE mode, A_INT8 numChan,
A_UINT16 *channelList)
}
}
-A_STATUS
+int
wmi_set_rssi_threshold_params(struct wmi_t *wmip,
WMI_RSSI_THRESHOLD_PARAMS_CMD *rssiCmd)
{
return (wmi_send_rssi_threshold_params(wmip, rssiCmd));
}
-A_STATUS
+int
wmi_set_ip_cmd(struct wmi_t *wmip, WMI_SET_IP_CMD *ipCmd)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_host_sleep_mode_cmd(struct wmi_t *wmip,
WMI_SET_HOST_SLEEP_MODE_CMD *hostModeCmd)
{
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_wow_mode_cmd(struct wmi_t *wmip,
WMI_SET_WOW_MODE_CMD *wowModeCmd)
{
}
-A_STATUS
+int
wmi_get_wow_list_cmd(struct wmi_t *wmip,
WMI_GET_WOW_LIST_CMD *wowListCmd)
{
}
-static A_STATUS
+static int
wmi_get_wow_list_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_GET_WOW_LIST_REPLY *reply;
return A_OK;
}
-A_STATUS wmi_add_wow_pattern_cmd(struct wmi_t *wmip,
+int wmi_add_wow_pattern_cmd(struct wmi_t *wmip,
WMI_ADD_WOW_PATTERN_CMD *addWowCmd,
A_UINT8* pattern, A_UINT8* mask,
A_UINT8 pattern_size)
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_del_wow_pattern_cmd(struct wmi_t *wmip,
WMI_DEL_WOW_PATTERN_CMD *delWowCmd)
{
}
}
-A_STATUS
+int
wmi_set_snr_threshold_params(struct wmi_t *wmip,
WMI_SNR_THRESHOLD_PARAMS_CMD *snrCmd)
{
return (wmi_send_snr_threshold_params(wmip, snrCmd));
}
-A_STATUS
+int
wmi_clr_rssi_snr(struct wmi_t *wmip)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_lq_threshold_params(struct wmi_t *wmip,
WMI_LQ_THRESHOLD_PARAMS_CMD *lqCmd)
{
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_error_report_bitmask(struct wmi_t *wmip, A_UINT32 mask)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_get_challenge_resp_cmd(struct wmi_t *wmip, A_UINT32 cookie, A_UINT32 source)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_config_debug_module_cmd(struct wmi_t *wmip, A_UINT16 mmask,
A_UINT16 tsr, A_BOOL rep, A_UINT16 size,
A_UINT32 valid)
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_get_stats_cmd(struct wmi_t *wmip)
{
return wmi_simple_cmd(wmip, WMI_GET_STATISTICS_CMDID);
}
-A_STATUS
+int
wmi_addBadAp_cmd(struct wmi_t *wmip, A_UINT8 apIndex, A_UINT8 *bssid)
{
void *osbuf;
return (wmi_cmd_send(wmip, osbuf, WMI_ADD_BAD_AP_CMDID, SYNC_BEFORE_WMIFLAG));
}
-A_STATUS
+int
wmi_deleteBadAp_cmd(struct wmi_t *wmip, A_UINT8 apIndex)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_abort_scan_cmd(struct wmi_t *wmip)
{
return wmi_simple_cmd(wmip, WMI_ABORT_SCAN_CMDID);
}
-A_STATUS
+int
wmi_set_txPwr_cmd(struct wmi_t *wmip, A_UINT8 dbM)
{
void *osbuf;
return (wmi_cmd_send(wmip, osbuf, WMI_SET_TX_PWR_CMDID, NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_get_txPwr_cmd(struct wmi_t *wmip)
{
return wmi_simple_cmd(wmip, WMI_GET_TX_PWR_CMDID);
return activeTsids;
}
-A_STATUS
+int
wmi_get_roam_tbl_cmd(struct wmi_t *wmip)
{
return wmi_simple_cmd(wmip, WMI_GET_ROAM_TBL_CMDID);
}
-A_STATUS
+int
wmi_get_roam_data_cmd(struct wmi_t *wmip, A_UINT8 roamDataType)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_roam_ctrl_cmd(struct wmi_t *wmip, WMI_SET_ROAM_CTRL_CMD *p,
A_UINT8 size)
{
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_powersave_timers_cmd(struct wmi_t *wmip,
WMI_POWERSAVE_TIMERS_POLICY_CMD *pCmd,
A_UINT8 size)
#ifdef CONFIG_HOST_GPIO_SUPPORT
/* Send a command to Target to change GPIO output pins. */
-A_STATUS
+int
wmi_gpio_output_set(struct wmi_t *wmip,
A_UINT32 set_mask,
A_UINT32 clear_mask,
}
/* Send a command to the Target requesting state of the GPIO input pins */
-A_STATUS
+int
wmi_gpio_input_get(struct wmi_t *wmip)
{
A_DPRINTF(DBG_WMI, (DBGFMT "Enter\n", DBGARG));
}
/* Send a command to the Target that changes the value of a GPIO register. */
-A_STATUS
+int
wmi_gpio_register_set(struct wmi_t *wmip,
A_UINT32 gpioreg_id,
A_UINT32 value)
}
/* Send a command to the Target to fetch the value of a GPIO register. */
-A_STATUS
+int
wmi_gpio_register_get(struct wmi_t *wmip,
A_UINT32 gpioreg_id)
{
}
/* Send a command to the Target acknowledging some GPIO interrupts. */
-A_STATUS
+int
wmi_gpio_intr_ack(struct wmi_t *wmip,
A_UINT32 ack_mask)
{
}
#endif /* CONFIG_HOST_GPIO_SUPPORT */
-A_STATUS
+int
wmi_set_access_params_cmd(struct wmi_t *wmip, A_UINT8 ac, A_UINT16 txop, A_UINT8 eCWmin,
A_UINT8 eCWmax, A_UINT8 aifsn)
{
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_retry_limits_cmd(struct wmi_t *wmip, A_UINT8 frameType,
A_UINT8 trafficClass, A_UINT8 maxRetries,
A_UINT8 enableNotify)
}
}
-A_STATUS
+int
wmi_set_opt_mode_cmd(struct wmi_t *wmip, A_UINT8 optMode)
{
void *osbuf;
SYNC_BOTH_WMIFLAG));
}
-A_STATUS
+int
wmi_opt_tx_frame_cmd(struct wmi_t *wmip,
A_UINT8 frmType,
A_UINT8 *dstMacAddr,
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_adhoc_bconIntvl_cmd(struct wmi_t *wmip, A_UINT16 intvl)
{
void *osbuf;
}
-A_STATUS
+int
wmi_set_voice_pkt_size_cmd(struct wmi_t *wmip, A_UINT16 voicePktSize)
{
void *osbuf;
}
-A_STATUS
+int
wmi_set_max_sp_len_cmd(struct wmi_t *wmip, A_UINT8 maxSPLen)
{
void *osbuf;
return wmip->wmi_powerMode;
}
-A_STATUS
+int
wmi_verify_tspec_params(WMI_CREATE_PSTREAM_CMD *pCmd, A_BOOL tspecCompliance)
{
- A_STATUS ret = A_OK;
+ int ret = A_OK;
#define TSPEC_SUSPENSION_INTERVAL_ATHEROS_DEF (~0)
#define TSPEC_SERVICE_START_TIME_ATHEROS_DEF 0
}
#ifdef CONFIG_HOST_TCMD_SUPPORT
-static A_STATUS
+static int
wmi_tcmd_test_report_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
#endif /* CONFIG_HOST_TCMD_SUPPORT*/
-A_STATUS
+int
wmi_set_authmode_cmd(struct wmi_t *wmip, A_UINT8 mode)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_reassocmode_cmd(struct wmi_t *wmip, A_UINT8 mode)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_lpreamble_cmd(struct wmi_t *wmip, A_UINT8 status, A_UINT8 preamblePolicy)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_rts_cmd(struct wmi_t *wmip, A_UINT16 threshold)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_wmm_cmd(struct wmi_t *wmip, WMI_WMM_STATUS status)
{
void *osbuf;
}
-A_STATUS
+int
wmi_set_qos_supp_cmd(struct wmi_t *wmip, A_UINT8 status)
{
void *osbuf;
}
-A_STATUS
+int
wmi_set_wmm_txop(struct wmi_t *wmip, WMI_TXOP_CFG cfg)
{
void *osbuf;
}
-A_STATUS
+int
wmi_set_country(struct wmi_t *wmip, A_UCHAR *countryCode)
{
void *osbuf;
This would be beneficial for customers like Qualcomm, who might
have different test command requirements from differnt manufacturers
*/
-A_STATUS
+int
wmi_test_cmd(struct wmi_t *wmip, A_UINT8 *buf, A_UINT32 len)
{
void *osbuf;
#endif
-A_STATUS
+int
wmi_set_bt_status_cmd(struct wmi_t *wmip, A_UINT8 streamType, A_UINT8 status)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_bt_params_cmd(struct wmi_t *wmip, WMI_SET_BT_PARAMS_CMD* cmd)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_btcoex_fe_ant_cmd(struct wmi_t *wmip, WMI_SET_BTCOEX_FE_ANT_CMD * cmd)
{
void *osbuf;
}
-A_STATUS
+int
wmi_set_btcoex_colocated_bt_dev_cmd(struct wmi_t *wmip,
WMI_SET_BTCOEX_COLOCATED_BT_DEV_CMD * cmd)
{
}
-A_STATUS
+int
wmi_set_btcoex_btinquiry_page_config_cmd(struct wmi_t *wmip,
WMI_SET_BTCOEX_BTINQUIRY_PAGE_CONFIG_CMD* cmd)
{
}
-A_STATUS
+int
wmi_set_btcoex_sco_config_cmd(struct wmi_t *wmip,
WMI_SET_BTCOEX_SCO_CONFIG_CMD * cmd)
{
}
-A_STATUS
+int
wmi_set_btcoex_a2dp_config_cmd(struct wmi_t *wmip,
WMI_SET_BTCOEX_A2DP_CONFIG_CMD * cmd)
{
}
-A_STATUS
+int
wmi_set_btcoex_aclcoex_config_cmd(struct wmi_t *wmip,
WMI_SET_BTCOEX_ACLCOEX_CONFIG_CMD * cmd)
{
}
-A_STATUS
+int
wmi_set_btcoex_debug_cmd(struct wmi_t *wmip, WMI_SET_BTCOEX_DEBUG_CMD * cmd)
{
void *osbuf;
}
-A_STATUS
+int
wmi_set_btcoex_bt_operating_status_cmd(struct wmi_t * wmip,
WMI_SET_BTCOEX_BT_OPERATING_STATUS_CMD * cmd)
{
}
-A_STATUS
+int
wmi_get_btcoex_config_cmd(struct wmi_t * wmip, WMI_GET_BTCOEX_CONFIG_CMD * cmd)
{
void *osbuf;
}
-A_STATUS
+int
wmi_get_btcoex_stats_cmd(struct wmi_t *wmip)
{
}
-A_STATUS
+int
wmi_get_keepalive_configured(struct wmi_t *wmip)
{
void *osbuf;
return wmip->wmi_keepaliveInterval;
}
-A_STATUS
+int
wmi_set_keepalive_cmd(struct wmi_t *wmip, A_UINT8 keepaliveInterval)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_params_cmd(struct wmi_t *wmip, A_UINT32 opcode, A_UINT32 length, A_CHAR* buffer)
{
void *osbuf;
}
-A_STATUS
+int
wmi_set_mcast_filter_cmd(struct wmi_t *wmip, A_UINT8 dot1, A_UINT8 dot2, A_UINT8 dot3, A_UINT8 dot4)
{
void *osbuf;
}
-A_STATUS
+int
wmi_del_mcast_filter_cmd(struct wmi_t *wmip, A_UINT8 dot1, A_UINT8 dot2, A_UINT8 dot3, A_UINT8 dot4)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_mcast_filter_cmd(struct wmi_t *wmip, A_UINT8 enable)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_appie_cmd(struct wmi_t *wmip, A_UINT8 mgmtFrmType, A_UINT8 ieLen,
A_UINT8 *ieInfo)
{
return (wmi_cmd_send(wmip, osbuf, WMI_SET_APPIE_CMDID, NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_halparam_cmd(struct wmi_t *wmip, A_UINT8 *cmd, A_UINT16 dataLen)
{
void *osbuf;
return;
}
-A_STATUS
+int
wmi_dset_open_reply(struct wmi_t *wmip,
A_UINT32 status,
A_UINT32 access_cookie,
NO_SYNC_WMIFLAG));
}
-static A_STATUS
+static int
wmi_get_pmkid_list_event_rx(struct wmi_t *wmip, A_UINT8 *datap, A_UINT32 len)
{
WMI_PMKID_LIST_REPLY *reply;
}
-static A_STATUS
+static int
wmi_set_params_event_rx(struct wmi_t *wmip, A_UINT8 *datap, A_UINT32 len)
{
WMI_SET_PARAMS_REPLY *reply;
-static A_STATUS
+static int
wmi_acm_reject_event_rx(struct wmi_t *wmip, A_UINT8 *datap, A_UINT32 len)
{
WMI_ACM_REJECT_EVENT *ev;
#ifdef CONFIG_HOST_DSET_SUPPORT
-A_STATUS
+int
wmi_dset_data_reply(struct wmi_t *wmip,
A_UINT32 status,
A_UINT8 *user_buf,
}
#endif /* CONFIG_HOST_DSET_SUPPORT */
-A_STATUS
+int
wmi_set_wsc_status_cmd(struct wmi_t *wmip, A_UINT32 status)
{
void *osbuf;
}
#if defined(CONFIG_TARGET_PROFILE_SUPPORT)
-A_STATUS
+int
wmi_prof_cfg_cmd(struct wmi_t *wmip,
A_UINT32 period,
A_UINT32 nbins)
return (wmi_cmd_send_xtnd(wmip, osbuf, WMIX_PROF_CFG_CMDID, NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_prof_addr_set_cmd(struct wmi_t *wmip, A_UINT32 addr)
{
void *osbuf;
return (wmi_cmd_send_xtnd(wmip, osbuf, WMIX_PROF_ADDR_SET_CMDID, NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_prof_start_cmd(struct wmi_t *wmip)
{
return wmi_simple_cmd_xtnd(wmip, WMIX_PROF_START_CMDID);
}
-A_STATUS
+int
wmi_prof_stop_cmd(struct wmi_t *wmip)
{
return wmi_simple_cmd_xtnd(wmip, WMIX_PROF_STOP_CMDID);
}
-A_STATUS
+int
wmi_prof_count_get_cmd(struct wmi_t *wmip)
{
return wmi_simple_cmd_xtnd(wmip, WMIX_PROF_COUNT_GET_CMDID);
}
/* Called to handle WMIX_PROF_CONT_EVENTID */
-static A_STATUS
+static int
wmi_prof_count_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMIX_PROF_COUNT_EVENT *prof_data = (WMIX_PROF_COUNT_EVENT *)datap;
return threshold;
}
-static A_STATUS
+static int
wmi_send_rssi_threshold_params(struct wmi_t *wmip,
WMI_RSSI_THRESHOLD_PARAMS_CMD *rssiCmd)
{
return (wmi_cmd_send(wmip, osbuf, WMI_RSSI_THRESHOLD_PARAMS_CMDID,
NO_SYNC_WMIFLAG));
}
-static A_STATUS
+static int
wmi_send_snr_threshold_params(struct wmi_t *wmip,
WMI_SNR_THRESHOLD_PARAMS_CMD *snrCmd)
{
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_target_event_report_cmd(struct wmi_t *wmip, WMI_SET_TARGET_EVENT_REPORT_CMD* cmd)
{
void *osbuf;
return wlan_node_remove (&wmip->wmi_scan_table, id);
}
-A_STATUS wmi_add_current_bss (struct wmi_t *wmip, A_UINT8 *id, bss_t *bss)
+int wmi_add_current_bss (struct wmi_t *wmip, A_UINT8 *id, bss_t *bss)
{
wlan_setup_node (&wmip->wmi_scan_table, bss, id);
return A_OK;
}
#ifdef ATH_AR6K_11N_SUPPORT
-static A_STATUS
+static int
wmi_addba_req_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_ADDBA_REQ_EVENT *cmd = (WMI_ADDBA_REQ_EVENT *)datap;
}
-static A_STATUS
+static int
wmi_addba_resp_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_ADDBA_RESP_EVENT *cmd = (WMI_ADDBA_RESP_EVENT *)datap;
return A_OK;
}
-static A_STATUS
+static int
wmi_delba_req_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_DELBA_EVENT *cmd = (WMI_DELBA_EVENT *)datap;
return A_OK;
}
-A_STATUS
+int
wmi_btcoex_config_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
A_DPRINTF(DBG_WMI, (DBGFMT "Enter\n", DBGARG));
}
-A_STATUS
+int
wmi_btcoex_stats_event_rx(struct wmi_t * wmip,A_UINT8 * datap,int len)
{
A_DPRINTF(DBG_WMI, (DBGFMT "Enter\n", DBGARG));
}
#endif
-static A_STATUS
+static int
wmi_hci_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_HCI_EVENT *cmd = (WMI_HCI_EVENT *)datap;
* commit cmd will not be sent to target. Without calling this IOCTL
* the changes will not take effect.
*/
-A_STATUS
+int
wmi_ap_profile_commit(struct wmi_t *wmip, WMI_CONNECT_CMD *p)
{
void *osbuf;
* This command will be used to enable/disable hidden ssid functioanlity of
* beacon. If it is enabled, ssid will be NULL in beacon.
*/
-A_STATUS
+int
wmi_ap_set_hidden_ssid(struct wmi_t *wmip, A_UINT8 hidden_ssid)
{
void *osbuf;
* is max num of STA supported by AP). Value was already validated
* in ioctl.c
*/
-A_STATUS
+int
wmi_ap_set_num_sta(struct wmi_t *wmip, A_UINT8 num_sta)
{
void *osbuf;
* be allowed to connect with this AP. When this list is empty
* firware will allow all STAs till the count reaches AP_MAX_NUM_STA.
*/
-A_STATUS
+int
wmi_ap_acl_mac_list(struct wmi_t *wmip, WMI_AP_ACL_MAC_CMD *acl)
{
void *osbuf;
* be allowed to connect with this AP. When this list is empty
* firware will allow all STAs till the count reaches AP_MAX_NUM_STA.
*/
-A_STATUS
+int
wmi_ap_set_mlme(struct wmi_t *wmip, A_UINT8 cmd, A_UINT8 *mac, A_UINT16 reason)
{
void *osbuf;
return (wmi_cmd_send(wmip, osbuf, WMI_AP_SET_MLME_CMDID, NO_SYNC_WMIFLAG));
}
-static A_STATUS
+static int
wmi_pspoll_event_rx(struct wmi_t *wmip, A_UINT8 *datap, int len)
{
WMI_PSPOLL_EVENT *ev;
return A_OK;
}
-static A_STATUS
+static int
wmi_dtimexpiry_event_rx(struct wmi_t *wmip, A_UINT8 *datap,int len)
{
A_WMI_DTIMEXPIRY_EVENT(wmip->wmi_devt);
}
#ifdef WAPI_ENABLE
-static A_STATUS
+static int
wmi_wapi_rekey_event_rx(struct wmi_t *wmip, A_UINT8 *datap,int len)
{
A_UINT8 *ev;
}
#endif
-A_STATUS
+int
wmi_set_pvb_cmd(struct wmi_t *wmip, A_UINT16 aid, A_BOOL flag)
{
WMI_AP_SET_PVB_CMD *cmd;
return (wmi_cmd_send(wmip, osbuf, WMI_AP_SET_PVB_CMDID, NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_ap_conn_inact_time(struct wmi_t *wmip, A_UINT32 period)
{
WMI_AP_CONN_INACT_CMD *cmd;
return (wmi_cmd_send(wmip, osbuf, WMI_AP_CONN_INACT_CMDID, NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_ap_bgscan_time(struct wmi_t *wmip, A_UINT32 period, A_UINT32 dwell)
{
WMI_AP_PROT_SCAN_TIME_CMD *cmd;
return (wmi_cmd_send(wmip, osbuf, WMI_AP_PROT_SCAN_TIME_CMDID, NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_ap_set_dtim(struct wmi_t *wmip, A_UINT8 dtim)
{
WMI_AP_SET_DTIM_CMD *cmd;
* OR with AP_ACL_RETAIN_LIST_MASK, else the existing list will be cleared.
* If there is no chage in policy, the list will be intact.
*/
-A_STATUS
+int
wmi_ap_set_acl_policy(struct wmi_t *wmip, A_UINT8 policy)
{
void *osbuf;
return (wmi_cmd_send(wmip, osbuf, WMI_AP_ACL_POLICY_CMDID, NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_ap_set_rateset(struct wmi_t *wmip, A_UINT8 rateset)
{
void *osbuf;
}
#ifdef ATH_AR6K_11N_SUPPORT
-A_STATUS
+int
wmi_set_ht_cap_cmd(struct wmi_t *wmip, WMI_SET_HT_CAP_CMD *cmd)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_ht_op_cmd(struct wmi_t *wmip, A_UINT8 sta_chan_width)
{
void *osbuf;
}
#endif
-A_STATUS
+int
wmi_set_tx_select_rates_cmd(struct wmi_t *wmip, A_UINT32 *pMaskArray)
{
void *osbuf;
}
-A_STATUS
+int
wmi_send_hci_cmd(struct wmi_t *wmip, A_UINT8 *buf, A_UINT16 sz)
{
void *osbuf;
}
#ifdef ATH_AR6K_11N_SUPPORT
-A_STATUS
+int
wmi_allow_aggr_cmd(struct wmi_t *wmip, A_UINT16 tx_tidmask, A_UINT16 rx_tidmask)
{
void *osbuf;
return (wmi_cmd_send(wmip, osbuf, WMI_ALLOW_AGGR_CMDID, NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_setup_aggr_cmd(struct wmi_t *wmip, A_UINT8 tid)
{
void *osbuf;
return (wmi_cmd_send(wmip, osbuf, WMI_ADDBA_REQ_CMDID, NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_delete_aggr_cmd(struct wmi_t *wmip, A_UINT8 tid, A_BOOL uplink)
{
void *osbuf;
}
#endif
-A_STATUS
+int
wmi_set_rx_frame_format_cmd(struct wmi_t *wmip, A_UINT8 rxMetaVersion,
A_BOOL rxDot11Hdr, A_BOOL defragOnHost)
{
}
-A_STATUS
+int
wmi_set_thin_mode_cmd(struct wmi_t *wmip, A_BOOL bThinMode)
{
void *osbuf;
}
-A_STATUS
+int
wmi_set_wlan_conn_precedence_cmd(struct wmi_t *wmip, BT_WLAN_CONN_PRECEDENCE precedence)
{
void *osbuf;
NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_set_pmk_cmd(struct wmi_t *wmip, A_UINT8 *pmk)
{
void *osbuf;
return (wmi_cmd_send(wmip, osbuf, WMI_SET_PMK_CMDID, NO_SYNC_WMIFLAG));
}
-A_STATUS
+int
wmi_SGI_cmd(struct wmi_t *wmip, A_UINT32 sgiMask, A_UINT8 sgiPERThreshold)
{
void *osbuf;
git.openpandora.org / pandora-kernel.git / commitdiff