/*
* ======== WMD_CHNL_AddIOReq ========
* Enqueue an I/O request for data transfer on a channel to the DSP.
* The direction (mode) is specified in the channel object. Note the DSP
* address is specified for channels opened in direct I/O mode.
*/
DSP_STATUS WMD_CHNL_AddIOReq(struct CHNL_OBJECT *hChnl, void *pHostBuf,
u32 cBytes, u32 cBufSize,
OPTIONAL u32 dwDspAddr, u32 dwArg)
{
DSP_STATUS status = DSP_SOK;
struct CHNL_OBJECT *pChnl = (struct CHNL_OBJECT *)hChnl;
struct CHNL_IRP *pChirp = NULL;
struct WMD_DEV_CONTEXT *dev_ctxt;
struct DEV_OBJECT *dev_obj;
u32 dwState;
bool fIsEOS;
struct CHNL_MGR *pChnlMgr = pChnl->pChnlMgr;
u8 *pHostSysBuf = NULL;
bool fSchedDPC = false;
u16 wMbVal = 0;
fIsEOS = (cBytes == 0);
/* Validate args: */
if (pHostBuf == NULL) {
status = DSP_EPOINTER;
} else if (!MEM_IsValidHandle(pChnl, CHNL_SIGNATURE)) {
status = DSP_EHANDLE;
} else if (fIsEOS && CHNL_IsInput(pChnl->uMode)) {
status = CHNL_E_NOEOS;
} else {
/* Check the channel state: only queue chirp if channel state
* allows */
dwState = pChnl->dwState;
if (dwState != CHNL_STATEREADY) {
if (dwState & CHNL_STATECANCEL)
status = CHNL_E_CANCELLED;
else if ((dwState & CHNL_STATEEOS)
&& CHNL_IsOutput(pChnl->uMode))
status = CHNL_E_EOS;
else
/* No other possible states left: */
DBC_Assert(0);
}
}
dev_obj = DEV_GetFirst();
DEV_GetWMDContext(dev_obj, &dev_ctxt);
if (!dev_ctxt)
status = DSP_EHANDLE;
if (DSP_FAILED(status))
goto func_end;
if (pChnl->uChnlType == CHNL_PCPY && pChnl->uId > 1 && pHostBuf) {
if (!(pHostBuf < (void *)USERMODE_ADDR)) {
pHostSysBuf = pHostBuf;
goto func_cont;
}
/* if addr in user mode, then copy to kernel space */
pHostSysBuf = MEM_Alloc(cBufSize, MEM_NONPAGED);
if (pHostSysBuf == NULL) {
status = DSP_EMEMORY;
goto func_end;
}
if (CHNL_IsOutput(pChnl->uMode)) {
status = copy_from_user(pHostSysBuf, pHostBuf,
cBufSize);
if (status) {
kfree(pHostSysBuf);
pHostSysBuf = NULL;
status = DSP_EPOINTER;
goto func_end;
}
}
}
func_cont:
/* Mailbox IRQ is disabled to avoid race condition with DMA/ZCPY
* channels. DPCCS is held to avoid race conditions with PCPY channels.
* If DPC is scheduled in process context (IO_Schedule) and any
* non-mailbox interrupt occurs, that DPC will run and break CS. Hence
* we disable ALL DPCs. We will try to disable ONLY IO DPC later. */
SYNC_EnterCS(pChnlMgr->hCSObj);
omap_mbox_disable_irq(dev_ctxt->mbox, IRQ_RX);
if (pChnl->uChnlType == CHNL_PCPY) {
/* This is a processor-copy channel. */
if (DSP_SUCCEEDED(status) && CHNL_IsOutput(pChnl->uMode)) {
/* Check buffer size on output channels for fit. */
if (cBytes > IO_BufSize(pChnl->pChnlMgr->hIOMgr))
status = CHNL_E_BUFSIZE;
}
}
if (DSP_SUCCEEDED(status)) {
/* Get a free chirp: */
pChirp = (struct CHNL_IRP *)LST_GetHead(pChnl->pFreeList);
if (pChirp == NULL)
status = CHNL_E_NOIORPS;
}
if (DSP_SUCCEEDED(status)) {
/* Enqueue the chirp on the chnl's IORequest queue: */
pChirp->pHostUserBuf = pChirp->pHostSysBuf = pHostBuf;
if (pChnl->uChnlType == CHNL_PCPY && pChnl->uId > 1)
pChirp->pHostSysBuf = pHostSysBuf;
/*
* Note: for dma chans dwDspAddr contains dsp address
* of SM buffer.
*/
DBC_Assert(pChnlMgr->uWordSize != 0);
/* DSP address */
pChirp->uDspAddr = dwDspAddr / pChnlMgr->uWordSize;
pChirp->cBytes = cBytes;
pChirp->cBufSize = cBufSize;
/* Only valid for output channel */
pChirp->dwArg = dwArg;
pChirp->status = (fIsEOS ? CHNL_IOCSTATEOS :
CHNL_IOCSTATCOMPLETE);
LST_PutTail(pChnl->pIORequests, (struct list_head *)pChirp);
pChnl->cIOReqs++;
DBC_Assert(pChnl->cIOReqs <= pChnl->cChirps);
/* If end of stream, update the channel state to prevent
* more IOR's: */
if (fIsEOS)
pChnl->dwState |= CHNL_STATEEOS;
/* Legacy DSM Processor-Copy */
DBC_Assert(pChnl->uChnlType == CHNL_PCPY);
/* Request IO from the DSP */
IO_RequestChnl(pChnlMgr->hIOMgr, pChnl,
(CHNL_IsInput(pChnl->uMode) ? IO_INPUT : IO_OUTPUT),
&wMbVal);
fSchedDPC = true;
}
omap_mbox_enable_irq(dev_ctxt->mbox, IRQ_RX);
SYNC_LeaveCS(pChnlMgr->hCSObj);
if (wMbVal != 0)
IO_IntrDSP2(pChnlMgr->hIOMgr, wMbVal);
/* Schedule a DPC, to do the actual data transfer: */
if (fSchedDPC)
IO_Schedule(pChnlMgr->hIOMgr);
func_end:
return status;
}
/*
* ======== WMD_MSG_Put ========
* Put a message onto a MSG queue.
*/
DSP_STATUS WMD_MSG_Put(struct MSG_QUEUE *hMsgQueue,
IN CONST struct DSP_MSG *pMsg, u32 uTimeout)
{
struct MSG_FRAME *pMsgFrame;
struct MSG_MGR *hMsgMgr;
bool fPutMsg = false;
struct SYNC_OBJECT *hSyncs[2];
u32 uIndex;
DSP_STATUS status = DSP_SOK;
DBC_Require(MEM_IsValidHandle(hMsgQueue, MSGQ_SIGNATURE));
DBC_Require(pMsg != NULL);
hMsgMgr = hMsgQueue->hMsgMgr;
if (!hMsgMgr->msgFreeList) {
status = DSP_EHANDLE;
goto func_end;
}
(void) SYNC_EnterCS(hMsgMgr->hSyncCS);
/* If a message frame is available, use it */
if (!LST_IsEmpty(hMsgMgr->msgFreeList)) {
pMsgFrame = (struct MSG_FRAME *)LST_GetHead(hMsgMgr->
msgFreeList);
if (pMsgFrame != NULL) {
pMsgFrame->msgData.msg = *pMsg;
pMsgFrame->msgData.dwId = hMsgQueue->dwId;
LST_PutTail(hMsgMgr->msgUsedList, (struct LST_ELEM *)
pMsgFrame);
hMsgMgr->uMsgsPending++;
fPutMsg = true;
}
if (LST_IsEmpty(hMsgMgr->msgFreeList))
SYNC_ResetEvent(hMsgMgr->hSyncEvent);
/* Release critical section before scheduling DPC */
(void)SYNC_LeaveCS(hMsgMgr->hSyncCS);
/* Schedule a DPC, to do the actual data transfer: */
IO_Schedule(hMsgMgr->hIOMgr);
} else {
if (hMsgQueue->fDone)
status = DSP_EFAIL;
else
hMsgQueue->refCount++;
(void)SYNC_LeaveCS(hMsgMgr->hSyncCS);
}
if (DSP_SUCCEEDED(status) && !fPutMsg) {
/* Wait til a free message frame is available, timeout,
* or done */
hSyncs[0] = hMsgMgr->hSyncEvent;
hSyncs[1] = hMsgQueue->hSyncDone;
status = SYNC_WaitOnMultipleEvents(hSyncs, 2, uTimeout,
&uIndex);
/* Enter critical section */
(void)SYNC_EnterCS(hMsgMgr->hSyncCS);
if (hMsgQueue->fDone) {
hMsgQueue->refCount--;
/* Exit critical section */
(void)SYNC_LeaveCS(hMsgMgr->hSyncCS);
/* Signal that we're not going to access hMsgQueue
* anymore, so it can be deleted. */
(void)SYNC_SetEvent(hMsgQueue->hSyncDoneAck);
status = DSP_EFAIL;
} else {
if (DSP_SUCCEEDED(status)) {
if (LST_IsEmpty(hMsgMgr->msgFreeList)) {
status = DSP_EPOINTER;
goto func_cont;
}
/* Get msg from free list */
pMsgFrame = (struct MSG_FRAME *)
LST_GetHead(hMsgMgr->msgFreeList);
/* Copy message into pMsg and put frame on the
* used list */
if (pMsgFrame != NULL) {
pMsgFrame->msgData.msg = *pMsg;
pMsgFrame->msgData.dwId =
hMsgQueue->dwId;
LST_PutTail(hMsgMgr->msgUsedList,
(struct LST_ELEM *)
pMsgFrame);
hMsgMgr->uMsgsPending++;
/* Schedule a DPC, to do the actual
* data transfer: */
IO_Schedule(hMsgMgr->hIOMgr);
}
}
hMsgQueue->refCount--;
/* Reset event if there are still frames available */
if (!LST_IsEmpty(hMsgMgr->msgFreeList))
SYNC_SetEvent(hMsgMgr->hSyncEvent);
func_cont:
/* Exit critical section */
(void) SYNC_LeaveCS(hMsgMgr->hSyncCS);
}
}
func_end:
return status;
}
