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- //------------------------------------------------------------------------------
- // File: OutputQ.cpp
- //
- // Desc: DirectShow base classes - implements COutputQueue class used by an
- // output pin which may sometimes want to queue output samples on a
- // separate thread and sometimes call Receive() directly on the input
- // pin.
- //
- // Copyright (c) 1992-2001 Microsoft Corporation. All rights reserved.
- //------------------------------------------------------------------------------
- #include <streams.h>
- //
- // COutputQueue Constructor :
- //
- // Determines if a thread is to be created and creates resources
- //
- // pInputPin - the downstream input pin we're queueing samples to
- //
- // phr - changed to a failure code if this function fails
- // (otherwise unchanges)
- //
- // bAuto - Ask pInputPin if it can block in Receive by calling
- // its ReceiveCanBlock method and create a thread if
- // it can block, otherwise not.
- //
- // bQueue - if bAuto == FALSE then we create a thread if and only
- // if bQueue == TRUE
- //
- // lBatchSize - work in batches of lBatchSize
- //
- // bBatchEact - Use exact batch sizes so don't send until the
- // batch is full or SendAnyway() is called
- //
- // lListSize - If we create a thread make the list of samples queued
- // to the thread have this size cache
- //
- // dwPriority - If we create a thread set its priority to this
- //
- COutputQueue::COutputQueue(
- IPin *pInputPin, // Pin to send stuff to
- __inout HRESULT *phr, // 'Return code'
- BOOL bAuto, // Ask pin if queue or not
- BOOL bQueue, // Send through queue
- LONG lBatchSize, // Batch
- BOOL bBatchExact, // Batch exactly to BatchSize
- LONG lListSize,
- DWORD dwPriority,
- bool bFlushingOpt // flushing optimization
- ) : m_lBatchSize(lBatchSize),
- m_bBatchExact(bBatchExact && (lBatchSize > 1)),
- m_hThread(NULL),
- m_hSem(NULL),
- m_List(NULL),
- m_pPin(pInputPin),
- m_ppSamples(NULL),
- m_lWaiting(0),
- m_evFlushComplete(FALSE, phr),
- m_pInputPin(NULL),
- m_bSendAnyway(FALSE),
- m_nBatched(0),
- m_bFlushing(FALSE),
- m_bFlushed(TRUE),
- m_bFlushingOpt(bFlushingOpt),
- m_bTerminate(FALSE),
- m_hEventPop(NULL),
- m_hr(S_OK)
- {
- ASSERT(m_lBatchSize > 0);
- if (FAILED(*phr)) {
- return;
- }
- // Check the input pin is OK and cache its IMemInputPin interface
- *phr = pInputPin->QueryInterface(IID_IMemInputPin, (void **)&m_pInputPin);
- if (FAILED(*phr)) {
- return;
- }
- // See if we should ask the downstream pin
- if (bAuto) {
- HRESULT hr = m_pInputPin->ReceiveCanBlock();
- if (SUCCEEDED(hr)) {
- bQueue = hr == S_OK;
- }
- }
- // Create our sample batch
- m_ppSamples = new PMEDIASAMPLE[m_lBatchSize];
- if (m_ppSamples == NULL) {
- *phr = E_OUTOFMEMORY;
- return;
- }
- // If we're queueing allocate resources
- if (bQueue) {
- DbgLog((LOG_TRACE, 2, TEXT("Creating thread for output pin")));
- m_hSem = CreateSemaphore(NULL, 0, 0x7FFFFFFF, NULL);
- if (m_hSem == NULL) {
- DWORD dwError = GetLastError();
- *phr = AmHresultFromWin32(dwError);
- return;
- }
- m_List = new CSampleList(NAME("Sample Queue List"),
- lListSize,
- FALSE // No lock
- );
- if (m_List == NULL) {
- *phr = E_OUTOFMEMORY;
- return;
- }
- DWORD dwThreadId;
- m_hThread = CreateThread(NULL,
- 0,
- InitialThreadProc,
- (LPVOID)this,
- 0,
- &dwThreadId);
- if (m_hThread == NULL) {
- DWORD dwError = GetLastError();
- *phr = AmHresultFromWin32(dwError);
- return;
- }
- SetThreadPriority(m_hThread, dwPriority);
- } else {
- DbgLog((LOG_TRACE, 2, TEXT("Calling input pin directly - no thread")));
- }
- }
- //
- // COutputQueuee Destructor :
- //
- // Free all resources -
- //
- // Thread,
- // Batched samples
- //
- COutputQueue::~COutputQueue()
- {
- DbgLog((LOG_TRACE, 3, TEXT("COutputQueue::~COutputQueue")));
- /* Free our pointer */
- if (m_pInputPin != NULL) {
- m_pInputPin->Release();
- }
- if (m_hThread != NULL) {
- {
- CAutoLock lck(this);
- m_bTerminate = TRUE;
- m_hr = S_FALSE;
- NotifyThread();
- }
- DbgWaitForSingleObject(m_hThread);
- EXECUTE_ASSERT(CloseHandle(m_hThread));
- // The thread frees the samples when asked to terminate
- ASSERT(m_List->GetCount() == 0);
- delete m_List;
- } else {
- FreeSamples();
- }
- if (m_hSem != NULL) {
- EXECUTE_ASSERT(CloseHandle(m_hSem));
- }
- delete [] m_ppSamples;
- }
- //
- // Call the real thread proc as a member function
- //
- DWORD WINAPI COutputQueue::InitialThreadProc(__in LPVOID pv)
- {
- HRESULT hrCoInit = CAMThread::CoInitializeHelper();
-
- COutputQueue *pSampleQueue = (COutputQueue *)pv;
- DWORD dwReturn = pSampleQueue->ThreadProc();
- if(hrCoInit == S_OK) {
- CoUninitialize();
- }
-
- return dwReturn;
- }
- //
- // Thread sending the samples downstream :
- //
- // When there is nothing to do the thread sets m_lWaiting (while
- // holding the critical section) and then waits for m_hSem to be
- // set (not holding the critical section)
- //
- DWORD COutputQueue::ThreadProc()
- {
- while (TRUE) {
- BOOL bWait = FALSE;
- IMediaSample *pSample;
- LONG lNumberToSend; // Local copy
- NewSegmentPacket* ppacket;
- //
- // Get a batch of samples and send it if possible
- // In any case exit the loop if there is a control action
- // requested
- //
- {
- CAutoLock lck(this);
- while (TRUE) {
- if (m_bTerminate) {
- FreeSamples();
- return 0;
- }
- if (m_bFlushing) {
- FreeSamples();
- SetEvent(m_evFlushComplete);
- }
- // Get a sample off the list
- pSample = m_List->RemoveHead();
- // inform derived class we took something off the queue
- if (m_hEventPop) {
- //DbgLog((LOG_TRACE,3,TEXT("Queue: Delivered SET EVENT")));
- SetEvent(m_hEventPop);
- }
- if (pSample != NULL &&
- !IsSpecialSample(pSample)) {
- // If its just a regular sample just add it to the batch
- // and exit the loop if the batch is full
- m_ppSamples[m_nBatched++] = pSample;
- if (m_nBatched == m_lBatchSize) {
- break;
- }
- } else {
- // If there was nothing in the queue and there's nothing
- // to send (either because there's nothing or the batch
- // isn't full) then prepare to wait
- if (pSample == NULL &&
- (m_bBatchExact || m_nBatched == 0)) {
- // Tell other thread to set the event when there's
- // something do to
- ASSERT(m_lWaiting == 0);
- m_lWaiting++;
- bWait = TRUE;
- } else {
- // We break out of the loop on SEND_PACKET unless
- // there's nothing to send
- if (pSample == SEND_PACKET && m_nBatched == 0) {
- continue;
- }
- if (pSample == NEW_SEGMENT) {
- // now we need the parameters - we are
- // guaranteed that the next packet contains them
- ppacket = (NewSegmentPacket *) m_List->RemoveHead();
- // we took something off the queue
- if (m_hEventPop) {
- //DbgLog((LOG_TRACE,3,TEXT("Queue: Delivered SET EVENT")));
- SetEvent(m_hEventPop);
- }
- ASSERT(ppacket);
- }
- // EOS_PACKET falls through here and we exit the loop
- // In this way it acts like SEND_PACKET
- }
- break;
- }
- }
- if (!bWait) {
- // We look at m_nBatched from the client side so keep
- // it up to date inside the critical section
- lNumberToSend = m_nBatched; // Local copy
- m_nBatched = 0;
- }
- }
- // Wait for some more data
- if (bWait) {
- DbgWaitForSingleObject(m_hSem);
- continue;
- }
- // OK - send it if there's anything to send
- // We DON'T check m_bBatchExact here because either we've got
- // a full batch or we dropped through because we got
- // SEND_PACKET or EOS_PACKET - both of which imply we should
- // flush our batch
- if (lNumberToSend != 0) {
- long nProcessed;
- if (m_hr == S_OK) {
- ASSERT(!m_bFlushed);
- HRESULT hr = m_pInputPin->ReceiveMultiple(m_ppSamples,
- lNumberToSend,
- &nProcessed);
- /* Don't overwrite a flushing state HRESULT */
- CAutoLock lck(this);
- if (m_hr == S_OK) {
- m_hr = hr;
- }
- ASSERT(!m_bFlushed);
- }
- while (lNumberToSend != 0) {
- m_ppSamples[--lNumberToSend]->Release();
- }
- if (m_hr != S_OK) {
- // In any case wait for more data - S_OK just
- // means there wasn't an error
- DbgLog((LOG_ERROR, 2, TEXT("ReceiveMultiple returned %8.8X"),
- m_hr));
- }
- }
- // Check for end of stream
- if (pSample == EOS_PACKET) {
- // We don't send even end of stream on if we've previously
- // returned something other than S_OK
- // This is because in that case the pin which returned
- // something other than S_OK should have either sent
- // EndOfStream() or notified the filter graph
- if (m_hr == S_OK) {
- DbgLog((LOG_TRACE, 2, TEXT("COutputQueue sending EndOfStream()")));
- HRESULT hr = m_pPin->EndOfStream();
- if (FAILED(hr)) {
- DbgLog((LOG_ERROR, 2, TEXT("COutputQueue got code 0x%8.8X from EndOfStream()")));
- }
- }
- }
- // Data from a new source
- if (pSample == RESET_PACKET) {
- m_hr = S_OK;
- SetEvent(m_evFlushComplete);
- }
- if (pSample == NEW_SEGMENT) {
- m_pPin->NewSegment(ppacket->tStart, ppacket->tStop, ppacket->dRate);
- delete ppacket;
- }
- }
- }
- // Send batched stuff anyway
- void COutputQueue::SendAnyway()
- {
- if (!IsQueued()) {
- // m_bSendAnyway is a private parameter checked in ReceiveMultiple
- m_bSendAnyway = TRUE;
- LONG nProcessed;
- ReceiveMultiple(NULL, 0, &nProcessed);
- m_bSendAnyway = FALSE;
- } else {
- CAutoLock lck(this);
- QueueSample(SEND_PACKET);
- NotifyThread();
- }
- }
- void
- COutputQueue::NewSegment(
- REFERENCE_TIME tStart,
- REFERENCE_TIME tStop,
- double dRate)
- {
- if (!IsQueued()) {
- if (S_OK == m_hr) {
- if (m_bBatchExact) {
- SendAnyway();
- }
- m_pPin->NewSegment(tStart, tStop, dRate);
- }
- } else {
- if (m_hr == S_OK) {
- //
- // we need to queue the new segment to appear in order in the
- // data, but we need to pass parameters to it. Rather than
- // take the hit of wrapping every single sample so we can tell
- // special ones apart, we queue special pointers to indicate
- // special packets, and we guarantee (by holding the
- // critical section) that the packet immediately following a
- // NEW_SEGMENT value is a NewSegmentPacket containing the
- // parameters.
- NewSegmentPacket * ppack = new NewSegmentPacket;
- if (ppack == NULL) {
- return;
- }
- ppack->tStart = tStart;
- ppack->tStop = tStop;
- ppack->dRate = dRate;
- CAutoLock lck(this);
- QueueSample(NEW_SEGMENT);
- QueueSample( (IMediaSample*) ppack);
- NotifyThread();
- }
- }
- }
- //
- // End of Stream is queued to output device
- //
- void COutputQueue::EOS()
- {
- CAutoLock lck(this);
- if (!IsQueued()) {
- if (m_bBatchExact) {
- SendAnyway();
- }
- if (m_hr == S_OK) {
- DbgLog((LOG_TRACE, 2, TEXT("COutputQueue sending EndOfStream()")));
- m_bFlushed = FALSE;
- HRESULT hr = m_pPin->EndOfStream();
- if (FAILED(hr)) {
- DbgLog((LOG_ERROR, 2, TEXT("COutputQueue got code 0x%8.8X from EndOfStream()")));
- }
- }
- } else {
- if (m_hr == S_OK) {
- m_bFlushed = FALSE;
- QueueSample(EOS_PACKET);
- NotifyThread();
- }
- }
- }
- //
- // Flush all the samples in the queue
- //
- void COutputQueue::BeginFlush()
- {
- if (IsQueued()) {
- {
- CAutoLock lck(this);
- // block receives -- we assume this is done by the
- // filter in which we are a component
- // discard all queued data
- m_bFlushing = TRUE;
- // Make sure we discard all samples from now on
- if (m_hr == S_OK) {
- m_hr = S_FALSE;
- }
- // Optimize so we don't keep calling downstream all the time
- if (m_bFlushed && m_bFlushingOpt) {
- return;
- }
- // Make sure we really wait for the flush to complete
- m_evFlushComplete.Reset();
- NotifyThread();
- }
- // pass this downstream
- m_pPin->BeginFlush();
- } else {
- // pass downstream first to avoid deadlocks
- m_pPin->BeginFlush();
- CAutoLock lck(this);
- // discard all queued data
- m_bFlushing = TRUE;
- // Make sure we discard all samples from now on
- if (m_hr == S_OK) {
- m_hr = S_FALSE;
- }
- }
- }
- //
- // leave flush mode - pass this downstream
- void COutputQueue::EndFlush()
- {
- {
- CAutoLock lck(this);
- ASSERT(m_bFlushing);
- if (m_bFlushingOpt && m_bFlushed && IsQueued()) {
- m_bFlushing = FALSE;
- m_hr = S_OK;
- return;
- }
- }
- // sync with pushing thread -- done in BeginFlush
- // ensure no more data to go downstream -- done in BeginFlush
- //
- // Because we are synching here there is no need to hold the critical
- // section (in fact we'd deadlock if we did!)
- if (IsQueued()) {
- m_evFlushComplete.Wait();
- } else {
- FreeSamples();
- }
- // Be daring - the caller has guaranteed no samples will arrive
- // before EndFlush() returns
- m_bFlushing = FALSE;
- m_bFlushed = TRUE;
- // call EndFlush on downstream pins
- m_pPin->EndFlush();
- m_hr = S_OK;
- }
- // COutputQueue::QueueSample
- //
- // private method to Send a sample to the output queue
- // The critical section MUST be held when this is called
- void COutputQueue::QueueSample(IMediaSample *pSample)
- {
- if (NULL == m_List->AddTail(pSample)) {
- if (!IsSpecialSample(pSample)) {
- pSample->Release();
- }
- }
- }
- //
- // COutputQueue::Receive()
- //
- // Send a single sample by the multiple sample route
- // (NOTE - this could be optimized if necessary)
- //
- // On return the sample will have been Release()'d
- //
- HRESULT COutputQueue::Receive(IMediaSample *pSample)
- {
- LONG nProcessed;
- return ReceiveMultiple(&pSample, 1, &nProcessed);
- }
- //
- // COutputQueue::ReceiveMultiple()
- //
- // Send a set of samples to the downstream pin
- //
- // ppSamples - array of samples
- // nSamples - how many
- // nSamplesProcessed - How many were processed
- //
- // On return all samples will have been Release()'d
- //
- HRESULT COutputQueue::ReceiveMultiple (
- __in_ecount(nSamples) IMediaSample **ppSamples,
- long nSamples,
- __out long *nSamplesProcessed)
- {
- if (nSamples < 0) {
- return E_INVALIDARG;
- }
-
- CAutoLock lck(this);
- // Either call directly or queue up the samples
- if (!IsQueued()) {
- // If we already had a bad return code then just return
- if (S_OK != m_hr) {
- // If we've never received anything since the last Flush()
- // and the sticky return code is not S_OK we must be
- // flushing
- // ((!A || B) is equivalent to A implies B)
- ASSERT(!m_bFlushed || m_bFlushing);
- // We're supposed to Release() them anyway!
- *nSamplesProcessed = 0;
- for (int i = 0; i < nSamples; i++) {
- DbgLog((LOG_TRACE, 3, TEXT("COutputQueue (direct) : Discarding %d samples code 0x%8.8X"),
- nSamples, m_hr));
- ppSamples[i]->Release();
- }
- return m_hr;
- }
- //
- // If we're flushing the sticky return code should be S_FALSE
- //
- ASSERT(!m_bFlushing);
- m_bFlushed = FALSE;
- ASSERT(m_nBatched < m_lBatchSize);
- ASSERT(m_nBatched == 0 || m_bBatchExact);
- // Loop processing the samples in batches
- LONG iLost = 0;
- long iDone = 0;
- for (iDone = 0;
- iDone < nSamples || (m_nBatched != 0 && m_bSendAnyway);
- ) {
- //pragma message (REMIND("Implement threshold scheme"))
- ASSERT(m_nBatched < m_lBatchSize);
- if (iDone < nSamples) {
- m_ppSamples[m_nBatched++] = ppSamples[iDone++];
- }
- if (m_nBatched == m_lBatchSize ||
- nSamples == 0 && (m_bSendAnyway || !m_bBatchExact)) {
- LONG nDone;
- DbgLog((LOG_TRACE, 4, TEXT("Batching %d samples"),
- m_nBatched));
- if (m_hr == S_OK) {
- m_hr = m_pInputPin->ReceiveMultiple(m_ppSamples,
- m_nBatched,
- &nDone);
- } else {
- nDone = 0;
- }
- iLost += m_nBatched - nDone;
- for (LONG i = 0; i < m_nBatched; i++) {
- m_ppSamples[i]->Release();
- }
- m_nBatched = 0;
- }
- }
- *nSamplesProcessed = iDone - iLost;
- if (*nSamplesProcessed < 0) {
- *nSamplesProcessed = 0;
- }
- return m_hr;
- } else {
- /* We're sending to our thread */
- if (m_hr != S_OK) {
- *nSamplesProcessed = 0;
- DbgLog((LOG_TRACE, 3, TEXT("COutputQueue (queued) : Discarding %d samples code 0x%8.8X"),
- nSamples, m_hr));
- for (int i = 0; i < nSamples; i++) {
- ppSamples[i]->Release();
- }
- return m_hr;
- }
- m_bFlushed = FALSE;
- for (long i = 0; i < nSamples; i++) {
- QueueSample(ppSamples[i]);
- }
- *nSamplesProcessed = nSamples;
- if (!m_bBatchExact ||
- m_nBatched + m_List->GetCount() >= m_lBatchSize) {
- NotifyThread();
- }
- return S_OK;
- }
- }
- // Get ready for new data - cancels sticky m_hr
- void COutputQueue::Reset()
- {
- if (!IsQueued()) {
- m_hr = S_OK;
- } else {
- {
- CAutoLock lck(this);
- QueueSample(RESET_PACKET);
- NotifyThread();
- }
- m_evFlushComplete.Wait();
- }
- }
- // Remove and Release() all queued and Batched samples
- void COutputQueue::FreeSamples()
- {
- CAutoLock lck(this);
- if (IsQueued()) {
- while (TRUE) {
- IMediaSample *pSample = m_List->RemoveHead();
- // inform derived class we took something off the queue
- if (m_hEventPop) {
- //DbgLog((LOG_TRACE,3,TEXT("Queue: Delivered SET EVENT")));
- SetEvent(m_hEventPop);
- }
- if (pSample == NULL) {
- break;
- }
- if (!IsSpecialSample(pSample)) {
- pSample->Release();
- } else {
- if (pSample == NEW_SEGMENT) {
- // Free NEW_SEGMENT packet
- NewSegmentPacket *ppacket =
- (NewSegmentPacket *) m_List->RemoveHead();
- // inform derived class we took something off the queue
- if (m_hEventPop) {
- //DbgLog((LOG_TRACE,3,TEXT("Queue: Delivered SET EVENT")));
- SetEvent(m_hEventPop);
- }
- ASSERT(ppacket != NULL);
- delete ppacket;
- }
- }
- }
- }
- for (int i = 0; i < m_nBatched; i++) {
- m_ppSamples[i]->Release();
- }
- m_nBatched = 0;
- }
- // Notify the thread if there is something to do
- //
- // The critical section MUST be held when this is called
- void COutputQueue::NotifyThread()
- {
- // Optimize - no need to signal if it's not waiting
- ASSERT(IsQueued());
- if (m_lWaiting) {
- ReleaseSemaphore(m_hSem, m_lWaiting, NULL);
- m_lWaiting = 0;
- }
- }
- // See if there's any work to do
- // Returns
- // TRUE if there is nothing on the queue and nothing in the batch
- // and all data has been sent
- // FALSE otherwise
- //
- BOOL COutputQueue::IsIdle()
- {
- CAutoLock lck(this);
- // We're idle if
- // there is no thread (!IsQueued()) OR
- // the thread is waiting for more work (m_lWaiting != 0)
- // AND
- // there's nothing in the current batch (m_nBatched == 0)
- if (IsQueued() && m_lWaiting == 0 || m_nBatched != 0) {
- return FALSE;
- } else {
- // If we're idle it shouldn't be possible for there
- // to be anything on the work queue
- ASSERT(!IsQueued() || m_List->GetCount() == 0);
- return TRUE;
- }
- }
- void COutputQueue::SetPopEvent(HANDLE hEvent)
- {
- m_hEventPop = hEvent;
- }
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