/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "MediaDecoder.h" #include "mozilla/FloatingPoint.h" #include "mozilla/MathAlgorithms.h" #include #include "nsIObserver.h" #include "nsTArray.h" #include "VideoUtils.h" #include "MediaDecoderStateMachine.h" #include "mozilla/dom/TimeRanges.h" #include "ImageContainer.h" #include "MediaResource.h" #include "nsError.h" #include "mozilla/Preferences.h" #include "mozilla/StaticPtr.h" #include "nsIMemoryReporter.h" #include "nsComponentManagerUtils.h" #include #include "MediaShutdownManager.h" #include "AudioChannelService.h" #include "mozilla/dom/AudioTrack.h" #include "mozilla/dom/AudioTrackList.h" #include "mozilla/dom/HTMLMediaElement.h" #include "mozilla/dom/VideoTrack.h" #include "mozilla/dom/VideoTrackList.h" #ifdef MOZ_WMF #include "WMFDecoder.h" #endif using namespace mozilla::layers; using namespace mozilla::dom; namespace mozilla { // Number of estimated seconds worth of data we need to have buffered // ahead of the current playback position before we allow the media decoder // to report that it can play through the entire media without the decode // catching up with the download. Having this margin make the // MediaDecoder::CanPlayThrough() calculation more stable in the case of // fluctuating bitrates. static const int64_t CAN_PLAY_THROUGH_MARGIN = 1; // avoid redefined macro in unified build #undef DECODER_LOG #ifdef PR_LOGGING PRLogModuleInfo* gMediaDecoderLog; #define DECODER_LOG(x, ...) \ PR_LOG(gMediaDecoderLog, PR_LOG_DEBUG, ("Decoder=%p " x, this, ##__VA_ARGS__)) #else #define DECODER_LOG(x, ...) #endif static const char* const gPlayStateStr[] = { "START", "LOADING", "PAUSED", "PLAYING", "SEEKING", "ENDED", "SHUTDOWN" }; class MediaMemoryTracker : public nsIMemoryReporter { virtual ~MediaMemoryTracker(); NS_DECL_THREADSAFE_ISUPPORTS NS_DECL_NSIMEMORYREPORTER MOZ_DEFINE_MALLOC_SIZE_OF(MallocSizeOf); MediaMemoryTracker(); void InitMemoryReporter(); static StaticRefPtr sUniqueInstance; static MediaMemoryTracker* UniqueInstance() { if (!sUniqueInstance) { sUniqueInstance = new MediaMemoryTracker(); sUniqueInstance->InitMemoryReporter(); } return sUniqueInstance; } typedef nsTArray DecodersArray; static DecodersArray& Decoders() { return UniqueInstance()->mDecoders; } DecodersArray mDecoders; public: static void AddMediaDecoder(MediaDecoder* aDecoder) { Decoders().AppendElement(aDecoder); } static void RemoveMediaDecoder(MediaDecoder* aDecoder) { DecodersArray& decoders = Decoders(); decoders.RemoveElement(aDecoder); if (decoders.IsEmpty()) { sUniqueInstance = nullptr; } } }; StaticRefPtr MediaMemoryTracker::sUniqueInstance; NS_IMPL_ISUPPORTS(MediaMemoryTracker, nsIMemoryReporter) NS_IMPL_ISUPPORTS(MediaDecoder, nsIObserver) void MediaDecoder::SetDormantIfNecessary(bool aDormant) { MOZ_ASSERT(NS_IsMainThread()); ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); if (!mDecoderStateMachine || !mDecoderStateMachine->IsDormantNeeded() || mPlayState == PLAY_STATE_SHUTDOWN) { return; } if(aDormant) { // enter dormant state DestroyDecodedStream(); mDecoderStateMachine->SetDormant(true); int64_t timeUsecs = 0; SecondsToUsecs(mCurrentTime, timeUsecs); mRequestedSeekTarget = SeekTarget(timeUsecs, SeekTarget::Accurate); mNextState = mPlayState; ChangeState(PLAY_STATE_LOADING); } else { // exit dormant state // trigger to state machine. mDecoderStateMachine->SetDormant(false); } } void MediaDecoder::Pause() { MOZ_ASSERT(NS_IsMainThread()); ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); if (mPlayState == PLAY_STATE_LOADING || mPlayState == PLAY_STATE_SEEKING || mPlayState == PLAY_STATE_ENDED) { mNextState = PLAY_STATE_PAUSED; return; } ChangeState(PLAY_STATE_PAUSED); } void MediaDecoder::SetVolume(double aVolume) { MOZ_ASSERT(NS_IsMainThread()); mInitialVolume = aVolume; if (mDecoderStateMachine) { mDecoderStateMachine->SetVolume(aVolume); } } void MediaDecoder::SetAudioCaptured(bool aCaptured) { MOZ_ASSERT(NS_IsMainThread()); mInitialAudioCaptured = aCaptured; if (mDecoderStateMachine) { mDecoderStateMachine->SetAudioCaptured(aCaptured); } } void MediaDecoder::ConnectDecodedStreamToOutputStream(OutputStreamData* aStream) { NS_ASSERTION(!aStream->mPort, "Already connected?"); // The output stream must stay in sync with the decoded stream, so if // either stream is blocked, we block the other. aStream->mPort = aStream->mStream->AllocateInputPort(mDecodedStream->mStream, MediaInputPort::FLAG_BLOCK_INPUT | MediaInputPort::FLAG_BLOCK_OUTPUT); // Unblock the output stream now. While it's connected to mDecodedStream, // mDecodedStream is responsible for controlling blocking. aStream->mStream->ChangeExplicitBlockerCount(-1); } MediaDecoder::DecodedStreamData::DecodedStreamData(MediaDecoder* aDecoder, int64_t aInitialTime, SourceMediaStream* aStream) : mLastAudioPacketTime(-1), mLastAudioPacketEndTime(-1), mAudioFramesWritten(0), mInitialTime(aInitialTime), mNextVideoTime(aInitialTime), mDecoder(aDecoder), mStreamInitialized(false), mHaveSentFinish(false), mHaveSentFinishAudio(false), mHaveSentFinishVideo(false), mStream(aStream), mHaveBlockedForPlayState(false), mHaveBlockedForStateMachineNotPlaying(false) { mListener = new DecodedStreamGraphListener(mStream, this); mStream->AddListener(mListener); } MediaDecoder::DecodedStreamData::~DecodedStreamData() { mListener->Forget(); mStream->Destroy(); } MediaDecoder::DecodedStreamGraphListener::DecodedStreamGraphListener(MediaStream* aStream, DecodedStreamData* aData) : mData(aData), mMutex("MediaDecoder::DecodedStreamData::mMutex"), mStream(aStream), mLastOutputTime(aStream-> StreamTimeToMicroseconds(aStream->GetCurrentTime())), mStreamFinishedOnMainThread(false) { } void MediaDecoder::DecodedStreamGraphListener::NotifyOutput(MediaStreamGraph* aGraph, GraphTime aCurrentTime) { MutexAutoLock lock(mMutex); if (mStream) { mLastOutputTime = mStream-> StreamTimeToMicroseconds(mStream->GraphTimeToStreamTime(aCurrentTime)); } } void MediaDecoder::DecodedStreamGraphListener::DoNotifyFinished() { if (mData && mData->mDecoder) { if (mData->mDecoder->GetState() == PLAY_STATE_PLAYING) { nsCOMPtr event = NS_NewRunnableMethod(mData->mDecoder, &MediaDecoder::PlaybackEnded); NS_DispatchToCurrentThread(event); } } MutexAutoLock lock(mMutex); mStreamFinishedOnMainThread = true; } void MediaDecoder::DecodedStreamGraphListener::NotifyEvent(MediaStreamGraph* aGraph, MediaStreamListener::MediaStreamGraphEvent event) { if (event == EVENT_FINISHED) { nsCOMPtr event = NS_NewRunnableMethod(this, &DecodedStreamGraphListener::DoNotifyFinished); aGraph->DispatchToMainThreadAfterStreamStateUpdate(event.forget()); } } void MediaDecoder::RecreateDecodedStreamIfNecessary(int64_t aStartTimeUSecs) { if (mInitialAudioCaptured) { RecreateDecodedStream(aStartTimeUSecs); } } void MediaDecoder::DestroyDecodedStream() { MOZ_ASSERT(NS_IsMainThread()); GetReentrantMonitor().AssertCurrentThreadIn(); if (GetDecodedStream()) { GetStateMachine()->ResyncMediaStreamClock(); } else { // Avoid the redundant blocking to output stream. return; } // All streams are having their SourceMediaStream disconnected, so they // need to be explicitly blocked again. for (int32_t i = mOutputStreams.Length() - 1; i >= 0; --i) { OutputStreamData& os = mOutputStreams[i]; // During cycle collection, nsDOMMediaStream can be destroyed and send // its Destroy message before this decoder is destroyed. So we have to // be careful not to send any messages after the Destroy(). if (os.mStream->IsDestroyed()) { // Probably the DOM MediaStream was GCed. Clean up. MOZ_ASSERT(os.mPort, "Double-delete of the ports!"); os.mPort->Destroy(); mOutputStreams.RemoveElementAt(i); continue; } os.mStream->ChangeExplicitBlockerCount(1); // Explicitly remove all existing ports. This is not strictly necessary but it's // good form. MOZ_ASSERT(os.mPort, "Double-delete of the ports!"); os.mPort->Destroy(); os.mPort = nullptr; } mDecodedStream = nullptr; } void MediaDecoder::UpdateStreamBlockingForStateMachinePlaying() { GetReentrantMonitor().AssertCurrentThreadIn(); if (!mDecodedStream) { return; } if (mDecoderStateMachine) { mDecoderStateMachine->SetSyncPointForMediaStream(); } bool blockForStateMachineNotPlaying = mDecoderStateMachine && !mDecoderStateMachine->IsPlaying() && mDecoderStateMachine->GetState() != MediaDecoderStateMachine::DECODER_STATE_COMPLETED; if (blockForStateMachineNotPlaying != mDecodedStream->mHaveBlockedForStateMachineNotPlaying) { mDecodedStream->mHaveBlockedForStateMachineNotPlaying = blockForStateMachineNotPlaying; int32_t delta = blockForStateMachineNotPlaying ? 1 : -1; if (NS_IsMainThread()) { mDecodedStream->mStream->ChangeExplicitBlockerCount(delta); } else { nsCOMPtr runnable = NS_NewRunnableMethodWithArg(mDecodedStream->mStream.get(), &MediaStream::ChangeExplicitBlockerCount, delta); NS_DispatchToMainThread(runnable); } } } void MediaDecoder::RecreateDecodedStream(int64_t aStartTimeUSecs) { MOZ_ASSERT(NS_IsMainThread()); GetReentrantMonitor().AssertCurrentThreadIn(); DECODER_LOG("RecreateDecodedStream aStartTimeUSecs=%lld!", aStartTimeUSecs); DestroyDecodedStream(); mDecodedStream = new DecodedStreamData(this, aStartTimeUSecs, MediaStreamGraph::GetInstance()->CreateSourceStream(nullptr)); // Note that the delay between removing ports in DestroyDecodedStream // and adding new ones won't cause a glitch since all graph operations // between main-thread stable states take effect atomically. for (int32_t i = mOutputStreams.Length() - 1; i >= 0; --i) { OutputStreamData& os = mOutputStreams[i]; if (os.mStream->IsDestroyed()) { // Probably the DOM MediaStream was GCed. Clean up. // No need to destroy the port; all ports have been destroyed here. mOutputStreams.RemoveElementAt(i); continue; } ConnectDecodedStreamToOutputStream(&os); } UpdateStreamBlockingForStateMachinePlaying(); mDecodedStream->mHaveBlockedForPlayState = mPlayState != PLAY_STATE_PLAYING; if (mDecodedStream->mHaveBlockedForPlayState) { mDecodedStream->mStream->ChangeExplicitBlockerCount(1); } } void MediaDecoder::AddOutputStream(ProcessedMediaStream* aStream, bool aFinishWhenEnded) { MOZ_ASSERT(NS_IsMainThread()); DECODER_LOG("AddOutputStream aStream=%p!", aStream); { ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); if (!mDecodedStream) { RecreateDecodedStream(mDecoderStateMachine ? int64_t(mDecoderStateMachine->GetCurrentTime()*USECS_PER_S) : 0); } OutputStreamData* os = mOutputStreams.AppendElement(); os->Init(aStream, aFinishWhenEnded); ConnectDecodedStreamToOutputStream(os); if (aFinishWhenEnded) { // Ensure that aStream finishes the moment mDecodedStream does. aStream->SetAutofinish(true); } } // This can be called before Load(), in which case our mDecoderStateMachine // won't have been created yet and we can rely on Load() to schedule it // once it is created. if (mDecoderStateMachine) { // Make sure the state machine thread runs so that any buffered data // is fed into our stream. ScheduleStateMachineThread(); } } double MediaDecoder::GetDuration() { MOZ_ASSERT(NS_IsMainThread()); if (mInfiniteStream) { return std::numeric_limits::infinity(); } if (mDuration >= 0) { return static_cast(mDuration) / static_cast(USECS_PER_S); } return std::numeric_limits::quiet_NaN(); } int64_t MediaDecoder::GetMediaDuration() { NS_ENSURE_TRUE(GetStateMachine(), -1); return GetStateMachine()->GetDuration(); } void MediaDecoder::SetInfinite(bool aInfinite) { MOZ_ASSERT(NS_IsMainThread()); mInfiniteStream = aInfinite; } bool MediaDecoder::IsInfinite() { MOZ_ASSERT(NS_IsMainThread()); return mInfiniteStream; } MediaDecoder::MediaDecoder() : mDecoderPosition(0), mPlaybackPosition(0), mCurrentTime(0.0), mInitialVolume(0.0), mInitialPlaybackRate(1.0), mInitialPreservesPitch(true), mDuration(-1), mMediaSeekable(true), mSameOriginMedia(false), mReentrantMonitor("media.decoder"), mPlayState(PLAY_STATE_LOADING), mNextState(PLAY_STATE_PAUSED), mIgnoreProgressData(false), mInfiniteStream(false), mOwner(nullptr), mPlaybackStatistics(new MediaChannelStatistics()), mPinnedForSeek(false), mShuttingDown(false), mPausedForPlaybackRateNull(false), mMinimizePreroll(false), mMediaTracksConstructed(false) { MOZ_COUNT_CTOR(MediaDecoder); MOZ_ASSERT(NS_IsMainThread()); MediaMemoryTracker::AddMediaDecoder(this); #ifdef PR_LOGGING if (!gMediaDecoderLog) { gMediaDecoderLog = PR_NewLogModule("MediaDecoder"); } #endif mAudioChannel = AudioChannelService::GetDefaultAudioChannel(); } bool MediaDecoder::Init(MediaDecoderOwner* aOwner) { MOZ_ASSERT(NS_IsMainThread()); mOwner = aOwner; mVideoFrameContainer = aOwner->GetVideoFrameContainer(); MediaShutdownManager::Instance().Register(this); return true; } void MediaDecoder::Shutdown() { MOZ_ASSERT(NS_IsMainThread()); if (mShuttingDown) return; mShuttingDown = true; { ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); DestroyDecodedStream(); } // This changes the decoder state to SHUTDOWN and does other things // necessary to unblock the state machine thread if it's blocked, so // the asynchronous shutdown in nsDestroyStateMachine won't deadlock. if (mDecoderStateMachine) { mDecoderStateMachine->Shutdown(); } // Force any outstanding seek and byterange requests to complete // to prevent shutdown from deadlocking. if (mResource) { mResource->Close(); } ChangeState(PLAY_STATE_SHUTDOWN); mOwner = nullptr; MediaShutdownManager::Instance().Unregister(this); } MediaDecoder::~MediaDecoder() { MOZ_ASSERT(NS_IsMainThread()); MediaMemoryTracker::RemoveMediaDecoder(this); UnpinForSeek(); MOZ_COUNT_DTOR(MediaDecoder); } nsresult MediaDecoder::OpenResource(nsIStreamListener** aStreamListener) { MOZ_ASSERT(NS_IsMainThread()); if (aStreamListener) { *aStreamListener = nullptr; } { // Hold the lock while we do this to set proper lock ordering // expectations for dynamic deadlock detectors: decoder lock(s) // should be grabbed before the cache lock ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); nsresult rv = mResource->Open(aStreamListener); NS_ENSURE_SUCCESS(rv, rv); } return NS_OK; } nsresult MediaDecoder::Load(nsIStreamListener** aStreamListener, MediaDecoder* aCloneDonor) { MOZ_ASSERT(NS_IsMainThread()); nsresult rv = OpenResource(aStreamListener); NS_ENSURE_SUCCESS(rv, rv); mDecoderStateMachine = CreateStateMachine(); NS_ENSURE_TRUE(mDecoderStateMachine, NS_ERROR_FAILURE); return InitializeStateMachine(aCloneDonor); } nsresult MediaDecoder::InitializeStateMachine(MediaDecoder* aCloneDonor) { MOZ_ASSERT(NS_IsMainThread()); NS_ASSERTION(mDecoderStateMachine, "Cannot initialize null state machine!"); MediaDecoder* cloneDonor = static_cast(aCloneDonor); nsresult rv = mDecoderStateMachine->Init( cloneDonor ? cloneDonor->mDecoderStateMachine : nullptr); NS_ENSURE_SUCCESS(rv, rv); // If some parameters got set before the state machine got created, // set them now SetStateMachineParameters(); return ScheduleStateMachineThread(); } void MediaDecoder::SetStateMachineParameters() { ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); mDecoderStateMachine->SetDuration(mDuration); mDecoderStateMachine->SetVolume(mInitialVolume); mDecoderStateMachine->SetAudioCaptured(mInitialAudioCaptured); SetPlaybackRate(mInitialPlaybackRate); mDecoderStateMachine->SetPreservesPitch(mInitialPreservesPitch); if (mMinimizePreroll) { mDecoderStateMachine->SetMinimizePrerollUntilPlaybackStarts(); } } void MediaDecoder::SetMinimizePrerollUntilPlaybackStarts() { MOZ_ASSERT(NS_IsMainThread()); mMinimizePreroll = true; } nsresult MediaDecoder::ScheduleStateMachineThread() { MOZ_ASSERT(NS_IsMainThread()); NS_ASSERTION(mDecoderStateMachine, "Must have state machine to start state machine thread"); NS_ENSURE_STATE(mDecoderStateMachine); if (mShuttingDown) return NS_OK; ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); return mDecoderStateMachine->ScheduleStateMachine(); } nsresult MediaDecoder::Play() { MOZ_ASSERT(NS_IsMainThread()); ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); NS_ASSERTION(mDecoderStateMachine != nullptr, "Should have state machine."); if (mPausedForPlaybackRateNull) { return NS_OK; } nsresult res = ScheduleStateMachineThread(); NS_ENSURE_SUCCESS(res,res); if (mPlayState == PLAY_STATE_LOADING || mPlayState == PLAY_STATE_SEEKING) { mNextState = PLAY_STATE_PLAYING; return NS_OK; } if (mPlayState == PLAY_STATE_ENDED) { return Seek(0, SeekTarget::PrevSyncPoint); } ChangeState(PLAY_STATE_PLAYING); return NS_OK; } nsresult MediaDecoder::Seek(double aTime, SeekTarget::Type aSeekType) { MOZ_ASSERT(NS_IsMainThread()); ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); NS_ABORT_IF_FALSE(aTime >= 0.0, "Cannot seek to a negative value."); int64_t timeUsecs = 0; nsresult rv = SecondsToUsecs(aTime, timeUsecs); NS_ENSURE_SUCCESS(rv, rv); mRequestedSeekTarget = SeekTarget(timeUsecs, aSeekType); mCurrentTime = aTime; // If we are already in the seeking state, then setting mRequestedSeekTarget // above will result in the new seek occurring when the current seek // completes. if (mPlayState != PLAY_STATE_LOADING && mPlayState != PLAY_STATE_SEEKING) { bool paused = false; if (mOwner) { paused = mOwner->GetPaused(); } mNextState = paused ? PLAY_STATE_PAUSED : PLAY_STATE_PLAYING; PinForSeek(); ChangeState(PLAY_STATE_SEEKING); } return ScheduleStateMachineThread(); } bool MediaDecoder::IsLogicallyPlaying() { GetReentrantMonitor().AssertCurrentThreadIn(); return mPlayState == PLAY_STATE_PLAYING || mNextState == PLAY_STATE_PLAYING; } double MediaDecoder::GetCurrentTime() { MOZ_ASSERT(NS_IsMainThread()); return mCurrentTime; } already_AddRefed MediaDecoder::GetCurrentPrincipal() { MOZ_ASSERT(NS_IsMainThread()); return mResource ? mResource->GetCurrentPrincipal() : nullptr; } void MediaDecoder::QueueMetadata(int64_t aPublishTime, nsAutoPtr aInfo, nsAutoPtr aTags) { NS_ASSERTION(OnDecodeThread(), "Should be on decode thread."); GetReentrantMonitor().AssertCurrentThreadIn(); mDecoderStateMachine->QueueMetadata(aPublishTime, aInfo, aTags); } bool MediaDecoder::IsExpectingMoreData() { ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); // If there's no resource, we're probably just getting set up. if (!mResource) { return true; } // If we've downloaded anything, we're not waiting for anything. if (mResource->IsDataCachedToEndOfResource(mDecoderPosition)) { return false; } // Otherwise, we should be getting data unless the stream is suspended. return !mResource->IsSuspended(); } void MediaDecoder::MetadataLoaded(nsAutoPtr aInfo, nsAutoPtr aTags) { MOZ_ASSERT(NS_IsMainThread()); if (mShuttingDown) { return; } DECODER_LOG("MetadataLoaded, channels=%u rate=%u hasAudio=%d hasVideo=%d", aInfo->mAudio.mChannels, aInfo->mAudio.mRate, aInfo->HasAudio(), aInfo->HasVideo()); { ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); mDuration = mDecoderStateMachine ? mDecoderStateMachine->GetDuration() : -1; // Duration has changed so we should recompute playback rate UpdatePlaybackRate(); } if (mDuration == -1) { SetInfinite(true); } mInfo = aInfo.forget(); ConstructMediaTracks(); if (mOwner) { // Make sure the element and the frame (if any) are told about // our new size. Invalidate(); mOwner->MetadataLoaded(mInfo, nsAutoPtr(aTags.forget())); } } void MediaDecoder::FirstFrameLoaded(nsAutoPtr aInfo) { MOZ_ASSERT(NS_IsMainThread()); if (mShuttingDown) { return; } DECODER_LOG("FirstFrameLoaded, channels=%u rate=%u hasAudio=%d hasVideo=%d", aInfo->mAudio.mChannels, aInfo->mAudio.mRate, aInfo->HasAudio(), aInfo->HasVideo()); mInfo = aInfo.forget(); if (mOwner) { Invalidate(); mOwner->FirstFrameLoaded(); } // This can run cache callbacks. mResource->EnsureCacheUpToDate(); // The element can run javascript via events // before reaching here, so only change the // state if we're still set to the original // loading state. if (mPlayState == PLAY_STATE_LOADING) { if (mRequestedSeekTarget.IsValid()) { ChangeState(PLAY_STATE_SEEKING); } else { ChangeState(mNextState); } } // Run NotifySuspendedStatusChanged now to give us a chance to notice // that autoplay should run. NotifySuspendedStatusChanged(); } void MediaDecoder::ResetConnectionState() { MOZ_ASSERT(NS_IsMainThread()); if (mShuttingDown) return; if (mOwner) { // Notify the media element that connection gets lost. mOwner->ResetConnectionState(); } // Since we have notified the media element the connection // lost event, the decoder will be reloaded when user tries // to play the Rtsp streaming next time. Shutdown(); } void MediaDecoder::NetworkError() { MOZ_ASSERT(NS_IsMainThread()); if (mShuttingDown) return; if (mOwner) mOwner->NetworkError(); Shutdown(); } void MediaDecoder::DecodeError() { MOZ_ASSERT(NS_IsMainThread()); if (mShuttingDown) return; if (mOwner) mOwner->DecodeError(); Shutdown(); } void MediaDecoder::UpdateSameOriginStatus(bool aSameOrigin) { ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); mSameOriginMedia = aSameOrigin; } bool MediaDecoder::IsSameOriginMedia() { GetReentrantMonitor().AssertCurrentThreadIn(); return mSameOriginMedia; } bool MediaDecoder::IsSeeking() const { MOZ_ASSERT(NS_IsMainThread()); return mPlayState == PLAY_STATE_SEEKING || (mPlayState == PLAY_STATE_LOADING && mRequestedSeekTarget.IsValid()); } bool MediaDecoder::IsEnded() const { MOZ_ASSERT(NS_IsMainThread()); return mPlayState == PLAY_STATE_ENDED || mPlayState == PLAY_STATE_SHUTDOWN; } void MediaDecoder::PlaybackEnded() { MOZ_ASSERT(NS_IsMainThread()); if (mShuttingDown || mPlayState == PLAY_STATE_SEEKING || mPlayState == PLAY_STATE_LOADING) { return; } { ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); for (int32_t i = mOutputStreams.Length() - 1; i >= 0; --i) { OutputStreamData& os = mOutputStreams[i]; if (os.mStream->IsDestroyed()) { // Probably the DOM MediaStream was GCed. Clean up. MOZ_ASSERT(os.mPort, "Double-delete of the ports!"); os.mPort->Destroy(); mOutputStreams.RemoveElementAt(i); continue; } if (os.mFinishWhenEnded) { // Shouldn't really be needed since mDecodedStream should already have // finished, but doesn't hurt. os.mStream->Finish(); MOZ_ASSERT(os.mPort, "Double-delete of the ports!"); os.mPort->Destroy(); // Not really needed but it keeps the invariant that a stream not // connected to mDecodedStream is explicity blocked. os.mStream->ChangeExplicitBlockerCount(1); mOutputStreams.RemoveElementAt(i); } } } PlaybackPositionChanged(); ChangeState(PLAY_STATE_ENDED); InvalidateWithFlags(VideoFrameContainer::INVALIDATE_FORCE); UpdateReadyStateForData(); if (mOwner) { mOwner->PlaybackEnded(); } // This must be called after |mOwner->PlaybackEnded()| call above, in order // to fire the required durationchange. if (IsInfinite()) { SetInfinite(false); } } NS_IMETHODIMP MediaDecoder::Observe(nsISupports *aSubjet, const char *aTopic, const char16_t *someData) { MOZ_ASSERT(NS_IsMainThread()); if (strcmp(aTopic, NS_XPCOM_SHUTDOWN_OBSERVER_ID) == 0) { Shutdown(); } return NS_OK; } MediaDecoder::Statistics MediaDecoder::GetStatistics() { Statistics result; ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); if (mResource) { result.mDownloadRate = mResource->GetDownloadRate(&result.mDownloadRateReliable); result.mDownloadPosition = mResource->GetCachedDataEnd(mDecoderPosition); result.mTotalBytes = mResource->GetLength(); result.mPlaybackRate = ComputePlaybackRate(&result.mPlaybackRateReliable); result.mDecoderPosition = mDecoderPosition; result.mPlaybackPosition = mPlaybackPosition; } else { result.mDownloadRate = 0; result.mDownloadRateReliable = true; result.mPlaybackRate = 0; result.mPlaybackRateReliable = true; result.mDecoderPosition = 0; result.mPlaybackPosition = 0; result.mDownloadPosition = 0; result.mTotalBytes = 0; } return result; } double MediaDecoder::ComputePlaybackRate(bool* aReliable) { GetReentrantMonitor().AssertCurrentThreadIn(); MOZ_ASSERT(NS_IsMainThread() || OnStateMachineThread() || OnDecodeThread()); int64_t length = mResource ? mResource->GetLength() : -1; if (mDuration >= 0 && length >= 0) { *aReliable = true; return length * static_cast(USECS_PER_S) / mDuration; } return mPlaybackStatistics->GetRateAtLastStop(aReliable); } void MediaDecoder::UpdatePlaybackRate() { MOZ_ASSERT(NS_IsMainThread() || OnStateMachineThread()); GetReentrantMonitor().AssertCurrentThreadIn(); if (!mResource) return; bool reliable; uint32_t rate = uint32_t(ComputePlaybackRate(&reliable)); if (reliable) { // Avoid passing a zero rate rate = std::max(rate, 1u); } else { // Set a minimum rate of 10,000 bytes per second ... sometimes we just // don't have good data rate = std::max(rate, 10000u); } mResource->SetPlaybackRate(rate); } void MediaDecoder::NotifySuspendedStatusChanged() { MOZ_ASSERT(NS_IsMainThread()); if (mResource && mOwner) { bool suspended = mResource->IsSuspendedByCache(); mOwner->NotifySuspendedByCache(suspended); UpdateReadyStateForData(); } } void MediaDecoder::NotifyBytesDownloaded() { MOZ_ASSERT(NS_IsMainThread()); { ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); UpdatePlaybackRate(); } if (mOwner) { mOwner->DownloadProgressed(); } } void MediaDecoder::NotifyDownloadEnded(nsresult aStatus) { MOZ_ASSERT(NS_IsMainThread()); DECODER_LOG("NotifyDownloadEnded, status=%x", aStatus); if (aStatus == NS_BINDING_ABORTED) { // Download has been cancelled by user. if (mOwner) { mOwner->LoadAborted(); } return; } { ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); UpdatePlaybackRate(); } if (NS_SUCCEEDED(aStatus)) { // A final progress event will be fired by the MediaResource calling // DownloadSuspended on the element. // Also NotifySuspendedStatusChanged() will be called to update readyState // if download ended with success. } else if (aStatus != NS_BASE_STREAM_CLOSED) { NetworkError(); } } void MediaDecoder::NotifyPrincipalChanged() { if (mOwner) { mOwner->NotifyDecoderPrincipalChanged(); } } void MediaDecoder::NotifyBytesConsumed(int64_t aBytes, int64_t aOffset) { MOZ_ASSERT(NS_IsMainThread()); if (mShuttingDown) { return; } ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); MOZ_ASSERT(mDecoderStateMachine); if (mIgnoreProgressData) { return; } if (aOffset >= mDecoderPosition) { mPlaybackStatistics->AddBytes(aBytes); } mDecoderPosition = aOffset + aBytes; } void MediaDecoder::UpdateReadyStateForData() { MOZ_ASSERT(NS_IsMainThread()); if (!mOwner || mShuttingDown || !mDecoderStateMachine) return; MediaDecoderOwner::NextFrameStatus frameStatus = mDecoderStateMachine->GetNextFrameStatus(); mOwner->UpdateReadyStateForData(frameStatus); } void MediaDecoder::SeekingStopped() { MOZ_ASSERT(NS_IsMainThread()); if (mShuttingDown) return; bool seekWasAborted = false; { ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); // An additional seek was requested while the current seek was // in operation. if (mRequestedSeekTarget.IsValid()) { ChangeState(PLAY_STATE_SEEKING); seekWasAborted = true; } else { UnpinForSeek(); ChangeState(mNextState); } } PlaybackPositionChanged(); if (mOwner) { UpdateReadyStateForData(); if (!seekWasAborted) { mOwner->SeekCompleted(); } } } // This is called when seeking stopped *and* we're at the end of the // media. void MediaDecoder::SeekingStoppedAtEnd() { MOZ_ASSERT(NS_IsMainThread()); if (mShuttingDown) return; bool fireEnded = false; bool seekWasAborted = false; { ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); // An additional seek was requested while the current seek was // in operation. if (mRequestedSeekTarget.IsValid()) { ChangeState(PLAY_STATE_SEEKING); seekWasAborted = true; } else { UnpinForSeek(); fireEnded = true; ChangeState(PLAY_STATE_ENDED); } } PlaybackPositionChanged(); if (mOwner) { UpdateReadyStateForData(); if (!seekWasAborted) { mOwner->SeekCompleted(); if (fireEnded) { mOwner->PlaybackEnded(); } } } } void MediaDecoder::SeekingStarted() { MOZ_ASSERT(NS_IsMainThread()); if (mShuttingDown) return; if (mOwner) { UpdateReadyStateForData(); mOwner->SeekStarted(); } } void MediaDecoder::ChangeState(PlayState aState) { MOZ_ASSERT(NS_IsMainThread()); ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); if (mNextState == aState) { mNextState = PLAY_STATE_PAUSED; } if (mPlayState == PLAY_STATE_SHUTDOWN) { GetReentrantMonitor().NotifyAll(); return; } if (mDecodedStream) { bool blockForPlayState = aState != PLAY_STATE_PLAYING; if (mDecodedStream->mHaveBlockedForPlayState != blockForPlayState) { mDecodedStream->mStream->ChangeExplicitBlockerCount(blockForPlayState ? 1 : -1); mDecodedStream->mHaveBlockedForPlayState = blockForPlayState; } } DECODER_LOG("ChangeState %s => %s", gPlayStateStr[mPlayState], gPlayStateStr[aState]); mPlayState = aState; if (mPlayState == PLAY_STATE_PLAYING) { ConstructMediaTracks(); } else if (mPlayState == PLAY_STATE_ENDED) { RemoveMediaTracks(); } ApplyStateToStateMachine(mPlayState); GetReentrantMonitor().NotifyAll(); } void MediaDecoder::ApplyStateToStateMachine(PlayState aState) { MOZ_ASSERT(NS_IsMainThread()); GetReentrantMonitor().AssertCurrentThreadIn(); if (mDecoderStateMachine) { switch (aState) { case PLAY_STATE_PLAYING: mDecoderStateMachine->Play(); break; case PLAY_STATE_SEEKING: mDecoderStateMachine->Seek(mRequestedSeekTarget); mRequestedSeekTarget.Reset(); break; default: /* No action needed */ break; } } } void MediaDecoder::PlaybackPositionChanged() { MOZ_ASSERT(NS_IsMainThread()); if (mShuttingDown) return; double lastTime = mCurrentTime; // Control the scope of the monitor so it is not // held while the timeupdate and the invalidate is run. { ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); if (mDecoderStateMachine) { // Don't update the official playback position when paused which is // expected by the script. (The current playback position might be still // advancing for a while after paused.) if (!IsSeeking() && mPlayState != PLAY_STATE_PAUSED) { // Only update the current playback position if we're not seeking. // If we are seeking, the update could have been scheduled on the // state machine thread while we were playing but after the seek // algorithm set the current playback position on the main thread, // and we don't want to override the seek algorithm and change the // current time after the seek has started but before it has // completed. if (GetDecodedStream()) { mCurrentTime = mDecoderStateMachine->GetCurrentTimeViaMediaStreamSync()/ static_cast(USECS_PER_S); } else { mCurrentTime = mDecoderStateMachine->GetCurrentTime(); } } mDecoderStateMachine->ClearPositionChangeFlag(); } } // Invalidate the frame so any video data is displayed. // Do this before the timeupdate event so that if that // event runs JavaScript that queries the media size, the // frame has reflowed and the size updated beforehand. Invalidate(); if (mOwner && lastTime != mCurrentTime) { FireTimeUpdate(); } } void MediaDecoder::DurationChanged() { MOZ_ASSERT(NS_IsMainThread()); ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); int64_t oldDuration = mDuration; mDuration = mDecoderStateMachine ? mDecoderStateMachine->GetDuration() : -1; // Duration has changed so we should recompute playback rate UpdatePlaybackRate(); SetInfinite(mDuration == -1); if (mOwner && oldDuration != mDuration && !IsInfinite()) { DECODER_LOG("Duration changed to %lld", mDuration); mOwner->DispatchEvent(NS_LITERAL_STRING("durationchange")); } } void MediaDecoder::SetDuration(double aDuration) { MOZ_ASSERT(NS_IsMainThread()); if (mozilla::IsInfinite(aDuration)) { SetInfinite(true); } else if (IsNaN(aDuration)) { mDuration = -1; SetInfinite(true); } else { mDuration = static_cast(NS_round(aDuration * static_cast(USECS_PER_S))); } ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); if (mDecoderStateMachine) { mDecoderStateMachine->SetDuration(mDuration); } // Duration has changed so we should recompute playback rate UpdatePlaybackRate(); } void MediaDecoder::SetMediaDuration(int64_t aDuration) { NS_ENSURE_TRUE_VOID(GetStateMachine()); GetStateMachine()->SetDuration(aDuration); } void MediaDecoder::UpdateEstimatedMediaDuration(int64_t aDuration) { if (mPlayState <= PLAY_STATE_LOADING) { return; } NS_ENSURE_TRUE_VOID(GetStateMachine()); GetStateMachine()->UpdateEstimatedDuration(aDuration); } void MediaDecoder::SetMediaSeekable(bool aMediaSeekable) { ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); MOZ_ASSERT(NS_IsMainThread() || OnDecodeThread()); mMediaSeekable = aMediaSeekable; } bool MediaDecoder::IsTransportSeekable() { ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); MOZ_ASSERT(OnDecodeThread() || NS_IsMainThread()); return GetResource()->IsTransportSeekable(); } bool MediaDecoder::IsMediaSeekable() { NS_ENSURE_TRUE(GetStateMachine(), false); ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); MOZ_ASSERT(OnDecodeThread() || NS_IsMainThread()); return mMediaSeekable; } nsresult MediaDecoder::GetSeekable(dom::TimeRanges* aSeekable) { double initialTime = 0.0; // We can seek in buffered range if the media is seekable. Also, we can seek // in unbuffered ranges if the transport level is seekable (local file or the // server supports range requests, etc.) if (!IsMediaSeekable()) { return NS_OK; } else if (!IsTransportSeekable()) { return GetBuffered(aSeekable); } else { double end = IsInfinite() ? std::numeric_limits::infinity() : initialTime + GetDuration(); aSeekable->Add(initialTime, end); return NS_OK; } } void MediaDecoder::SetFragmentEndTime(double aTime) { MOZ_ASSERT(NS_IsMainThread()); if (mDecoderStateMachine) { ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); mDecoderStateMachine->SetFragmentEndTime(static_cast(aTime * USECS_PER_S)); } } void MediaDecoder::SetMediaEndTime(int64_t aTime) { NS_ENSURE_TRUE_VOID(GetStateMachine()); GetStateMachine()->SetMediaEndTime(aTime); } void MediaDecoder::Suspend() { MOZ_ASSERT(NS_IsMainThread()); if (mResource) { mResource->Suspend(true); } } void MediaDecoder::Resume(bool aForceBuffering) { MOZ_ASSERT(NS_IsMainThread()); if (mResource) { mResource->Resume(); } if (aForceBuffering) { ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); if (mDecoderStateMachine) { mDecoderStateMachine->StartBuffering(); } } } void MediaDecoder::StopProgressUpdates() { MOZ_ASSERT(OnStateMachineThread() || OnDecodeThread()); GetReentrantMonitor().AssertCurrentThreadIn(); mIgnoreProgressData = true; if (mResource) { mResource->SetReadMode(MediaCacheStream::MODE_METADATA); } } void MediaDecoder::StartProgressUpdates() { MOZ_ASSERT(OnStateMachineThread() || OnDecodeThread()); GetReentrantMonitor().AssertCurrentThreadIn(); mIgnoreProgressData = false; if (mResource) { mResource->SetReadMode(MediaCacheStream::MODE_PLAYBACK); mDecoderPosition = mPlaybackPosition = mResource->Tell(); } } void MediaDecoder::SetLoadInBackground(bool aLoadInBackground) { MOZ_ASSERT(NS_IsMainThread()); if (mResource) { mResource->SetLoadInBackground(aLoadInBackground); } } void MediaDecoder::UpdatePlaybackOffset(int64_t aOffset) { ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); mPlaybackPosition = std::max(aOffset, mPlaybackPosition); } bool MediaDecoder::OnStateMachineThread() const { return mDecoderStateMachine->OnStateMachineThread(); } void MediaDecoder::SetPlaybackRate(double aPlaybackRate) { if (aPlaybackRate == 0.0) { mPausedForPlaybackRateNull = true; mInitialPlaybackRate = aPlaybackRate; Pause(); return; } else if (mPausedForPlaybackRateNull) { // Play() uses mPausedForPlaybackRateNull value, so must reset it first mPausedForPlaybackRateNull = false; // If the playbackRate is no longer null, restart the playback, iff the // media was playing. if (mOwner && !mOwner->GetPaused()) { Play(); } } if (mDecoderStateMachine) { mDecoderStateMachine->SetPlaybackRate(aPlaybackRate); } else { mInitialPlaybackRate = aPlaybackRate; } } void MediaDecoder::SetPreservesPitch(bool aPreservesPitch) { if (mDecoderStateMachine) { mDecoderStateMachine->SetPreservesPitch(aPreservesPitch); } else { mInitialPreservesPitch = aPreservesPitch; } } bool MediaDecoder::OnDecodeThread() const { NS_WARN_IF_FALSE(mDecoderStateMachine, "mDecoderStateMachine is null"); return mDecoderStateMachine ? mDecoderStateMachine->OnDecodeThread() : false; } ReentrantMonitor& MediaDecoder::GetReentrantMonitor() { return mReentrantMonitor.GetReentrantMonitor(); } ImageContainer* MediaDecoder::GetImageContainer() { return mVideoFrameContainer ? mVideoFrameContainer->GetImageContainer() : nullptr; } void MediaDecoder::InvalidateWithFlags(uint32_t aFlags) { if (mVideoFrameContainer) { mVideoFrameContainer->InvalidateWithFlags(aFlags); } } void MediaDecoder::Invalidate() { if (mVideoFrameContainer) { mVideoFrameContainer->Invalidate(); } } // Constructs the time ranges representing what segments of the media // are buffered and playable. nsresult MediaDecoder::GetBuffered(dom::TimeRanges* aBuffered) { NS_ENSURE_TRUE(mDecoderStateMachine, NS_ERROR_FAILURE); return mDecoderStateMachine->GetBuffered(aBuffered); } size_t MediaDecoder::SizeOfVideoQueue() { if (mDecoderStateMachine) { return mDecoderStateMachine->SizeOfVideoQueue(); } return 0; } size_t MediaDecoder::SizeOfAudioQueue() { if (mDecoderStateMachine) { return mDecoderStateMachine->SizeOfAudioQueue(); } return 0; } void MediaDecoder::NotifyDataArrived(const char* aBuffer, uint32_t aLength, int64_t aOffset) { if (mDecoderStateMachine) { mDecoderStateMachine->NotifyDataArrived(aBuffer, aLength, aOffset); } UpdateReadyStateForData(); } void MediaDecoder::UpdatePlaybackPosition(int64_t aTime) { mDecoderStateMachine->UpdatePlaybackPosition(aTime); } // Provide access to the state machine object MediaDecoderStateMachine* MediaDecoder::GetStateMachine() const { return mDecoderStateMachine; } void MediaDecoder::NotifyWaitingForResourcesStatusChanged() { ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); if (mDecoderStateMachine) { mDecoderStateMachine->NotifyWaitingForResourcesStatusChanged(); } } bool MediaDecoder::IsShutdown() const { NS_ENSURE_TRUE(GetStateMachine(), true); return GetStateMachine()->IsShutdown(); } // Drop reference to state machine. Only called during shutdown dance. void MediaDecoder::BreakCycles() { mDecoderStateMachine = nullptr; } MediaDecoderOwner* MediaDecoder::GetMediaOwner() const { return mOwner; } void MediaDecoder::FireTimeUpdate() { if (!mOwner) return; mOwner->FireTimeUpdate(true); } void MediaDecoder::PinForSeek() { MediaResource* resource = GetResource(); if (!resource || mPinnedForSeek) { return; } mPinnedForSeek = true; resource->Pin(); } void MediaDecoder::UnpinForSeek() { MediaResource* resource = GetResource(); if (!resource || !mPinnedForSeek) { return; } mPinnedForSeek = false; resource->Unpin(); } bool MediaDecoder::CanPlayThrough() { Statistics stats = GetStatistics(); NS_ASSERTION(mDecoderStateMachine, "CanPlayThrough should have state machine!"); if (mDecoderStateMachine->IsRealTime() || (stats.mTotalBytes < 0 && stats.mDownloadRateReliable) || (stats.mTotalBytes >= 0 && stats.mTotalBytes == stats.mDownloadPosition)) { return true; } if (!stats.mDownloadRateReliable || !stats.mPlaybackRateReliable) { return false; } int64_t bytesToDownload = stats.mTotalBytes - stats.mDownloadPosition; int64_t bytesToPlayback = stats.mTotalBytes - stats.mPlaybackPosition; double timeToDownload = bytesToDownload / stats.mDownloadRate; double timeToPlay = bytesToPlayback / stats.mPlaybackRate; if (timeToDownload > timeToPlay) { // Estimated time to download is greater than the estimated time to play. // We probably can't play through without having to stop to buffer. return false; } // Estimated time to download is less than the estimated time to play. // We can probably play through without having to buffer, but ensure that // we've got a reasonable amount of data buffered after the current // playback position, so that if the bitrate of the media fluctuates, or if // our download rate or decode rate estimation is otherwise inaccurate, // we don't suddenly discover that we need to buffer. This is particularly // required near the start of the media, when not much data is downloaded. int64_t readAheadMargin = static_cast(stats.mPlaybackRate * CAN_PLAY_THROUGH_MARGIN); return stats.mDownloadPosition > stats.mPlaybackPosition + readAheadMargin; } #ifdef MOZ_EME nsresult MediaDecoder::SetCDMProxy(CDMProxy* aProxy) { ReentrantMonitorAutoEnter mon(GetReentrantMonitor()); MOZ_ASSERT(NS_IsMainThread()); mProxy = aProxy; // Awaken any readers waiting for the proxy. NotifyWaitingForResourcesStatusChanged(); return NS_OK; } CDMProxy* MediaDecoder::GetCDMProxy() { GetReentrantMonitor().AssertCurrentThreadIn(); MOZ_ASSERT(OnDecodeThread() || NS_IsMainThread()); return mProxy; } #endif #ifdef MOZ_RAW bool MediaDecoder::IsRawEnabled() { return Preferences::GetBool("media.raw.enabled"); } #endif bool MediaDecoder::IsOpusEnabled() { return Preferences::GetBool("media.opus.enabled"); } bool MediaDecoder::IsOggEnabled() { return Preferences::GetBool("media.ogg.enabled"); } #ifdef MOZ_WAVE bool MediaDecoder::IsWaveEnabled() { return Preferences::GetBool("media.wave.enabled"); } #endif #ifdef MOZ_WEBM bool MediaDecoder::IsWebMEnabled() { return Preferences::GetBool("media.webm.enabled"); } #endif #ifdef NECKO_PROTOCOL_rtsp bool MediaDecoder::IsRtspEnabled() { //Currently the Rtsp decoded by omx. return (Preferences::GetBool("media.rtsp.enabled", false) && IsOmxEnabled()); } #endif #ifdef MOZ_GSTREAMER bool MediaDecoder::IsGStreamerEnabled() { return Preferences::GetBool("media.gstreamer.enabled"); } #endif #ifdef MOZ_OMX_DECODER bool MediaDecoder::IsOmxEnabled() { return Preferences::GetBool("media.omx.enabled", false); } bool MediaDecoder::IsOmxAsyncEnabled() { #if ANDROID_VERSION >= 16 return Preferences::GetBool("media.omx.async.enabled", false); #else return false; #endif } #endif #ifdef MOZ_ANDROID_OMX bool MediaDecoder::IsAndroidMediaEnabled() { return Preferences::GetBool("media.plugins.enabled"); } #endif #ifdef MOZ_WMF bool MediaDecoder::IsWMFEnabled() { return WMFDecoder::IsEnabled(); } #endif #ifdef MOZ_APPLEMEDIA bool MediaDecoder::IsAppleMP3Enabled() { return Preferences::GetBool("media.apple.mp3.enabled"); } #endif NS_IMETHODIMP MediaMemoryTracker::CollectReports(nsIHandleReportCallback* aHandleReport, nsISupports* aData, bool aAnonymize) { int64_t video = 0, audio = 0; size_t resources = 0; DecodersArray& decoders = Decoders(); for (size_t i = 0; i < decoders.Length(); ++i) { MediaDecoder* decoder = decoders[i]; video += decoder->SizeOfVideoQueue(); audio += decoder->SizeOfAudioQueue(); if (decoder->GetResource()) { resources += decoder->GetResource()->SizeOfIncludingThis(MallocSizeOf); } } #define REPORT(_path, _amount, _desc) \ do { \ nsresult rv; \ rv = aHandleReport->Callback(EmptyCString(), NS_LITERAL_CSTRING(_path), \ KIND_HEAP, UNITS_BYTES, _amount, \ NS_LITERAL_CSTRING(_desc), aData); \ NS_ENSURE_SUCCESS(rv, rv); \ } while (0) REPORT("explicit/media/decoded/video", video, "Memory used by decoded video frames."); REPORT("explicit/media/decoded/audio", audio, "Memory used by decoded audio chunks."); REPORT("explicit/media/resources", resources, "Memory used by media resources including streaming buffers, caches, " "etc."); #undef REPORT return NS_OK; } MediaDecoderOwner* MediaDecoder::GetOwner() { MOZ_ASSERT(NS_IsMainThread()); return mOwner; } void MediaDecoder::ConstructMediaTracks() { MOZ_ASSERT(NS_IsMainThread()); if (mMediaTracksConstructed) { return; } if (!mOwner || !mInfo) { return; } HTMLMediaElement* element = mOwner->GetMediaElement(); if (!element) { return; } mMediaTracksConstructed = true; AudioTrackList* audioList = element->AudioTracks(); if (audioList && mInfo->HasAudio()) { TrackInfo info = mInfo->mAudio.mTrackInfo; nsRefPtr track = MediaTrackList::CreateAudioTrack( info.mId, info.mKind, info.mLabel, info.mLanguage, info.mEnabled); audioList->AddTrack(track); } VideoTrackList* videoList = element->VideoTracks(); if (videoList && mInfo->HasVideo()) { TrackInfo info = mInfo->mVideo.mTrackInfo; nsRefPtr track = MediaTrackList::CreateVideoTrack( info.mId, info.mKind, info.mLabel, info.mLanguage); videoList->AddTrack(track); track->SetEnabledInternal(info.mEnabled, MediaTrack::FIRE_NO_EVENTS); } } void MediaDecoder::RemoveMediaTracks() { MOZ_ASSERT(NS_IsMainThread()); if (!mOwner) { return; } HTMLMediaElement* element = mOwner->GetMediaElement(); if (!element) { return; } AudioTrackList* audioList = element->AudioTracks(); if (audioList) { audioList->RemoveTracks(); } VideoTrackList* videoList = element->VideoTracks(); if (videoList) { videoList->RemoveTracks(); } mMediaTracksConstructed = false; } MediaMemoryTracker::MediaMemoryTracker() { } void MediaMemoryTracker::InitMemoryReporter() { RegisterWeakMemoryReporter(this); } MediaMemoryTracker::~MediaMemoryTracker() { UnregisterWeakMemoryReporter(this); } } // namespace mozilla // avoid redefined macro in unified build #undef DECODER_LOG