/* 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 "CrossGraphPort.h" #include "AudioDeviceInfo.h" #include "AudioStreamTrack.h" #include "MediaTrackGraphImpl.h" #include "mozilla/Logging.h" namespace mozilla { #ifdef LOG # undef LOG #endif #ifdef LOG_TEST # undef LOG_TEST #endif extern LazyLogModule gMediaTrackGraphLog; #define LOG(type, msg) MOZ_LOG(gMediaTrackGraphLog, type, msg) #define LOG_TEST(type) MOZ_LOG_TEST(gMediaTrackGraphLog, type) UniquePtr CrossGraphPort::Connect( const RefPtr& aStreamTrack, AudioDeviceInfo* aSink, nsPIDOMWindowInner* aWindow) { MOZ_ASSERT(aSink); MOZ_ASSERT(aStreamTrack); uint32_t defaultRate; aSink->GetDefaultRate(&defaultRate); LOG(LogLevel::Debug, ("CrossGraphPort::Connect: sink id: %p at rate %u, primary rate %d", aSink->DeviceID(), defaultRate, aStreamTrack->Graph()->GraphRate())); if (!aSink->DeviceID()) { return nullptr; } MediaTrackGraph* newGraph = MediaTrackGraph::GetInstance(MediaTrackGraph::AUDIO_THREAD_DRIVER, aWindow, defaultRate, aSink->DeviceID()); return CrossGraphPort::Connect(aStreamTrack, newGraph); } UniquePtr CrossGraphPort::Connect( const RefPtr& aStreamTrack, MediaTrackGraph* aPartnerGraph) { MOZ_ASSERT(aStreamTrack); MOZ_ASSERT(aPartnerGraph); if (aStreamTrack->Graph() == aPartnerGraph) { // Primary graph the same as partner graph, just remove the existing cross // graph connection return nullptr; } RefPtr receiver = aPartnerGraph->CreateCrossGraphReceiver( aStreamTrack->Graph()->GraphRate()); RefPtr transmitter = aStreamTrack->Graph()->CreateCrossGraphTransmitter(receiver); RefPtr port = aStreamTrack->ForwardTrackContentsTo(transmitter); return WrapUnique(new CrossGraphPort(std::move(port), std::move(transmitter), std::move(receiver))); } void CrossGraphPort::AddAudioOutput(void* aKey) { mReceiver->AddAudioOutput(aKey); } void CrossGraphPort::RemoveAudioOutput(void* aKey) { mReceiver->RemoveAudioOutput(aKey); } void CrossGraphPort::SetAudioOutputVolume(void* aKey, float aVolume) { mReceiver->SetAudioOutputVolume(aKey, aVolume); } void CrossGraphPort::Destroy() { mTransmitter->Destroy(); mReceiver->Destroy(); mTransmitterPort->Destroy(); } RefPtr CrossGraphPort::EnsureConnected() { // The primary graph is already working check the partner (receiver's) graph. return mReceiver->Graph()->NotifyWhenDeviceStarted(mReceiver.get()); } /** CrossGraphTransmitter **/ CrossGraphTransmitter::CrossGraphTransmitter( TrackRate aSampleRate, RefPtr aReceiver) : ProcessedMediaTrack(aSampleRate, MediaSegment::AUDIO, nullptr /* aSegment */), mReceiver(std::move(aReceiver)) {} void CrossGraphTransmitter::ProcessInput(GraphTime aFrom, GraphTime aTo, uint32_t aFlags) { MOZ_ASSERT(!mInputs.IsEmpty()); MOZ_ASSERT(mDisabledMode == DisabledTrackMode::ENABLED); MediaTrack* input = mInputs[0]->GetSource(); if (input->Ended() && (input->GetEnd() <= input->GraphTimeToTrackTimeWithBlocking(aFrom))) { mEnded = true; return; } LOG(LogLevel::Verbose, ("Transmitter (%p) mSegment: duration: %" PRId64 ", from %" PRId64 ", to %" PRId64 ", ticks %" PRId64 "", this, mSegment->GetDuration(), aFrom, aTo, aTo - aFrom)); AudioSegment audio; GraphTime next; for (GraphTime t = aFrom; t < aTo; t = next) { MediaInputPort::InputInterval interval = MediaInputPort::GetNextInputInterval(mInputs[0], t); interval.mEnd = std::min(interval.mEnd, aTo); TrackTime ticks = interval.mEnd - interval.mStart; next = interval.mEnd; if (interval.mStart >= interval.mEnd) { break; } if (interval.mInputIsBlocked) { audio.AppendNullData(ticks); } else if (input->IsSuspended()) { audio.AppendNullData(ticks); } else { MOZ_ASSERT(GetEnd() == GraphTimeToTrackTimeWithBlocking(interval.mStart), "Samples missing"); TrackTime inputStart = input->GraphTimeToTrackTimeWithBlocking(interval.mStart); TrackTime inputEnd = input->GraphTimeToTrackTimeWithBlocking(interval.mEnd); audio.AppendSlice(*input->GetData(), inputStart, inputEnd); } } mStartTime = aTo; for (AudioSegment::ChunkIterator iter(audio); !iter.IsEnded(); iter.Next()) { Unused << mReceiver->EnqueueAudio(*iter); } } /** CrossGraphReceiver **/ CrossGraphReceiver::CrossGraphReceiver(TrackRate aSampleRate, TrackRate aTransmitterRate) : ProcessedMediaTrack(aSampleRate, MediaSegment::AUDIO, static_cast(new AudioSegment())), mDriftCorrection(aTransmitterRate, aSampleRate) {} uint32_t CrossGraphReceiver::NumberOfChannels() const { return GetData()->MaxChannelCount(); } void CrossGraphReceiver::ProcessInput(GraphTime aFrom, GraphTime aTo, uint32_t aFlags) { LOG(LogLevel::Verbose, ("Receiver (%p) mSegment: duration: %" PRId64 ", from %" PRId64 ", to %" PRId64 ", ticks %" PRId64 "", this, mSegment->GetDuration(), aFrom, aTo, aTo - aFrom)); AudioSegment transmittedAudio; while (mCrossThreadFIFO.AvailableRead()) { AudioChunk chunk; Unused << mCrossThreadFIFO.Dequeue(&chunk, 1); transmittedAudio.AppendAndConsumeChunk(&chunk); mTransmitterHasStarted = true; } if (mTransmitterHasStarted) { // If it does not have enough frames the result will be silence. AudioSegment audioCorrected = mDriftCorrection.RequestFrames(transmittedAudio, aTo - aFrom); if (LOG_TEST(LogLevel::Verbose) && audioCorrected.IsNull()) { LOG(LogLevel::Verbose, ("Receiver(%p): Silence has been added, not enough input", this)); } mSegment->AppendFrom(&audioCorrected); } else { mSegment->AppendNullData(aTo - aFrom); } } int CrossGraphReceiver::EnqueueAudio(AudioChunk& aChunk) { // This will take place on transmitter graph thread only. return mCrossThreadFIFO.Enqueue(aChunk); } } // namespace mozilla