/* 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 "MediaEngineWebRTC.h" #include #include #include "mozilla/Assertions.h" #include "MediaTrackConstraints.h" #include "mtransport/runnable_utils.h" #include "nsAutoPtr.h" #include "nsContentUtils.h" // scoped_ptr.h uses FF #ifdef FF #undef FF #endif #include "webrtc/modules/audio_device/opensl/single_rw_fifo.h" #define CHANNELS 1 #define ENCODING "L16" #define DEFAULT_PORT 5555 #define SAMPLE_RATE(freq) ((freq)*2*8) // bps, 16-bit samples #define SAMPLE_LENGTH(freq) (((freq)*10)/1000) // These are restrictions from the webrtc.org code #define MAX_CHANNELS 2 #define MAX_SAMPLING_FREQ 48000 // Hz - multiple of 100 #define MAX_AEC_FIFO_DEPTH 200 // ms - multiple of 10 static_assert(!(MAX_AEC_FIFO_DEPTH % 10), "Invalid MAX_AEC_FIFO_DEPTH"); namespace mozilla { #ifdef LOG #undef LOG #endif extern LogModule* GetMediaManagerLog(); #define LOG(msg) MOZ_LOG(GetMediaManagerLog(), mozilla::LogLevel::Debug, msg) #define LOG_FRAMES(msg) MOZ_LOG(GetMediaManagerLog(), mozilla::LogLevel::Verbose, msg) /** * Webrtc microphone source source. */ NS_IMPL_ISUPPORTS0(MediaEngineWebRTCMicrophoneSource) NS_IMPL_ISUPPORTS0(MediaEngineWebRTCAudioCaptureSource) // XXX temp until MSG supports registration StaticRefPtr gFarendObserver; int MediaEngineWebRTCMicrophoneSource::sChannelsOpen = 0; ScopedCustomReleasePtr MediaEngineWebRTCMicrophoneSource::mVoEBase; ScopedCustomReleasePtr MediaEngineWebRTCMicrophoneSource::mVoERender; ScopedCustomReleasePtr MediaEngineWebRTCMicrophoneSource::mVoENetwork; ScopedCustomReleasePtr MediaEngineWebRTCMicrophoneSource::mVoEProcessing; AudioOutputObserver::AudioOutputObserver() : mPlayoutFreq(0) , mPlayoutChannels(0) , mChunkSize(0) , mSaved(nullptr) , mSamplesSaved(0) { // Buffers of 10ms chunks mPlayoutFifo = new webrtc::SingleRwFifo(MAX_AEC_FIFO_DEPTH/10); } AudioOutputObserver::~AudioOutputObserver() { Clear(); free(mSaved); mSaved = nullptr; } void AudioOutputObserver::Clear() { while (mPlayoutFifo->size() > 0) { free(mPlayoutFifo->Pop()); } // we'd like to touch mSaved here, but we can't if we might still be getting callbacks } FarEndAudioChunk * AudioOutputObserver::Pop() { return (FarEndAudioChunk *) mPlayoutFifo->Pop(); } uint32_t AudioOutputObserver::Size() { return mPlayoutFifo->size(); } void AudioOutputObserver::MixerCallback(AudioDataValue* aMixedBuffer, AudioSampleFormat aFormat, uint32_t aChannels, uint32_t aFrames, uint32_t aSampleRate) { if (gFarendObserver) { gFarendObserver->InsertFarEnd(aMixedBuffer, aFrames, false, aSampleRate, aChannels, aFormat); } } // static void AudioOutputObserver::InsertFarEnd(const AudioDataValue *aBuffer, uint32_t aFrames, bool aOverran, int aFreq, int aChannels, AudioSampleFormat aFormat) { if (mPlayoutChannels != 0) { if (mPlayoutChannels != static_cast(aChannels)) { MOZ_CRASH(); } } else { MOZ_ASSERT(aChannels <= MAX_CHANNELS); mPlayoutChannels = static_cast(aChannels); } if (mPlayoutFreq != 0) { if (mPlayoutFreq != static_cast(aFreq)) { MOZ_CRASH(); } } else { MOZ_ASSERT(aFreq <= MAX_SAMPLING_FREQ); MOZ_ASSERT(!(aFreq % 100), "Sampling rate for far end data should be multiple of 100."); mPlayoutFreq = aFreq; mChunkSize = aFreq/100; // 10ms } #ifdef LOG_FAREND_INSERTION static FILE *fp = fopen("insertfarend.pcm","wb"); #endif if (mSaved) { // flag overrun as soon as possible, and only once mSaved->mOverrun = aOverran; aOverran = false; } // Rechunk to 10ms. // The AnalyzeReverseStream() and WebRtcAec_BufferFarend() functions insist on 10ms // samples per call. Annoying... while (aFrames) { if (!mSaved) { mSaved = (FarEndAudioChunk *) moz_xmalloc(sizeof(FarEndAudioChunk) + (mChunkSize * aChannels - 1)*sizeof(int16_t)); mSaved->mSamples = mChunkSize; mSaved->mOverrun = aOverran; aOverran = false; } uint32_t to_copy = mChunkSize - mSamplesSaved; if (to_copy > aFrames) { to_copy = aFrames; } int16_t *dest = &(mSaved->mData[mSamplesSaved * aChannels]); ConvertAudioSamples(aBuffer, dest, to_copy * aChannels); #ifdef LOG_FAREND_INSERTION if (fp) { fwrite(&(mSaved->mData[mSamplesSaved * aChannels]), to_copy * aChannels, sizeof(int16_t), fp); } #endif aFrames -= to_copy; mSamplesSaved += to_copy; aBuffer += to_copy * aChannels; if (mSamplesSaved >= mChunkSize) { int free_slots = mPlayoutFifo->capacity() - mPlayoutFifo->size(); if (free_slots <= 0) { // XXX We should flag an overrun for the reader. We can't drop data from it due to // thread safety issues. break; } else { mPlayoutFifo->Push((int8_t *) mSaved); // takes ownership mSaved = nullptr; mSamplesSaved = 0; } } } } MediaEngineWebRTCMicrophoneSource::MediaEngineWebRTCMicrophoneSource( webrtc::VoiceEngine* aVoiceEnginePtr, mozilla::AudioInput* aAudioInput, int aIndex, const char* name, const char* uuid) : MediaEngineAudioSource(kReleased) , mVoiceEngine(aVoiceEnginePtr) , mAudioInput(aAudioInput) , mMonitor("WebRTCMic.Monitor") , mCapIndex(aIndex) , mChannel(-1) , mTrackID(TRACK_NONE) , mStarted(false) , mSampleFrequency(MediaEngine::DEFAULT_SAMPLE_RATE) , mPlayoutDelay(0) , mNullTransport(nullptr) , mSkipProcessing(false) { MOZ_ASSERT(aVoiceEnginePtr); MOZ_ASSERT(aAudioInput); mDeviceName.Assign(NS_ConvertUTF8toUTF16(name)); mDeviceUUID.Assign(uuid); mListener = new mozilla::WebRTCAudioDataListener(this); mSettings.mEchoCancellation.Construct(0); mSettings.mMozAutoGainControl.Construct(0); mSettings.mMozNoiseSuppression.Construct(0); // We'll init lazily as needed } void MediaEngineWebRTCMicrophoneSource::GetName(nsAString& aName) const { aName.Assign(mDeviceName); return; } void MediaEngineWebRTCMicrophoneSource::GetUUID(nsACString& aUUID) const { aUUID.Assign(mDeviceUUID); return; } // GetBestFitnessDistance returns the best distance the capture device can offer // as a whole, given an accumulated number of ConstraintSets. // Ideal values are considered in the first ConstraintSet only. // Plain values are treated as Ideal in the first ConstraintSet. // Plain values are treated as Exact in subsequent ConstraintSets. // Infinity = UINT32_MAX e.g. device cannot satisfy accumulated ConstraintSets. // A finite result may be used to calculate this device's ranking as a choice. uint32_t MediaEngineWebRTCMicrophoneSource::GetBestFitnessDistance( const nsTArray& aConstraintSets, const nsString& aDeviceId) const { uint32_t distance = 0; for (const auto* cs : aConstraintSets) { distance = GetMinimumFitnessDistance(*cs, aDeviceId); break; // distance is read from first entry only } return distance; } nsresult MediaEngineWebRTCMicrophoneSource::Restart(AllocationHandle* aHandle, const dom::MediaTrackConstraints& aConstraints, const MediaEnginePrefs &aPrefs, const nsString& aDeviceId, const char** aOutBadConstraint) { AssertIsOnOwningThread(); MOZ_ASSERT(aHandle); NormalizedConstraints constraints(aConstraints); return ReevaluateAllocation(aHandle, &constraints, aPrefs, aDeviceId, aOutBadConstraint); } bool operator == (const MediaEnginePrefs& a, const MediaEnginePrefs& b) { return !memcmp(&a, &b, sizeof(MediaEnginePrefs)); }; nsresult MediaEngineWebRTCMicrophoneSource::UpdateSingleSource( const AllocationHandle* aHandle, const NormalizedConstraints& aNetConstraints, const MediaEnginePrefs& aPrefs, const nsString& aDeviceId, const char** aOutBadConstraint) { FlattenedConstraints c(aNetConstraints); MediaEnginePrefs prefs = aPrefs; prefs.mAecOn = c.mEchoCancellation.Get(prefs.mAecOn); prefs.mAgcOn = c.mMozAutoGainControl.Get(prefs.mAgcOn); prefs.mNoiseOn = c.mMozNoiseSuppression.Get(prefs.mNoiseOn); LOG(("Audio config: aec: %d, agc: %d, noise: %d, delay: %d", prefs.mAecOn ? prefs.mAec : -1, prefs.mAgcOn ? prefs.mAgc : -1, prefs.mNoiseOn ? prefs.mNoise : -1, prefs.mPlayoutDelay)); mPlayoutDelay = prefs.mPlayoutDelay; switch (mState) { case kReleased: MOZ_ASSERT(aHandle); if (sChannelsOpen == 0) { if (!InitEngine()) { LOG(("Audio engine is not initalized")); return NS_ERROR_FAILURE; } } else { // Until we fix (or wallpaper) support for multiple mic input // (Bug 1238038) fail allocation for a second device return NS_ERROR_FAILURE; } if (!AllocChannel()) { LOG(("Audio device is not initalized")); return NS_ERROR_FAILURE; } if (mAudioInput->SetRecordingDevice(mCapIndex)) { FreeChannel(); return NS_ERROR_FAILURE; } LOG(("Audio device %d allocated", mCapIndex)); break; case kStarted: if (prefs == mLastPrefs) { return NS_OK; } if (MOZ_LOG_TEST(GetMediaManagerLog(), LogLevel::Debug)) { MonitorAutoLock lock(mMonitor); if (mSources.IsEmpty()) { LOG(("Audio device %d reallocated", mCapIndex)); } else { LOG(("Audio device %d allocated shared", mCapIndex)); } } break; default: LOG(("Audio device %d %s in ignored state %d", mCapIndex, (aHandle? aHandle->mOrigin.get() : ""), mState)); break; } if (sChannelsOpen > 0) { int error; error = mVoEProcessing->SetEcStatus(prefs.mAecOn, (webrtc::EcModes)prefs.mAec); if (error) { LOG(("%s Error setting Echo Status: %d ",__FUNCTION__, error)); // Overhead of capturing all the time is very low (<0.1% of an audio only call) if (prefs.mAecOn) { error = mVoEProcessing->SetEcMetricsStatus(true); if (error) { LOG(("%s Error setting Echo Metrics: %d ",__FUNCTION__, error)); } } } error = mVoEProcessing->SetAgcStatus(prefs.mAgcOn, (webrtc::AgcModes)prefs.mAgc); if (error) { LOG(("%s Error setting AGC Status: %d ",__FUNCTION__, error)); } error = mVoEProcessing->SetNsStatus(prefs.mNoiseOn, (webrtc::NsModes)prefs.mNoise); if (error) { LOG(("%s Error setting NoiseSuppression Status: %d ",__FUNCTION__, error)); } } mSkipProcessing = !(prefs.mAecOn || prefs.mAgcOn || prefs.mNoiseOn); if (mSkipProcessing) { mSampleFrequency = MediaEngine::USE_GRAPH_RATE; } SetLastPrefs(prefs); return NS_OK; } void MediaEngineWebRTCMicrophoneSource::SetLastPrefs( const MediaEnginePrefs& aPrefs) { mLastPrefs = aPrefs; RefPtr that = this; NS_DispatchToMainThread(media::NewRunnableFrom([that, aPrefs]() mutable { that->mSettings.mEchoCancellation.Value() = aPrefs.mAecOn; that->mSettings.mMozAutoGainControl.Value() = aPrefs.mAgcOn; that->mSettings.mMozNoiseSuppression.Value() = aPrefs.mNoiseOn; return NS_OK; })); } nsresult MediaEngineWebRTCMicrophoneSource::Deallocate(AllocationHandle* aHandle) { AssertIsOnOwningThread(); Super::Deallocate(aHandle); if (!mRegisteredHandles.Length()) { // If empty, no callbacks to deliver data should be occuring if (mState != kStopped && mState != kAllocated) { return NS_ERROR_FAILURE; } FreeChannel(); LOG(("Audio device %d deallocated", mCapIndex)); } else { LOG(("Audio device %d deallocated but still in use", mCapIndex)); } return NS_OK; } nsresult MediaEngineWebRTCMicrophoneSource::Start(SourceMediaStream *aStream, TrackID aID, const PrincipalHandle& aPrincipalHandle) { AssertIsOnOwningThread(); if (sChannelsOpen == 0 || !aStream) { return NS_ERROR_FAILURE; } { MonitorAutoLock lock(mMonitor); mSources.AppendElement(aStream); mPrincipalHandles.AppendElement(aPrincipalHandle); MOZ_ASSERT(mSources.Length() == mPrincipalHandles.Length()); } AudioSegment* segment = new AudioSegment(); if (mSampleFrequency == MediaEngine::USE_GRAPH_RATE) { mSampleFrequency = aStream->GraphRate(); } aStream->AddAudioTrack(aID, mSampleFrequency, 0, segment, SourceMediaStream::ADDTRACK_QUEUED); // XXX Make this based on the pref. aStream->RegisterForAudioMixing(); LOG(("Start audio for stream %p", aStream)); if (!mListener) { mListener = new mozilla::WebRTCAudioDataListener(this); } if (mState == kStarted) { MOZ_ASSERT(aID == mTrackID); // Make sure we're associated with this stream mAudioInput->StartRecording(aStream, mListener); return NS_OK; } mState = kStarted; mTrackID = aID; // Make sure logger starts before capture AsyncLatencyLogger::Get(true); // Register output observer // XXX MOZ_ASSERT(gFarendObserver); gFarendObserver->Clear(); if (mVoEBase->StartReceive(mChannel)) { return NS_ERROR_FAILURE; } // Must be *before* StartSend() so it will notice we selected external input (full_duplex) mAudioInput->StartRecording(aStream, mListener); if (mVoEBase->StartSend(mChannel)) { return NS_ERROR_FAILURE; } // Attach external media processor, so this::Process will be called. mVoERender->RegisterExternalMediaProcessing(mChannel, webrtc::kRecordingPerChannel, *this); return NS_OK; } nsresult MediaEngineWebRTCMicrophoneSource::Stop(SourceMediaStream *aSource, TrackID aID) { AssertIsOnOwningThread(); { MonitorAutoLock lock(mMonitor); size_t sourceIndex = mSources.IndexOf(aSource); if (sourceIndex == mSources.NoIndex) { // Already stopped - this is allowed return NS_OK; } mSources.RemoveElementAt(sourceIndex); mPrincipalHandles.RemoveElementAt(sourceIndex); MOZ_ASSERT(mSources.Length() == mPrincipalHandles.Length()); aSource->EndTrack(aID); if (!mSources.IsEmpty()) { mAudioInput->StopRecording(aSource); return NS_OK; } if (mState != kStarted) { return NS_ERROR_FAILURE; } if (!mVoEBase) { return NS_ERROR_FAILURE; } mState = kStopped; } if (mListener) { // breaks a cycle, since the WebRTCAudioDataListener has a RefPtr to us mListener->Shutdown(); mListener = nullptr; } mAudioInput->StopRecording(aSource); mVoERender->DeRegisterExternalMediaProcessing(mChannel, webrtc::kRecordingPerChannel); if (mVoEBase->StopSend(mChannel)) { return NS_ERROR_FAILURE; } if (mVoEBase->StopReceive(mChannel)) { return NS_ERROR_FAILURE; } return NS_OK; } void MediaEngineWebRTCMicrophoneSource::NotifyPull(MediaStreamGraph *aGraph, SourceMediaStream *aSource, TrackID aID, StreamTime aDesiredTime, const PrincipalHandle& aPrincipalHandle) { // Ignore - we push audio data LOG_FRAMES(("NotifyPull, desired = %ld", (int64_t) aDesiredTime)); } void MediaEngineWebRTCMicrophoneSource::NotifyOutputData(MediaStreamGraph* aGraph, AudioDataValue* aBuffer, size_t aFrames, TrackRate aRate, uint32_t aChannels) { } void MediaEngineWebRTCMicrophoneSource::PacketizeAndProcess(MediaStreamGraph* aGraph, const AudioDataValue* aBuffer, size_t aFrames, TrackRate aRate, uint32_t aChannels) { // This will call Process() with data coming out of the AEC/NS/AGC/etc chain if (!mPacketizer || mPacketizer->PacketSize() != aRate/100u || mPacketizer->Channels() != aChannels) { // It's ok to drop the audio still in the packetizer here. mPacketizer = new AudioPacketizer(aRate/100, aChannels); } mPacketizer->Input(aBuffer, static_cast(aFrames)); while (mPacketizer->PacketsAvailable()) { uint32_t samplesPerPacket = mPacketizer->PacketSize() * mPacketizer->Channels(); if (mInputBuffer.Length() < samplesPerPacket) { mInputBuffer.SetLength(samplesPerPacket); } int16_t* packet = mInputBuffer.Elements(); mPacketizer->Output(packet); mVoERender->ExternalRecordingInsertData(packet, samplesPerPacket, aRate, 0); } } template void MediaEngineWebRTCMicrophoneSource::InsertInGraph(const T* aBuffer, size_t aFrames, uint32_t aChannels) { if (mState != kStarted) { return; } size_t len = mSources.Length(); for (size_t i = 0; i < len; i++) { if (!mSources[i]) { continue; } RefPtr buffer = SharedBuffer::Create(aFrames * aChannels * sizeof(T)); PodCopy(static_cast(buffer->Data()), aBuffer, aFrames * aChannels); TimeStamp insertTime; // Make sure we include the stream and the track. // The 0:1 is a flag to note when we've done the final insert for a given input block. LogTime(AsyncLatencyLogger::AudioTrackInsertion, LATENCY_STREAM_ID(mSources[i].get(), mTrackID), (i+1 < len) ? 0 : 1, insertTime); nsAutoPtr segment(new AudioSegment()); AutoTArray channels; // XXX Bug 971528 - Support stereo capture in gUM MOZ_ASSERT(aChannels == 1, "GraphDriver only supports us stereo audio for now"); channels.AppendElement(static_cast(buffer->Data())); segment->AppendFrames(buffer.forget(), channels, aFrames, mPrincipalHandles[i]); segment->GetStartTime(insertTime); mSources[i]->AppendToTrack(mTrackID, segment); } } // Called back on GraphDriver thread! // Note this can be called back after ::Shutdown() void MediaEngineWebRTCMicrophoneSource::NotifyInputData(MediaStreamGraph* aGraph, const AudioDataValue* aBuffer, size_t aFrames, TrackRate aRate, uint32_t aChannels) { // If some processing is necessary, packetize and insert in the WebRTC.org // code. Otherwise, directly insert the mic data in the MSG, bypassing all processing. if (PassThrough()) { InsertInGraph(aBuffer, aFrames, aChannels); } else { PacketizeAndProcess(aGraph, aBuffer, aFrames, aRate, aChannels); } } #define ResetProcessingIfNeeded(_processing) \ do { \ webrtc::_processing##Modes mode; \ int rv = mVoEProcessing->Get##_processing##Status(enabled, mode); \ if (rv) { \ NS_WARNING("Could not get the status of the " \ #_processing " on device change."); \ return; \ } \ \ if (enabled) { \ rv = mVoEProcessing->Set##_processing##Status(!enabled); \ if (rv) { \ NS_WARNING("Could not reset the status of the " \ #_processing " on device change."); \ return; \ } \ \ rv = mVoEProcessing->Set##_processing##Status(enabled); \ if (rv) { \ NS_WARNING("Could not reset the status of the " \ #_processing " on device change."); \ return; \ } \ } \ } while(0) void MediaEngineWebRTCMicrophoneSource::DeviceChanged() { // Reset some processing bool enabled; ResetProcessingIfNeeded(Agc); ResetProcessingIfNeeded(Ec); ResetProcessingIfNeeded(Ns); } bool MediaEngineWebRTCMicrophoneSource::InitEngine() { MOZ_ASSERT(!mVoEBase); mVoEBase = webrtc::VoEBase::GetInterface(mVoiceEngine); mVoEBase->Init(); mVoERender = webrtc::VoEExternalMedia::GetInterface(mVoiceEngine); if (mVoERender) { mVoENetwork = webrtc::VoENetwork::GetInterface(mVoiceEngine); if (mVoENetwork) { mVoEProcessing = webrtc::VoEAudioProcessing::GetInterface(mVoiceEngine); if (mVoEProcessing) { mNullTransport = new NullTransport(); return true; } } } DeInitEngine(); return false; } // This shuts down the engine when no channel is open void MediaEngineWebRTCMicrophoneSource::DeInitEngine() { if (mVoEBase) { mVoEBase->Terminate(); delete mNullTransport; mNullTransport = nullptr; mVoEProcessing = nullptr; mVoENetwork = nullptr; mVoERender = nullptr; mVoEBase = nullptr; } } // This shuts down the engine when no channel is open. // mState records if a channel is allocated (slightly redundantly to mChannel) void MediaEngineWebRTCMicrophoneSource::FreeChannel() { if (mState != kReleased) { if (mChannel != -1) { MOZ_ASSERT(mVoENetwork && mVoEBase); if (mVoENetwork) { mVoENetwork->DeRegisterExternalTransport(mChannel); } if (mVoEBase) { mVoEBase->DeleteChannel(mChannel); } mChannel = -1; } mState = kReleased; MOZ_ASSERT(sChannelsOpen > 0); if (--sChannelsOpen == 0) { DeInitEngine(); } } } bool MediaEngineWebRTCMicrophoneSource::AllocChannel() { MOZ_ASSERT(mVoEBase); mChannel = mVoEBase->CreateChannel(); if (mChannel >= 0) { if (!mVoENetwork->RegisterExternalTransport(mChannel, *mNullTransport)) { mSampleFrequency = MediaEngine::DEFAULT_SAMPLE_RATE; LOG(("%s: sampling rate %u", __FUNCTION__, mSampleFrequency)); // Check for availability. if (!mAudioInput->SetRecordingDevice(mCapIndex)) { bool avail = false; mAudioInput->GetRecordingDeviceStatus(avail); if (!avail) { if (sChannelsOpen == 0) { DeInitEngine(); } return false; } // Set "codec" to PCM, 32kHz on 1 channel ScopedCustomReleasePtr ptrVoECodec(webrtc::VoECodec::GetInterface(mVoiceEngine)); if (ptrVoECodec) { webrtc::CodecInst codec; strcpy(codec.plname, ENCODING); codec.channels = CHANNELS; MOZ_ASSERT(mSampleFrequency == 16000 || mSampleFrequency == 32000); codec.rate = SAMPLE_RATE(mSampleFrequency); codec.plfreq = mSampleFrequency; codec.pacsize = SAMPLE_LENGTH(mSampleFrequency); codec.pltype = 0; // Default payload type if (!ptrVoECodec->SetSendCodec(mChannel, codec)) { mState = kAllocated; sChannelsOpen++; return true; } } } } } mVoEBase->DeleteChannel(mChannel); mChannel = -1; if (sChannelsOpen == 0) { DeInitEngine(); } return false; } void MediaEngineWebRTCMicrophoneSource::Shutdown() { Super::Shutdown(); if (mListener) { // breaks a cycle, since the WebRTCAudioDataListener has a RefPtr to us mListener->Shutdown(); // Don't release the webrtc.org pointers yet until the Listener is (async) shutdown mListener = nullptr; } if (mState == kStarted) { SourceMediaStream *source; bool empty; while (1) { { MonitorAutoLock lock(mMonitor); empty = mSources.IsEmpty(); if (empty) { break; } source = mSources[0]; } Stop(source, kAudioTrack); // XXX change to support multiple tracks } MOZ_ASSERT(mState == kStopped); } while (mRegisteredHandles.Length()) { MOZ_ASSERT(mState == kAllocated || mState == kStopped); // on last Deallocate(), FreeChannel()s and DeInit()s if all channels are released Deallocate(mRegisteredHandles[0].get()); } MOZ_ASSERT(mState == kReleased); mAudioInput = nullptr; } typedef int16_t sample; void MediaEngineWebRTCMicrophoneSource::Process(int channel, webrtc::ProcessingTypes type, sample *audio10ms, int length, int samplingFreq, bool isStereo) { MOZ_ASSERT(!PassThrough(), "This should be bypassed when in PassThrough mode."); // On initial capture, throw away all far-end data except the most recent sample // since it's already irrelevant and we want to keep avoid confusing the AEC far-end // input code with "old" audio. if (!mStarted) { mStarted = true; while (gFarendObserver->Size() > 1) { free(gFarendObserver->Pop()); // only call if size() > 0 } } while (gFarendObserver->Size() > 0) { FarEndAudioChunk *buffer = gFarendObserver->Pop(); // only call if size() > 0 if (buffer) { int length = buffer->mSamples; int res = mVoERender->ExternalPlayoutData(buffer->mData, gFarendObserver->PlayoutFrequency(), gFarendObserver->PlayoutChannels(), mPlayoutDelay, length); free(buffer); if (res == -1) { return; } } } MonitorAutoLock lock(mMonitor); if (mState != kStarted) return; MOZ_ASSERT(!isStereo); InsertInGraph(audio10ms, length, 1); return; } void MediaEngineWebRTCAudioCaptureSource::GetName(nsAString &aName) const { aName.AssignLiteral("AudioCapture"); } void MediaEngineWebRTCAudioCaptureSource::GetUUID(nsACString &aUUID) const { nsID uuid; char uuidBuffer[NSID_LENGTH]; nsCString asciiString; ErrorResult rv; rv = nsContentUtils::GenerateUUIDInPlace(uuid); if (rv.Failed()) { aUUID.AssignLiteral(""); return; } uuid.ToProvidedString(uuidBuffer); asciiString.AssignASCII(uuidBuffer); // Remove {} and the null terminator aUUID.Assign(Substring(asciiString, 1, NSID_LENGTH - 3)); } nsresult MediaEngineWebRTCAudioCaptureSource::Start(SourceMediaStream *aMediaStream, TrackID aId, const PrincipalHandle& aPrincipalHandle) { AssertIsOnOwningThread(); aMediaStream->AddTrack(aId, 0, new AudioSegment()); return NS_OK; } nsresult MediaEngineWebRTCAudioCaptureSource::Stop(SourceMediaStream *aMediaStream, TrackID aId) { AssertIsOnOwningThread(); aMediaStream->EndAllTrackAndFinish(); return NS_OK; } nsresult MediaEngineWebRTCAudioCaptureSource::Restart( AllocationHandle* aHandle, const dom::MediaTrackConstraints& aConstraints, const MediaEnginePrefs &aPrefs, const nsString& aDeviceId, const char** aOutBadConstraint) { MOZ_ASSERT(!aHandle); return NS_OK; } uint32_t MediaEngineWebRTCAudioCaptureSource::GetBestFitnessDistance( const nsTArray& aConstraintSets, const nsString& aDeviceId) const { // There is only one way of capturing audio for now, and it's always adequate. return 0; } }