/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim:set ts=2 sw=2 sts=2 et cindent: */ /* 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 "nsPrintfCString.h" #include "MediaQueue.h" #include "DecodedAudioDataSink.h" #include "VideoUtils.h" #include "mozilla/CheckedInt.h" #include "mozilla/DebugOnly.h" namespace mozilla { extern LazyLogModule gMediaDecoderLog; #define SINK_LOG(msg, ...) \ MOZ_LOG(gMediaDecoderLog, LogLevel::Debug, \ ("DecodedAudioDataSink=%p " msg, this, ##__VA_ARGS__)) #define SINK_LOG_V(msg, ...) \ MOZ_LOG(gMediaDecoderLog, LogLevel::Verbose, \ ("DecodedAudioDataSink=%p " msg, this, ##__VA_ARGS__)) namespace media { // The amount of audio frames that is used to fuzz rounding errors. static const int64_t AUDIO_FUZZ_FRAMES = 1; DecodedAudioDataSink::DecodedAudioDataSink(MediaQueue& aAudioQueue, int64_t aStartTime, const AudioInfo& aInfo, dom::AudioChannel aChannel) : AudioSink(aAudioQueue) , mStartTime(aStartTime) , mWritten(0) , mLastGoodPosition(0) , mInfo(aInfo) , mChannel(aChannel) , mPlaying(true) { } DecodedAudioDataSink::~DecodedAudioDataSink() { } RefPtr DecodedAudioDataSink::Init(const PlaybackParams& aParams) { RefPtr p = mEndPromise.Ensure(__func__); nsresult rv = InitializeAudioStream(aParams); if (NS_FAILED(rv)) { mEndPromise.Reject(rv, __func__); } return p; } int64_t DecodedAudioDataSink::GetPosition() { int64_t pos; if (mAudioStream && (pos = mAudioStream->GetPosition()) >= 0) { NS_ASSERTION(pos >= mLastGoodPosition, "AudioStream position shouldn't go backward"); // Update the last good position when we got a good one. if (pos >= mLastGoodPosition) { mLastGoodPosition = pos; } } return mStartTime + mLastGoodPosition; } bool DecodedAudioDataSink::HasUnplayedFrames() { // Experimentation suggests that GetPositionInFrames() is zero-indexed, // so we need to add 1 here before comparing it to mWritten. return mAudioStream && mAudioStream->GetPositionInFrames() + 1 < mWritten; } void DecodedAudioDataSink::Shutdown() { if (mAudioStream) { mAudioStream->Shutdown(); mAudioStream = nullptr; } mEndPromise.ResolveIfExists(true, __func__); } void DecodedAudioDataSink::SetVolume(double aVolume) { if (mAudioStream) { mAudioStream->SetVolume(aVolume); } } void DecodedAudioDataSink::SetPlaybackRate(double aPlaybackRate) { MOZ_ASSERT(aPlaybackRate != 0, "Don't set the playbackRate to 0 on AudioStream"); if (mAudioStream) { mAudioStream->SetPlaybackRate(aPlaybackRate); } } void DecodedAudioDataSink::SetPreservesPitch(bool aPreservesPitch) { if (mAudioStream) { mAudioStream->SetPreservesPitch(aPreservesPitch); } } void DecodedAudioDataSink::SetPlaying(bool aPlaying) { if (!mAudioStream || mPlaying == aPlaying) { return; } // pause/resume AudioStream as necessary. if (!aPlaying && !mAudioStream->IsPaused()) { mAudioStream->Pause(); } else if (aPlaying && mAudioStream->IsPaused()) { mAudioStream->Resume(); } mPlaying = aPlaying; } nsresult DecodedAudioDataSink::InitializeAudioStream(const PlaybackParams& aParams) { mAudioStream = new AudioStream(*this); nsresult rv = mAudioStream->Init(mInfo.mChannels, mInfo.mRate, mChannel); if (NS_FAILED(rv)) { mAudioStream->Shutdown(); mAudioStream = nullptr; return rv; } // Set playback params before calling Start() so they can take effect // as soon as the 1st DataCallback of the AudioStream fires. mAudioStream->SetVolume(aParams.mVolume); mAudioStream->SetPlaybackRate(aParams.mPlaybackRate); mAudioStream->SetPreservesPitch(aParams.mPreservesPitch); mAudioStream->Start(); return NS_OK; } int64_t DecodedAudioDataSink::GetEndTime() const { CheckedInt64 playedUsecs = FramesToUsecs(mWritten, mInfo.mRate) + mStartTime; if (!playedUsecs.isValid()) { NS_WARNING("Int overflow calculating audio end time"); return -1; } return playedUsecs.value(); } UniquePtr DecodedAudioDataSink::PopFrames(uint32_t aFrames) { class Chunk : public AudioStream::Chunk { public: Chunk(AudioData* aBuffer, uint32_t aFrames, AudioDataValue* aData) : mBuffer(aBuffer), mFrames(aFrames), mData(aData) {} Chunk() : mFrames(0), mData(nullptr) {} const AudioDataValue* Data() const { return mData; } uint32_t Frames() const { return mFrames; } uint32_t Channels() const { return mBuffer ? mBuffer->mChannels: 0; } uint32_t Rate() const { return mBuffer ? mBuffer->mRate : 0; } AudioDataValue* GetWritable() const { return mData; } private: const RefPtr mBuffer; const uint32_t mFrames; AudioDataValue* const mData; }; class SilentChunk : public AudioStream::Chunk { public: SilentChunk(uint32_t aFrames, uint32_t aChannels, uint32_t aRate) : mFrames(aFrames) , mChannels(aChannels) , mRate(aRate) , mData(MakeUnique(aChannels * aFrames)) { memset(mData.get(), 0, aChannels * aFrames * sizeof(AudioDataValue)); } const AudioDataValue* Data() const { return mData.get(); } uint32_t Frames() const { return mFrames; } uint32_t Channels() const { return mChannels; } uint32_t Rate() const { return mRate; } AudioDataValue* GetWritable() const { return mData.get(); } private: const uint32_t mFrames; const uint32_t mChannels; const uint32_t mRate; UniquePtr mData; }; while (!mCurrentData) { // No data in the queue. Return an empty chunk. if (AudioQueue().GetSize() == 0) { return MakeUnique(); } AudioData* a = AudioQueue().PeekFront()->As(); // Ignore the element with 0 frames and try next. if (a->mFrames == 0) { RefPtr releaseMe = AudioQueue().PopFront(); continue; } // Ignore invalid samples. if (a->mRate != mInfo.mRate || a->mChannels != mInfo.mChannels) { NS_WARNING(nsPrintfCString( "mismatched sample format, data=%p rate=%u channels=%u frames=%u", a->mAudioData.get(), a->mRate, a->mChannels, a->mFrames).get()); RefPtr releaseMe = AudioQueue().PopFront(); continue; } // See if there's a gap in the audio. If there is, push silence into the // audio hardware, so we can play across the gap. // Calculate the timestamp of the next chunk of audio in numbers of // samples. CheckedInt64 sampleTime = UsecsToFrames(AudioQueue().PeekFront()->mTime, mInfo.mRate); // Calculate the number of frames that have been pushed onto the audio hardware. CheckedInt64 playedFrames = UsecsToFrames(mStartTime, mInfo.mRate) + static_cast(mWritten); CheckedInt64 missingFrames = sampleTime - playedFrames; if (!missingFrames.isValid() || !sampleTime.isValid()) { NS_WARNING("Int overflow in DecodedAudioDataSink"); mErrored = true; return MakeUnique(); } if (missingFrames.value() > AUDIO_FUZZ_FRAMES) { // The next audio chunk begins some time after the end of the last chunk // we pushed to the audio hardware. We must push silence into the audio // hardware so that the next audio chunk begins playback at the correct // time. missingFrames = std::min(UINT32_MAX, missingFrames.value()); auto framesToPop = std::min(missingFrames.value(), aFrames); mWritten += framesToPop; return MakeUnique(framesToPop, mInfo.mChannels, mInfo.mRate); } mCurrentData = dont_AddRef(AudioQueue().PopFront().take()->As()); mCursor = MakeUnique(mCurrentData->mAudioData.get(), mCurrentData->mChannels, mCurrentData->mFrames); MOZ_ASSERT(mCurrentData->mFrames > 0); } auto framesToPop = std::min(aFrames, mCursor->Available()); SINK_LOG_V("playing audio at time=%lld offset=%u length=%u", mCurrentData->mTime, mCurrentData->mFrames - mCursor->Available(), framesToPop); UniquePtr chunk = MakeUnique(mCurrentData, framesToPop, mCursor->Ptr()); mWritten += framesToPop; mCursor->Advance(framesToPop); // All frames are popped. Reset mCurrentData so we can pop new elements from // the audio queue in next calls to PopFrames(). if (mCursor->Available() == 0) { mCurrentData = nullptr; } return chunk; } bool DecodedAudioDataSink::Ended() const { // Return true when error encountered so AudioStream can start draining. return AudioQueue().IsFinished() || mErrored; } void DecodedAudioDataSink::Drained() { SINK_LOG("Drained"); // FIXME : In OSX, the audio backend could trigger Drained() twice, then it // cause the crash because the promise had already been resolve and free. // You can fix it on the bug 1246108. mEndPromise.ResolveIfExists(true, __func__); } } // namespace media } // namespace mozilla