From 6bf0a5cb5034a7e684dcc3500e841785237ce2dd Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sun, 7 Apr 2024 19:32:43 +0200 Subject: Adding upstream version 1:115.7.0. Signed-off-by: Daniel Baumann --- dom/media/mediasink/AudioSinkWrapper.cpp | 496 +++++++++++++++++++++++++++++++ 1 file changed, 496 insertions(+) create mode 100644 dom/media/mediasink/AudioSinkWrapper.cpp (limited to 'dom/media/mediasink/AudioSinkWrapper.cpp') diff --git a/dom/media/mediasink/AudioSinkWrapper.cpp b/dom/media/mediasink/AudioSinkWrapper.cpp new file mode 100644 index 0000000000..5a006479e1 --- /dev/null +++ b/dom/media/mediasink/AudioSinkWrapper.cpp @@ -0,0 +1,496 @@ +/* -*- 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 "AudioSinkWrapper.h" +#include "AudioDeviceInfo.h" +#include "AudioSink.h" +#include "VideoUtils.h" +#include "mozilla/Logging.h" +#include "mozilla/Result.h" +#include "nsPrintfCString.h" + +mozilla::LazyLogModule gAudioSinkWrapperLog("AudioSinkWrapper"); +#define LOG(...) \ + MOZ_LOG(gAudioSinkWrapperLog, mozilla::LogLevel::Debug, (__VA_ARGS__)); +#define LOGV(...) \ + MOZ_LOG(gAudioSinkWrapperLog, mozilla::LogLevel::Verbose, (__VA_ARGS__)); + +namespace mozilla { + +using media::TimeUnit; + +AudioSinkWrapper::~AudioSinkWrapper() = default; + +void AudioSinkWrapper::Shutdown() { + AssertOwnerThread(); + MOZ_ASSERT(!mIsStarted, "Must be called after playback stopped."); + mCreator = nullptr; + mEndedPromiseHolder.ResolveIfExists(true, __func__); +} + +RefPtr AudioSinkWrapper::OnEnded(TrackType aType) { + AssertOwnerThread(); + MOZ_ASSERT(mIsStarted, "Must be called after playback starts."); + if (aType == TrackInfo::kAudioTrack) { + return mEndedPromise; + } + return nullptr; +} + +TimeUnit AudioSinkWrapper::GetEndTime(TrackType aType) const { + AssertOwnerThread(); + MOZ_ASSERT(mIsStarted, "Must be called after playback starts."); + if (aType == TrackInfo::kAudioTrack && mAudioSink && + mAudioSink->AudioStreamCallbackStarted()) { + return mAudioSink->GetEndTime(); + } + + if (aType == TrackInfo::kAudioTrack && !mAudioSink && IsMuted()) { + if (IsPlaying()) { + return GetSystemClockPosition(TimeStamp::Now()); + } + + return mPlayDuration; + } + return TimeUnit::Zero(); +} + +TimeUnit AudioSinkWrapper::GetSystemClockPosition(TimeStamp aNow) const { + AssertOwnerThread(); + MOZ_ASSERT(!mPlayStartTime.IsNull()); + // Time elapsed since we started playing. + double delta = (aNow - mPlayStartTime).ToSeconds(); + // Take playback rate into account. + return mPlayDuration + TimeUnit::FromSeconds(delta * mParams.mPlaybackRate); +} + +bool AudioSinkWrapper::IsMuted() const { + AssertOwnerThread(); + return mParams.mVolume == 0.0; +} + +TimeUnit AudioSinkWrapper::GetPosition(TimeStamp* aTimeStamp) { + AssertOwnerThread(); + MOZ_ASSERT(mIsStarted, "Must be called after playback starts."); + + TimeUnit pos; + TimeStamp t = TimeStamp::Now(); + + if (!mAudioEnded && !IsMuted() && mAudioSink) { + if (mLastClockSource == ClockSource::SystemClock) { + TimeUnit switchTime = GetSystemClockPosition(t); + // Update the _actual_ start time of the audio stream now that it has + // started, preventing any clock discontinuity. + mAudioSink->UpdateStartTime(switchTime); + LOGV("%p: switching to audio clock at media time %lf", this, + switchTime.ToSeconds()); + } + // Rely on the audio sink to report playback position when it is not ended. + pos = mAudioSink->GetPosition(); + LOGV("%p: Getting position from the Audio Sink %lf", this, pos.ToSeconds()); + mLastClockSource = ClockSource::AudioStream; + } else if (!mPlayStartTime.IsNull()) { + // Calculate playback position using system clock if we are still playing, + // but not rendering the audio, because this audio sink is muted. + pos = GetSystemClockPosition(t); + LOGV("%p: Getting position from the system clock %lf", this, + pos.ToSeconds()); + if (IsMuted()) { + if (mAudioQueue.GetSize() > 0) { + // audio track, but it's muted and won't be dequeued, discard packets + // that are behind the current media time, to keep the queue size under + // control. + DropAudioPacketsIfNeeded(pos); + } + // If muted, it's necessary to manually check if the audio has "ended", + // meaning that all the audio packets have been consumed, to resolve the + // ended promise. + if (CheckIfEnded()) { + MOZ_ASSERT(!mAudioSink); + mEndedPromiseHolder.ResolveIfExists(true, __func__); + } + } + mLastClockSource = ClockSource::SystemClock; + } else { + // Return how long we've played if we are not playing. + pos = mPlayDuration; + LOGV("%p: Getting static position, not playing %lf", this, pos.ToSeconds()); + mLastClockSource = ClockSource::Paused; + } + + if (aTimeStamp) { + *aTimeStamp = t; + } + + return pos; +} + +bool AudioSinkWrapper::CheckIfEnded() const { + return mAudioQueue.IsFinished() && mAudioQueue.GetSize() == 0u; +} + +bool AudioSinkWrapper::HasUnplayedFrames(TrackType aType) const { + AssertOwnerThread(); + return mAudioSink ? mAudioSink->HasUnplayedFrames() : false; +} + +media::TimeUnit AudioSinkWrapper::UnplayedDuration(TrackType aType) const { + AssertOwnerThread(); + return mAudioSink ? mAudioSink->UnplayedDuration() : media::TimeUnit::Zero(); +} + +void AudioSinkWrapper::DropAudioPacketsIfNeeded( + const TimeUnit& aMediaPosition) { + RefPtr audio = mAudioQueue.PeekFront(); + uint32_t dropped = 0; + while (audio && audio->mTime + audio->mDuration < aMediaPosition) { + // drop this packet, try the next one + audio = mAudioQueue.PopFront(); + dropped++; + if (audio) { + LOGV( + "Dropping audio packets: media position: %lf, " + "packet dropped: [%lf, %lf] (%u so far).\n", + aMediaPosition.ToSeconds(), audio->mTime.ToSeconds(), + (audio->GetEndTime()).ToSeconds(), dropped); + } + audio = mAudioQueue.PeekFront(); + } +} + +void AudioSinkWrapper::OnMuted(bool aMuted) { + AssertOwnerThread(); + LOG("%p: AudioSinkWrapper::OnMuted(%s)", this, aMuted ? "true" : "false"); + // Nothing to do + if (mAudioEnded) { + LOG("%p: AudioSinkWrapper::OnMuted, but no audio track", this); + return; + } + if (aMuted) { + if (mAudioSink) { + LOG("AudioSinkWrapper muted, shutting down AudioStream."); + mAudioSinkEndedPromise.DisconnectIfExists(); + if (IsPlaying()) { + mPlayDuration = mAudioSink->GetPosition(); + mPlayStartTime = TimeStamp::Now(); + } + Maybe> rv = + mAudioSink->Shutdown(ShutdownCause::Muting); + // There will generally be a promise here, except if the stream has + // errored out, or if it has just finished. In both cases, the promise has + // been handled appropriately, there is nothing to do. + if (rv.isSome()) { + mEndedPromiseHolder = std::move(rv.ref()); + } + mAudioSink = nullptr; + } + } else { + if (!IsPlaying()) { + LOG("%p: AudioSinkWrapper::OnMuted: not playing, not re-creating an " + "AudioSink", + this); + return; + } + LOG("%p: AudioSinkWrapper unmuted, re-creating an AudioStream.", this); + TimeUnit mediaPosition = GetSystemClockPosition(TimeStamp::Now()); + nsresult rv = StartAudioSink(mediaPosition, AudioSinkStartPolicy::ASYNC); + if (NS_FAILED(rv)) { + NS_WARNING( + "Could not start AudioSink from AudioSinkWrapper when unmuting"); + } + } +} + +void AudioSinkWrapper::SetVolume(double aVolume) { + AssertOwnerThread(); + + bool wasMuted = mParams.mVolume == 0; + bool nowMuted = aVolume == 0.; + mParams.mVolume = aVolume; + + if (!wasMuted && nowMuted) { + OnMuted(true); + } else if (wasMuted && !nowMuted) { + OnMuted(false); + } + + if (mAudioSink) { + mAudioSink->SetVolume(aVolume); + } +} + +void AudioSinkWrapper::SetStreamName(const nsAString& aStreamName) { + AssertOwnerThread(); + if (mAudioSink) { + mAudioSink->SetStreamName(aStreamName); + } +} + +void AudioSinkWrapper::SetPlaybackRate(double aPlaybackRate) { + AssertOwnerThread(); + if (!mAudioEnded && mAudioSink) { + // Pass the playback rate to the audio sink. The underlying AudioStream + // will handle playback rate changes and report correct audio position. + mAudioSink->SetPlaybackRate(aPlaybackRate); + } else if (!mPlayStartTime.IsNull()) { + // Adjust playback duration and start time when we are still playing. + TimeStamp now = TimeStamp::Now(); + mPlayDuration = GetSystemClockPosition(now); + mPlayStartTime = now; + } + // mParams.mPlaybackRate affects GetSystemClockPosition(). It should be + // updated after the calls to GetSystemClockPosition(); + mParams.mPlaybackRate = aPlaybackRate; + + // Do nothing when not playing. Changes in playback rate will be taken into + // account by GetSystemClockPosition(). +} + +void AudioSinkWrapper::SetPreservesPitch(bool aPreservesPitch) { + AssertOwnerThread(); + mParams.mPreservesPitch = aPreservesPitch; + if (mAudioSink) { + mAudioSink->SetPreservesPitch(aPreservesPitch); + } +} + +void AudioSinkWrapper::SetPlaying(bool aPlaying) { + AssertOwnerThread(); + LOG("%p: AudioSinkWrapper::SetPlaying %s", this, aPlaying ? "true" : "false"); + + // Resume/pause matters only when playback started. + if (!mIsStarted) { + return; + } + + if (mAudioSink) { + mAudioSink->SetPlaying(aPlaying); + } else { + if (aPlaying) { + LOG("%p: AudioSinkWrapper::SetPlaying : starting an AudioSink", this); + TimeUnit switchTime = GetPosition(); + DropAudioPacketsIfNeeded(switchTime); + StartAudioSink(switchTime, AudioSinkStartPolicy::SYNC); + } + } + + if (aPlaying) { + MOZ_ASSERT(mPlayStartTime.IsNull()); + mPlayStartTime = TimeStamp::Now(); + } else { + // Remember how long we've played. + mPlayDuration = GetPosition(); + // mPlayStartTime must be updated later since GetPosition() + // depends on the value of mPlayStartTime. + mPlayStartTime = TimeStamp(); + } +} + +double AudioSinkWrapper::PlaybackRate() const { + AssertOwnerThread(); + return mParams.mPlaybackRate; +} + +nsresult AudioSinkWrapper::Start(const TimeUnit& aStartTime, + const MediaInfo& aInfo) { + LOG("%p AudioSinkWrapper::Start", this); + AssertOwnerThread(); + MOZ_ASSERT(!mIsStarted, "playback already started."); + + mIsStarted = true; + mPlayDuration = aStartTime; + mPlayStartTime = TimeStamp::Now(); + mAudioEnded = IsAudioSourceEnded(aInfo); + + if (mAudioEnded) { + // Resolve promise if we start playback at the end position of the audio. + mEndedPromise = + aInfo.HasAudio() + ? MediaSink::EndedPromise::CreateAndResolve(true, __func__) + : nullptr; + return NS_OK; + } + + return StartAudioSink(aStartTime, AudioSinkStartPolicy::SYNC); +} + +nsresult AudioSinkWrapper::StartAudioSink(const TimeUnit& aStartTime, + AudioSinkStartPolicy aPolicy) { + MOZ_RELEASE_ASSERT(!mAudioSink); + + nsresult rv = NS_OK; + + mAudioSinkEndedPromise.DisconnectIfExists(); + mEndedPromise = mEndedPromiseHolder.Ensure(__func__); + mEndedPromise + ->Then(mOwnerThread.get(), __func__, this, + &AudioSinkWrapper::OnAudioEnded, &AudioSinkWrapper::OnAudioEnded) + ->Track(mAudioSinkEndedPromise); + + LOG("%p: AudioSinkWrapper::StartAudioSink (%s)", this, + aPolicy == AudioSinkStartPolicy::ASYNC ? "Async" : "Sync"); + + if (IsMuted()) { + LOG("%p: Muted: not starting an audio sink", this); + return NS_OK; + } + LOG("%p: Not muted: starting a new audio sink", this); + if (aPolicy == AudioSinkStartPolicy::ASYNC) { + UniquePtr audioSink; + audioSink.reset(mCreator->Create()); + NS_DispatchBackgroundTask(NS_NewRunnableFunction( + "StartAudioSink (Async part: initialization)", + [self = RefPtr(this), audioSink{std::move(audioSink)}, + this]() mutable { + LOG("AudioSink initialization on background thread"); + // This can take about 200ms, e.g. on Windows, we don't want to do + // it on the MDSM thread, because it would make the clock not update + // for that amount of time, and the video would therefore not + // update. The Start() call is very cheap on the other hand, we can + // do it from the MDSM thread. + nsresult rv = audioSink->InitializeAudioStream( + mParams, mAudioDevice, AudioSink::InitializationType::UNMUTING); + mOwnerThread->Dispatch(NS_NewRunnableFunction( + "StartAudioSink (Async part: start from MDSM thread)", + [self = RefPtr(this), + audioSink{std::move(audioSink)}, this, rv]() mutable { + LOG("AudioSink async init done, back on MDSM thread"); + if (NS_FAILED(rv)) { + LOG("Async AudioSink initialization failed"); + mEndedPromiseHolder.RejectIfExists(rv, __func__); + return; + } + + // It's possible that the newly created isn't needed at this + // point, in some cases: + // 1. An AudioSink was created synchronously while this + // AudioSink was initialized asynchronously, bail out here. This + // happens when seeking (which does a synchronous + // initialization) right after unmuting. + // 2. The media element was muted while the async initialization + // was happening. + // 3. The AudioSinkWrapper was stopped during asynchronous + // creation. + // 4. The AudioSinkWrapper was paused during asynchronous + // creation. + if (mAudioSink || IsMuted() || !mIsStarted || + mPlayStartTime.IsNull()) { + LOG("AudioSink initialized async isn't needed, shutting " + "it down."); + DebugOnly>> rv = + audioSink->Shutdown(); + MOZ_ASSERT(rv.inspect().isNothing()); + return; + } + + MOZ_ASSERT(!mAudioSink); + TimeUnit switchTime = GetPosition(); + DropAudioPacketsIfNeeded(switchTime); + mAudioSink.swap(audioSink); + if (mTreatUnderrunAsSilence) { + mAudioSink->EnableTreatAudioUnderrunAsSilence( + mTreatUnderrunAsSilence); + } + LOG("AudioSink async, start"); + nsresult rv2 = + mAudioSink->Start(switchTime, mEndedPromiseHolder); + if (NS_FAILED(rv2)) { + LOG("Async AudioSinkWrapper start failed"); + mEndedPromiseHolder.RejectIfExists(rv2, __func__); + } + })); + })); + } else { + mAudioSink.reset(mCreator->Create()); + nsresult rv = mAudioSink->InitializeAudioStream( + mParams, mAudioDevice, AudioSink::InitializationType::INITIAL); + if (NS_FAILED(rv)) { + mEndedPromiseHolder.RejectIfExists(rv, __func__); + LOG("Sync AudioSinkWrapper initialization failed"); + return rv; + } + if (mTreatUnderrunAsSilence) { + mAudioSink->EnableTreatAudioUnderrunAsSilence(mTreatUnderrunAsSilence); + } + rv = mAudioSink->Start(aStartTime, mEndedPromiseHolder); + if (NS_FAILED(rv)) { + LOG("Sync AudioSinkWrapper start failed"); + mEndedPromiseHolder.RejectIfExists(rv, __func__); + } + } + + return rv; +} + +bool AudioSinkWrapper::IsAudioSourceEnded(const MediaInfo& aInfo) const { + // no audio or empty audio queue which won't get data anymore is equivalent to + // audio ended + return !aInfo.HasAudio() || + (mAudioQueue.IsFinished() && mAudioQueue.GetSize() == 0u); +} + +void AudioSinkWrapper::Stop() { + AssertOwnerThread(); + MOZ_ASSERT(mIsStarted, "playback not started."); + + LOG("%p: AudioSinkWrapper::Stop", this); + + mIsStarted = false; + mAudioEnded = true; + + mAudioSinkEndedPromise.DisconnectIfExists(); + + if (mAudioSink) { + DebugOnly>> rv = + mAudioSink->Shutdown(); + MOZ_ASSERT(rv.inspect().isNothing()); + mAudioSink = nullptr; + mEndedPromise = nullptr; + } +} + +bool AudioSinkWrapper::IsStarted() const { + AssertOwnerThread(); + return mIsStarted; +} + +bool AudioSinkWrapper::IsPlaying() const { + AssertOwnerThread(); + return IsStarted() && !mPlayStartTime.IsNull(); +} + +void AudioSinkWrapper::OnAudioEnded() { + AssertOwnerThread(); + LOG("%p: AudioSinkWrapper::OnAudioEnded", this); + mAudioSinkEndedPromise.Complete(); + mPlayDuration = GetPosition(); + if (!mPlayStartTime.IsNull()) { + mPlayStartTime = TimeStamp::Now(); + } + mAudioEnded = true; +} + +void AudioSinkWrapper::GetDebugInfo(dom::MediaSinkDebugInfo& aInfo) { + AssertOwnerThread(); + aInfo.mAudioSinkWrapper.mIsPlaying = IsPlaying(); + aInfo.mAudioSinkWrapper.mIsStarted = IsStarted(); + aInfo.mAudioSinkWrapper.mAudioEnded = mAudioEnded; + if (mAudioSink) { + mAudioSink->GetDebugInfo(aInfo); + } +} + +void AudioSinkWrapper::EnableTreatAudioUnderrunAsSilence(bool aEnabled) { + mTreatUnderrunAsSilence = aEnabled; + if (mAudioSink) { + mAudioSink->EnableTreatAudioUnderrunAsSilence(aEnabled); + } +} + +} // namespace mozilla + +#undef LOG +#undef LOGV -- cgit v1.2.3