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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-07 09:22:09 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-07 09:22:09 +0000
commit43a97878ce14b72f0981164f87f2e35e14151312 (patch)
tree620249daf56c0258faa40cbdcf9cfba06de2a846 /dom/media/MediaFormatReader.cpp
parentInitial commit. (diff)
downloadfirefox-43a97878ce14b72f0981164f87f2e35e14151312.tar.xz
firefox-43a97878ce14b72f0981164f87f2e35e14151312.zip
Adding upstream version 110.0.1.upstream/110.0.1upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'dom/media/MediaFormatReader.cpp')
-rw-r--r--dom/media/MediaFormatReader.cpp3367
1 files changed, 3367 insertions, 0 deletions
diff --git a/dom/media/MediaFormatReader.cpp b/dom/media/MediaFormatReader.cpp
new file mode 100644
index 0000000000..a85b660328
--- /dev/null
+++ b/dom/media/MediaFormatReader.cpp
@@ -0,0 +1,3367 @@
+/* -*- 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 "MediaFormatReader.h"
+
+#include <algorithm>
+#include <map>
+#include <queue>
+
+#include "AllocationPolicy.h"
+#ifdef MOZ_AV1
+# include "AOMDecoder.h"
+#endif
+#include "DecoderBenchmark.h"
+#include "MediaData.h"
+#include "MediaDataDecoderProxy.h"
+#include "MediaInfo.h"
+#include "MP4Decoder.h"
+#include "PDMFactory.h"
+#include "PerformanceRecorder.h"
+#include "VideoFrameContainer.h"
+#include "VideoUtils.h"
+#include "VPXDecoder.h"
+#include "mozilla/AbstractThread.h"
+#include "mozilla/CDMProxy.h"
+#include "mozilla/ClearOnShutdown.h"
+#include "mozilla/NotNull.h"
+#include "mozilla/Preferences.h"
+#include "mozilla/ProfilerLabels.h"
+#include "mozilla/ProfilerMarkers.h"
+#include "mozilla/SharedThreadPool.h"
+#include "mozilla/StaticPrefs_media.h"
+#include "mozilla/TaskQueue.h"
+#include "mozilla/Unused.h"
+#include "nsContentUtils.h"
+#include "nsPrintfCString.h"
+#include "nsTHashSet.h"
+
+using namespace mozilla::media;
+
+static mozilla::LazyLogModule sFormatDecoderLog("MediaFormatReader");
+mozilla::LazyLogModule gMediaDemuxerLog("MediaDemuxer");
+
+#define LOG(arg, ...) \
+ DDMOZ_LOG(sFormatDecoderLog, mozilla::LogLevel::Debug, "::%s: " arg, \
+ __func__, ##__VA_ARGS__)
+#define LOGV(arg, ...) \
+ DDMOZ_LOG(sFormatDecoderLog, mozilla::LogLevel::Verbose, "::%s: " arg, \
+ __func__, ##__VA_ARGS__)
+
+#define NS_DispatchToMainThread(...) CompileError_UseAbstractMainThreadInstead
+
+namespace mozilla {
+
+typedef void* MediaDataDecoderID;
+
+/**
+ * This class tracks shutdown promises to ensure all decoders are shut down
+ * completely before MFR continues the rest of the shutdown procedure.
+ */
+class MediaFormatReader::ShutdownPromisePool {
+ public:
+ ShutdownPromisePool()
+ : mOnShutdownComplete(new ShutdownPromise::Private(__func__)) {}
+
+ // Return a promise which will be resolved when all the tracking promises
+ // are resolved. Note no more promises should be added for tracking once
+ // this function is called.
+ RefPtr<ShutdownPromise> Shutdown();
+
+ // Track a shutdown promise.
+ void Track(RefPtr<ShutdownPromise> aPromise);
+
+ // Shut down a decoder and track its shutdown promise.
+ void ShutdownDecoder(already_AddRefed<MediaDataDecoder> aDecoder) {
+ Track(RefPtr<MediaDataDecoder>(aDecoder)->Shutdown());
+ }
+
+ private:
+ bool mShutdown = false;
+ const RefPtr<ShutdownPromise::Private> mOnShutdownComplete;
+ nsTHashSet<RefPtr<ShutdownPromise>> mPromises;
+};
+
+RefPtr<ShutdownPromise> MediaFormatReader::ShutdownPromisePool::Shutdown() {
+ MOZ_DIAGNOSTIC_ASSERT(!mShutdown);
+ mShutdown = true;
+ if (mPromises.Count() == 0) {
+ mOnShutdownComplete->Resolve(true, __func__);
+ }
+ return mOnShutdownComplete;
+}
+
+void MediaFormatReader::ShutdownPromisePool::Track(
+ RefPtr<ShutdownPromise> aPromise) {
+ MOZ_DIAGNOSTIC_ASSERT(!mShutdown);
+ MOZ_DIAGNOSTIC_ASSERT(!mPromises.Contains(aPromise));
+ mPromises.Insert(aPromise);
+ aPromise->Then(AbstractThread::GetCurrent(), __func__, [aPromise, this]() {
+ MOZ_DIAGNOSTIC_ASSERT(mPromises.Contains(aPromise));
+ mPromises.Remove(aPromise);
+ if (mShutdown && mPromises.Count() == 0) {
+ mOnShutdownComplete->Resolve(true, __func__);
+ }
+ });
+}
+
+void MediaFormatReader::DecoderData::ShutdownDecoder() {
+ MOZ_ASSERT(mOwner->OnTaskQueue());
+
+ MutexAutoLock lock(mMutex);
+
+ if (!mDecoder) {
+ // No decoder to shut down.
+ return;
+ }
+
+ if (mFlushing) {
+ // Flush is is in action. Shutdown will be initiated after flush completes.
+ MOZ_DIAGNOSTIC_ASSERT(mShutdownPromise);
+ mOwner->mShutdownPromisePool->Track(mShutdownPromise->Ensure(__func__));
+ // The order of decoder creation and shutdown is handled by LocalAllocPolicy
+ // and ShutdownPromisePool. MFR can now reset these members to a fresh state
+ // and be ready to create new decoders again without explicitly waiting for
+ // flush/shutdown to complete.
+ mShutdownPromise = nullptr;
+ mFlushing = false;
+ } else {
+ // No flush is in action. We can shut down the decoder now.
+ mOwner->mShutdownPromisePool->Track(mDecoder->Shutdown());
+ }
+
+ // mShutdownPromisePool will handle the order of decoder shutdown so
+ // we can forget mDecoder and be ready to create a new one.
+ mDecoder = nullptr;
+ mDescription = "shutdown"_ns;
+ mHasReportedVideoHardwareSupportTelemtry = false;
+ mOwner->ScheduleUpdate(mType == MediaData::Type::AUDIO_DATA
+ ? TrackType::kAudioTrack
+ : TrackType::kVideoTrack);
+}
+
+void MediaFormatReader::DecoderData::Flush() {
+ AUTO_PROFILER_LABEL("MediaFormatReader::Flush", MEDIA_PLAYBACK);
+ MOZ_ASSERT(mOwner->OnTaskQueue());
+
+ if (mFlushing || mFlushed) {
+ // Flush still pending or already flushed, nothing more to do.
+ return;
+ }
+ mDecodeRequest.DisconnectIfExists();
+ mDrainRequest.DisconnectIfExists();
+ mDrainState = DrainState::None;
+ CancelWaitingForKey();
+ mOutput.Clear();
+ mNumSamplesInput = 0;
+ mNumSamplesOutput = 0;
+ mSizeOfQueue = 0;
+ if (mDecoder) {
+ TrackType type = mType == MediaData::Type::AUDIO_DATA
+ ? TrackType::kAudioTrack
+ : TrackType::kVideoTrack;
+ mFlushing = true;
+ MOZ_DIAGNOSTIC_ASSERT(!mShutdownPromise);
+ mShutdownPromise = new SharedShutdownPromiseHolder();
+ RefPtr<SharedShutdownPromiseHolder> p = mShutdownPromise;
+ RefPtr<MediaDataDecoder> d = mDecoder;
+ DDLOGEX2("MediaFormatReader::DecoderData", this, DDLogCategory::Log,
+ "flushing", DDNoValue{});
+ mDecoder->Flush()->Then(
+ mOwner->OwnerThread(), __func__,
+ [type, this, p, d]() {
+ AUTO_PROFILER_LABEL("MediaFormatReader::Flush:Resolved",
+ MEDIA_PLAYBACK);
+ DDLOGEX2("MediaFormatReader::DecoderData", this, DDLogCategory::Log,
+ "flushed", DDNoValue{});
+ if (!p->IsEmpty()) {
+ // Shutdown happened before flush completes.
+ // Let's continue to shut down the decoder. Note
+ // we don't access |this| because this decoder
+ // is no longer managed by MFR::DecoderData.
+ d->Shutdown()->ChainTo(p->Steal(), __func__);
+ return;
+ }
+ mFlushing = false;
+ mShutdownPromise = nullptr;
+ mOwner->ScheduleUpdate(type);
+ },
+ [type, this, p, d](const MediaResult& aError) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::Flush:Rejected",
+ MEDIA_PLAYBACK);
+ DDLOGEX2("MediaFormatReader::DecoderData", this, DDLogCategory::Log,
+ "flush_error", aError);
+ if (!p->IsEmpty()) {
+ d->Shutdown()->ChainTo(p->Steal(), __func__);
+ return;
+ }
+ mFlushing = false;
+ mShutdownPromise = nullptr;
+ mOwner->NotifyError(type, aError);
+ });
+ }
+ mFlushed = true;
+}
+
+class MediaFormatReader::DecoderFactory {
+ using InitPromise = MediaDataDecoder::InitPromise;
+ using TokenPromise = AllocPolicy::Promise;
+ using Token = AllocPolicy::Token;
+ using CreateDecoderPromise = PlatformDecoderModule::CreateDecoderPromise;
+
+ public:
+ explicit DecoderFactory(MediaFormatReader* aOwner)
+ : mAudio(aOwner->mAudio, TrackInfo::kAudioTrack, aOwner->OwnerThread()),
+ mVideo(aOwner->mVideo, TrackInfo::kVideoTrack, aOwner->OwnerThread()),
+ mOwner(WrapNotNull(aOwner)) {
+ DecoderDoctorLogger::LogConstruction("MediaFormatReader::DecoderFactory",
+ this);
+ DecoderDoctorLogger::LinkParentAndChild(
+ aOwner, "decoder factory", "MediaFormatReader::DecoderFactory", this);
+ }
+
+ ~DecoderFactory() {
+ DecoderDoctorLogger::LogDestruction("MediaFormatReader::DecoderFactory",
+ this);
+ }
+
+ void CreateDecoder(TrackType aTrack);
+
+ // Shutdown any decoder pending initialization and reset mAudio/mVideo to its
+ // pristine state so CreateDecoder() is ready to be called again immediately.
+ void ShutdownDecoder(TrackType aTrack) {
+ MOZ_ASSERT(aTrack == TrackInfo::kAudioTrack ||
+ aTrack == TrackInfo::kVideoTrack);
+ auto& data = aTrack == TrackInfo::kAudioTrack ? mAudio : mVideo;
+ data.mPolicy->Cancel();
+ data.mTokenRequest.DisconnectIfExists();
+ if (data.mLiveToken) {
+ // We haven't completed creation of the decoder, and it hasn't been
+ // initialised yet.
+ data.mLiveToken = nullptr;
+ // The decoder will be shutdown as soon as it's available and tracked by
+ // the ShutdownPromisePool.
+ mOwner->mShutdownPromisePool->Track(data.mCreateDecoderPromise->Then(
+ mOwner->mTaskQueue, __func__,
+ [](CreateDecoderPromise::ResolveOrRejectValue&& aResult) {
+ if (aResult.IsReject()) {
+ return ShutdownPromise::CreateAndResolve(true, __func__);
+ }
+ return aResult.ResolveValue()->Shutdown();
+ }));
+ // Free the token to leave room for a new decoder.
+ data.mToken = nullptr;
+ }
+ data.mInitRequest.DisconnectIfExists();
+ if (data.mDecoder) {
+ mOwner->mShutdownPromisePool->ShutdownDecoder(data.mDecoder.forget());
+ }
+ data.mStage = Stage::None;
+ MOZ_ASSERT(!data.mToken);
+ }
+
+ private:
+ enum class Stage : int8_t { None, WaitForToken, CreateDecoder, WaitForInit };
+
+ struct Data {
+ Data(DecoderData& aOwnerData, TrackType aTrack, TaskQueue* aThread)
+ : mOwnerData(aOwnerData),
+ mTrack(aTrack),
+ mPolicy(new SingleAllocPolicy(aTrack, aThread)) {}
+ DecoderData& mOwnerData;
+ const TrackType mTrack;
+ RefPtr<SingleAllocPolicy> mPolicy;
+ Stage mStage = Stage::None;
+ RefPtr<Token> mToken;
+ RefPtr<MediaDataDecoder> mDecoder;
+ MozPromiseRequestHolder<TokenPromise> mTokenRequest;
+ struct DecoderCancelled : public SupportsWeakPtr {
+ NS_INLINE_DECL_REFCOUNTING_ONEVENTTARGET(DecoderCancelled)
+ private:
+ ~DecoderCancelled() = default;
+ };
+ // Set when decoder is about to be created. If cleared before the decoder
+ // creation promise is resolved; it indicates that Shutdown() was called and
+ // further processing such as initialization should stop.
+ RefPtr<DecoderCancelled> mLiveToken;
+ RefPtr<CreateDecoderPromise> mCreateDecoderPromise;
+ MozPromiseRequestHolder<InitPromise> mInitRequest;
+ } mAudio, mVideo;
+
+ void RunStage(Data& aData);
+ void DoCreateDecoder(Data& aData);
+ void DoInitDecoder(Data& aData);
+
+ // guaranteed to be valid by the owner.
+ const NotNull<MediaFormatReader*> mOwner;
+};
+
+void MediaFormatReader::DecoderFactory::CreateDecoder(TrackType aTrack) {
+ MOZ_ASSERT(aTrack == TrackInfo::kAudioTrack ||
+ aTrack == TrackInfo::kVideoTrack);
+ RunStage(aTrack == TrackInfo::kAudioTrack ? mAudio : mVideo);
+}
+
+void MediaFormatReader::DecoderFactory::RunStage(Data& aData) {
+ switch (aData.mStage) {
+ case Stage::None: {
+ MOZ_ASSERT(!aData.mToken);
+ aData.mPolicy->Alloc()
+ ->Then(
+ mOwner->OwnerThread(), __func__,
+ [this, &aData](RefPtr<Token> aToken) {
+ aData.mTokenRequest.Complete();
+ aData.mToken = std::move(aToken);
+ aData.mStage = Stage::CreateDecoder;
+ RunStage(aData);
+ },
+ [&aData]() {
+ aData.mTokenRequest.Complete();
+ aData.mStage = Stage::None;
+ })
+ ->Track(aData.mTokenRequest);
+ aData.mStage = Stage::WaitForToken;
+ break;
+ }
+
+ case Stage::WaitForToken: {
+ MOZ_ASSERT(!aData.mToken);
+ MOZ_ASSERT(aData.mTokenRequest.Exists());
+ break;
+ }
+
+ case Stage::CreateDecoder: {
+ MOZ_ASSERT(aData.mToken);
+ MOZ_ASSERT(!aData.mDecoder);
+ MOZ_ASSERT(!aData.mInitRequest.Exists());
+
+ DoCreateDecoder(aData);
+ aData.mStage = Stage::WaitForInit;
+ break;
+ }
+
+ case Stage::WaitForInit: {
+ MOZ_ASSERT((aData.mDecoder && aData.mInitRequest.Exists()) ||
+ aData.mLiveToken);
+ break;
+ }
+ }
+}
+
+void MediaFormatReader::DecoderFactory::DoCreateDecoder(Data& aData) {
+ AUTO_PROFILER_LABEL("DecoderFactory::DoCreateDecoder", MEDIA_PLAYBACK);
+ auto& ownerData = aData.mOwnerData;
+ auto& decoder = mOwner->GetDecoderData(aData.mTrack);
+
+ RefPtr<PDMFactory> platform = new PDMFactory();
+ if (decoder.IsEncrypted()) {
+ MOZ_ASSERT(mOwner->mCDMProxy);
+ platform->SetCDMProxy(mOwner->mCDMProxy);
+ }
+
+ RefPtr<PlatformDecoderModule::CreateDecoderPromise> p;
+ MediaFormatReader* owner = mOwner;
+ auto onWaitingForKeyEvent =
+ [owner = ThreadSafeWeakPtr<MediaFormatReader>(owner)]() {
+ RefPtr<MediaFormatReader> mfr(owner);
+ MOZ_DIAGNOSTIC_ASSERT(mfr, "The MediaFormatReader didn't wait for us");
+ return mfr ? &mfr->OnTrackWaitingForKeyProducer() : nullptr;
+ };
+
+ switch (aData.mTrack) {
+ case TrackInfo::kAudioTrack: {
+ p = platform->CreateDecoder(
+ {*ownerData.GetCurrentInfo()->GetAsAudioInfo(), mOwner->mCrashHelper,
+ CreateDecoderParams::UseNullDecoder(ownerData.mIsNullDecode),
+ TrackInfo::kAudioTrack, std::move(onWaitingForKeyEvent),
+ mOwner->mMediaEngineId, mOwner->mTrackingId});
+ break;
+ }
+
+ case TrackType::kVideoTrack: {
+ // Decoders use the layers backend to decide if they can use hardware
+ // decoding, so specify LAYERS_NONE if we want to forcibly disable it.
+ using Option = CreateDecoderParams::Option;
+ using OptionSet = CreateDecoderParams::OptionSet;
+
+ p = platform->CreateDecoder(
+ {*ownerData.GetCurrentInfo()->GetAsVideoInfo(),
+ mOwner->mKnowsCompositor, mOwner->GetImageContainer(),
+ mOwner->mCrashHelper,
+ CreateDecoderParams::UseNullDecoder(ownerData.mIsNullDecode),
+ TrackType::kVideoTrack, std::move(onWaitingForKeyEvent),
+ CreateDecoderParams::VideoFrameRate(ownerData.mMeanRate.Mean()),
+ OptionSet(ownerData.mHardwareDecodingDisabled
+ ? Option::HardwareDecoderNotAllowed
+ : Option::Default),
+ mOwner->mMediaEngineId, mOwner->mTrackingId});
+ break;
+ }
+
+ default:
+ p = PlatformDecoderModule::CreateDecoderPromise::CreateAndReject(
+ NS_ERROR_DOM_MEDIA_FATAL_ERR, __func__);
+ }
+
+ aData.mLiveToken = MakeRefPtr<Data::DecoderCancelled>();
+
+ aData.mCreateDecoderPromise = p->Then(
+ mOwner->OwnerThread(), __func__,
+ [this, &aData, &ownerData, live = WeakPtr{aData.mLiveToken},
+ owner = ThreadSafeWeakPtr<MediaFormatReader>(owner)](
+ RefPtr<MediaDataDecoder>&& aDecoder) {
+ if (!live) {
+ return CreateDecoderPromise::CreateAndResolve(std::move(aDecoder),
+ __func__);
+ }
+ aData.mLiveToken = nullptr;
+ aData.mDecoder = new MediaDataDecoderProxy(
+ aDecoder.forget(), do_AddRef(ownerData.mTaskQueue.get()));
+ aData.mDecoder = new AllocationWrapper(aData.mDecoder.forget(),
+ aData.mToken.forget());
+ DecoderDoctorLogger::LinkParentAndChild(
+ aData.mDecoder.get(), "decoder",
+ "MediaFormatReader::DecoderFactory", this);
+
+ DoInitDecoder(aData);
+
+ return CreateDecoderPromise::CreateAndResolve(aData.mDecoder, __func__);
+ },
+ [this, &aData,
+ live = WeakPtr{aData.mLiveToken}](const MediaResult& aError) {
+ NS_WARNING("Error constructing decoders");
+ if (!live) {
+ return CreateDecoderPromise::CreateAndReject(aError, __func__);
+ }
+ aData.mLiveToken = nullptr;
+ aData.mToken = nullptr;
+ aData.mStage = Stage::None;
+ aData.mOwnerData.mDescription = aError.Description();
+ DDLOGEX2("MediaFormatReader::DecoderFactory", this, DDLogCategory::Log,
+ "create_decoder_error", aError);
+ mOwner->NotifyError(aData.mTrack, aError);
+
+ return CreateDecoderPromise::CreateAndReject(aError, __func__);
+ });
+}
+
+void MediaFormatReader::DecoderFactory::DoInitDecoder(Data& aData) {
+ AUTO_PROFILER_LABEL("DecoderFactory::DoInitDecoder", MEDIA_PLAYBACK);
+ auto& ownerData = aData.mOwnerData;
+
+ DDLOGEX2("MediaFormatReader::DecoderFactory", this, DDLogCategory::Log,
+ "initialize_decoder", DDNoValue{});
+ aData.mDecoder->Init()
+ ->Then(
+ mOwner->OwnerThread(), __func__,
+ [this, &aData, &ownerData](TrackType aTrack) {
+ AUTO_PROFILER_LABEL("DecoderFactory::DoInitDecoder:Resolved",
+ MEDIA_PLAYBACK);
+ aData.mInitRequest.Complete();
+ aData.mStage = Stage::None;
+ MutexAutoLock lock(ownerData.mMutex);
+ ownerData.mDecoder = std::move(aData.mDecoder);
+ ownerData.mDescription = ownerData.mDecoder->GetDescriptionName();
+ DDLOGEX2("MediaFormatReader::DecoderFactory", this,
+ DDLogCategory::Log, "decoder_initialized", DDNoValue{});
+ DecoderDoctorLogger::LinkParentAndChild(
+ "MediaFormatReader::DecoderData", &ownerData, "decoder",
+ ownerData.mDecoder.get());
+ mOwner->SetVideoDecodeThreshold();
+ mOwner->ScheduleUpdate(aTrack);
+ if (aTrack == TrackInfo::kVideoTrack) {
+ DecoderBenchmark::CheckVersion(
+ ownerData.GetCurrentInfo()->mMimeType);
+ }
+ },
+ [this, &aData, &ownerData](const MediaResult& aError) {
+ AUTO_PROFILER_LABEL("DecoderFactory::DoInitDecoder:Rejected",
+ MEDIA_PLAYBACK);
+ aData.mInitRequest.Complete();
+ MOZ_RELEASE_ASSERT(!ownerData.mDecoder,
+ "Can't have a decoder already set");
+ aData.mStage = Stage::None;
+ mOwner->mShutdownPromisePool->ShutdownDecoder(
+ aData.mDecoder.forget());
+ DDLOGEX2("MediaFormatReader::DecoderFactory", this,
+ DDLogCategory::Log, "initialize_decoder_error", aError);
+ mOwner->NotifyError(aData.mTrack, aError);
+ })
+ ->Track(aData.mInitRequest);
+}
+
+// DemuxerProxy ensures that the original main demuxer is only ever accessed
+// via its own dedicated task queue.
+// This ensure that the reader's taskqueue will never blocked while a demuxer
+// is itself blocked attempting to access the MediaCache or the MediaResource.
+class MediaFormatReader::DemuxerProxy {
+ using TrackType = TrackInfo::TrackType;
+ class Wrapper;
+
+ public:
+ explicit DemuxerProxy(MediaDataDemuxer* aDemuxer)
+ : mTaskQueue(TaskQueue::Create(
+ GetMediaThreadPool(MediaThreadType::PLATFORM_DECODER),
+ "DemuxerProxy::mTaskQueue")),
+ mData(new Data(aDemuxer)) {
+ MOZ_COUNT_CTOR(DemuxerProxy);
+ }
+
+ MOZ_COUNTED_DTOR(DemuxerProxy)
+
+ RefPtr<ShutdownPromise> Shutdown() {
+ RefPtr<Data> data = std::move(mData);
+ return InvokeAsync(mTaskQueue, __func__, [data]() {
+ // We need to clear our reference to the demuxer now. So that in the event
+ // the init promise wasn't resolved, such as what can happen with the
+ // mediasource demuxer that is waiting on more data, it will force the
+ // init promise to be rejected.
+ data->mDemuxer = nullptr;
+ data->mAudioDemuxer = nullptr;
+ data->mVideoDemuxer = nullptr;
+ return ShutdownPromise::CreateAndResolve(true, __func__);
+ });
+ }
+
+ RefPtr<MediaDataDemuxer::InitPromise> Init();
+
+ Wrapper* GetTrackDemuxer(TrackType aTrack, uint32_t aTrackNumber) {
+ MOZ_RELEASE_ASSERT(mData && mData->mInitDone);
+
+ switch (aTrack) {
+ case TrackInfo::kAudioTrack:
+ return mData->mAudioDemuxer;
+ case TrackInfo::kVideoTrack:
+ return mData->mVideoDemuxer;
+ default:
+ return nullptr;
+ }
+ }
+
+ uint32_t GetNumberTracks(TrackType aTrack) const {
+ MOZ_RELEASE_ASSERT(mData && mData->mInitDone);
+
+ switch (aTrack) {
+ case TrackInfo::kAudioTrack:
+ return mData->mNumAudioTrack;
+ case TrackInfo::kVideoTrack:
+ return mData->mNumVideoTrack;
+ default:
+ return 0;
+ }
+ }
+
+ bool IsSeekable() const {
+ MOZ_RELEASE_ASSERT(mData && mData->mInitDone);
+
+ return mData->mSeekable;
+ }
+
+ bool IsSeekableOnlyInBufferedRanges() const {
+ MOZ_RELEASE_ASSERT(mData && mData->mInitDone);
+
+ return mData->mSeekableOnlyInBufferedRange;
+ }
+
+ UniquePtr<EncryptionInfo> GetCrypto() const {
+ MOZ_RELEASE_ASSERT(mData && mData->mInitDone);
+
+ if (!mData->mCrypto) {
+ return nullptr;
+ }
+ auto crypto = MakeUnique<EncryptionInfo>();
+ *crypto = *mData->mCrypto;
+ return crypto;
+ }
+
+ RefPtr<NotifyDataArrivedPromise> NotifyDataArrived();
+
+ bool ShouldComputeStartTime() const {
+ MOZ_RELEASE_ASSERT(mData && mData->mInitDone);
+
+ return mData->mShouldComputeStartTime;
+ }
+
+ private:
+ const RefPtr<TaskQueue> mTaskQueue;
+ struct Data {
+ NS_INLINE_DECL_THREADSAFE_REFCOUNTING(Data)
+
+ explicit Data(MediaDataDemuxer* aDemuxer)
+ : mInitDone(false), mDemuxer(aDemuxer) {}
+
+ Atomic<bool> mInitDone;
+ // Only ever accessed over mTaskQueue once.
+ RefPtr<MediaDataDemuxer> mDemuxer;
+ // Only accessed once InitPromise has been resolved and immutable after.
+ // So we can safely access them without the use of the mutex.
+ uint32_t mNumAudioTrack = 0;
+ RefPtr<Wrapper> mAudioDemuxer;
+ uint32_t mNumVideoTrack = 0;
+ RefPtr<Wrapper> mVideoDemuxer;
+ bool mSeekable = false;
+ bool mSeekableOnlyInBufferedRange = false;
+ bool mShouldComputeStartTime = true;
+ UniquePtr<EncryptionInfo> mCrypto;
+
+ private:
+ ~Data() = default;
+ };
+ RefPtr<Data> mData;
+};
+
+class MediaFormatReader::DemuxerProxy::Wrapper : public MediaTrackDemuxer {
+ public:
+ Wrapper(MediaTrackDemuxer* aTrackDemuxer, TaskQueue* aTaskQueue)
+ : mMutex("TrackDemuxer Mutex"),
+ mTaskQueue(aTaskQueue),
+ mGetSamplesMayBlock(aTrackDemuxer->GetSamplesMayBlock()),
+ mInfo(aTrackDemuxer->GetInfo()),
+ mTrackDemuxer(aTrackDemuxer) {
+ DecoderDoctorLogger::LogConstructionAndBase(
+ "MediaFormatReader::DemuxerProxy::Wrapper", this,
+ static_cast<const MediaTrackDemuxer*>(this));
+ DecoderDoctorLogger::LinkParentAndChild(
+ "MediaFormatReader::DemuxerProxy::Wrapper", this, "track demuxer",
+ aTrackDemuxer);
+ }
+
+ UniquePtr<TrackInfo> GetInfo() const override {
+ if (!mInfo) {
+ return nullptr;
+ }
+ return mInfo->Clone();
+ }
+
+ RefPtr<SeekPromise> Seek(const TimeUnit& aTime) override {
+ RefPtr<Wrapper> self = this;
+ return InvokeAsync(
+ mTaskQueue, __func__,
+ [self, aTime]() { return self->mTrackDemuxer->Seek(aTime); })
+ ->Then(
+ mTaskQueue, __func__,
+ [self](const TimeUnit& aTime) {
+ self->UpdateRandomAccessPoint();
+ return SeekPromise::CreateAndResolve(aTime, __func__);
+ },
+ [self](const MediaResult& aError) {
+ self->UpdateRandomAccessPoint();
+ return SeekPromise::CreateAndReject(aError, __func__);
+ });
+ }
+
+ RefPtr<SamplesPromise> GetSamples(int32_t aNumSamples) override {
+ RefPtr<Wrapper> self = this;
+ return InvokeAsync(mTaskQueue, __func__,
+ [self, aNumSamples]() {
+ return self->mTrackDemuxer->GetSamples(aNumSamples);
+ })
+ ->Then(
+ mTaskQueue, __func__,
+ [self](RefPtr<SamplesHolder> aSamples) {
+ self->UpdateRandomAccessPoint();
+ return SamplesPromise::CreateAndResolve(aSamples.forget(),
+ __func__);
+ },
+ [self](const MediaResult& aError) {
+ self->UpdateRandomAccessPoint();
+ return SamplesPromise::CreateAndReject(aError, __func__);
+ });
+ }
+
+ bool GetSamplesMayBlock() const override { return mGetSamplesMayBlock; }
+
+ void Reset() override {
+ RefPtr<Wrapper> self = this;
+ nsresult rv = mTaskQueue->Dispatch(NS_NewRunnableFunction(
+ "MediaFormatReader::DemuxerProxy::Wrapper::Reset",
+ [self]() { self->mTrackDemuxer->Reset(); }));
+ MOZ_DIAGNOSTIC_ASSERT(NS_SUCCEEDED(rv));
+ Unused << rv;
+ }
+
+ nsresult GetNextRandomAccessPoint(TimeUnit* aTime) override {
+ MutexAutoLock lock(mMutex);
+ if (NS_SUCCEEDED(mNextRandomAccessPointResult)) {
+ *aTime = mNextRandomAccessPoint;
+ }
+ return mNextRandomAccessPointResult;
+ }
+
+ RefPtr<SkipAccessPointPromise> SkipToNextRandomAccessPoint(
+ const TimeUnit& aTimeThreshold) override {
+ RefPtr<Wrapper> self = this;
+ return InvokeAsync(
+ mTaskQueue, __func__,
+ [self, aTimeThreshold]() {
+ return self->mTrackDemuxer->SkipToNextRandomAccessPoint(
+ aTimeThreshold);
+ })
+ ->Then(
+ mTaskQueue, __func__,
+ [self](uint32_t aVal) {
+ self->UpdateRandomAccessPoint();
+ return SkipAccessPointPromise::CreateAndResolve(aVal, __func__);
+ },
+ [self](const SkipFailureHolder& aError) {
+ self->UpdateRandomAccessPoint();
+ return SkipAccessPointPromise::CreateAndReject(aError, __func__);
+ });
+ }
+
+ TimeIntervals GetBuffered() override {
+ MutexAutoLock lock(mMutex);
+ return mBuffered;
+ }
+
+ void BreakCycles() override {}
+
+ private:
+ Mutex mMutex MOZ_UNANNOTATED;
+ const RefPtr<TaskQueue> mTaskQueue;
+ const bool mGetSamplesMayBlock;
+ const UniquePtr<TrackInfo> mInfo;
+ // mTrackDemuxer is only ever accessed on demuxer's task queue.
+ RefPtr<MediaTrackDemuxer> mTrackDemuxer;
+ // All following members are protected by mMutex
+ nsresult mNextRandomAccessPointResult = NS_OK;
+ TimeUnit mNextRandomAccessPoint;
+ TimeIntervals mBuffered;
+ friend class DemuxerProxy;
+
+ ~Wrapper() {
+ RefPtr<MediaTrackDemuxer> trackDemuxer = std::move(mTrackDemuxer);
+ nsresult rv = mTaskQueue->Dispatch(NS_NewRunnableFunction(
+ "MediaFormatReader::DemuxerProxy::Wrapper::~Wrapper",
+ [trackDemuxer]() { trackDemuxer->BreakCycles(); }));
+ MOZ_DIAGNOSTIC_ASSERT(NS_SUCCEEDED(rv));
+ Unused << rv;
+ DecoderDoctorLogger::LogDestruction(
+ "MediaFormatReader::DemuxerProxy::Wrapper", this);
+ }
+
+ void UpdateRandomAccessPoint() {
+ MOZ_ASSERT(mTaskQueue->IsCurrentThreadIn());
+ if (!mTrackDemuxer) {
+ // Detached.
+ return;
+ }
+ MutexAutoLock lock(mMutex);
+ mNextRandomAccessPointResult =
+ mTrackDemuxer->GetNextRandomAccessPoint(&mNextRandomAccessPoint);
+ }
+
+ void UpdateBuffered() {
+ MOZ_ASSERT(mTaskQueue->IsCurrentThreadIn());
+ if (!mTrackDemuxer) {
+ // Detached.
+ return;
+ }
+ MutexAutoLock lock(mMutex);
+ mBuffered = mTrackDemuxer->GetBuffered();
+ }
+};
+
+RefPtr<MediaDataDemuxer::InitPromise> MediaFormatReader::DemuxerProxy::Init() {
+ AUTO_PROFILER_LABEL("DemuxerProxy::Init", MEDIA_PLAYBACK);
+ using InitPromise = MediaDataDemuxer::InitPromise;
+
+ RefPtr<Data> data = mData;
+ RefPtr<TaskQueue> taskQueue = mTaskQueue;
+ return InvokeAsync(mTaskQueue, __func__,
+ [data, taskQueue]() {
+ if (!data->mDemuxer) {
+ return InitPromise::CreateAndReject(
+ NS_ERROR_DOM_MEDIA_CANCELED, __func__);
+ }
+ return data->mDemuxer->Init();
+ })
+ ->Then(
+ taskQueue, __func__,
+ [data, taskQueue]() {
+ AUTO_PROFILER_LABEL("DemuxerProxy::Init:Resolved", MEDIA_PLAYBACK);
+ if (!data->mDemuxer) { // Was shutdown.
+ return InitPromise::CreateAndReject(NS_ERROR_DOM_MEDIA_CANCELED,
+ __func__);
+ }
+ data->mNumAudioTrack =
+ data->mDemuxer->GetNumberTracks(TrackInfo::kAudioTrack);
+ if (data->mNumAudioTrack) {
+ RefPtr<MediaTrackDemuxer> d =
+ data->mDemuxer->GetTrackDemuxer(TrackInfo::kAudioTrack, 0);
+ if (d) {
+ RefPtr<Wrapper> wrapper =
+ new DemuxerProxy::Wrapper(d, taskQueue);
+ wrapper->UpdateBuffered();
+ data->mAudioDemuxer = wrapper;
+ DecoderDoctorLogger::LinkParentAndChild(
+ data->mDemuxer.get(), "decoder factory wrapper",
+ "MediaFormatReader::DecoderFactory::Wrapper",
+ wrapper.get());
+ }
+ }
+ data->mNumVideoTrack =
+ data->mDemuxer->GetNumberTracks(TrackInfo::kVideoTrack);
+ if (data->mNumVideoTrack) {
+ RefPtr<MediaTrackDemuxer> d =
+ data->mDemuxer->GetTrackDemuxer(TrackInfo::kVideoTrack, 0);
+ if (d) {
+ RefPtr<Wrapper> wrapper =
+ new DemuxerProxy::Wrapper(d, taskQueue);
+ wrapper->UpdateBuffered();
+ data->mVideoDemuxer = wrapper;
+ DecoderDoctorLogger::LinkParentAndChild(
+ data->mDemuxer.get(), "decoder factory wrapper",
+ "MediaFormatReader::DecoderFactory::Wrapper",
+ wrapper.get());
+ }
+ }
+ data->mCrypto = data->mDemuxer->GetCrypto();
+ data->mSeekable = data->mDemuxer->IsSeekable();
+ data->mSeekableOnlyInBufferedRange =
+ data->mDemuxer->IsSeekableOnlyInBufferedRanges();
+ data->mShouldComputeStartTime =
+ data->mDemuxer->ShouldComputeStartTime();
+ data->mInitDone = true;
+ return InitPromise::CreateAndResolve(NS_OK, __func__);
+ },
+ [](const MediaResult& aError) {
+ return InitPromise::CreateAndReject(aError, __func__);
+ });
+}
+
+RefPtr<MediaFormatReader::NotifyDataArrivedPromise>
+MediaFormatReader::DemuxerProxy::NotifyDataArrived() {
+ RefPtr<Data> data = mData;
+ return InvokeAsync(mTaskQueue, __func__, [data]() {
+ if (!data->mDemuxer) {
+ // Was shutdown.
+ return NotifyDataArrivedPromise::CreateAndReject(
+ NS_ERROR_DOM_MEDIA_CANCELED, __func__);
+ }
+ data->mDemuxer->NotifyDataArrived();
+ if (data->mAudioDemuxer) {
+ data->mAudioDemuxer->UpdateBuffered();
+ }
+ if (data->mVideoDemuxer) {
+ data->mVideoDemuxer->UpdateBuffered();
+ }
+ return NotifyDataArrivedPromise::CreateAndResolve(true, __func__);
+ });
+}
+
+MediaFormatReader::MediaFormatReader(MediaFormatReaderInit& aInit,
+ MediaDataDemuxer* aDemuxer)
+ : mTaskQueue(
+ TaskQueue::Create(GetMediaThreadPool(MediaThreadType::SUPERVISOR),
+ "MediaFormatReader::mTaskQueue",
+ /* aSupportsTailDispatch = */ true)),
+ mAudio(this, MediaData::Type::AUDIO_DATA,
+ StaticPrefs::media_audio_max_decode_error()),
+ mVideo(this, MediaData::Type::VIDEO_DATA,
+ StaticPrefs::media_video_max_decode_error()),
+ mWorkingInfoChanged(false, "MediaFormatReader::mWorkingInfoChanged"),
+ mWatchManager(this, OwnerThread()),
+ mIsWatchingWorkingInfo(false),
+ mDemuxer(new DemuxerProxy(aDemuxer)),
+ mDemuxerInitDone(false),
+ mPendingNotifyDataArrived(false),
+ mLastReportedNumDecodedFrames(0),
+ mPreviousDecodedKeyframeTime_us(sNoPreviousDecodedKeyframe),
+ mKnowsCompositor(aInit.mKnowsCompositor),
+ mInitDone(false),
+ mTrackDemuxersMayBlock(false),
+ mSeekScheduled(false),
+ mVideoFrameContainer(aInit.mVideoFrameContainer),
+ mCrashHelper(aInit.mCrashHelper),
+ mDecoderFactory(new DecoderFactory(this)),
+ mShutdownPromisePool(new ShutdownPromisePool()),
+ mBuffered(mTaskQueue, TimeIntervals(),
+ "MediaFormatReader::mBuffered (Canonical)"),
+ mFrameStats(aInit.mFrameStats),
+ mMediaDecoderOwnerID(aInit.mMediaDecoderOwnerID),
+ mTrackingId(std::move(aInit.mTrackingId)) {
+ MOZ_ASSERT(aDemuxer);
+ MOZ_COUNT_CTOR(MediaFormatReader);
+ DDLINKCHILD("audio decoder data", "MediaFormatReader::DecoderDataWithPromise",
+ &mAudio);
+ DDLINKCHILD("video decoder data", "MediaFormatReader::DecoderDataWithPromise",
+ &mVideo);
+ DDLINKCHILD("demuxer", aDemuxer);
+ mOnTrackWaitingForKeyListener = OnTrackWaitingForKey().Connect(
+ mTaskQueue, this, &MediaFormatReader::NotifyWaitingForKey);
+}
+
+MediaFormatReader::~MediaFormatReader() {
+ MOZ_COUNT_DTOR(MediaFormatReader);
+ MOZ_ASSERT(mShutdown);
+}
+
+RefPtr<ShutdownPromise> MediaFormatReader::Shutdown() {
+ MOZ_ASSERT(OnTaskQueue());
+ LOG("");
+
+ mDemuxerInitRequest.DisconnectIfExists();
+ mNotifyDataArrivedPromise.DisconnectIfExists();
+ mMetadataPromise.RejectIfExists(NS_ERROR_DOM_MEDIA_CANCELED, __func__);
+ mSeekPromise.RejectIfExists(NS_ERROR_DOM_MEDIA_CANCELED, __func__);
+ mSkipRequest.DisconnectIfExists();
+ mSetCDMPromise.RejectIfExists(
+ MediaResult(NS_ERROR_DOM_INVALID_STATE_ERR,
+ "MediaFormatReader is shutting down"),
+ __func__);
+
+ if (mIsWatchingWorkingInfo) {
+ mWatchManager.Unwatch(mWorkingInfoChanged,
+ &MediaFormatReader::NotifyTrackInfoUpdated);
+ }
+ mWatchManager.Shutdown();
+
+ if (mAudio.HasPromise()) {
+ mAudio.RejectPromise(NS_ERROR_DOM_MEDIA_CANCELED, __func__);
+ }
+ if (mVideo.HasPromise()) {
+ mVideo.RejectPromise(NS_ERROR_DOM_MEDIA_CANCELED, __func__);
+ }
+
+ if (HasAudio()) {
+ mAudio.ResetDemuxer();
+ mAudio.mTrackDemuxer->BreakCycles();
+ {
+ MutexAutoLock lock(mAudio.mMutex);
+ mAudio.mTrackDemuxer = nullptr;
+ }
+ mAudio.ResetState();
+ ShutdownDecoder(TrackInfo::kAudioTrack);
+ }
+
+ if (HasVideo()) {
+ mVideo.ResetDemuxer();
+ mVideo.mTrackDemuxer->BreakCycles();
+ {
+ MutexAutoLock lock(mVideo.mMutex);
+ mVideo.mTrackDemuxer = nullptr;
+ }
+ mVideo.ResetState();
+ ShutdownDecoder(TrackInfo::kVideoTrack);
+ }
+
+ mShutdownPromisePool->Track(mDemuxer->Shutdown());
+ mDemuxer = nullptr;
+
+ mOnTrackWaitingForKeyListener.Disconnect();
+
+ mShutdown = true;
+ return mShutdownPromisePool->Shutdown()->Then(
+ OwnerThread(), __func__, this, &MediaFormatReader::TearDownDecoders,
+ &MediaFormatReader::TearDownDecoders);
+}
+
+void MediaFormatReader::ShutdownDecoder(TrackType aTrack) {
+ LOGV("%s", TrackTypeToStr(aTrack));
+
+ // Shut down the pending decoder if any.
+ mDecoderFactory->ShutdownDecoder(aTrack);
+
+ auto& decoder = GetDecoderData(aTrack);
+ // Flush the decoder if necessary.
+ decoder.Flush();
+
+ // Shut down the decoder if any.
+ decoder.ShutdownDecoder();
+}
+
+void MediaFormatReader::NotifyDecoderBenchmarkStore() {
+ MOZ_ASSERT(OnTaskQueue());
+ if (!StaticPrefs::media_mediacapabilities_from_database()) {
+ return;
+ }
+ auto& decoder = GetDecoderData(TrackInfo::kVideoTrack);
+ if (decoder.GetCurrentInfo() && decoder.GetCurrentInfo()->GetAsVideoInfo()) {
+ VideoInfo info = *(decoder.GetCurrentInfo()->GetAsVideoInfo());
+ info.SetFrameRate(static_cast<int32_t>(ceil(decoder.mMeanRate.Mean())));
+ mOnStoreDecoderBenchmark.Notify(std::move(info));
+ }
+}
+
+void MediaFormatReader::NotifyTrackInfoUpdated() {
+ MOZ_ASSERT(OnTaskQueue());
+ if (mWorkingInfoChanged) {
+ mWorkingInfoChanged = false;
+
+ VideoInfo videoInfo;
+ AudioInfo audioInfo;
+ {
+ MutexAutoLock lock(mVideo.mMutex);
+ if (HasVideo()) {
+ videoInfo = *mVideo.GetWorkingInfo()->GetAsVideoInfo();
+ }
+ }
+ {
+ MutexAutoLock lock(mAudio.mMutex);
+ if (HasAudio()) {
+ audioInfo = *mAudio.GetWorkingInfo()->GetAsAudioInfo();
+ }
+ }
+
+ mTrackInfoUpdatedEvent.Notify(videoInfo, audioInfo);
+ }
+}
+
+RefPtr<ShutdownPromise> MediaFormatReader::TearDownDecoders() {
+ if (mAudio.mTaskQueue) {
+ mAudio.mTaskQueue->BeginShutdown();
+ mAudio.mTaskQueue->AwaitShutdownAndIdle();
+ mAudio.mTaskQueue = nullptr;
+ }
+ if (mVideo.mTaskQueue) {
+ mVideo.mTaskQueue->BeginShutdown();
+ mVideo.mTaskQueue->AwaitShutdownAndIdle();
+ mVideo.mTaskQueue = nullptr;
+ }
+
+ mDecoderFactory = nullptr;
+ mVideoFrameContainer = nullptr;
+
+ ReleaseResources();
+ mBuffered.DisconnectAll();
+ return mTaskQueue->BeginShutdown();
+}
+
+nsresult MediaFormatReader::Init() {
+ MOZ_ASSERT(NS_IsMainThread(), "Must be on main thread.");
+
+ mAudio.mTaskQueue =
+ TaskQueue::Create(GetMediaThreadPool(MediaThreadType::PLATFORM_DECODER),
+ "MFR::mAudio::mTaskQueue");
+
+ mVideo.mTaskQueue =
+ TaskQueue::Create(GetMediaThreadPool(MediaThreadType::PLATFORM_DECODER),
+ "MFR::mVideo::mTaskQueue");
+
+ return NS_OK;
+}
+
+bool MediaFormatReader::ResolveSetCDMPromiseIfDone(TrackType aTrack) {
+ // When a CDM proxy is set, MFR would shutdown the existing MediaDataDecoder
+ // and would create new one for specific track in the next Update.
+ MOZ_ASSERT(OnTaskQueue());
+
+ if (mSetCDMPromise.IsEmpty()) {
+ return true;
+ }
+
+ MOZ_ASSERT(mCDMProxy);
+ if (mSetCDMForTracks.contains(aTrack)) {
+ mSetCDMForTracks -= aTrack;
+ }
+
+ if (mSetCDMForTracks.isEmpty()) {
+ LOGV("%s : Done ", __func__);
+ mSetCDMPromise.Resolve(/* aIgnored = */ true, __func__);
+ if (HasAudio()) {
+ ScheduleUpdate(TrackInfo::kAudioTrack);
+ }
+ if (HasVideo()) {
+ ScheduleUpdate(TrackInfo::kVideoTrack);
+ }
+ return true;
+ }
+ LOGV("%s : %s track is ready.", __func__, TrackTypeToStr(aTrack));
+ return false;
+}
+
+void MediaFormatReader::PrepareToSetCDMForTrack(TrackType aTrack) {
+ MOZ_ASSERT(OnTaskQueue());
+ LOGV("%s : %s", __func__, TrackTypeToStr(aTrack));
+
+ mSetCDMForTracks += aTrack;
+ if (mCDMProxy) {
+ // An old cdm proxy exists, so detaching old cdm proxy by shutting down
+ // MediaDataDecoder.
+ ShutdownDecoder(aTrack);
+ }
+ ScheduleUpdate(aTrack);
+}
+
+bool MediaFormatReader::IsDecoderWaitingForCDM(TrackType aTrack) {
+ MOZ_ASSERT(OnTaskQueue());
+ return GetDecoderData(aTrack).IsEncrypted() &&
+ mSetCDMForTracks.contains(aTrack) && !mCDMProxy;
+}
+
+RefPtr<SetCDMPromise> MediaFormatReader::SetCDMProxy(CDMProxy* aProxy) {
+ MOZ_ASSERT(OnTaskQueue());
+ LOGV("SetCDMProxy (%p)", aProxy);
+
+ if (mShutdown) {
+ return SetCDMPromise::CreateAndReject(
+ MediaResult(NS_ERROR_DOM_INVALID_STATE_ERR,
+ "MediaFormatReader is shutting down"),
+ __func__);
+ }
+
+ mSetCDMPromise.RejectIfExists(
+ MediaResult(NS_ERROR_DOM_INVALID_STATE_ERR,
+ "Another new CDM proxy is being set."),
+ __func__);
+
+ // Shutdown all decoders as switching CDM proxy indicates that it's
+ // inappropriate for the existing decoders to continue decoding via the old
+ // CDM proxy.
+ if (HasAudio()) {
+ PrepareToSetCDMForTrack(TrackInfo::kAudioTrack);
+ }
+ if (HasVideo()) {
+ PrepareToSetCDMForTrack(TrackInfo::kVideoTrack);
+ }
+
+ mCDMProxy = aProxy;
+
+ if (!mInitDone || mSetCDMForTracks.isEmpty() || !mCDMProxy) {
+ // 1) MFR is not initialized yet or
+ // 2) Demuxer is initialized without active audio and video or
+ // 3) A null cdm proxy is set
+ // the promise can be resolved directly.
+ mSetCDMForTracks.clear();
+ return SetCDMPromise::CreateAndResolve(/* aIgnored = */ true, __func__);
+ }
+
+ RefPtr<SetCDMPromise> p = mSetCDMPromise.Ensure(__func__);
+ return p;
+}
+
+bool MediaFormatReader::IsWaitingOnCDMResource() {
+ MOZ_ASSERT(OnTaskQueue());
+ return IsEncrypted() && !mCDMProxy;
+}
+
+RefPtr<MediaFormatReader::MetadataPromise>
+MediaFormatReader::AsyncReadMetadata() {
+ AUTO_PROFILER_LABEL("MediaFormatReader::AsyncReadMetadata", MEDIA_PLAYBACK);
+ MOZ_ASSERT(OnTaskQueue());
+
+ MOZ_DIAGNOSTIC_ASSERT(mMetadataPromise.IsEmpty());
+
+ if (mInitDone) {
+ // We are returning from dormant.
+ MetadataHolder metadata;
+ metadata.mInfo = MakeUnique<MediaInfo>(mInfo);
+ return MetadataPromise::CreateAndResolve(std::move(metadata), __func__);
+ }
+
+ RefPtr<MetadataPromise> p = mMetadataPromise.Ensure(__func__);
+
+ mDemuxer->Init()
+ ->Then(OwnerThread(), __func__, this,
+ &MediaFormatReader::OnDemuxerInitDone,
+ &MediaFormatReader::OnDemuxerInitFailed)
+ ->Track(mDemuxerInitRequest);
+ return p;
+}
+
+void MediaFormatReader::OnDemuxerInitDone(const MediaResult& aResult) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::OnDemuxerInitDone", MEDIA_PLAYBACK);
+ MOZ_ASSERT(OnTaskQueue());
+ mDemuxerInitRequest.Complete();
+
+ if (NS_FAILED(aResult) && StaticPrefs::media_playback_warnings_as_errors()) {
+ mMetadataPromise.Reject(aResult, __func__);
+ return;
+ }
+
+ mDemuxerInitDone = true;
+
+ UniquePtr<MetadataTags> tags(MakeUnique<MetadataTags>());
+
+ RefPtr<PDMFactory> platform;
+ if (!IsWaitingOnCDMResource()) {
+ platform = new PDMFactory();
+ }
+
+ // To decode, we need valid video and a place to put it.
+ bool videoActive = !!mDemuxer->GetNumberTracks(TrackInfo::kVideoTrack) &&
+ GetImageContainer();
+
+ if (videoActive) {
+ // We currently only handle the first video track.
+ MutexAutoLock lock(mVideo.mMutex);
+ mVideo.mTrackDemuxer = mDemuxer->GetTrackDemuxer(TrackInfo::kVideoTrack, 0);
+ if (!mVideo.mTrackDemuxer) {
+ mMetadataPromise.Reject(NS_ERROR_DOM_MEDIA_METADATA_ERR, __func__);
+ return;
+ }
+
+ UniquePtr<TrackInfo> videoInfo = mVideo.mTrackDemuxer->GetInfo();
+ videoActive = videoInfo && videoInfo->IsValid();
+ if (videoActive) {
+ if (platform && platform->SupportsMimeType(videoInfo->mMimeType) ==
+ media::DecodeSupport::Unsupported) {
+ // We have no decoder for this track. Error.
+ mMetadataPromise.Reject(NS_ERROR_DOM_MEDIA_METADATA_ERR, __func__);
+ return;
+ }
+ mInfo.mVideo = *videoInfo->GetAsVideoInfo();
+ mVideo.mWorkingInfo = MakeUnique<VideoInfo>(mInfo.mVideo);
+ for (const MetadataTag& tag : videoInfo->mTags) {
+ tags->InsertOrUpdate(tag.mKey, tag.mValue);
+ }
+ mWorkingInfoChanged = true;
+ mVideo.mOriginalInfo = std::move(videoInfo);
+ mTrackDemuxersMayBlock |= mVideo.mTrackDemuxer->GetSamplesMayBlock();
+ } else {
+ mVideo.mTrackDemuxer->BreakCycles();
+ mVideo.mTrackDemuxer = nullptr;
+ }
+ }
+
+ bool audioActive = !!mDemuxer->GetNumberTracks(TrackInfo::kAudioTrack);
+ if (audioActive) {
+ MutexAutoLock lock(mAudio.mMutex);
+ mAudio.mTrackDemuxer = mDemuxer->GetTrackDemuxer(TrackInfo::kAudioTrack, 0);
+ if (!mAudio.mTrackDemuxer) {
+ mMetadataPromise.Reject(NS_ERROR_DOM_MEDIA_METADATA_ERR, __func__);
+ return;
+ }
+
+ UniquePtr<TrackInfo> audioInfo = mAudio.mTrackDemuxer->GetInfo();
+ // We actively ignore audio tracks that we know we can't play.
+ audioActive =
+ audioInfo && audioInfo->IsValid() &&
+ (!platform || platform->SupportsMimeType(audioInfo->mMimeType) !=
+ media::DecodeSupport::Unsupported);
+
+ if (audioActive) {
+ mInfo.mAudio = *audioInfo->GetAsAudioInfo();
+ mAudio.mWorkingInfo = MakeUnique<AudioInfo>(mInfo.mAudio);
+ for (const MetadataTag& tag : audioInfo->mTags) {
+ tags->InsertOrUpdate(tag.mKey, tag.mValue);
+ }
+ mWorkingInfoChanged = true;
+ mAudio.mOriginalInfo = std::move(audioInfo);
+ mTrackDemuxersMayBlock |= mAudio.mTrackDemuxer->GetSamplesMayBlock();
+ } else {
+ mAudio.mTrackDemuxer->BreakCycles();
+ mAudio.mTrackDemuxer = nullptr;
+ }
+ }
+
+ UniquePtr<EncryptionInfo> crypto = mDemuxer->GetCrypto();
+ if (crypto && crypto->IsEncrypted()) {
+ // Try and dispatch 'encrypted'. Won't go if ready state still HAVE_NOTHING.
+ for (uint32_t i = 0; i < crypto->mInitDatas.Length(); i++) {
+ mOnEncrypted.Notify(crypto->mInitDatas[i].mInitData,
+ crypto->mInitDatas[i].mType);
+ }
+ mInfo.mCrypto = *crypto;
+ }
+
+ auto videoDuration = HasVideo() ? mInfo.mVideo.mDuration : TimeUnit::Zero();
+ auto audioDuration = HasAudio() ? mInfo.mAudio.mDuration : TimeUnit::Zero();
+
+ auto duration = std::max(videoDuration, audioDuration);
+ if (duration.IsPositive()) {
+ mInfo.mMetadataDuration = Some(duration);
+ }
+
+ mInfo.mMediaSeekable = mDemuxer->IsSeekable();
+ mInfo.mMediaSeekableOnlyInBufferedRanges =
+ mDemuxer->IsSeekableOnlyInBufferedRanges();
+
+ if (!videoActive && !audioActive) {
+ mMetadataPromise.Reject(NS_ERROR_DOM_MEDIA_METADATA_ERR, __func__);
+ return;
+ }
+
+ mTags = std::move(tags);
+ mInitDone = true;
+
+ // Try to get the start time.
+ // For MSE case, the start time of each track is assumed to be 0.
+ // For others, we must demux the first sample to know the start time for each
+ // track.
+ if (!mDemuxer->ShouldComputeStartTime()) {
+ mAudio.mFirstDemuxedSampleTime.emplace(TimeUnit::Zero());
+ mVideo.mFirstDemuxedSampleTime.emplace(TimeUnit::Zero());
+ } else {
+ if (HasAudio()) {
+ RequestDemuxSamples(TrackInfo::kAudioTrack);
+ }
+
+ if (HasVideo()) {
+ RequestDemuxSamples(TrackInfo::kVideoTrack);
+ }
+ }
+
+ if (aResult != NS_OK) {
+ mOnDecodeWarning.Notify(aResult);
+ }
+
+ MaybeResolveMetadataPromise();
+}
+
+void MediaFormatReader::MaybeResolveMetadataPromise() {
+ MOZ_ASSERT(OnTaskQueue());
+
+ if ((HasAudio() && mAudio.mFirstDemuxedSampleTime.isNothing()) ||
+ (HasVideo() && mVideo.mFirstDemuxedSampleTime.isNothing())) {
+ return;
+ }
+
+ TimeUnit startTime =
+ std::min(mAudio.mFirstDemuxedSampleTime.refOr(TimeUnit::FromInfinity()),
+ mVideo.mFirstDemuxedSampleTime.refOr(TimeUnit::FromInfinity()));
+
+ if (!startTime.IsInfinite()) {
+ mInfo.mStartTime = startTime; // mInfo.mStartTime is initialized to 0.
+ }
+
+ MetadataHolder metadata;
+ metadata.mInfo = MakeUnique<MediaInfo>(mInfo);
+ metadata.mTags = mTags->Count() ? std::move(mTags) : nullptr;
+
+ // We now have all the informations required to calculate the initial buffered
+ // range.
+ mHasStartTime = true;
+ UpdateBuffered();
+
+ mWatchManager.Watch(mWorkingInfoChanged,
+ &MediaFormatReader::NotifyTrackInfoUpdated);
+ mIsWatchingWorkingInfo = true;
+
+ mMetadataPromise.Resolve(std::move(metadata), __func__);
+}
+
+bool MediaFormatReader::IsEncrypted() const {
+ return (HasAudio() && mAudio.GetCurrentInfo()->mCrypto.IsEncrypted()) ||
+ (HasVideo() && mVideo.GetCurrentInfo()->mCrypto.IsEncrypted());
+}
+
+void MediaFormatReader::OnDemuxerInitFailed(const MediaResult& aError) {
+ mDemuxerInitRequest.Complete();
+ mMetadataPromise.Reject(aError, __func__);
+}
+
+void MediaFormatReader::ReadUpdatedMetadata(MediaInfo* aInfo) {
+ // Called on the MDSM's TaskQueue.
+ {
+ MutexAutoLock lock(mVideo.mMutex);
+ if (HasVideo()) {
+ aInfo->mVideo = *mVideo.GetWorkingInfo()->GetAsVideoInfo();
+ }
+ }
+ {
+ MutexAutoLock lock(mAudio.mMutex);
+ if (HasAudio()) {
+ aInfo->mAudio = *mAudio.GetWorkingInfo()->GetAsAudioInfo();
+ }
+ }
+}
+
+MediaFormatReader::DecoderData& MediaFormatReader::GetDecoderData(
+ TrackType aTrack) {
+ MOZ_ASSERT(aTrack == TrackInfo::kAudioTrack ||
+ aTrack == TrackInfo::kVideoTrack);
+ if (aTrack == TrackInfo::kAudioTrack) {
+ return mAudio;
+ }
+ return mVideo;
+}
+
+Maybe<TimeUnit> MediaFormatReader::ShouldSkip(TimeUnit aTimeThreshold,
+ bool aRequestNextVideoKeyFrame) {
+ MOZ_ASSERT(OnTaskQueue());
+ MOZ_ASSERT(HasVideo());
+
+ if (!StaticPrefs::media_decoder_skip_to_next_key_frame_enabled()) {
+ return Nothing();
+ }
+
+ // Ensure we have no pending seek going as skip-to-keyframe could return out
+ // of date information.
+ if (mVideo.HasInternalSeekPending()) {
+ return Nothing();
+ }
+
+ TimeUnit nextKeyframe;
+ nsresult rv = mVideo.mTrackDemuxer->GetNextRandomAccessPoint(&nextKeyframe);
+ if (NS_FAILED(rv)) {
+ // Only OggTrackDemuxer with video type gets into here.
+ // We don't support skip-to-next-frame for this case.
+ return Nothing();
+ }
+
+ const bool isNextKeyframeValid =
+ nextKeyframe.ToMicroseconds() >= 0 && !nextKeyframe.IsInfinite();
+ // If we request the next keyframe, only return times greater than
+ // aTimeThreshold. Otherwise, data will be already behind the threshold and
+ // will be eventually discarded somewhere in the media pipeline.
+ if (aRequestNextVideoKeyFrame && isNextKeyframeValid &&
+ nextKeyframe > aTimeThreshold) {
+ return Some(nextKeyframe);
+ }
+
+ const bool isNextVideoBehindTheThreshold =
+ (isNextKeyframeValid && nextKeyframe <= aTimeThreshold) ||
+ GetInternalSeekTargetEndTime() < aTimeThreshold;
+ return isNextVideoBehindTheThreshold ? Some(aTimeThreshold) : Nothing();
+}
+
+RefPtr<MediaFormatReader::VideoDataPromise> MediaFormatReader::RequestVideoData(
+ const TimeUnit& aTimeThreshold, bool aRequestNextVideoKeyFrame) {
+ MOZ_ASSERT(OnTaskQueue());
+ MOZ_DIAGNOSTIC_ASSERT(!mVideo.HasPromise(), "No duplicate sample requests");
+ // Requesting video can be done independently from audio, even during audio
+ // seeking. But it shouldn't happen if we're doing video seek.
+ if (!IsAudioOnlySeeking()) {
+ MOZ_DIAGNOSTIC_ASSERT(mSeekPromise.IsEmpty(),
+ "No sample requests allowed while seeking");
+ MOZ_DIAGNOSTIC_ASSERT(!mVideo.mSeekRequest.Exists() ||
+ mVideo.mTimeThreshold.isSome());
+ MOZ_DIAGNOSTIC_ASSERT(!IsSeeking(), "called mid-seek");
+ }
+ LOGV("RequestVideoData(%" PRId64 "), requestNextKeyFrame=%d",
+ aTimeThreshold.ToMicroseconds(), aRequestNextVideoKeyFrame);
+
+ if (!HasVideo()) {
+ LOG("called with no video track");
+ return VideoDataPromise::CreateAndReject(NS_ERROR_DOM_MEDIA_FATAL_ERR,
+ __func__);
+ }
+
+ if (IsSeeking()) {
+ LOG("called mid-seek. Rejecting.");
+ return VideoDataPromise::CreateAndReject(NS_ERROR_DOM_MEDIA_CANCELED,
+ __func__);
+ }
+
+ if (mShutdown) {
+ NS_WARNING("RequestVideoData on shutdown MediaFormatReader!");
+ return VideoDataPromise::CreateAndReject(NS_ERROR_DOM_MEDIA_CANCELED,
+ __func__);
+ }
+
+ if (Maybe<TimeUnit> target =
+ ShouldSkip(aTimeThreshold, aRequestNextVideoKeyFrame)) {
+ PROFILER_MARKER_UNTYPED("RequestVideoData SkipVideoDemuxToNextKeyFrame",
+ MEDIA_PLAYBACK);
+ RefPtr<VideoDataPromise> p = mVideo.EnsurePromise(__func__);
+ SkipVideoDemuxToNextKeyFrame(*target);
+ return p;
+ }
+
+ RefPtr<VideoDataPromise> p = mVideo.EnsurePromise(__func__);
+ ScheduleUpdate(TrackInfo::kVideoTrack);
+
+ return p;
+}
+
+void MediaFormatReader::OnDemuxFailed(TrackType aTrack,
+ const MediaResult& aError) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::OnDemuxFailed", MEDIA_PLAYBACK);
+ MOZ_ASSERT(OnTaskQueue());
+ LOG("Failed to demux %s, failure:%s",
+ aTrack == TrackType::kVideoTrack ? "video" : "audio",
+ aError.ErrorName().get());
+ auto& decoder = GetDecoderData(aTrack);
+ decoder.mDemuxRequest.Complete();
+ switch (aError.Code()) {
+ case NS_ERROR_DOM_MEDIA_END_OF_STREAM:
+ DDLOG(DDLogCategory::Log,
+ aTrack == TrackType::kVideoTrack ? "video_demux_interruption"
+ : "audio_demux_interruption",
+ aError);
+ if (!decoder.mWaitingForData) {
+ decoder.RequestDrain();
+ }
+ NotifyEndOfStream(aTrack);
+ break;
+ case NS_ERROR_DOM_MEDIA_WAITING_FOR_DATA:
+ DDLOG(DDLogCategory::Log,
+ aTrack == TrackType::kVideoTrack ? "video_demux_interruption"
+ : "audio_demux_interruption",
+ aError);
+ if (!decoder.mWaitingForData) {
+ decoder.RequestDrain();
+ }
+ NotifyWaitingForData(aTrack);
+ break;
+ case NS_ERROR_DOM_MEDIA_CANCELED:
+ DDLOG(DDLogCategory::Log,
+ aTrack == TrackType::kVideoTrack ? "video_demux_interruption"
+ : "audio_demux_interruption",
+ aError);
+ if (decoder.HasPromise()) {
+ decoder.RejectPromise(NS_ERROR_DOM_MEDIA_CANCELED, __func__);
+ }
+ break;
+ default:
+ DDLOG(DDLogCategory::Log,
+ aTrack == TrackType::kVideoTrack ? "video_demux_error"
+ : "audio_demux_error",
+ aError);
+ NotifyError(aTrack, aError);
+ break;
+ }
+}
+
+void MediaFormatReader::DoDemuxVideo() {
+ AUTO_PROFILER_LABEL("MediaFormatReader::DoDemuxVideo", MEDIA_PLAYBACK);
+ using SamplesPromise = MediaTrackDemuxer::SamplesPromise;
+
+ DDLOG(DDLogCategory::Log, "video_demuxing", DDNoValue{});
+ PerformanceRecorder<PlaybackStage> perfRecorder(
+ MediaStage::RequestDemux,
+ mVideo.GetCurrentInfo()->GetAsVideoInfo()->mImage.height);
+ auto p = mVideo.mTrackDemuxer->GetSamples(1);
+
+ RefPtr<MediaFormatReader> self = this;
+ if (mVideo.mFirstDemuxedSampleTime.isNothing()) {
+ p = p->Then(
+ OwnerThread(), __func__,
+ [self](RefPtr<MediaTrackDemuxer::SamplesHolder> aSamples) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::DoDemuxVideo:Resolved",
+ MEDIA_PLAYBACK);
+ DDLOGEX(self.get(), DDLogCategory::Log, "video_first_demuxed",
+ DDNoValue{});
+ self->OnFirstDemuxCompleted(TrackInfo::kVideoTrack, aSamples);
+ return SamplesPromise::CreateAndResolve(aSamples.forget(), __func__);
+ },
+ [self](const MediaResult& aError) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::DoDemuxVideo:Rejected",
+ MEDIA_PLAYBACK);
+ DDLOGEX(self.get(), DDLogCategory::Log, "video_first_demuxing_error",
+ aError);
+ self->OnFirstDemuxFailed(TrackInfo::kVideoTrack, aError);
+ return SamplesPromise::CreateAndReject(aError, __func__);
+ });
+ }
+
+ p->Then(
+ OwnerThread(), __func__,
+ [self, perfRecorder(std::move(perfRecorder))](
+ RefPtr<MediaTrackDemuxer::SamplesHolder> aSamples) mutable {
+ perfRecorder.Record();
+ self->OnVideoDemuxCompleted(std::move(aSamples));
+ },
+ [self](const MediaResult& aError) { self->OnVideoDemuxFailed(aError); })
+ ->Track(mVideo.mDemuxRequest);
+}
+
+void MediaFormatReader::OnVideoDemuxCompleted(
+ RefPtr<MediaTrackDemuxer::SamplesHolder> aSamples) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::OnVideoDemuxCompleted",
+ MEDIA_PLAYBACK);
+ LOGV("%zu video samples demuxed (sid:%d)", aSamples->GetSamples().Length(),
+ aSamples->GetSamples()[0]->mTrackInfo
+ ? aSamples->GetSamples()[0]->mTrackInfo->GetID()
+ : 0);
+ DDLOG(DDLogCategory::Log, "video_demuxed_samples",
+ uint64_t(aSamples->GetSamples().Length()));
+ mVideo.mDemuxRequest.Complete();
+ mVideo.mQueuedSamples.AppendElements(aSamples->GetSamples());
+ ScheduleUpdate(TrackInfo::kVideoTrack);
+}
+
+RefPtr<MediaFormatReader::AudioDataPromise>
+MediaFormatReader::RequestAudioData() {
+ MOZ_ASSERT(OnTaskQueue());
+ MOZ_DIAGNOSTIC_ASSERT(!mAudio.HasPromise(), "No duplicate sample requests");
+ // Requesting audio can be done independently from video, even during video
+ // seeking. But it shouldn't happen if we're doing audio seek.
+ if (!IsVideoOnlySeeking()) {
+ MOZ_DIAGNOSTIC_ASSERT(mSeekPromise.IsEmpty(),
+ "No sample requests allowed while seeking");
+ MOZ_DIAGNOSTIC_ASSERT(!mAudio.mSeekRequest.Exists() ||
+ mAudio.mTimeThreshold.isSome());
+ MOZ_DIAGNOSTIC_ASSERT(!IsSeeking(), "called mid-seek");
+ }
+ LOGV("");
+
+ if (!HasAudio()) {
+ LOG("called with no audio track");
+ return AudioDataPromise::CreateAndReject(NS_ERROR_DOM_MEDIA_FATAL_ERR,
+ __func__);
+ }
+
+ if (IsSeeking()) {
+ LOG("called mid-seek. Rejecting.");
+ return AudioDataPromise::CreateAndReject(NS_ERROR_DOM_MEDIA_CANCELED,
+ __func__);
+ }
+
+ if (mShutdown) {
+ NS_WARNING("RequestAudioData on shutdown MediaFormatReader!");
+ return AudioDataPromise::CreateAndReject(NS_ERROR_DOM_MEDIA_CANCELED,
+ __func__);
+ }
+
+ RefPtr<AudioDataPromise> p = mAudio.EnsurePromise(__func__);
+ ScheduleUpdate(TrackInfo::kAudioTrack);
+
+ return p;
+}
+
+void MediaFormatReader::DoDemuxAudio() {
+ AUTO_PROFILER_LABEL("MediaFormatReader::DoDemuxAudio", MEDIA_PLAYBACK);
+ using SamplesPromise = MediaTrackDemuxer::SamplesPromise;
+
+ DDLOG(DDLogCategory::Log, "audio_demuxing", DDNoValue{});
+ PerformanceRecorder<PlaybackStage> perfRecorder(MediaStage::RequestDemux);
+ auto p = mAudio.mTrackDemuxer->GetSamples(1);
+
+ RefPtr<MediaFormatReader> self = this;
+ if (mAudio.mFirstDemuxedSampleTime.isNothing()) {
+ p = p->Then(
+ OwnerThread(), __func__,
+ [self](RefPtr<MediaTrackDemuxer::SamplesHolder> aSamples) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::DoDemuxAudio:Resolved",
+ MEDIA_PLAYBACK);
+ DDLOGEX(self.get(), DDLogCategory::Log, "audio_first_demuxed",
+ DDNoValue{});
+ self->OnFirstDemuxCompleted(TrackInfo::kAudioTrack, aSamples);
+ return SamplesPromise::CreateAndResolve(aSamples.forget(), __func__);
+ },
+ [self](const MediaResult& aError) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::DoDemuxAudio:Rejected",
+ MEDIA_PLAYBACK);
+ DDLOGEX(self.get(), DDLogCategory::Log, "audio_first_demuxing_error",
+ aError);
+ self->OnFirstDemuxFailed(TrackInfo::kAudioTrack, aError);
+ return SamplesPromise::CreateAndReject(aError, __func__);
+ });
+ }
+
+ p->Then(
+ OwnerThread(), __func__,
+ [self, perfRecorder(std::move(perfRecorder))](
+ RefPtr<MediaTrackDemuxer::SamplesHolder> aSamples) mutable {
+ perfRecorder.Record();
+ self->OnAudioDemuxCompleted(std::move(aSamples));
+ },
+ [self](const MediaResult& aError) { self->OnAudioDemuxFailed(aError); })
+ ->Track(mAudio.mDemuxRequest);
+}
+
+void MediaFormatReader::OnAudioDemuxCompleted(
+ RefPtr<MediaTrackDemuxer::SamplesHolder> aSamples) {
+ LOGV("%zu audio samples demuxed (sid:%d)", aSamples->GetSamples().Length(),
+ aSamples->GetSamples()[0]->mTrackInfo
+ ? aSamples->GetSamples()[0]->mTrackInfo->GetID()
+ : 0);
+ DDLOG(DDLogCategory::Log, "audio_demuxed_samples",
+ uint64_t(aSamples->GetSamples().Length()));
+ mAudio.mDemuxRequest.Complete();
+ mAudio.mQueuedSamples.AppendElements(aSamples->GetSamples());
+ ScheduleUpdate(TrackInfo::kAudioTrack);
+}
+
+void MediaFormatReader::NotifyNewOutput(
+ TrackType aTrack, MediaDataDecoder::DecodedData&& aResults) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::NotifyNewOutput", MEDIA_PLAYBACK);
+ MOZ_ASSERT(OnTaskQueue());
+ auto& decoder = GetDecoderData(aTrack);
+ if (aResults.IsEmpty()) {
+ DDLOG(DDLogCategory::Log,
+ aTrack == TrackInfo::kAudioTrack ? "decoded_audio" : "decoded_video",
+ "no output samples");
+ } else
+ for (auto&& sample : aResults) {
+ if (DecoderDoctorLogger::IsDDLoggingEnabled()) {
+ switch (sample->mType) {
+ case MediaData::Type::AUDIO_DATA:
+ DDLOGPR(DDLogCategory::Log,
+ aTrack == TrackInfo::kAudioTrack ? "decoded_audio"
+ : "decoded_got_audio!?",
+ "{\"type\":\"AudioData\", \"offset\":%" PRIi64
+ ", \"time_us\":%" PRIi64 ", \"timecode_us\":%" PRIi64
+ ", \"duration_us\":%" PRIi64 ", \"frames\":%" PRIu32
+ ", \"channels\":%" PRIu32 ", \"rate\":%" PRIu32
+ ", \"bytes\":%zu}",
+ sample->mOffset, sample->mTime.ToMicroseconds(),
+ sample->mTimecode.ToMicroseconds(),
+ sample->mDuration.ToMicroseconds(),
+ sample->As<AudioData>()->Frames(),
+ sample->As<AudioData>()->mChannels,
+ sample->As<AudioData>()->mRate,
+ sample->As<AudioData>()->Data().Length());
+ break;
+ case MediaData::Type::VIDEO_DATA:
+ DDLOGPR(DDLogCategory::Log,
+ aTrack == TrackInfo::kVideoTrack ? "decoded_video"
+ : "decoded_got_video!?",
+ "{\"type\":\"VideoData\", \"offset\":%" PRIi64
+ ", \"time_us\":%" PRIi64 ", \"timecode_us\":%" PRIi64
+ ", \"duration_us\":%" PRIi64
+ ", \"kf\":%s, \"size\":[%" PRIi32 ",%" PRIi32 "]}",
+ sample->mOffset, sample->mTime.ToMicroseconds(),
+ sample->mTimecode.ToMicroseconds(),
+ sample->mDuration.ToMicroseconds(),
+ sample->mKeyframe ? "true" : "false",
+ sample->As<VideoData>()->mDisplay.width,
+ sample->As<VideoData>()->mDisplay.height);
+ break;
+ case MediaData::Type::RAW_DATA:
+ DDLOGPR(DDLogCategory::Log,
+ aTrack == TrackInfo::kAudioTrack ? "decoded_audio"
+ : aTrack == TrackInfo::kVideoTrack ? "decoded_video"
+ : "decoded_?",
+ "{\"type\":\"RawData\", \"offset\":%" PRIi64
+ " \"time_us\":%" PRIi64 ", \"timecode_us\":%" PRIi64
+ ", \"duration_us\":%" PRIi64 ", \"kf\":%s}",
+ sample->mOffset, sample->mTime.ToMicroseconds(),
+ sample->mTimecode.ToMicroseconds(),
+ sample->mDuration.ToMicroseconds(),
+ sample->mKeyframe ? "true" : "false");
+ break;
+ case MediaData::Type::NULL_DATA:
+ DDLOGPR(DDLogCategory::Log,
+ aTrack == TrackInfo::kAudioTrack ? "decoded_audio"
+ : aTrack == TrackInfo::kVideoTrack ? "decoded_video"
+ : "decoded_?",
+ "{\"type\":\"NullData\", \"offset\":%" PRIi64
+ " \"time_us\":%" PRIi64 ", \"timecode_us\":%" PRIi64
+ ", \"duration_us\":%" PRIi64 ", \"kf\":%s}",
+ sample->mOffset, sample->mTime.ToMicroseconds(),
+ sample->mTimecode.ToMicroseconds(),
+ sample->mDuration.ToMicroseconds(),
+ sample->mKeyframe ? "true" : "false");
+ break;
+ }
+ }
+ LOGV("Received new %s sample time:%" PRId64 " duration:%" PRId64,
+ TrackTypeToStr(aTrack), sample->mTime.ToMicroseconds(),
+ sample->mDuration.ToMicroseconds());
+ decoder.mOutput.AppendElement(sample);
+ decoder.mNumSamplesOutput++;
+ decoder.mNumOfConsecutiveDecodingError = 0;
+ decoder.mNumOfConsecutiveRDDOrGPUCrashes = 0;
+ }
+ LOG("Done processing new %s samples", TrackTypeToStr(aTrack));
+
+ if (!aResults.IsEmpty()) {
+ // We have decoded our first frame, we can now starts to skip future errors.
+ decoder.mFirstFrameTime.reset();
+ }
+ ScheduleUpdate(aTrack);
+}
+
+void MediaFormatReader::NotifyError(TrackType aTrack,
+ const MediaResult& aError) {
+ MOZ_ASSERT(OnTaskQueue());
+ NS_WARNING(aError.Description().get());
+ LOGV("%s Decoding error", TrackTypeToStr(aTrack));
+ auto& decoder = GetDecoderData(aTrack);
+ decoder.mError = decoder.HasFatalError() ? decoder.mError : Some(aError);
+
+ ScheduleUpdate(aTrack);
+}
+
+void MediaFormatReader::NotifyWaitingForData(TrackType aTrack) {
+ MOZ_ASSERT(OnTaskQueue());
+ auto& decoder = GetDecoderData(aTrack);
+ decoder.mWaitingForData = true;
+ if (decoder.mTimeThreshold) {
+ decoder.mTimeThreshold.ref().mWaiting = true;
+ }
+ ScheduleUpdate(aTrack);
+}
+
+void MediaFormatReader::NotifyWaitingForKey(TrackType aTrack) {
+ MOZ_ASSERT(OnTaskQueue());
+ auto& decoder = GetDecoderData(aTrack);
+ mOnWaitingForKey.Notify();
+ if (!decoder.mDecodeRequest.Exists()) {
+ LOGV("WaitingForKey received while no pending decode. Ignoring");
+ return;
+ }
+ decoder.mWaitingForKey = true;
+ ScheduleUpdate(aTrack);
+}
+
+void MediaFormatReader::NotifyEndOfStream(TrackType aTrack) {
+ MOZ_ASSERT(OnTaskQueue());
+ auto& decoder = GetDecoderData(aTrack);
+ decoder.mDemuxEOS = true;
+ ScheduleUpdate(aTrack);
+}
+
+bool MediaFormatReader::NeedInput(DecoderData& aDecoder) {
+ // The decoder will not be fed a new raw sample until the current decoding
+ // requests has completed.
+ return (aDecoder.HasPromise() || aDecoder.mTimeThreshold.isSome()) &&
+ !aDecoder.HasPendingDrain() && !aDecoder.HasFatalError() &&
+ !aDecoder.mDemuxRequest.Exists() && !aDecoder.mOutput.Length() &&
+ !aDecoder.HasInternalSeekPending() &&
+ !aDecoder.mDecodeRequest.Exists();
+}
+
+void MediaFormatReader::ScheduleUpdate(TrackType aTrack) {
+ MOZ_ASSERT(OnTaskQueue());
+ if (mShutdown) {
+ return;
+ }
+ auto& decoder = GetDecoderData(aTrack);
+ MOZ_RELEASE_ASSERT(decoder.GetCurrentInfo(),
+ "Can only schedule update when track exists");
+
+ if (decoder.mUpdateScheduled) {
+ return;
+ }
+ LOGV("SchedulingUpdate(%s)", TrackTypeToStr(aTrack));
+ decoder.mUpdateScheduled = true;
+ RefPtr<nsIRunnable> task(NewRunnableMethod<TrackType>(
+ "MediaFormatReader::Update", this, &MediaFormatReader::Update, aTrack));
+ nsresult rv = OwnerThread()->Dispatch(task.forget());
+ MOZ_DIAGNOSTIC_ASSERT(NS_SUCCEEDED(rv));
+ Unused << rv;
+}
+
+bool MediaFormatReader::UpdateReceivedNewData(TrackType aTrack) {
+ MOZ_ASSERT(OnTaskQueue());
+ auto& decoder = GetDecoderData(aTrack);
+
+ if (!decoder.mReceivedNewData) {
+ return false;
+ }
+
+ // We do not want to clear mWaitingForData while there are pending
+ // demuxing or seeking operations that could affect the value of this flag.
+ // This is in order to ensure that we will retry once they complete as we may
+ // now have new data that could potentially allow those operations to
+ // successfully complete if tried again.
+ if (decoder.mSeekRequest.Exists()) {
+ // Nothing more to do until this operation complete.
+ return true;
+ }
+
+ if (aTrack == TrackType::kVideoTrack && mSkipRequest.Exists()) {
+ LOGV("Skipping in progress, nothing more to do");
+ return true;
+ }
+
+ if (decoder.mDemuxRequest.Exists()) {
+ // We may have pending operations to process, so we want to continue
+ // after UpdateReceivedNewData returns.
+ return false;
+ }
+
+ if (decoder.HasPendingDrain()) {
+ // We do not want to clear mWaitingForData or mDemuxEOS while
+ // a drain is in progress in order to properly complete the operation.
+ return false;
+ }
+
+ decoder.mReceivedNewData = false;
+ if (decoder.mTimeThreshold) {
+ decoder.mTimeThreshold.ref().mWaiting = false;
+ }
+ decoder.mWaitingForData = false;
+
+ if (decoder.HasFatalError()) {
+ return false;
+ }
+
+ if (!mSeekPromise.IsEmpty() &&
+ (!IsVideoOnlySeeking() || aTrack == TrackInfo::kVideoTrack)) {
+ MOZ_ASSERT(!decoder.HasPromise());
+ MOZ_DIAGNOSTIC_ASSERT(
+ (IsVideoOnlySeeking() || !mAudio.mTimeThreshold) &&
+ !mVideo.mTimeThreshold,
+ "InternalSeek must have been aborted when Seek was first called");
+ MOZ_DIAGNOSTIC_ASSERT(
+ (IsVideoOnlySeeking() || !mAudio.HasWaitingPromise()) &&
+ !mVideo.HasWaitingPromise(),
+ "Waiting promises must have been rejected when Seek was first called");
+ if (mVideo.mSeekRequest.Exists() ||
+ (!IsVideoOnlySeeking() && mAudio.mSeekRequest.Exists())) {
+ // Already waiting for a seek to complete. Nothing more to do.
+ return true;
+ }
+ LOG("Attempting Seek");
+ ScheduleSeek();
+ return true;
+ }
+ if (decoder.HasInternalSeekPending() || decoder.HasWaitingPromise()) {
+ if (decoder.HasInternalSeekPending()) {
+ LOG("Attempting Internal Seek");
+ InternalSeek(aTrack, decoder.mTimeThreshold.ref());
+ }
+ if (decoder.HasWaitingPromise() && !decoder.IsWaitingForKey() &&
+ !decoder.IsWaitingForData()) {
+ MOZ_ASSERT(!decoder.HasPromise());
+ LOG("We have new data. Resolving WaitingPromise");
+ decoder.mWaitingPromise.Resolve(decoder.mType, __func__);
+ }
+ return true;
+ }
+ return false;
+}
+
+void MediaFormatReader::RequestDemuxSamples(TrackType aTrack) {
+ MOZ_ASSERT(OnTaskQueue());
+ auto& decoder = GetDecoderData(aTrack);
+ MOZ_ASSERT(!decoder.mDemuxRequest.Exists());
+
+ if (!decoder.mQueuedSamples.IsEmpty()) {
+ // No need to demux new samples.
+ return;
+ }
+
+ if (decoder.mDemuxEOS) {
+ // Nothing left to demux.
+ // We do not want to attempt to demux while in waiting for data mode
+ // as it would retrigger an unnecessary drain.
+ return;
+ }
+
+ LOGV("Requesting extra demux %s", TrackTypeToStr(aTrack));
+ if (aTrack == TrackInfo::kVideoTrack) {
+ DoDemuxVideo();
+ } else {
+ DoDemuxAudio();
+ }
+}
+
+void MediaFormatReader::DecodeDemuxedSamples(TrackType aTrack,
+ MediaRawData* aSample) {
+ MOZ_ASSERT(OnTaskQueue());
+ auto& decoder = GetDecoderData(aTrack);
+ RefPtr<MediaFormatReader> self = this;
+ decoder.mFlushed = false;
+ DDLOGPR(DDLogCategory::Log,
+ aTrack == TrackInfo::kAudioTrack ? "decode_audio"
+ : aTrack == TrackInfo::kVideoTrack ? "decode_video"
+ : "decode_?",
+ "{\"type\":\"MediaRawData\", \"offset\":%" PRIi64
+ ", \"bytes\":%zu, \"time_us\":%" PRIi64 ", \"timecode_us\":%" PRIi64
+ ", \"duration_us\":%" PRIi64 ",%s%s}",
+ aSample->mOffset, aSample->Size(), aSample->mTime.ToMicroseconds(),
+ aSample->mTimecode.ToMicroseconds(),
+ aSample->mDuration.ToMicroseconds(), aSample->mKeyframe ? " kf" : "",
+ aSample->mEOS ? " eos" : "");
+
+ const int32_t height =
+ aTrack == TrackInfo::kVideoTrack
+ ? decoder.GetCurrentInfo()->GetAsVideoInfo()->mImage.height
+ : 0;
+ MediaInfoFlag flag = MediaInfoFlag::None;
+ flag |=
+ aSample->mKeyframe ? MediaInfoFlag::KeyFrame : MediaInfoFlag::NonKeyFrame;
+ if (aTrack == TrackInfo::kVideoTrack) {
+ flag |= VideoIsHardwareAccelerated() ? MediaInfoFlag::HardwareDecoding
+ : MediaInfoFlag::SoftwareDecoding;
+ const nsCString& mimeType = decoder.GetCurrentInfo()->mMimeType;
+ if (MP4Decoder::IsH264(mimeType)) {
+ flag |= MediaInfoFlag::VIDEO_H264;
+ } else if (VPXDecoder::IsVPX(mimeType, VPXDecoder::VP8)) {
+ flag |= MediaInfoFlag::VIDEO_VP8;
+ } else if (VPXDecoder::IsVPX(mimeType, VPXDecoder::VP9)) {
+ flag |= MediaInfoFlag::VIDEO_VP9;
+ }
+#ifdef MOZ_AV1
+ else if (AOMDecoder::IsAV1(mimeType)) {
+ flag |= MediaInfoFlag::VIDEO_AV1;
+ }
+#endif
+ }
+ PerformanceRecorder<PlaybackStage> perfRecorder(MediaStage::RequestDecode,
+ height, flag);
+ decoder.mDecoder->Decode(aSample)
+ ->Then(
+ mTaskQueue, __func__,
+ [self, aTrack, &decoder, perfRecorder(std::move(perfRecorder))](
+ MediaDataDecoder::DecodedData&& aResults) mutable {
+ perfRecorder.Record();
+ decoder.mDecodeRequest.Complete();
+ self->NotifyNewOutput(aTrack, std::move(aResults));
+ },
+ [self, aTrack, &decoder](const MediaResult& aError) {
+ decoder.mDecodeRequest.Complete();
+ self->NotifyError(aTrack, aError);
+ })
+ ->Track(decoder.mDecodeRequest);
+}
+
+void MediaFormatReader::HandleDemuxedSamples(
+ TrackType aTrack, FrameStatistics::AutoNotifyDecoded& aA) {
+ MOZ_ASSERT(OnTaskQueue());
+
+ auto& decoder = GetDecoderData(aTrack);
+
+ if (decoder.mFlushing) {
+ LOGV("Decoder operation in progress, let it complete.");
+ return;
+ }
+
+ if (decoder.mQueuedSamples.IsEmpty()) {
+ return;
+ }
+
+ RefPtr<MediaRawData> sample = decoder.mQueuedSamples[0];
+ const RefPtr<TrackInfoSharedPtr> info = sample->mTrackInfo;
+
+ if (info && decoder.mLastStreamSourceID != info->GetID()) {
+ nsTArray<RefPtr<MediaRawData>> samples;
+ if (decoder.mDecoder) {
+ bool recyclable =
+ StaticPrefs::media_decoder_recycle_enabled() &&
+ decoder.mDecoder->SupportDecoderRecycling() &&
+ (*info)->mCrypto.mCryptoScheme ==
+ decoder.GetCurrentInfo()->mCrypto.mCryptoScheme &&
+ (*info)->mMimeType == decoder.GetCurrentInfo()->mMimeType;
+ if (!recyclable && decoder.mTimeThreshold.isNothing() &&
+ (decoder.mNextStreamSourceID.isNothing() ||
+ decoder.mNextStreamSourceID.ref() != info->GetID())) {
+ LOG("%s stream id has changed from:%d to:%d, draining decoder.",
+ TrackTypeToStr(aTrack), decoder.mLastStreamSourceID, info->GetID());
+ decoder.RequestDrain();
+ decoder.mNextStreamSourceID = Some(info->GetID());
+ ScheduleUpdate(aTrack);
+ return;
+ }
+
+ // If flushing is required, it will clear our array of queued samples.
+ // So we may need to make a copy.
+ samples = decoder.mQueuedSamples.Clone();
+ if (!recyclable) {
+ LOG("Decoder does not support recycling, recreate decoder.");
+ ShutdownDecoder(aTrack);
+ // We're going to be using a new decoder following the change of content
+ // We can attempt to use hardware decoding again.
+ decoder.mHardwareDecodingDisabled = false;
+ } else if (decoder.HasWaitingPromise()) {
+ decoder.Flush();
+ }
+ }
+
+ nsPrintfCString markerString(
+ "%s stream id changed from:%" PRIu32 " to:%" PRIu32,
+ TrackTypeToStr(aTrack), decoder.mLastStreamSourceID, info->GetID());
+ PROFILER_MARKER_TEXT("StreamID Change", MEDIA_PLAYBACK, {}, markerString);
+ LOG("%s", markerString.get());
+
+ if (aTrack == TrackInfo::kVideoTrack) {
+ // We are about to create a new decoder thus the benchmark,
+ // up to this point, is stored.
+ NotifyDecoderBenchmarkStore();
+ }
+ decoder.mNextStreamSourceID.reset();
+ decoder.mLastStreamSourceID = info->GetID();
+ decoder.mInfo = info;
+ {
+ MutexAutoLock lock(decoder.mMutex);
+ if (aTrack == TrackInfo::kAudioTrack) {
+ decoder.mWorkingInfo = MakeUnique<AudioInfo>(*info->GetAsAudioInfo());
+ } else if (aTrack == TrackInfo::kVideoTrack) {
+ decoder.mWorkingInfo = MakeUnique<VideoInfo>(*info->GetAsVideoInfo());
+ }
+ mWorkingInfoChanged = true;
+ }
+
+ decoder.mMeanRate.Reset();
+
+ if (sample->mKeyframe) {
+ if (samples.Length()) {
+ decoder.mQueuedSamples = std::move(samples);
+ }
+ } else {
+ auto time = TimeInterval(sample->mTime, sample->GetEndTime());
+ InternalSeekTarget seekTarget =
+ decoder.mTimeThreshold.refOr(InternalSeekTarget(time, false));
+ LOG("Stream change occurred on a non-keyframe. Seeking to:%" PRId64,
+ sample->mTime.ToMicroseconds());
+ InternalSeek(aTrack, seekTarget);
+ return;
+ }
+ }
+
+ // Calculate the average frame rate. The first frame will be accounted
+ // for twice.
+ decoder.mMeanRate.Update(sample->mDuration);
+
+ if (!decoder.mDecoder) {
+ mDecoderFactory->CreateDecoder(aTrack);
+ return;
+ }
+
+ LOGV("Input:%" PRId64 " (dts:%" PRId64 " kf:%d)",
+ sample->mTime.ToMicroseconds(), sample->mTimecode.ToMicroseconds(),
+ sample->mKeyframe);
+ decoder.mNumSamplesInput++;
+ decoder.mSizeOfQueue++;
+ if (aTrack == TrackInfo::kVideoTrack) {
+ aA.mStats.mParsedFrames++;
+ }
+
+ DecodeDemuxedSamples(aTrack, sample);
+
+ decoder.mQueuedSamples.RemoveElementAt(0);
+}
+
+media::TimeUnit MediaFormatReader::GetInternalSeekTargetEndTime() const {
+ MOZ_ASSERT(OnTaskQueue());
+ return mVideo.mTimeThreshold ? mVideo.mTimeThreshold->EndTime()
+ : TimeUnit::FromInfinity();
+}
+
+void MediaFormatReader::InternalSeek(TrackType aTrack,
+ const InternalSeekTarget& aTarget) {
+ MOZ_ASSERT(OnTaskQueue());
+ LOG("%s internal seek to %f", TrackTypeToStr(aTrack),
+ aTarget.Time().ToSeconds());
+
+ auto& decoder = GetDecoderData(aTrack);
+ decoder.Flush();
+ decoder.ResetDemuxer();
+ decoder.mTimeThreshold = Some(aTarget);
+ DDLOG(DDLogCategory::Log, "seeking", DDNoValue{});
+ RefPtr<MediaFormatReader> self = this;
+ decoder.mTrackDemuxer->Seek(decoder.mTimeThreshold.ref().Time())
+ ->Then(
+ OwnerThread(), __func__,
+ [self, aTrack](TimeUnit aTime) {
+ DDLOGEX(self.get(), DDLogCategory::Log, "seeked", DDNoValue{});
+ auto& decoder = self->GetDecoderData(aTrack);
+ decoder.mSeekRequest.Complete();
+ MOZ_ASSERT(decoder.mTimeThreshold,
+ "Seek promise must be disconnected when "
+ "timethreshold is reset");
+ decoder.mTimeThreshold.ref().mHasSeeked = true;
+ self->SetVideoDecodeThreshold();
+ self->ScheduleUpdate(aTrack);
+ },
+ [self, aTrack](const MediaResult& aError) {
+ auto& decoder = self->GetDecoderData(aTrack);
+ decoder.mSeekRequest.Complete();
+ switch (aError.Code()) {
+ case NS_ERROR_DOM_MEDIA_WAITING_FOR_DATA:
+ DDLOGEX(self.get(), DDLogCategory::Log, "seeking_interrupted",
+ aError);
+ self->NotifyWaitingForData(aTrack);
+ break;
+ case NS_ERROR_DOM_MEDIA_END_OF_STREAM:
+ DDLOGEX(self.get(), DDLogCategory::Log, "seeking_interrupted",
+ aError);
+ decoder.mTimeThreshold.reset();
+ self->NotifyEndOfStream(aTrack);
+ break;
+ case NS_ERROR_DOM_MEDIA_CANCELED:
+ DDLOGEX(self.get(), DDLogCategory::Log, "seeking_interrupted",
+ aError);
+ decoder.mTimeThreshold.reset();
+ break;
+ default:
+ DDLOGEX(self.get(), DDLogCategory::Log, "seeking_error",
+ aError);
+ decoder.mTimeThreshold.reset();
+ self->NotifyError(aTrack, aError);
+ break;
+ }
+ })
+ ->Track(decoder.mSeekRequest);
+}
+
+void MediaFormatReader::DrainDecoder(TrackType aTrack) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::DrainDecoder", MEDIA_PLAYBACK);
+ MOZ_ASSERT(OnTaskQueue());
+
+ auto& decoder = GetDecoderData(aTrack);
+ if (decoder.mDrainState == DrainState::Draining) {
+ return;
+ }
+ if (!decoder.mDecoder ||
+ (decoder.mDrainState != DrainState::PartialDrainPending &&
+ decoder.mNumSamplesInput == decoder.mNumSamplesOutput)) {
+ // No frames to drain.
+ LOGV("Draining %s with nothing to drain", TrackTypeToStr(aTrack));
+ decoder.mDrainState = DrainState::DrainAborted;
+ ScheduleUpdate(aTrack);
+ return;
+ }
+
+ decoder.mDrainState = DrainState::Draining;
+
+ DDLOG(DDLogCategory::Log, "draining", DDNoValue{});
+ RefPtr<MediaFormatReader> self = this;
+ decoder.mDecoder->Drain()
+ ->Then(
+ mTaskQueue, __func__,
+ [self, aTrack, &decoder](MediaDataDecoder::DecodedData&& aResults) {
+ decoder.mDrainRequest.Complete();
+ DDLOGEX(self.get(), DDLogCategory::Log, "drained", DDNoValue{});
+ if (aResults.IsEmpty()) {
+ decoder.mDrainState = DrainState::DrainCompleted;
+ } else {
+ self->NotifyNewOutput(aTrack, std::move(aResults));
+ // Let's see if we have any more data available to drain.
+ decoder.mDrainState = DrainState::PartialDrainPending;
+ }
+ self->ScheduleUpdate(aTrack);
+ },
+ [self, aTrack, &decoder](const MediaResult& aError) {
+ decoder.mDrainRequest.Complete();
+ DDLOGEX(self.get(), DDLogCategory::Log, "draining_error", aError);
+ self->NotifyError(aTrack, aError);
+ })
+ ->Track(decoder.mDrainRequest);
+ LOG("Requesting %s decoder to drain", TrackTypeToStr(aTrack));
+}
+
+void MediaFormatReader::Update(TrackType aTrack) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::Update", MEDIA_PLAYBACK);
+ MOZ_ASSERT(OnTaskQueue());
+
+ if (mShutdown) {
+ return;
+ }
+
+ LOGV("Processing update for %s", TrackTypeToStr(aTrack));
+
+ bool needOutput = false;
+ auto& decoder = GetDecoderData(aTrack);
+ decoder.mUpdateScheduled = false;
+
+ if (!mInitDone) {
+ return;
+ }
+
+ if (aTrack == TrackType::kVideoTrack && mSkipRequest.Exists()) {
+ LOGV("Skipping in progress, nothing more to do");
+ return;
+ }
+
+ if (UpdateReceivedNewData(aTrack)) {
+ LOGV("Nothing more to do");
+ return;
+ }
+
+ if (decoder.mSeekRequest.Exists()) {
+ LOGV("Seeking hasn't completed, nothing more to do");
+ return;
+ }
+
+ MOZ_DIAGNOSTIC_ASSERT(
+ !decoder.HasInternalSeekPending() ||
+ (!decoder.mOutput.Length() && !decoder.mQueuedSamples.Length()),
+ "No frames can be demuxed or decoded while an internal seek is pending");
+
+ // Record number of frames decoded and parsed. Automatically update the
+ // stats counters using the AutoNotifyDecoded stack-based class.
+ FrameStatistics::AutoNotifyDecoded a(mFrameStats);
+
+ // Drop any frames found prior our internal seek target.
+ while (decoder.mTimeThreshold && decoder.mOutput.Length()) {
+ RefPtr<MediaData>& output = decoder.mOutput[0];
+ InternalSeekTarget target = decoder.mTimeThreshold.ref();
+ auto time = output->mTime;
+ if (time >= target.Time()) {
+ // We have reached our internal seek target.
+ decoder.mTimeThreshold.reset();
+ // We might have dropped some keyframes.
+ mPreviousDecodedKeyframeTime_us = sNoPreviousDecodedKeyframe;
+ }
+ if (time < target.Time() || (target.mDropTarget && target.Contains(time))) {
+ LOGV("Internal Seeking: Dropping %s frame time:%f wanted:%f (kf:%d)",
+ TrackTypeToStr(aTrack), output->mTime.ToSeconds(),
+ target.Time().ToSeconds(), output->mKeyframe);
+ decoder.mOutput.RemoveElementAt(0);
+ decoder.mSizeOfQueue -= 1;
+ }
+ }
+
+ while (decoder.mOutput.Length() &&
+ decoder.mOutput[0]->mType == MediaData::Type::NULL_DATA) {
+ LOGV("Dropping null data. Time: %" PRId64,
+ decoder.mOutput[0]->mTime.ToMicroseconds());
+ decoder.mOutput.RemoveElementAt(0);
+ decoder.mSizeOfQueue -= 1;
+ }
+
+ if (decoder.HasPromise()) {
+ needOutput = true;
+ if (decoder.mOutput.Length()) {
+ RefPtr<MediaData> output = decoder.mOutput[0];
+ decoder.mOutput.RemoveElementAt(0);
+ decoder.mSizeOfQueue -= 1;
+ decoder.mLastDecodedSampleTime =
+ Some(TimeInterval(output->mTime, output->GetEndTime()));
+ decoder.mNumSamplesOutputTotal++;
+ ReturnOutput(output, aTrack);
+ // We have a decoded sample ready to be returned.
+ if (aTrack == TrackType::kVideoTrack) {
+ uint64_t delta =
+ decoder.mNumSamplesOutputTotal - mLastReportedNumDecodedFrames;
+ a.mStats.mDecodedFrames = static_cast<uint32_t>(delta);
+ mLastReportedNumDecodedFrames = decoder.mNumSamplesOutputTotal;
+ if (output->mKeyframe) {
+ if (mPreviousDecodedKeyframeTime_us <
+ output->mTime.ToMicroseconds()) {
+ // There is a previous keyframe -> Record inter-keyframe stats.
+ uint64_t segment_us = output->mTime.ToMicroseconds() -
+ mPreviousDecodedKeyframeTime_us;
+ a.mStats.mInterKeyframeSum_us += segment_us;
+ a.mStats.mInterKeyframeCount += 1;
+ if (a.mStats.mInterKeyFrameMax_us < segment_us) {
+ a.mStats.mInterKeyFrameMax_us = segment_us;
+ }
+ }
+ mPreviousDecodedKeyframeTime_us = output->mTime.ToMicroseconds();
+ }
+ bool wasHardwareAccelerated = mVideo.mIsHardwareAccelerated;
+ nsCString error;
+ mVideo.mIsHardwareAccelerated =
+ mVideo.mDecoder && mVideo.mDecoder->IsHardwareAccelerated(error);
+ VideoData* videoData = output->As<VideoData>();
+ if (!mVideo.mHasReportedVideoHardwareSupportTelemtry ||
+ wasHardwareAccelerated != mVideo.mIsHardwareAccelerated) {
+ mVideo.mHasReportedVideoHardwareSupportTelemtry = true;
+ Telemetry::ScalarSet(
+ Telemetry::ScalarID::MEDIA_VIDEO_HARDWARE_DECODING_SUPPORT,
+ NS_ConvertUTF8toUTF16(mVideo.GetCurrentInfo()->mMimeType),
+ !!mVideo.mIsHardwareAccelerated);
+ static constexpr gfx::IntSize HD_VIDEO_SIZE{1280, 720};
+ if (videoData->mDisplay.width >= HD_VIDEO_SIZE.Width() &&
+ videoData->mDisplay.height >= HD_VIDEO_SIZE.Height()) {
+ Telemetry::ScalarSet(
+ Telemetry::ScalarID::MEDIA_VIDEO_HD_HARDWARE_DECODING_SUPPORT,
+ NS_ConvertUTF8toUTF16(mVideo.GetCurrentInfo()->mMimeType),
+ !!mVideo.mIsHardwareAccelerated);
+ }
+ }
+#ifdef XP_WIN
+ // D3D11_YCBCR_IMAGE images are GPU based, we try to limit the amount
+ // of GPU RAM used.
+ mVideo.mIsHardwareAccelerated =
+ mVideo.mIsHardwareAccelerated ||
+ (videoData->mImage &&
+ videoData->mImage->GetFormat() == ImageFormat::D3D11_YCBCR_IMAGE);
+#endif
+ }
+ } else if (decoder.HasFatalError()) {
+ nsCString mimeType = decoder.GetCurrentInfo()->mMimeType;
+ if (!mimeType.IsEmpty()) {
+ Telemetry::ScalarAdd(
+ Telemetry::ScalarID::MEDIA_DECODE_ERROR_PER_MIME_TYPE,
+ NS_ConvertUTF8toUTF16(mimeType), 1 /* error count */);
+ }
+ LOG("Rejecting %s promise for %s : DECODE_ERROR", TrackTypeToStr(aTrack),
+ mimeType.get());
+ decoder.RejectPromise(decoder.mError.ref(), __func__);
+ return;
+ } else if (decoder.HasCompletedDrain()) {
+ if (decoder.mDemuxEOS) {
+ LOG("Rejecting %s promise: EOS", TrackTypeToStr(aTrack));
+ if (aTrack == TrackInfo::kVideoTrack) {
+ // End of video, store the benchmark of the decoder.
+ NotifyDecoderBenchmarkStore();
+ }
+ decoder.RejectPromise(NS_ERROR_DOM_MEDIA_END_OF_STREAM, __func__);
+ } else if (decoder.mWaitingForData) {
+ if (decoder.mDrainState == DrainState::DrainCompleted &&
+ decoder.mLastDecodedSampleTime && !decoder.mNextStreamSourceID) {
+ // We have completed draining the decoder following WaitingForData.
+ // Set up the internal seek machinery to be able to resume from the
+ // last sample decoded.
+ LOG("Seeking to last sample time: %" PRId64,
+ decoder.mLastDecodedSampleTime.ref().mStart.ToMicroseconds());
+ InternalSeek(aTrack, InternalSeekTarget(
+ decoder.mLastDecodedSampleTime.ref(), true));
+ }
+ if (!decoder.mReceivedNewData) {
+ LOG("Rejecting %s promise: WAITING_FOR_DATA", TrackTypeToStr(aTrack));
+ decoder.RejectPromise(NS_ERROR_DOM_MEDIA_WAITING_FOR_DATA, __func__);
+ }
+ }
+
+ decoder.mDrainState = DrainState::None;
+
+ // Now that draining has completed, we check if we have received
+ // new data again as the result may now be different from the earlier
+ // run.
+ if (UpdateReceivedNewData(aTrack) || decoder.mSeekRequest.Exists()) {
+ LOGV("Nothing more to do");
+ return;
+ }
+ } else if (decoder.mDemuxEOS && !decoder.HasPendingDrain() &&
+ decoder.mQueuedSamples.IsEmpty()) {
+ // It is possible to transition from WAITING_FOR_DATA directly to EOS
+ // state during the internal seek; in which case no draining would occur.
+ // There is no more samples left to be decoded and we are already in
+ // EOS state. We can immediately reject the data promise.
+ LOG("Rejecting %s promise: EOS", TrackTypeToStr(aTrack));
+ decoder.RejectPromise(NS_ERROR_DOM_MEDIA_END_OF_STREAM, __func__);
+ } else if (decoder.mWaitingForKey) {
+ LOG("Rejecting %s promise: WAITING_FOR_DATA due to waiting for key",
+ TrackTypeToStr(aTrack));
+ decoder.RejectPromise(NS_ERROR_DOM_MEDIA_WAITING_FOR_DATA, __func__);
+ } else if (IsDecoderWaitingForCDM(aTrack)) {
+ // Rejecting the promise could lead to entering buffering state for MDSM,
+ // once a qualified(with the same key system and sessions created by the
+ // same InitData) new cdm proxy is set, decoding can be resumed.
+ LOG("Rejecting %s promise: WAITING_FOR_DATA due to waiting for CDM",
+ TrackTypeToStr(aTrack));
+ decoder.RejectPromise(NS_ERROR_DOM_MEDIA_WAITING_FOR_DATA, __func__);
+ }
+ }
+
+ if (decoder.mDrainState == DrainState::DrainRequested ||
+ decoder.mDrainState == DrainState::PartialDrainPending) {
+ if (decoder.mOutput.IsEmpty()) {
+ DrainDecoder(aTrack);
+ }
+ return;
+ }
+
+ if (decoder.mError && !decoder.HasFatalError()) {
+ MOZ_RELEASE_ASSERT(!decoder.HasInternalSeekPending(),
+ "No error can occur while an internal seek is pending");
+
+ nsCString error;
+ bool firstFrameDecodingFailedWithHardware =
+ decoder.mFirstFrameTime &&
+ decoder.mError.ref() == NS_ERROR_DOM_MEDIA_DECODE_ERR &&
+ decoder.mDecoder && decoder.mDecoder->IsHardwareAccelerated(error) &&
+ !decoder.mHardwareDecodingDisabled;
+ bool needsNewDecoder =
+ decoder.mError.ref() == NS_ERROR_DOM_MEDIA_NEED_NEW_DECODER ||
+ firstFrameDecodingFailedWithHardware;
+ // Limit number of RDD process restarts after crash
+ // Restart Utility without any limit after crash
+ if ((decoder.mError.ref() ==
+ NS_ERROR_DOM_MEDIA_REMOTE_DECODER_CRASHED_RDD_OR_GPU_ERR &&
+ decoder.mNumOfConsecutiveRDDOrGPUCrashes++ <
+ decoder.mMaxConsecutiveRDDOrGPUCrashes) ||
+ (decoder.mError.ref() ==
+ NS_ERROR_DOM_MEDIA_REMOTE_DECODER_CRASHED_UTILITY_ERR)) {
+ needsNewDecoder = true;
+ }
+#ifdef XP_LINUX
+ // We failed to decode on Linux with HW decoder,
+ // give it another try without HW decoder.
+ if (decoder.mError.ref() == NS_ERROR_DOM_MEDIA_DECODE_ERR &&
+ decoder.mDecoder->IsHardwareAccelerated(error)) {
+ LOG("Error: %s decode error, disable HW acceleration",
+ TrackTypeToStr(aTrack));
+ needsNewDecoder = true;
+ decoder.mHardwareDecodingDisabled = true;
+ }
+ // RDD process crashed on Linux, give it another try without HW decoder.
+ if (decoder.mError.ref() ==
+ NS_ERROR_DOM_MEDIA_REMOTE_DECODER_CRASHED_RDD_OR_GPU_ERR) {
+ LOG("Error: %s remote decoder crashed, disable HW acceleration",
+ TrackTypeToStr(aTrack));
+ decoder.mHardwareDecodingDisabled = true;
+ }
+#endif
+ // We don't want to expose crash error so switch to
+ // NS_ERROR_DOM_MEDIA_DECODE_ERR.
+ if (decoder.mError.ref() ==
+ NS_ERROR_DOM_MEDIA_REMOTE_DECODER_CRASHED_RDD_OR_GPU_ERR ||
+ decoder.mError.ref() ==
+ NS_ERROR_DOM_MEDIA_REMOTE_DECODER_CRASHED_UTILITY_ERR) {
+ decoder.mError = Some(MediaResult(NS_ERROR_DOM_MEDIA_DECODE_ERR,
+ RESULT_DETAIL("Unable to decode")));
+ }
+ if (!needsNewDecoder && ++decoder.mNumOfConsecutiveDecodingError >
+ decoder.mMaxConsecutiveDecodingError) {
+ DDLOG(DDLogCategory::Log, "too_many_decode_errors", decoder.mError.ref());
+ NotifyError(aTrack, decoder.mError.ref());
+ return;
+ }
+ if (firstFrameDecodingFailedWithHardware) {
+ decoder.mHardwareDecodingDisabled = true;
+ }
+ decoder.mError.reset();
+
+ LOG("%s decoded error count %d RDD crashes count %d",
+ TrackTypeToStr(aTrack), decoder.mNumOfConsecutiveDecodingError,
+ decoder.mNumOfConsecutiveRDDOrGPUCrashes);
+
+ if (needsNewDecoder) {
+ LOG("Error: %s needs a new decoder", TrackTypeToStr(aTrack));
+ ShutdownDecoder(aTrack);
+ }
+ if (decoder.mFirstFrameTime) {
+ TimeInterval seekInterval = TimeInterval(decoder.mFirstFrameTime.ref(),
+ decoder.mFirstFrameTime.ref());
+ InternalSeek(aTrack, InternalSeekTarget(seekInterval, false));
+ return;
+ }
+
+ TimeUnit nextKeyframe;
+ if (aTrack == TrackType::kVideoTrack &&
+ NS_SUCCEEDED(
+ decoder.mTrackDemuxer->GetNextRandomAccessPoint(&nextKeyframe)) &&
+ !nextKeyframe.IsInfinite()) {
+ SkipVideoDemuxToNextKeyFrame(
+ decoder.mLastDecodedSampleTime.refOr(TimeInterval()).Length());
+ } else if (aTrack == TrackType::kAudioTrack) {
+ decoder.Flush();
+ } else {
+ DDLOG(DDLogCategory::Log, "no_keyframe", NS_ERROR_DOM_MEDIA_FATAL_ERR);
+ // We can't recover from this error.
+ NotifyError(aTrack, NS_ERROR_DOM_MEDIA_FATAL_ERR);
+ }
+ return;
+ }
+
+ bool needInput = NeedInput(decoder);
+
+ LOGV("Update(%s) ni=%d no=%d in:%" PRIu64 " out:%" PRIu64
+ " qs=%u decoding:%d flushing:%d desc:%s pending:%u waiting:%d eos:%d "
+ "ds:%d sid:%u waitcdm:%d",
+ TrackTypeToStr(aTrack), needInput, needOutput, decoder.mNumSamplesInput,
+ decoder.mNumSamplesOutput, uint32_t(size_t(decoder.mSizeOfQueue)),
+ decoder.mDecodeRequest.Exists(), decoder.mFlushing,
+ decoder.mDescription.get(), uint32_t(decoder.mOutput.Length()),
+ decoder.mWaitingForData, decoder.mDemuxEOS, int32_t(decoder.mDrainState),
+ decoder.mLastStreamSourceID, IsDecoderWaitingForCDM(aTrack));
+
+ if (IsWaitingOnCDMResource() || !ResolveSetCDMPromiseIfDone(aTrack)) {
+ // If the content is encrypted, MFR won't start to create decoder until
+ // CDMProxy is set.
+ return;
+ }
+
+ if ((decoder.IsWaitingForData() &&
+ (!decoder.mTimeThreshold || decoder.mTimeThreshold.ref().mWaiting)) ||
+ (decoder.IsWaitingForKey())) {
+ // Nothing more we can do at present.
+ LOGV("Still waiting for data or key. data(%d)/key(%d)",
+ decoder.mWaitingForData, decoder.mWaitingForKey);
+ return;
+ }
+
+ if (decoder.CancelWaitingForKey()) {
+ LOGV("No longer waiting for key. Resolving waiting promise");
+ return;
+ }
+
+ if (!needInput) {
+ LOGV("No need for additional input (pending:%u)",
+ uint32_t(decoder.mOutput.Length()));
+ return;
+ }
+
+ // Demux samples if we don't have some.
+ RequestDemuxSamples(aTrack);
+
+ HandleDemuxedSamples(aTrack, a);
+}
+
+void MediaFormatReader::ReturnOutput(MediaData* aData, TrackType aTrack) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::ReturnOutput", MEDIA_PLAYBACK);
+ MOZ_ASSERT(GetDecoderData(aTrack).HasPromise());
+ MOZ_DIAGNOSTIC_ASSERT(aData->mType != MediaData::Type::NULL_DATA);
+ LOG("Resolved data promise for %s [%" PRId64 ", %" PRId64 "]",
+ TrackTypeToStr(aTrack), aData->mTime.ToMicroseconds(),
+ aData->GetEndTime().ToMicroseconds());
+
+ if (aTrack == TrackInfo::kAudioTrack) {
+ AudioData* audioData = aData->As<AudioData>();
+
+ if (audioData->mChannels != mInfo.mAudio.mChannels ||
+ audioData->mRate != mInfo.mAudio.mRate) {
+ LOG("change of audio format (rate:%d->%d). "
+ "This is an unsupported configuration",
+ mInfo.mAudio.mRate, audioData->mRate);
+ mInfo.mAudio.mRate = audioData->mRate;
+ mInfo.mAudio.mChannels = audioData->mChannels;
+ MutexAutoLock lock(mAudio.mMutex);
+ mAudio.mWorkingInfo->GetAsAudioInfo()->mRate = audioData->mRate;
+ mAudio.mWorkingInfo->GetAsAudioInfo()->mChannels = audioData->mChannels;
+ mWorkingInfoChanged = true;
+ }
+ mAudio.ResolvePromise(audioData, __func__);
+ } else if (aTrack == TrackInfo::kVideoTrack) {
+ VideoData* videoData = aData->As<VideoData>();
+
+ if (videoData->mDisplay != mInfo.mVideo.mDisplay) {
+ LOG("change of video display size (%dx%d->%dx%d)",
+ mInfo.mVideo.mDisplay.width, mInfo.mVideo.mDisplay.height,
+ videoData->mDisplay.width, videoData->mDisplay.height);
+ mInfo.mVideo.mDisplay = videoData->mDisplay;
+ MutexAutoLock lock(mVideo.mMutex);
+ mVideo.mWorkingInfo->GetAsVideoInfo()->mDisplay = videoData->mDisplay;
+ mWorkingInfoChanged = true;
+ }
+
+ mozilla::gfx::ColorDepth colorDepth = videoData->GetColorDepth();
+ if (colorDepth != mInfo.mVideo.mColorDepth) {
+ LOG("change of video color depth (enum %u -> enum %u)",
+ (unsigned)mInfo.mVideo.mColorDepth, (unsigned)colorDepth);
+ mInfo.mVideo.mColorDepth = colorDepth;
+ MutexAutoLock lock(mVideo.mMutex);
+ mVideo.mWorkingInfo->GetAsVideoInfo()->mColorDepth = colorDepth;
+ mWorkingInfoChanged = true;
+ }
+
+ TimeUnit nextKeyframe;
+ if (!mVideo.HasInternalSeekPending() &&
+ NS_SUCCEEDED(
+ mVideo.mTrackDemuxer->GetNextRandomAccessPoint(&nextKeyframe))) {
+ videoData->SetNextKeyFrameTime(nextKeyframe);
+ }
+
+ mVideo.ResolvePromise(videoData, __func__);
+ }
+}
+
+size_t MediaFormatReader::SizeOfVideoQueueInFrames() {
+ return SizeOfQueue(TrackInfo::kVideoTrack);
+}
+
+size_t MediaFormatReader::SizeOfAudioQueueInFrames() {
+ return SizeOfQueue(TrackInfo::kAudioTrack);
+}
+
+size_t MediaFormatReader::SizeOfQueue(TrackType aTrack) {
+ auto& decoder = GetDecoderData(aTrack);
+ return decoder.mSizeOfQueue;
+}
+
+RefPtr<MediaFormatReader::WaitForDataPromise> MediaFormatReader::WaitForData(
+ MediaData::Type aType) {
+ MOZ_ASSERT(OnTaskQueue());
+ TrackType trackType = aType == MediaData::Type::VIDEO_DATA
+ ? TrackType::kVideoTrack
+ : TrackType::kAudioTrack;
+ auto& decoder = GetDecoderData(trackType);
+ if (!decoder.IsWaitingForData() && !decoder.IsWaitingForKey()) {
+ // We aren't waiting for anything.
+ return WaitForDataPromise::CreateAndResolve(decoder.mType, __func__);
+ }
+ RefPtr<WaitForDataPromise> p = decoder.mWaitingPromise.Ensure(__func__);
+ ScheduleUpdate(trackType);
+ return p;
+}
+
+nsresult MediaFormatReader::ResetDecode(TrackSet aTracks) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::ResetDecode", MEDIA_PLAYBACK);
+ MOZ_ASSERT(OnTaskQueue());
+ LOGV("");
+
+ mSeekPromise.RejectIfExists(NS_OK, __func__);
+ mSkipRequest.DisconnectIfExists();
+
+ // Do the same for any data wait promises.
+ if (aTracks.contains(TrackInfo::kAudioTrack)) {
+ mAudio.mWaitingPromise.RejectIfExists(
+ WaitForDataRejectValue(MediaData::Type::AUDIO_DATA,
+ WaitForDataRejectValue::CANCELED),
+ __func__);
+ }
+
+ if (aTracks.contains(TrackInfo::kVideoTrack)) {
+ mVideo.mWaitingPromise.RejectIfExists(
+ WaitForDataRejectValue(MediaData::Type::VIDEO_DATA,
+ WaitForDataRejectValue::CANCELED),
+ __func__);
+ }
+
+ // Reset miscellaneous seeking state.
+ mPendingSeekTime.reset();
+
+ if (HasVideo() && aTracks.contains(TrackInfo::kVideoTrack)) {
+ mVideo.ResetDemuxer();
+ mVideo.mFirstFrameTime = Some(media::TimeUnit::Zero());
+ Reset(TrackInfo::kVideoTrack);
+ if (mVideo.HasPromise()) {
+ mVideo.RejectPromise(NS_ERROR_DOM_MEDIA_CANCELED, __func__);
+ }
+ }
+
+ if (HasAudio() && aTracks.contains(TrackInfo::kAudioTrack)) {
+ mAudio.ResetDemuxer();
+ mVideo.mFirstFrameTime = Some(media::TimeUnit::Zero());
+ Reset(TrackInfo::kAudioTrack);
+ if (mAudio.HasPromise()) {
+ mAudio.RejectPromise(NS_ERROR_DOM_MEDIA_CANCELED, __func__);
+ }
+ }
+
+ return NS_OK;
+}
+
+void MediaFormatReader::Reset(TrackType aTrack) {
+ MOZ_ASSERT(OnTaskQueue());
+ LOG("Reset(%s) BEGIN", TrackTypeToStr(aTrack));
+
+ auto& decoder = GetDecoderData(aTrack);
+
+ decoder.ResetState();
+ decoder.Flush();
+
+ LOG("Reset(%s) END", TrackTypeToStr(aTrack));
+}
+
+void MediaFormatReader::DropDecodedSamples(TrackType aTrack) {
+ MOZ_ASSERT(OnTaskQueue());
+ auto& decoder = GetDecoderData(aTrack);
+ size_t lengthDecodedQueue = decoder.mOutput.Length();
+ if (lengthDecodedQueue && decoder.mTimeThreshold.isSome()) {
+ auto time = decoder.mOutput.LastElement()->mTime;
+ if (time >= decoder.mTimeThreshold.ref().Time()) {
+ // We would have reached our internal seek target.
+ decoder.mTimeThreshold.reset();
+ }
+ }
+ decoder.mOutput.Clear();
+ decoder.mSizeOfQueue -= lengthDecodedQueue;
+ if (aTrack == TrackInfo::kVideoTrack && mFrameStats) {
+ mFrameStats->Accumulate({0, 0, 0, lengthDecodedQueue, 0, 0});
+ }
+}
+
+void MediaFormatReader::SkipVideoDemuxToNextKeyFrame(TimeUnit aTimeThreshold) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::SkipVideoDemuxToNextKeyFrame",
+ MEDIA_PLAYBACK);
+ MOZ_ASSERT(OnTaskQueue());
+ LOG("Skipping up to %" PRId64, aTimeThreshold.ToMicroseconds());
+
+ // We've reached SkipVideoDemuxToNextKeyFrame when our decoding is late.
+ // As such we can drop all already decoded samples and discard all pending
+ // samples.
+ DropDecodedSamples(TrackInfo::kVideoTrack);
+
+ mVideo.mTrackDemuxer->SkipToNextRandomAccessPoint(aTimeThreshold)
+ ->Then(OwnerThread(), __func__, this,
+ &MediaFormatReader::OnVideoSkipCompleted,
+ &MediaFormatReader::OnVideoSkipFailed)
+ ->Track(mSkipRequest);
+}
+
+void MediaFormatReader::VideoSkipReset(uint32_t aSkipped) {
+ PROFILER_MARKER_UNTYPED("SkippedVideoDecode", MEDIA_PLAYBACK);
+ MOZ_ASSERT(OnTaskQueue());
+
+ // Some frames may have been output by the decoder since we initiated the
+ // videoskip process and we know they would be late.
+ DropDecodedSamples(TrackInfo::kVideoTrack);
+ // Report the pending frames as dropped.
+ if (mFrameStats) {
+ uint32_t droppedDecoderCount = SizeOfVideoQueueInFrames();
+ mFrameStats->Accumulate({0, 0, 0, droppedDecoderCount, 0, 0});
+ }
+
+ // Cancel any pending demux request and pending demuxed samples.
+ mVideo.mDemuxRequest.DisconnectIfExists();
+ Reset(TrackType::kVideoTrack);
+
+ if (mFrameStats) {
+ mFrameStats->Accumulate({aSkipped, 0, 0, aSkipped, 0, 0});
+ }
+
+ mVideo.mNumSamplesSkippedTotal += aSkipped;
+}
+
+void MediaFormatReader::OnVideoSkipCompleted(uint32_t aSkipped) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::OnVideoSkipCompleted",
+ MEDIA_PLAYBACK);
+ MOZ_ASSERT(OnTaskQueue());
+ LOG("Skipping succeeded, skipped %u frames", aSkipped);
+ mSkipRequest.Complete();
+
+ DDLOG(DDLogCategory::Log, "video_skipped", DDNoValue());
+
+ VideoSkipReset(aSkipped);
+
+ ScheduleUpdate(TrackInfo::kVideoTrack);
+}
+
+void MediaFormatReader::OnVideoSkipFailed(
+ MediaTrackDemuxer::SkipFailureHolder aFailure) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::OnVideoSkipFailed", MEDIA_PLAYBACK);
+ MOZ_ASSERT(OnTaskQueue());
+ LOG("Skipping failed, skipped %u frames", aFailure.mSkipped);
+ mSkipRequest.Complete();
+
+ switch (aFailure.mFailure.Code()) {
+ case NS_ERROR_DOM_MEDIA_END_OF_STREAM:
+ case NS_ERROR_DOM_MEDIA_WAITING_FOR_DATA:
+ DDLOG(DDLogCategory::Log, "video_skipping_interruption",
+ aFailure.mFailure);
+ // Some frames may have been output by the decoder since we initiated the
+ // videoskip process and we know they would be late.
+ DropDecodedSamples(TrackInfo::kVideoTrack);
+ // We can't complete the skip operation, will just service a video frame
+ // normally.
+ ScheduleUpdate(TrackInfo::kVideoTrack);
+ break;
+ case NS_ERROR_DOM_MEDIA_CANCELED:
+ DDLOG(DDLogCategory::Log, "video_skipping_interruption",
+ aFailure.mFailure);
+ if (mVideo.HasPromise()) {
+ mVideo.RejectPromise(aFailure.mFailure, __func__);
+ }
+ break;
+ default:
+ DDLOG(DDLogCategory::Log, "video_skipping_error", aFailure.mFailure);
+ NotifyError(TrackType::kVideoTrack, aFailure.mFailure);
+ break;
+ }
+}
+
+RefPtr<MediaFormatReader::SeekPromise> MediaFormatReader::Seek(
+ const SeekTarget& aTarget) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::Seek", MEDIA_PLAYBACK);
+ MOZ_ASSERT(OnTaskQueue());
+
+ LOG("aTarget=(%" PRId64 "), track=%s", aTarget.GetTime().ToMicroseconds(),
+ SeekTarget::TrackToStr(aTarget.GetTrack()));
+
+ MOZ_DIAGNOSTIC_ASSERT(mSeekPromise.IsEmpty());
+ MOZ_DIAGNOSTIC_ASSERT(mPendingSeekTime.isNothing());
+ // Should reset data request, and no pending internal seek.
+ if (aTarget.IsAllTracks()) {
+ MOZ_DIAGNOSTIC_ASSERT(!mVideo.HasPromise());
+ MOZ_DIAGNOSTIC_ASSERT(!mAudio.HasPromise());
+ MOZ_DIAGNOSTIC_ASSERT(mVideo.mTimeThreshold.isNothing());
+ MOZ_DIAGNOSTIC_ASSERT(mAudio.mTimeThreshold.isNothing());
+ } else if (aTarget.IsVideoOnly()) {
+ MOZ_DIAGNOSTIC_ASSERT(!mVideo.HasPromise());
+ MOZ_DIAGNOSTIC_ASSERT(mVideo.mTimeThreshold.isNothing());
+ } else if (aTarget.IsAudioOnly()) {
+ MOZ_DIAGNOSTIC_ASSERT(!mAudio.HasPromise());
+ MOZ_DIAGNOSTIC_ASSERT(mAudio.mTimeThreshold.isNothing());
+ }
+
+ if (!mInfo.mMediaSeekable && !mInfo.mMediaSeekableOnlyInBufferedRanges) {
+ LOG("Seek() END (Unseekable)");
+ return SeekPromise::CreateAndReject(NS_ERROR_FAILURE, __func__);
+ }
+
+ if (mShutdown) {
+ return SeekPromise::CreateAndReject(NS_ERROR_FAILURE, __func__);
+ }
+
+ SetSeekTarget(aTarget);
+
+ RefPtr<SeekPromise> p = mSeekPromise.Ensure(__func__);
+
+ ScheduleSeek();
+
+ return p;
+}
+
+void MediaFormatReader::SetSeekTarget(const SeekTarget& aTarget) {
+ MOZ_ASSERT(OnTaskQueue());
+
+ mOriginalSeekTarget = aTarget;
+ mFallbackSeekTime = mPendingSeekTime = Some(aTarget.GetTime());
+}
+
+void MediaFormatReader::ScheduleSeek() {
+ if (mSeekScheduled) {
+ return;
+ }
+ mSeekScheduled = true;
+ nsresult rv = OwnerThread()->Dispatch(NewRunnableMethod(
+ "MediaFormatReader::AttemptSeek", this, &MediaFormatReader::AttemptSeek));
+ MOZ_DIAGNOSTIC_ASSERT(NS_SUCCEEDED(rv));
+ Unused << rv;
+}
+
+void MediaFormatReader::AttemptSeek() {
+ AUTO_PROFILER_LABEL("MediaFormatReader::AttemptSeek", MEDIA_PLAYBACK);
+ MOZ_ASSERT(OnTaskQueue());
+
+ mSeekScheduled = false;
+
+ if (mPendingSeekTime.isNothing()) {
+ LOGV("AttemptSeek, no pending seek time?");
+ return;
+ }
+
+ // Only reset the demuxers targeted by this SeekTarget, to avoid A/V sync
+ // issues.
+ const bool isSeekingAudio = HasAudio() && !mOriginalSeekTarget.IsVideoOnly();
+ const bool isSeekingVideo = HasVideo() && !mOriginalSeekTarget.IsAudioOnly();
+ LOG("AttemptSeek, seekingAudio=%d, seekingVideo=%d", isSeekingAudio,
+ isSeekingVideo);
+ if (isSeekingVideo) {
+ mVideo.ResetDemuxer();
+ mVideo.ResetState();
+ }
+ if (isSeekingAudio) {
+ mAudio.ResetDemuxer();
+ mAudio.ResetState();
+ }
+
+ // If seeking both tracks, seek the video track, and then the audio track when
+ // the video track seek has completed. Otherwise, only seek a specific track.
+ if (isSeekingVideo) {
+ DoVideoSeek();
+ } else if (isSeekingAudio) {
+ DoAudioSeek();
+ } else {
+ MOZ_CRASH();
+ }
+}
+
+void MediaFormatReader::OnSeekFailed(TrackType aTrack,
+ const MediaResult& aError) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::OnSeekFailed", MEDIA_PLAYBACK);
+ MOZ_ASSERT(OnTaskQueue());
+ LOGV("%s failure:%s", TrackTypeToStr(aTrack), aError.ErrorName().get());
+ if (aTrack == TrackType::kVideoTrack) {
+ mVideo.mSeekRequest.Complete();
+ } else {
+ mAudio.mSeekRequest.Complete();
+ }
+
+ if (aError == NS_ERROR_DOM_MEDIA_WAITING_FOR_DATA) {
+ if (HasVideo() && aTrack == TrackType::kAudioTrack &&
+ mFallbackSeekTime.isSome() &&
+ mPendingSeekTime.ref() != mFallbackSeekTime.ref()) {
+ // We have failed to seek audio where video seeked to earlier.
+ // Attempt to seek instead to the closest point that we know we have in
+ // order to limit A/V sync discrepency.
+
+ // Ensure we have the most up to date buffered ranges.
+ UpdateReceivedNewData(TrackType::kAudioTrack);
+ Maybe<TimeUnit> nextSeekTime;
+ // Find closest buffered time found after video seeked time.
+ for (const auto& timeRange : mAudio.mTimeRanges) {
+ if (timeRange.mStart >= mPendingSeekTime.ref()) {
+ nextSeekTime.emplace(timeRange.mStart);
+ break;
+ }
+ }
+ if (nextSeekTime.isNothing() ||
+ nextSeekTime.ref() > mFallbackSeekTime.ref()) {
+ nextSeekTime = Some(mFallbackSeekTime.ref());
+ LOG("Unable to seek audio to video seek time. A/V sync may be broken");
+ } else {
+ mFallbackSeekTime.reset();
+ }
+ mPendingSeekTime = nextSeekTime;
+ DoAudioSeek();
+ return;
+ }
+ NotifyWaitingForData(aTrack);
+ }
+ MOZ_ASSERT(!mVideo.mSeekRequest.Exists() && !mAudio.mSeekRequest.Exists());
+ mPendingSeekTime.reset();
+
+ auto type = aTrack == TrackType::kAudioTrack ? MediaData::Type::AUDIO_DATA
+ : MediaData::Type::VIDEO_DATA;
+ mSeekPromise.Reject(SeekRejectValue(type, aError), __func__);
+}
+
+void MediaFormatReader::DoVideoSeek() {
+ AUTO_PROFILER_LABEL("MediaFormatReader::DoVideoSeek", MEDIA_PLAYBACK);
+ MOZ_ASSERT(mPendingSeekTime.isSome());
+ LOGV("Seeking video to %" PRId64, mPendingSeekTime.ref().ToMicroseconds());
+ auto seekTime = mPendingSeekTime.ref();
+ mVideo.mTrackDemuxer->Seek(seekTime)
+ ->Then(OwnerThread(), __func__, this,
+ &MediaFormatReader::OnVideoSeekCompleted,
+ &MediaFormatReader::OnVideoSeekFailed)
+ ->Track(mVideo.mSeekRequest);
+}
+
+void MediaFormatReader::OnVideoSeekCompleted(TimeUnit aTime) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::OnVideoSeekCompleted",
+ MEDIA_PLAYBACK);
+ MOZ_ASSERT(OnTaskQueue());
+ LOGV("Video seeked to %" PRId64, aTime.ToMicroseconds());
+ mVideo.mSeekRequest.Complete();
+
+ mVideo.mFirstFrameTime = Some(aTime);
+ mPreviousDecodedKeyframeTime_us = sNoPreviousDecodedKeyframe;
+
+ SetVideoDecodeThreshold();
+
+ if (HasAudio() && !mOriginalSeekTarget.IsVideoOnly()) {
+ MOZ_ASSERT(mPendingSeekTime.isSome());
+ if (mOriginalSeekTarget.IsFast()) {
+ // We are performing a fast seek. We need to seek audio to where the
+ // video seeked to, to ensure proper A/V sync once playback resume.
+ mPendingSeekTime = Some(aTime);
+ }
+ DoAudioSeek();
+ } else {
+ mPendingSeekTime.reset();
+ mSeekPromise.Resolve(aTime, __func__);
+ }
+}
+
+void MediaFormatReader::OnVideoSeekFailed(const MediaResult& aError) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::OnVideoSeekFailed", MEDIA_PLAYBACK);
+ mPreviousDecodedKeyframeTime_us = sNoPreviousDecodedKeyframe;
+ OnSeekFailed(TrackType::kVideoTrack, aError);
+}
+
+void MediaFormatReader::SetVideoDecodeThreshold() {
+ MOZ_ASSERT(OnTaskQueue());
+
+ if (!HasVideo() || !mVideo.mDecoder) {
+ return;
+ }
+
+ if (!mVideo.mTimeThreshold && !IsSeeking()) {
+ return;
+ }
+
+ TimeUnit threshold;
+ if (mVideo.mTimeThreshold) {
+ // For internalSeek.
+ threshold = mVideo.mTimeThreshold.ref().Time();
+ } else if (IsSeeking()) {
+ // If IsSeeking() is true, then video seek must have completed already.
+ TimeUnit keyframe;
+ if (NS_FAILED(mVideo.mTrackDemuxer->GetNextRandomAccessPoint(&keyframe))) {
+ return;
+ }
+
+ // If the key frame is invalid/infinite, it means the target position is
+ // closing to end of stream. We don't want to skip any frame at this point.
+ threshold = keyframe.IsValid() && !keyframe.IsInfinite()
+ ? mOriginalSeekTarget.GetTime()
+ : TimeUnit::Invalid();
+ } else {
+ return;
+ }
+
+ if (threshold.IsValid()) {
+ LOG("Set seek threshold to %" PRId64, threshold.ToMicroseconds());
+ } else {
+ LOG("Resetting seek threshold");
+ }
+ mVideo.mDecoder->SetSeekThreshold(threshold);
+}
+
+void MediaFormatReader::DoAudioSeek() {
+ AUTO_PROFILER_LABEL("MediaFormatReader::DoAudioSeek", MEDIA_PLAYBACK);
+ MOZ_ASSERT(mPendingSeekTime.isSome());
+ LOGV("Seeking audio to %" PRId64, mPendingSeekTime.ref().ToMicroseconds());
+ auto seekTime = mPendingSeekTime.ref();
+ mAudio.mTrackDemuxer->Seek(seekTime)
+ ->Then(OwnerThread(), __func__, this,
+ &MediaFormatReader::OnAudioSeekCompleted,
+ &MediaFormatReader::OnAudioSeekFailed)
+ ->Track(mAudio.mSeekRequest);
+}
+
+void MediaFormatReader::OnAudioSeekCompleted(TimeUnit aTime) {
+ MOZ_ASSERT(OnTaskQueue());
+ AUTO_PROFILER_LABEL("MediaFormatReader::OnAudioSeekCompleted",
+ MEDIA_PLAYBACK);
+ LOGV("Audio seeked to %" PRId64, aTime.ToMicroseconds());
+ mAudio.mSeekRequest.Complete();
+ mAudio.mFirstFrameTime = Some(aTime);
+ mPendingSeekTime.reset();
+ mSeekPromise.Resolve(aTime, __func__);
+}
+
+void MediaFormatReader::OnAudioSeekFailed(const MediaResult& aError) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::OnAudioSeekFailed", MEDIA_PLAYBACK);
+ OnSeekFailed(TrackType::kAudioTrack, aError);
+}
+
+void MediaFormatReader::ReleaseResources() {
+ LOGV("");
+ if (mShutdown) {
+ return;
+ }
+ ShutdownDecoder(TrackInfo::kAudioTrack);
+ ShutdownDecoder(TrackInfo::kVideoTrack);
+}
+
+bool MediaFormatReader::VideoIsHardwareAccelerated() const {
+ return mVideo.mIsHardwareAccelerated;
+}
+
+void MediaFormatReader::NotifyTrackDemuxers() {
+ MOZ_ASSERT(OnTaskQueue());
+
+ LOGV("");
+
+ if (!mInitDone) {
+ return;
+ }
+
+ if (HasVideo()) {
+ mVideo.mReceivedNewData = true;
+ ScheduleUpdate(TrackType::kVideoTrack);
+ }
+ if (HasAudio()) {
+ mAudio.mReceivedNewData = true;
+ ScheduleUpdate(TrackType::kAudioTrack);
+ }
+}
+
+void MediaFormatReader::NotifyDataArrived() {
+ AUTO_PROFILER_LABEL("MediaFormatReader::NotifyDataArrived", MEDIA_PLAYBACK);
+ MOZ_ASSERT(OnTaskQueue());
+
+ if (mShutdown || !mDemuxer || !mDemuxerInitDone) {
+ return;
+ }
+
+ if (mNotifyDataArrivedPromise.Exists()) {
+ // Already one in progress. Set the dirty flag so we can process it later.
+ mPendingNotifyDataArrived = true;
+ return;
+ }
+
+ RefPtr<MediaFormatReader> self = this;
+ mDemuxer->NotifyDataArrived()
+ ->Then(
+ OwnerThread(), __func__,
+ [self]() {
+ AUTO_PROFILER_LABEL("MediaFormatReader::NotifyDataArrived:Resolved",
+ MEDIA_PLAYBACK);
+ self->mNotifyDataArrivedPromise.Complete();
+ self->UpdateBuffered();
+ self->NotifyTrackDemuxers();
+ if (self->mPendingNotifyDataArrived) {
+ self->mPendingNotifyDataArrived = false;
+ self->NotifyDataArrived();
+ }
+ },
+ [self]() { self->mNotifyDataArrivedPromise.Complete(); })
+ ->Track(mNotifyDataArrivedPromise);
+}
+
+void MediaFormatReader::UpdateMediaEngineId(uint64_t aMediaEngineId) {
+ LOG("Update external media engine Id %" PRIu64, aMediaEngineId);
+ mMediaEngineId = Some(aMediaEngineId);
+}
+
+void MediaFormatReader::UpdateBuffered() {
+ AUTO_PROFILER_LABEL("MediaFormatReader::UpdateBuffered", MEDIA_PLAYBACK);
+ MOZ_ASSERT(OnTaskQueue());
+
+ if (mShutdown) {
+ return;
+ }
+
+ if (!mInitDone || !mHasStartTime) {
+ mBuffered = TimeIntervals();
+ return;
+ }
+
+ if (HasVideo()) {
+ mVideo.mTimeRanges = mVideo.mTrackDemuxer->GetBuffered();
+ bool hasLastEnd;
+ auto lastEnd = mVideo.mTimeRanges.GetEnd(&hasLastEnd);
+ if (hasLastEnd) {
+ if (mVideo.mLastTimeRangesEnd &&
+ mVideo.mLastTimeRangesEnd.ref() < lastEnd) {
+ // New data was added after our previous end, we can clear the EOS flag.
+ mVideo.mDemuxEOS = false;
+ ScheduleUpdate(TrackInfo::kVideoTrack);
+ }
+ mVideo.mLastTimeRangesEnd = Some(lastEnd);
+ }
+ }
+ if (HasAudio()) {
+ mAudio.mTimeRanges = mAudio.mTrackDemuxer->GetBuffered();
+ bool hasLastEnd;
+ auto lastEnd = mAudio.mTimeRanges.GetEnd(&hasLastEnd);
+ if (hasLastEnd) {
+ if (mAudio.mLastTimeRangesEnd &&
+ mAudio.mLastTimeRangesEnd.ref() < lastEnd) {
+ // New data was added after our previous end, we can clear the EOS flag.
+ mAudio.mDemuxEOS = false;
+ ScheduleUpdate(TrackInfo::kAudioTrack);
+ }
+ mAudio.mLastTimeRangesEnd = Some(lastEnd);
+ }
+ }
+
+ media::TimeIntervals intervals;
+ if (HasAudio() && HasVideo()) {
+ intervals = media::Intersection(mVideo.mTimeRanges, mAudio.mTimeRanges);
+ } else if (HasAudio()) {
+ intervals = mAudio.mTimeRanges;
+ } else if (HasVideo()) {
+ intervals = mVideo.mTimeRanges;
+ }
+
+ if (intervals.IsEmpty() || intervals.GetStart() == TimeUnit::Zero()) {
+ // IntervalSet already starts at 0 or is empty, nothing to shift.
+ mBuffered = intervals;
+ } else {
+ mBuffered = intervals.Shift(TimeUnit::Zero() - mInfo.mStartTime);
+ }
+}
+
+layers::ImageContainer* MediaFormatReader::GetImageContainer() {
+ return mVideoFrameContainer ? mVideoFrameContainer->GetImageContainer()
+ : nullptr;
+}
+
+RefPtr<GenericPromise> MediaFormatReader::RequestDebugInfo(
+ dom::MediaFormatReaderDebugInfo& aInfo) {
+ if (!OnTaskQueue()) {
+ // Run the request on the task queue if it's not already.
+ return InvokeAsync(mTaskQueue, __func__,
+ [this, self = RefPtr{this}, &aInfo] {
+ return RequestDebugInfo(aInfo);
+ });
+ }
+ GetDebugInfo(aInfo);
+ return GenericPromise::CreateAndResolve(true, __func__);
+}
+
+void MediaFormatReader::GetDebugInfo(dom::MediaFormatReaderDebugInfo& aInfo) {
+ MOZ_ASSERT(OnTaskQueue(),
+ "Don't call this off the task queue, it's going to touch a lot of "
+ "data members");
+ nsCString result;
+ nsAutoCString audioDecoderName("unavailable");
+ nsAutoCString videoDecoderName = audioDecoderName;
+ nsAutoCString audioType("none");
+ nsAutoCString videoType("none");
+
+ AudioInfo audioInfo;
+ if (HasAudio()) {
+ audioInfo = *mAudio.GetWorkingInfo()->GetAsAudioInfo();
+ audioDecoderName = mAudio.mDecoder ? mAudio.mDecoder->GetDescriptionName()
+ : mAudio.mDescription;
+ audioType = audioInfo.mMimeType;
+ aInfo.mAudioState.mNeedInput = NeedInput(mAudio);
+ aInfo.mAudioState.mHasPromise = mAudio.HasPromise();
+ aInfo.mAudioState.mWaitingPromise = !mAudio.mWaitingPromise.IsEmpty();
+ aInfo.mAudioState.mHasDemuxRequest = mAudio.mDemuxRequest.Exists();
+ aInfo.mAudioState.mDemuxQueueSize =
+ uint32_t(mAudio.mQueuedSamples.Length());
+ aInfo.mAudioState.mHasDecoder = mAudio.mDecodeRequest.Exists();
+ aInfo.mAudioState.mTimeTreshold =
+ mAudio.mTimeThreshold ? mAudio.mTimeThreshold.ref().Time().ToSeconds()
+ : -1.0;
+ aInfo.mAudioState.mTimeTresholdHasSeeked =
+ mAudio.mTimeThreshold ? mAudio.mTimeThreshold.ref().mHasSeeked : false;
+ aInfo.mAudioState.mNumSamplesInput = mAudio.mNumSamplesInput;
+ aInfo.mAudioState.mNumSamplesOutput = mAudio.mNumSamplesOutput;
+ aInfo.mAudioState.mQueueSize = size_t(mAudio.mSizeOfQueue);
+ aInfo.mAudioState.mPending = mAudio.mOutput.Length();
+ aInfo.mAudioState.mWaitingForData = mAudio.mWaitingForData;
+ aInfo.mAudioState.mDemuxEOS = mAudio.mDemuxEOS;
+ aInfo.mAudioState.mDrainState = int32_t(mAudio.mDrainState);
+ aInfo.mAudioState.mWaitingForKey = mAudio.mWaitingForKey;
+ aInfo.mAudioState.mLastStreamSourceID = mAudio.mLastStreamSourceID;
+ }
+
+ CopyUTF8toUTF16(audioDecoderName, aInfo.mAudioDecoderName);
+ CopyUTF8toUTF16(audioType, aInfo.mAudioType);
+ aInfo.mAudioChannels = audioInfo.mChannels;
+ aInfo.mAudioRate = audioInfo.mRate;
+ aInfo.mAudioFramesDecoded = mAudio.mNumSamplesOutputTotal;
+
+ VideoInfo videoInfo;
+ if (HasVideo()) {
+ videoInfo = *mVideo.GetWorkingInfo()->GetAsVideoInfo();
+ videoDecoderName = mVideo.mDecoder ? mVideo.mDecoder->GetDescriptionName()
+ : mVideo.mDescription;
+ videoType = videoInfo.mMimeType;
+ aInfo.mVideoState.mNeedInput = NeedInput(mVideo);
+ aInfo.mVideoState.mHasPromise = mVideo.HasPromise();
+ aInfo.mVideoState.mWaitingPromise = !mVideo.mWaitingPromise.IsEmpty();
+ aInfo.mVideoState.mHasDemuxRequest = mVideo.mDemuxRequest.Exists();
+ aInfo.mVideoState.mDemuxQueueSize =
+ uint32_t(mVideo.mQueuedSamples.Length());
+ aInfo.mVideoState.mHasDecoder = mVideo.mDecodeRequest.Exists();
+ aInfo.mVideoState.mTimeTreshold =
+ mVideo.mTimeThreshold ? mVideo.mTimeThreshold.ref().Time().ToSeconds()
+ : -1.0;
+ aInfo.mVideoState.mTimeTresholdHasSeeked =
+ mVideo.mTimeThreshold ? mVideo.mTimeThreshold.ref().mHasSeeked : false;
+ aInfo.mVideoState.mNumSamplesInput = mVideo.mNumSamplesInput;
+ aInfo.mVideoState.mNumSamplesOutput = mVideo.mNumSamplesOutput;
+ aInfo.mVideoState.mQueueSize = size_t(mVideo.mSizeOfQueue);
+ aInfo.mVideoState.mPending = mVideo.mOutput.Length();
+ aInfo.mVideoState.mWaitingForData = mVideo.mWaitingForData;
+ aInfo.mVideoState.mDemuxEOS = mVideo.mDemuxEOS;
+ aInfo.mVideoState.mDrainState = int32_t(mVideo.mDrainState);
+ aInfo.mVideoState.mWaitingForKey = mVideo.mWaitingForKey;
+ aInfo.mVideoState.mLastStreamSourceID = mVideo.mLastStreamSourceID;
+ }
+
+ CopyUTF8toUTF16(videoDecoderName, aInfo.mVideoDecoderName);
+ CopyUTF8toUTF16(videoType, aInfo.mVideoType);
+ aInfo.mVideoWidth =
+ videoInfo.mDisplay.width < 0 ? 0 : videoInfo.mDisplay.width;
+ aInfo.mVideoHeight =
+ videoInfo.mDisplay.height < 0 ? 0 : videoInfo.mDisplay.height;
+ aInfo.mVideoRate = mVideo.mMeanRate.Mean();
+ aInfo.mVideoHardwareAccelerated = VideoIsHardwareAccelerated();
+ aInfo.mVideoNumSamplesOutputTotal = mVideo.mNumSamplesOutputTotal;
+ aInfo.mVideoNumSamplesSkippedTotal = mVideo.mNumSamplesSkippedTotal;
+
+ // Looking at dropped frames
+ FrameStatisticsData stats = mFrameStats->GetFrameStatisticsData();
+ aInfo.mFrameStats.mDroppedDecodedFrames = stats.mDroppedDecodedFrames;
+ aInfo.mFrameStats.mDroppedSinkFrames = stats.mDroppedSinkFrames;
+ aInfo.mFrameStats.mDroppedCompositorFrames = stats.mDroppedCompositorFrames;
+}
+
+void MediaFormatReader::SetVideoNullDecode(bool aIsNullDecode) {
+ MOZ_ASSERT(OnTaskQueue());
+ return SetNullDecode(TrackType::kVideoTrack, aIsNullDecode);
+}
+
+void MediaFormatReader::UpdateCompositor(
+ already_AddRefed<layers::KnowsCompositor> aCompositor) {
+ MOZ_ASSERT(OnTaskQueue());
+ mKnowsCompositor = aCompositor;
+}
+
+void MediaFormatReader::SetNullDecode(TrackType aTrack, bool aIsNullDecode) {
+ MOZ_ASSERT(OnTaskQueue());
+
+ auto& decoder = GetDecoderData(aTrack);
+ if (decoder.mIsNullDecode == aIsNullDecode) {
+ return;
+ }
+
+ LOG("%s, decoder.mIsNullDecode = %d => aIsNullDecode = %d",
+ TrackTypeToStr(aTrack), decoder.mIsNullDecode, aIsNullDecode);
+
+ decoder.mIsNullDecode = aIsNullDecode;
+ ShutdownDecoder(aTrack);
+}
+
+void MediaFormatReader::OnFirstDemuxCompleted(
+ TrackInfo::TrackType aType,
+ RefPtr<MediaTrackDemuxer::SamplesHolder> aSamples) {
+ AUTO_PROFILER_LABEL("MediaFormatReader::OnFirstDemuxCompleted",
+ MEDIA_PLAYBACK);
+ MOZ_ASSERT(OnTaskQueue());
+
+ if (mShutdown) {
+ return;
+ }
+
+ auto& decoder = GetDecoderData(aType);
+ MOZ_ASSERT(decoder.mFirstDemuxedSampleTime.isNothing());
+ decoder.mFirstDemuxedSampleTime.emplace(aSamples->GetSamples()[0]->mTime);
+ MaybeResolveMetadataPromise();
+}
+
+void MediaFormatReader::OnFirstDemuxFailed(TrackInfo::TrackType aType,
+ const MediaResult& aError) {
+ MOZ_ASSERT(OnTaskQueue());
+
+ if (mShutdown) {
+ return;
+ }
+
+ auto& decoder = GetDecoderData(aType);
+ MOZ_ASSERT(decoder.mFirstDemuxedSampleTime.isNothing());
+ decoder.mFirstDemuxedSampleTime.emplace(TimeUnit::FromInfinity());
+ MaybeResolveMetadataPromise();
+}
+
+} // namespace mozilla
+
+#undef NS_DispatchToMainThread
+#undef LOGV
+#undef LOG