/* -*- 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 "ChannelMediaDecoder.h" #include "ChannelMediaResource.h" #include "DecoderTraits.h" #include "MediaDecoderStateMachine.h" #include "MediaFormatReader.h" #include "BaseMediaResource.h" #include "MediaShutdownManager.h" #include "mozilla/Preferences.h" #include "mozilla/StaticPrefs_media.h" #include "VideoUtils.h" namespace mozilla { extern LazyLogModule gMediaDecoderLog; #define LOG(x, ...) \ DDMOZ_LOG(gMediaDecoderLog, LogLevel::Debug, x, ##__VA_ARGS__) ChannelMediaDecoder::ResourceCallback::ResourceCallback( AbstractThread* aMainThread) : mAbstractMainThread(aMainThread) { MOZ_ASSERT(aMainThread); DecoderDoctorLogger::LogConstructionAndBase( "ChannelMediaDecoder::ResourceCallback", this, static_cast(this)); } ChannelMediaDecoder::ResourceCallback::~ResourceCallback() { DecoderDoctorLogger::LogDestruction("ChannelMediaDecoder::ResourceCallback", this); } void ChannelMediaDecoder::ResourceCallback::Connect( ChannelMediaDecoder* aDecoder) { MOZ_ASSERT(NS_IsMainThread()); mDecoder = aDecoder; DecoderDoctorLogger::LinkParentAndChild( "ChannelMediaDecoder::ResourceCallback", this, "decoder", mDecoder); mTimer = NS_NewTimer(mAbstractMainThread->AsEventTarget()); } void ChannelMediaDecoder::ResourceCallback::Disconnect() { MOZ_ASSERT(NS_IsMainThread()); if (mDecoder) { DecoderDoctorLogger::UnlinkParentAndChild( "ChannelMediaDecoder::ResourceCallback", this, mDecoder); mDecoder = nullptr; mTimer->Cancel(); mTimer = nullptr; } } AbstractThread* ChannelMediaDecoder::ResourceCallback::AbstractMainThread() const { return mAbstractMainThread; } MediaDecoderOwner* ChannelMediaDecoder::ResourceCallback::GetMediaOwner() const { MOZ_ASSERT(NS_IsMainThread()); return mDecoder ? mDecoder->GetOwner() : nullptr; } void ChannelMediaDecoder::ResourceCallback::NotifyNetworkError( const MediaResult& aError) { MOZ_ASSERT(NS_IsMainThread()); DDLOGEX2("ChannelMediaDecoder::ResourceCallback", this, DDLogCategory::Log, "network_error", aError); if (mDecoder) { mDecoder->NetworkError(aError); } } /* static */ void ChannelMediaDecoder::ResourceCallback::TimerCallback(nsITimer* aTimer, void* aClosure) { MOZ_ASSERT(NS_IsMainThread()); ResourceCallback* thiz = static_cast(aClosure); MOZ_ASSERT(thiz->mDecoder); thiz->mDecoder->NotifyReaderDataArrived(); thiz->mTimerArmed = false; } void ChannelMediaDecoder::ResourceCallback::NotifyDataArrived() { MOZ_ASSERT(NS_IsMainThread()); DDLOGEX2("ChannelMediaDecoder::ResourceCallback", this, DDLogCategory::Log, "data_arrived", true); if (!mDecoder) { return; } mDecoder->DownloadProgressed(); if (mTimerArmed) { return; } // In situations where these notifications come from stochastic network // activity, we can save significant computation by throttling the // calls to MediaDecoder::NotifyDataArrived() which will update the buffer // ranges of the reader. mTimerArmed = true; mTimer->InitWithNamedFuncCallback( TimerCallback, this, sDelay, nsITimer::TYPE_ONE_SHOT, "ChannelMediaDecoder::ResourceCallback::TimerCallback"); } void ChannelMediaDecoder::ResourceCallback::NotifyDataEnded(nsresult aStatus) { DDLOGEX2("ChannelMediaDecoder::ResourceCallback", this, DDLogCategory::Log, "data_ended", aStatus); MOZ_ASSERT(NS_IsMainThread()); if (mDecoder) { mDecoder->NotifyDownloadEnded(aStatus); } } void ChannelMediaDecoder::ResourceCallback::NotifyPrincipalChanged() { MOZ_ASSERT(NS_IsMainThread()); DDLOGEX2("ChannelMediaDecoder::ResourceCallback", this, DDLogCategory::Log, "principal_changed", true); if (mDecoder) { mDecoder->NotifyPrincipalChanged(); } } void ChannelMediaDecoder::NotifyPrincipalChanged() { MOZ_ASSERT(NS_IsMainThread()); MediaDecoder::NotifyPrincipalChanged(); if (!mInitialChannelPrincipalKnown) { // We'll receive one notification when the channel's initial principal // is known, after all HTTP redirects have resolved. This isn't really a // principal change, so return here to avoid the mSameOriginMedia check // below. mInitialChannelPrincipalKnown = true; return; } if (!mSameOriginMedia && Preferences::GetBool("media.block-midflight-redirects", true)) { // Block mid-flight redirects to non CORS same origin destinations. // See bugs 1441153, 1443942. LOG("ChannnelMediaDecoder prohibited cross origin redirect blocked."); NetworkError(MediaResult(NS_ERROR_DOM_BAD_URI, "Prohibited cross origin redirect blocked")); } } void ChannelMediaDecoder::ResourceCallback::NotifySuspendedStatusChanged( bool aSuspendedByCache) { MOZ_ASSERT(NS_IsMainThread()); DDLOGEX2("ChannelMediaDecoder::ResourceCallback", this, DDLogCategory::Log, "suspended_status_changed", aSuspendedByCache); MediaDecoderOwner* owner = GetMediaOwner(); if (owner) { owner->NotifySuspendedByCache(aSuspendedByCache); } } ChannelMediaDecoder::ChannelMediaDecoder(MediaDecoderInit& aInit) : MediaDecoder(aInit), mResourceCallback( new ResourceCallback(aInit.mOwner->AbstractMainThread())) { mResourceCallback->Connect(this); } /* static */ already_AddRefed ChannelMediaDecoder::Create( MediaDecoderInit& aInit, DecoderDoctorDiagnostics* aDiagnostics) { MOZ_ASSERT(NS_IsMainThread()); RefPtr decoder; const MediaContainerType& type = aInit.mContainerType; if (DecoderTraits::IsSupportedType(type)) { decoder = new ChannelMediaDecoder(aInit); return decoder.forget(); } return nullptr; } bool ChannelMediaDecoder::CanClone() { MOZ_ASSERT(NS_IsMainThread()); return mResource && mResource->CanClone(); } already_AddRefed ChannelMediaDecoder::Clone( MediaDecoderInit& aInit) { if (!mResource || !DecoderTraits::IsSupportedType(aInit.mContainerType)) { return nullptr; } RefPtr decoder = new ChannelMediaDecoder(aInit); if (!decoder) { return nullptr; } nsresult rv = decoder->Load(mResource); if (NS_FAILED(rv)) { decoder->Shutdown(); return nullptr; } return decoder.forget(); } MediaDecoderStateMachine* ChannelMediaDecoder::CreateStateMachine() { MOZ_ASSERT(NS_IsMainThread()); MediaFormatReaderInit init; init.mVideoFrameContainer = GetVideoFrameContainer(); init.mKnowsCompositor = GetCompositor(); init.mCrashHelper = GetOwner()->CreateGMPCrashHelper(); init.mFrameStats = mFrameStats; init.mResource = mResource; init.mMediaDecoderOwnerID = mOwner; mReader = DecoderTraits::CreateReader(ContainerType(), init); return new MediaDecoderStateMachine(this, mReader); } void ChannelMediaDecoder::Shutdown() { mResourceCallback->Disconnect(); MediaDecoder::Shutdown(); if (mResource) { // Force any outstanding seek and byterange requests to complete // to prevent shutdown from deadlocking. mResourceClosePromise = mResource->Close(); } } void ChannelMediaDecoder::ShutdownInternal() { if (!mResourceClosePromise) { MediaShutdownManager::Instance().Unregister(this); return; } mResourceClosePromise->Then( AbstractMainThread(), __func__, [self = RefPtr(this)] { MediaShutdownManager::Instance().Unregister(self); }); } nsresult ChannelMediaDecoder::Load(nsIChannel* aChannel, bool aIsPrivateBrowsing, nsIStreamListener** aStreamListener) { MOZ_ASSERT(NS_IsMainThread()); MOZ_ASSERT(!mResource); MOZ_ASSERT(aStreamListener); mResource = BaseMediaResource::Create(mResourceCallback, aChannel, aIsPrivateBrowsing); if (!mResource) { return NS_ERROR_FAILURE; } DDLINKCHILD("resource", mResource.get()); nsresult rv = MediaShutdownManager::Instance().Register(this); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } rv = mResource->Open(aStreamListener); NS_ENSURE_SUCCESS(rv, rv); SetStateMachine(CreateStateMachine()); NS_ENSURE_TRUE(GetStateMachine(), NS_ERROR_FAILURE); GetStateMachine()->DispatchIsLiveStream(mResource->IsLiveStream()); return InitializeStateMachine(); } nsresult ChannelMediaDecoder::Load(BaseMediaResource* aOriginal) { MOZ_ASSERT(NS_IsMainThread()); MOZ_ASSERT(!mResource); mResource = aOriginal->CloneData(mResourceCallback); if (!mResource) { return NS_ERROR_FAILURE; } DDLINKCHILD("resource", mResource.get()); nsresult rv = MediaShutdownManager::Instance().Register(this); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } SetStateMachine(CreateStateMachine()); NS_ENSURE_TRUE(GetStateMachine(), NS_ERROR_FAILURE); GetStateMachine()->DispatchIsLiveStream(mResource->IsLiveStream()); return InitializeStateMachine(); } void ChannelMediaDecoder::NotifyDownloadEnded(nsresult aStatus) { MOZ_ASSERT(NS_IsMainThread()); MOZ_DIAGNOSTIC_ASSERT(!IsShutdown()); LOG("NotifyDownloadEnded, status=%" PRIx32, static_cast(aStatus)); if (NS_SUCCEEDED(aStatus)) { // Download ends successfully. This is a stream with a finite length. GetStateMachine()->DispatchIsLiveStream(false); } MediaDecoderOwner* owner = GetOwner(); if (NS_SUCCEEDED(aStatus) || aStatus == NS_BASE_STREAM_CLOSED) { nsCOMPtr r = NS_NewRunnableFunction( "ChannelMediaDecoder::UpdatePlaybackRate", [stats = mPlaybackStatistics, res = RefPtr(mResource), duration = mDuration]() { auto rate = ComputePlaybackRate(stats, res, duration); UpdatePlaybackRate(rate, res); }); nsresult rv = GetStateMachine()->OwnerThread()->Dispatch(r.forget()); MOZ_DIAGNOSTIC_ASSERT(NS_SUCCEEDED(rv)); Unused << rv; owner->DownloadSuspended(); // NotifySuspendedStatusChanged will tell the element that download // has been suspended "by the cache", which is true since we never // download anything. The element can then transition to HAVE_ENOUGH_DATA. owner->NotifySuspendedByCache(true); } else if (aStatus == NS_BINDING_ABORTED) { // Download has been cancelled by user. owner->LoadAborted(); } else { NetworkError(MediaResult(aStatus, "Download aborted")); } } bool ChannelMediaDecoder::CanPlayThroughImpl() { MOZ_ASSERT(NS_IsMainThread()); return mCanPlayThrough; } void ChannelMediaDecoder::OnPlaybackEvent(MediaPlaybackEvent&& aEvent) { MOZ_ASSERT(NS_IsMainThread()); switch (aEvent.mType) { case MediaPlaybackEvent::PlaybackStarted: mPlaybackPosition = aEvent.mData.as(); mPlaybackStatistics.Start(); break; case MediaPlaybackEvent::PlaybackProgressed: { int64_t newPos = aEvent.mData.as(); mPlaybackStatistics.AddBytes(newPos - mPlaybackPosition); mPlaybackPosition = newPos; break; } case MediaPlaybackEvent::PlaybackStopped: { int64_t newPos = aEvent.mData.as(); mPlaybackStatistics.AddBytes(newPos - mPlaybackPosition); mPlaybackPosition = newPos; mPlaybackStatistics.Stop(); break; } default: break; } MediaDecoder::OnPlaybackEvent(std::move(aEvent)); } void ChannelMediaDecoder::DurationChanged() { MOZ_ASSERT(NS_IsMainThread()); MediaDecoder::DurationChanged(); // Duration has changed so we should recompute playback rate nsCOMPtr r = NS_NewRunnableFunction( "ChannelMediaDecoder::UpdatePlaybackRate", [stats = mPlaybackStatistics, res = RefPtr(mResource), duration = mDuration]() { auto rate = ComputePlaybackRate(stats, res, duration); UpdatePlaybackRate(rate, res); }); nsresult rv = GetStateMachine()->OwnerThread()->Dispatch(r.forget()); MOZ_DIAGNOSTIC_ASSERT(NS_SUCCEEDED(rv)); Unused << rv; } void ChannelMediaDecoder::DownloadProgressed() { MOZ_ASSERT(NS_IsMainThread()); MOZ_DIAGNOSTIC_ASSERT(!IsShutdown()); GetOwner()->DownloadProgressed(); using StatsPromise = MozPromise; InvokeAsync(GetStateMachine()->OwnerThread(), __func__, [playbackStats = mPlaybackStatistics, res = RefPtr(mResource), duration = mDuration, pos = mPlaybackPosition]() { auto rate = ComputePlaybackRate(playbackStats, res, duration); UpdatePlaybackRate(rate, res); MediaStatistics stats = GetStatistics(rate, res, pos); return StatsPromise::CreateAndResolve(stats, __func__); }) ->Then( mAbstractMainThread, __func__, [=, self = RefPtr(this)](MediaStatistics aStats) { if (IsShutdown()) { return; } mCanPlayThrough = aStats.CanPlayThrough(); GetStateMachine()->DispatchCanPlayThrough(mCanPlayThrough); mResource->ThrottleReadahead(ShouldThrottleDownload(aStats)); // Update readyState since mCanPlayThrough might have changed. GetOwner()->UpdateReadyState(); }, []() { MOZ_ASSERT_UNREACHABLE("Promise not resolved"); }); } /* static */ ChannelMediaDecoder::PlaybackRateInfo ChannelMediaDecoder::ComputePlaybackRate(const MediaChannelStatistics& aStats, BaseMediaResource* aResource, double aDuration) { MOZ_ASSERT(!NS_IsMainThread()); int64_t length = aResource->GetLength(); if (mozilla::IsFinite(aDuration) && aDuration > 0 && length >= 0 && length / aDuration < UINT32_MAX) { return {uint32_t(length / aDuration), true}; } bool reliable = false; uint32_t rate = aStats.GetRate(&reliable); return {rate, reliable}; } /* static */ void ChannelMediaDecoder::UpdatePlaybackRate(const PlaybackRateInfo& aInfo, BaseMediaResource* aResource) { MOZ_ASSERT(!NS_IsMainThread()); uint32_t rate = aInfo.mRate; if (aInfo.mReliable) { // Avoid passing a zero rate rate = std::max(rate, 1u); } else { // Set a minimum rate of 10,000 bytes per second ... sometimes we just // don't have good data rate = std::max(rate, 10000u); } aResource->SetPlaybackRate(rate); } /* static */ MediaStatistics ChannelMediaDecoder::GetStatistics( const PlaybackRateInfo& aInfo, BaseMediaResource* aRes, int64_t aPlaybackPosition) { MOZ_ASSERT(!NS_IsMainThread()); MediaStatistics result; result.mDownloadRate = aRes->GetDownloadRate(&result.mDownloadRateReliable); result.mDownloadPosition = aRes->GetCachedDataEnd(aPlaybackPosition); result.mTotalBytes = aRes->GetLength(); result.mPlaybackRate = aInfo.mRate; result.mPlaybackRateReliable = aInfo.mReliable; result.mPlaybackPosition = aPlaybackPosition; return result; } bool ChannelMediaDecoder::ShouldThrottleDownload( const MediaStatistics& aStats) { // We throttle the download if either the throttle override pref is set // (so that we always throttle at the readahead limit on mobile if using // a cellular network) or if the download is fast enough that there's no // concern about playback being interrupted. MOZ_ASSERT(NS_IsMainThread()); NS_ENSURE_TRUE(GetStateMachine(), false); int64_t length = aStats.mTotalBytes; if (length > 0 && length <= int64_t(StaticPrefs::media_memory_cache_max_size()) * 1024) { // Don't throttle the download of small resources. This is to speed // up seeking, as seeks into unbuffered ranges would require starting // up a new HTTP transaction, which adds latency. return false; } if (OnCellularConnection() && Preferences::GetBool( "media.throttle-cellular-regardless-of-download-rate", false)) { return true; } if (!aStats.mDownloadRateReliable || !aStats.mPlaybackRateReliable) { return false; } uint32_t factor = std::max(2u, Preferences::GetUint("media.throttle-factor", 2)); return aStats.mDownloadRate > factor * aStats.mPlaybackRate; } void ChannelMediaDecoder::AddSizeOfResources(ResourceSizes* aSizes) { MOZ_ASSERT(NS_IsMainThread()); if (mResource) { aSizes->mByteSize += mResource->SizeOfIncludingThis(aSizes->mMallocSizeOf); } } already_AddRefed ChannelMediaDecoder::GetCurrentPrincipal() { MOZ_ASSERT(NS_IsMainThread()); return mResource ? mResource->GetCurrentPrincipal() : nullptr; } bool ChannelMediaDecoder::HadCrossOriginRedirects() { MOZ_ASSERT(NS_IsMainThread()); return mResource ? mResource->HadCrossOriginRedirects() : false; } bool ChannelMediaDecoder::IsTransportSeekable() { MOZ_ASSERT(NS_IsMainThread()); return mResource->IsTransportSeekable(); } void ChannelMediaDecoder::SetLoadInBackground(bool aLoadInBackground) { MOZ_ASSERT(NS_IsMainThread()); if (mResource) { mResource->SetLoadInBackground(aLoadInBackground); } } void ChannelMediaDecoder::Suspend() { MOZ_ASSERT(NS_IsMainThread()); if (mResource) { mResource->Suspend(true); } MediaDecoder::Suspend(); } void ChannelMediaDecoder::Resume() { MOZ_ASSERT(NS_IsMainThread()); if (mResource) { mResource->Resume(); } MediaDecoder::Resume(); } void ChannelMediaDecoder::MetadataLoaded( UniquePtr aInfo, UniquePtr aTags, MediaDecoderEventVisibility aEventVisibility) { MediaDecoder::MetadataLoaded(std::move(aInfo), std::move(aTags), aEventVisibility); // Set mode to PLAYBACK after reading metadata. mResource->SetReadMode(MediaCacheStream::MODE_PLAYBACK); } void ChannelMediaDecoder::GetDebugInfo(dom::MediaDecoderDebugInfo& aInfo) { MediaDecoder::GetDebugInfo(aInfo); if (mResource) { mResource->GetDebugInfo(aInfo.mResource); } } } // namespace mozilla // avoid redefined macro in unified build #undef LOG