// Copyright 2013 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "media/blink/webmediaplayer_impl.h" #include #include #include #include #include #include "base/bind.h" #include "base/bind_helpers.h" #include "base/callback.h" #include "base/callback_helpers.h" #include "base/command_line.h" #include "base/debug/alias.h" #include "base/debug/crash_logging.h" #include "base/location.h" #include "base/metrics/histogram_macros.h" #include "base/single_thread_task_runner.h" #include "base/strings/string_number_conversions.h" #include "base/task_runner_util.h" #include "base/threading/thread_task_runner_handle.h" #include "base/trace_event/trace_event.h" #include "build/build_config.h" #include "cc/blink/web_layer_impl.h" #include "cc/layers/video_layer.h" #include "media/audio/null_audio_sink.h" #include "media/base/bind_to_current_loop.h" #include "media/base/cdm_context.h" #include "media/base/limits.h" #include "media/base/media_content_type.h" #include "media/base/media_keys.h" #include "media/base/media_log.h" #include "media/base/media_switches.h" #include "media/base/media_url_demuxer.h" #include "media/base/text_renderer.h" #include "media/base/timestamp_constants.h" #include "media/base/video_frame.h" #include "media/blink/texttrack_impl.h" #include "media/blink/watch_time_reporter.h" #include "media/blink/webaudiosourceprovider_impl.h" #include "media/blink/webcontentdecryptionmodule_impl.h" #include "media/blink/webinbandtexttrack_impl.h" #include "media/blink/webmediaplayer_delegate.h" #include "media/blink/webmediaplayer_util.h" #include "media/blink/webmediasource_impl.h" #include "media/filters/chunk_demuxer.h" #include "media/filters/ffmpeg_demuxer.h" #include "third_party/WebKit/public/platform/WebEncryptedMediaTypes.h" #include "third_party/WebKit/public/platform/WebMediaPlayerClient.h" #include "third_party/WebKit/public/platform/WebMediaPlayerEncryptedMediaClient.h" #include "third_party/WebKit/public/platform/WebMediaPlayerSource.h" #include "third_party/WebKit/public/platform/WebMediaSource.h" #include "third_party/WebKit/public/platform/WebRect.h" #include "third_party/WebKit/public/platform/WebSecurityOrigin.h" #include "third_party/WebKit/public/platform/WebSize.h" #include "third_party/WebKit/public/platform/WebString.h" #include "third_party/WebKit/public/platform/WebURL.h" #include "third_party/WebKit/public/web/WebDocument.h" #include "third_party/WebKit/public/web/WebFrame.h" #include "third_party/WebKit/public/web/WebLocalFrame.h" #include "third_party/WebKit/public/web/WebView.h" #if defined(OS_ANDROID) #include "media/base/android/media_codec_util.h" #endif using blink::WebCanvas; using blink::WebMediaPlayer; using blink::WebRect; using blink::WebSize; using blink::WebString; using gpu::gles2::GLES2Interface; #define STATIC_ASSERT_ENUM(a, b) \ static_assert(static_cast(a) == static_cast(b), \ "mismatching enums: " #a) namespace media { namespace { // Limits the range of playback rate. // // TODO(kylep): Revisit these. // // Vista has substantially lower performance than XP or Windows7. If you speed // up a video too much, it can't keep up, and rendering stops updating except on // the time bar. For really high speeds, audio becomes a bottleneck and we just // use up the data we have, which may not achieve the speed requested, but will // not crash the tab. // // A very slow speed, ie 0.00000001x, causes the machine to lock up. (It seems // like a busy loop). It gets unresponsive, although its not completely dead. // // Also our timers are not very accurate (especially for ogg), which becomes // evident at low speeds and on Vista. Since other speeds are risky and outside // the norms, we think 1/16x to 16x is a safe and useful range for now. const double kMinRate = 0.0625; const double kMaxRate = 16.0; void SetSinkIdOnMediaThread(scoped_refptr sink, const std::string& device_id, const url::Origin& security_origin, const OutputDeviceStatusCB& callback) { sink->SwitchOutputDevice(device_id, security_origin, callback); } bool IsBackgroundedSuspendEnabled() { #if !defined(OS_ANDROID) // Suspend/Resume is only enabled by default on Android. return base::CommandLine::ForCurrentProcess()->HasSwitch( switches::kEnableMediaSuspend); #else return !base::CommandLine::ForCurrentProcess()->HasSwitch( switches::kDisableMediaSuspend); #endif } bool IsResumeBackgroundVideosEnabled() { return base::FeatureList::IsEnabled(kResumeBackgroundVideo); } bool IsNetworkStateError(blink::WebMediaPlayer::NetworkState state) { bool result = state == blink::WebMediaPlayer::NetworkStateFormatError || state == blink::WebMediaPlayer::NetworkStateNetworkError || state == blink::WebMediaPlayer::NetworkStateDecodeError; DCHECK_EQ(state > blink::WebMediaPlayer::NetworkStateLoaded, result); return result; } gfx::Size GetRotatedVideoSize(VideoRotation rotation, gfx::Size natural_size) { if (rotation == VIDEO_ROTATION_90 || rotation == VIDEO_ROTATION_270) return gfx::Size(natural_size.height(), natural_size.width()); return natural_size; } base::TimeDelta GetCurrentTimeInternal(WebMediaPlayerImpl* p_this) { // We wrap currentTime() instead of using pipeline_.GetMediaTime() since there // are a variety of cases in which that time is not accurate; e.g., while // remoting and during a pause or seek. return base::TimeDelta::FromSecondsD(p_this->currentTime()); } // How much time must have elapsed since loading last progressed before the // player is eligible for idle suspension. constexpr base::TimeDelta kLoadingToIdleTimeout = base::TimeDelta::FromSeconds(3); } // namespace class BufferedDataSourceHostImpl; STATIC_ASSERT_ENUM(WebMediaPlayer::CORSModeUnspecified, UrlData::CORS_UNSPECIFIED); STATIC_ASSERT_ENUM(WebMediaPlayer::CORSModeAnonymous, UrlData::CORS_ANONYMOUS); STATIC_ASSERT_ENUM(WebMediaPlayer::CORSModeUseCredentials, UrlData::CORS_USE_CREDENTIALS); #define BIND_TO_RENDER_LOOP(function) \ (DCHECK(main_task_runner_->BelongsToCurrentThread()), \ BindToCurrentLoop(base::Bind(function, AsWeakPtr()))) #define BIND_TO_RENDER_LOOP1(function, arg1) \ (DCHECK(main_task_runner_->BelongsToCurrentThread()), \ BindToCurrentLoop(base::Bind(function, AsWeakPtr(), arg1))) WebMediaPlayerImpl::WebMediaPlayerImpl( blink::WebLocalFrame* frame, blink::WebMediaPlayerClient* client, blink::WebMediaPlayerEncryptedMediaClient* encrypted_client, base::WeakPtr delegate, std::unique_ptr renderer_factory, linked_ptr url_index, const WebMediaPlayerParams& params) : frame_(frame), delegate_state_(DelegateState::GONE), is_idle_(false), must_suspend_(false), network_state_(WebMediaPlayer::NetworkStateEmpty), ready_state_(WebMediaPlayer::ReadyStateHaveNothing), highest_ready_state_(WebMediaPlayer::ReadyStateHaveNothing), preload_(MultibufferDataSource::AUTO), buffering_strategy_(MultibufferDataSource::BUFFERING_STRATEGY_NORMAL), main_task_runner_(base::ThreadTaskRunnerHandle::Get()), media_task_runner_(params.media_task_runner()), worker_task_runner_(params.worker_task_runner()), media_log_(params.media_log()), pipeline_(media_task_runner_, media_log_.get()), pipeline_controller_( &pipeline_, base::Bind(&WebMediaPlayerImpl::CreateRenderer, base::Unretained(this)), base::Bind(&WebMediaPlayerImpl::OnPipelineSeeked, AsWeakPtr()), base::Bind(&WebMediaPlayerImpl::OnPipelineSuspended, AsWeakPtr()), base::Bind(&WebMediaPlayerImpl::OnError, AsWeakPtr())), load_type_(LoadTypeURL), opaque_(false), playback_rate_(0.0), paused_(true), seeking_(false), pending_suspend_resume_cycle_(false), ended_(false), should_notify_time_changed_(false), overlay_enabled_(false), decoder_requires_restart_for_overlay_(false), client_(client), encrypted_client_(encrypted_client), delegate_(delegate), delegate_id_(0), defer_load_cb_(params.defer_load_cb()), context_3d_cb_(params.context_3d_cb()), adjust_allocated_memory_cb_(params.adjust_allocated_memory_cb()), last_reported_memory_usage_(0), supports_save_(true), chunk_demuxer_(NULL), url_index_(url_index), // Threaded compositing isn't enabled universally yet. compositor_task_runner_(params.compositor_task_runner() ? params.compositor_task_runner() : base::ThreadTaskRunnerHandle::Get()), compositor_(new VideoFrameCompositor(compositor_task_runner_)), #if defined(OS_ANDROID) // WMPI_CAST cast_impl_(this, client_, params.context_3d_cb()), #endif volume_(1.0), volume_multiplier_(1.0), renderer_factory_(std::move(renderer_factory)), surface_manager_(params.surface_manager()), overlay_surface_id_(SurfaceManager::kNoSurfaceID), suppress_destruction_errors_(false), can_suspend_state_(CanSuspendState::UNKNOWN), use_fallback_path_(false), is_encrypted_(false), underflow_count_(0), observer_(params.media_observer()) { DCHECK(!adjust_allocated_memory_cb_.is_null()); DCHECK(renderer_factory_); DCHECK(client_); tick_clock_.reset(new base::DefaultTickClock()); force_video_overlays_ = base::CommandLine::ForCurrentProcess()->HasSwitch( switches::kForceVideoOverlays); disable_fullscreen_video_overlays_ = !base::FeatureList::IsEnabled(media::kOverlayFullscreenVideo); if (delegate_) delegate_id_ = delegate_->AddObserver(this); media_log_->AddEvent( media_log_->CreateEvent(MediaLogEvent::WEBMEDIAPLAYER_CREATED)); if (params.initial_cdm()) SetCdm(params.initial_cdm()); // TODO(xhwang): When we use an external Renderer, many methods won't work, // e.g. GetCurrentFrameFromCompositor(). See http://crbug.com/434861 audio_source_provider_ = new WebAudioSourceProviderImpl(params.audio_renderer_sink(), media_log_); } WebMediaPlayerImpl::~WebMediaPlayerImpl() { DCHECK(main_task_runner_->BelongsToCurrentThread()); suppress_destruction_errors_ = true; if (delegate_) { delegate_->PlayerGone(delegate_id_); delegate_->RemoveObserver(delegate_id_); } // Finalize any watch time metrics before destroying the pipeline. watch_time_reporter_.reset(); // Pipeline must be stopped before it is destroyed. pipeline_.Stop(); if (last_reported_memory_usage_) adjust_allocated_memory_cb_.Run(-last_reported_memory_usage_); // Destruct compositor resources in the proper order. client_->setWebLayer(nullptr); if (video_weblayer_) static_cast(video_weblayer_->layer())->StopUsingProvider(); compositor_task_runner_->DeleteSoon(FROM_HERE, compositor_); media_log_->AddEvent( media_log_->CreateEvent(MediaLogEvent::WEBMEDIAPLAYER_DESTROYED)); } void WebMediaPlayerImpl::load(LoadType load_type, const blink::WebMediaPlayerSource& source, CORSMode cors_mode) { // Only URL or MSE blob URL is supported. DCHECK(source.isURL()); blink::WebURL url = source.getAsURL(); DVLOG(1) << __func__ << "(" << load_type << ", " << url << ", " << cors_mode << ")"; if (!defer_load_cb_.is_null()) { defer_load_cb_.Run(base::Bind( &WebMediaPlayerImpl::DoLoad, AsWeakPtr(), load_type, url, cors_mode)); return; } DoLoad(load_type, url, cors_mode); } bool WebMediaPlayerImpl::supportsOverlayFullscreenVideo() { #if defined(OS_ANDROID) return true; #else return false; #endif } void WebMediaPlayerImpl::EnableOverlay() { overlay_enabled_ = true; if (surface_manager_) { surface_created_cb_.Reset( base::Bind(&WebMediaPlayerImpl::OnSurfaceCreated, AsWeakPtr())); surface_manager_->CreateFullscreenSurface(pipeline_metadata_.natural_size, surface_created_cb_.callback()); } if (decoder_requires_restart_for_overlay_) ScheduleRestart(); } void WebMediaPlayerImpl::DisableOverlay() { overlay_enabled_ = false; surface_created_cb_.Cancel(); overlay_surface_id_ = SurfaceManager::kNoSurfaceID; if (decoder_requires_restart_for_overlay_) ScheduleRestart(); else if (!set_surface_cb_.is_null()) set_surface_cb_.Run(overlay_surface_id_); } void WebMediaPlayerImpl::enteredFullscreen() { // |force_video_overlays_| implies that we're already in overlay mode, so take // no action here. Otherwise, switch to an overlay if it's allowed and if // it will display properly. if (!force_video_overlays_ && !disable_fullscreen_video_overlays_ && DoesOverlaySupportMetadata()) { EnableOverlay(); } if (observer_) observer_->OnEnteredFullscreen(); } void WebMediaPlayerImpl::exitedFullscreen() { // If we're in overlay mode, then exit it unless we're supposed to be in // overlay mode all the time. if (!force_video_overlays_ && overlay_enabled_) DisableOverlay(); if (observer_) observer_->OnExitedFullscreen(); } void WebMediaPlayerImpl::DoLoad(LoadType load_type, const blink::WebURL& url, CORSMode cors_mode) { DVLOG(1) << __func__; DCHECK(main_task_runner_->BelongsToCurrentThread()); GURL gurl(url); ReportMetrics(load_type, gurl, frame_->getSecurityOrigin()); // Set subresource URL for crash reporting. base::debug::SetCrashKeyValue("subresource_url", gurl.spec()); if (use_fallback_path_) fallback_url_ = gurl; load_type_ = load_type; SetNetworkState(WebMediaPlayer::NetworkStateLoading); SetReadyState(WebMediaPlayer::ReadyStateHaveNothing); media_log_->AddEvent(media_log_->CreateLoadEvent(url.string().utf8())); // Media source pipelines can start immediately. if (load_type == LoadTypeMediaSource) { supports_save_ = false; StartPipeline(); } else { data_source_.reset(new MultibufferDataSource( url, static_cast(cors_mode), main_task_runner_, url_index_, frame_, media_log_.get(), &buffered_data_source_host_, base::Bind(&WebMediaPlayerImpl::NotifyDownloading, AsWeakPtr()))); data_source_->SetPreload(preload_); data_source_->SetBufferingStrategy(buffering_strategy_); data_source_->Initialize( base::Bind(&WebMediaPlayerImpl::DataSourceInitialized, AsWeakPtr())); } #if defined(OS_ANDROID) // WMPI_CAST cast_impl_.Initialize(url, frame_, delegate_id_); #endif } void WebMediaPlayerImpl::play() { DVLOG(1) << __func__; DCHECK(main_task_runner_->BelongsToCurrentThread()); #if defined(OS_ANDROID) // WMPI_CAST if (isRemote()) { cast_impl_.play(); return; } #endif paused_ = false; is_idle_ = false; pipeline_.SetPlaybackRate(playback_rate_); background_pause_timer_.Stop(); if (data_source_) data_source_->MediaIsPlaying(); DCHECK(watch_time_reporter_); watch_time_reporter_->OnPlaying(); media_log_->AddEvent(media_log_->CreateEvent(MediaLogEvent::PLAY)); UpdatePlayState(); } void WebMediaPlayerImpl::pause() { DVLOG(1) << __func__; DCHECK(main_task_runner_->BelongsToCurrentThread()); // We update the paused state even when casting, since we expect pause() to be // called when casting begins, and when we exit casting we should end up in a // paused state. paused_ = true; #if defined(OS_ANDROID) // WMPI_CAST if (isRemote()) { cast_impl_.pause(); return; } #endif pipeline_.SetPlaybackRate(0.0); // pause() may be called after playback has ended and the HTMLMediaElement // requires that currentTime() == duration() after ending. We want to ensure // |paused_time_| matches currentTime() in this case or a future seek() may // incorrectly discard what it thinks is a seek to the existing time. paused_time_ = ended_ ? pipeline_.GetMediaDuration() : pipeline_.GetMediaTime(); DCHECK(watch_time_reporter_); watch_time_reporter_->OnPaused(); media_log_->AddEvent(media_log_->CreateEvent(MediaLogEvent::PAUSE)); UpdatePlayState(); } bool WebMediaPlayerImpl::supportsSave() const { DCHECK(main_task_runner_->BelongsToCurrentThread()); return supports_save_; } void WebMediaPlayerImpl::seek(double seconds) { DVLOG(1) << __func__ << "(" << seconds << "s)"; DCHECK(main_task_runner_->BelongsToCurrentThread()); DoSeek(base::TimeDelta::FromSecondsD(seconds), true); } void WebMediaPlayerImpl::DoSeek(base::TimeDelta time, bool time_updated) { DCHECK(main_task_runner_->BelongsToCurrentThread()); #if defined(OS_ANDROID) // WMPI_CAST if (isRemote()) { cast_impl_.seek(time); return; } #endif ReadyState old_state = ready_state_; if (ready_state_ > WebMediaPlayer::ReadyStateHaveMetadata) SetReadyState(WebMediaPlayer::ReadyStateHaveMetadata); // When paused, we know exactly what the current time is and can elide seeks // to it. However, there are two cases that are not elided: // 1) When the pipeline state is not stable. // In this case we just let |pipeline_controller_| decide what to do, as // it has complete information. // 2) For MSE. // Because the buffers may have changed between seeks, MSE seeks are // never elided. if (paused_ && pipeline_controller_.IsStable() && paused_time_ == time && !chunk_demuxer_) { // If the ready state was high enough before, we can indicate that the seek // completed just by restoring it. Otherwise we will just wait for the real // ready state change to eventually happen. if (old_state == ReadyStateHaveEnoughData) { main_task_runner_->PostTask( FROM_HERE, base::Bind(&WebMediaPlayerImpl::OnBufferingStateChange, AsWeakPtr(), BUFFERING_HAVE_ENOUGH)); } return; } // Call this before setting |seeking_| so that the current media time can be // recorded by the reporter. if (watch_time_reporter_) watch_time_reporter_->OnSeeking(); // TODO(sandersd): Ideally we would not clear the idle state if // |pipeline_controller_| can elide the seek. is_idle_ = false; ended_ = false; seeking_ = true; seek_time_ = time; if (paused_) paused_time_ = time; pipeline_controller_.Seek(time, time_updated); // This needs to be called after Seek() so that if a resume is triggered, it // is to the correct time. UpdatePlayState(); } void WebMediaPlayerImpl::setRate(double rate) { DVLOG(1) << __func__ << "(" << rate << ")"; DCHECK(main_task_runner_->BelongsToCurrentThread()); // TODO(kylep): Remove when support for negatives is added. Also, modify the // following checks so rewind uses reasonable values also. if (rate < 0.0) return; // Limit rates to reasonable values by clamping. if (rate != 0.0) { if (rate < kMinRate) rate = kMinRate; else if (rate > kMaxRate) rate = kMaxRate; } playback_rate_ = rate; if (!paused_) { pipeline_.SetPlaybackRate(rate); if (data_source_) data_source_->MediaPlaybackRateChanged(rate); } } void WebMediaPlayerImpl::setVolume(double volume) { DVLOG(1) << __func__ << "(" << volume << ")"; DCHECK(main_task_runner_->BelongsToCurrentThread()); volume_ = volume; pipeline_.SetVolume(volume_ * volume_multiplier_); if (watch_time_reporter_) watch_time_reporter_->OnVolumeChange(volume); // The play state is updated because the player might have left the autoplay // muted state. UpdatePlayState(); } void WebMediaPlayerImpl::setSinkId( const blink::WebString& sink_id, const blink::WebSecurityOrigin& security_origin, blink::WebSetSinkIdCallbacks* web_callback) { DCHECK(main_task_runner_->BelongsToCurrentThread()); DVLOG(1) << __func__; media::OutputDeviceStatusCB callback = media::ConvertToOutputDeviceStatusCB(web_callback); media_task_runner_->PostTask( FROM_HERE, base::Bind(&SetSinkIdOnMediaThread, audio_source_provider_, sink_id.utf8(), static_cast(security_origin), callback)); } STATIC_ASSERT_ENUM(WebMediaPlayer::PreloadNone, MultibufferDataSource::NONE); STATIC_ASSERT_ENUM(WebMediaPlayer::PreloadMetaData, MultibufferDataSource::METADATA); STATIC_ASSERT_ENUM(WebMediaPlayer::PreloadAuto, MultibufferDataSource::AUTO); void WebMediaPlayerImpl::setPreload(WebMediaPlayer::Preload preload) { DVLOG(1) << __func__ << "(" << preload << ")"; DCHECK(main_task_runner_->BelongsToCurrentThread()); preload_ = static_cast(preload); if (data_source_) data_source_->SetPreload(preload_); } STATIC_ASSERT_ENUM(WebMediaPlayer::BufferingStrategy::Normal, MultibufferDataSource::BUFFERING_STRATEGY_NORMAL); STATIC_ASSERT_ENUM(WebMediaPlayer::BufferingStrategy::Aggressive, MultibufferDataSource::BUFFERING_STRATEGY_AGGRESSIVE); void WebMediaPlayerImpl::setBufferingStrategy( WebMediaPlayer::BufferingStrategy buffering_strategy) { DVLOG(1) << __func__; DCHECK(main_task_runner_->BelongsToCurrentThread()); #if defined(OS_ANDROID) // We disallow aggressive buffering on Android since it matches the behavior // of the platform media player and may have data usage penalties. // TODO(dalecurtis, hubbe): We should probably stop using "pause-and-buffer" // everywhere. See http://crbug.com/594669 for more details. buffering_strategy_ = MultibufferDataSource::BUFFERING_STRATEGY_NORMAL; #else buffering_strategy_ = static_cast(buffering_strategy); #endif if (data_source_) data_source_->SetBufferingStrategy(buffering_strategy_); } bool WebMediaPlayerImpl::hasVideo() const { DCHECK(main_task_runner_->BelongsToCurrentThread()); return pipeline_metadata_.has_video; } bool WebMediaPlayerImpl::hasAudio() const { DCHECK(main_task_runner_->BelongsToCurrentThread()); return pipeline_metadata_.has_audio; } void WebMediaPlayerImpl::enabledAudioTracksChanged( const blink::WebVector& enabledTrackIds) { DCHECK(main_task_runner_->BelongsToCurrentThread()); std::ostringstream logstr; std::vector enabledMediaTrackIds; for (const auto& blinkTrackId : enabledTrackIds) { MediaTrack::Id track_id = blinkTrackId.utf8().data(); logstr << track_id << " "; enabledMediaTrackIds.push_back(track_id); } MEDIA_LOG(INFO, media_log_) << "Enabled audio tracks: [" << logstr.str() << "]"; pipeline_.OnEnabledAudioTracksChanged(enabledMediaTrackIds); } void WebMediaPlayerImpl::selectedVideoTrackChanged( blink::WebMediaPlayer::TrackId* selectedTrackId) { DCHECK(main_task_runner_->BelongsToCurrentThread()); std::ostringstream logstr; std::vector selectedVideoMediaTrackId; if (selectedTrackId) { selectedVideoMediaTrackId.push_back(selectedTrackId->utf8().data()); logstr << selectedVideoMediaTrackId[0]; } MEDIA_LOG(INFO, media_log_) << "Selected video track: [" << logstr.str() << "]"; pipeline_.OnSelectedVideoTrackChanged(selectedVideoMediaTrackId); } blink::WebSize WebMediaPlayerImpl::naturalSize() const { DCHECK(main_task_runner_->BelongsToCurrentThread()); return blink::WebSize(pipeline_metadata_.natural_size); } bool WebMediaPlayerImpl::paused() const { DCHECK(main_task_runner_->BelongsToCurrentThread()); #if defined(OS_ANDROID) // WMPI_CAST if (isRemote()) return cast_impl_.paused(); #endif return pipeline_.GetPlaybackRate() == 0.0f; } bool WebMediaPlayerImpl::seeking() const { DCHECK(main_task_runner_->BelongsToCurrentThread()); if (ready_state_ == WebMediaPlayer::ReadyStateHaveNothing) return false; return seeking_; } double WebMediaPlayerImpl::duration() const { DCHECK(main_task_runner_->BelongsToCurrentThread()); if (ready_state_ == WebMediaPlayer::ReadyStateHaveNothing) return std::numeric_limits::quiet_NaN(); return GetPipelineDuration(); } double WebMediaPlayerImpl::timelineOffset() const { DCHECK(main_task_runner_->BelongsToCurrentThread()); if (pipeline_metadata_.timeline_offset.is_null()) return std::numeric_limits::quiet_NaN(); return pipeline_metadata_.timeline_offset.ToJsTime(); } double WebMediaPlayerImpl::currentTime() const { DCHECK(main_task_runner_->BelongsToCurrentThread()); DCHECK_NE(ready_state_, WebMediaPlayer::ReadyStateHaveNothing); // TODO(scherkus): Replace with an explicit ended signal to HTMLMediaElement, // see http://crbug.com/409280 if (ended_) return duration(); if (seeking()) return seek_time_.InSecondsF(); #if defined(OS_ANDROID) // WMPI_CAST if (isRemote()) return cast_impl_.currentTime(); #endif if (paused_) return paused_time_.InSecondsF(); return pipeline_.GetMediaTime().InSecondsF(); } WebMediaPlayer::NetworkState WebMediaPlayerImpl::getNetworkState() const { DCHECK(main_task_runner_->BelongsToCurrentThread()); return network_state_; } WebMediaPlayer::ReadyState WebMediaPlayerImpl::getReadyState() const { DCHECK(main_task_runner_->BelongsToCurrentThread()); return ready_state_; } blink::WebString WebMediaPlayerImpl::getErrorMessage() { DCHECK(main_task_runner_->BelongsToCurrentThread()); return blink::WebString::fromUTF8(media_log_->GetLastErrorMessage()); } blink::WebTimeRanges WebMediaPlayerImpl::buffered() const { DCHECK(main_task_runner_->BelongsToCurrentThread()); Ranges buffered_time_ranges = pipeline_.GetBufferedTimeRanges(); const base::TimeDelta duration = pipeline_.GetMediaDuration(); if (duration != kInfiniteDuration) { buffered_data_source_host_.AddBufferedTimeRanges( &buffered_time_ranges, duration); } return ConvertToWebTimeRanges(buffered_time_ranges); } blink::WebTimeRanges WebMediaPlayerImpl::seekable() const { DCHECK(main_task_runner_->BelongsToCurrentThread()); if (ready_state_ < WebMediaPlayer::ReadyStateHaveMetadata) return blink::WebTimeRanges(); const double seekable_end = duration(); // Allow a special exception for seeks to zero for streaming sources with a // finite duration; this allows looping to work. const bool allow_seek_to_zero = data_source_ && data_source_->IsStreaming() && std::isfinite(seekable_end); // TODO(dalecurtis): Technically this allows seeking on media which return an // infinite duration so long as DataSource::IsStreaming() is false. While not // expected, disabling this breaks semi-live players, http://crbug.com/427412. const blink::WebTimeRange seekable_range( 0.0, allow_seek_to_zero ? 0.0 : seekable_end); return blink::WebTimeRanges(&seekable_range, 1); } bool WebMediaPlayerImpl::didLoadingProgress() { DCHECK(main_task_runner_->BelongsToCurrentThread()); // Note: Separate variables used to ensure both methods are called every time. const bool pipeline_progress = pipeline_.DidLoadingProgress(); const bool data_progress = buffered_data_source_host_.DidLoadingProgress(); const bool did_loading_progress = pipeline_progress || data_progress; // If we've idle suspended before reaching kHaveFutureData and loading has // progressed we need to spin up the renderer and figure out if we have enough // data yet; |client_| may be waiting on this signal to trigger playback. The // idle timeout is long enough that this is a low-cost operation. if (highest_ready_state_ < ReadyState::ReadyStateHaveFutureData && pipeline_controller_.IsSuspended() && did_loading_progress && is_idle_) { is_idle_ = false; UpdatePlayState(); } if (did_loading_progress) last_time_loading_progressed_ = tick_clock_->NowTicks(); return did_loading_progress; } void WebMediaPlayerImpl::paint(blink::WebCanvas* canvas, const blink::WebRect& rect, SkPaint& paint) { DCHECK(main_task_runner_->BelongsToCurrentThread()); TRACE_EVENT0("media", "WebMediaPlayerImpl:paint"); // TODO(sandersd): Move this check into GetCurrentFrameFromCompositor() when // we have other ways to check if decoder owns video frame. // See http://crbug.com/595716 and http://crbug.com/602708 if (cdm_) return; scoped_refptr video_frame = GetCurrentFrameFromCompositor(); gfx::Rect gfx_rect(rect); Context3D context_3d; if (video_frame.get() && video_frame->HasTextures()) { if (!context_3d_cb_.is_null()) context_3d = context_3d_cb_.Run(); if (!context_3d.gl) return; // Unable to get/create a shared main thread context. if (!context_3d.gr_context) return; // The context has been lost since and can't setup a GrContext. } skcanvas_video_renderer_.Paint(video_frame, canvas, gfx::RectF(gfx_rect), paint, pipeline_metadata_.video_rotation, context_3d); } bool WebMediaPlayerImpl::hasSingleSecurityOrigin() const { if (data_source_) return data_source_->HasSingleOrigin(); return true; } bool WebMediaPlayerImpl::didPassCORSAccessCheck() const { if (data_source_) return data_source_->DidPassCORSAccessCheck(); return false; } double WebMediaPlayerImpl::mediaTimeForTimeValue(double timeValue) const { return base::TimeDelta::FromSecondsD(timeValue).InSecondsF(); } unsigned WebMediaPlayerImpl::decodedFrameCount() const { DCHECK(main_task_runner_->BelongsToCurrentThread()); PipelineStatistics stats = pipeline_.GetStatistics(); return stats.video_frames_decoded; } unsigned WebMediaPlayerImpl::droppedFrameCount() const { DCHECK(main_task_runner_->BelongsToCurrentThread()); PipelineStatistics stats = pipeline_.GetStatistics(); return stats.video_frames_dropped; } size_t WebMediaPlayerImpl::audioDecodedByteCount() const { DCHECK(main_task_runner_->BelongsToCurrentThread()); PipelineStatistics stats = pipeline_.GetStatistics(); return stats.audio_bytes_decoded; } size_t WebMediaPlayerImpl::videoDecodedByteCount() const { DCHECK(main_task_runner_->BelongsToCurrentThread()); PipelineStatistics stats = pipeline_.GetStatistics(); return stats.video_bytes_decoded; } bool WebMediaPlayerImpl::copyVideoTextureToPlatformTexture( gpu::gles2::GLES2Interface* gl, unsigned int texture, unsigned int internal_format, unsigned int type, bool premultiply_alpha, bool flip_y) { DCHECK(main_task_runner_->BelongsToCurrentThread()); TRACE_EVENT0("media", "WebMediaPlayerImpl:copyVideoTextureToPlatformTexture"); // TODO(sandersd): Move this check into GetCurrentFrameFromCompositor() when // we have other ways to check if decoder owns video frame. // See http://crbug.com/595716 and http://crbug.com/602708 if (cdm_) return false; scoped_refptr video_frame = GetCurrentFrameFromCompositor(); if (!video_frame.get() || !video_frame->HasTextures()) { return false; } Context3D context_3d; if (!context_3d_cb_.is_null()) context_3d = context_3d_cb_.Run(); return skcanvas_video_renderer_.CopyVideoFrameTexturesToGLTexture( context_3d, gl, video_frame.get(), texture, internal_format, type, premultiply_alpha, flip_y); } void WebMediaPlayerImpl::setContentDecryptionModule( blink::WebContentDecryptionModule* cdm, blink::WebContentDecryptionModuleResult result) { DCHECK(main_task_runner_->BelongsToCurrentThread()); // Once the CDM is set it can't be cleared as there may be frames being // decrypted on other threads. So fail this request. // http://crbug.com/462365#c7. if (!cdm) { result.completeWithError( blink::WebContentDecryptionModuleExceptionInvalidStateError, 0, "The existing MediaKeys object cannot be removed at this time."); return; } // Create a local copy of |result| to avoid problems with the callback // getting passed to the media thread and causing |result| to be destructed // on the wrong thread in some failure conditions. Blink should prevent // multiple simultaneous calls. DCHECK(!set_cdm_result_); set_cdm_result_.reset(new blink::WebContentDecryptionModuleResult(result)); // Recreate the watch time reporter if necessary. const bool was_encrypted = is_encrypted_; is_encrypted_ = true; if (!was_encrypted && watch_time_reporter_) CreateWatchTimeReporter(); SetCdm(cdm); } void WebMediaPlayerImpl::OnEncryptedMediaInitData( EmeInitDataType init_data_type, const std::vector& init_data) { DCHECK(init_data_type != EmeInitDataType::UNKNOWN); // TODO(xhwang): Update this UMA name. https://crbug.com/589251 UMA_HISTOGRAM_COUNTS("Media.EME.NeedKey", 1); // Recreate the watch time reporter if necessary. const bool was_encrypted = is_encrypted_; is_encrypted_ = true; if (!was_encrypted && watch_time_reporter_) CreateWatchTimeReporter(); encrypted_client_->encrypted( ConvertToWebInitDataType(init_data_type), init_data.data(), base::saturated_cast(init_data.size())); } void WebMediaPlayerImpl::OnFFmpegMediaTracksUpdated( std::unique_ptr tracks) { // For MSE/chunk_demuxer case the media track updates are handled by // WebSourceBufferImpl. DCHECK(demuxer_.get()); DCHECK(!chunk_demuxer_); // Report the media track information to blink. for (const auto& track : tracks->tracks()) { if (track->type() == MediaTrack::Audio) { client_->addAudioTrack(blink::WebString::fromUTF8(track->id()), blink::WebMediaPlayerClient::AudioTrackKindMain, blink::WebString::fromUTF8(track->label()), blink::WebString::fromUTF8(track->language()), /*enabled*/ true); } else if (track->type() == MediaTrack::Video) { client_->addVideoTrack(blink::WebString::fromUTF8(track->id()), blink::WebMediaPlayerClient::VideoTrackKindMain, blink::WebString::fromUTF8(track->label()), blink::WebString::fromUTF8(track->language()), /*selected*/ true); } else { // Text tracks are not supported through this code path yet. NOTREACHED(); } } } void WebMediaPlayerImpl::SetCdm(blink::WebContentDecryptionModule* cdm) { DCHECK(main_task_runner_->BelongsToCurrentThread()); DCHECK(cdm); scoped_refptr cdm_reference = ToWebContentDecryptionModuleImpl(cdm)->GetCdm(); if (!cdm_reference) { NOTREACHED(); OnCdmAttached(false); return; } CdmContext* cdm_context = cdm_reference->GetCdmContext(); if (!cdm_context) { OnCdmAttached(false); return; } if (observer_) observer_->OnSetCdm(cdm_context); // Keep the reference to the CDM, as it shouldn't be destroyed until // after the pipeline is done with the |cdm_context|. pending_cdm_ = std::move(cdm_reference); pipeline_.SetCdm(cdm_context, base::Bind(&WebMediaPlayerImpl::OnCdmAttached, AsWeakPtr())); } void WebMediaPlayerImpl::OnCdmAttached(bool success) { DCHECK(main_task_runner_->BelongsToCurrentThread()); DCHECK(pending_cdm_); // If the CDM is set from the constructor there is no promise // (|set_cdm_result_|) to fulfill. if (success) { // This will release the previously attached CDM (if any). cdm_ = std::move(pending_cdm_); if (set_cdm_result_) { set_cdm_result_->complete(); set_cdm_result_.reset(); } return; } pending_cdm_ = nullptr; if (set_cdm_result_) { set_cdm_result_->completeWithError( blink::WebContentDecryptionModuleExceptionNotSupportedError, 0, "Unable to set MediaKeys object"); set_cdm_result_.reset(); } } void WebMediaPlayerImpl::OnPipelineSeeked(bool time_updated) { seeking_ = false; seek_time_ = base::TimeDelta(); if (paused_) { #if defined(OS_ANDROID) // WMPI_CAST if (isRemote()) { paused_time_ = base::TimeDelta::FromSecondsD(cast_impl_.currentTime()); } else { paused_time_ = pipeline_.GetMediaTime(); } #else paused_time_ = pipeline_.GetMediaTime(); #endif } else { DCHECK(watch_time_reporter_); watch_time_reporter_->OnPlaying(); } if (time_updated) should_notify_time_changed_ = true; // Reset underflow count upon seek; this prevents looping videos and user // actions from artificially inflating the underflow count. underflow_count_ = 0; } void WebMediaPlayerImpl::OnPipelineSuspended() { #if defined(OS_ANDROID) if (isRemote()) { scoped_refptr frame = cast_impl_.GetCastingBanner(); if (frame) compositor_->PaintSingleFrame(frame); } #endif // If we're not in an aggressive buffering state, tell the data source we have // enough data so that it may release the connection. if (buffering_strategy_ != MultibufferDataSource::BUFFERING_STRATEGY_AGGRESSIVE) { if (data_source_) data_source_->OnBufferingHaveEnough(true); } ReportMemoryUsage(); if (pending_suspend_resume_cycle_) { pending_suspend_resume_cycle_ = false; UpdatePlayState(); } } void WebMediaPlayerImpl::OnDemuxerOpened() { DCHECK(main_task_runner_->BelongsToCurrentThread()); client_->mediaSourceOpened( new WebMediaSourceImpl(chunk_demuxer_, media_log_)); } void WebMediaPlayerImpl::OnError(PipelineStatus status) { DVLOG(1) << __func__; DCHECK(main_task_runner_->BelongsToCurrentThread()); DCHECK_NE(status, PIPELINE_OK); if (suppress_destruction_errors_) return; ReportPipelineError(load_type_, frame_->getSecurityOrigin(), status); media_log_->AddEvent(media_log_->CreatePipelineErrorEvent(status)); if (ready_state_ == WebMediaPlayer::ReadyStateHaveNothing) { // Any error that occurs before reaching ReadyStateHaveMetadata should // be considered a format error. SetNetworkState(WebMediaPlayer::NetworkStateFormatError); } else { SetNetworkState(PipelineErrorToNetworkState(status)); } UpdatePlayState(); } void WebMediaPlayerImpl::OnEnded() { DVLOG(1) << __func__; DCHECK(main_task_runner_->BelongsToCurrentThread()); // Ignore state changes until we've completed all outstanding operations. if (!pipeline_controller_.IsStable()) return; ended_ = true; client_->timeChanged(); // We don't actually want this to run until |client_| calls seek() or pause(), // but that should have already happened in timeChanged() and so this is // expected to be a no-op. UpdatePlayState(); } void WebMediaPlayerImpl::OnMetadata(PipelineMetadata metadata) { DVLOG(1) << __func__; DCHECK(main_task_runner_->BelongsToCurrentThread()); pipeline_metadata_ = metadata; SetReadyState(WebMediaPlayer::ReadyStateHaveMetadata); UMA_HISTOGRAM_ENUMERATION("Media.VideoRotation", metadata.video_rotation, VIDEO_ROTATION_MAX + 1); if (hasVideo()) { pipeline_metadata_.natural_size = GetRotatedVideoSize( pipeline_metadata_.video_rotation, pipeline_metadata_.natural_size); if (overlay_enabled_) { // SurfaceView doesn't support rotated video, so transition back if // the video is now rotated. If |force_video_overlays_|, we keep the // overlay anyway so that the state machine keeps working. if (!force_video_overlays_ && !DoesOverlaySupportMetadata()) DisableOverlay(); else if (surface_manager_) surface_manager_->NaturalSizeChanged(pipeline_metadata_.natural_size); } DCHECK(!video_weblayer_); video_weblayer_.reset(new cc_blink::WebLayerImpl(cc::VideoLayer::Create( compositor_, pipeline_metadata_.video_rotation))); video_weblayer_->layer()->SetContentsOpaque(opaque_); video_weblayer_->SetContentsOpaqueIsFixed(true); client_->setWebLayer(video_weblayer_.get()); } if (observer_) observer_->OnMetadataChanged(metadata); CreateWatchTimeReporter(); UpdatePlayState(); } void WebMediaPlayerImpl::OnBufferingStateChange(BufferingState state) { DVLOG(1) << __func__ << "(" << state << ")"; DCHECK(main_task_runner_->BelongsToCurrentThread()); // Ignore buffering state changes until we've completed all outstanding // operations. if (!pipeline_controller_.IsStable()) return; if (state == BUFFERING_HAVE_ENOUGH) { if (data_source_ && highest_ready_state_ < WebMediaPlayer::ReadyStateHaveEnoughData) { DCHECK_EQ(underflow_count_, 0); // Record a zero value for underflow histograms so that the histogram // includes playbacks which never encounter an underflow event. UMA_HISTOGRAM_COUNTS_100("Media.UnderflowCount", 0); UMA_HISTOGRAM_TIMES("Media.UnderflowDuration", base::TimeDelta()); } // TODO(chcunningham): Monitor playback position vs buffered. Potentially // transition to HAVE_FUTURE_DATA here if not enough is buffered. SetReadyState(WebMediaPlayer::ReadyStateHaveEnoughData); // Let the DataSource know we have enough data. It may use this information // to release unused network connections. if (data_source_) data_source_->OnBufferingHaveEnough(false); // Blink expects a timeChanged() in response to a seek(). if (should_notify_time_changed_) client_->timeChanged(); // Once we have enough, start reporting the total memory usage. We'll also // report once playback starts. ReportMemoryUsage(); // Report the amount of time it took to leave the underflow state. Don't // bother to report this for MSE playbacks since it's out of our control. if (underflow_timer_ && data_source_) { UMA_HISTOGRAM_TIMES("Media.UnderflowDuration", underflow_timer_->Elapsed()); underflow_timer_.reset(); } } else { // Buffering has underflowed. DCHECK_EQ(state, BUFFERING_HAVE_NOTHING); // Report the number of times we've entered the underflow state. Only report // for src= playback since for MSE it's out of our control. Ensure we only // report the value when transitioning from HAVE_ENOUGH to HAVE_NOTHING. if (data_source_ && ready_state_ == WebMediaPlayer::ReadyStateHaveEnoughData) { UMA_HISTOGRAM_COUNTS_100("Media.UnderflowCount", ++underflow_count_); underflow_timer_.reset(new base::ElapsedTimer()); } // It shouldn't be possible to underflow if we've not advanced past // HAVE_CURRENT_DATA. DCHECK_GT(highest_ready_state_, WebMediaPlayer::ReadyStateHaveCurrentData); SetReadyState(WebMediaPlayer::ReadyStateHaveCurrentData); } UpdatePlayState(); } void WebMediaPlayerImpl::OnDurationChange() { DCHECK(main_task_runner_->BelongsToCurrentThread()); // TODO(sandersd): We should call delegate_->DidPlay() with the new duration, // especially if it changed from <5s to >5s. if (ready_state_ == WebMediaPlayer::ReadyStateHaveNothing) return; client_->durationChanged(); } void WebMediaPlayerImpl::OnAddTextTrack(const TextTrackConfig& config, const AddTextTrackDoneCB& done_cb) { DCHECK(main_task_runner_->BelongsToCurrentThread()); const WebInbandTextTrackImpl::Kind web_kind = static_cast(config.kind()); const blink::WebString web_label = blink::WebString::fromUTF8(config.label()); const blink::WebString web_language = blink::WebString::fromUTF8(config.language()); const blink::WebString web_id = blink::WebString::fromUTF8(config.id()); std::unique_ptr web_inband_text_track( new WebInbandTextTrackImpl(web_kind, web_label, web_language, web_id)); std::unique_ptr text_track(new TextTrackImpl( main_task_runner_, client_, std::move(web_inband_text_track))); done_cb.Run(std::move(text_track)); } void WebMediaPlayerImpl::OnWaitingForDecryptionKey() { DCHECK(main_task_runner_->BelongsToCurrentThread()); encrypted_client_->didBlockPlaybackWaitingForKey(); // TODO(jrummell): didResumePlaybackBlockedForKey() should only be called // when a key has been successfully added (e.g. OnSessionKeysChange() with // |has_additional_usable_key| = true). http://crbug.com/461903 encrypted_client_->didResumePlaybackBlockedForKey(); } void WebMediaPlayerImpl::OnVideoNaturalSizeChange(const gfx::Size& size) { DCHECK(main_task_runner_->BelongsToCurrentThread()); DCHECK_NE(ready_state_, WebMediaPlayer::ReadyStateHaveNothing); gfx::Size rotated_size = GetRotatedVideoSize(pipeline_metadata_.video_rotation, size); if (rotated_size == pipeline_metadata_.natural_size) return; TRACE_EVENT0("media", "WebMediaPlayerImpl::OnNaturalSizeChanged"); media_log_->AddEvent(media_log_->CreateVideoSizeSetEvent( rotated_size.width(), rotated_size.height())); if (overlay_enabled_ && surface_manager_) surface_manager_->NaturalSizeChanged(rotated_size); if (pipeline_metadata_.natural_size.IsEmpty()) { // WatchTimeReporter doesn't report metrics for empty videos. Re-create // |watch_time_reporter_| if we didn't originally know the video size. CreateWatchTimeReporter(); } pipeline_metadata_.natural_size = rotated_size; client_->sizeChanged(); } void WebMediaPlayerImpl::OnVideoOpacityChange(bool opaque) { DCHECK(main_task_runner_->BelongsToCurrentThread()); DCHECK_NE(ready_state_, WebMediaPlayer::ReadyStateHaveNothing); opaque_ = opaque; // Modify content opaqueness of cc::Layer directly so that // SetContentsOpaqueIsFixed is ignored. if (video_weblayer_) video_weblayer_->layer()->SetContentsOpaque(opaque_); } void WebMediaPlayerImpl::OnHidden() { DCHECK(main_task_runner_->BelongsToCurrentThread()); if (watch_time_reporter_) watch_time_reporter_->OnHidden(); UpdatePlayState(); // Schedule suspended playing media to be paused if the user doesn't come back // to it within some timeout period to avoid any autoplay surprises. ScheduleIdlePauseTimer(); } void WebMediaPlayerImpl::OnShown() { DCHECK(main_task_runner_->BelongsToCurrentThread()); if (watch_time_reporter_) watch_time_reporter_->OnShown(); must_suspend_ = false; background_pause_timer_.Stop(); UpdatePlayState(); } bool WebMediaPlayerImpl::OnSuspendRequested(bool must_suspend) { DCHECK(main_task_runner_->BelongsToCurrentThread()); if (must_suspend) { must_suspend_ = true; UpdatePlayState(); return true; } // If we're beyond HaveFutureData, we can safely suspend at any time. if (highest_ready_state_ >= WebMediaPlayer::ReadyStateHaveFutureData) { is_idle_ = true; UpdatePlayState(); return true; } // Before HaveFutureData blink will not call play(), so we must be careful to // only suspend if we'll eventually receive an event that will trigger a // resume. If the last time loading progressed was a while ago, and we still // haven't reached HaveFutureData, we assume that we're waiting on more data // to continue pre-rolling. When that data is loaded the pipeline will be // resumed by didLoadingProgress(). if (last_time_loading_progressed_.is_null() || (tick_clock_->NowTicks() - last_time_loading_progressed_) > kLoadingToIdleTimeout) { is_idle_ = true; UpdatePlayState(); return true; } return false; } void WebMediaPlayerImpl::OnPlay() { play(); client_->playbackStateChanged(); } void WebMediaPlayerImpl::OnPause() { pause(); client_->playbackStateChanged(); } void WebMediaPlayerImpl::OnVolumeMultiplierUpdate(double multiplier) { volume_multiplier_ = multiplier; setVolume(volume_); } void WebMediaPlayerImpl::ScheduleRestart() { // TODO(watk): All restart logic should be moved into PipelineController. if (pipeline_.IsRunning() && !pipeline_controller_.IsPipelineSuspended()) { pending_suspend_resume_cycle_ = true; UpdatePlayState(); } } #if defined(OS_ANDROID) // WMPI_CAST bool WebMediaPlayerImpl::isRemote() const { return cast_impl_.isRemote(); } void WebMediaPlayerImpl::SetMediaPlayerManager( RendererMediaPlayerManagerInterface* media_player_manager) { cast_impl_.SetMediaPlayerManager(media_player_manager); } void WebMediaPlayerImpl::requestRemotePlayback() { cast_impl_.requestRemotePlayback(); } void WebMediaPlayerImpl::requestRemotePlaybackControl() { cast_impl_.requestRemotePlaybackControl(); } void WebMediaPlayerImpl::requestRemotePlaybackStop() { cast_impl_.requestRemotePlaybackStop(); } void WebMediaPlayerImpl::OnRemotePlaybackEnded() { DVLOG(1) << __func__; DCHECK(main_task_runner_->BelongsToCurrentThread()); ended_ = true; client_->timeChanged(); } void WebMediaPlayerImpl::OnDisconnectedFromRemoteDevice(double t) { DoSeek(base::TimeDelta::FromSecondsD(t), false); // We already told the delegate we're paused when remoting started. client_->playbackStateChanged(); client_->disconnectedFromRemoteDevice(); UpdatePlayState(); } void WebMediaPlayerImpl::SuspendForRemote() { if (pipeline_controller_.IsPipelineSuspended()) { scoped_refptr frame = cast_impl_.GetCastingBanner(); if (frame) compositor_->PaintSingleFrame(frame); } UpdatePlayState(); } gfx::Size WebMediaPlayerImpl::GetCanvasSize() const { if (!video_weblayer_) return pipeline_metadata_.natural_size; return video_weblayer_->bounds(); } void WebMediaPlayerImpl::SetDeviceScaleFactor(float scale_factor) { cast_impl_.SetDeviceScaleFactor(scale_factor); } void WebMediaPlayerImpl::setPoster(const blink::WebURL& poster) { cast_impl_.setPoster(poster); } void WebMediaPlayerImpl::SetUseFallbackPath(bool use_fallback_path) { use_fallback_path_ = use_fallback_path; } #endif // defined(OS_ANDROID) // WMPI_CAST void WebMediaPlayerImpl::DataSourceInitialized(bool success) { DVLOG(1) << __func__; DCHECK(main_task_runner_->BelongsToCurrentThread()); #if defined(OS_ANDROID) // We can't play HLS URLs with WebMediaPlayerImpl, so in cases where they are // encountered, instruct the HTML media element to create a new WebMediaPlayer // instance with the correct URL to trigger WebMediaPlayerAndroid creation. // // TODO(tguilbert): Remove this code path once we have the ability to host a // MediaPlayer within a Mojo media renderer. http://crbug.com/580626 if (data_source_ && !use_fallback_path_) { const GURL url_after_redirects = data_source_->GetUrlAfterRedirects(); if (MediaCodecUtil::IsHLSURL(url_after_redirects)) { client_->requestReload(url_after_redirects); // |this| may be destructed, do nothing after this. return; } } #endif if (!success) { SetNetworkState(WebMediaPlayer::NetworkStateFormatError); // Not really necessary, since the pipeline was never started, but it at // least this makes sure that the error handling code is in sync. UpdatePlayState(); return; } StartPipeline(); } void WebMediaPlayerImpl::NotifyDownloading(bool is_downloading) { DVLOG(1) << __func__; if (!is_downloading && network_state_ == WebMediaPlayer::NetworkStateLoading) SetNetworkState(WebMediaPlayer::NetworkStateIdle); else if (is_downloading && network_state_ == WebMediaPlayer::NetworkStateIdle) SetNetworkState(WebMediaPlayer::NetworkStateLoading); media_log_->AddEvent( media_log_->CreateBooleanEvent( MediaLogEvent::NETWORK_ACTIVITY_SET, "is_downloading_data", is_downloading)); } void WebMediaPlayerImpl::OnSurfaceCreated(int surface_id) { overlay_surface_id_ = surface_id; if (!set_surface_cb_.is_null()) { // If restart is required, the callback is one-shot only. if (decoder_requires_restart_for_overlay_) base::ResetAndReturn(&set_surface_cb_).Run(surface_id); else set_surface_cb_.Run(surface_id); } } void WebMediaPlayerImpl::OnSurfaceRequested( bool decoder_requires_restart_for_overlay, const SurfaceCreatedCB& set_surface_cb) { DCHECK(main_task_runner_->BelongsToCurrentThread()); DCHECK(surface_manager_); DCHECK(!use_fallback_path_); // A null callback indicates that the decoder is going away. if (set_surface_cb.is_null()) { decoder_requires_restart_for_overlay_ = false; set_surface_cb_.Reset(); return; } // If we get a surface request it means GpuVideoDecoder is initializing, so // until we get a null surface request, GVD is the active decoder. // // If |decoder_requires_restart_for_overlay| is true, we must restart the // pipeline for fullscreen transitions. The decoder is unable to switch // surfaces otherwise. If false, we simply need to tell the decoder about the // new surface and it will handle things seamlessly. decoder_requires_restart_for_overlay_ = decoder_requires_restart_for_overlay; set_surface_cb_ = set_surface_cb; // If we're waiting for the surface to arrive, OnSurfaceCreated() will be // called later when it arrives; so do nothing for now. if (overlay_enabled_ && overlay_surface_id_ == SurfaceManager::kNoSurfaceID) return; OnSurfaceCreated(overlay_surface_id_); } std::unique_ptr WebMediaPlayerImpl::CreateRenderer() { if (force_video_overlays_) EnableOverlay(); RequestSurfaceCB request_surface_cb; #if defined(OS_ANDROID) request_surface_cb = BIND_TO_RENDER_LOOP(&WebMediaPlayerImpl::OnSurfaceRequested); #endif return renderer_factory_->CreateRenderer( media_task_runner_, worker_task_runner_, audio_source_provider_.get(), compositor_, request_surface_cb); } void WebMediaPlayerImpl::StartPipeline() { DCHECK(main_task_runner_->BelongsToCurrentThread()); Demuxer::EncryptedMediaInitDataCB encrypted_media_init_data_cb = BIND_TO_RENDER_LOOP(&WebMediaPlayerImpl::OnEncryptedMediaInitData); if (use_fallback_path_) { demuxer_.reset( new MediaUrlDemuxer(media_task_runner_, fallback_url_, frame_->document().firstPartyForCookies())); pipeline_controller_.Start(demuxer_.get(), this, false, false); return; } // Figure out which demuxer to use. if (load_type_ != LoadTypeMediaSource) { DCHECK(!chunk_demuxer_); DCHECK(data_source_); #if !defined(MEDIA_DISABLE_FFMPEG) Demuxer::MediaTracksUpdatedCB media_tracks_updated_cb = BIND_TO_RENDER_LOOP(&WebMediaPlayerImpl::OnFFmpegMediaTracksUpdated); demuxer_.reset(new FFmpegDemuxer(media_task_runner_, data_source_.get(), encrypted_media_init_data_cb, media_tracks_updated_cb, media_log_)); #else OnError(PipelineStatus::DEMUXER_ERROR_COULD_NOT_OPEN); return; #endif } else { DCHECK(!chunk_demuxer_); DCHECK(!data_source_); chunk_demuxer_ = new ChunkDemuxer( BIND_TO_RENDER_LOOP(&WebMediaPlayerImpl::OnDemuxerOpened), encrypted_media_init_data_cb, media_log_); demuxer_.reset(chunk_demuxer_); } // TODO(sandersd): FileSystem objects may also be non-static, but due to our // caching layer such situations are broken already. http://crbug.com/593159 bool is_static = !chunk_demuxer_; // ... and we're ready to go! seeking_ = true; // TODO(sandersd): On Android, defer Start() if the tab is not visible. bool is_streaming = data_source_ && data_source_->IsStreaming(); pipeline_controller_.Start(demuxer_.get(), this, is_streaming, is_static); } void WebMediaPlayerImpl::SetNetworkState(WebMediaPlayer::NetworkState state) { DVLOG(1) << __func__ << "(" << state << ")"; DCHECK(main_task_runner_->BelongsToCurrentThread()); network_state_ = state; // Always notify to ensure client has the latest value. client_->networkStateChanged(); } void WebMediaPlayerImpl::SetReadyState(WebMediaPlayer::ReadyState state) { DVLOG(1) << __func__ << "(" << state << ")"; DCHECK(main_task_runner_->BelongsToCurrentThread()); if (state == WebMediaPlayer::ReadyStateHaveEnoughData && data_source_ && data_source_->assume_fully_buffered() && network_state_ == WebMediaPlayer::NetworkStateLoading) SetNetworkState(WebMediaPlayer::NetworkStateLoaded); ready_state_ = state; highest_ready_state_ = std::max(highest_ready_state_, ready_state_); // Always notify to ensure client has the latest value. client_->readyStateChanged(); } blink::WebAudioSourceProvider* WebMediaPlayerImpl::getAudioSourceProvider() { return audio_source_provider_.get(); } double WebMediaPlayerImpl::GetPipelineDuration() const { base::TimeDelta duration = pipeline_.GetMediaDuration(); // Return positive infinity if the resource is unbounded. // http://www.whatwg.org/specs/web-apps/current-work/multipage/video.html#dom-media-duration if (duration == kInfiniteDuration) return std::numeric_limits::infinity(); return duration.InSecondsF(); } static void GetCurrentFrameAndSignal( VideoFrameCompositor* compositor, scoped_refptr* video_frame_out, base::WaitableEvent* event) { TRACE_EVENT0("media", "GetCurrentFrameAndSignal"); *video_frame_out = compositor->GetCurrentFrameAndUpdateIfStale(); event->Signal(); } scoped_refptr WebMediaPlayerImpl::GetCurrentFrameFromCompositor() { DCHECK(main_task_runner_->BelongsToCurrentThread()); TRACE_EVENT0("media", "WebMediaPlayerImpl::GetCurrentFrameFromCompositor"); // Needed when the |main_task_runner_| and |compositor_task_runner_| are the // same to avoid deadlock in the Wait() below. if (compositor_task_runner_->BelongsToCurrentThread()) return compositor_->GetCurrentFrameAndUpdateIfStale(); // Use a posted task and waitable event instead of a lock otherwise // WebGL/Canvas can see different content than what the compositor is seeing. scoped_refptr video_frame; base::WaitableEvent event(base::WaitableEvent::ResetPolicy::AUTOMATIC, base::WaitableEvent::InitialState::NOT_SIGNALED); compositor_task_runner_->PostTask(FROM_HERE, base::Bind(&GetCurrentFrameAndSignal, base::Unretained(compositor_), &video_frame, &event)); event.Wait(); return video_frame; } void WebMediaPlayerImpl::UpdatePlayState() { DCHECK(main_task_runner_->BelongsToCurrentThread()); #if defined(OS_ANDROID) // WMPI_CAST bool is_remote = isRemote(); bool is_streaming = false; #else bool is_remote = false; bool is_streaming = data_source_ && data_source_->IsStreaming(); #endif bool is_suspended = pipeline_controller_.IsSuspended(); bool is_backgrounded = IsBackgroundedSuspendEnabled() && delegate_ && delegate_->IsHidden(); PlayState state = UpdatePlayState_ComputePlayState( is_remote, is_streaming, is_suspended, is_backgrounded); SetDelegateState(state.delegate_state); SetMemoryReportingState(state.is_memory_reporting_enabled); SetSuspendState(state.is_suspended || pending_suspend_resume_cycle_); } void WebMediaPlayerImpl::SetDelegateState(DelegateState new_state) { if (!delegate_) return; if (delegate_state_ == new_state) { if (delegate_state_ != DelegateState::PLAYING || autoplay_muted_ == client_->isAutoplayingMuted()) { return; } } delegate_state_ = new_state; switch (delegate_state_) { case DelegateState::GONE: delegate_->PlayerGone(delegate_id_); break; case DelegateState::PLAYING: { autoplay_muted_ = client_->isAutoplayingMuted(); bool has_audio = autoplay_muted_ ? false : hasAudio(); delegate_->DidPlay( delegate_id_, hasVideo(), has_audio, false, media::DurationToMediaContentType(pipeline_.GetMediaDuration())); break; } case DelegateState::PAUSED: delegate_->DidPause(delegate_id_, false); break; case DelegateState::ENDED: delegate_->DidPause(delegate_id_, true); break; } } void WebMediaPlayerImpl::SetMemoryReportingState( bool is_memory_reporting_enabled) { if (memory_usage_reporting_timer_.IsRunning() == is_memory_reporting_enabled) { return; } if (is_memory_reporting_enabled) { memory_usage_reporting_timer_.Start(FROM_HERE, base::TimeDelta::FromSeconds(2), this, &WebMediaPlayerImpl::ReportMemoryUsage); } else { memory_usage_reporting_timer_.Stop(); ReportMemoryUsage(); } } void WebMediaPlayerImpl::SetSuspendState(bool is_suspended) { DCHECK(main_task_runner_->BelongsToCurrentThread()); // Do not change the state after an error has occurred. // TODO(sandersd): Update PipelineController to remove the need for this. if (IsNetworkStateError(network_state_)) return; #if defined(OS_LINUX) // TODO(sandersd): idle suspend is disabled if decoder owns video frame. // Used on Chromecast. Since GetCurrentFrameFromCompositor is a synchronous // cross-thread post, avoid the cost on platforms that always allow suspend. // Need to find a better mechanism for this. See http://crbug.com/602708 if (can_suspend_state_ == CanSuspendState::UNKNOWN) { scoped_refptr frame = GetCurrentFrameFromCompositor(); if (frame) { can_suspend_state_ = frame->metadata()->IsTrue(VideoFrameMetadata::DECODER_OWNS_FRAME) ? CanSuspendState::NO : CanSuspendState::YES; } } #else can_suspend_state_ = CanSuspendState::YES; #endif if (can_suspend_state_ == CanSuspendState::NO) return; if (is_suspended) { pipeline_controller_.Suspend(); } else { pipeline_controller_.Resume(); } } WebMediaPlayerImpl::PlayState WebMediaPlayerImpl::UpdatePlayState_ComputePlayState(bool is_remote, bool is_streaming, bool is_suspended, bool is_backgrounded) { PlayState result; // This includes both data source (before pipeline startup) and pipeline // errors. bool has_error = IsNetworkStateError(network_state_); // After HaveMetadata, we know which tracks are present and the duration. bool have_metadata = ready_state_ >= WebMediaPlayer::ReadyStateHaveMetadata; // After HaveFutureData, Blink will call play() if the state is not paused; // prior to this point |paused_| is not accurate. bool have_future_data = highest_ready_state_ >= WebMediaPlayer::ReadyStateHaveFutureData; // Background suspend is not enabled for audio-only players unless paused, // though in the case of audio-only the session should be kept. // Videos are not suspended if the user resumed the playback via the remote // controls earlier and it's still playing. bool is_backgrounded_video = is_backgrounded && have_metadata && hasVideo(); bool can_play_backgrounded = is_backgrounded_video && !is_remote && hasAudio() && IsResumeBackgroundVideosEnabled(); bool is_background_playing = delegate_ && delegate_->IsPlayingBackgroundVideo(); bool background_suspended = !is_streaming && is_backgrounded_video && !(can_play_backgrounded && is_background_playing); bool background_pause_suspended = !is_streaming && is_backgrounded && paused_ && have_future_data; // Idle suspension is allowed prior to have future data since there exist // mechanisms to exit the idle state when the player is capable of reaching // the have future data state; see didLoadingProgress(). // // TODO(sandersd): Make the delegate suspend idle players immediately when // hidden. bool idle_suspended = !is_streaming && is_idle_ && paused_ && !seeking_ && !overlay_enabled_; // If we're already suspended, see if we can wait for user interaction. Prior // to HaveFutureData, we require |is_idle_| to remain suspended. |is_idle_| // will be cleared when we receive data which may take us to HaveFutureData. bool can_stay_suspended = (is_idle_ || have_future_data) && is_suspended && paused_ && !seeking_; // Combined suspend state. result.is_suspended = is_remote || must_suspend_ || idle_suspended || background_suspended || background_pause_suspended || can_stay_suspended; // We do not treat |playback_rate_| == 0 as paused. For the media session, // being paused implies displaying a play button, which is incorrect in this // case. For memory usage reporting, we just use the same definition (but we // don't have to). // // Similarly, we don't consider |ended_| to be paused. Blink will immediately // call pause() or seek(), so |ended_| should not affect the computation. // Despite that, |ended_| does result in a separate paused state, to simplfy // the contract for SetDelegateState(). // // |has_session| is used to decide when to create a media session. Idle // suspension does not destroy the media session, because we expect that the // notification controls (and audio focus) remain. We also require: // - |have_metadata|, since the tracks and duration are passed to DidPlay(). // - |have_future_data|, since we need to know whether we are paused to // correctly configure the session. // // TODO(sandersd): If Blink told us the paused state sooner, we could create // the media session sooner. bool can_play = !has_error && !is_remote && have_future_data; bool has_session_playing = can_play && !must_suspend_ && !background_suspended; // |has_session_suspended| means the player is suspended from the media // element point of view but paused and can be resumed from the delegate point // of view. Therefore it behaves like |paused_| for the delegate. bool has_session_suspended = can_play && !must_suspend_ && background_suspended && can_play_backgrounded; bool has_session = has_session_playing || has_session_suspended; if (!has_session) { result.delegate_state = DelegateState::GONE; } else if (paused_ || has_session_suspended) { result.delegate_state = ended_ ? DelegateState::ENDED : DelegateState::PAUSED; } else { result.delegate_state = DelegateState::PLAYING; } // It's not critical if some cases where memory usage can change are missed, // since media memory changes are usually gradual. result.is_memory_reporting_enabled = can_play && !result.is_suspended && !paused_; return result; } void WebMediaPlayerImpl::ReportMemoryUsage() { DCHECK(main_task_runner_->BelongsToCurrentThread()); // About base::Unretained() usage below: We destroy |demuxer_| on the main // thread. Before that, however, ~WebMediaPlayerImpl() posts a task to the // media thread and waits for it to finish. Hence, the GetMemoryUsage() task // posted here must finish earlier. if (demuxer_) { base::PostTaskAndReplyWithResult( media_task_runner_.get(), FROM_HERE, base::Bind(&Demuxer::GetMemoryUsage, base::Unretained(demuxer_.get())), base::Bind(&WebMediaPlayerImpl::FinishMemoryUsageReport, AsWeakPtr())); } else { FinishMemoryUsageReport(0); } } void WebMediaPlayerImpl::FinishMemoryUsageReport(int64_t demuxer_memory_usage) { DCHECK(main_task_runner_->BelongsToCurrentThread()); const PipelineStatistics stats = pipeline_.GetStatistics(); const int64_t current_memory_usage = stats.audio_memory_usage + stats.video_memory_usage + (data_source_ ? data_source_->GetMemoryUsage() : 0) + demuxer_memory_usage; // Note, this isn't entirely accurate, there may be VideoFrames held by the // compositor or other resources that we're unaware of. DVLOG(2) << "Memory Usage -- Audio: " << stats.audio_memory_usage << ", Video: " << stats.video_memory_usage << ", DataSource: " << (data_source_ ? data_source_->GetMemoryUsage() : 0) << ", Demuxer: " << demuxer_memory_usage; const int64_t delta = current_memory_usage - last_reported_memory_usage_; last_reported_memory_usage_ = current_memory_usage; adjust_allocated_memory_cb_.Run(delta); } void WebMediaPlayerImpl::ScheduleIdlePauseTimer() { // Only schedule the pause timer if we're playing and are suspended. if (paused_ || !pipeline_controller_.IsSuspended()) return; #if defined(OS_ANDROID) // Remote players will be suspended and locally paused. if (isRemote()) return; #endif // Idle timeout chosen arbitrarily. background_pause_timer_.Start(FROM_HERE, base::TimeDelta::FromSeconds(5), this, &WebMediaPlayerImpl::OnPause); } void WebMediaPlayerImpl::CreateWatchTimeReporter() { // Create the watch time reporter and synchronize its initial state. watch_time_reporter_.reset(new WatchTimeReporter( hasAudio(), hasVideo(), !!chunk_demuxer_, is_encrypted_, media_log_, pipeline_metadata_.natural_size, base::Bind(&GetCurrentTimeInternal, this))); watch_time_reporter_->OnVolumeChange(volume_); if (delegate_ && delegate_->IsHidden()) watch_time_reporter_->OnHidden(); else watch_time_reporter_->OnShown(); } bool WebMediaPlayerImpl::DoesOverlaySupportMetadata() const { return pipeline_metadata_.video_rotation == VIDEO_ROTATION_0; } } // namespace media