// Copyright 2015 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 "cc/trees/proxy_impl.h" #include #include #include #include #include #include #include "base/auto_reset.h" #include "base/bind.h" #include "base/trace_event/trace_event.h" #include "base/trace_event/traced_value.h" #include "cc/base/devtools_instrumentation.h" #include "cc/base/features.h" #include "cc/benchmarks/benchmark_instrumentation.h" #include "cc/input/browser_controls_offset_manager.h" #include "cc/metrics/compositor_timing_history.h" #include "cc/metrics/jank_injector.h" #include "cc/paint/paint_worklet_layer_painter.h" #include "cc/trees/compositor_commit_data.h" #include "cc/trees/layer_tree_frame_sink.h" #include "cc/trees/layer_tree_host.h" #include "cc/trees/layer_tree_impl.h" #include "cc/trees/mutator_host.h" #include "cc/trees/proxy_main.h" #include "cc/trees/render_frame_metadata_observer.h" #include "cc/trees/task_runner_provider.h" #include "components/power_scheduler/power_mode_arbiter.h" #include "components/viz/common/frame_sinks/delay_based_time_source.h" #include "components/viz/common/frame_timing_details.h" #include "components/viz/common/gpu/context_provider.h" #include "gpu/command_buffer/client/gles2_interface.h" #include "services/metrics/public/cpp/ukm_recorder.h" namespace cc { namespace { // Measured in seconds. constexpr auto kSmoothnessTakesPriorityExpirationDelay = base::TimeDelta::FromMilliseconds(250); } // namespace // Ensures that a CompletionEvent is always signaled. class ScopedCompletionEvent { public: explicit ScopedCompletionEvent(CompletionEvent* event) : event_(event) {} ScopedCompletionEvent(const ScopedCompletionEvent&) = delete; ~ScopedCompletionEvent() { event_->Signal(); } ScopedCompletionEvent& operator=(const ScopedCompletionEvent&) = delete; private: CompletionEvent* const event_; }; ProxyImpl::ProxyImpl(base::WeakPtr proxy_main_weak_ptr, LayerTreeHost* layer_tree_host, TaskRunnerProvider* task_runner_provider) : layer_tree_host_id_(layer_tree_host->GetId()), commit_completion_waits_for_activation_(false), next_frame_is_newly_committed_frame_(false), inside_draw_(false), task_runner_provider_(task_runner_provider), smoothness_priority_expiration_notifier_( task_runner_provider->ImplThreadTaskRunner(), base::BindRepeating(&ProxyImpl::RenewTreePriority, base::Unretained(this)), kSmoothnessTakesPriorityExpirationDelay), proxy_main_weak_ptr_(proxy_main_weak_ptr) { TRACE_EVENT0("cc", "ProxyImpl::ProxyImpl"); DCHECK(IsImplThread()); DCHECK(IsMainThreadBlocked()); host_impl_ = layer_tree_host->CreateLayerTreeHostImpl(this); const LayerTreeSettings& settings = layer_tree_host->GetSettings(); send_compositor_frame_ack_ = settings.send_compositor_frame_ack; last_raster_priority_ = SAME_PRIORITY_FOR_BOTH_TREES; SchedulerSettings scheduler_settings(settings.ToSchedulerSettings()); std::unique_ptr compositor_timing_history( new CompositorTimingHistory( scheduler_settings.using_synchronous_renderer_compositor, CompositorTimingHistory::RENDERER_UMA, layer_tree_host->rendering_stats_instrumentation())); scheduler_ = std::make_unique( this, scheduler_settings, layer_tree_host_id_, task_runner_provider_->ImplThreadTaskRunner(), std::move(compositor_timing_history), layer_tree_host->TakeMainPipeline(), layer_tree_host->TakeCompositorPipeline(), host_impl_->compositor_frame_reporting_controller(), power_scheduler::PowerModeArbiter::GetInstance()); DCHECK_EQ(scheduler_->visible(), host_impl_->visible()); } ProxyImpl::BlockedMainCommitOnly::BlockedMainCommitOnly() : layer_tree_host(nullptr) {} ProxyImpl::BlockedMainCommitOnly::~BlockedMainCommitOnly() = default; ProxyImpl::~ProxyImpl() { TRACE_EVENT0("cc", "ProxyImpl::~ProxyImpl"); DCHECK(IsImplThread()); DCHECK(IsMainThreadBlocked()); // Prevent the scheduler from performing actions while we're in an // inconsistent state. scheduler_->Stop(); // Take away the LayerTreeFrameSink before destroying things so it doesn't // try to call into its client mid-shutdown. host_impl_->ReleaseLayerTreeFrameSink(); // It is important to destroy LTHI before the Scheduler since it can make // callbacks that access it during destruction cleanup. host_impl_ = nullptr; scheduler_ = nullptr; // We need to explicitly shutdown the notifier to destroy any weakptrs it is // holding while still on the compositor thread. This also ensures any // callbacks holding a ProxyImpl pointer are cancelled. smoothness_priority_expiration_notifier_.Shutdown(); } void ProxyImpl::InitializeMutatorOnImpl( std::unique_ptr mutator) { TRACE_EVENT0("cc", "ProxyImpl::InitializeMutatorOnImpl"); DCHECK(IsImplThread()); host_impl_->SetLayerTreeMutator(std::move(mutator)); } void ProxyImpl::InitializePaintWorkletLayerPainterOnImpl( std::unique_ptr painter) { TRACE_EVENT0("cc", "ProxyImpl::InitializePaintWorkletLayerPainterOnImpl"); DCHECK(IsImplThread()); host_impl_->SetPaintWorkletLayerPainter(std::move(painter)); } void ProxyImpl::UpdateBrowserControlsStateOnImpl( BrowserControlsState constraints, BrowserControlsState current, bool animate) { DCHECK(IsImplThread()); host_impl_->browser_controls_manager()->UpdateBrowserControlsState( constraints, current, animate); } void ProxyImpl::InitializeLayerTreeFrameSinkOnImpl( LayerTreeFrameSink* layer_tree_frame_sink, base::WeakPtr proxy_main_frame_sink_bound_weak_ptr) { TRACE_EVENT0("cc", "ProxyImpl::InitializeLayerTreeFrameSinkOnImplThread"); DCHECK(IsImplThread()); proxy_main_frame_sink_bound_weak_ptr_ = proxy_main_frame_sink_bound_weak_ptr; LayerTreeHostImpl* host_impl = host_impl_.get(); bool success = host_impl->InitializeFrameSink(layer_tree_frame_sink); MainThreadTaskRunner()->PostTask( FROM_HERE, base::BindOnce(&ProxyMain::DidInitializeLayerTreeFrameSink, proxy_main_weak_ptr_, success)); if (success) scheduler_->DidCreateAndInitializeLayerTreeFrameSink(); } void ProxyImpl::SetDeferBeginMainFrameOnImpl( bool defer_begin_main_frame) const { DCHECK(IsImplThread()); scheduler_->SetDeferBeginMainFrame(defer_begin_main_frame); } void ProxyImpl::SetNeedsRedrawOnImpl(const gfx::Rect& damage_rect) { DCHECK(IsImplThread()); host_impl_->SetViewportDamage(damage_rect); SetNeedsRedrawOnImplThread(); } void ProxyImpl::SetNeedsCommitOnImpl() { DCHECK(IsImplThread()); SetNeedsCommitOnImplThread(); } void ProxyImpl::SetTargetLocalSurfaceIdOnImpl( const viz::LocalSurfaceId& target_local_surface_id) { DCHECK(IsImplThread()); host_impl_->SetTargetLocalSurfaceId(target_local_surface_id); } void ProxyImpl::BeginMainFrameAbortedOnImpl( CommitEarlyOutReason reason, base::TimeTicks main_thread_start_time, std::vector> swap_promises) { TRACE_EVENT1("cc", "ProxyImpl::BeginMainFrameAbortedOnImplThread", "reason", CommitEarlyOutReasonToString(reason)); DCHECK(IsImplThread()); DCHECK(scheduler_->CommitPending()); host_impl_->BeginMainFrameAborted( reason, std::move(swap_promises), scheduler_->last_dispatched_begin_main_frame_args()); scheduler_->NotifyBeginMainFrameStarted(main_thread_start_time); scheduler_->BeginMainFrameAborted(reason); } void ProxyImpl::SetVisibleOnImpl(bool visible) { TRACE_EVENT1("cc", "ProxyImpl::SetVisibleOnImplThread", "visible", visible); DCHECK(IsImplThread()); host_impl_->SetVisible(visible); scheduler_->SetVisible(visible); } void ProxyImpl::ReleaseLayerTreeFrameSinkOnImpl(CompletionEvent* completion) { DCHECK(IsImplThread()); // Unlike DidLoseLayerTreeFrameSinkOnImplThread, we don't need to call // LayerTreeHost::DidLoseLayerTreeFrameSink since it already knows. scheduler_->DidLoseLayerTreeFrameSink(); host_impl_->ReleaseLayerTreeFrameSink(); completion->Signal(); } void ProxyImpl::FinishGLOnImpl(CompletionEvent* completion) { TRACE_EVENT0("cc", "ProxyImpl::FinishGLOnImplThread"); DCHECK(IsImplThread()); if (host_impl_->layer_tree_frame_sink()) { viz::ContextProvider* context_provider = host_impl_->layer_tree_frame_sink()->context_provider(); if (context_provider) context_provider->ContextGL()->Finish(); } completion->Signal(); } void ProxyImpl::MainFrameWillHappenOnImplForTesting( CompletionEvent* completion, bool* main_frame_will_happen) { DCHECK(IsImplThread()); if (host_impl_->layer_tree_frame_sink()) { *main_frame_will_happen = scheduler_->MainFrameForTestingWillHappen(); } else { *main_frame_will_happen = false; } completion->Signal(); } void ProxyImpl::RequestBeginMainFrameNotExpected(bool new_state) { DCHECK(IsImplThread()); DCHECK(scheduler_); TRACE_EVENT1("cc", "ProxyImpl::RequestBeginMainFrameNotExpected", "new_state", new_state); scheduler_->SetMainThreadWantsBeginMainFrameNotExpected(new_state); } bool ProxyImpl::IsInSynchronousComposite() const { return false; } void ProxyImpl::FrameSinksToThrottleUpdated( const base::flat_set& ids) { NOTREACHED(); } void ProxyImpl::NotifyReadyToCommitOnImpl( CompletionEvent* completion, LayerTreeHost* layer_tree_host, base::TimeTicks main_thread_start_time, const viz::BeginFrameArgs& commit_args, bool hold_commit_for_activation) { TRACE_EVENT0("cc", "ProxyImpl::NotifyReadyToCommitOnImpl"); DCHECK(!commit_completion_event_); DCHECK(IsImplThread() && IsMainThreadBlocked()); DCHECK(scheduler_); DCHECK(scheduler_->CommitPending()); if (!host_impl_) { TRACE_EVENT_INSTANT0("cc", "EarlyOut_NoLayerTree", TRACE_EVENT_SCOPE_THREAD); completion->Signal(); return; } // Ideally, we should inform to impl thread when BeginMainFrame is started. // But, we can avoid a PostTask in here. scheduler_->NotifyBeginMainFrameStarted(main_thread_start_time); auto begin_main_frame_metrics = layer_tree_host->begin_main_frame_metrics(); host_impl_->ReadyToCommit(commit_args, begin_main_frame_metrics.get()); commit_completion_event_ = std::make_unique(completion); commit_completion_waits_for_activation_ = hold_commit_for_activation; DCHECK(!blocked_main_commit().layer_tree_host); blocked_main_commit().layer_tree_host = layer_tree_host; // Inform the layer tree host that the commit has started, so that metrics // can determine how long we waited for thread synchronization. layer_tree_host->SetImplCommitStartTime(base::TimeTicks::Now()); // Extract metrics data from the layer tree host and send them to the // scheduler to pass them to the compositor_timing_history object. scheduler_->NotifyReadyToCommit(std::move(begin_main_frame_metrics)); } void ProxyImpl::DidLoseLayerTreeFrameSinkOnImplThread() { TRACE_EVENT0("cc", "ProxyImpl::DidLoseLayerTreeFrameSinkOnImplThread"); DCHECK(IsImplThread()); MainThreadTaskRunner()->PostTask( FROM_HERE, base::BindOnce(&ProxyMain::DidLoseLayerTreeFrameSink, proxy_main_weak_ptr_)); scheduler_->DidLoseLayerTreeFrameSink(); } void ProxyImpl::SetBeginFrameSource(viz::BeginFrameSource* source) { // During shutdown, destroying the LayerTreeFrameSink may unset the // viz::BeginFrameSource. if (scheduler_) { // TODO(enne): this overrides any preexisting begin frame source. Those // other sources will eventually be removed and this will be the only path. scheduler_->SetBeginFrameSource(source); } } void ProxyImpl::DidReceiveCompositorFrameAckOnImplThread() { TRACE_EVENT0("cc,benchmark", "ProxyImpl::DidReceiveCompositorFrameAckOnImplThread"); DCHECK(IsImplThread()); scheduler_->DidReceiveCompositorFrameAck(); if (send_compositor_frame_ack_) { MainThreadTaskRunner()->PostTask( FROM_HERE, base::BindOnce(&ProxyMain::DidReceiveCompositorFrameAck, proxy_main_frame_sink_bound_weak_ptr_)); } } void ProxyImpl::OnCanDrawStateChanged(bool can_draw) { TRACE_EVENT1("cc", "ProxyImpl::OnCanDrawStateChanged", "can_draw", can_draw); DCHECK(IsImplThread()); scheduler_->SetCanDraw(can_draw); } void ProxyImpl::NotifyReadyToActivate() { TRACE_EVENT0("cc", "ProxyImpl::NotifyReadyToActivate"); DCHECK(IsImplThread()); scheduler_->NotifyReadyToActivate(); } void ProxyImpl::NotifyReadyToDraw() { TRACE_EVENT0("cc", "ProxyImpl::NotifyReadyToDraw"); DCHECK(IsImplThread()); scheduler_->NotifyReadyToDraw(); } void ProxyImpl::SetNeedsRedrawOnImplThread() { TRACE_EVENT0("cc", "ProxyImpl::SetNeedsRedrawOnImplThread"); DCHECK(IsImplThread()); scheduler_->SetNeedsRedraw(); } void ProxyImpl::SetNeedsOneBeginImplFrameOnImplThread() { TRACE_EVENT0("cc", "ProxyImpl::SetNeedsOneBeginImplFrameOnImplThread"); DCHECK(IsImplThread()); scheduler_->SetNeedsOneBeginImplFrame(); } void ProxyImpl::SetNeedsPrepareTilesOnImplThread() { DCHECK(IsImplThread()); scheduler_->SetNeedsPrepareTiles(); } void ProxyImpl::SetNeedsCommitOnImplThread() { TRACE_EVENT0("cc", "ProxyImpl::SetNeedsCommitOnImplThread"); DCHECK(IsImplThread()); scheduler_->SetNeedsBeginMainFrame(); } void ProxyImpl::SetVideoNeedsBeginFrames(bool needs_begin_frames) { TRACE_EVENT1("cc", "ProxyImpl::SetVideoNeedsBeginFrames", "needs_begin_frames", needs_begin_frames); DCHECK(IsImplThread()); // In tests the layer tree is destroyed after the scheduler is. if (scheduler_) scheduler_->SetVideoNeedsBeginFrames(needs_begin_frames); } bool ProxyImpl::HasCustomPropertyAnimations() const { return host_impl_->mutator_host()->HasCustomPropertyAnimations(); } bool ProxyImpl::IsInsideDraw() { return inside_draw_; } bool ProxyImpl::IsBeginMainFrameExpected() { // Check whether the main-thread has requested for updates. If main-thread has // not responded to a previously dispatched BeginMainFrame, then assume that // main-thread would want to produce an update for the current frame too. return scheduler_->needs_begin_main_frame() || scheduler_->IsBeginMainFrameSent(); } void ProxyImpl::RenewTreePriority() { DCHECK(IsImplThread()); bool scroll_type_considered_interaction = false; bool prefer_new_content = false; bool non_scroll_interaction_in_progress = host_impl_->IsPinchGestureActive() || host_impl_->page_scale_animation_active(); ActivelyScrollingType actively_scrolling_type = host_impl_->GetActivelyScrollingType(); switch (actively_scrolling_type) { case ActivelyScrollingType::kNone: break; case ActivelyScrollingType::kPrecise: scroll_type_considered_interaction = true; break; case ActivelyScrollingType::kAnimated: scroll_type_considered_interaction = base::FeatureList::IsEnabled( features::kSchedulerSmoothnessForAnimatedScrolls); } bool user_interaction_in_progress = non_scroll_interaction_in_progress || scroll_type_considered_interaction; if (host_impl_->ukm_manager()) { host_impl_->ukm_manager()->SetUserInteractionInProgress( user_interaction_in_progress); } if (host_impl_->CurrentScrollDidCheckerboardLargeArea() && base::FeatureList::IsEnabled( features::kPreferNewContentForCheckerboardedScrolls)) { prefer_new_content = true; } // Schedule expiration if smoothness currently takes priority. if (user_interaction_in_progress && !prefer_new_content) smoothness_priority_expiration_notifier_.Schedule(); // We use the same priority for both trees by default. TreePriority scheduler_tree_priority = SAME_PRIORITY_FOR_BOTH_TREES; TreePriority raster_tree_priority = SAME_PRIORITY_FOR_BOTH_TREES; // Smoothness takes priority if we have an expiration for it scheduled. if (smoothness_priority_expiration_notifier_.HasPendingNotification()) { scheduler_tree_priority = SMOOTHNESS_TAKES_PRIORITY; if (non_scroll_interaction_in_progress || actively_scrolling_type == ActivelyScrollingType::kPrecise || last_raster_priority_ == SMOOTHNESS_TAKES_PRIORITY) raster_tree_priority = SMOOTHNESS_TAKES_PRIORITY; } last_raster_priority_ = raster_tree_priority; // New content always takes priority when ui resources have been evicted. if (host_impl_->active_tree()->GetDeviceViewport().size().IsEmpty() || host_impl_->EvictedUIResourcesExist()) { // Once we enter NEW_CONTENTS_TAKES_PRIORITY mode, visible tiles on active // tree might be freed. We need to set RequiresHighResToDraw to ensure that // high res tiles will be required to activate pending tree. host_impl_->SetRequiresHighResToDraw(); scheduler_tree_priority = raster_tree_priority = NEW_CONTENT_TAKES_PRIORITY; } host_impl_->SetTreePriority(raster_tree_priority); // Only put the scheduler in impl latency prioritization mode if we don't // have a scroll listener. This gives the scroll listener a better chance of // handling scroll updates within the same frame. The tree itself is still // kept in prefer smoothness mode to allow checkerboarding. ScrollHandlerState scroll_handler_state = host_impl_->ScrollAffectsScrollHandler() ? ScrollHandlerState::SCROLL_AFFECTS_SCROLL_HANDLER : ScrollHandlerState::SCROLL_DOES_NOT_AFFECT_SCROLL_HANDLER; scheduler_->SetTreePrioritiesAndScrollState(scheduler_tree_priority, scroll_handler_state); } void ProxyImpl::PostDelayedAnimationTaskOnImplThread(base::OnceClosure task, base::TimeDelta delay) { DCHECK(IsImplThread()); task_runner_provider_->ImplThreadTaskRunner()->PostDelayedTask( FROM_HERE, std::move(task), delay); } void ProxyImpl::DidActivateSyncTree() { TRACE_EVENT0("cc", "ProxyImpl::DidActivateSyncTreeOnImplThread"); DCHECK(IsImplThread()); if (activation_completion_event_) { TRACE_EVENT_INSTANT0("cc", "ReleaseCommitbyActivation", TRACE_EVENT_SCOPE_THREAD); activation_completion_event_ = nullptr; } } void ProxyImpl::WillPrepareTiles() { DCHECK(IsImplThread()); scheduler_->WillPrepareTiles(); } void ProxyImpl::DidPrepareTiles() { DCHECK(IsImplThread()); scheduler_->DidPrepareTiles(); } void ProxyImpl::DidCompletePageScaleAnimationOnImplThread() { DCHECK(IsImplThread()); MainThreadTaskRunner()->PostTask( FROM_HERE, base::BindOnce(&ProxyMain::DidCompletePageScaleAnimation, proxy_main_weak_ptr_)); } void ProxyImpl::OnDrawForLayerTreeFrameSink(bool resourceless_software_draw, bool skip_draw) { DCHECK(IsImplThread()); scheduler_->OnDrawForLayerTreeFrameSink(resourceless_software_draw, skip_draw); } void ProxyImpl::NeedsImplSideInvalidation(bool needs_first_draw_on_activation) { DCHECK(IsImplThread()); scheduler_->SetNeedsImplSideInvalidation(needs_first_draw_on_activation); } void ProxyImpl::NotifyImageDecodeRequestFinished() { DCHECK(IsImplThread()); SetNeedsCommitOnImplThread(); } void ProxyImpl::DidPresentCompositorFrameOnImplThread( uint32_t frame_token, PresentationTimeCallbackBuffer::PendingCallbacks activated, const viz::FrameTimingDetails& details) { auto main_thread_callbacks = std::move(activated.main_thread_callbacks); host_impl_->NotifyDidPresentCompositorFrameOnImplThread( frame_token, std::move(activated.compositor_thread_callbacks), details); MainThreadTaskRunner()->PostTask( FROM_HERE, base::BindOnce(&ProxyMain::DidPresentCompositorFrame, proxy_main_weak_ptr_, frame_token, std::move(main_thread_callbacks), details.presentation_feedback)); if (scheduler_) scheduler_->DidPresentCompositorFrame(frame_token, details); } void ProxyImpl::NotifyAnimationWorkletStateChange( AnimationWorkletMutationState state, ElementListType element_list_type) { DCHECK(IsImplThread()); Scheduler::AnimationWorkletState animation_worklet_state = (state == AnimationWorkletMutationState::STARTED) ? Scheduler::AnimationWorkletState::PROCESSING : Scheduler::AnimationWorkletState::IDLE; Scheduler::TreeType tree_type = (element_list_type == ElementListType::ACTIVE) ? Scheduler::TreeType::ACTIVE : Scheduler::TreeType::PENDING; scheduler_->NotifyAnimationWorkletStateChange(animation_worklet_state, tree_type); } void ProxyImpl::NotifyPaintWorkletStateChange( Scheduler::PaintWorkletState state) { DCHECK(IsImplThread()); scheduler_->NotifyPaintWorkletStateChange(state); } void ProxyImpl::NotifyThroughputTrackerResults(CustomTrackerResults results) { DCHECK(IsImplThread()); MainThreadTaskRunner()->PostTask( FROM_HERE, base::BindOnce(&ProxyMain::NotifyThroughputTrackerResults, proxy_main_weak_ptr_, std::move(results))); } void ProxyImpl::DidObserveFirstScrollDelay( base::TimeDelta first_scroll_delay, base::TimeTicks first_scroll_timestamp) { DCHECK(IsImplThread()); MainThreadTaskRunner()->PostTask( FROM_HERE, base::BindOnce(&ProxyMain::DidObserveFirstScrollDelay, proxy_main_weak_ptr_, first_scroll_delay, first_scroll_timestamp)); } bool ProxyImpl::WillBeginImplFrame(const viz::BeginFrameArgs& args) { DCHECK(IsImplThread()); return host_impl_->WillBeginImplFrame(args); } void ProxyImpl::DidFinishImplFrame( const viz::BeginFrameArgs& last_activated_args) { DCHECK(IsImplThread()); host_impl_->DidFinishImplFrame(last_activated_args); } void ProxyImpl::DidNotProduceFrame(const viz::BeginFrameAck& ack, FrameSkippedReason reason) { DCHECK(IsImplThread()); host_impl_->DidNotProduceFrame(ack, reason); } void ProxyImpl::WillNotReceiveBeginFrame() { DCHECK(IsImplThread()); host_impl_->DidNotNeedBeginFrame(); } void ProxyImpl::ScheduledActionSendBeginMainFrame( const viz::BeginFrameArgs& args) { DCHECK(IsImplThread()); if (is_jank_injection_enabled_ && host_impl_->CanInjectJankOnMain()) { jank_injector_.ScheduleJankIfNeeded(args, MainThreadTaskRunner()); } benchmark_instrumentation::ScopedBeginFrameTask begin_frame_task( benchmark_instrumentation::kSendBeginFrame, args.frame_id.sequence_number); std::unique_ptr begin_main_frame_state( new BeginMainFrameAndCommitState); begin_main_frame_state->begin_frame_args = args; begin_main_frame_state->commit_data = host_impl_->ProcessCompositorDeltas(); begin_main_frame_state->completed_image_decode_requests = host_impl_->TakeCompletedImageDecodeRequests(); begin_main_frame_state->finished_transition_request_sequence_ids = host_impl_->TakeFinishedTransitionRequestSequenceIds(); begin_main_frame_state->mutator_events = host_impl_->TakeMutatorEvents(); begin_main_frame_state->active_sequence_trackers = host_impl_->FrameSequenceTrackerActiveTypes(); begin_main_frame_state->evicted_ui_resources = host_impl_->EvictedUIResourcesExist(); host_impl_->WillSendBeginMainFrame(); MainThreadTaskRunner()->PostTask( FROM_HERE, base::BindOnce(&ProxyMain::BeginMainFrame, proxy_main_weak_ptr_, std::move(begin_main_frame_state))); host_impl_->DidSendBeginMainFrame(args); devtools_instrumentation::DidRequestMainThreadFrame(layer_tree_host_id_); } DrawResult ProxyImpl::ScheduledActionDrawIfPossible() { TRACE_EVENT0("cc", "ProxyImpl::ScheduledActionDraw"); DCHECK(IsImplThread()); // The scheduler should never generate this call when it can't draw. DCHECK(host_impl_->CanDraw()); bool forced_draw = false; return DrawInternal(forced_draw); } DrawResult ProxyImpl::ScheduledActionDrawForced() { TRACE_EVENT0("cc", "ProxyImpl::ScheduledActionDrawForced"); DCHECK(IsImplThread()); bool forced_draw = true; return DrawInternal(forced_draw); } void ProxyImpl::ScheduledActionCommit() { TRACE_EVENT0("cc", "ProxyImpl::ScheduledActionCommit"); DCHECK(IsImplThread()); DCHECK(IsMainThreadBlocked()); DCHECK(commit_completion_event_); // Relax the cross-thread access restriction to non-thread-safe RefCount. // It's safe since the main thread is blocked while a main-thread-bound // compositor stuff are accessed from the impl thread. base::ScopedAllowCrossThreadRefCountAccess allow_cross_thread_ref_count_access; host_impl_->BeginCommit(); blocked_main_commit().layer_tree_host->FinishCommitOnImplThread( host_impl_.get()); // Remove the LayerTreeHost reference before the completion event is signaled // and cleared. This is necessary since blocked_main_commit() allows access // only while we have the completion event to ensure the main thread is // blocked for a commit. blocked_main_commit().layer_tree_host = nullptr; if (commit_completion_waits_for_activation_) { // For some layer types in impl-side painting, the commit is held until the // sync tree is activated. It's also possible that the sync tree has // already activated if there was no work to be done. TRACE_EVENT_INSTANT0("cc", "HoldCommit", TRACE_EVENT_SCOPE_THREAD); commit_completion_waits_for_activation_ = false; activation_completion_event_ = std::move(commit_completion_event_); } commit_completion_event_ = nullptr; scheduler_->DidCommit(); // Delay this step until afer the main thread has been released as it's // often a good bit of work to update the tree and prepare the new frame. host_impl_->CommitComplete(); next_frame_is_newly_committed_frame_ = true; } void ProxyImpl::ScheduledActionActivateSyncTree() { TRACE_EVENT0("cc", "ProxyImpl::ScheduledActionActivateSyncTree"); DCHECK(IsImplThread()); host_impl_->ActivateSyncTree(); } void ProxyImpl::ScheduledActionBeginLayerTreeFrameSinkCreation() { TRACE_EVENT0("cc", "ProxyImpl::ScheduledActionBeginLayerTreeFrameSinkCreation"); DCHECK(IsImplThread()); MainThreadTaskRunner()->PostTask( FROM_HERE, base::BindOnce(&ProxyMain::RequestNewLayerTreeFrameSink, proxy_main_weak_ptr_)); } void ProxyImpl::ScheduledActionPrepareTiles() { TRACE_EVENT0("cc", "ProxyImpl::ScheduledActionPrepareTiles"); DCHECK(IsImplThread()); host_impl_->PrepareTiles(); } void ProxyImpl::ScheduledActionInvalidateLayerTreeFrameSink(bool needs_redraw) { TRACE_EVENT0("cc", "ProxyImpl::ScheduledActionInvalidateLayerTreeFrameSink"); DCHECK(IsImplThread()); host_impl_->InvalidateLayerTreeFrameSink(needs_redraw); } void ProxyImpl::ScheduledActionPerformImplSideInvalidation() { TRACE_EVENT0("cc", "ProxyImpl::ScheduledActionPerformImplSideInvalidation"); DCHECK(IsImplThread()); host_impl_->InvalidateContentOnImplSide(); } void ProxyImpl::SendBeginMainFrameNotExpectedSoon() { DCHECK(IsImplThread()); MainThreadTaskRunner()->PostTask( FROM_HERE, base::BindOnce(&ProxyMain::BeginMainFrameNotExpectedSoon, proxy_main_weak_ptr_)); } void ProxyImpl::ScheduledActionBeginMainFrameNotExpectedUntil( base::TimeTicks time) { DCHECK(IsImplThread()); MainThreadTaskRunner()->PostTask( FROM_HERE, base::BindOnce(&ProxyMain::BeginMainFrameNotExpectedUntil, proxy_main_weak_ptr_, time)); } DrawResult ProxyImpl::DrawInternal(bool forced_draw) { DCHECK(IsImplThread()); DCHECK(host_impl_.get()); base::AutoReset mark_inside(&inside_draw_, true); // This method is called on a forced draw, regardless of whether we are able // to produce a frame, as the calling site on main thread is blocked until its // request completes, and we signal completion here. If CanDraw() is false, we // will indicate success=false to the caller, but we must still signal // completion to avoid deadlock. // We guard PrepareToDraw() with CanDraw() because it always returns a valid // frame, so can only be used when such a frame is possible. Since // DrawLayers() depends on the result of PrepareToDraw(), it is guarded on // CanDraw() as well. LayerTreeHostImpl::FrameData frame; frame.begin_frame_ack = scheduler_->CurrentBeginFrameAckForActiveTree(); frame.origin_begin_main_frame_args = scheduler_->last_activate_origin_frame_args(); bool draw_frame = false; DrawResult result; if (host_impl_->CanDraw()) { result = host_impl_->PrepareToDraw(&frame); draw_frame = forced_draw || result == DRAW_SUCCESS; } else { result = DRAW_ABORTED_CANT_DRAW; } if (draw_frame) { if (host_impl_->DrawLayers(&frame)) { DCHECK_NE(frame.frame_token, 0u); // Drawing implies we submitted a frame to the LayerTreeFrameSink. scheduler_->DidSubmitCompositorFrame(frame.frame_token, host_impl_->TakeEventsMetrics(), frame.has_missing_content); } result = DRAW_SUCCESS; } else { DCHECK_NE(DRAW_SUCCESS, result); } host_impl_->DidDrawAllLayers(frame); bool start_ready_animations = draw_frame; host_impl_->UpdateAnimationState(start_ready_animations); // Tell the main thread that the newly-commited frame was drawn. if (next_frame_is_newly_committed_frame_) { next_frame_is_newly_committed_frame_ = false; MainThreadTaskRunner()->PostTask( FROM_HERE, base::BindOnce(&ProxyMain::DidCommitAndDrawFrame, proxy_main_weak_ptr_)); } // The tile visibility/priority of the pending tree needs to be updated so // that it doesn't get activated before the raster is complete. But this needs // to happen after the draw, off of the critical path to draw. if (host_impl_->pending_tree()) host_impl_->pending_tree()->UpdateDrawProperties(); DCHECK_NE(INVALID_RESULT, result); return result; } bool ProxyImpl::IsImplThread() const { return task_runner_provider_->IsImplThread(); } bool ProxyImpl::IsMainThreadBlocked() const { return task_runner_provider_->IsMainThreadBlocked(); } ProxyImpl::BlockedMainCommitOnly& ProxyImpl::blocked_main_commit() { DCHECK(IsMainThreadBlocked() && commit_completion_event_); return main_thread_blocked_commit_vars_unsafe_; } base::SingleThreadTaskRunner* ProxyImpl::MainThreadTaskRunner() { return task_runner_provider_->MainThreadTaskRunner(); } void ProxyImpl::SetSourceURL(ukm::SourceId source_id, const GURL& url) { DCHECK(IsImplThread()); is_jank_injection_enabled_ = JankInjector::IsEnabled(url); host_impl_->SetActiveURL(url, source_id); } void ProxyImpl::SetUkmSmoothnessDestination( base::WritableSharedMemoryMapping ukm_smoothness_data) { DCHECK(IsImplThread()); host_impl_->SetUkmSmoothnessDestination(std::move(ukm_smoothness_data)); } void ProxyImpl::ClearHistory() { DCHECK(IsImplThread()); DCHECK(IsMainThreadBlocked()); scheduler_->ClearHistory(); } void ProxyImpl::SetRenderFrameObserver( std::unique_ptr observer) { host_impl_->SetRenderFrameObserver(std::move(observer)); } void ProxyImpl::SetEnableFrameRateThrottling( bool enable_frame_rate_throttling) { host_impl_->SetEnableFrameRateThrottling(enable_frame_rate_throttling); } } // namespace cc