cc / trees / proxy_main.cc [blame]

// Copyright 2015 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.

#include "cc/trees/proxy_main.h"

#include <algorithm>
#include <memory>
#include <string>
#include <utility>
#include <vector>

#include "base/functional/bind.h"
#include "base/metrics/histogram_macros.h"
#include "base/notreached.h"
#include "base/synchronization/waitable_event.h"
#include "base/trace_event/trace_event.h"
#include "base/trace_event/trace_id_helper.h"
#include "base/trace_event/traced_value.h"
#include "base/types/optional_ref.h"
#include "cc/base/completion_event.h"
#include "cc/base/devtools_instrumentation.h"
#include "cc/base/features.h"
#include "cc/benchmarks/benchmark_instrumentation.h"
#include "cc/input/browser_controls_offset_tags_info.h"
#include "cc/paint/paint_worklet_layer_painter.h"
#include "cc/resources/ui_resource_manager.h"
#include "cc/trees/latency_info_swap_promise.h"
#include "cc/trees/layer_tree_frame_sink.h"
#include "cc/trees/layer_tree_host.h"
#include "cc/trees/mutator_host.h"
#include "cc/trees/paint_holding_reason.h"
#include "cc/trees/proxy_impl.h"
#include "cc/trees/render_frame_metadata_observer.h"
#include "cc/trees/scoped_abort_remaining_swap_promises.h"
#include "cc/trees/swap_promise.h"
#include "cc/trees/trace_utils.h"
#include "components/viz/common/view_transition_element_resource_id.h"
#include "services/metrics/public/cpp/ukm_recorder.h"

namespace cc {

ProxyMain::ProxyMain(LayerTreeHost* layer_tree_host,
                     TaskRunnerProvider* task_runner_provider)
    : layer_tree_host_(layer_tree_host),
      task_runner_provider_(task_runner_provider),
      layer_tree_host_id_(layer_tree_host->GetId()),
      max_requested_pipeline_stage_(NO_PIPELINE_STAGE),
      current_pipeline_stage_(NO_PIPELINE_STAGE),
      final_pipeline_stage_(NO_PIPELINE_STAGE),
      deferred_final_pipeline_stage_(NO_PIPELINE_STAGE),
      started_(false),
      defer_main_frame_update_(false),
      pause_rendering_(false) {
  TRACE_EVENT0("cc", "ProxyMain::ProxyMain");
  DCHECK(task_runner_provider_);
  DCHECK(IsMainThread());
}

ProxyMain::~ProxyMain() {
  TRACE_EVENT0("cc", "ProxyMain::~ProxyMain");
  DCHECK(IsMainThread());
  DCHECK(!started_);
}

void ProxyMain::InitializeOnImplThread(
    CompletionEvent* completion_event,
    int id,
    const LayerTreeSettings* settings,
    RenderingStatsInstrumentation* rendering_stats_instrumentation) {
  DCHECK(task_runner_provider_->IsImplThread());
  DCHECK(!proxy_impl_);
  proxy_impl_ = std::make_unique<ProxyImpl>(
      weak_factory_.GetWeakPtr(), layer_tree_host_, id, settings,
      rendering_stats_instrumentation, task_runner_provider_);
  completion_event->Signal();
}

void ProxyMain::DestroyProxyImplOnImplThread(
    CompletionEvent* completion_event) {
  DCHECK(task_runner_provider_->IsImplThread());
  proxy_impl_.reset();
  completion_event->Signal();
}

void ProxyMain::BeginMainFrameNotExpectedSoon() {
  TRACE_EVENT0("cc", "ProxyMain::BeginMainFrameNotExpectedSoon");
  DCHECK(IsMainThread());
  layer_tree_host_->BeginMainFrameNotExpectedSoon();
}

void ProxyMain::BeginMainFrameNotExpectedUntil(base::TimeTicks time) {
  TRACE_EVENT0("cc", "ProxyMain::BeginMainFrameNotExpectedUntil");
  DCHECK(IsMainThread());
  layer_tree_host_->BeginMainFrameNotExpectedUntil(time);
}

void ProxyMain::DidCommitAndDrawFrame(int source_frame_number) {
  DCHECK(IsMainThread());
  layer_tree_host_->DidCommitAndDrawFrame(source_frame_number);
}

void ProxyMain::DidLoseLayerTreeFrameSink() {
  TRACE_EVENT0("cc", "ProxyMain::DidLoseLayerTreeFrameSink");
  DCHECK(IsMainThread());
  layer_tree_host_->DidLoseLayerTreeFrameSink();
}

void ProxyMain::RequestNewLayerTreeFrameSink() {
  TRACE_EVENT0("cc", "ProxyMain::RequestNewLayerTreeFrameSink");
  DCHECK(IsMainThread());
  layer_tree_host_->RequestNewLayerTreeFrameSink();
}

void ProxyMain::DidInitializeLayerTreeFrameSink(bool success) {
  TRACE_EVENT0("cc", "ProxyMain::DidInitializeLayerTreeFrameSink");
  DCHECK(IsMainThread());

  if (!success)
    layer_tree_host_->DidFailToInitializeLayerTreeFrameSink();
  else
    layer_tree_host_->DidInitializeLayerTreeFrameSink();
}

void ProxyMain::DidCompletePageScaleAnimation() {
  DCHECK(IsMainThread());
  layer_tree_host_->DidCompletePageScaleAnimation();
}

void ProxyMain::BeginMainFrame(
    std::unique_ptr<BeginMainFrameAndCommitState> begin_main_frame_state) {
  DCHECK(IsMainThread());
  DCHECK_EQ(NO_PIPELINE_STAGE, current_pipeline_stage_);

  base::TimeTicks begin_main_frame_start_time = base::TimeTicks::Now();

  const viz::BeginFrameArgs& frame_args =
      begin_main_frame_state->begin_frame_args;
  TRACE_EVENT("cc,benchmark", "ProxyMain::BeginMainFrame",
              // "begin_frame_id" is used by the rendering benchmarks in
              // Telemetry.
              "begin_frame_id", frame_args.frame_id.sequence_number,
              [&](perfetto::EventContext ctx) {
                EmitMainFramePipelineStep(
                    ctx, begin_main_frame_state->trace_id,
                    perfetto::protos::pbzero::MainFramePipeline::Step::
                        BEGIN_MAIN_FRAME);
              });

  // This needs to run unconditionally, so do it before any early-returns.
  if (layer_tree_host_->scheduling_client())
    layer_tree_host_->scheduling_client()->DidRunBeginMainFrame();

  // We need to issue image decode callbacks whether or not we will abort this
  // update and commit, since the request ids are only stored in
  // |begin_main_frame_state|.
  DCHECK(!base::FeatureList::IsEnabled(
             features::kSendExplicitDecodeRequestsImmediately) ||
         begin_main_frame_state->completed_image_decode_requests.empty());
  layer_tree_host_->ImageDecodesFinished(
      std::move(begin_main_frame_state->completed_image_decode_requests));

  // Visibility check needs to happen before setting
  // max_requested_pipeline_stage_. Otherwise a requested commit could get lost
  // after tab becomes visible again.
  if (!layer_tree_host_->IsVisible()) {
    TRACE_EVENT("cc,benchmark", "MainFrameAborted",
                [&](perfetto::EventContext ctx) {
                  auto* pipeline = EmitMainFramePipelineStep(
                      ctx, begin_main_frame_state->trace_id,
                      perfetto::protos::pbzero::MainFramePipeline::Step::
                          ABORTED_ON_MAIN);
                  pipeline->set_aborted_on_main_reason(
                      perfetto::protos::pbzero::MainFramePipeline::
                          AbortedOnMainReason::NOT_VISIBLE);
                });
    // Since the commit is deferred due to the page becoming invisible, the
    // metrics are not meaningful anymore (as the page might become visible in
    // any arbitrary time in the future and cause an arbitrarily large latency).
    // Discard event metrics.
    layer_tree_host_->ClearEventsMetrics();
    std::vector<std::unique_ptr<SwapPromise>> empty_swap_promises;
    ImplThreadTaskRunner()->PostTask(
        FROM_HERE,
        base::BindOnce(&ProxyImpl::BeginMainFrameAbortedOnImpl,
                       base::Unretained(proxy_impl_.get()),
                       CommitEarlyOutReason::kAbortedNotVisible,
                       begin_main_frame_start_time,
                       std::move(empty_swap_promises),
                       false /* scroll_and_viewport_changes_synced */));
    layer_tree_host_->GetSwapPromiseManager()->BreakSwapPromises(
        SwapPromise::COMMIT_FAILS);
    return;
  }

  final_pipeline_stage_ = max_requested_pipeline_stage_;
  max_requested_pipeline_stage_ = NO_PIPELINE_STAGE;

  // If main frame updates and commits are deferred, skip the entire pipeline.
  if (defer_main_frame_update_ || pause_rendering_) {
    TRACE_EVENT("cc,benchmark", "MainFrameAborted",
                [&](perfetto::EventContext ctx) {
                  auto* pipeline = EmitMainFramePipelineStep(
                      ctx, begin_main_frame_state->trace_id,
                      perfetto::protos::pbzero::MainFramePipeline::Step::
                          ABORTED_ON_MAIN);
                  pipeline->set_aborted_on_main_reason(
                      perfetto::protos::pbzero::MainFramePipeline::
                          AbortedOnMainReason::DEFERRED_UPDATE);
                });
    // In this case, since the commit is deferred to a later time, gathered
    // events metrics are not discarded so that they can be reported if the
    // commit happens in the future.
    std::vector<std::unique_ptr<SwapPromise>> empty_swap_promises;
    ImplThreadTaskRunner()->PostTask(
        FROM_HERE,
        base::BindOnce(&ProxyImpl::BeginMainFrameAbortedOnImpl,
                       base::Unretained(proxy_impl_.get()),
                       CommitEarlyOutReason::kAbortedDeferredMainFrameUpdate,
                       begin_main_frame_start_time,
                       std::move(empty_swap_promises),
                       false /* scroll_and_viewport_changes_synced */));
    // When we stop deferring main frame updates, we should resume any
    // previously requested pipeline stages.
    deferred_final_pipeline_stage_ =
        std::max(final_pipeline_stage_, deferred_final_pipeline_stage_);
    layer_tree_host_->GetSwapPromiseManager()->BreakSwapPromises(
        SwapPromise::COMMIT_FAILS);
    return;
  }

  // This call winds through to the LocalFrameView to mark the beginning
  // of a main frame for metrics purposes. Some metrics are only gathered
  // between calls to RecordStartOfFrameMetrics and RecordEndOfFrameMetrics.
  // This is not wrapped into layer_tree_host_->WillBeginMainFrame because
  // it should only be called from the multi-threaded proxy (we do not want
  // metrics gathering in tests).
  layer_tree_host_->RecordStartOfFrameMetrics();

  final_pipeline_stage_ =
      std::max(final_pipeline_stage_, deferred_final_pipeline_stage_);
  deferred_final_pipeline_stage_ = NO_PIPELINE_STAGE;

  current_pipeline_stage_ = ANIMATE_PIPELINE_STAGE;

  // Check now if we should stop deferring commits due to a timeout. We
  // may also stop deferring in layer_tree_host_->BeginMainFrame, but update
  // the status at this point to keep scroll in sync.
  bool commit_timeout = false;
  if (IsDeferringCommits() && base::TimeTicks::Now() > commits_restart_time_) {
    StopDeferringCommits(ReasonToTimeoutTrigger(*paint_holding_reason_));
    commit_timeout = true;
  }

  bool blocking = block_on_next_commit_;
  block_on_next_commit_ = false;

  bool scroll_and_viewport_changes_synced = false;
  if (!IsDeferringCommits()) {
    // Synchronizes scroll offsets and page scale deltas (for pinch zoom) from
    // the compositor thread to the main thread for both cc and and its client
    // (e.g. Blink). Do not do this if we explicitly plan to not commit the
    // layer tree, to prevent scroll offsets getting out of sync.
    layer_tree_host_->ApplyCompositorChanges(
        begin_main_frame_state->commit_data.get());
    scroll_and_viewport_changes_synced = true;
  }

  layer_tree_host_->ApplyMutatorEvents(
      std::move(begin_main_frame_state->mutator_events));

  layer_tree_host_->WillBeginMainFrame();

  // See LayerTreeHostClient::BeginMainFrame for more documentation on
  // what this does.
  layer_tree_host_->BeginMainFrame(frame_args);

  // Updates cc animations on the main-thread. This is necessary in order
  // to track animation states such that they are cleaned up properly.
  layer_tree_host_->AnimateLayers(frame_args.frame_time);

  // If the previous BeginMainFrame has not yet completed commit on the impl
  // thread, then the above call to AnimateLayers should have blocked until the
  // previous commit finished.
  DCHECK(!layer_tree_host_->in_commit());

  // Recreates all UI resources if the compositor thread evicted UI resources
  // because it became invisible or there was a lost context when the compositor
  // thread initiated the commit.
  if (begin_main_frame_state->evicted_ui_resources)
    layer_tree_host_->GetUIResourceManager()->RecreateUIResources();

  // See LayerTreeHostClient::MainFrameUpdate for more documentation on
  // what this does.
  layer_tree_host_->RequestMainFrameUpdate(true /* report_cc_metrics */);

  // At this point the main frame may have deferred main frame updates to
  // avoid committing right now, or may have allowed commits to go through. So
  // evaluate this flag now.
  bool skip_commit = defer_main_frame_update_ || IsDeferringCommits();

  // When we don't need to produce a CompositorFrame, there's also no need to
  // commit our updates. We still need to run layout and paint though, as it can
  // have side effects on page loading behavior.
  skip_commit |= frame_args.animate_only;

  if (skip_commit) {
    current_pipeline_stage_ = NO_PIPELINE_STAGE;
    layer_tree_host_->DidBeginMainFrame();
    TRACE_EVENT("cc,benchmark", "MainFrameAborted",
                [&](perfetto::EventContext ctx) {
                  auto* pipeline = EmitMainFramePipelineStep(
                      ctx, begin_main_frame_state->trace_id,
                      perfetto::protos::pbzero::MainFramePipeline::Step::
                          ABORTED_ON_MAIN);
                  pipeline->set_aborted_on_main_reason(
                      perfetto::protos::pbzero::MainFramePipeline::
                          AbortedOnMainReason::DEFERRED_COMMIT_ABORTED);
                });
    layer_tree_host_->RecordEndOfFrameMetrics(
        begin_main_frame_start_time,
        begin_main_frame_state->active_sequence_trackers);

    // In this case, since the commit is deferred to a later time, gathered
    // events metrics are not discarded so that they can be reported if the
    // commit happens in the future.
    std::vector<std::unique_ptr<SwapPromise>> empty_swap_promises;
    ImplThreadTaskRunner()->PostTask(
        FROM_HERE, base::BindOnce(&ProxyImpl::BeginMainFrameAbortedOnImpl,
                                  base::Unretained(proxy_impl_.get()),
                                  CommitEarlyOutReason::kAbortedDeferredCommit,
                                  begin_main_frame_start_time,
                                  std::move(empty_swap_promises),
                                  scroll_and_viewport_changes_synced));
    // We intentionally don't report CommitComplete() here since it was aborted
    // prematurely and we're waiting to do another commit in the future.
    // When we stop deferring commits, we should resume any previously requested
    // pipeline stages.
    deferred_final_pipeline_stage_ = final_pipeline_stage_;
    layer_tree_host_->GetSwapPromiseManager()->BreakSwapPromises(
        SwapPromise::COMMIT_FAILS);
    return;
  }

  // The devtools "Commit" step includes the update layers pipeline stage
  // through to the main thread handoff to the compositor thread:
  //     https://developer.chrome.com/articles/renderingng-architecture
  // TODO(paint-dev): This omits time that the main thread is blocked on commit
  // *after* BeginMainFrame has finished, i.e., all call paths into
  // LayerTreeHost::WaitForCommitCompletion that don't pass through
  // BeginMainFrame. There probably ought to be a separate trace event for that.
  devtools_instrumentation::ScopedCommitTrace commit_trace(
      layer_tree_host_->GetId(), frame_args.frame_id.sequence_number);

  // If UI resources were evicted on the impl thread, we need a commit.
  if (begin_main_frame_state->evicted_ui_resources)
    final_pipeline_stage_ = COMMIT_PIPELINE_STAGE;

  current_pipeline_stage_ = UPDATE_LAYERS_PIPELINE_STAGE;
  bool should_update_layers =
      final_pipeline_stage_ >= UPDATE_LAYERS_PIPELINE_STAGE;

  // Among other things, UpdateLayers:
  // -Updates property trees in cc.
  // -Updates state for and "paints" display lists for cc layers by asking
  // cc's client to do so.
  // If the layer painting is backed by Blink, Blink generates the display
  // list in advance, and "painting" amounts to copying the Blink display list
  // to corresponding  cc display list. An exception is for painted scrollbars,
  // which paint eagerly during layer update.
  bool updated = should_update_layers && layer_tree_host_->UpdateLayers();
  if (synchronous_composite_for_test_callback_) {
    updated = true;
  }

  // If updating the layers resulted in a content update, we need a commit.
  if (updated)
    final_pipeline_stage_ = COMMIT_PIPELINE_STAGE;

  auto completion_event_ptr = std::make_unique<CompletionEvent>(
      base::WaitableEvent::ResetPolicy::MANUAL);
  auto* completion_event = completion_event_ptr.get();
  bool has_updates = (final_pipeline_stage_ == COMMIT_PIPELINE_STAGE);
  // Must get unsafe_state before calling WillCommit() to avoid deadlock.
  auto& unsafe_state = layer_tree_host_->GetUnsafeStateForCommit();
  std::unique_ptr<CommitState> commit_state = layer_tree_host_->WillCommit(
      std::move(completion_event_ptr), has_updates);

  DCHECK_EQ(has_updates, (bool)commit_state.get());
  if (commit_state.get()) {
    commit_state->trace_id = begin_main_frame_state->trace_id;
  }
  current_pipeline_stage_ = COMMIT_PIPELINE_STAGE;

  if (!has_updates) {
    completion_event->Signal();
    current_pipeline_stage_ = NO_PIPELINE_STAGE;
    layer_tree_host_->DidBeginMainFrame();
    TRACE_EVENT_INSTANT0("cc,raf_investigation", "EarlyOut_NoUpdates",
                         TRACE_EVENT_SCOPE_THREAD);
    TRACE_EVENT("cc,benchmark", "MainFrameAborted",
                [&](perfetto::EventContext ctx) {
                  auto* pipeline = EmitMainFramePipelineStep(
                      ctx, begin_main_frame_state->trace_id,
                      perfetto::protos::pbzero::MainFramePipeline::Step::
                          ABORTED_ON_MAIN);
                  pipeline->set_aborted_on_main_reason(
                      perfetto::protos::pbzero::MainFramePipeline::
                          AbortedOnMainReason::NO_UPDATE);
                });
    std::vector<std::unique_ptr<SwapPromise>> swap_promises =
        layer_tree_host_->GetSwapPromiseManager()->TakeSwapPromises();

    // Since the commit has been aborted due to no updates, handling of events
    // on the main frame had no effect and no metrics should be reported for
    // such events.
    layer_tree_host_->ClearEventsMetrics();

    // We can only be here if !skip_commits, so we did do a scroll and
    // viewport sync.
    ImplThreadTaskRunner()->PostTask(
        FROM_HERE,
        base::BindOnce(&ProxyImpl::BeginMainFrameAbortedOnImpl,
                       base::Unretained(proxy_impl_.get()),
                       CommitEarlyOutReason::kFinishedNoUpdates,
                       begin_main_frame_start_time, std::move(swap_promises),
                       true /* scroll_and_viewport_changes_synced */));

    // Although the commit is internally aborted, this is because it has been
    // detected to be a no-op.  From the perspective of an embedder, this commit
    // went through, and input should no longer be throttled, etc.
    layer_tree_host_->CommitComplete(
        layer_tree_host_->SourceFrameNumber(),
        {base::TimeTicks(), base::TimeTicks::Now()});
    layer_tree_host_->RecordEndOfFrameMetrics(
        begin_main_frame_start_time,
        begin_main_frame_state->active_sequence_trackers);
    return;
  }

  if (synchronous_composite_for_test_callback_) {
    commit_state->pending_presentation_callbacks.push_back(base::BindOnce(
        [](base::OnceClosure callback, const gfx::PresentationFeedback&) {
          std::move(callback).Run();
        },
        std::move(synchronous_composite_for_test_callback_)));
  }

  current_pipeline_stage_ = NO_PIPELINE_STAGE;

  // Notify the impl thread that the main thread is ready to commit. This will
  // begin the commit process, which is blocking from the main thread's
  // point of view, but asynchronously performed on the impl thread,
  // coordinated by the Scheduler.
  int source_frame_number = commit_state->source_frame_number;
  CommitTimestamps commit_timestamps;
  {
    TRACE_EVENT("cc,benchmark", "ProxyMain::BeginMainFrame::commit",
                [&](perfetto::EventContext ctx) {
                  EmitMainFramePipelineStep(
                      ctx, begin_main_frame_state->trace_id,
                      perfetto::protos::pbzero::MainFramePipeline::Step::
                          COMMIT_ON_MAIN);
                });

    std::optional<DebugScopedSetMainThreadBlocked> main_thread_blocked;
    if (blocking)
      main_thread_blocked.emplace(task_runner_provider_);

    ImplThreadTaskRunner()->PostTask(
        FROM_HERE,
        base::BindOnce(
            &ProxyImpl::NotifyReadyToCommitOnImpl,
            base::Unretained(proxy_impl_.get()), completion_event,
            std::move(commit_state), &unsafe_state, begin_main_frame_start_time,
            frame_args, scroll_and_viewport_changes_synced,
            blocking ? &commit_timestamps : nullptr, commit_timeout));
    if (blocking)
      layer_tree_host_->WaitForProtectedSequenceCompletion();
  }

  // For Blink implementations, this updates frame throttling and
  // delivers IntersectionObserver events for Chromium-internal customers
  // but *not* script-created IntersectionObserver. See
  // blink::LocalFrameView::RunPostLifecycleSteps.
  layer_tree_host_->DidBeginMainFrame();
  if (blocking)
    layer_tree_host_->CommitComplete(source_frame_number, commit_timestamps);
  layer_tree_host_->RecordEndOfFrameMetrics(
      begin_main_frame_start_time,
      begin_main_frame_state->active_sequence_trackers);
}

void ProxyMain::DidCompleteCommit(int source_frame_number,
                                  CommitTimestamps commit_timestamps) {
  if (layer_tree_host_)
    layer_tree_host_->CommitComplete(source_frame_number, commit_timestamps);
}

void ProxyMain::DidPresentCompositorFrame(
    uint32_t frame_token,
    std::vector<PresentationTimeCallbackBuffer::Callback>
        presentation_callbacks,
    std::vector<PresentationTimeCallbackBuffer::SuccessfulCallbackWithDetails>
        sucessful_presentation_callbacks,
    const viz::FrameTimingDetails& frame_timing_details) {
  layer_tree_host_->DidPresentCompositorFrame(
      frame_token, std::move(presentation_callbacks),
      std::move(sucessful_presentation_callbacks), frame_timing_details);
}

void ProxyMain::NotifyCompositorMetricsTrackerResults(
    CustomTrackerResults results) {
  layer_tree_host_->NotifyCompositorMetricsTrackerResults(std::move(results));
}

void ProxyMain::DidObserveFirstScrollDelay(
    int source_frame_number,
    base::TimeDelta first_scroll_delay,
    base::TimeTicks first_scroll_timestamp) {
  layer_tree_host_->DidObserveFirstScrollDelay(
      source_frame_number, first_scroll_delay, first_scroll_timestamp);
}

void ProxyMain::NotifyImageDecodeRequestFinished(int request_id,
                                                 bool decode_succeeded) {
  DCHECK(base::FeatureList::IsEnabled(
      features::kSendExplicitDecodeRequestsImmediately));
  layer_tree_host_->NotifyImageDecodeFinished(request_id, decode_succeeded);
}

void ProxyMain::NotifyTransitionRequestFinished(
    uint32_t sequence_id,
    const viz::ViewTransitionElementResourceRects& rects) {
  layer_tree_host_->NotifyTransitionRequestsFinished(sequence_id, rects);
}

bool ProxyMain::IsStarted() const {
  DCHECK(IsMainThread());
  return started_;
}

void ProxyMain::SetLayerTreeFrameSink(
    LayerTreeFrameSink* layer_tree_frame_sink) {
  ImplThreadTaskRunner()->PostTask(
      FROM_HERE,
      base::BindOnce(&ProxyImpl::InitializeLayerTreeFrameSinkOnImpl,
                     base::Unretained(proxy_impl_.get()), layer_tree_frame_sink,
                     frame_sink_bound_weak_factory_.GetWeakPtr()));
}

void ProxyMain::SetVisible(bool visible) {
  TRACE_EVENT1("cc", "ProxyMain::SetVisible", "visible", visible);
  ImplThreadTaskRunner()->PostTask(
      FROM_HERE, base::BindOnce(&ProxyImpl::SetVisibleOnImpl,
                                base::Unretained(proxy_impl_.get()), visible));
}

void ProxyMain::SetShouldWarmUp() {
  TRACE_EVENT0("cc", "ProxyMain::SetShouldWarmUp");
  ImplThreadTaskRunner()->PostTask(
      FROM_HERE, base::BindOnce(&ProxyImpl::SetShouldWarmUpOnImpl,
                                base::Unretained(proxy_impl_.get())));
}

void ProxyMain::SetNeedsAnimate() {
  DCHECK(IsMainThread());
  if (SendCommitRequestToImplThreadIfNeeded(ANIMATE_PIPELINE_STAGE)) {
    TRACE_EVENT_INSTANT0("cc", "ProxyMain::SetNeedsAnimate",
                         TRACE_EVENT_SCOPE_THREAD);
  }
}

void ProxyMain::SetNeedsUpdateLayers() {
  DCHECK(IsMainThread());
  // If we are currently animating, make sure we also update the layers.
  if (current_pipeline_stage_ == ANIMATE_PIPELINE_STAGE) {
    final_pipeline_stage_ =
        std::max(final_pipeline_stage_, UPDATE_LAYERS_PIPELINE_STAGE);
    return;
  }
  if (SendCommitRequestToImplThreadIfNeeded(UPDATE_LAYERS_PIPELINE_STAGE)) {
    TRACE_EVENT_INSTANT0("cc", "ProxyMain::SetNeedsUpdateLayers",
                         TRACE_EVENT_SCOPE_THREAD);
  }
}

void ProxyMain::SetNeedsCommit() {
  DCHECK(IsMainThread());
  // If we are currently animating, make sure we don't skip the commit. Note
  // that requesting a commit during the layer update stage means we need to
  // schedule another full commit.
  if (current_pipeline_stage_ == ANIMATE_PIPELINE_STAGE) {
    final_pipeline_stage_ =
        std::max(final_pipeline_stage_, COMMIT_PIPELINE_STAGE);
    return;
  }
  if (SendCommitRequestToImplThreadIfNeeded(COMMIT_PIPELINE_STAGE)) {
    TRACE_EVENT_INSTANT0("cc", "ProxyMain::SetNeedsCommit",
                         TRACE_EVENT_SCOPE_THREAD);
  }
}

void ProxyMain::SetNeedsRedraw(const gfx::Rect& damage_rect) {
  TRACE_EVENT0("cc", "ProxyMain::SetNeedsRedraw");
  DCHECK(IsMainThread());
  ImplThreadTaskRunner()->PostTask(
      FROM_HERE,
      base::BindOnce(&ProxyImpl::SetNeedsRedrawOnImpl,
                     base::Unretained(proxy_impl_.get()), damage_rect));
}

void ProxyMain::SetTargetLocalSurfaceId(
    const viz::LocalSurfaceId& target_local_surface_id) {
  DCHECK(IsMainThread());
  ImplThreadTaskRunner()->PostTask(
      FROM_HERE, base::BindOnce(&ProxyImpl::SetTargetLocalSurfaceIdOnImpl,
                                base::Unretained(proxy_impl_.get()),
                                target_local_surface_id));
}

void ProxyMain::DetachInputDelegateAndRenderFrameObserver() {
  DCHECK(IsMainThread());
  auto completion_event = std::make_unique<CompletionEvent>(
      base::WaitableEvent::ResetPolicy::MANUAL);
  ImplThreadTaskRunner()->PostTask(
      FROM_HERE,
      base::BindOnce(&ProxyImpl::DetachInputDelegateAndRenderFrameObserver,
                     base::Unretained(proxy_impl_.get()),
                     completion_event.get()));
  completion_event->Wait();
}

bool ProxyMain::RequestedAnimatePending() {
  return max_requested_pipeline_stage_ >= ANIMATE_PIPELINE_STAGE;
}

void ProxyMain::SetDeferMainFrameUpdate(bool defer_main_frame_update) {
  DCHECK(IsMainThread());
  if (defer_main_frame_update_ == defer_main_frame_update)
    return;

  defer_main_frame_update_ = defer_main_frame_update;
  if (defer_main_frame_update_) {
    TRACE_EVENT_NESTABLE_ASYNC_BEGIN0(
        "cc", "ProxyMain::SetDeferMainFrameUpdate", TRACE_ID_LOCAL(this));
  } else {
    TRACE_EVENT_NESTABLE_ASYNC_END0("cc", "ProxyMain::SetDeferMainFrameUpdate",
                                    TRACE_ID_LOCAL(this));
  }

  // Notify dependent systems that the deferral status has changed.
  layer_tree_host_->OnDeferMainFrameUpdatesChanged(defer_main_frame_update_);

  // The impl thread needs to know that it should not issue BeginMainFrame.
  ImplThreadTaskRunner()->PostTask(
      FROM_HERE, base::BindOnce(&ProxyImpl::SetDeferBeginMainFrameFromMain,
                                base::Unretained(proxy_impl_.get()),
                                defer_main_frame_update));
}

void ProxyMain::SetPauseRendering(bool pause_rendering) {
  DCHECK(IsMainThread());
  if (pause_rendering_ == pause_rendering)
    return;

  pause_rendering_ = pause_rendering;
  if (pause_rendering_) {
    TRACE_EVENT_NESTABLE_ASYNC_BEGIN0("cc", "ProxyMain::SetPauseRendering",
                                      TRACE_ID_LOCAL(this));
  } else {
    TRACE_EVENT_NESTABLE_ASYNC_END0("cc", "ProxyMain::SetPauseRendering",
                                    TRACE_ID_LOCAL(this));
  }

  // The impl thread needs to know that it should not issue BeginFrames.
  ImplThreadTaskRunner()->PostTask(
      FROM_HERE,
      base::BindOnce(&ProxyImpl::SetPauseRendering,
                     base::Unretained(proxy_impl_.get()), pause_rendering_));
}

void ProxyMain::SetInputResponsePending() {
  // If the next main frame will contain the visual response to an input event,
  // we pause execution on the main thread until the compositor thread finishes
  // processing the commit. This is done to minimize thread contention while
  // the compositor is doing critical-path work.
  block_on_next_commit_ = true;
}

bool ProxyMain::StartDeferringCommits(base::TimeDelta timeout,
                                      PaintHoldingReason reason) {
  DCHECK(task_runner_provider_->IsMainThread());

  // Do nothing if already deferring. The timeout remains as it was from when
  // we most recently began deferring.
  if (IsDeferringCommits())
    return false;

  TRACE_EVENT_NESTABLE_ASYNC_BEGIN0("cc", "ProxyMain::SetDeferCommits",
                                    TRACE_ID_LOCAL(this));

  paint_holding_reason_ = reason;
  commits_restart_time_ = base::TimeTicks::Now() + timeout;

  // Notify dependent systems that the deferral status has changed.
  layer_tree_host_->OnDeferCommitsChanged(true, reason, std::nullopt);
  return true;
}

void ProxyMain::StopDeferringCommits(PaintHoldingCommitTrigger trigger) {
  if (!IsDeferringCommits())
    return;
  auto reason = *paint_holding_reason_;
  paint_holding_reason_.reset();
  UMA_HISTOGRAM_ENUMERATION("PaintHolding.CommitTrigger2", trigger);
  commits_restart_time_ = base::TimeTicks();
  TRACE_EVENT_NESTABLE_ASYNC_END0("cc", "ProxyMain::SetDeferCommits",
                                  TRACE_ID_LOCAL(this));

  // Notify depended systems that the deferral status has changed.
  layer_tree_host_->OnDeferCommitsChanged(false, reason, trigger);
}

bool ProxyMain::IsDeferringCommits() const {
  DCHECK(IsMainThread());
  return paint_holding_reason_.has_value();
}

bool ProxyMain::CommitRequested() const {
  DCHECK(IsMainThread());
  // TODO(skyostil): Split this into something like CommitRequested() and
  // CommitInProgress().
  return current_pipeline_stage_ != NO_PIPELINE_STAGE ||
         max_requested_pipeline_stage_ >= COMMIT_PIPELINE_STAGE;
}

void ProxyMain::Start() {
  DCHECK(IsMainThread());
  DCHECK(layer_tree_host_->IsThreaded());

  {
    DebugScopedSetMainThreadBlocked main_thread_blocked(task_runner_provider_);
    CompletionEvent completion;
    ImplThreadTaskRunner()->PostTask(
        FROM_HERE,
        base::BindOnce(&ProxyMain::InitializeOnImplThread,
                       base::Unretained(this), &completion,
                       layer_tree_host_->GetId(),
                       &layer_tree_host_->GetSettings(),
                       layer_tree_host_->rendering_stats_instrumentation()));
    completion.Wait();
  }

  started_ = true;
}

void ProxyMain::Stop() {
  TRACE_EVENT0("cc", "ProxyMain::Stop");
  DCHECK(IsMainThread());
  DCHECK(started_);

  // Synchronously finishes pending GL operations and deletes the impl.
  // The two steps are done as separate post tasks, so that tasks posted
  // by the GL implementation due to the Finish can be executed by the
  // renderer before shutting it down.
  {
    DebugScopedSetMainThreadBlocked main_thread_blocked(task_runner_provider_);
    CompletionEvent completion;
    ImplThreadTaskRunner()->PostTask(
        FROM_HERE,
        base::BindOnce(&ProxyImpl::FinishGLOnImpl,
                       base::Unretained(proxy_impl_.get()), &completion));
    completion.Wait();
  }
  {
    DebugScopedSetMainThreadBlocked main_thread_blocked(task_runner_provider_);
    CompletionEvent completion;
    ImplThreadTaskRunner()->PostTask(
        FROM_HERE, base::BindOnce(&ProxyMain::DestroyProxyImplOnImplThread,
                                  base::Unretained(this), &completion));
    completion.Wait();
  }

  weak_factory_.InvalidateWeakPtrs();
  layer_tree_host_ = nullptr;
  started_ = false;
}

void ProxyMain::QueueImageDecode(int request_id, const PaintImage& image) {
  TRACE_EVENT1("cc", "ProxyMain::QueueImageDecode", "request_id", request_id);
  ImplThreadTaskRunner()->PostTask(
      FROM_HERE, base::BindOnce(&ProxyImpl::QueueImageDecodeOnImpl,
                                base::Unretained(proxy_impl_.get()), request_id,
                                std::make_unique<PaintImage>(image)));
}

void ProxyMain::SetMutator(std::unique_ptr<LayerTreeMutator> mutator) {
  TRACE_EVENT0("cc", "ProxyMain::SetMutator");
  ImplThreadTaskRunner()->PostTask(
      FROM_HERE,
      base::BindOnce(&ProxyImpl::InitializeMutatorOnImpl,
                     base::Unretained(proxy_impl_.get()), std::move(mutator)));
}

void ProxyMain::SetPaintWorkletLayerPainter(
    std::unique_ptr<PaintWorkletLayerPainter> painter) {
  TRACE_EVENT0("cc", "ProxyMain::SetPaintWorkletLayerPainter");
  ImplThreadTaskRunner()->PostTask(
      FROM_HERE,
      base::BindOnce(&ProxyImpl::InitializePaintWorkletLayerPainterOnImpl,
                     base::Unretained(proxy_impl_.get()), std::move(painter)));
}

bool ProxyMain::MainFrameWillHappenForTesting() {
  DCHECK(IsMainThread());
  bool main_frame_will_happen = false;
  if (layer_tree_host_)
    layer_tree_host_->WaitForProtectedSequenceCompletion();
  DebugScopedSetMainThreadBlocked main_thread_blocked(task_runner_provider_);
  CompletionEvent completion;
  ImplThreadTaskRunner()->PostTask(
      FROM_HERE, base::BindOnce(&ProxyImpl::MainFrameWillHappenOnImplForTesting,
                                base::Unretained(proxy_impl_.get()),
                                &completion, &main_frame_will_happen));
  completion.Wait();
  return main_frame_will_happen;
}

void ProxyMain::ReleaseLayerTreeFrameSink() {
  TRACE_EVENT0("cc", "ProxyMain::ReleaseLayerTreeFrameSink");
  base::ScopedUmaHistogramTimer histogram_timer(
      "Navigation.ProxyMain.ReleaseLayerTreeFrameSink");
  DCHECK(IsMainThread());
  frame_sink_bound_weak_factory_.InvalidateWeakPtrs();
  DebugScopedSetMainThreadBlocked main_thread_blocked(task_runner_provider_);
  CompletionEvent completion;
  ImplThreadTaskRunner()->PostTask(
      FROM_HERE,
      base::BindOnce(&ProxyImpl::ReleaseLayerTreeFrameSinkOnImpl,
                     base::Unretained(proxy_impl_.get()), &completion));
  completion.Wait();
}

void ProxyMain::UpdateBrowserControlsState(
    BrowserControlsState constraints,
    BrowserControlsState current,
    bool animate,
    base::optional_ref<const BrowserControlsOffsetTagsInfo> offset_tags_info) {
  DCHECK(IsMainThread());
  ImplThreadTaskRunner()->PostTask(
      FROM_HERE,
      base::BindOnce(&ProxyImpl::UpdateBrowserControlsStateOnImpl,
                     base::Unretained(proxy_impl_.get()), constraints, current,
                     animate, offset_tags_info));
}

void ProxyMain::RequestBeginMainFrameNotExpected(bool new_state) {
  DCHECK(IsMainThread());
  ImplThreadTaskRunner()->PostTask(
      FROM_HERE,
      base::BindOnce(&ProxyImpl::RequestBeginMainFrameNotExpectedOnImpl,
                     base::Unretained(proxy_impl_.get()), new_state));
}

bool ProxyMain::SendCommitRequestToImplThreadIfNeeded(
    CommitPipelineStage required_stage) {
  DCHECK(IsMainThread());
  DCHECK_NE(NO_PIPELINE_STAGE, required_stage);
  bool already_posted = max_requested_pipeline_stage_ != NO_PIPELINE_STAGE;
  max_requested_pipeline_stage_ =
      std::max(max_requested_pipeline_stage_, required_stage);
  if (already_posted)
    return false;
  ImplThreadTaskRunner()->PostTask(
      FROM_HERE, base::BindOnce(&ProxyImpl::SetNeedsCommitOnImpl,
                                base::Unretained(proxy_impl_.get())));
  layer_tree_host_->OnCommitRequested();
  return true;
}

bool ProxyMain::IsMainThread() const {
  return task_runner_provider_->IsMainThread();
}

bool ProxyMain::IsImplThread() const {
  return task_runner_provider_->IsImplThread();
}

base::SingleThreadTaskRunner* ProxyMain::ImplThreadTaskRunner() {
  return task_runner_provider_->ImplThreadTaskRunner();
}

void ProxyMain::SetSourceURL(ukm::SourceId source_id, const GURL& url) {
  DCHECK(IsMainThread());
  ImplThreadTaskRunner()->PostTask(
      FROM_HERE, base::BindOnce(&ProxyImpl::SetSourceURL,
                                base::Unretained(proxy_impl_.get()),
                                source_id, url));
}

void ProxyMain::SetUkmSmoothnessDestination(
    base::WritableSharedMemoryMapping ukm_smoothness_data) {
  DCHECK(IsMainThread());
  ImplThreadTaskRunner()->PostTask(
      FROM_HERE, base::BindOnce(&ProxyImpl::SetUkmSmoothnessDestination,
                                base::Unretained(proxy_impl_.get()),
                                std::move(ukm_smoothness_data)));
}

void ProxyMain::SetRenderFrameObserver(
    std::unique_ptr<RenderFrameMetadataObserver> observer) {
  ImplThreadTaskRunner()->PostTask(
      FROM_HERE,
      base::BindOnce(&ProxyImpl::SetRenderFrameObserver,
                     base::Unretained(proxy_impl_.get()), std::move(observer)));
}

void ProxyMain::CompositeImmediatelyForTest(base::TimeTicks frame_begin_time,
                                            bool raster,
                                            base::OnceClosure callback) {
  synchronous_composite_for_test_callback_ = std::move(callback);
  SetNeedsCommit();
}

double ProxyMain::GetPercentDroppedFrames() const {
  NOTIMPLEMENTED();
  return 0.0;
}

}  // namespace cc