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chromium / chromium / src / 7f9f54d7a0f09f6fc25010ff03f4c97e7cb20c1c / . / cc / metrics / compositor_frame_reporting_controller.cc
blob: 5cd49b99786968d87c6c8021c0d16ec116f56de3 [file] [log] [blame]
// Copyright 2019 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/metrics/compositor_frame_reporting_controller.h"
#include <utility>
#include "base/trace_event/trace_event.h"
#include "cc/metrics/compositor_frame_reporter.h"
#include "cc/metrics/dropped_frame_counter.h"
#include "cc/metrics/latency_ukm_reporter.h"
#include "components/viz/common/frame_timing_details.h"
#include "components/viz/common/quads/compositor_frame_metadata.h"
namespace cc {
namespace {
using SmoothThread = CompositorFrameReporter::SmoothThread;
using StageType = CompositorFrameReporter::StageType;
using FrameTerminationStatus = CompositorFrameReporter::FrameTerminationStatus;
} // namespace
CompositorFrameReportingController::CompositorFrameReportingController(
bool should_report_metrics,
int layer_tree_host_id)
: should_report_metrics_(should_report_metrics),
layer_tree_host_id_(layer_tree_host_id),
latency_ukm_reporter_(std::make_unique<LatencyUkmReporter>()) {}
CompositorFrameReportingController::~CompositorFrameReportingController() {
base::TimeTicks now = Now();
for (int i = 0; i < PipelineStage::kNumPipelineStages; ++i) {
if (reporters_[i]) {
reporters_[i]->TerminateFrame(FrameTerminationStatus::kDidNotProduceFrame,
now);
}
}
for (auto& pair : submitted_compositor_frames_) {
pair.reporter->TerminateFrame(FrameTerminationStatus::kDidNotPresentFrame,
Now());
}
}
CompositorFrameReportingController::SubmittedCompositorFrame::
SubmittedCompositorFrame() = default;
CompositorFrameReportingController::SubmittedCompositorFrame::
SubmittedCompositorFrame(uint32_t frame_token,
std::unique_ptr<CompositorFrameReporter> reporter)
: frame_token(frame_token), reporter(std::move(reporter)) {}
CompositorFrameReportingController::SubmittedCompositorFrame::
~SubmittedCompositorFrame() = default;
CompositorFrameReportingController::SubmittedCompositorFrame::
SubmittedCompositorFrame(SubmittedCompositorFrame&& other) = default;
base::TimeTicks CompositorFrameReportingController::Now() const {
return tick_clock_->NowTicks();
}
bool CompositorFrameReportingController::HasReporterAt(
PipelineStage stage) const {
return !!reporters_[stage].get();
}
void CompositorFrameReportingController::ProcessSkippedFramesIfNecessary(
const viz::BeginFrameArgs& args) {
if (previous_frame_.IsValid() &&
previous_frame_.frame_id.source_id == args.frame_id.source_id) {
CreateReportersForDroppedFrames(previous_frame_, args);
}
previous_frame_ = args;
}
void CompositorFrameReportingController::WillBeginImplFrame(
const viz::BeginFrameArgs& args) {
ProcessSkippedFramesIfNecessary(args);
base::TimeTicks begin_time = Now();
if (reporters_[PipelineStage::kBeginImplFrame]) {
auto& reporter = reporters_[PipelineStage::kBeginImplFrame];
DCHECK(reporter->did_finish_impl_frame());
// TODO(1144353): This is a speculative fix. This code should only be
// reached after the previous frame have been explicitly marked as 'did not
// produce frame', i.e. this code should have a DCHECK instead of a
// conditional:
// DCHECK(reporter->did_not_produce_frame()).
if (reporter->did_not_produce_frame()) {
reporter->TerminateFrame(FrameTerminationStatus::kDidNotProduceFrame,
reporter->did_not_produce_frame_time());
} else {
reporter->TerminateFrame(FrameTerminationStatus::kReplacedByNewReporter,
Now());
}
}
auto reporter = std::make_unique<CompositorFrameReporter>(
active_trackers_, args, latency_ukm_reporter_.get(),
should_report_metrics_, GetSmoothThread(), scrolling_thread_,
layer_tree_host_id_, dropped_frame_counter_);
reporter->set_tick_clock(tick_clock_);
reporter->StartStage(StageType::kBeginImplFrameToSendBeginMainFrame,
begin_time);
reporters_[PipelineStage::kBeginImplFrame] = std::move(reporter);
}
void CompositorFrameReportingController::WillBeginMainFrame(
const viz::BeginFrameArgs& args) {
if (reporters_[PipelineStage::kBeginImplFrame]) {
// We need to use .get() below because operator<< in std::unique_ptr is a
// C++20 feature.
DCHECK_NE(reporters_[PipelineStage::kBeginMainFrame].get(),
reporters_[PipelineStage::kBeginImplFrame].get());
DCHECK_EQ(reporters_[PipelineStage::kBeginImplFrame]->frame_id(),
args.frame_id);
reporters_[PipelineStage::kBeginImplFrame]->StartStage(
StageType::kSendBeginMainFrameToCommit, Now());
AdvanceReporterStage(PipelineStage::kBeginImplFrame,
PipelineStage::kBeginMainFrame);
} else {
// In this case we have already submitted the ImplFrame, but we received
// beginMain frame before next BeginImplFrame (Not reached the ImplFrame
// deadline yet). So will start a new reporter at BeginMainFrame.
auto reporter = std::make_unique<CompositorFrameReporter>(
active_trackers_, args, latency_ukm_reporter_.get(),
should_report_metrics_, GetSmoothThread(), scrolling_thread_,
layer_tree_host_id_, dropped_frame_counter_);
reporter->set_tick_clock(tick_clock_);
reporter->StartStage(StageType::kSendBeginMainFrameToCommit, Now());
reporters_[PipelineStage::kBeginMainFrame] = std::move(reporter);
}
}
void CompositorFrameReportingController::BeginMainFrameAborted(
const viz::BeginFrameId& id,
CommitEarlyOutReason reason) {
auto& reporter = reporters_[PipelineStage::kBeginMainFrame];
DCHECK(reporter);
DCHECK_EQ(reporter->frame_id(), id);
reporter->OnAbortBeginMainFrame(Now());
if (reason == CommitEarlyOutReason::FINISHED_NO_UPDATES)
DidNotProduceFrame(id, FrameSkippedReason::kNoDamage);
}
void CompositorFrameReportingController::WillCommit() {
DCHECK(reporters_[PipelineStage::kBeginMainFrame]);
reporters_[PipelineStage::kBeginMainFrame]->StartStage(StageType::kCommit,
Now());
}
void CompositorFrameReportingController::DidCommit() {
DCHECK(reporters_[PipelineStage::kBeginMainFrame]);
reporters_[PipelineStage::kBeginMainFrame]->StartStage(
StageType::kEndCommitToActivation, Now());
AdvanceReporterStage(PipelineStage::kBeginMainFrame, PipelineStage::kCommit);
}
void CompositorFrameReportingController::WillInvalidateOnImplSide() {
// Allows for activation without committing.
// TODO(alsan): Report latency of impl side invalidations.
next_activate_has_invalidation_ = true;
}
void CompositorFrameReportingController::WillActivate() {
DCHECK(reporters_[PipelineStage::kCommit] || next_activate_has_invalidation_);
if (!reporters_[PipelineStage::kCommit])
return;
reporters_[PipelineStage::kCommit]->StartStage(StageType::kActivation, Now());
}
void CompositorFrameReportingController::DidActivate() {
DCHECK(reporters_[PipelineStage::kCommit] || next_activate_has_invalidation_);
next_activate_has_invalidation_ = false;
if (!reporters_[PipelineStage::kCommit])
return;
reporters_[PipelineStage::kCommit]->StartStage(
StageType::kEndActivateToSubmitCompositorFrame, Now());
AdvanceReporterStage(PipelineStage::kCommit, PipelineStage::kActivate);
}
void CompositorFrameReportingController::DidSubmitCompositorFrame(
uint32_t frame_token,
const viz::BeginFrameId& current_frame_id,
const viz::BeginFrameId& last_activated_frame_id,
EventMetricsSet events_metrics,
bool has_missing_content) {
bool is_activated_frame_new =
(last_activated_frame_id != last_submitted_frame_id_);
// It is possible to submit a CompositorFrame containing outputs from two
// different begin-frames: an begin-main-frame that was blocked on the
// main-thread, and another one for the compositor thread.
std::unique_ptr<CompositorFrameReporter> main_reporter;
std::unique_ptr<CompositorFrameReporter> impl_reporter;
// If |is_activated_frame_new| is true, |main_reporter| is guaranteed to
// be set, and |impl_reporter| may or may not be set; otherwise,
// |impl_reporter| is guaranteed to be set, and |main_reporter| will not be
// set.
if (is_activated_frame_new) {
DCHECK_EQ(reporters_[PipelineStage::kActivate]->frame_id(),
last_activated_frame_id);
// The reporter in activate state can be submitted
main_reporter = std::move(reporters_[PipelineStage::kActivate]);
last_submitted_frame_id_ = last_activated_frame_id;
} else {
DCHECK(!reporters_[PipelineStage::kActivate]);
}
// |main_reporter| can be for a previous BeginFrameArgs (i.e. not for
// |current_frame_id|), in which case it is necessary to also report metrics
// for the reporter representing |current_frame_id|. Following are the
// possibilities:
// 1) the main-thread did not request any updates (i.e. a 'begin main frame'
// was not issued). The reporter for |current_frame_id| should still be in
// the 'impl frame' stage.
// 2) the 'begin main frame' was issued, but the main-thread did not have any
// updates (i.e. the 'begin main frame' was aborted). The reporter for
// |current_frame_id| should be in the 'main frame' stage, and it will
// have been aborted.
// 3) main-thread is still processing 'begin main frame'. The reporter for
// |current_frame_id| should be in either the 'main frame' or 'commit'
// stage.
if (CanSubmitImplFrame(current_frame_id)) {
auto& reporter = reporters_[PipelineStage::kBeginImplFrame];
reporter->StartStage(StageType::kEndActivateToSubmitCompositorFrame,
reporter->impl_frame_finish_time());
AdvanceReporterStage(PipelineStage::kBeginImplFrame,
PipelineStage::kActivate);
impl_reporter = std::move(reporters_[PipelineStage::kActivate]);
CompositorFrameReporter* partial_update_decider =
GetOutstandingUpdatesFromMain(current_frame_id);
if (partial_update_decider)
impl_reporter->SetPartialUpdateDecider(partial_update_decider);
} else if (CanSubmitMainFrame(current_frame_id)) {
auto& reporter = reporters_[PipelineStage::kBeginMainFrame];
reporter->StartStage(StageType::kEndActivateToSubmitCompositorFrame,
reporter->impl_frame_finish_time());
AdvanceReporterStage(PipelineStage::kBeginMainFrame,
PipelineStage::kActivate);
impl_reporter = std::move(reporters_[PipelineStage::kActivate]);
} else {
auto reporter = RestoreReporterAtBeginImpl(current_frame_id);
// The method will return nullptr if Impl reporter has been submitted
// prior to BeginMainFrame.
if (reporter) {
reporter->StartStage(StageType::kEndActivateToSubmitCompositorFrame,
reporter->impl_frame_finish_time());
impl_reporter = std::move(reporter);
}
}
#if DCHECK_IS_ON()
if (!events_metrics.main_event_metrics.empty()) {
DCHECK(main_reporter);
}
if (impl_reporter) {
DCHECK_EQ(impl_reporter->frame_id(), current_frame_id);
if (main_reporter) {
DCHECK_NE(main_reporter->frame_id(), current_frame_id);
}
}
#endif
// When |impl_reporter| does not exist, but there are still impl-side metrics,
// merge the main and impl metrics and pass the combined vector into
// |main_reporter|.
if (!impl_reporter && !events_metrics.impl_event_metrics.empty()) {
DCHECK(main_reporter);
// If there are impl events, there must be a reporter with
// |current_frame_id|.
DCHECK_EQ(main_reporter->frame_id(), current_frame_id);
events_metrics.main_event_metrics.reserve(
events_metrics.main_event_metrics.size() +
events_metrics.impl_event_metrics.size());
events_metrics.main_event_metrics.insert(
events_metrics.main_event_metrics.end(),
std::make_move_iterator(events_metrics.impl_event_metrics.begin()),
std::make_move_iterator(events_metrics.impl_event_metrics.end()));
}
if (main_reporter) {
main_reporter->StartStage(
StageType::kSubmitCompositorFrameToPresentationCompositorFrame, Now());
main_reporter->AddEventsMetrics(
std::move(events_metrics.main_event_metrics));
main_reporter->set_has_missing_content(has_missing_content);
submitted_compositor_frames_.emplace_back(frame_token,
std::move(main_reporter));
}
if (impl_reporter) {
impl_reporter->EnableCompositorOnlyReporting();
impl_reporter->StartStage(
StageType::kSubmitCompositorFrameToPresentationCompositorFrame, Now());
impl_reporter->AddEventsMetrics(
std::move(events_metrics.impl_event_metrics));
impl_reporter->set_has_missing_content(has_missing_content);
submitted_compositor_frames_.emplace_back(frame_token,
std::move(impl_reporter));
}
}
void CompositorFrameReportingController::DidNotProduceFrame(
const viz::BeginFrameId& id,
FrameSkippedReason skip_reason) {
for (auto& stage_reporter : reporters_) {
if (stage_reporter && stage_reporter->frame_id() == id) {
// The reporter will be flagged and terminated when replaced by another
// reporter. The reporter is not terminated immediately here because it
// can still end up producing a frame afterwards. For example, if the
// compositor does not have any updates, and the main-thread takes too
// long, then DidNotProduceFrame() is called for the reporter in the
// BeginMain stage, but the main-thread can make updates, which can be
// submitted with the next frame.
stage_reporter->OnDidNotProduceFrame(skip_reason);
if (skip_reason == FrameSkippedReason::kWaitingOnMain)
SetPartialUpdateDeciderWhenWaitingOnMain(stage_reporter);
break;
}
}
}
void CompositorFrameReportingController::
SetPartialUpdateDeciderWhenWaitingOnMain(
std::unique_ptr<CompositorFrameReporter>& stage_reporter) {
// If the compositor has no updates, and the main-thread has not responded
// to the begin-main-frame yet, then depending on main thread having
// update or not this would be a NoFrameProduced or a DroppedFrame. To
// handle this case , keep the reporter for the main-thread, but recreate
// a reporter for the current frame and link it to the reporter it depends
// on.
auto reporter = RestoreReporterAtBeginImpl(stage_reporter->frame_id());
if (reporter) {
reporter->OnDidNotProduceFrame(FrameSkippedReason::kWaitingOnMain);
reporter->TerminateFrame(FrameTerminationStatus::kDidNotProduceFrame,
Now());
stage_reporter->AdoptReporter(std::move(reporter));
} else {
// The stage_reporter in this case was waiting for main, so needs to
// be adopted by the reporter which is waiting on Main thread's work
CompositorFrameReporter* partial_update_decider =
GetOutstandingUpdatesFromMain(stage_reporter->frame_id());
if (partial_update_decider) {
stage_reporter->SetPartialUpdateDecider(partial_update_decider);
stage_reporter->OnDidNotProduceFrame(FrameSkippedReason::kWaitingOnMain);
stage_reporter->TerminateFrame(
FrameTerminationStatus::kDidNotProduceFrame, Now());
partial_update_decider->AdoptReporter(std::move(stage_reporter));
}
}
}
void CompositorFrameReportingController::OnFinishImplFrame(
const viz::BeginFrameId& id) {
for (auto& reporter : reporters_) {
if (reporter && reporter->frame_id() == id) {
reporter->OnFinishImplFrame(Now());
return;
}
}
}
void CompositorFrameReportingController::DidPresentCompositorFrame(
uint32_t frame_token,
const viz::FrameTimingDetails& details) {
bool feedback_failed = details.presentation_feedback.failed();
for (auto submitted_frame = submitted_compositor_frames_.begin();
submitted_frame != submitted_compositor_frames_.end() &&
!viz::FrameTokenGT(submitted_frame->frame_token, frame_token);) {
bool is_earlier_frame = submitted_frame->frame_token != frame_token;
// If the presentation feedback is a failure, earlier frames should still be
// left in the queue as they still might end up being presented
// successfully. Skip to the next frame.
if (feedback_failed && is_earlier_frame) {
submitted_frame++;
continue;
}
auto termination_status = feedback_failed
? FrameTerminationStatus::kDidNotPresentFrame
: FrameTerminationStatus::kPresentedFrame;
// If this is an earlier frame, presentation feedback has been successful
// which means this earlier frame should be considered dropped.
if (is_earlier_frame)
termination_status = FrameTerminationStatus::kDidNotPresentFrame;
auto& reporter = submitted_frame->reporter;
reporter->SetVizBreakdown(details);
reporter->TerminateFrame(termination_status,
details.presentation_feedback.timestamp);
if (termination_status == FrameTerminationStatus::kPresentedFrame) {
// If there are outstanding metrics from dropped frames older than this
// frame, this frame would be the first frame presented after those
// dropped frames. So, this frame is the one presenting updates from those
// frames to the user and should report metrics for them. Note that since
// reporters for submitted but dropped frames are terminated before any
// following frame being presented, all events metrics that should
// potentially be included in this presented frame are already in
// `events_metrics_from_dropped_frames_`.
for (auto it = events_metrics_from_dropped_frames_.begin();
it != events_metrics_from_dropped_frames_.end() &&
!(reporter->frame_id() < it->first);
it = events_metrics_from_dropped_frames_.erase(it)) {
reporter->AddEventsMetrics(std::move(it->second));
}
// For presented frames, if `reporter` was cloned from another reporter,
// and the original reporter is still alive, then check whether the cloned
// reporter has a 'partial update decider'. It is still possible for the
// original reporter to terminate with 'no damage', and if that happens,
// then the cloned reporter's 'partial update' flag will need to be reset.
// To allow this to happen, keep the cloned reporter alive, and hand over
// its ownership to the original reporter, so that the cloned reporter
// stays alive until the original reporter is terminated, and the cloned
// reporter's 'partial update' flag can be unset if necessary. This is not
// necessary for frames with failed presentation as we can say for sure
// that they are dropped and nothing will change their fate.
if (CompositorFrameReporter* orig_reporter =
reporter->partial_update_decider()) {
orig_reporter->AdoptReporter(std::move(reporter));
}
} else {
// If the frame didn't end up being presented, keep its metrics around to
// be reported with the first following presented frame.
auto reporter_events_metrics = reporter->TakeEventsMetrics();
if (!reporter_events_metrics.empty()) {
auto& frame_events_metrics =
events_metrics_from_dropped_frames_[reporter->frame_id()];
frame_events_metrics.insert(
frame_events_metrics.end(),
std::make_move_iterator(reporter_events_metrics.begin()),
std::make_move_iterator(reporter_events_metrics.end()));
}
}
if (feedback_failed) {
// When feedback is for a failed presentation, `submitted_frame` is not
// necessarily in the front of the queue. We will reach here only once per
// did-present; so, we will have 1 operation of O(n) complexity (n is the
// number of previous frames).
submitted_frame = submitted_compositor_frames_.erase(submitted_frame);
} else {
// When feedback is for a successful presentation, `submitted_frame` is in
// the front of the queue; so, we will have n operations of O(1)
// complexity for a did-present (n is the number of previous frames).
// `pop_front()` function is used here to shrink the queue when necessary
// to avoid unnecessary memory usage over time.
DCHECK_EQ(submitted_frame->frame_token,
submitted_compositor_frames_.front().frame_token);
submitted_compositor_frames_.pop_front();
submitted_frame = submitted_compositor_frames_.begin();
}
}
}
void CompositorFrameReportingController::OnStoppedRequestingBeginFrames() {
// If the client stopped requesting begin-frames, that means the begin-frames
// currently being handled are no longer expected to produce any
// compositor-frames. So terminate the reporters.
auto now = Now();
for (int i = 0; i < PipelineStage::kNumPipelineStages; ++i) {
if (reporters_[i]) {
reporters_[i]->OnDidNotProduceFrame(FrameSkippedReason::kNoDamage);
reporters_[i]->TerminateFrame(FrameTerminationStatus::kDidNotProduceFrame,
now);
}
}
previous_frame_ = {};
}
void CompositorFrameReportingController::NotifyReadyToCommit(
std::unique_ptr<BeginMainFrameMetrics> details) {
DCHECK(reporters_[PipelineStage::kBeginMainFrame]);
reporters_[PipelineStage::kBeginMainFrame]->SetBlinkBreakdown(
std::move(details), begin_main_frame_start_time_);
}
void CompositorFrameReportingController::AddActiveTracker(
FrameSequenceTrackerType type) {
active_trackers_.set(static_cast<size_t>(type));
}
void CompositorFrameReportingController::RemoveActiveTracker(
FrameSequenceTrackerType type) {
active_trackers_.reset(static_cast<size_t>(type));
if (dropped_frame_counter_)
dropped_frame_counter_->ReportFrames();
}
void CompositorFrameReportingController::SetScrollingThread(
FrameSequenceMetrics::ThreadType thread) {
scrolling_thread_ = thread;
}
void CompositorFrameReportingController::SetThreadAffectsSmoothness(
FrameSequenceMetrics::ThreadType thread_type,
bool affects_smoothness) {
auto current_smooth_thread = GetSmoothThread();
if (thread_type == FrameSequenceMetrics::ThreadType::kCompositor) {
is_compositor_thread_driving_smoothness_ = affects_smoothness;
} else {
DCHECK_EQ(thread_type, FrameSequenceMetrics::ThreadType::kMain);
is_main_thread_driving_smoothness_ = affects_smoothness;
}
// keep the history for the last 3 seconds.
if (!smooth_thread_history_.empty()) {
auto expired_smooth_thread = smooth_thread_history_.lower_bound(
Now() - base::TimeDelta::FromSeconds(3))--;
smooth_thread_history_.erase(smooth_thread_history_.begin(),
expired_smooth_thread);
}
// Only trackes the history if there is a change in smooth_thread_
if (current_smooth_thread != GetSmoothThread()) {
smooth_thread_history_.insert(std::make_pair(Now(), current_smooth_thread));
}
}
void CompositorFrameReportingController::AdvanceReporterStage(
PipelineStage start,
PipelineStage target) {
auto& reporter = reporters_[target];
if (reporter) {
auto termination_status = FrameTerminationStatus::kReplacedByNewReporter;
base::TimeTicks termination_time;
if (reporter->did_not_produce_frame()) {
termination_time = reporter->did_not_produce_frame_time();
termination_status = FrameTerminationStatus::kDidNotProduceFrame;
} else if (target == PipelineStage::kBeginMainFrame &&
reporter->did_abort_main_frame()) {
termination_time = reporter->main_frame_abort_time();
} else {
termination_time = Now();
}
reporter->TerminateFrame(termination_status, termination_time);
}
reporters_[target] = std::move(reporters_[start]);
}
bool CompositorFrameReportingController::CanSubmitImplFrame(
const viz::BeginFrameId& id) const {
#if DCHECK_IS_ON()
auto& reporter = reporters_[PipelineStage::kBeginImplFrame];
if (reporter) {
DCHECK_EQ(reporter->frame_id(), id);
DCHECK(reporter->did_finish_impl_frame());
}
#endif
return reporters_[PipelineStage::kBeginImplFrame].get() != nullptr;
}
bool CompositorFrameReportingController::CanSubmitMainFrame(
const viz::BeginFrameId& id) const {
if (!reporters_[PipelineStage::kBeginMainFrame])
return false;
auto& reporter = reporters_[PipelineStage::kBeginMainFrame];
return (reporter->frame_id() == id && reporter->did_finish_impl_frame() &&
reporter->did_abort_main_frame());
}
std::unique_ptr<CompositorFrameReporter>
CompositorFrameReportingController::RestoreReporterAtBeginImpl(
const viz::BeginFrameId& id) {
auto& main_reporter = reporters_[PipelineStage::kBeginMainFrame];
auto& commit_reporter = reporters_[PipelineStage::kCommit];
if (main_reporter && main_reporter->frame_id() == id)
return main_reporter->CopyReporterAtBeginImplStage();
if (commit_reporter && commit_reporter->frame_id() == id)
return commit_reporter->CopyReporterAtBeginImplStage();
return nullptr;
}
void CompositorFrameReportingController::SetUkmManager(UkmManager* manager) {
latency_ukm_reporter_->set_ukm_manager(manager);
}
CompositorFrameReporter::SmoothThread
CompositorFrameReportingController::GetSmoothThread() const {
if (is_main_thread_driving_smoothness_) {
return is_compositor_thread_driving_smoothness_ ? SmoothThread::kSmoothBoth
: SmoothThread::kSmoothMain;
}
return is_compositor_thread_driving_smoothness_
? SmoothThread::kSmoothCompositor
: SmoothThread::kSmoothNone;
}
CompositorFrameReporter::SmoothThread
CompositorFrameReportingController::GetSmoothThreadAtTime(
base::TimeTicks timestamp) const {
if (smooth_thread_history_.lower_bound(timestamp) ==
smooth_thread_history_.end())
return GetSmoothThread();
return smooth_thread_history_.lower_bound(timestamp)->second;
}
CompositorFrameReporter*
CompositorFrameReportingController::GetOutstandingUpdatesFromMain(
const viz::BeginFrameId& id) const {
// Any unterminated reporter in the 'main frame', or 'commit' stages, then
// that indicates some pending updates from the main thread.
{
const auto& reporter = reporters_[PipelineStage::kBeginMainFrame];
if (reporter && reporter->frame_id() < id &&
!reporter->did_abort_main_frame()) {
return reporter.get();
}
}
{
const auto& reporter = reporters_[PipelineStage::kCommit];
if (reporter && reporter->frame_id() < id) {
DCHECK(!reporter->did_abort_main_frame());
return reporter.get();
}
}
return nullptr;
}
void CompositorFrameReportingController::CreateReportersForDroppedFrames(
const viz::BeginFrameArgs& old_args,
const viz::BeginFrameArgs& new_args) const {
DCHECK_EQ(new_args.frame_id.source_id, old_args.frame_id.source_id);
DCHECK_GE(
new_args.frame_id.sequence_number - new_args.frames_throttled_since_last,
old_args.frame_id.sequence_number);
const uint32_t interval = new_args.frame_id.sequence_number -
old_args.frame_id.sequence_number -
new_args.frames_throttled_since_last;
// Up to 100 frames will be reported (100 closest frames to new_args).
const uint32_t kMaxFrameCount = 100;
// If there are more than 100 frames skipped, ignore them
if (interval > kMaxFrameCount)
return;
auto timestamp = old_args.frame_time + old_args.interval;
for (uint32_t i = 1; i < interval; ++i, timestamp += old_args.interval) {
auto args = viz::BeginFrameArgs::Create(
BEGINFRAME_FROM_HERE, old_args.frame_id.source_id,
old_args.frame_id.sequence_number + i, timestamp,
timestamp + old_args.interval, old_args.interval,
viz::BeginFrameArgs::NORMAL);
// ThreadType::kUnknown is used here for scrolling thread, because the
// frames reported here could have a scroll interaction active at their
// start time, but they were skipped and history of scrolling thread might
// change in the diff of start time and report time.
auto reporter = std::make_unique<CompositorFrameReporter>(
active_trackers_, args, latency_ukm_reporter_.get(),
should_report_metrics_, GetSmoothThreadAtTime(timestamp),
FrameSequenceMetrics::ThreadType::kUnknown, layer_tree_host_id_,
dropped_frame_counter_);
reporter->set_tick_clock(tick_clock_);
reporter->StartStage(StageType::kBeginImplFrameToSendBeginMainFrame,
timestamp);
reporter->TerminateFrame(FrameTerminationStatus::kDidNotPresentFrame,
args.deadline);
}
}
} // namespace cc