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chromium / chromium / src / 81c0fc6d4e08e4e2bb4eb8a42747f21b13303616 / . / cc / scheduler / scheduler.cc
blob: 6696c29afae1280538c22cd1fbdab882a2c05ecf [file] [log] [blame]
// Copyright 2011 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/scheduler/scheduler.h"
#include <algorithm>
#include "base/auto_reset.h"
#include "base/logging.h"
#include "base/memory/ptr_util.h"
#include "base/profiler/scoped_tracker.h"
#include "base/single_thread_task_runner.h"
#include "base/trace_event/trace_event.h"
#include "base/trace_event/trace_event_argument.h"
#include "cc/debug/devtools_instrumentation.h"
#include "cc/debug/traced_value.h"
#include "cc/scheduler/compositor_timing_history.h"
#include "cc/scheduler/delay_based_time_source.h"
namespace cc {
namespace {
// This is a fudge factor we subtract from the deadline to account
// for message latency and kernel scheduling variability.
const base::TimeDelta kDeadlineFudgeFactor =
base::TimeDelta::FromMicroseconds(1000);
}
std::unique_ptr<Scheduler> Scheduler::Create(
SchedulerClient* client,
const SchedulerSettings& settings,
int layer_tree_host_id,
base::SingleThreadTaskRunner* task_runner,
BeginFrameSource* begin_frame_source,
std::unique_ptr<CompositorTimingHistory> compositor_timing_history) {
return base::WrapUnique(new Scheduler(client, settings, layer_tree_host_id,
task_runner, begin_frame_source,
std::move(compositor_timing_history)));
}
Scheduler::Scheduler(
SchedulerClient* client,
const SchedulerSettings& settings,
int layer_tree_host_id,
base::SingleThreadTaskRunner* task_runner,
BeginFrameSource* begin_frame_source,
std::unique_ptr<CompositorTimingHistory> compositor_timing_history)
: settings_(settings),
client_(client),
layer_tree_host_id_(layer_tree_host_id),
task_runner_(task_runner),
begin_frame_source_(nullptr),
observing_begin_frame_source_(false),
compositor_timing_history_(std::move(compositor_timing_history)),
begin_impl_frame_deadline_mode_(
SchedulerStateMachine::BEGIN_IMPL_FRAME_DEADLINE_MODE_NONE),
begin_impl_frame_tracker_(BEGINFRAMETRACKER_FROM_HERE),
state_machine_(settings),
inside_process_scheduled_actions_(false),
inside_action_(SchedulerStateMachine::ACTION_NONE),
weak_factory_(this) {
TRACE_EVENT1("cc", "Scheduler::Scheduler", "settings", settings_.AsValue());
DCHECK(client_);
DCHECK(!state_machine_.BeginFrameNeeded());
begin_retro_frame_closure_ =
base::Bind(&Scheduler::BeginRetroFrame, weak_factory_.GetWeakPtr());
begin_impl_frame_deadline_closure_ = base::Bind(
&Scheduler::OnBeginImplFrameDeadline, weak_factory_.GetWeakPtr());
SetBeginFrameSource(begin_frame_source);
ProcessScheduledActions();
}
Scheduler::~Scheduler() {
SetBeginFrameSource(nullptr);
}
base::TimeTicks Scheduler::Now() const {
base::TimeTicks now = base::TimeTicks::Now();
TRACE_EVENT1(TRACE_DISABLED_BY_DEFAULT("cc.debug.scheduler.now"),
"Scheduler::Now",
"now",
now);
return now;
}
void Scheduler::SetEstimatedParentDrawTime(base::TimeDelta draw_time) {
DCHECK_GE(draw_time.ToInternalValue(), 0);
estimated_parent_draw_time_ = draw_time;
}
void Scheduler::SetVisible(bool visible) {
state_machine_.SetVisible(visible);
UpdateCompositorTimingHistoryRecordingEnabled();
ProcessScheduledActions();
}
void Scheduler::SetCanDraw(bool can_draw) {
state_machine_.SetCanDraw(can_draw);
ProcessScheduledActions();
}
void Scheduler::NotifyReadyToActivate() {
compositor_timing_history_->ReadyToActivate();
state_machine_.NotifyReadyToActivate();
ProcessScheduledActions();
}
void Scheduler::NotifyReadyToDraw() {
// Future work might still needed for crbug.com/352894.
state_machine_.NotifyReadyToDraw();
ProcessScheduledActions();
}
void Scheduler::SetBeginFrameSource(BeginFrameSource* source) {
if (source == begin_frame_source_)
return;
if (begin_frame_source_ && observing_begin_frame_source_)
begin_frame_source_->RemoveObserver(this);
begin_frame_source_ = source;
if (!begin_frame_source_)
return;
if (observing_begin_frame_source_)
begin_frame_source_->AddObserver(this);
}
void Scheduler::SetNeedsBeginMainFrame() {
state_machine_.SetNeedsBeginMainFrame();
ProcessScheduledActions();
}
void Scheduler::SetNeedsOneBeginImplFrame() {
state_machine_.SetNeedsOneBeginImplFrame();
ProcessScheduledActions();
}
void Scheduler::SetNeedsRedraw() {
state_machine_.SetNeedsRedraw();
ProcessScheduledActions();
}
void Scheduler::SetNeedsPrepareTiles() {
DCHECK(!IsInsideAction(SchedulerStateMachine::ACTION_PREPARE_TILES));
state_machine_.SetNeedsPrepareTiles();
ProcessScheduledActions();
}
void Scheduler::DidSwapBuffers() {
compositor_timing_history_->DidSwapBuffers();
state_machine_.DidSwapBuffers();
// There is no need to call ProcessScheduledActions here because
// swapping should not trigger any new actions.
if (!inside_process_scheduled_actions_) {
DCHECK_EQ(state_machine_.NextAction(), SchedulerStateMachine::ACTION_NONE);
}
}
void Scheduler::DidSwapBuffersComplete() {
DCHECK_GT(state_machine_.pending_swaps(), 0) << AsValue()->ToString();
compositor_timing_history_->DidSwapBuffersComplete();
state_machine_.DidSwapBuffersComplete();
ProcessScheduledActions();
}
void Scheduler::SetTreePrioritiesAndScrollState(
TreePriority tree_priority,
ScrollHandlerState scroll_handler_state) {
state_machine_.SetTreePrioritiesAndScrollState(tree_priority,
scroll_handler_state);
ProcessScheduledActions();
}
void Scheduler::NotifyReadyToCommit() {
TRACE_EVENT0("cc", "Scheduler::NotifyReadyToCommit");
state_machine_.NotifyReadyToCommit();
ProcessScheduledActions();
}
void Scheduler::DidCommit() {
compositor_timing_history_->DidCommit();
}
void Scheduler::BeginMainFrameAborted(CommitEarlyOutReason reason) {
TRACE_EVENT1("cc", "Scheduler::BeginMainFrameAborted", "reason",
CommitEarlyOutReasonToString(reason));
compositor_timing_history_->BeginMainFrameAborted();
state_machine_.BeginMainFrameAborted(reason);
ProcessScheduledActions();
}
void Scheduler::WillPrepareTiles() {
compositor_timing_history_->WillPrepareTiles();
}
void Scheduler::DidPrepareTiles() {
compositor_timing_history_->DidPrepareTiles();
state_machine_.DidPrepareTiles();
}
void Scheduler::DidLoseOutputSurface() {
TRACE_EVENT0("cc", "Scheduler::DidLoseOutputSurface");
begin_retro_frame_args_.clear();
begin_retro_frame_task_.Cancel();
state_machine_.DidLoseOutputSurface();
UpdateCompositorTimingHistoryRecordingEnabled();
ProcessScheduledActions();
}
void Scheduler::DidCreateAndInitializeOutputSurface() {
TRACE_EVENT0("cc", "Scheduler::DidCreateAndInitializeOutputSurface");
DCHECK(!observing_begin_frame_source_);
DCHECK(begin_impl_frame_deadline_task_.IsCancelled());
state_machine_.DidCreateAndInitializeOutputSurface();
compositor_timing_history_->DidCreateAndInitializeOutputSurface();
UpdateCompositorTimingHistoryRecordingEnabled();
ProcessScheduledActions();
}
void Scheduler::NotifyBeginMainFrameStarted(
base::TimeTicks main_thread_start_time) {
TRACE_EVENT0("cc", "Scheduler::NotifyBeginMainFrameStarted");
state_machine_.NotifyBeginMainFrameStarted();
compositor_timing_history_->BeginMainFrameStarted(main_thread_start_time);
}
base::TimeTicks Scheduler::LastBeginImplFrameTime() {
return begin_impl_frame_tracker_.Current().frame_time;
}
void Scheduler::BeginImplFrameNotExpectedSoon() {
compositor_timing_history_->BeginImplFrameNotExpectedSoon();
// Tying this to SendBeginMainFrameNotExpectedSoon will have some
// false negatives, but we want to avoid running long idle tasks when
// we are actually active.
client_->SendBeginMainFrameNotExpectedSoon();
}
void Scheduler::SetupNextBeginFrameIfNeeded() {
// Never call SetNeedsBeginFrames if the frame source already has the right
// value.
if (observing_begin_frame_source_ != state_machine_.BeginFrameNeeded()) {
if (state_machine_.BeginFrameNeeded()) {
// Call AddObserver as soon as possible.
observing_begin_frame_source_ = true;
if (begin_frame_source_)
begin_frame_source_->AddObserver(this);
devtools_instrumentation::NeedsBeginFrameChanged(layer_tree_host_id_,
true);
} else if (state_machine_.begin_impl_frame_state() ==
SchedulerStateMachine::BEGIN_IMPL_FRAME_STATE_IDLE) {
// Call RemoveObserver in between frames only.
observing_begin_frame_source_ = false;
if (begin_frame_source_)
begin_frame_source_->RemoveObserver(this);
BeginImplFrameNotExpectedSoon();
devtools_instrumentation::NeedsBeginFrameChanged(layer_tree_host_id_,
false);
}
}
PostBeginRetroFrameIfNeeded();
}
void Scheduler::OnBeginFrameSourcePausedChanged(bool paused) {
if (state_machine_.begin_frame_source_paused() == paused)
return;
TRACE_EVENT_INSTANT1("cc", "Scheduler::SetBeginFrameSourcePaused",
TRACE_EVENT_SCOPE_THREAD, "paused", paused);
state_machine_.SetBeginFrameSourcePaused(paused);
ProcessScheduledActions();
}
// BeginFrame is the mechanism that tells us that now is a good time to start
// making a frame. Usually this means that user input for the frame is complete.
// If the scheduler is busy, we queue the BeginFrame to be handled later as
// a BeginRetroFrame.
bool Scheduler::OnBeginFrameDerivedImpl(const BeginFrameArgs& args) {
TRACE_EVENT1("cc,benchmark", "Scheduler::BeginFrame", "args", args.AsValue());
// Trace this begin frame time through the Chrome stack
TRACE_EVENT_FLOW_BEGIN0(
TRACE_DISABLED_BY_DEFAULT("cc.debug.scheduler.frames"), "BeginFrameArgs",
args.frame_time.ToInternalValue());
// TODO(brianderson): Adjust deadline in the DisplayScheduler.
BeginFrameArgs adjusted_args(args);
adjusted_args.deadline -= EstimatedParentDrawTime();
if (settings_.using_synchronous_renderer_compositor) {
BeginImplFrameSynchronous(adjusted_args);
return true;
}
// We have just called SetNeedsBeginFrame(true) and the BeginFrameSource has
// sent us the last BeginFrame we have missed. As we might not be able to
// actually make rendering for this call, handle it like a "retro frame".
// TODO(brainderson): Add a test for this functionality ASAP!
if (adjusted_args.type == BeginFrameArgs::MISSED) {
begin_retro_frame_args_.push_back(adjusted_args);
PostBeginRetroFrameIfNeeded();
return true;
}
bool should_defer_begin_frame =
!begin_retro_frame_args_.empty() ||
!begin_retro_frame_task_.IsCancelled() ||
!observing_begin_frame_source_ ||
(state_machine_.begin_impl_frame_state() !=
SchedulerStateMachine::BEGIN_IMPL_FRAME_STATE_IDLE);
if (should_defer_begin_frame) {
begin_retro_frame_args_.push_back(adjusted_args);
TRACE_EVENT_INSTANT0(
"cc", "Scheduler::BeginFrame deferred", TRACE_EVENT_SCOPE_THREAD);
// Queuing the frame counts as "using it", so we need to return true.
} else {
BeginImplFrameWithDeadline(adjusted_args);
}
return true;
}
void Scheduler::SetVideoNeedsBeginFrames(bool video_needs_begin_frames) {
state_machine_.SetVideoNeedsBeginFrames(video_needs_begin_frames);
ProcessScheduledActions();
}
void Scheduler::OnDrawForOutputSurface(bool resourceless_software_draw) {
DCHECK(settings_.using_synchronous_renderer_compositor);
DCHECK_EQ(state_machine_.begin_impl_frame_state(),
SchedulerStateMachine::BEGIN_IMPL_FRAME_STATE_IDLE);
DCHECK(!BeginImplFrameDeadlinePending());
state_machine_.SetResourcelessSoftareDraw(resourceless_software_draw);
state_machine_.OnBeginImplFrameDeadline();
ProcessScheduledActions();
state_machine_.OnBeginImplFrameIdle();
ProcessScheduledActions();
state_machine_.SetResourcelessSoftareDraw(false);
}
// BeginRetroFrame is called for BeginFrames that we've deferred because
// the scheduler was in the middle of processing a previous BeginFrame.
void Scheduler::BeginRetroFrame() {
TRACE_EVENT0("cc,benchmark", "Scheduler::BeginRetroFrame");
DCHECK(!settings_.using_synchronous_renderer_compositor);
DCHECK(!begin_retro_frame_args_.empty());
DCHECK(!begin_retro_frame_task_.IsCancelled());
DCHECK_EQ(state_machine_.begin_impl_frame_state(),
SchedulerStateMachine::BEGIN_IMPL_FRAME_STATE_IDLE);
begin_retro_frame_task_.Cancel();
// Discard expired BeginRetroFrames
// Today, we should always end up with at most one un-expired BeginRetroFrame
// because deadlines will not be greater than the next frame time. We don't
// DCHECK though because some systems don't always have monotonic timestamps.
// TODO(brianderson): In the future, long deadlines could result in us not
// draining the queue if we don't catch up. If we consistently can't catch
// up, our fallback should be to lower our frame rate.
base::TimeTicks now = Now();
while (!begin_retro_frame_args_.empty()) {
const BeginFrameArgs& args = begin_retro_frame_args_.front();
base::TimeTicks expiration_time = args.deadline;
if (now <= expiration_time)
break;
TRACE_EVENT_INSTANT2(
"cc", "Scheduler::BeginRetroFrame discarding", TRACE_EVENT_SCOPE_THREAD,
"expiration_time - now", (expiration_time - now).InMillisecondsF(),
"BeginFrameArgs", begin_retro_frame_args_.front().AsValue());
begin_retro_frame_args_.pop_front();
if (begin_frame_source_)
begin_frame_source_->DidFinishFrame(this, begin_retro_frame_args_.size());
}
if (begin_retro_frame_args_.empty()) {
TRACE_EVENT_INSTANT0("cc",
"Scheduler::BeginRetroFrames all expired",
TRACE_EVENT_SCOPE_THREAD);
} else {
BeginFrameArgs front = begin_retro_frame_args_.front();
begin_retro_frame_args_.pop_front();
BeginImplFrameWithDeadline(front);
}
}
// There could be a race between the posted BeginRetroFrame and a new
// BeginFrame arriving via the normal mechanism. Scheduler::BeginFrame
// will check if there is a pending BeginRetroFrame to ensure we handle
// BeginFrames in FIFO order.
void Scheduler::PostBeginRetroFrameIfNeeded() {
TRACE_EVENT1(TRACE_DISABLED_BY_DEFAULT("cc.debug.scheduler"),
"Scheduler::PostBeginRetroFrameIfNeeded",
"state",
AsValue());
if (!observing_begin_frame_source_)
return;
if (begin_retro_frame_args_.empty() || !begin_retro_frame_task_.IsCancelled())
return;
// begin_retro_frame_args_ should always be empty for the
// synchronous compositor.
DCHECK(!settings_.using_synchronous_renderer_compositor);
if (state_machine_.begin_impl_frame_state() !=
SchedulerStateMachine::BEGIN_IMPL_FRAME_STATE_IDLE)
return;
begin_retro_frame_task_.Reset(begin_retro_frame_closure_);
task_runner_->PostTask(FROM_HERE, begin_retro_frame_task_.callback());
}
void Scheduler::BeginImplFrameWithDeadline(const BeginFrameArgs& args) {
bool main_thread_is_in_high_latency_mode =
state_machine_.main_thread_missed_last_deadline();
TRACE_EVENT2("cc,benchmark", "Scheduler::BeginImplFrame", "args",
args.AsValue(), "main_thread_missed_last_deadline",
main_thread_is_in_high_latency_mode);
TRACE_COUNTER1(TRACE_DISABLED_BY_DEFAULT("cc.debug.scheduler"),
"MainThreadLatency", main_thread_is_in_high_latency_mode);
BeginFrameArgs adjusted_args = args;
adjusted_args.deadline -= compositor_timing_history_->DrawDurationEstimate();
adjusted_args.deadline -= kDeadlineFudgeFactor;
base::TimeDelta bmf_start_to_activate =
compositor_timing_history_
->BeginMainFrameStartToCommitDurationEstimate() +
compositor_timing_history_->CommitToReadyToActivateDurationEstimate() +
compositor_timing_history_->ActivateDurationEstimate();
base::TimeDelta bmf_to_activate_estimate_critical =
bmf_start_to_activate +
compositor_timing_history_->BeginMainFrameQueueDurationCriticalEstimate();
state_machine_.SetCriticalBeginMainFrameToActivateIsFast(
bmf_to_activate_estimate_critical < args.interval);
// Update the BeginMainFrame args now that we know whether the main
// thread will be on the critical path or not.
begin_main_frame_args_ = adjusted_args;
begin_main_frame_args_.on_critical_path = !ImplLatencyTakesPriority();
base::TimeDelta bmf_to_activate_estimate = bmf_to_activate_estimate_critical;
if (!begin_main_frame_args_.on_critical_path) {
bmf_to_activate_estimate =
bmf_start_to_activate +
compositor_timing_history_
->BeginMainFrameQueueDurationNotCriticalEstimate();
}
bool can_activate_before_deadline =
CanBeginMainFrameAndActivateBeforeDeadline(adjusted_args,
bmf_to_activate_estimate);
if (ShouldRecoverMainLatency(adjusted_args, can_activate_before_deadline)) {
TRACE_EVENT_INSTANT0("cc", "SkipBeginMainFrameToReduceLatency",
TRACE_EVENT_SCOPE_THREAD);
state_machine_.SetSkipNextBeginMainFrameToReduceLatency();
} else if (ShouldRecoverImplLatency(adjusted_args,
can_activate_before_deadline)) {
TRACE_EVENT_INSTANT0("cc", "SkipBeginImplFrameToReduceLatency",
TRACE_EVENT_SCOPE_THREAD);
if (begin_frame_source_)
begin_frame_source_->DidFinishFrame(this, begin_retro_frame_args_.size());
return;
}
BeginImplFrame(adjusted_args);
}
void Scheduler::BeginImplFrameSynchronous(const BeginFrameArgs& args) {
TRACE_EVENT1("cc,benchmark", "Scheduler::BeginImplFrame", "args",
args.AsValue());
// The main thread currently can't commit before we draw with the
// synchronous compositor, so never consider the BeginMainFrame fast.
state_machine_.SetCriticalBeginMainFrameToActivateIsFast(false);
begin_main_frame_args_ = args;
begin_main_frame_args_.on_critical_path = !ImplLatencyTakesPriority();
BeginImplFrame(args);
compositor_timing_history_->WillFinishImplFrame(
state_machine_.needs_redraw());
FinishImplFrame();
}
void Scheduler::FinishImplFrame() {
state_machine_.OnBeginImplFrameIdle();
ProcessScheduledActions();
client_->DidFinishImplFrame();
if (begin_frame_source_)
begin_frame_source_->DidFinishFrame(this, begin_retro_frame_args_.size());
begin_impl_frame_tracker_.Finish();
}
// BeginImplFrame starts a compositor frame that will wait up until a deadline
// for a BeginMainFrame+activation to complete before it times out and draws
// any asynchronous animation and scroll/pinch updates.
void Scheduler::BeginImplFrame(const BeginFrameArgs& args) {
DCHECK_EQ(state_machine_.begin_impl_frame_state(),
SchedulerStateMachine::BEGIN_IMPL_FRAME_STATE_IDLE);
DCHECK(!BeginImplFrameDeadlinePending());
DCHECK(state_machine_.HasInitializedOutputSurface());
begin_impl_frame_tracker_.Start(args);
state_machine_.OnBeginImplFrame();
devtools_instrumentation::DidBeginFrame(layer_tree_host_id_);
compositor_timing_history_->WillBeginImplFrame(
state_machine_.NewActiveTreeLikely());
client_->WillBeginImplFrame(begin_impl_frame_tracker_.Current());
ProcessScheduledActions();
}
void Scheduler::ScheduleBeginImplFrameDeadline() {
// The synchronous compositor does not post a deadline task.
DCHECK(!settings_.using_synchronous_renderer_compositor);
begin_impl_frame_deadline_task_.Cancel();
begin_impl_frame_deadline_task_.Reset(begin_impl_frame_deadline_closure_);
begin_impl_frame_deadline_mode_ =
state_machine_.CurrentBeginImplFrameDeadlineMode();
base::TimeTicks deadline;
switch (begin_impl_frame_deadline_mode_) {
case SchedulerStateMachine::BEGIN_IMPL_FRAME_DEADLINE_MODE_NONE:
// No deadline.
return;
case SchedulerStateMachine::BEGIN_IMPL_FRAME_DEADLINE_MODE_IMMEDIATE:
// We are ready to draw a new active tree immediately.
// We don't use Now() here because it's somewhat expensive to call.
deadline = base::TimeTicks();
break;
case SchedulerStateMachine::BEGIN_IMPL_FRAME_DEADLINE_MODE_REGULAR:
// We are animating on the impl thread but we can wait for some time.
deadline = begin_impl_frame_tracker_.Current().deadline;
break;
case SchedulerStateMachine::BEGIN_IMPL_FRAME_DEADLINE_MODE_LATE:
// We are blocked for one reason or another and we should wait.
// TODO(brianderson): Handle long deadlines (that are past the next
// frame's frame time) properly instead of using this hack.
deadline = begin_impl_frame_tracker_.Current().frame_time +
begin_impl_frame_tracker_.Current().interval;
break;
case SchedulerStateMachine::
BEGIN_IMPL_FRAME_DEADLINE_MODE_BLOCKED_ON_READY_TO_DRAW:
// We are blocked because we are waiting for ReadyToDraw signal. We would
// post deadline after we received ReadyToDraw singal.
TRACE_EVENT1("cc", "Scheduler::ScheduleBeginImplFrameDeadline",
"deadline_mode", "blocked_on_ready_to_draw");
return;
}
TRACE_EVENT2("cc", "Scheduler::ScheduleBeginImplFrameDeadline", "mode",
SchedulerStateMachine::BeginImplFrameDeadlineModeToString(
begin_impl_frame_deadline_mode_),
"deadline", deadline);
base::TimeDelta delta = std::max(deadline - Now(), base::TimeDelta());
task_runner_->PostDelayedTask(
FROM_HERE, begin_impl_frame_deadline_task_.callback(), delta);
}
void Scheduler::ScheduleBeginImplFrameDeadlineIfNeeded() {
if (settings_.using_synchronous_renderer_compositor)
return;
if (state_machine_.begin_impl_frame_state() !=
SchedulerStateMachine::BEGIN_IMPL_FRAME_STATE_INSIDE_BEGIN_FRAME)
return;
if (begin_impl_frame_deadline_mode_ ==
state_machine_.CurrentBeginImplFrameDeadlineMode() &&
BeginImplFrameDeadlinePending())
return;
ScheduleBeginImplFrameDeadline();
}
void Scheduler::OnBeginImplFrameDeadline() {
TRACE_EVENT0("cc,benchmark", "Scheduler::OnBeginImplFrameDeadline");
begin_impl_frame_deadline_task_.Cancel();
// We split the deadline actions up into two phases so the state machine
// has a chance to trigger actions that should occur durring and after
// the deadline separately. For example:
// * Sending the BeginMainFrame will not occur after the deadline in
// order to wait for more user-input before starting the next commit.
// * Creating a new OuputSurface will not occur during the deadline in
// order to allow the state machine to "settle" first.
// TODO(robliao): Remove ScopedTracker below once crbug.com/461509 is fixed.
tracked_objects::ScopedTracker tracking_profile1(
FROM_HERE_WITH_EXPLICIT_FUNCTION(
"461509 Scheduler::OnBeginImplFrameDeadline1"));
compositor_timing_history_->WillFinishImplFrame(
state_machine_.needs_redraw());
state_machine_.OnBeginImplFrameDeadline();
ProcessScheduledActions();
FinishImplFrame();
}
void Scheduler::DrawAndSwapIfPossible() {
bool drawing_with_new_active_tree =
state_machine_.active_tree_needs_first_draw();
bool main_thread_missed_last_deadline =
state_machine_.main_thread_missed_last_deadline();
compositor_timing_history_->WillDraw();
state_machine_.WillDraw();
DrawResult result = client_->ScheduledActionDrawAndSwapIfPossible();
state_machine_.DidDraw(result);
compositor_timing_history_->DidDraw(
drawing_with_new_active_tree, main_thread_missed_last_deadline,
begin_impl_frame_tracker_.DangerousMethodCurrentOrLast().frame_time);
}
void Scheduler::DrawAndSwapForced() {
bool drawing_with_new_active_tree =
state_machine_.active_tree_needs_first_draw();
bool main_thread_missed_last_deadline =
state_machine_.main_thread_missed_last_deadline();
compositor_timing_history_->WillDraw();
state_machine_.WillDraw();
DrawResult result = client_->ScheduledActionDrawAndSwapForced();
state_machine_.DidDraw(result);
compositor_timing_history_->DidDraw(
drawing_with_new_active_tree, main_thread_missed_last_deadline,
begin_impl_frame_tracker_.DangerousMethodCurrentOrLast().frame_time);
}
void Scheduler::SetDeferCommits(bool defer_commits) {
TRACE_EVENT1("cc", "Scheduler::SetDeferCommits",
"defer_commits",
defer_commits);
state_machine_.SetDeferCommits(defer_commits);
ProcessScheduledActions();
}
void Scheduler::ProcessScheduledActions() {
// We do not allow ProcessScheduledActions to be recursive.
// The top-level call will iteratively execute the next action for us anyway.
if (inside_process_scheduled_actions_)
return;
base::AutoReset<bool> mark_inside(&inside_process_scheduled_actions_, true);
SchedulerStateMachine::Action action;
do {
action = state_machine_.NextAction();
TRACE_EVENT1(TRACE_DISABLED_BY_DEFAULT("cc.debug.scheduler"),
"SchedulerStateMachine",
"state",
AsValue());
base::AutoReset<SchedulerStateMachine::Action>
mark_inside_action(&inside_action_, action);
switch (action) {
case SchedulerStateMachine::ACTION_NONE:
break;
case SchedulerStateMachine::ACTION_SEND_BEGIN_MAIN_FRAME:
compositor_timing_history_->WillBeginMainFrame(
begin_main_frame_args_.on_critical_path,
begin_main_frame_args_.frame_time);
state_machine_.WillSendBeginMainFrame();
// TODO(brianderson): Pass begin_main_frame_args_ directly to client.
client_->ScheduledActionSendBeginMainFrame(begin_main_frame_args_);
break;
case SchedulerStateMachine::ACTION_COMMIT: {
// TODO(robliao): Remove ScopedTracker below once crbug.com/461509 is
// fixed.
tracked_objects::ScopedTracker tracking_profile4(
FROM_HERE_WITH_EXPLICIT_FUNCTION(
"461509 Scheduler::ProcessScheduledActions4"));
bool commit_has_no_updates = false;
state_machine_.WillCommit(commit_has_no_updates);
client_->ScheduledActionCommit();
break;
}
case SchedulerStateMachine::ACTION_ACTIVATE_SYNC_TREE:
compositor_timing_history_->WillActivate();
state_machine_.WillActivate();
client_->ScheduledActionActivateSyncTree();
compositor_timing_history_->DidActivate();
break;
case SchedulerStateMachine::ACTION_DRAW_AND_SWAP_IF_POSSIBLE: {
// TODO(robliao): Remove ScopedTracker below once crbug.com/461509 is
// fixed.
tracked_objects::ScopedTracker tracking_profile6(
FROM_HERE_WITH_EXPLICIT_FUNCTION(
"461509 Scheduler::ProcessScheduledActions6"));
DrawAndSwapIfPossible();
break;
}
case SchedulerStateMachine::ACTION_DRAW_AND_SWAP_FORCED:
DrawAndSwapForced();
break;
case SchedulerStateMachine::ACTION_DRAW_AND_SWAP_ABORT: {
// No action is actually performed, but this allows the state machine to
// drain the pipeline without actually drawing.
state_machine_.AbortDrawAndSwap();
compositor_timing_history_->DrawAborted();
break;
}
case SchedulerStateMachine::ACTION_BEGIN_OUTPUT_SURFACE_CREATION:
state_machine_.WillBeginOutputSurfaceCreation();
client_->ScheduledActionBeginOutputSurfaceCreation();
break;
case SchedulerStateMachine::ACTION_PREPARE_TILES:
state_machine_.WillPrepareTiles();
client_->ScheduledActionPrepareTiles();
break;
case SchedulerStateMachine::ACTION_INVALIDATE_OUTPUT_SURFACE: {
state_machine_.WillInvalidateOutputSurface();
client_->ScheduledActionInvalidateOutputSurface();
break;
}
}
} while (action != SchedulerStateMachine::ACTION_NONE);
ScheduleBeginImplFrameDeadlineIfNeeded();
SetupNextBeginFrameIfNeeded();
}
std::unique_ptr<base::trace_event::ConvertableToTraceFormat>
Scheduler::AsValue() const {
std::unique_ptr<base::trace_event::TracedValue> state(
new base::trace_event::TracedValue());
base::TimeTicks now = Now();
state->BeginDictionary("state_machine");
state_machine_.AsValueInto(state.get());
state->EndDictionary();
state->BeginDictionary("scheduler_state");
state->SetBoolean("throttle_frame_production_",
settings_.throttle_frame_production);
state->SetDouble("estimated_parent_draw_time_ms",
estimated_parent_draw_time_.InMillisecondsF());
state->SetBoolean("observing_begin_frame_source",
observing_begin_frame_source_);
state->SetInteger("begin_retro_frame_args",
static_cast<int>(begin_retro_frame_args_.size()));
state->SetBoolean("begin_retro_frame_task",
!begin_retro_frame_task_.IsCancelled());
state->SetBoolean("begin_impl_frame_deadline_task",
!begin_impl_frame_deadline_task_.IsCancelled());
state->SetString("inside_action",
SchedulerStateMachine::ActionToString(inside_action_));
state->BeginDictionary("begin_impl_frame_args");
begin_impl_frame_tracker_.AsValueInto(now, state.get());
state->EndDictionary();
state->SetString("begin_impl_frame_deadline_mode_",
SchedulerStateMachine::BeginImplFrameDeadlineModeToString(
begin_impl_frame_deadline_mode_));
state->EndDictionary();
state->BeginDictionary("compositor_timing_history");
compositor_timing_history_->AsValueInto(state.get());
state->EndDictionary();
return std::move(state);
}
void Scheduler::UpdateCompositorTimingHistoryRecordingEnabled() {
compositor_timing_history_->SetRecordingEnabled(
state_machine_.HasInitializedOutputSurface() && state_machine_.visible());
}
bool Scheduler::ShouldRecoverMainLatency(
const BeginFrameArgs& args,
bool can_activate_before_deadline) const {
DCHECK(!settings_.using_synchronous_renderer_compositor);
// The main thread is in a low latency mode and there's no need to recover.
if (!state_machine_.main_thread_missed_last_deadline())
return false;
// When prioritizing impl thread latency, we currently put the
// main thread in a high latency mode. Don't try to fight it.
if (state_machine_.ImplLatencyTakesPriority())
return false;
return can_activate_before_deadline;
}
bool Scheduler::ShouldRecoverImplLatency(
const BeginFrameArgs& args,
bool can_activate_before_deadline) const {
DCHECK(!settings_.using_synchronous_renderer_compositor);
// Disable impl thread latency recovery when using the unthrottled
// begin frame source since we will always get a BeginFrame before
// the swap ack and our heuristics below will not work.
if (!settings_.throttle_frame_production)
return false;
// If we are swap throttled at the BeginFrame, that means the impl thread is
// very likely in a high latency mode.
bool impl_thread_is_likely_high_latency = state_machine_.SwapThrottled();
if (!impl_thread_is_likely_high_latency)
return false;
// The deadline may be in the past if our draw time is too long.
bool can_draw_before_deadline = args.frame_time < args.deadline;
// When prioritizing impl thread latency, the deadline doesn't wait
// for the main thread.
if (state_machine_.ImplLatencyTakesPriority())
return can_draw_before_deadline;
// If we only have impl-side updates, the deadline doesn't wait for
// the main thread.
if (state_machine_.OnlyImplSideUpdatesExpected())
return can_draw_before_deadline;
// If we get here, we know the main thread is in a low-latency mode relative
// to the impl thread. In this case, only try to also recover impl thread
// latency if both the main and impl threads can run serially before the
// deadline.
return can_activate_before_deadline;
}
bool Scheduler::CanBeginMainFrameAndActivateBeforeDeadline(
const BeginFrameArgs& args,
base::TimeDelta bmf_to_activate_estimate) const {
// Check if the main thread computation and commit can be finished before the
// impl thread's deadline.
base::TimeTicks estimated_draw_time =
args.frame_time + bmf_to_activate_estimate;
return estimated_draw_time < args.deadline;
}
bool Scheduler::IsBeginMainFrameSentOrStarted() const {
return (state_machine_.begin_main_frame_state() ==
SchedulerStateMachine::BEGIN_MAIN_FRAME_STATE_SENT ||
state_machine_.begin_main_frame_state() ==
SchedulerStateMachine::BEGIN_MAIN_FRAME_STATE_STARTED);
}
} // namespace cc