169 lines
5.7 KiB
C++
169 lines
5.7 KiB
C++
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// Copyright 2015 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "base/task/sequence_manager/time_domain.h"
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#include "base/task/sequence_manager/associated_thread_id.h"
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#include "base/task/sequence_manager/sequence_manager_impl.h"
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#include "base/task/sequence_manager/task_queue_impl.h"
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#include "base/task/sequence_manager/work_queue.h"
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#include "base/threading/thread_checker.h"
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namespace base {
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namespace sequence_manager {
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TimeDomain::TimeDomain()
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: sequence_manager_(nullptr),
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associated_thread_(MakeRefCounted<internal::AssociatedThreadId>()) {}
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TimeDomain::~TimeDomain() {
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DCHECK_CALLED_ON_VALID_THREAD(associated_thread_->thread_checker);
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}
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void TimeDomain::OnRegisterWithSequenceManager(
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internal::SequenceManagerImpl* sequence_manager) {
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DCHECK(sequence_manager);
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DCHECK(!sequence_manager_);
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sequence_manager_ = sequence_manager;
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associated_thread_ = sequence_manager_->associated_thread();
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}
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SequenceManager* TimeDomain::sequence_manager() const {
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DCHECK(sequence_manager_);
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return sequence_manager_;
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}
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// TODO(kraynov): https://crbug.com/857101 Consider making an interface
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// for SequenceManagerImpl which will expose SetNextDelayedDoWork and
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// MaybeScheduleImmediateWork methods to make the functions below pure-virtual.
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void TimeDomain::SetNextDelayedDoWork(LazyNow* lazy_now, TimeTicks run_time) {
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sequence_manager_->SetNextDelayedDoWork(lazy_now, run_time);
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}
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void TimeDomain::RequestDoWork() {
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sequence_manager_->ScheduleWork();
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}
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void TimeDomain::UnregisterQueue(internal::TaskQueueImpl* queue) {
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DCHECK_CALLED_ON_VALID_THREAD(associated_thread_->thread_checker);
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DCHECK_EQ(queue->GetTimeDomain(), this);
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LazyNow lazy_now(CreateLazyNow());
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SetNextWakeUpForQueue(queue, nullopt, internal::WakeUpResolution::kLow,
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&lazy_now);
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}
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void TimeDomain::SetNextWakeUpForQueue(
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internal::TaskQueueImpl* queue,
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Optional<internal::DelayedWakeUp> wake_up,
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internal::WakeUpResolution resolution,
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LazyNow* lazy_now) {
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DCHECK_CALLED_ON_VALID_THREAD(associated_thread_->thread_checker);
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DCHECK_EQ(queue->GetTimeDomain(), this);
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DCHECK(queue->IsQueueEnabled() || !wake_up);
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Optional<TimeTicks> previous_wake_up;
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Optional<internal::WakeUpResolution> previous_queue_resolution;
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if (!delayed_wake_up_queue_.empty())
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previous_wake_up = delayed_wake_up_queue_.Min().wake_up.time;
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if (queue->heap_handle().IsValid()) {
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previous_queue_resolution =
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delayed_wake_up_queue_.at(queue->heap_handle()).resolution;
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}
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if (wake_up) {
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// Insert a new wake-up into the heap.
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if (queue->heap_handle().IsValid()) {
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// O(log n)
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delayed_wake_up_queue_.ChangeKey(queue->heap_handle(),
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{wake_up.value(), resolution, queue});
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} else {
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// O(log n)
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delayed_wake_up_queue_.insert({wake_up.value(), resolution, queue});
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}
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} else {
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// Remove a wake-up from heap if present.
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if (queue->heap_handle().IsValid())
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delayed_wake_up_queue_.erase(queue->heap_handle());
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}
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Optional<TimeTicks> new_wake_up;
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if (!delayed_wake_up_queue_.empty())
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new_wake_up = delayed_wake_up_queue_.Min().wake_up.time;
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if (previous_queue_resolution &&
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*previous_queue_resolution == internal::WakeUpResolution::kHigh) {
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pending_high_res_wake_up_count_--;
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}
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if (wake_up && resolution == internal::WakeUpResolution::kHigh)
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pending_high_res_wake_up_count_++;
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DCHECK_GE(pending_high_res_wake_up_count_, 0);
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// TODO(kraynov): https://crbug.com/857101 Review the relationship with
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// SequenceManager's time. Right now it's not an issue since
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// VirtualTimeDomain doesn't invoke SequenceManager itself.
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if (new_wake_up == previous_wake_up) {
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// Nothing to be done
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return;
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}
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if (!new_wake_up) {
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// No new wake-up to be set, cancel the previous one.
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new_wake_up = TimeTicks::Max();
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}
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if (*new_wake_up <= lazy_now->Now()) {
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RequestDoWork();
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} else {
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SetNextDelayedDoWork(lazy_now, *new_wake_up);
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}
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}
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void TimeDomain::MoveReadyDelayedTasksToWorkQueues(LazyNow* lazy_now) {
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DCHECK_CALLED_ON_VALID_THREAD(associated_thread_->thread_checker);
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// Wake up any queues with pending delayed work. Note std::multimap stores
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// the elements sorted by key, so the begin() iterator points to the earliest
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// queue to wake-up.
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while (!delayed_wake_up_queue_.empty() &&
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delayed_wake_up_queue_.Min().wake_up.time <= lazy_now->Now()) {
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internal::TaskQueueImpl* queue = delayed_wake_up_queue_.Min().queue;
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queue->MoveReadyDelayedTasksToWorkQueue(lazy_now);
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}
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}
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Optional<TimeTicks> TimeDomain::NextScheduledRunTime() const {
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DCHECK_CALLED_ON_VALID_THREAD(associated_thread_->thread_checker);
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if (delayed_wake_up_queue_.empty())
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return nullopt;
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return delayed_wake_up_queue_.Min().wake_up.time;
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}
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void TimeDomain::AsValueInto(trace_event::TracedValue* state) const {
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state->BeginDictionary();
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state->SetString("name", GetName());
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state->SetInteger("registered_delay_count", delayed_wake_up_queue_.size());
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if (!delayed_wake_up_queue_.empty()) {
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TimeDelta delay = delayed_wake_up_queue_.Min().wake_up.time - Now();
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state->SetDouble("next_delay_ms", delay.InMillisecondsF());
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}
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AsValueIntoInternal(state);
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state->EndDictionary();
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}
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void TimeDomain::AsValueIntoInternal(trace_event::TracedValue* state) const {
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// Can be overriden to trace some additional state.
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}
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bool TimeDomain::HasPendingHighResolutionTasks() const {
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return pending_high_res_wake_up_count_;
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}
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bool TimeDomain::Empty() const {
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return delayed_wake_up_queue_.empty();
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}
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} // namespace sequence_manager
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} // namespace base
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