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chromium / chromium / src / refs/heads/main / . / base / task / sequence_manager / task_queue_impl.h
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// Copyright 2018 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef BASE_TASK_SEQUENCE_MANAGER_TASK_QUEUE_IMPL_H_
#define BASE_TASK_SEQUENCE_MANAGER_TASK_QUEUE_IMPL_H_
#include <stddef.h>
#include <functional>
#include <memory>
#include <optional>
#include <queue>
#include <set>
#include <utility>
#include <vector>
#include "base/base_export.h"
#include "base/containers/flat_map.h"
#include "base/containers/intrusive_heap.h"
#include "base/dcheck_is_on.h"
#include "base/functional/callback.h"
#include "base/memory/raw_ptr.h"
#include "base/memory/raw_ptr_exclusion.h"
#include "base/memory/scoped_refptr.h"
#include "base/memory/weak_ptr.h"
#include "base/observer_list.h"
#include "base/pending_task.h"
#include "base/task/common/checked_lock.h"
#include "base/task/common/operations_controller.h"
#include "base/task/sequence_manager/associated_thread_id.h"
#include "base/task/sequence_manager/atomic_flag_set.h"
#include "base/task/sequence_manager/enqueue_order.h"
#include "base/task/sequence_manager/fence.h"
#include "base/task/sequence_manager/lazily_deallocated_deque.h"
#include "base/task/sequence_manager/sequenced_task_source.h"
#include "base/task/sequence_manager/task_queue.h"
#include "base/task/sequence_manager/tasks.h"
#include "base/threading/thread_checker.h"
#include "base/time/time_override.h"
#include "base/trace_event/base_tracing_forward.h"
#include "base/values.h"
namespace base {
class LazyNow;
namespace sequence_manager::internal {
class SequenceManagerImpl;
class WorkQueue;
class WorkQueueSets;
class WakeUpQueue;
// TaskQueueImpl has four main queues:
//
// Immediate (non-delayed) tasks:
// |immediate_incoming_queue| - PostTask enqueues tasks here.
// |immediate_work_queue| - SequenceManager takes immediate tasks here.
//
// Delayed tasks
// |delayed_incoming_queue| - PostDelayedTask enqueues tasks here.
// |delayed_work_queue| - SequenceManager takes delayed tasks here.
//
// The |immediate_incoming_queue| can be accessed from any thread, the other
// queues are main-thread only. To reduce the overhead of locking,
// |immediate_work_queue| is swapped with |immediate_incoming_queue| when
// |immediate_work_queue| becomes empty.
//
// Delayed tasks are initially posted to |delayed_incoming_queue| and a wake-up
// is scheduled with the TimeDomain. When the delay has elapsed, the TimeDomain
// calls UpdateDelayedWorkQueue and ready delayed tasks are moved into the
// |delayed_work_queue|. Note the EnqueueOrder (used for ordering) for a delayed
// task is not set until it's moved into the |delayed_work_queue|.
//
// TaskQueueImpl uses the WorkQueueSets and the TaskQueueSelector to implement
// prioritization. Task selection is done by the TaskQueueSelector and when a
// queue is selected, it round-robins between the |immediate_work_queue| and
// |delayed_work_queue|. The reason for this is we want to make sure delayed
// tasks (normally the most common type) don't starve out immediate work.
class BASE_EXPORT TaskQueueImpl : public TaskQueue {
public:
// Initializes the state of all the task queue features. Must be invoked
// after FeatureList initialization and while Chrome is still single-threaded.
static void InitializeFeatures();
TaskQueueImpl(SequenceManagerImpl* sequence_manager,
WakeUpQueue* wake_up_queue,
const TaskQueue::Spec& spec);
TaskQueueImpl(const TaskQueueImpl&) = delete;
TaskQueueImpl& operator=(const TaskQueueImpl&) = delete;
~TaskQueueImpl() override;
// Types of queues TaskQueueImpl is maintaining internally.
enum class WorkQueueType { kImmediate, kDelayed };
// Some methods have fast paths when on the main thread.
enum class CurrentThread { kMainThread, kNotMainThread };
// Non-nestable tasks may get deferred but such queue is being maintained on
// SequenceManager side, so we need to keep information how to requeue it.
struct DeferredNonNestableTask {
Task task;
// RAW_PTR_EXCLUSION: Performance reasons (based on analysis of sampling
// profiler data and tab_search:top100:2020).
RAW_PTR_EXCLUSION internal::TaskQueueImpl* task_queue;
WorkQueueType work_queue_type;
};
using OnNextWakeUpChangedCallback = RepeatingCallback<void(TimeTicks)>;
using OnTaskStartedHandler =
RepeatingCallback<void(const Task&, const TaskQueue::TaskTiming&)>;
using OnTaskCompletedHandler =
RepeatingCallback<void(const Task&, TaskQueue::TaskTiming*, LazyNow*)>;
using OnTaskPostedHandler = RepeatingCallback<void(const Task&)>;
using TaskExecutionTraceLogger =
RepeatingCallback<void(perfetto::EventContext&, const Task&)>;
// TaskQueue implementation.
const char* GetName() const override;
bool IsQueueEnabled() const override;
bool IsEmpty() const override;
size_t GetNumberOfPendingTasks() const override;
bool HasTaskToRunImmediatelyOrReadyDelayedTask() const override;
std::optional<WakeUp> GetNextDesiredWakeUp() override;
void SetQueuePriority(TaskQueue::QueuePriority priority) override;
TaskQueue::QueuePriority GetQueuePriority() const override;
void AddTaskObserver(TaskObserver* task_observer) override;
void RemoveTaskObserver(TaskObserver* task_observer) override;
void InsertFence(TaskQueue::InsertFencePosition position) override;
void InsertFenceAt(TimeTicks time) override;
void RemoveFence() override;
bool HasActiveFence() override;
bool BlockedByFence() const override;
void SetThrottler(TaskQueue::Throttler* throttler) override;
void ResetThrottler() override;
void UpdateWakeUp(LazyNow* lazy_now) override;
void SetShouldReportPostedTasksWhenDisabled(bool should_report) override;
scoped_refptr<SingleThreadTaskRunner> CreateTaskRunner(
TaskType task_type) const override;
const scoped_refptr<SingleThreadTaskRunner>& task_runner() const override;
void SetOnTaskStartedHandler(OnTaskStartedHandler handler) override;
void SetOnTaskCompletedHandler(OnTaskCompletedHandler handler) override;
[[nodiscard]] std::unique_ptr<TaskQueue::OnTaskPostedCallbackHandle>
AddOnTaskPostedHandler(OnTaskPostedHandler handler) override;
void SetTaskExecutionTraceLogger(TaskExecutionTraceLogger logger) override;
std::unique_ptr<QueueEnabledVoter> CreateQueueEnabledVoter() override;
void SetQueueEnabled(bool enabled);
void UnregisterTaskQueue();
QueueName GetProtoName() const;
// Returns true if a (potentially hypothetical) task with the specified
// |enqueue_order| could run on the queue. Must be called from the main
// thread.
bool CouldTaskRun(EnqueueOrder enqueue_order) const;
// Returns true if a task with |enqueue_order| obtained from this queue was
// ever in the queue while it was disabled, blocked by a fence, or less
// important than kNormalPriority.
bool WasBlockedOrLowPriority(EnqueueOrder enqueue_order) const;
// Must only be called from the thread this task queue was created on.
void ReloadEmptyImmediateWorkQueue();
Value::Dict AsValue(TimeTicks now, bool force_verbose) const;
bool GetQuiescenceMonitored() const { return should_monitor_quiescence_; }
bool GetShouldNotifyObservers() const { return should_notify_observers_; }
void NotifyWillProcessTask(const Task& task,
bool was_blocked_or_low_priority);
void NotifyDidProcessTask(const Task& task);
// Returns true iff this queue has work that can execute now, i.e. immediate
// tasks or delayed tasks that have been transferred to the work queue by
// MoveReadyDelayedTasksToWorkQueue(). Delayed tasks that are still in the
// incoming queue are not taken into account. Ignores the queue's enabled
// state and fences.
bool HasTaskToRunImmediately() const;
bool HasTaskToRunImmediatelyLocked() const
EXCLUSIVE_LOCKS_REQUIRED(any_thread_lock_);
bool has_pending_high_resolution_tasks() const {
return main_thread_only()
.delayed_incoming_queue.has_pending_high_resolution_tasks();
}
WorkQueue* delayed_work_queue() {
return main_thread_only().delayed_work_queue.get();
}
const WorkQueue* delayed_work_queue() const {
return main_thread_only().delayed_work_queue.get();
}
WorkQueue* immediate_work_queue() {
return main_thread_only().immediate_work_queue.get();
}
const WorkQueue* immediate_work_queue() const {
return main_thread_only().immediate_work_queue.get();
}
TaskExecutionTraceLogger task_execution_trace_logger() const {
return main_thread_only().task_execution_trace_logger;
}
// Removes all canceled tasks from the front of the delayed incoming queue.
// After calling this, GetNextDesiredWakeUp() is guaranteed to return a time
// for a non-canceled task, if one exists. Return true if a canceled task was
// removed.
bool RemoveAllCanceledDelayedTasksFromFront(LazyNow* lazy_now);
// Enqueues in `delayed_work_queue` all delayed tasks which must run now
// (cannot be postponed) and possibly some delayed tasks which can run now but
// could be postponed (due to how tasks are stored, it is not possible to
// retrieve all such tasks efficiently). Must be called from the main thread.
void MoveReadyDelayedTasksToWorkQueue(LazyNow* lazy_now,
EnqueueOrder enqueue_order);
void OnWakeUp(LazyNow* lazy_now, EnqueueOrder enqueue_order);
const WakeUpQueue* wake_up_queue() const {
return main_thread_only().wake_up_queue;
}
HeapHandle heap_handle() const { return main_thread_only().heap_handle; }
void set_heap_handle(HeapHandle heap_handle) {
main_thread_only().heap_handle = heap_handle;
}
// Pushes |task| onto the front of the specified work queue. Caution must be
// taken with this API because you could easily starve out other work.
// TODO(kraynov): Simplify non-nestable task logic https://crbug.com/845437.
void RequeueDeferredNonNestableTask(DeferredNonNestableTask task);
void PushImmediateIncomingTaskForTest(Task task);
// Iterates over |delayed_incoming_queue| removing canceled tasks. In
// addition MaybeShrinkQueue is called on all internal queues.
void ReclaimMemory(TimeTicks now);
void OnTaskStarted(const Task& task,
const TaskQueue::TaskTiming& task_timing);
void OnTaskCompleted(const Task& task,
TaskQueue::TaskTiming* task_timing,
LazyNow* lazy_now);
bool RequiresTaskTiming() const;
WeakPtr<SequenceManagerImpl> GetSequenceManagerWeakPtr();
SequenceManagerImpl* sequence_manager() const { return sequence_manager_; }
// Returns true if this queue is unregistered or task queue manager is deleted
// and this queue can be safely deleted on any thread.
bool IsUnregistered() const;
// Called by the associated sequence manager when it becomes bound. Updates
// the weak pointer stored in voters with one bound to the correct thread.
void CompleteInitializationOnBoundThread();
void AddQueueEnabledVoter(bool voter_is_enabled,
TaskQueue::QueueEnabledVoter& voter);
void RemoveQueueEnabledVoter(bool voter_is_enabled,
TaskQueue::QueueEnabledVoter& voter);
void OnQueueEnabledVoteChanged(bool enabled);
protected:
// Sets this queue's next wake up time to |wake_up| in the time domain.
void SetNextWakeUp(LazyNow* lazy_now, std::optional<WakeUp> wake_up);
private:
friend class WorkQueue;
friend class WorkQueueTest;
friend class DelayedTaskHandleDelegate;
// A TaskQueueImpl instance can be destroyed or unregistered before all its
// associated TaskRunner instances are (they are refcounted). Thus we need a
// way to prevent TaskRunner instances from posting further tasks. This class
// guards PostTask calls using an OperationsController.
// This class is ref-counted as both the TaskQueueImpl instance and all
// associated TaskRunner instances share the same GuardedTaskPoster instance.
// When TaskQueueImpl shuts down it calls ShutdownAndWaitForZeroOperations(),
// preventing further PostTask calls being made to the underlying
// TaskQueueImpl.
class GuardedTaskPoster : public RefCountedThreadSafe<GuardedTaskPoster> {
public:
explicit GuardedTaskPoster(TaskQueueImpl* outer);
bool PostTask(PostedTask task);
DelayedTaskHandle PostCancelableTask(PostedTask task);
bool RunOrPostTask(PostedTask task);
void StartAcceptingOperations() {
operations_controller_.StartAcceptingOperations();
}
void ShutdownAndWaitForZeroOperations() {
operations_controller_.ShutdownAndWaitForZeroOperations();
// `operations_controller_` won't let any more operations here, and
// `outer_` might get destroyed before `this` does, so clearing `outer_`
// avoids a potential dangling pointer.
outer_ = nullptr;
}
private:
friend class RefCountedThreadSafe<GuardedTaskPoster>;
~GuardedTaskPoster();
base::internal::OperationsController operations_controller_;
// Pointer might be stale, access guarded by |operations_controller_|
// RAW_PTR_EXCLUSION: Performance reasons (based on analysis of
// speedometer3).
RAW_PTR_EXCLUSION TaskQueueImpl* outer_ = nullptr;
};
class TaskRunner final : public SingleThreadTaskRunner {
public:
explicit TaskRunner(
scoped_refptr<GuardedTaskPoster> task_poster,
scoped_refptr<const AssociatedThreadId> associated_thread,
TaskType task_type);
bool PostDelayedTask(const Location& location,
OnceClosure callback,
TimeDelta delay) final;
bool PostDelayedTaskAt(subtle::PostDelayedTaskPassKey,
const Location& location,
OnceClosure callback,
TimeTicks delayed_run_time,
base::subtle::DelayPolicy delay_policy) final;
DelayedTaskHandle PostCancelableDelayedTaskAt(
subtle::PostDelayedTaskPassKey,
const Location& location,
OnceClosure callback,
TimeTicks delayed_run_time,
base::subtle::DelayPolicy delay_policy) final;
DelayedTaskHandle PostCancelableDelayedTask(subtle::PostDelayedTaskPassKey,
const Location& location,
OnceClosure callback,
TimeDelta delay) final;
bool PostNonNestableDelayedTask(const Location& location,
OnceClosure callback,
TimeDelta delay) final;
bool RunOrPostTask(subtle::RunOrPostTaskPassKey,
const Location& from_here,
OnceClosure task) final;
bool BelongsToCurrentThread() const final;
bool RunsTasksInCurrentSequence() const final;
private:
~TaskRunner() final;
const scoped_refptr<GuardedTaskPoster> task_poster_;
const scoped_refptr<const AssociatedThreadId> associated_thread_;
const TaskType task_type_;
};
class OnTaskPostedCallbackHandleImpl
: public TaskQueue::OnTaskPostedCallbackHandle {
public:
OnTaskPostedCallbackHandleImpl(
TaskQueueImpl* task_queue_impl,
scoped_refptr<const AssociatedThreadId> associated_thread_);
~OnTaskPostedCallbackHandleImpl() override;
// Callback handles can outlive the associated TaskQueueImpl, so the
// reference needs to be cleared when the queue is unregistered.
void UnregisterTaskQueue() { task_queue_impl_ = nullptr; }
private:
// RAW_PTR_EXCLUSION: Performance reasons (based on analysis of
// speedometer3).
RAW_PTR_EXCLUSION TaskQueueImpl* task_queue_impl_ = nullptr;
const scoped_refptr<const AssociatedThreadId> associated_thread_;
};
// A queue for holding delayed tasks before their delay has expired.
struct DelayedIncomingQueue {
public:
DelayedIncomingQueue();
DelayedIncomingQueue(const DelayedIncomingQueue&) = delete;
DelayedIncomingQueue& operator=(const DelayedIncomingQueue&) = delete;
~DelayedIncomingQueue();
void push(Task task);
void remove(HeapHandle heap_handle);
Task take_top();
bool empty() const { return queue_.empty(); }
size_t size() const { return queue_.size(); }
const Task& top() const { return queue_.top(); }
void swap(DelayedIncomingQueue* other);
bool has_pending_high_resolution_tasks() const {
return pending_high_res_tasks_;
}
// TODO(crbug.com/40735653): we pass SequenceManager to be able to record
// crash keys. Remove this parameter after chasing down this crash.
void SweepCancelledTasks(SequenceManagerImpl* sequence_manager);
Value::List AsValue(TimeTicks now) const;
private:
struct Compare {
bool operator()(const Task& lhs, const Task& rhs) const;
};
IntrusiveHeap<Task, Compare> queue_;
// Number of pending tasks in the queue that need high resolution timing.
int pending_high_res_tasks_ = 0;
};
struct MainThreadOnly {
MainThreadOnly(TaskQueueImpl* task_queue, WakeUpQueue* wake_up_queue);
~MainThreadOnly();
raw_ptr<WakeUpQueue> wake_up_queue;
raw_ptr<TaskQueue::Throttler> throttler = nullptr;
std::unique_ptr<WorkQueue> delayed_work_queue;
std::unique_ptr<WorkQueue> immediate_work_queue;
DelayedIncomingQueue delayed_incoming_queue;
ObserverList<TaskObserver>::UncheckedAndDanglingUntriaged task_observers;
HeapHandle heap_handle;
bool is_enabled = true;
std::optional<Fence> current_fence;
std::optional<TimeTicks> delayed_fence;
// Snapshots the next sequence number when the queue is unblocked, otherwise
// it contains EnqueueOrder::none(). If the EnqueueOrder of a task just
// popped from this queue is greater than this, it means that the queue was
// never disabled or blocked by a fence while the task was queued.
EnqueueOrder enqueue_order_at_which_we_became_unblocked;
// If the EnqueueOrder of a task just popped from this queue is greater than
// this, it means that the queue was never disabled, blocked by a fence or
// less important than kNormalPriority while the task was queued.
//
// Implementation details:
// 1) When the queue is made less important than kNormalPriority, this is
// set to EnqueueOrder::max(). The EnqueueOrder of any task will compare
// less than this.
// 2) When the queue is made at least as important as kNormalPriority, this
// snapshots the next sequence number. If the queue is blocked, the value
// is irrelevant because no task should be popped. If the queue is not
// blocked, the EnqueueOrder of any already queued task will compare less
// than this.
// 3) When the queue is unblocked while at least as important as
// kNormalPriority, this snapshots the next sequence number. The
// EnqueueOrder of any already queued task will compare less than this.
//
// TODO(crbug.com/1249857): Change this to use `TaskOrder`.
EnqueueOrder
enqueue_order_at_which_we_became_unblocked_with_normal_priority;
OnTaskStartedHandler on_task_started_handler;
OnTaskCompletedHandler on_task_completed_handler;
TaskExecutionTraceLogger task_execution_trace_logger;
// Last reported wake up, used only in UpdateWakeUp to avoid
// excessive calls.
std::optional<WakeUp> scheduled_wake_up;
// If false, queue will be disabled. Used only for tests.
bool is_enabled_for_test = true;
// The time at which the task queue was disabled, if it is currently
// disabled.
std::optional<TimeTicks> disabled_time;
// Whether or not the task queue should emit tracing events for tasks
// posted to this queue when it is disabled.
bool should_report_posted_tasks_when_disabled = false;
int enabled_voter_count = 0;
int voter_count = 0;
};
void PostTask(PostedTask task);
void RemoveCancelableTask(HeapHandle heap_handle);
void PostImmediateTaskImpl(PostedTask task, CurrentThread current_thread);
void PostDelayedTaskImpl(PostedTask task, CurrentThread current_thread);
// Push the task onto the |delayed_incoming_queue|. Lock-free main thread
// only fast path.
void PushOntoDelayedIncomingQueueFromMainThread(Task pending_task,
LazyNow* lazy_now,
bool notify_task_annotator);
// Push the task onto the |delayed_incoming_queue|. Slow path from other
// threads.
void PushOntoDelayedIncomingQueue(Task pending_task);
void ScheduleDelayedWorkTask(Task pending_task);
void MoveReadyImmediateTasksToImmediateWorkQueueLocked()
EXCLUSIVE_LOCKS_REQUIRED(any_thread_lock_);
// LazilyDeallocatedDeque use TimeTicks to figure out when to resize. We
// should use real time here always.
using TaskDeque =
LazilyDeallocatedDeque<Task, subtle::TimeTicksNowIgnoringOverride>;
// Extracts all the tasks from the immediate incoming queue and swaps it with
// |queue| which must be empty.
// Can be called from any thread.
void TakeImmediateIncomingQueueTasks(TaskDeque* queue);
void TraceQueueSize() const;
static Value::List QueueAsValue(const TaskDeque& queue, TimeTicks now);
static Value::Dict TaskAsValue(const Task& task, TimeTicks now);
// Returns a Task representation for `delayed_task`.
Task MakeDelayedTask(PostedTask delayed_task, LazyNow* lazy_now) const;
// Activate a delayed fence if a time has come based on `task`'s delayed run
// time.
void ActivateDelayedFenceIfNeeded(const Task& task);
// Updates state protected by any_thread_lock_.
void UpdateCrossThreadQueueStateLocked()
EXCLUSIVE_LOCKS_REQUIRED(any_thread_lock_);
TimeDelta GetTaskDelayAdjustment(CurrentThread current_thread);
// Reports the task if it was due to IPC and was posted to a disabled queue.
// This should be called after WillQueueTask has been called for the task.
void MaybeReportIpcTaskQueuedFromMainThread(const Task& pending_task);
bool ShouldReportIpcTaskQueuedFromAnyThreadLocked(
base::TimeDelta* time_since_disabled)
EXCLUSIVE_LOCKS_REQUIRED(any_thread_lock_);
void MaybeReportIpcTaskQueuedFromAnyThreadLocked(const Task& pending_task)
EXCLUSIVE_LOCKS_REQUIRED(any_thread_lock_);
void MaybeReportIpcTaskQueuedFromAnyThreadUnlocked(const Task& pending_task);
void ReportIpcTaskQueued(const Task& pending_task,
const base::TimeDelta& time_since_disabled);
// Invoked when the queue becomes enabled and not blocked by a fence.
void OnQueueUnblocked();
void InsertFence(Fence fence);
void RemoveOnTaskPostedHandler(
OnTaskPostedCallbackHandleImpl* on_task_posted_callback_handle);
TaskQueue::QueuePriority DefaultPriority() const;
bool AreAllQueueEnabledVotersEnabled() const {
return main_thread_only().enabled_voter_count ==
main_thread_only().voter_count;
}
// Returns whether the queue is enabled. May be invoked from any thread.
bool IsQueueEnabledFromAnyThread() const;
QueueName name_;
const raw_ptr<SequenceManagerImpl, AcrossTasksDanglingUntriaged>
sequence_manager_;
const scoped_refptr<const AssociatedThreadId> associated_thread_;
const scoped_refptr<GuardedTaskPoster> task_poster_;
mutable base::internal::CheckedLock any_thread_lock_;
struct AnyThread {
// Mirrored from MainThreadOnly. These are only used for tracing.
struct TracingOnly {
TracingOnly();
~TracingOnly();
std::optional<TimeTicks> disabled_time;
bool should_report_posted_tasks_when_disabled = false;
};
AnyThread();
~AnyThread();
TaskDeque immediate_incoming_queue;
bool immediate_work_queue_empty = true;
bool post_immediate_task_should_schedule_work = true;
bool unregistered = false;
bool is_enabled = true;
base::flat_map<raw_ptr<OnTaskPostedCallbackHandleImpl>, OnTaskPostedHandler>
on_task_posted_handlers;
#if DCHECK_IS_ON()
// A cache of |immediate_work_queue->work_queue_set_index()| which is used
// to index into
// SequenceManager::Settings::per_priority_cross_thread_task_delay to apply
// a priority specific delay for debugging purposes.
size_t queue_set_index = 0;
#endif
TracingOnly tracing_only;
};
AnyThread any_thread_ GUARDED_BY(any_thread_lock_);
MainThreadOnly main_thread_only_;
MainThreadOnly& main_thread_only() {
DCHECK_CALLED_ON_VALID_THREAD(associated_thread_->thread_checker);
return main_thread_only_;
}
const MainThreadOnly& main_thread_only() const {
DCHECK_CALLED_ON_VALID_THREAD(associated_thread_->thread_checker);
return main_thread_only_;
}
// Handle to our entry within the SequenceManagers |empty_queues_to_reload_|
// atomic flag set. Used to signal that this queue needs to be reloaded.
// If you call SetActive(false) you should do so inside |any_thread_lock_|
// because there is a danger a cross thread PostTask might reset it before we
// make |immediate_work_queue| non-empty.
AtomicFlagSet::AtomicFlag empty_queues_to_reload_handle_;
const bool should_monitor_quiescence_;
const bool should_notify_observers_;
const bool delayed_fence_allowed_;
const scoped_refptr<SingleThreadTaskRunner> default_task_runner_;
base::WeakPtrFactory<TaskQueueImpl> voter_weak_ptr_factory_{this};
};
} // namespace sequence_manager::internal
} // namespace base
#endif // BASE_TASK_SEQUENCE_MANAGER_TASK_QUEUE_IMPL_H_