// Copyright 2016 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_THREAD_POOL_TASK_TRACKER_H_ #define BASE_TASK_THREAD_POOL_TASK_TRACKER_H_ #include #include #include #include #include #include #include "base/atomic_sequence_num.h" #include "base/atomicops.h" #include "base/base_export.h" #include "base/containers/circular_deque.h" #include "base/functional/callback_forward.h" #include "base/sequence_checker.h" #include "base/strings/string_piece.h" #include "base/synchronization/waitable_event.h" #include "base/task/common/checked_lock.h" #include "base/task/common/task_annotator.h" #include "base/task/task_traits.h" #include "base/task/thread_pool/task.h" #include "base/task/thread_pool/task_source.h" #include "base/task/thread_pool/tracked_ref.h" #include "base/thread_annotations.h" #include "base/threading/thread_local.h" namespace base { class ConditionVariable; namespace internal { class JobTaskSource; // Determines which tasks are allowed to run. enum class CanRunPolicy { // All tasks are allowed to run. kAll, // Only USER_VISIBLE and USER_BLOCKING tasks are allowed to run. kForegroundOnly, // No tasks can run. kNone, }; // TaskTracker enforces policies that determines whether: // - A task can be pushed to a task source (WillPostTask). // - A task source can be queued (WillQueueTaskSource). // - Tasks for a given priority can run (CanRunPriority). // - The next task in a queued task source can run (RunAndPopNextTask). // TaskTracker also sets up the environment to run a task (RunAndPopNextTask) // and records metrics and trace events. This class is thread-safe. class BASE_EXPORT TaskTracker { public: TaskTracker(); TaskTracker(const TaskTracker&) = delete; TaskTracker& operator=(const TaskTracker&) = delete; virtual ~TaskTracker(); // Initiates shutdown. Once this is called, only BLOCK_SHUTDOWN tasks will // start running (doesn't affect tasks that are already running). This can // only be called once. void StartShutdown(); // Synchronously completes shutdown. StartShutdown() must be called first. // Returns when: // - All SKIP_ON_SHUTDOWN tasks that were already running have completed their // execution. // - All posted BLOCK_SHUTDOWN tasks have completed their execution. // CONTINUE_ON_SHUTDOWN tasks still may be running after Shutdown returns. // This can only be called once. void CompleteShutdown(); // Waits until there are no incomplete task sources. May be called in tests // to validate that a condition is met after all task sources have run. // // Does not wait for delayed tasks. Waits for task sources posted from // other threads during the call. Returns immediately when shutdown completes. void FlushForTesting(); // Returns and calls |flush_callback| when there are no incomplete undelayed // tasks. |flush_callback| may be called back on any thread and should not // perform a lot of work. May be used when additional work on the current // thread needs to be performed during a flush. Only one // FlushAsyncForTesting() may be pending at any given time. void FlushAsyncForTesting(OnceClosure flush_callback); // Sets the new CanRunPolicy policy, possibly affecting result of // CanRunPriority(). The caller must wake up worker as appropriate so that // tasks that are allowed to run by the new policy can be scheduled. void SetCanRunPolicy(CanRunPolicy can_run_policy); // Informs this TaskTracker that |task| with |shutdown_behavior| is about to // be pushed to a task source (if non-delayed) or be added to the // DelayedTaskManager (if delayed). Returns true if this operation is allowed // (the operation should be performed if-and-only-if it is). This method may // also modify metadata on |task| if desired. // If this returns false, `task` must be leaked by the caller if deleting it // on the current sequence may invoke sequence-affine code that belongs to // another sequence. bool WillPostTask(Task* task, TaskShutdownBehavior shutdown_behavior); // Informs this TaskTracker that |task| that is about to be pushed to a task // source with |priority|. Returns true if this operation is allowed (the // operation should be performed if-and-only-if it is). [[nodiscard]] bool WillPostTaskNow(const Task& task, TaskPriority priority) const; // Informs this TaskTracker that |task_source| is about to be queued. Returns // a RegisteredTaskSource that should be queued if-and-only-if it evaluates to // true. RegisteredTaskSource RegisterTaskSource( scoped_refptr task_source); // Informs this TaskTracker that |task_source| is about to be queued. void WillEnqueueJob(JobTaskSource* task_source); // Returns true if a task with |priority| can run under to the current policy. bool CanRunPriority(TaskPriority priority) const; // Runs the next task in |task_source| unless the current shutdown state // prevents that. Then, pops the task from |task_source| (even if it didn't // run). Returns |task_source| if non-empty after popping a task from it // (which indicates that it should be reenqueued). WillPostTask() must have // allowed the task in front of |task_source| to be posted before this is // called. RegisteredTaskSource RunAndPopNextTask(RegisteredTaskSource task_source); // Returns true once shutdown has started (StartShutdown() was called). // Note: sequential consistency with the thread calling StartShutdown() isn't // guaranteed by this call. bool HasShutdownStarted() const; // Returns true if shutdown has completed (StartShutdown() was called and // no tasks are blocking shutdown). bool IsShutdownComplete() const; TrackedRef GetTrackedRef() { return tracked_ref_factory_.GetTrackedRef(); } void BeginFizzlingBlockShutdownTasks(); void EndFizzlingBlockShutdownTasks(); // Returns true if there are task sources that haven't completed their // execution (still queued or in progress). If it returns false: the side- // effects of all completed tasks are guaranteed to be visible to the caller. bool HasIncompleteTaskSourcesForTesting() const; protected: // Runs and deletes |task|. |task| is deleted in the environment where it // runs. |task_source| is the task source from which |task| was extracted. // |traits| are the traits of |task_source|. An override is expected to call // its parent's implementation but is free to perform extra work before and // after doing so. virtual void RunTask(Task task, TaskSource* task_source, const TaskTraits& traits); // Allow a subclass to wait more interactively for any running shutdown tasks // before blocking the thread. virtual void BeginCompleteShutdown(base::WaitableEvent& shutdown_event); // Asserts that FlushForTesting() is allowed to be called. Overridden in tests // in situations where it is not. virtual void AssertFlushForTestingAllowed() {} private: friend class RegisteredTaskSource; class State; void PerformShutdown(); // Called before WillPostTask() informs the tracing system that a task has // been posted. Updates |num_items_blocking_shutdown_| if necessary and // returns true if the current shutdown state allows the task to be posted. bool BeforeQueueTaskSource(TaskShutdownBehavior shutdown_behavior); // Called before a task with |effective_shutdown_behavior| is run by // RunTask(). Updates |num_items_blocking_shutdown_| if necessary and returns // true if the current shutdown state allows the task to be run. bool BeforeRunTask(TaskShutdownBehavior shutdown_behavior); // Called after a task with |effective_shutdown_behavior| has been run by // RunTask(). Updates |num_items_blocking_shutdown_| if necessary. void AfterRunTask(TaskShutdownBehavior shutdown_behavior); // Informs this TaskTracker that |task_source| won't be reenqueued and returns // the underlying TaskSource. This is called before destroying a valid // RegisteredTaskSource. Updates |num_items_blocking_shutdown_| if necessary. scoped_refptr UnregisterTaskSource( scoped_refptr task_source); // Called when an item blocking shutdown finishes after shutdown has started. void DecrementNumItemsBlockingShutdown(); // Decrements the number of incomplete task sources and signals |flush_cv_| // if it reaches zero. void DecrementNumIncompleteTaskSources(); // Invokes all |flush_callbacks_for_testing_| if any in a lock-safe manner. void InvokeFlushCallbacksForTesting(); // Dummy frames to allow identification of shutdown behavior in a stack trace. void RunContinueOnShutdown(Task& task, const TaskTraits& traits, TaskSource* task_source, const SequenceToken& token); void RunSkipOnShutdown(Task& task, const TaskTraits& traits, TaskSource* task_source, const SequenceToken& token); void RunBlockShutdown(Task& task, const TaskTraits& traits, TaskSource* task_source, const SequenceToken& token); void RunTaskWithShutdownBehavior(Task& task, const TaskTraits& traits, TaskSource* task_source, const SequenceToken& token); NOT_TAIL_CALLED void RunTaskImpl(Task& task, const TaskTraits& traits, TaskSource* task_source, const SequenceToken& token); TaskAnnotator task_annotator_; // Indicates whether logging information about TaskPriority::BEST_EFFORT tasks // was enabled with a command line switch. const bool has_log_best_effort_tasks_switch_; // Number of tasks blocking shutdown and boolean indicating whether shutdown // has started. |shutdown_lock_| should be held to access |shutdown_event_| // when this indicates that shutdown has started because State doesn't provide // memory barriers. It intentionally trades having to use a Lock on shutdown // with not needing memory barriers at runtime. const std::unique_ptr state_; // Number of task sources that haven't completed their execution. Is // decremented with a memory barrier after the last task of a task source // runs. Is accessed with an acquire memory barrier in FlushForTesting(). The // memory barriers ensure that the memory written by flushed task sources is // visible when FlushForTesting() returns. std::atomic_int num_incomplete_task_sources_{0}; // Global policy the determines result of CanRunPriority(). std::atomic can_run_policy_; // Lock associated with |flush_cv_|. Partially synchronizes access to // |num_incomplete_task_sources_|. Full synchronization isn't needed // because it's atomic, but synchronization is needed to coordinate waking and // sleeping at the right time. Fully synchronizes access to // |flush_callbacks_for_testing_|. mutable CheckedLock flush_lock_; // Signaled when |num_incomplete_task_sources_| is or reaches zero or when // shutdown completes. ConditionVariable flush_cv_; // All invoked, if any, when |num_incomplete_task_sources_| is zero or when // shutdown completes. base::circular_deque flush_callbacks_for_testing_ GUARDED_BY(flush_lock_); // Synchronizes access to shutdown related members below. mutable CheckedLock shutdown_lock_; // Event instantiated when shutdown starts and signaled when shutdown // completes. std::unique_ptr shutdown_event_ GUARDED_BY(shutdown_lock_); // Used to generate unique |PendingTask::sequence_num| when posting tasks. AtomicSequenceNumber sequence_nums_; // Ensures all state (e.g. dangling cleaned up workers) is coalesced before // destroying the TaskTracker (e.g. in test environments). // Ref. https://crbug.com/827615. TrackedRefFactory tracked_ref_factory_; }; } // namespace internal } // namespace base #endif // BASE_TASK_THREAD_POOL_TASK_TRACKER_H_