// Copyright 2015 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef V8_TASKS_CANCELABLE_TASK_H_ #define V8_TASKS_CANCELABLE_TASK_H_ #include #include #include "include/v8-platform.h" #include "src/base/macros.h" #include "src/base/platform/condition-variable.h" #include "src/common/globals.h" namespace v8 { namespace internal { class Cancelable; class Isolate; // The possible outcomes of trying to abort a job are: // (1) The task is already finished running or was canceled before and // thus has been removed from the manager. // (2) The task is currently running and cannot be canceled anymore. // (3) The task is not yet running (or finished) so it is canceled and // removed. enum class TryAbortResult { kTaskRemoved, kTaskRunning, kTaskAborted }; // Keeps track of cancelable tasks. It is possible to register and remove tasks // from any fore- and background task/thread. class V8_EXPORT_PRIVATE CancelableTaskManager { public: using Id = uint64_t; static constexpr Id kInvalidTaskId = 0; CancelableTaskManager(); ~CancelableTaskManager(); // Registers a new cancelable {task}. Returns the unique {id} of the task that // can be used to try to abort a task by calling {Abort}. // If {Register} is called after {CancelAndWait}, then the task will be // aborted immediately. // {Register} should only be called by the thread which owns the // {CancelableTaskManager}, or by a task which is managed by the // {CancelableTaskManager}. Id Register(Cancelable* task); // Try to abort running a task identified by {id}. TryAbortResult TryAbort(Id id); // Tries to cancel all remaining registered tasks. The return value indicates // whether // // 1) No tasks were registered (kTaskRemoved), or // // 2) There is at least one remaining task that couldn't be cancelled // (kTaskRunning), or // // 3) All registered tasks were cancelled (kTaskAborted). TryAbortResult TryAbortAll(); // Cancels all remaining registered tasks and waits for tasks that are // already running. This disallows subsequent Register calls. void CancelAndWait(); // Returns true of the task manager has been cancelled. bool canceled() const { return canceled_; } private: // Only called by {Cancelable} destructor. The task is done with executing, // but needs to be removed. void RemoveFinishedTask(Id id); // To mitigate the ABA problem, the api refers to tasks through an id. Id task_id_counter_; // A set of cancelable tasks that are currently registered. std::unordered_map cancelable_tasks_; // Mutex and condition variable enabling concurrent register and removing, as // well as waiting for background tasks on {CancelAndWait}. base::ConditionVariable cancelable_tasks_barrier_; base::Mutex mutex_; bool canceled_; friend class Cancelable; DISALLOW_COPY_AND_ASSIGN(CancelableTaskManager); }; class V8_EXPORT_PRIVATE Cancelable { public: explicit Cancelable(CancelableTaskManager* parent) : parent_(parent), id_(parent->Register(this)) {} virtual ~Cancelable(); // Never invoke after handing over the task to the platform! The reason is // that {Cancelable} is used in combination with {v8::Task} and handed to // a platform. This step transfers ownership to the platform, which destroys // the task after running it. Since the exact time is not known, we cannot // access the object after handing it to a platform. CancelableTaskManager::Id id() { return id_; } protected: // Identifies the state a cancelable task is in: // |kWaiting|: The task is scheduled and waiting to be executed. {TryRun} will // succeed. // |kCanceled|: The task has been canceled. {TryRun} will fail. // |kRunning|: The task is currently running and cannot be canceled anymore. enum Status { kWaiting, kCanceled, kRunning }; bool TryRun(Status* previous = nullptr) { return CompareExchangeStatus(kWaiting, kRunning, previous); } private: friend class CancelableTaskManager; // Use {CancelableTaskManager} to abort a task that has not yet been // executed. bool Cancel() { return CompareExchangeStatus(kWaiting, kCanceled); } bool CompareExchangeStatus(Status expected, Status desired, Status* previous = nullptr) { // {compare_exchange_strong} updates {expected}. bool success = status_.compare_exchange_strong(expected, desired, std::memory_order_acq_rel, std::memory_order_acquire); if (previous) *previous = expected; return success; } CancelableTaskManager* const parent_; std::atomic status_{kWaiting}; const CancelableTaskManager::Id id_; DISALLOW_COPY_AND_ASSIGN(Cancelable); }; // Multiple inheritance can be used because Task is a pure interface. class V8_EXPORT_PRIVATE CancelableTask : public Cancelable, NON_EXPORTED_BASE(public Task) { public: explicit CancelableTask(Isolate* isolate); explicit CancelableTask(CancelableTaskManager* manager); // Task overrides. void Run() final { if (TryRun()) { RunInternal(); } } virtual void RunInternal() = 0; private: DISALLOW_COPY_AND_ASSIGN(CancelableTask); }; // Multiple inheritance can be used because IdleTask is a pure interface. class CancelableIdleTask : public Cancelable, public IdleTask { public: explicit CancelableIdleTask(Isolate* isolate); explicit CancelableIdleTask(CancelableTaskManager* manager); // IdleTask overrides. void Run(double deadline_in_seconds) final { if (TryRun()) { RunInternal(deadline_in_seconds); } } virtual void RunInternal(double deadline_in_seconds) = 0; private: DISALLOW_COPY_AND_ASSIGN(CancelableIdleTask); }; } // namespace internal } // namespace v8 #endif // V8_TASKS_CANCELABLE_TASK_H_