// Copyright 2015 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. #ifndef BASE_TEST_TEST_MOCK_TIME_TASK_RUNNER_H_ #define BASE_TEST_TEST_MOCK_TIME_TASK_RUNNER_H_ #include #include #include #include #include "base/callback.h" #include "base/callback_helpers.h" #include "base/containers/circular_deque.h" #include "base/macros.h" #include "base/run_loop.h" #include "base/single_thread_task_runner.h" #include "base/synchronization/lock.h" #include "base/test/test_pending_task.h" #include "base/threading/thread_checker_impl.h" #include "base/time/clock.h" #include "base/time/tick_clock.h" #include "base/time/time.h" namespace base { class ThreadTaskRunnerHandle; // Runs pending tasks in the order of the tasks' post time + delay, and keeps // track of a mock (virtual) tick clock time that can be fast-forwarded. // // TestMockTimeTaskRunner has the following properties: // // - Methods RunsTasksInCurrentSequence() and Post[Delayed]Task() can be // called from any thread, but the rest of the methods must be called on // the same thread the TestMockTimeTaskRunner was created on. // - It allows for reentrancy, in that it handles the running of tasks that in // turn call back into it (e.g., to post more tasks). // - Tasks are stored in a priority queue, and executed in the increasing // order of post time + delay, but ignoring nestability. // - It does not check for overflow when doing time arithmetic. A sufficient // condition for preventing overflows is to make sure that the sum of all // posted task delays and fast-forward increments is still representable by // a TimeDelta, and that adding this delta to the starting values of Time // and TickTime is still within their respective range. // // A TestMockTimeTaskRunner of Type::kBoundToThread has the following additional // properties: // - Thread/SequencedTaskRunnerHandle refers to it on its thread. // - It can be driven by a RunLoop on the thread it was created on. // RunLoop::Run() will result in running non-delayed tasks until idle and // then, if RunLoop::QuitWhenIdle() wasn't invoked, fast-forwarding time to // the next delayed task and looping again. And so on, until either // RunLoop::Quit() is invoked (quits immediately after the current task) or // RunLoop::QuitWhenIdle() is invoked (quits before having to fast forward // time once again). Should RunLoop::Run() process all tasks (including // delayed ones), it will block until more are posted. As usual, // RunLoop::RunUntilIdle() is equivalent to RunLoop::Run() followed by an // immediate RunLoop::QuitWhenIdle(). // - // // This is a slightly more sophisticated version of TestSimpleTaskRunner, in // that it supports running delayed tasks in the correct temporal order. class TestMockTimeTaskRunner : public SingleThreadTaskRunner, public RunLoop::Delegate { public: // Everything that is executed in the scope of a ScopedContext will behave as // though it ran under |scope| (i.e. ThreadTaskRunnerHandle, // RunsTasksInCurrentSequence, etc.). This allows the test body to be all in // one block when multiple TestMockTimeTaskRunners share the main thread. // Note: RunLoop isn't supported: will DCHECK if used inside a ScopedContext. // // For example: // // class ExampleFixture { // protected: // DoBarOnFoo() { // DCHECK(foo_task_runner_->RunsOnCurrentThread()); // EXPECT_EQ(foo_task_runner_, ThreadTaskRunnerHandle::Get()); // DoBar(); // } // // // Mock main task runner. // base::MessageLoop message_loop_; // base::ScopedMockTimeMessageLoopTaskRunner main_task_runner_; // // // Mock foo task runner. // scoped_refptr foo_task_runner_ = // new TestMockTimeTaskRunner(); // }; // // TEST_F(ExampleFixture, DoBarOnFoo) { // DoThingsOnMain(); // { // TestMockTimeTaskRunner::ScopedContext scoped_context( // foo_task_runner_.get()); // DoBarOnFoo(); // } // DoMoreThingsOnMain(); // } // class ScopedContext { public: // Note: |scope| is ran until idle as part of this constructor to ensure // that anything which runs in the underlying scope runs after any already // pending tasks (the contrary would break the SequencedTaskRunner // contract). explicit ScopedContext(scoped_refptr scope); ~ScopedContext(); private: ScopedClosureRunner on_destroy_; DISALLOW_COPY_AND_ASSIGN(ScopedContext); }; enum class Type { // A TestMockTimeTaskRunner which can only be driven directly through its // API. Thread/SequencedTaskRunnerHandle will refer to it only in the scope // of its tasks. kStandalone, // A TestMockTimeTaskRunner which will associate to the thread it is created // on, enabling RunLoop to drive it and making // Thread/SequencedTaskRunnerHandle refer to it on that thread. kBoundToThread, }; // Constructs an instance whose virtual time will start at the Unix epoch, and // whose time ticks will start at zero. TestMockTimeTaskRunner(Type type = Type::kStandalone); // Constructs an instance starting at the given virtual time and time ticks. TestMockTimeTaskRunner(Time start_time, TimeTicks start_ticks, Type type = Type::kStandalone); // Fast-forwards virtual time by |delta|, causing all tasks with a remaining // delay less than or equal to |delta| to be executed. |delta| must be // non-negative. void FastForwardBy(TimeDelta delta); // Fast-forwards virtual time by |delta| but not causing any task execution. void AdvanceMockTickClock(TimeDelta delta); // Fast-forwards virtual time just until all tasks are executed. void FastForwardUntilNoTasksRemain(); // Executes all tasks that have no remaining delay. Tasks with a remaining // delay greater than zero will remain enqueued, and no virtual time will // elapse. void RunUntilIdle(); // Clears the queue of pending tasks without running them. void ClearPendingTasks(); // Returns the current virtual time (initially starting at the Unix epoch). Time Now() const; // Returns the current virtual tick time (initially starting at 0). TimeTicks NowTicks() const; // Returns a Clock that uses the virtual time of |this| as its time source. // The returned Clock will hold a reference to |this|. // TODO(tzik): Remove DeprecatedGetMockClock() after updating all callers to // use non-owning Clock. std::unique_ptr DeprecatedGetMockClock() const; Clock* GetMockClock() const; // Returns a TickClock that uses the virtual time ticks of |this| as its tick // source. The returned TickClock will hold a reference to |this|. // TODO(tzik): Replace Remove DeprecatedGetMockTickClock() after updating all // callers to use non-owning TickClock. std::unique_ptr DeprecatedGetMockTickClock() const; const TickClock* GetMockTickClock() const; // Cancelled pending tasks get pruned automatically. base::circular_deque TakePendingTasks(); bool HasPendingTask(); size_t GetPendingTaskCount(); TimeDelta NextPendingTaskDelay(); // SingleThreadTaskRunner: bool RunsTasksInCurrentSequence() const override; bool PostDelayedTask(const Location& from_here, OnceClosure task, TimeDelta delay) override; bool PostNonNestableDelayedTask(const Location& from_here, OnceClosure task, TimeDelta delay) override; protected: ~TestMockTimeTaskRunner() override; // Called before the next task to run is selected, so that subclasses have a // last chance to make sure all tasks are posted. virtual void OnBeforeSelectingTask(); // Called after the current mock time has been incremented so that subclasses // can react to the passing of time. virtual void OnAfterTimePassed(); // Called after each task is run so that subclasses may perform additional // activities, e.g., pump additional task runners. virtual void OnAfterTaskRun(); private: class NonOwningProxyTaskRunner; // MockClock implements TickClock and Clock. Always returns the then-current // mock time of |task_runner| as the current time or time ticks. class MockClock : public TickClock, public Clock { public: explicit MockClock(TestMockTimeTaskRunner* task_runner) : task_runner_(task_runner) {} // TickClock: TimeTicks NowTicks() const override; // Clock: Time Now() const override; private: TestMockTimeTaskRunner* task_runner_; DISALLOW_COPY_AND_ASSIGN(MockClock); }; struct TestOrderedPendingTask; // Predicate that defines a strict weak temporal ordering of tasks. class TemporalOrder { public: bool operator()(const TestOrderedPendingTask& first_task, const TestOrderedPendingTask& second_task) const; }; typedef std::priority_queue, TemporalOrder> TaskPriorityQueue; // Core of the implementation for all flavors of fast-forward methods. Given a // non-negative |max_delta|, runs all tasks with a remaining delay less than // or equal to |max_delta|, and moves virtual time forward as needed for each // processed task. Pass in TimeDelta::Max() as |max_delta| to run all tasks. void ProcessAllTasksNoLaterThan(TimeDelta max_delta); // Forwards |now_ticks_| until it equals |later_ticks|, and forwards |now_| by // the same amount. Calls OnAfterTimePassed() if |later_ticks| > |now_ticks_|. // Does nothing if |later_ticks| <= |now_ticks_|. void ForwardClocksUntilTickTime(TimeTicks later_ticks); // Returns the |next_task| to run if there is any with a running time that is // at most |reference| + |max_delta|. This additional complexity is required // so that |max_delta| == TimeDelta::Max() can be supported. bool DequeueNextTask(const TimeTicks& reference, const TimeDelta& max_delta, TestPendingTask* next_task); // RunLoop::Delegate: void Run(bool application_tasks_allowed) override; void Quit() override; void EnsureWorkScheduled() override; // Also used for non-dcheck logic (RunsTasksInCurrentSequence()) and as such // needs to be a ThreadCheckerImpl. ThreadCheckerImpl thread_checker_; Time now_; TimeTicks now_ticks_; // Temporally ordered heap of pending tasks. Must only be accessed while the // |tasks_lock_| is held. TaskPriorityQueue tasks_; // The ordinal to use for the next task. Must only be accessed while the // |tasks_lock_| is held. size_t next_task_ordinal_ = 0; mutable Lock tasks_lock_; ConditionVariable tasks_lock_cv_; const scoped_refptr proxy_task_runner_; std::unique_ptr thread_task_runner_handle_; // Set to true in RunLoop::Delegate::Quit() to signal the topmost // RunLoop::Delegate::Run() instance to stop, reset to false when it does. bool quit_run_loop_ = false; mutable MockClock mock_clock_; DISALLOW_COPY_AND_ASSIGN(TestMockTimeTaskRunner); }; } // namespace base #endif // BASE_TEST_TEST_MOCK_TIME_TASK_RUNNER_H_