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351 lines
13 KiB
C++
351 lines
13 KiB
C++
// Copyright (c) 2012 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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// SequencedTaskRunnerTest defines tests that implementations of
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// SequencedTaskRunner should pass in order to be conformant.
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// See task_runner_test_template.h for a description of how to use the
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// constructs in this file; these work the same.
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#ifndef BASE_TEST_SEQUENCED_TASK_RUNNER_TEST_TEMPLATE_H_
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#define BASE_TEST_SEQUENCED_TASK_RUNNER_TEST_TEMPLATE_H_
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#include <cstddef>
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#include <iosfwd>
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#include <vector>
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#include "base/bind.h"
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#include "base/callback.h"
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#include "base/macros.h"
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#include "base/memory/ref_counted.h"
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#include "base/sequenced_task_runner.h"
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#include "base/synchronization/condition_variable.h"
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#include "base/synchronization/lock.h"
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#include "base/time/time.h"
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#include "testing/gtest/include/gtest/gtest.h"
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namespace base {
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namespace internal {
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struct TaskEvent {
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enum Type { POST, START, END };
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TaskEvent(int i, Type type);
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int i;
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Type type;
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};
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// Utility class used in the tests below.
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class SequencedTaskTracker : public RefCountedThreadSafe<SequencedTaskTracker> {
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public:
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SequencedTaskTracker();
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// Posts the non-nestable task |task|, and records its post event.
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void PostWrappedNonNestableTask(SequencedTaskRunner* task_runner,
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const Closure& task);
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// Posts the nestable task |task|, and records its post event.
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void PostWrappedNestableTask(SequencedTaskRunner* task_runner,
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const Closure& task);
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// Posts the delayed non-nestable task |task|, and records its post event.
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void PostWrappedDelayedNonNestableTask(SequencedTaskRunner* task_runner,
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const Closure& task,
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TimeDelta delay);
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// Posts |task_count| non-nestable tasks.
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void PostNonNestableTasks(SequencedTaskRunner* task_runner, int task_count);
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const std::vector<TaskEvent>& GetTaskEvents() const;
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// Returns after the tracker observes a total of |count| task completions.
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void WaitForCompletedTasks(int count);
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private:
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friend class RefCountedThreadSafe<SequencedTaskTracker>;
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~SequencedTaskTracker();
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// A task which runs |task|, recording the start and end events.
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void RunTask(const Closure& task, int task_i);
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// Records a post event for task |i|. The owner is expected to be holding
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// |lock_| (unlike |TaskStarted| and |TaskEnded|).
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void TaskPosted(int i);
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// Records a start event for task |i|.
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void TaskStarted(int i);
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// Records a end event for task |i|.
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void TaskEnded(int i);
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// Protects events_, next_post_i_, task_end_count_ and task_end_cv_.
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Lock lock_;
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// The events as they occurred for each task (protected by lock_).
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std::vector<TaskEvent> events_;
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// The ordinal to be used for the next task-posting task (protected by
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// lock_).
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int next_post_i_;
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// The number of task end events we've received.
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int task_end_count_;
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ConditionVariable task_end_cv_;
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DISALLOW_COPY_AND_ASSIGN(SequencedTaskTracker);
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};
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void PrintTo(const TaskEvent& event, std::ostream* os);
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// Checks the non-nestable task invariants for all tasks in |events|.
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//
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// The invariants are:
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// 1) Events started and ended in the same order that they were posted.
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// 2) Events for an individual tasks occur in the order {POST, START, END},
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// and there is only one instance of each event type for a task.
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// 3) The only events between a task's START and END events are the POSTs of
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// other tasks. I.e. tasks were run sequentially, not interleaved.
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::testing::AssertionResult CheckNonNestableInvariants(
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const std::vector<TaskEvent>& events,
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int task_count);
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} // namespace internal
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template <typename TaskRunnerTestDelegate>
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class SequencedTaskRunnerTest : public testing::Test {
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protected:
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SequencedTaskRunnerTest()
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: task_tracker_(new internal::SequencedTaskTracker()) {}
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const scoped_refptr<internal::SequencedTaskTracker> task_tracker_;
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TaskRunnerTestDelegate delegate_;
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};
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TYPED_TEST_CASE_P(SequencedTaskRunnerTest);
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// This test posts N non-nestable tasks in sequence, and expects them to run
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// in FIFO order, with no part of any two tasks' execution
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// overlapping. I.e. that each task starts only after the previously-posted
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// one has finished.
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TYPED_TEST_P(SequencedTaskRunnerTest, SequentialNonNestable) {
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const int kTaskCount = 1000;
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this->delegate_.StartTaskRunner();
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const scoped_refptr<SequencedTaskRunner> task_runner =
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this->delegate_.GetTaskRunner();
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this->task_tracker_->PostWrappedNonNestableTask(
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task_runner.get(),
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Bind(&PlatformThread::Sleep, TimeDelta::FromSeconds(1)));
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for (int i = 1; i < kTaskCount; ++i) {
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this->task_tracker_->PostWrappedNonNestableTask(task_runner.get(),
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Closure());
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}
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this->delegate_.StopTaskRunner();
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EXPECT_TRUE(CheckNonNestableInvariants(this->task_tracker_->GetTaskEvents(),
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kTaskCount));
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}
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// This test posts N nestable tasks in sequence. It has the same expectations
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// as SequentialNonNestable because even though the tasks are nestable, they
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// will not be run nestedly in this case.
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TYPED_TEST_P(SequencedTaskRunnerTest, SequentialNestable) {
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const int kTaskCount = 1000;
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this->delegate_.StartTaskRunner();
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const scoped_refptr<SequencedTaskRunner> task_runner =
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this->delegate_.GetTaskRunner();
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this->task_tracker_->PostWrappedNestableTask(
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task_runner.get(),
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Bind(&PlatformThread::Sleep, TimeDelta::FromSeconds(1)));
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for (int i = 1; i < kTaskCount; ++i) {
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this->task_tracker_->PostWrappedNestableTask(task_runner.get(), Closure());
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}
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this->delegate_.StopTaskRunner();
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EXPECT_TRUE(CheckNonNestableInvariants(this->task_tracker_->GetTaskEvents(),
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kTaskCount));
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}
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// This test posts non-nestable tasks in order of increasing delay, and checks
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// that that the tasks are run in FIFO order and that there is no execution
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// overlap whatsoever between any two tasks.
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TYPED_TEST_P(SequencedTaskRunnerTest, SequentialDelayedNonNestable) {
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const int kTaskCount = 20;
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const int kDelayIncrementMs = 50;
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this->delegate_.StartTaskRunner();
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const scoped_refptr<SequencedTaskRunner> task_runner =
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this->delegate_.GetTaskRunner();
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for (int i = 0; i < kTaskCount; ++i) {
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this->task_tracker_->PostWrappedDelayedNonNestableTask(
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task_runner.get(), Closure(),
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TimeDelta::FromMilliseconds(kDelayIncrementMs * i));
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}
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this->task_tracker_->WaitForCompletedTasks(kTaskCount);
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this->delegate_.StopTaskRunner();
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EXPECT_TRUE(CheckNonNestableInvariants(this->task_tracker_->GetTaskEvents(),
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kTaskCount));
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}
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// This test posts a fast, non-nestable task from within each of a number of
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// slow, non-nestable tasks and checks that they all run in the sequence they
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// were posted in and that there is no execution overlap whatsoever.
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TYPED_TEST_P(SequencedTaskRunnerTest, NonNestablePostFromNonNestableTask) {
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const int kParentCount = 10;
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const int kChildrenPerParent = 10;
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this->delegate_.StartTaskRunner();
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const scoped_refptr<SequencedTaskRunner> task_runner =
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this->delegate_.GetTaskRunner();
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for (int i = 0; i < kParentCount; ++i) {
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Closure task = Bind(
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&internal::SequencedTaskTracker::PostNonNestableTasks,
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this->task_tracker_,
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RetainedRef(task_runner),
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kChildrenPerParent);
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this->task_tracker_->PostWrappedNonNestableTask(task_runner.get(), task);
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}
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this->delegate_.StopTaskRunner();
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EXPECT_TRUE(CheckNonNestableInvariants(
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this->task_tracker_->GetTaskEvents(),
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kParentCount * (kChildrenPerParent + 1)));
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}
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// This test posts two tasks with the same delay, and checks that the tasks are
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// run in the order in which they were posted.
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//
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// NOTE: This is actually an approximate test since the API only takes a
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// "delay" parameter, so we are not exactly simulating two tasks that get
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// posted at the exact same time. It would be nice if the API allowed us to
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// specify the desired run time.
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TYPED_TEST_P(SequencedTaskRunnerTest, DelayedTasksSameDelay) {
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const int kTaskCount = 2;
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const TimeDelta kDelay = TimeDelta::FromMilliseconds(100);
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this->delegate_.StartTaskRunner();
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const scoped_refptr<SequencedTaskRunner> task_runner =
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this->delegate_.GetTaskRunner();
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this->task_tracker_->PostWrappedDelayedNonNestableTask(task_runner.get(),
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Closure(), kDelay);
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this->task_tracker_->PostWrappedDelayedNonNestableTask(task_runner.get(),
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Closure(), kDelay);
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this->task_tracker_->WaitForCompletedTasks(kTaskCount);
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this->delegate_.StopTaskRunner();
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EXPECT_TRUE(CheckNonNestableInvariants(this->task_tracker_->GetTaskEvents(),
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kTaskCount));
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}
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// This test posts a normal task and a delayed task, and checks that the
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// delayed task runs after the normal task even if the normal task takes
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// a long time to run.
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TYPED_TEST_P(SequencedTaskRunnerTest, DelayedTaskAfterLongTask) {
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const int kTaskCount = 2;
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this->delegate_.StartTaskRunner();
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const scoped_refptr<SequencedTaskRunner> task_runner =
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this->delegate_.GetTaskRunner();
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this->task_tracker_->PostWrappedNonNestableTask(
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task_runner.get(),
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base::Bind(&PlatformThread::Sleep, TimeDelta::FromMilliseconds(50)));
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this->task_tracker_->PostWrappedDelayedNonNestableTask(
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task_runner.get(), Closure(), TimeDelta::FromMilliseconds(10));
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this->task_tracker_->WaitForCompletedTasks(kTaskCount);
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this->delegate_.StopTaskRunner();
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EXPECT_TRUE(CheckNonNestableInvariants(this->task_tracker_->GetTaskEvents(),
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kTaskCount));
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}
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// Test that a pile of normal tasks and a delayed task run in the
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// time-to-run order.
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TYPED_TEST_P(SequencedTaskRunnerTest, DelayedTaskAfterManyLongTasks) {
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const int kTaskCount = 11;
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this->delegate_.StartTaskRunner();
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const scoped_refptr<SequencedTaskRunner> task_runner =
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this->delegate_.GetTaskRunner();
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for (int i = 0; i < kTaskCount - 1; i++) {
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this->task_tracker_->PostWrappedNonNestableTask(
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task_runner.get(),
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base::Bind(&PlatformThread::Sleep, TimeDelta::FromMilliseconds(50)));
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}
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this->task_tracker_->PostWrappedDelayedNonNestableTask(
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task_runner.get(), Closure(), TimeDelta::FromMilliseconds(10));
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this->task_tracker_->WaitForCompletedTasks(kTaskCount);
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this->delegate_.StopTaskRunner();
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EXPECT_TRUE(CheckNonNestableInvariants(this->task_tracker_->GetTaskEvents(),
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kTaskCount));
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}
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// TODO(francoisk777@gmail.com) Add a test, similiar to the above, which runs
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// some tasked nestedly (which should be implemented in the test
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// delegate). Also add, to the the test delegate, a predicate which checks
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// whether the implementation supports nested tasks.
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//
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// The SequencedTaskRunnerTest test case verifies behaviour that is expected
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// from a sequenced task runner in order to be conformant.
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REGISTER_TYPED_TEST_CASE_P(SequencedTaskRunnerTest,
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SequentialNonNestable,
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SequentialNestable,
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SequentialDelayedNonNestable,
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NonNestablePostFromNonNestableTask,
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DelayedTasksSameDelay,
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DelayedTaskAfterLongTask,
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DelayedTaskAfterManyLongTasks);
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template <typename TaskRunnerTestDelegate>
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class SequencedTaskRunnerDelayedTest
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: public SequencedTaskRunnerTest<TaskRunnerTestDelegate> {};
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TYPED_TEST_CASE_P(SequencedTaskRunnerDelayedTest);
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// This test posts a delayed task, and checks that the task is run later than
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// the specified time.
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TYPED_TEST_P(SequencedTaskRunnerDelayedTest, DelayedTaskBasic) {
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const int kTaskCount = 1;
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const TimeDelta kDelay = TimeDelta::FromMilliseconds(100);
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this->delegate_.StartTaskRunner();
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const scoped_refptr<SequencedTaskRunner> task_runner =
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this->delegate_.GetTaskRunner();
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Time time_before_run = Time::Now();
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this->task_tracker_->PostWrappedDelayedNonNestableTask(task_runner.get(),
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Closure(), kDelay);
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this->task_tracker_->WaitForCompletedTasks(kTaskCount);
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this->delegate_.StopTaskRunner();
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Time time_after_run = Time::Now();
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EXPECT_TRUE(CheckNonNestableInvariants(this->task_tracker_->GetTaskEvents(),
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kTaskCount));
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EXPECT_LE(kDelay, time_after_run - time_before_run);
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}
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// SequencedTaskRunnerDelayedTest tests that the |delay| parameter of
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// is used to actually wait for |delay| ms before executing the task.
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// This is not mandatory for a SequencedTaskRunner to be compliant.
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REGISTER_TYPED_TEST_CASE_P(SequencedTaskRunnerDelayedTest, DelayedTaskBasic);
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} // namespace base
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#endif // BASE_TEST_SEQUENCED_TASK_RUNNER_TEST_TEMPLATE_H_
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