naiveproxy/base/test/test_mock_time_task_runner.cc

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2018-12-10 05:59:24 +03:00
// 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.
#include "base/test/test_mock_time_task_runner.h"
#include <utility>
#include "base/containers/circular_deque.h"
#include "base/logging.h"
#include "base/macros.h"
#include "base/memory/ptr_util.h"
#include "base/memory/ref_counted.h"
#include "base/threading/thread_task_runner_handle.h"
namespace base {
namespace {
// LegacyMockTickClock and LegacyMockClock are used by deprecated APIs of
// TestMockTimeTaskRunner. They will be removed after updating callers of
// GetMockClock() and GetMockTickClock() to GetMockClockPtr() and
// GetMockTickClockPtr().
class LegacyMockTickClock : public TickClock {
public:
explicit LegacyMockTickClock(
scoped_refptr<const TestMockTimeTaskRunner> task_runner)
: task_runner_(std::move(task_runner)) {}
// TickClock:
TimeTicks NowTicks() const override { return task_runner_->NowTicks(); }
private:
scoped_refptr<const TestMockTimeTaskRunner> task_runner_;
DISALLOW_COPY_AND_ASSIGN(LegacyMockTickClock);
};
class LegacyMockClock : public Clock {
public:
explicit LegacyMockClock(
scoped_refptr<const TestMockTimeTaskRunner> task_runner)
: task_runner_(std::move(task_runner)) {}
// Clock:
Time Now() const override { return task_runner_->Now(); }
private:
scoped_refptr<const TestMockTimeTaskRunner> task_runner_;
DISALLOW_COPY_AND_ASSIGN(LegacyMockClock);
};
} // namespace
// A SingleThreadTaskRunner which forwards everything to its |target_|. This
// serves two purposes:
// 1) If a ThreadTaskRunnerHandle owned by TestMockTimeTaskRunner were to be
// set to point to that TestMockTimeTaskRunner, a reference cycle would
// result. As |target_| here is a non-refcounting raw pointer, the cycle is
// broken.
// 2) Since SingleThreadTaskRunner is ref-counted, it's quite easy for it to
// accidentally get captured between tests in a singleton somewhere.
// Indirecting via NonOwningProxyTaskRunner permits TestMockTimeTaskRunner
// to be cleaned up (removing the RunLoop::Delegate in the kBoundToThread
// mode), and to also cleanly flag any actual attempts to use the leaked
// task runner.
class TestMockTimeTaskRunner::NonOwningProxyTaskRunner
: public SingleThreadTaskRunner {
public:
explicit NonOwningProxyTaskRunner(SingleThreadTaskRunner* target)
: target_(target) {
DCHECK(target_);
}
// Detaches this NonOwningProxyTaskRunner instance from its |target_|. It is
// invalid to post tasks after this point but RunsTasksInCurrentSequence()
// will still pass on the original thread for convenience with legacy code.
void Detach() {
AutoLock scoped_lock(lock_);
target_ = nullptr;
}
// SingleThreadTaskRunner:
bool RunsTasksInCurrentSequence() const override {
AutoLock scoped_lock(lock_);
if (target_)
return target_->RunsTasksInCurrentSequence();
return thread_checker_.CalledOnValidThread();
}
bool PostDelayedTask(const Location& from_here,
OnceClosure task,
TimeDelta delay) override {
AutoLock scoped_lock(lock_);
if (target_)
return target_->PostDelayedTask(from_here, std::move(task), delay);
// The associated TestMockTimeTaskRunner is dead, so fail this PostTask.
return false;
}
bool PostNonNestableDelayedTask(const Location& from_here,
OnceClosure task,
TimeDelta delay) override {
AutoLock scoped_lock(lock_);
if (target_) {
return target_->PostNonNestableDelayedTask(from_here, std::move(task),
delay);
}
// The associated TestMockTimeTaskRunner is dead, so fail this PostTask.
return false;
}
private:
friend class RefCountedThreadSafe<NonOwningProxyTaskRunner>;
~NonOwningProxyTaskRunner() override = default;
mutable Lock lock_;
SingleThreadTaskRunner* target_; // guarded by lock_
// Used to implement RunsTasksInCurrentSequence, without relying on |target_|.
ThreadCheckerImpl thread_checker_;
DISALLOW_COPY_AND_ASSIGN(NonOwningProxyTaskRunner);
};
// TestMockTimeTaskRunner::TestOrderedPendingTask -----------------------------
// Subclass of TestPendingTask which has a strictly monotonically increasing ID
// for every task, so that tasks posted with the same 'time to run' can be run
// in the order of being posted.
struct TestMockTimeTaskRunner::TestOrderedPendingTask
: public base::TestPendingTask {
TestOrderedPendingTask();
TestOrderedPendingTask(const Location& location,
OnceClosure task,
TimeTicks post_time,
TimeDelta delay,
size_t ordinal,
TestNestability nestability);
TestOrderedPendingTask(TestOrderedPendingTask&&);
~TestOrderedPendingTask();
TestOrderedPendingTask& operator=(TestOrderedPendingTask&&);
size_t ordinal;
private:
DISALLOW_COPY_AND_ASSIGN(TestOrderedPendingTask);
};
TestMockTimeTaskRunner::TestOrderedPendingTask::TestOrderedPendingTask()
: ordinal(0) {
}
TestMockTimeTaskRunner::TestOrderedPendingTask::TestOrderedPendingTask(
TestOrderedPendingTask&&) = default;
TestMockTimeTaskRunner::TestOrderedPendingTask::TestOrderedPendingTask(
const Location& location,
OnceClosure task,
TimeTicks post_time,
TimeDelta delay,
size_t ordinal,
TestNestability nestability)
: base::TestPendingTask(location,
std::move(task),
post_time,
delay,
nestability),
ordinal(ordinal) {}
TestMockTimeTaskRunner::TestOrderedPendingTask::~TestOrderedPendingTask() =
default;
TestMockTimeTaskRunner::TestOrderedPendingTask&
TestMockTimeTaskRunner::TestOrderedPendingTask::operator=(
TestOrderedPendingTask&&) = default;
// TestMockTimeTaskRunner -----------------------------------------------------
// TODO(gab): This should also set the SequenceToken for the current thread.
// Ref. TestMockTimeTaskRunner::RunsTasksInCurrentSequence().
TestMockTimeTaskRunner::ScopedContext::ScopedContext(
scoped_refptr<TestMockTimeTaskRunner> scope)
: on_destroy_(ThreadTaskRunnerHandle::OverrideForTesting(scope)) {
scope->RunUntilIdle();
}
TestMockTimeTaskRunner::ScopedContext::~ScopedContext() = default;
bool TestMockTimeTaskRunner::TemporalOrder::operator()(
const TestOrderedPendingTask& first_task,
const TestOrderedPendingTask& second_task) const {
if (first_task.GetTimeToRun() == second_task.GetTimeToRun())
return first_task.ordinal > second_task.ordinal;
return first_task.GetTimeToRun() > second_task.GetTimeToRun();
}
TestMockTimeTaskRunner::TestMockTimeTaskRunner(Type type)
: TestMockTimeTaskRunner(Time::UnixEpoch(), TimeTicks(), type) {}
TestMockTimeTaskRunner::TestMockTimeTaskRunner(Time start_time,
TimeTicks start_ticks,
Type type)
: now_(start_time),
now_ticks_(start_ticks),
tasks_lock_cv_(&tasks_lock_),
proxy_task_runner_(MakeRefCounted<NonOwningProxyTaskRunner>(this)),
mock_clock_(this) {
if (type == Type::kBoundToThread) {
RunLoop::RegisterDelegateForCurrentThread(this);
thread_task_runner_handle_ =
std::make_unique<ThreadTaskRunnerHandle>(proxy_task_runner_);
}
}
TestMockTimeTaskRunner::~TestMockTimeTaskRunner() {
proxy_task_runner_->Detach();
}
void TestMockTimeTaskRunner::FastForwardBy(TimeDelta delta) {
DCHECK(thread_checker_.CalledOnValidThread());
DCHECK_GE(delta, TimeDelta());
const TimeTicks original_now_ticks = NowTicks();
ProcessAllTasksNoLaterThan(delta);
ForwardClocksUntilTickTime(original_now_ticks + delta);
}
void TestMockTimeTaskRunner::AdvanceMockTickClock(TimeDelta delta) {
ForwardClocksUntilTickTime(NowTicks() + delta);
}
void TestMockTimeTaskRunner::RunUntilIdle() {
DCHECK(thread_checker_.CalledOnValidThread());
ProcessAllTasksNoLaterThan(TimeDelta());
}
void TestMockTimeTaskRunner::FastForwardUntilNoTasksRemain() {
DCHECK(thread_checker_.CalledOnValidThread());
ProcessAllTasksNoLaterThan(TimeDelta::Max());
}
void TestMockTimeTaskRunner::ClearPendingTasks() {
AutoLock scoped_lock(tasks_lock_);
// This is repeated in case task destruction triggers further tasks.
while (!tasks_.empty()) {
TaskPriorityQueue cleanup_tasks;
tasks_.swap(cleanup_tasks);
// Destroy task objects with |tasks_lock_| released. Task deletion can cause
// calls to NonOwningProxyTaskRunner::RunsTasksInCurrentSequence()
// (e.g. for DCHECKs), which causes |NonOwningProxyTaskRunner::lock_| to be
// grabbed.
//
// On the other hand, calls from NonOwningProxyTaskRunner::PostTask ->
// TestMockTimeTaskRunner::PostTask acquire locks as
// |NonOwningProxyTaskRunner::lock_| followed by |tasks_lock_|, so it's
// desirable to avoid the reverse order, for deadlock freedom.
AutoUnlock scoped_unlock(tasks_lock_);
while (!cleanup_tasks.empty())
cleanup_tasks.pop();
}
}
Time TestMockTimeTaskRunner::Now() const {
AutoLock scoped_lock(tasks_lock_);
return now_;
}
TimeTicks TestMockTimeTaskRunner::NowTicks() const {
AutoLock scoped_lock(tasks_lock_);
return now_ticks_;
}
std::unique_ptr<Clock> TestMockTimeTaskRunner::DeprecatedGetMockClock() const {
DCHECK(thread_checker_.CalledOnValidThread());
return std::make_unique<LegacyMockClock>(this);
}
Clock* TestMockTimeTaskRunner::GetMockClock() const {
DCHECK(thread_checker_.CalledOnValidThread());
return &mock_clock_;
}
std::unique_ptr<TickClock> TestMockTimeTaskRunner::DeprecatedGetMockTickClock()
const {
DCHECK(thread_checker_.CalledOnValidThread());
return std::make_unique<LegacyMockTickClock>(this);
}
const TickClock* TestMockTimeTaskRunner::GetMockTickClock() const {
DCHECK(thread_checker_.CalledOnValidThread());
return &mock_clock_;
}
base::circular_deque<TestPendingTask>
TestMockTimeTaskRunner::TakePendingTasks() {
AutoLock scoped_lock(tasks_lock_);
base::circular_deque<TestPendingTask> tasks;
while (!tasks_.empty()) {
// It's safe to remove const and consume |task| here, since |task| is not
// used for ordering the item.
if (!tasks_.top().task.IsCancelled()) {
tasks.push_back(
std::move(const_cast<TestOrderedPendingTask&>(tasks_.top())));
}
tasks_.pop();
}
return tasks;
}
bool TestMockTimeTaskRunner::HasPendingTask() {
DCHECK(thread_checker_.CalledOnValidThread());
AutoLock scoped_lock(tasks_lock_);
while (!tasks_.empty() && tasks_.top().task.IsCancelled())
tasks_.pop();
return !tasks_.empty();
}
size_t TestMockTimeTaskRunner::GetPendingTaskCount() {
DCHECK(thread_checker_.CalledOnValidThread());
AutoLock scoped_lock(tasks_lock_);
TaskPriorityQueue preserved_tasks;
while (!tasks_.empty()) {
if (!tasks_.top().task.IsCancelled()) {
preserved_tasks.push(
std::move(const_cast<TestOrderedPendingTask&>(tasks_.top())));
}
tasks_.pop();
}
tasks_.swap(preserved_tasks);
return tasks_.size();
}
TimeDelta TestMockTimeTaskRunner::NextPendingTaskDelay() {
DCHECK(thread_checker_.CalledOnValidThread());
AutoLock scoped_lock(tasks_lock_);
while (!tasks_.empty() && tasks_.top().task.IsCancelled())
tasks_.pop();
return tasks_.empty() ? TimeDelta::Max()
: tasks_.top().GetTimeToRun() - now_ticks_;
}
// TODO(gab): Combine |thread_checker_| with a SequenceToken to differentiate
// between tasks running in the scope of this TestMockTimeTaskRunner and other
// task runners sharing this thread. http://crbug.com/631186
bool TestMockTimeTaskRunner::RunsTasksInCurrentSequence() const {
return thread_checker_.CalledOnValidThread();
}
bool TestMockTimeTaskRunner::PostDelayedTask(const Location& from_here,
OnceClosure task,
TimeDelta delay) {
AutoLock scoped_lock(tasks_lock_);
tasks_.push(TestOrderedPendingTask(from_here, std::move(task), now_ticks_,
delay, next_task_ordinal_++,
TestPendingTask::NESTABLE));
tasks_lock_cv_.Signal();
return true;
}
bool TestMockTimeTaskRunner::PostNonNestableDelayedTask(
const Location& from_here,
OnceClosure task,
TimeDelta delay) {
return PostDelayedTask(from_here, std::move(task), delay);
}
void TestMockTimeTaskRunner::OnBeforeSelectingTask() {
// Empty default implementation.
}
void TestMockTimeTaskRunner::OnAfterTimePassed() {
// Empty default implementation.
}
void TestMockTimeTaskRunner::OnAfterTaskRun() {
// Empty default implementation.
}
void TestMockTimeTaskRunner::ProcessAllTasksNoLaterThan(TimeDelta max_delta) {
DCHECK(thread_checker_.CalledOnValidThread());
DCHECK_GE(max_delta, TimeDelta());
// Multiple test task runners can share the same thread for determinism in
// unit tests. Make sure this TestMockTimeTaskRunner's tasks run in its scope.
ScopedClosureRunner undo_override;
if (!ThreadTaskRunnerHandle::IsSet() ||
ThreadTaskRunnerHandle::Get() != proxy_task_runner_.get()) {
undo_override =
ThreadTaskRunnerHandle::OverrideForTesting(proxy_task_runner_.get());
}
const TimeTicks original_now_ticks = NowTicks();
while (!quit_run_loop_) {
OnBeforeSelectingTask();
TestPendingTask task_info;
if (!DequeueNextTask(original_now_ticks, max_delta, &task_info))
break;
if (task_info.task.IsCancelled())
continue;
// If tasks were posted with a negative delay, task_info.GetTimeToRun() will
// be less than |now_ticks_|. ForwardClocksUntilTickTime() takes care of not
// moving the clock backwards in this case.
ForwardClocksUntilTickTime(task_info.GetTimeToRun());
std::move(task_info.task).Run();
OnAfterTaskRun();
}
}
void TestMockTimeTaskRunner::ForwardClocksUntilTickTime(TimeTicks later_ticks) {
DCHECK(thread_checker_.CalledOnValidThread());
{
AutoLock scoped_lock(tasks_lock_);
if (later_ticks <= now_ticks_)
return;
now_ += later_ticks - now_ticks_;
now_ticks_ = later_ticks;
}
OnAfterTimePassed();
}
bool TestMockTimeTaskRunner::DequeueNextTask(const TimeTicks& reference,
const TimeDelta& max_delta,
TestPendingTask* next_task) {
DCHECK(thread_checker_.CalledOnValidThread());
AutoLock scoped_lock(tasks_lock_);
if (!tasks_.empty() &&
(tasks_.top().GetTimeToRun() - reference) <= max_delta) {
// It's safe to remove const and consume |task| here, since |task| is not
// used for ordering the item.
*next_task = std::move(const_cast<TestOrderedPendingTask&>(tasks_.top()));
tasks_.pop();
return true;
}
return false;
}
void TestMockTimeTaskRunner::Run(bool application_tasks_allowed) {
DCHECK(thread_checker_.CalledOnValidThread());
// Since TestMockTimeTaskRunner doesn't process system messages: there's no
// hope for anything but an application task to call Quit(). If this RunLoop
// can't process application tasks (i.e. disallowed by default in nested
// RunLoops) it's guaranteed to hang...
DCHECK(application_tasks_allowed)
<< "This is a nested RunLoop instance and needs to be of "
"Type::kNestableTasksAllowed.";
while (!quit_run_loop_) {
RunUntilIdle();
if (quit_run_loop_ || ShouldQuitWhenIdle())
break;
// Peek into |tasks_| to perform one of two things:
// A) If there are no remaining tasks, wait until one is posted and
// restart from the top.
// B) If there is a remaining delayed task. Fast-forward to reach the next
// round of tasks.
TimeDelta auto_fast_forward_by;
{
AutoLock scoped_lock(tasks_lock_);
if (tasks_.empty()) {
while (tasks_.empty())
tasks_lock_cv_.Wait();
continue;
}
auto_fast_forward_by = tasks_.top().GetTimeToRun() - now_ticks_;
}
FastForwardBy(auto_fast_forward_by);
}
quit_run_loop_ = false;
}
void TestMockTimeTaskRunner::Quit() {
DCHECK(thread_checker_.CalledOnValidThread());
quit_run_loop_ = true;
}
void TestMockTimeTaskRunner::EnsureWorkScheduled() {
// Nothing to do: TestMockTimeTaskRunner::Run() will always process tasks and
// doesn't need an extra kick on nested runs.
}
TimeTicks TestMockTimeTaskRunner::MockClock::NowTicks() const {
return task_runner_->NowTicks();
}
Time TestMockTimeTaskRunner::MockClock::Now() const {
return task_runner_->Now();
}
} // namespace base