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cobalt / cobalt / refs/tags/21.lts.6 / . / src / base / task / task_scheduler / scheduler_worker_unittest.cc
blob: 2bd951a0fa212e1080ad665bdbcd9efabca1d129 [file] [log] [blame]
// Copyright 2016 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/task/task_scheduler/scheduler_worker.h"
#include <memory>
#include <vector>
#include "base/bind.h"
#include "base/bind_helpers.h"
#include "base/macros.h"
#include "base/memory/ptr_util.h"
#include "base/memory/ref_counted.h"
#include "base/metrics/statistics_recorder.h"
#include "base/synchronization/condition_variable.h"
#include "base/synchronization/waitable_event.h"
#include "base/task/task_scheduler/environment_config.h"
#include "base/task/task_scheduler/scheduler_lock.h"
#include "base/task/task_scheduler/scheduler_worker_observer.h"
#include "base/task/task_scheduler/sequence.h"
#include "base/task/task_scheduler/task.h"
#include "base/task/task_scheduler/task_tracker.h"
#include "base/task/task_scheduler/test_utils.h"
#include "base/test/test_timeouts.h"
#include "base/threading/platform_thread.h"
#include "base/threading/simple_thread.h"
#include "base/time/time.h"
#include "build/build_config.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
#if defined(OS_WIN)
#include <objbase.h>
#include "base/win/com_init_check_hook.h"
#include "starboard/types.h"
#endif
using testing::_;
using testing::Mock;
using testing::Ne;
using testing::StrictMock;
namespace base {
namespace internal {
namespace {
const size_t kNumSequencesPerTest = 150;
class SchedulerWorkerDefaultDelegate : public SchedulerWorker::Delegate {
public:
SchedulerWorkerDefaultDelegate() = default;
// SchedulerWorker::Delegate:
void OnCanScheduleSequence(scoped_refptr<Sequence> sequence) override {
ADD_FAILURE() << "Unexpected call to OnCanScheduleSequence().";
}
SchedulerWorker::ThreadLabel GetThreadLabel() const override {
return SchedulerWorker::ThreadLabel::DEDICATED;
}
void OnMainEntry(const SchedulerWorker* worker) override {}
scoped_refptr<Sequence> GetWork(SchedulerWorker* worker) override {
return nullptr;
}
void DidRunTask() override {
ADD_FAILURE() << "Unexpected call to DidRunTask()";
}
void ReEnqueueSequence(scoped_refptr<Sequence> sequence) override {
ADD_FAILURE() << "Unexpected call to ReEnqueueSequence()";
}
TimeDelta GetSleepTimeout() override { return TimeDelta::Max(); }
private:
DISALLOW_COPY_AND_ASSIGN(SchedulerWorkerDefaultDelegate);
};
// The test parameter is the number of Tasks per Sequence returned by GetWork().
class TaskSchedulerWorkerTest : public testing::TestWithParam<size_t> {
protected:
TaskSchedulerWorkerTest()
: recorder_for_testing_(StatisticsRecorder::CreateTemporaryForTesting()),
num_get_work_cv_(lock_.CreateConditionVariable()) {}
void SetUp() override {
worker_ = MakeRefCounted<SchedulerWorker>(
ThreadPriority::NORMAL,
std::make_unique<TestSchedulerWorkerDelegate>(this),
task_tracker_.GetTrackedRef());
ASSERT_TRUE(worker_);
worker_->Start();
worker_set_.Signal();
main_entry_called_.Wait();
}
void TearDown() override {
// |worker_| needs to be released before ~TaskTracker() as it holds a
// TrackedRef to it.
worker_->JoinForTesting();
worker_ = nullptr;
}
size_t TasksPerSequence() const { return GetParam(); }
// Wait until GetWork() has been called |num_get_work| times.
void WaitForNumGetWork(size_t num_get_work) {
AutoSchedulerLock auto_lock(lock_);
while (num_get_work_ < num_get_work)
num_get_work_cv_->Wait();
}
void SetMaxGetWork(size_t max_get_work) {
AutoSchedulerLock auto_lock(lock_);
max_get_work_ = max_get_work;
}
void SetNumSequencesToCreate(size_t num_sequences_to_create) {
AutoSchedulerLock auto_lock(lock_);
EXPECT_EQ(0U, num_sequences_to_create_);
num_sequences_to_create_ = num_sequences_to_create;
}
size_t NumRunTasks() {
AutoSchedulerLock auto_lock(lock_);
return num_run_tasks_;
}
std::vector<scoped_refptr<Sequence>> CreatedSequences() {
AutoSchedulerLock auto_lock(lock_);
return created_sequences_;
}
std::vector<scoped_refptr<Sequence>> EnqueuedSequences() {
AutoSchedulerLock auto_lock(lock_);
return re_enqueued_sequences_;
}
scoped_refptr<SchedulerWorker> worker_;
private:
class TestSchedulerWorkerDelegate : public SchedulerWorkerDefaultDelegate {
public:
TestSchedulerWorkerDelegate(TaskSchedulerWorkerTest* outer)
: outer_(outer) {}
~TestSchedulerWorkerDelegate() override {
EXPECT_FALSE(IsCallToDidRunTaskExpected());
}
// SchedulerWorker::Delegate:
void OnMainEntry(const SchedulerWorker* worker) override {
outer_->worker_set_.Wait();
EXPECT_EQ(outer_->worker_.get(), worker);
EXPECT_FALSE(IsCallToDidRunTaskExpected());
// Without synchronization, OnMainEntry() could be called twice without
// generating an error.
AutoSchedulerLock auto_lock(outer_->lock_);
EXPECT_FALSE(outer_->main_entry_called_.IsSignaled());
outer_->main_entry_called_.Signal();
}
scoped_refptr<Sequence> GetWork(SchedulerWorker* worker) override {
EXPECT_FALSE(IsCallToDidRunTaskExpected());
EXPECT_EQ(outer_->worker_.get(), worker);
{
AutoSchedulerLock auto_lock(outer_->lock_);
// Increment the number of times that this method has been called.
++outer_->num_get_work_;
outer_->num_get_work_cv_->Signal();
// Verify that this method isn't called more times than expected.
EXPECT_LE(outer_->num_get_work_, outer_->max_get_work_);
// Check if a Sequence should be returned.
if (outer_->num_sequences_to_create_ == 0)
return nullptr;
--outer_->num_sequences_to_create_;
}
// Create a Sequence with TasksPerSequence() Tasks.
scoped_refptr<Sequence> sequence = MakeRefCounted<Sequence>(TaskTraits());
for (size_t i = 0; i < outer_->TasksPerSequence(); ++i) {
Task task(FROM_HERE,
BindOnce(&TaskSchedulerWorkerTest::RunTaskCallback,
Unretained(outer_)),
TimeDelta());
EXPECT_TRUE(outer_->task_tracker_.WillPostTask(
&task, sequence->traits().shutdown_behavior()));
sequence->PushTask(std::move(task));
}
ExpectCallToDidRunTask();
{
// Add the Sequence to the vector of created Sequences.
AutoSchedulerLock auto_lock(outer_->lock_);
outer_->created_sequences_.push_back(sequence);
}
sequence = outer_->task_tracker_.WillScheduleSequence(std::move(sequence),
nullptr);
EXPECT_TRUE(sequence);
return sequence;
}
void DidRunTask() override {
AutoSchedulerLock auto_lock(expect_did_run_task_lock_);
EXPECT_TRUE(expect_did_run_task_);
expect_did_run_task_ = false;
}
// This override verifies that |sequence| contains the expected number of
// Tasks and adds it to |enqueued_sequences_|. Unlike a normal
// EnqueueSequence implementation, it doesn't reinsert |sequence| into a
// queue for further execution.
void ReEnqueueSequence(scoped_refptr<Sequence> sequence) override {
EXPECT_FALSE(IsCallToDidRunTaskExpected());
EXPECT_GT(outer_->TasksPerSequence(), 1U);
// Verify that |sequence| contains TasksPerSequence() - 1 Tasks.
for (size_t i = 0; i < outer_->TasksPerSequence() - 1; ++i) {
EXPECT_TRUE(sequence->TakeTask());
EXPECT_EQ(i == outer_->TasksPerSequence() - 2, sequence->Pop());
}
// Add |sequence| to |re_enqueued_sequences_|.
AutoSchedulerLock auto_lock(outer_->lock_);
outer_->re_enqueued_sequences_.push_back(std::move(sequence));
EXPECT_LE(outer_->re_enqueued_sequences_.size(),
outer_->created_sequences_.size());
}
private:
// Expect a call to DidRunTask() before the next call to any other method of
// this delegate.
void ExpectCallToDidRunTask() {
AutoSchedulerLock auto_lock(expect_did_run_task_lock_);
expect_did_run_task_ = true;
}
bool IsCallToDidRunTaskExpected() const {
AutoSchedulerLock auto_lock(expect_did_run_task_lock_);
return expect_did_run_task_;
}
TaskSchedulerWorkerTest* outer_;
// Synchronizes access to |expect_did_run_task_|.
mutable SchedulerLock expect_did_run_task_lock_;
// Whether the next method called on this delegate should be DidRunTask().
bool expect_did_run_task_ = false;
DISALLOW_COPY_AND_ASSIGN(TestSchedulerWorkerDelegate);
};
void RunTaskCallback() {
AutoSchedulerLock auto_lock(lock_);
++num_run_tasks_;
EXPECT_LE(num_run_tasks_, created_sequences_.size());
}
std::unique_ptr<StatisticsRecorder> recorder_for_testing_;
TaskTracker task_tracker_ = {"Test"};
// Synchronizes access to all members below.
mutable SchedulerLock lock_;
// Signaled once OnMainEntry() has been called.
WaitableEvent main_entry_called_;
// Number of Sequences that should be created by GetWork(). When this
// is 0, GetWork() returns nullptr.
size_t num_sequences_to_create_ = 0;
// Number of times that GetWork() has been called.
size_t num_get_work_ = 0;
// Maximum number of times that GetWork() can be called.
size_t max_get_work_ = 0;
// Condition variable signaled when |num_get_work_| is incremented.
std::unique_ptr<ConditionVariable> num_get_work_cv_;
// Sequences created by GetWork().
std::vector<scoped_refptr<Sequence>> created_sequences_;
// Sequences passed to EnqueueSequence().
std::vector<scoped_refptr<Sequence>> re_enqueued_sequences_;
// Number of times that RunTaskCallback() has been called.
size_t num_run_tasks_ = 0;
// Signaled after |worker_| is set.
WaitableEvent worker_set_;
DISALLOW_COPY_AND_ASSIGN(TaskSchedulerWorkerTest);
};
} // namespace
// Verify that when GetWork() continuously returns Sequences, all Tasks in these
// Sequences run successfully. The test wakes up the SchedulerWorker once.
TEST_P(TaskSchedulerWorkerTest, ContinuousWork) {
// Set GetWork() to return |kNumSequencesPerTest| Sequences before starting to
// return nullptr.
SetNumSequencesToCreate(kNumSequencesPerTest);
// Expect |kNumSequencesPerTest| calls to GetWork() in which it returns a
// Sequence and one call in which its returns nullptr.
const size_t kExpectedNumGetWork = kNumSequencesPerTest + 1;
SetMaxGetWork(kExpectedNumGetWork);
// Wake up |worker_| and wait until GetWork() has been invoked the
// expected amount of times.
worker_->WakeUp();
WaitForNumGetWork(kExpectedNumGetWork);
// All tasks should have run.
EXPECT_EQ(kNumSequencesPerTest, NumRunTasks());
// If Sequences returned by GetWork() contain more than one Task, they aren't
// empty after the worker pops Tasks from them and thus should be returned to
// EnqueueSequence().
if (TasksPerSequence() > 1)
EXPECT_EQ(CreatedSequences(), EnqueuedSequences());
else
EXPECT_TRUE(EnqueuedSequences().empty());
}
// Verify that when GetWork() alternates between returning a Sequence and
// returning nullptr, all Tasks in the returned Sequences run successfully. The
// test wakes up the SchedulerWorker once for each Sequence.
TEST_P(TaskSchedulerWorkerTest, IntermittentWork) {
for (size_t i = 0; i < kNumSequencesPerTest; ++i) {
// Set GetWork() to return 1 Sequence before starting to return
// nullptr.
SetNumSequencesToCreate(1);
// Expect |i + 1| calls to GetWork() in which it returns a Sequence and
// |i + 1| calls in which it returns nullptr.
const size_t expected_num_get_work = 2 * (i + 1);
SetMaxGetWork(expected_num_get_work);
// Wake up |worker_| and wait until GetWork() has been invoked
// the expected amount of times.
worker_->WakeUp();
WaitForNumGetWork(expected_num_get_work);
// The Task should have run
EXPECT_EQ(i + 1, NumRunTasks());
// If Sequences returned by GetWork() contain more than one Task, they
// aren't empty after the worker pops Tasks from them and thus should be
// returned to EnqueueSequence().
if (TasksPerSequence() > 1)
EXPECT_EQ(CreatedSequences(), EnqueuedSequences());
else
EXPECT_TRUE(EnqueuedSequences().empty());
}
}
INSTANTIATE_TEST_CASE_P(OneTaskPerSequence,
TaskSchedulerWorkerTest,
::testing::Values(1));
INSTANTIATE_TEST_CASE_P(TwoTasksPerSequence,
TaskSchedulerWorkerTest,
::testing::Values(2));
namespace {
class ControllableCleanupDelegate : public SchedulerWorkerDefaultDelegate {
public:
class Controls : public RefCountedThreadSafe<Controls> {
public:
Controls() = default;
void HaveWorkBlock() { work_running_.Reset(); }
void UnblockWork() { work_running_.Signal(); }
void WaitForWorkToRun() { work_processed_.Wait(); }
void WaitForCleanupRequest() { cleanup_requested_.Wait(); }
void WaitForDelegateDestroy() { destroyed_.Wait(); }
void WaitForMainExit() { exited_.Wait(); }
void set_expect_get_work(bool expect_get_work) {
expect_get_work_ = expect_get_work;
}
void ResetState() {
work_running_.Signal();
work_processed_.Reset();
cleanup_requested_.Reset();
exited_.Reset();
work_requested_ = false;
}
void set_can_cleanup(bool can_cleanup) { can_cleanup_ = can_cleanup; }
private:
friend class ControllableCleanupDelegate;
friend class RefCountedThreadSafe<Controls>;
~Controls() = default;
WaitableEvent work_running_{WaitableEvent::ResetPolicy::MANUAL,
WaitableEvent::InitialState::SIGNALED};
WaitableEvent work_processed_;
WaitableEvent cleanup_requested_;
WaitableEvent destroyed_;
WaitableEvent exited_;
bool expect_get_work_ = true;
bool can_cleanup_ = false;
bool work_requested_ = false;
DISALLOW_COPY_AND_ASSIGN(Controls);
};
ControllableCleanupDelegate(TaskTracker* task_tracker)
: task_tracker_(task_tracker), controls_(new Controls()) {}
~ControllableCleanupDelegate() override { controls_->destroyed_.Signal(); }
scoped_refptr<Sequence> GetWork(SchedulerWorker* worker) override {
EXPECT_TRUE(controls_->expect_get_work_);
// Sends one item of work to signal |work_processed_|. On subsequent calls,
// sends nullptr to indicate there's no more work to be done.
if (controls_->work_requested_) {
if (CanCleanup(worker)) {
OnCleanup();
worker->Cleanup();
controls_->set_expect_get_work(false);
}
return nullptr;
}
controls_->work_requested_ = true;
scoped_refptr<Sequence> sequence = MakeRefCounted<Sequence>(TaskTraits(
WithBaseSyncPrimitives(), TaskShutdownBehavior::CONTINUE_ON_SHUTDOWN));
Task task(
FROM_HERE,
BindOnce(
[](WaitableEvent* work_processed, WaitableEvent* work_running) {
work_processed->Signal();
work_running->Wait();
},
Unretained(&controls_->work_processed_),
Unretained(&controls_->work_running_)),
TimeDelta());
EXPECT_TRUE(task_tracker_->WillPostTask(
&task, sequence->traits().shutdown_behavior()));
sequence->PushTask(std::move(task));
sequence =
task_tracker_->WillScheduleSequence(std::move(sequence), nullptr);
EXPECT_TRUE(sequence);
return sequence;
}
void DidRunTask() override {}
void OnMainExit(SchedulerWorker* worker) override {
controls_->exited_.Signal();
}
bool CanCleanup(SchedulerWorker* worker) {
// Saving |can_cleanup_| now so that callers waiting on |cleanup_requested_|
// have the thread go to sleep and then allow timing out.
bool can_cleanup = controls_->can_cleanup_;
controls_->cleanup_requested_.Signal();
return can_cleanup;
}
void OnCleanup() {
EXPECT_TRUE(controls_->can_cleanup_);
EXPECT_TRUE(controls_->cleanup_requested_.IsSignaled());
}
// ControllableCleanupDelegate:
scoped_refptr<Controls> controls() { return controls_; }
private:
scoped_refptr<Sequence> work_sequence_;
TaskTracker* const task_tracker_;
scoped_refptr<Controls> controls_;
DISALLOW_COPY_AND_ASSIGN(ControllableCleanupDelegate);
};
class MockedControllableCleanupDelegate : public ControllableCleanupDelegate {
public:
MockedControllableCleanupDelegate(TaskTracker* task_tracker)
: ControllableCleanupDelegate(task_tracker){};
~MockedControllableCleanupDelegate() override = default;
// SchedulerWorker::Delegate:
MOCK_METHOD1(OnMainEntry, void(const SchedulerWorker* worker));
private:
DISALLOW_COPY_AND_ASSIGN(MockedControllableCleanupDelegate);
};
} // namespace
// Verify that calling SchedulerWorker::Cleanup() from GetWork() causes
// the SchedulerWorker's thread to exit.
TEST(TaskSchedulerWorkerTest, WorkerCleanupFromGetWork) {
std::unique_ptr<StatisticsRecorder> recorder_for_testing =
StatisticsRecorder::CreateTemporaryForTesting();
TaskTracker task_tracker("Test");
// Will be owned by SchedulerWorker.
MockedControllableCleanupDelegate* delegate =
new StrictMock<MockedControllableCleanupDelegate>(&task_tracker);
scoped_refptr<ControllableCleanupDelegate::Controls> controls =
delegate->controls();
controls->set_can_cleanup(true);
EXPECT_CALL(*delegate, OnMainEntry(_));
auto worker = MakeRefCounted<SchedulerWorker>(ThreadPriority::NORMAL,
WrapUnique(delegate),
task_tracker.GetTrackedRef());
worker->Start();
worker->WakeUp();
controls->WaitForWorkToRun();
Mock::VerifyAndClear(delegate);
controls->WaitForMainExit();
}
TEST(TaskSchedulerWorkerTest, WorkerCleanupDuringWork) {
std::unique_ptr<StatisticsRecorder> recorder_for_testing =
StatisticsRecorder::CreateTemporaryForTesting();
TaskTracker task_tracker("Test");
// Will be owned by SchedulerWorker.
// No mock here as that's reasonably covered by other tests and the delegate
// may destroy on a different thread. Mocks aren't designed with that in mind.
std::unique_ptr<ControllableCleanupDelegate> delegate =
std::make_unique<ControllableCleanupDelegate>(&task_tracker);
scoped_refptr<ControllableCleanupDelegate::Controls> controls =
delegate->controls();
controls->HaveWorkBlock();
auto worker = MakeRefCounted<SchedulerWorker>(ThreadPriority::NORMAL,
std::move(delegate),
task_tracker.GetTrackedRef());
worker->Start();
worker->WakeUp();
controls->WaitForWorkToRun();
worker->Cleanup();
worker = nullptr;
controls->UnblockWork();
controls->WaitForDelegateDestroy();
}
TEST(TaskSchedulerWorkerTest, WorkerCleanupDuringWait) {
std::unique_ptr<StatisticsRecorder> recorder_for_testing =
StatisticsRecorder::CreateTemporaryForTesting();
TaskTracker task_tracker("Test");
// Will be owned by SchedulerWorker.
// No mock here as that's reasonably covered by other tests and the delegate
// may destroy on a different thread. Mocks aren't designed with that in mind.
std::unique_ptr<ControllableCleanupDelegate> delegate =
std::make_unique<ControllableCleanupDelegate>(&task_tracker);
scoped_refptr<ControllableCleanupDelegate::Controls> controls =
delegate->controls();
auto worker = MakeRefCounted<SchedulerWorker>(ThreadPriority::NORMAL,
std::move(delegate),
task_tracker.GetTrackedRef());
worker->Start();
worker->WakeUp();
controls->WaitForCleanupRequest();
worker->Cleanup();
worker = nullptr;
controls->WaitForDelegateDestroy();
}
TEST(TaskSchedulerWorkerTest, WorkerCleanupDuringShutdown) {
std::unique_ptr<StatisticsRecorder> recorder_for_testing =
StatisticsRecorder::CreateTemporaryForTesting();
TaskTracker task_tracker("Test");
// Will be owned by SchedulerWorker.
// No mock here as that's reasonably covered by other tests and the delegate
// may destroy on a different thread. Mocks aren't designed with that in mind.
std::unique_ptr<ControllableCleanupDelegate> delegate =
std::make_unique<ControllableCleanupDelegate>(&task_tracker);
scoped_refptr<ControllableCleanupDelegate::Controls> controls =
delegate->controls();
controls->HaveWorkBlock();
auto worker = MakeRefCounted<SchedulerWorker>(ThreadPriority::NORMAL,
std::move(delegate),
task_tracker.GetTrackedRef());
worker->Start();
worker->WakeUp();
controls->WaitForWorkToRun();
task_tracker.Shutdown();
worker->Cleanup();
worker = nullptr;
controls->UnblockWork();
controls->WaitForDelegateDestroy();
}
// Verify that Start() is a no-op after Cleanup().
TEST(TaskSchedulerWorkerTest, CleanupBeforeStart) {
std::unique_ptr<StatisticsRecorder> recorder_for_testing =
StatisticsRecorder::CreateTemporaryForTesting();
TaskTracker task_tracker("Test");
// Will be owned by SchedulerWorker.
// No mock here as that's reasonably covered by other tests and the delegate
// may destroy on a different thread. Mocks aren't designed with that in mind.
std::unique_ptr<ControllableCleanupDelegate> delegate =
std::make_unique<ControllableCleanupDelegate>(&task_tracker);
scoped_refptr<ControllableCleanupDelegate::Controls> controls =
delegate->controls();
controls->set_expect_get_work(false);
auto worker = MakeRefCounted<SchedulerWorker>(ThreadPriority::NORMAL,
std::move(delegate),
task_tracker.GetTrackedRef());
worker->Cleanup();
worker->Start();
EXPECT_FALSE(worker->ThreadAliveForTesting());
}
namespace {
class CallJoinFromDifferentThread : public SimpleThread {
public:
CallJoinFromDifferentThread(SchedulerWorker* worker_to_join)
: SimpleThread("SchedulerWorkerJoinThread"),
worker_to_join_(worker_to_join) {}
~CallJoinFromDifferentThread() override = default;
void Run() override {
run_started_event_.Signal();
worker_to_join_->JoinForTesting();
}
void WaitForRunToStart() { run_started_event_.Wait(); }
private:
SchedulerWorker* const worker_to_join_;
WaitableEvent run_started_event_;
DISALLOW_COPY_AND_ASSIGN(CallJoinFromDifferentThread);
};
} // namespace
TEST(TaskSchedulerWorkerTest, WorkerCleanupDuringJoin) {
std::unique_ptr<StatisticsRecorder> recorder_for_testing =
StatisticsRecorder::CreateTemporaryForTesting();
TaskTracker task_tracker("Test");
// Will be owned by SchedulerWorker.
// No mock here as that's reasonably covered by other tests and the
// delegate may destroy on a different thread. Mocks aren't designed with that
// in mind.
std::unique_ptr<ControllableCleanupDelegate> delegate =
std::make_unique<ControllableCleanupDelegate>(&task_tracker);
scoped_refptr<ControllableCleanupDelegate::Controls> controls =
delegate->controls();
controls->HaveWorkBlock();
auto worker = MakeRefCounted<SchedulerWorker>(ThreadPriority::NORMAL,
std::move(delegate),
task_tracker.GetTrackedRef());
worker->Start();
worker->WakeUp();
controls->WaitForWorkToRun();
CallJoinFromDifferentThread join_from_different_thread(worker.get());
join_from_different_thread.Start();
join_from_different_thread.WaitForRunToStart();
// Sleep here to give the other thread a chance to call JoinForTesting().
// Receiving a signal that Run() was called doesn't mean JoinForTesting() was
// necessarily called, and we can't signal after JoinForTesting() as
// JoinForTesting() blocks until we call UnblockWork().
PlatformThread::Sleep(TestTimeouts::tiny_timeout());
worker->Cleanup();
worker = nullptr;
controls->UnblockWork();
controls->WaitForDelegateDestroy();
join_from_different_thread.Join();
}
namespace {
class ExpectThreadPriorityDelegate : public SchedulerWorkerDefaultDelegate {
public:
ExpectThreadPriorityDelegate()
: priority_verified_in_get_work_event_(
WaitableEvent::ResetPolicy::AUTOMATIC,
WaitableEvent::InitialState::NOT_SIGNALED),
expected_thread_priority_(ThreadPriority::BACKGROUND) {}
void SetExpectedThreadPriority(ThreadPriority expected_thread_priority) {
expected_thread_priority_ = expected_thread_priority;
}
void WaitForPriorityVerifiedInGetWork() {
priority_verified_in_get_work_event_.Wait();
}
// SchedulerWorker::Delegate:
void OnMainEntry(const SchedulerWorker* worker) override {
VerifyThreadPriority();
}
scoped_refptr<Sequence> GetWork(SchedulerWorker* worker) override {
VerifyThreadPriority();
priority_verified_in_get_work_event_.Signal();
return nullptr;
}
private:
void VerifyThreadPriority() {
AutoSchedulerLock auto_lock(expected_thread_priority_lock_);
EXPECT_EQ(expected_thread_priority_,
PlatformThread::GetCurrentThreadPriority());
}
// Signaled after GetWork() has verified the priority of the worker thread.
WaitableEvent priority_verified_in_get_work_event_;
// Synchronizes access to |expected_thread_priority_|.
SchedulerLock expected_thread_priority_lock_;
// Expected thread priority for the next call to OnMainEntry() or GetWork().
ThreadPriority expected_thread_priority_;
DISALLOW_COPY_AND_ASSIGN(ExpectThreadPriorityDelegate);
};
} // namespace
TEST(TaskSchedulerWorkerTest, BumpPriorityOfAliveThreadDuringShutdown) {
std::unique_ptr<StatisticsRecorder> recorder_for_testing =
StatisticsRecorder::CreateTemporaryForTesting();
if (!CanUseBackgroundPriorityForSchedulerWorker())
return;
TaskTracker task_tracker("Test");
std::unique_ptr<ExpectThreadPriorityDelegate> delegate(
new ExpectThreadPriorityDelegate);
ExpectThreadPriorityDelegate* delegate_raw = delegate.get();
delegate_raw->SetExpectedThreadPriority(ThreadPriority::BACKGROUND);
auto worker = MakeRefCounted<SchedulerWorker>(ThreadPriority::BACKGROUND,
std::move(delegate),
task_tracker.GetTrackedRef());
worker->Start();
// Verify that the initial thread priority is BACKGROUND (or NORMAL if thread
// priority can't be increased).
worker->WakeUp();
delegate_raw->WaitForPriorityVerifiedInGetWork();
// Verify that the thread priority is bumped to NORMAL during shutdown.
delegate_raw->SetExpectedThreadPriority(ThreadPriority::NORMAL);
task_tracker.SetHasShutdownStartedForTesting();
worker->WakeUp();
delegate_raw->WaitForPriorityVerifiedInGetWork();
worker->JoinForTesting();
}
namespace {
class VerifyCallsToObserverDelegate : public SchedulerWorkerDefaultDelegate {
public:
VerifyCallsToObserverDelegate(test::MockSchedulerWorkerObserver* observer)
: observer_(observer) {}
// SchedulerWorker::Delegate:
void OnMainEntry(const SchedulerWorker* worker) override {
Mock::VerifyAndClear(observer_);
}
void OnMainExit(SchedulerWorker* worker) override {
observer_->AllowCallsOnMainExit(1);
}
private:
test::MockSchedulerWorkerObserver* const observer_;
DISALLOW_COPY_AND_ASSIGN(VerifyCallsToObserverDelegate);
};
} // namespace
// Flaky: crbug.com/846121
#if defined(OS_LINUX) && defined(ADDRESS_SANITIZER)
#define MAYBE_SchedulerWorkerObserver DISABLED_SchedulerWorkerObserver
#else
#define MAYBE_SchedulerWorkerObserver SchedulerWorkerObserver
#endif
// Verify that the SchedulerWorkerObserver is notified when the worker enters
// and exits its main function.
TEST(TaskSchedulerWorkerTest, MAYBE_SchedulerWorkerObserver) {
StrictMock<test::MockSchedulerWorkerObserver> observer;
{
std::unique_ptr<StatisticsRecorder> recorder_for_testing =
StatisticsRecorder::CreateTemporaryForTesting();
TaskTracker task_tracker("Test");
auto delegate = std::make_unique<VerifyCallsToObserverDelegate>(&observer);
auto worker = MakeRefCounted<SchedulerWorker>(ThreadPriority::NORMAL,
std::move(delegate),
task_tracker.GetTrackedRef());
EXPECT_CALL(observer, OnSchedulerWorkerMainEntry());
worker->Start(&observer);
worker->Cleanup();
worker = nullptr;
}
Mock::VerifyAndClear(&observer);
}
#if defined(OS_WIN)
namespace {
class CoInitializeDelegate : public SchedulerWorkerDefaultDelegate {
public:
CoInitializeDelegate() = default;
scoped_refptr<Sequence> GetWork(SchedulerWorker* worker) override {
EXPECT_FALSE(get_work_returned_.IsSignaled());
EXPECT_EQ(E_UNEXPECTED, coinitialize_hresult_);
coinitialize_hresult_ = CoInitializeEx(nullptr, COINIT_APARTMENTTHREADED);
if (SUCCEEDED(coinitialize_hresult_))
CoUninitialize();
get_work_returned_.Signal();
return nullptr;
}
void WaitUntilGetWorkReturned() { get_work_returned_.Wait(); }
HRESULT coinitialize_hresult() const { return coinitialize_hresult_; }
private:
WaitableEvent get_work_returned_;
HRESULT coinitialize_hresult_ = E_UNEXPECTED;
DISALLOW_COPY_AND_ASSIGN(CoInitializeDelegate);
};
} // namespace
TEST(TaskSchedulerWorkerTest, BackwardCompatibilityEnabled) {
std::unique_ptr<StatisticsRecorder> recorder_for_testing =
StatisticsRecorder::CreateTemporaryForTesting();
TaskTracker task_tracker("Test");
auto delegate = std::make_unique<CoInitializeDelegate>();
CoInitializeDelegate* const delegate_raw = delegate.get();
// Create a worker with backward compatibility ENABLED. Wake it up and wait
// until GetWork() returns.
auto worker = MakeRefCounted<SchedulerWorker>(
ThreadPriority::NORMAL, std::move(delegate), task_tracker.GetTrackedRef(),
nullptr, SchedulerBackwardCompatibility::INIT_COM_STA);
worker->Start();
worker->WakeUp();
delegate_raw->WaitUntilGetWorkReturned();
// The call to CoInitializeEx() should have returned S_FALSE to indicate that
// the COM library was already initialized on the thread.
// See SchedulerWorker::Thread::ThreadMain for why we expect two different
// results here.
#if defined(COM_INIT_CHECK_HOOK_ENABLED)
EXPECT_EQ(S_OK, delegate_raw->coinitialize_hresult());
#else
EXPECT_EQ(S_FALSE, delegate_raw->coinitialize_hresult());
#endif
worker->JoinForTesting();
}
TEST(TaskSchedulerWorkerTest, BackwardCompatibilityDisabled) {
std::unique_ptr<StatisticsRecorder> recorder_for_testing =
StatisticsRecorder::CreateTemporaryForTesting();
TaskTracker task_tracker("Test");
auto delegate = std::make_unique<CoInitializeDelegate>();
CoInitializeDelegate* const delegate_raw = delegate.get();
// Create a worker with backward compatibility DISABLED. Wake it up and wait
// until GetWork() returns.
auto worker = MakeRefCounted<SchedulerWorker>(
ThreadPriority::NORMAL, std::move(delegate), task_tracker.GetTrackedRef(),
nullptr, SchedulerBackwardCompatibility::DISABLED);
worker->Start();
worker->WakeUp();
delegate_raw->WaitUntilGetWorkReturned();
// The call to CoInitializeEx() should have returned S_OK to indicate that the
// COM library wasn't already initialized on the thread.
EXPECT_EQ(S_OK, delegate_raw->coinitialize_hresult());
worker->JoinForTesting();
}
#endif // defined(OS_WIN)
} // namespace internal
} // namespace base