// Copyright 2014 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/debug/task_annotator.h"
#include <algorithm>
#include <vector>
#include "base/bind.h"
#include "base/bind_helpers.h"
#include "base/callback.h"
#include "base/macros.h"
#include "base/message_loop/message_loop.h"
#include "base/pending_task.h"
#include "base/run_loop.h"
#include "base/strings/stringprintf.h"
#include "base/synchronization/lock.h"
#include "base/synchronization/waitable_event.h"
#include "base/task_scheduler/post_task.h"
#include "base/test/scoped_task_environment.h"
#include "base/threading/thread.h"
#include "base/threading/thread_task_runner_handle.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace base {
namespace debug {
namespace {
void TestTask(int* result) {
*result = 123;
}
} // namespace
TEST(TaskAnnotatorTest, QueueAndRunTask) {
int result = 0;
PendingTask pending_task(FROM_HERE, BindOnce(&TestTask, &result));
TaskAnnotator annotator;
annotator.WillQueueTask("TaskAnnotatorTest::Queue", &pending_task);
EXPECT_EQ(0, result);
annotator.RunTask("TaskAnnotatorTest::Queue", &pending_task);
EXPECT_EQ(123, result);
}
// Test task annotator integration in base APIs and ensuing support for
// backtraces. Tasks posted across multiple threads in this test fixture should
// be synchronized as BeforeRunTask() and VerifyTraceAndPost() assume tasks are
// observed in lock steps, one at a time.
class TaskAnnotatorBacktraceIntegrationTest
: public ::testing::Test,
public TaskAnnotator::ObserverForTesting {
public:
using ExpectedTrace = std::vector<const void*>;
TaskAnnotatorBacktraceIntegrationTest() = default;
~TaskAnnotatorBacktraceIntegrationTest() override = default;
// TaskAnnotator::ObserverForTesting:
void BeforeRunTask(const PendingTask* pending_task) override {
AutoLock auto_lock(on_before_run_task_lock_);
last_posted_from_ = pending_task->posted_from;
last_task_backtrace_ = pending_task->task_backtrace;
}
void SetUp() override { TaskAnnotator::RegisterObserverForTesting(this); }
void TearDown() override { TaskAnnotator::ClearObserverForTesting(); }
void VerifyTraceAndPost(const scoped_refptr<SequencedTaskRunner>& task_runner,
const Location& posted_from,
const Location& next_from_here,
const ExpectedTrace& expected_trace,
OnceClosure task) {
SCOPED_TRACE(StringPrintf("Callback Depth: %zu", expected_trace.size()));
EXPECT_EQ(posted_from, last_posted_from_);
for (size_t i = 0; i < last_task_backtrace_.size(); i++) {
SCOPED_TRACE(StringPrintf("Trace frame: %zu", i));
if (i < expected_trace.size())
EXPECT_EQ(expected_trace[i], last_task_backtrace_[i]);
else
EXPECT_EQ(nullptr, last_task_backtrace_[i]);
}
task_runner->PostTask(next_from_here, std::move(task));
}
// Same as VerifyTraceAndPost() with the exception that it also posts a task
// that will prevent |task| from running until |wait_before_next_task| is
// signaled.
void VerifyTraceAndPostWithBlocker(
const scoped_refptr<SequencedTaskRunner>& task_runner,
const Location& posted_from,
const Location& next_from_here,
const ExpectedTrace& expected_trace,
OnceClosure task,
WaitableEvent* wait_before_next_task) {
DCHECK(wait_before_next_task);
// Need to lock to ensure the upcoming VerifyTraceAndPost() runs before the
// BeforeRunTask() hook for the posted WaitableEvent::Wait(). Otherwise the
// upcoming VerifyTraceAndPost() will race to read the state saved in the
// BeforeRunTask() hook preceding the current task.
AutoLock auto_lock(on_before_run_task_lock_);
task_runner->PostTask(
FROM_HERE,
BindOnce(&WaitableEvent::Wait, Unretained(wait_before_next_task)));
VerifyTraceAndPost(task_runner, posted_from, next_from_here, expected_trace,
std::move(task));
}
protected:
static void RunTwo(OnceClosure c1, OnceClosure c2) {
std::move(c1).Run();
std::move(c2).Run();
}
private:
// While calls to VerifyTraceAndPost() are strictly ordered in tests below
// (and hence non-racy), some helper methods (e.g. Wait/Signal) do racily call
// into BeforeRunTask(). This Lock ensures these unobserved writes are not
// racing. Locking isn't required on read per the VerifyTraceAndPost()
// themselves being ordered.
Lock on_before_run_task_lock_;
Location last_posted_from_ = {};
std::array<const void*, 4> last_task_backtrace_ = {};
DISALLOW_COPY_AND_ASSIGN(TaskAnnotatorBacktraceIntegrationTest);
};
// Ensure the task backtrace populates correctly.
TEST_F(TaskAnnotatorBacktraceIntegrationTest, SingleThreadedSimple) {
MessageLoop loop;
const Location location0 = FROM_HERE;
const Location location1 = FROM_HERE;
const Location location2 = FROM_HERE;
const Location location3 = FROM_HERE;
const Location location4 = FROM_HERE;
const Location location5 = FROM_HERE;
RunLoop run_loop;
// Task 5 has tasks 4/3/2/1 as parents (task 0 isn't visible as only the
// last 4 parents are kept).
OnceClosure task5 = BindOnce(
&TaskAnnotatorBacktraceIntegrationTest::VerifyTraceAndPost,
Unretained(this), loop.task_runner(), location5, FROM_HERE,
ExpectedTrace({location4.program_counter(), location3.program_counter(),
location2.program_counter(), location1.program_counter()}),
run_loop.QuitClosure());
// Task i=4/3/2/1/0 have tasks [0,i) as parents.
OnceClosure task4 = BindOnce(
&TaskAnnotatorBacktraceIntegrationTest::VerifyTraceAndPost,
Unretained(this), loop.task_runner(), location4, location5,
ExpectedTrace({location3.program_counter(), location2.program_counter(),
location1.program_counter(), location0.program_counter()}),
std::move(task5));
OnceClosure task3 = BindOnce(
&TaskAnnotatorBacktraceIntegrationTest::VerifyTraceAndPost,
Unretained(this), loop.task_runner(), location3, location4,
ExpectedTrace({location2.program_counter(), location1.program_counter(),
location0.program_counter()}),
std::move(task4));
OnceClosure task2 = BindOnce(
&TaskAnnotatorBacktraceIntegrationTest::VerifyTraceAndPost,
Unretained(this), loop.task_runner(), location2, location3,
ExpectedTrace({location1.program_counter(), location0.program_counter()}),
std::move(task3));
OnceClosure task1 =
BindOnce(&TaskAnnotatorBacktraceIntegrationTest::VerifyTraceAndPost,
Unretained(this), loop.task_runner(), location1, location2,
ExpectedTrace({location0.program_counter()}), std::move(task2));
OnceClosure task0 =
BindOnce(&TaskAnnotatorBacktraceIntegrationTest::VerifyTraceAndPost,
Unretained(this), loop.task_runner(), location0, location1,
ExpectedTrace({}), std::move(task1));
loop.task_runner()->PostTask(location0, std::move(task0));
run_loop.Run();
}
// Ensure it works when posting tasks across multiple threads managed by //base.
TEST_F(TaskAnnotatorBacktraceIntegrationTest, MultipleThreads) {
test::ScopedTaskEnvironment scoped_task_environment;
// Use diverse task runners (a MessageLoop on the main thread, a TaskScheduler
// based SequencedTaskRunner, and a TaskScheduler based
// SingleThreadTaskRunner) to verify that TaskAnnotator can capture backtraces
// for PostTasks back-and-forth between these.
auto main_thread_a = ThreadTaskRunnerHandle::Get();
auto task_runner_b = CreateSingleThreadTaskRunnerWithTraits({});
auto task_runner_c = CreateSequencedTaskRunnerWithTraits(
{base::MayBlock(), base::WithBaseSyncPrimitives()});
const Location& location_a0 = FROM_HERE;
const Location& location_a1 = FROM_HERE;
const Location& location_a2 = FROM_HERE;
const Location& location_a3 = FROM_HERE;
const Location& location_b0 = FROM_HERE;
const Location& location_b1 = FROM_HERE;
const Location& location_c0 = FROM_HERE;
RunLoop run_loop;
// All tasks below happen in lock step by nature of being posted by the
// previous one (plus the synchronous nature of RunTwo()) with the exception
// of the follow-up local task to |task_b0_local|. This WaitableEvent ensures
// it completes before |task_c0| runs to avoid racy invocations of
// BeforeRunTask()+VerifyTraceAndPost().
WaitableEvent lock_step(WaitableEvent::ResetPolicy::AUTOMATIC,
WaitableEvent::InitialState::NOT_SIGNALED);
// Here is the execution order generated below:
// A: TA0 -> TA1 \ TA2
// B: TB0L \ + TB0F \ Signal \ /
// ---------\--/ \ /
// \ \ /
// C: Wait........ TC0 /
// On task runner c, post a task back to main thread that verifies its trace
// and terminates after one more self-post.
OnceClosure task_a2 = BindOnce(
&TaskAnnotatorBacktraceIntegrationTest::VerifyTraceAndPost,
Unretained(this), main_thread_a, location_a2, location_a3,
ExpectedTrace(
{location_c0.program_counter(), location_b0.program_counter(),
location_a1.program_counter(), location_a0.program_counter()}),
run_loop.QuitClosure());
OnceClosure task_c0 =
BindOnce(&TaskAnnotatorBacktraceIntegrationTest::VerifyTraceAndPost,
Unretained(this), main_thread_a, location_c0, location_a2,
ExpectedTrace({location_b0.program_counter(),
location_a1.program_counter(),
location_a0.program_counter()}),
std::move(task_a2));
// On task runner b run two tasks that conceptually come from the same
// location (managed via RunTwo().) One will post back to task runner b and
// another will post to task runner c to test spawning multiple tasks on
// different message loops. The task posted to task runner c will not get
// location b1 whereas the one posted back to task runner b will.
OnceClosure task_b0_fork = BindOnce(
&TaskAnnotatorBacktraceIntegrationTest::VerifyTraceAndPostWithBlocker,
Unretained(this), task_runner_c, location_b0, location_c0,
ExpectedTrace(
{location_a1.program_counter(), location_a0.program_counter()}),
std::move(task_c0), &lock_step);
OnceClosure task_b0_local =
BindOnce(&TaskAnnotatorBacktraceIntegrationTest::VerifyTraceAndPost,
Unretained(this), task_runner_b, location_b0, location_b1,
ExpectedTrace({location_a1.program_counter(),
location_a0.program_counter()}),
BindOnce(&WaitableEvent::Signal, Unretained(&lock_step)));
OnceClosure task_a1 =
BindOnce(&TaskAnnotatorBacktraceIntegrationTest::VerifyTraceAndPost,
Unretained(this), task_runner_b, location_a1, location_b0,
ExpectedTrace({location_a0.program_counter()}),
BindOnce(&TaskAnnotatorBacktraceIntegrationTest::RunTwo,
std::move(task_b0_local), std::move(task_b0_fork)));
OnceClosure task_a0 =
BindOnce(&TaskAnnotatorBacktraceIntegrationTest::VerifyTraceAndPost,
Unretained(this), main_thread_a, location_a0, location_a1,
ExpectedTrace({}), std::move(task_a1));
main_thread_a->PostTask(location_a0, std::move(task_a0));
run_loop.Run();
}
// Ensure nesting doesn't break the chain.
TEST_F(TaskAnnotatorBacktraceIntegrationTest, SingleThreadedNested) {
MessageLoop loop;
const Location location0 = FROM_HERE;
const Location location1 = FROM_HERE;
const Location location2 = FROM_HERE;
const Location location3 = FROM_HERE;
const Location location4 = FROM_HERE;
const Location location5 = FROM_HERE;
RunLoop run_loop;
// Task execution below looks like this, w.r.t. to RunLoop depths:
// 1 : T0 \ + NRL1 \ ---------> T4 -> T5
// 2 : ---------> T1 \ -> NRL2 \ ----> T2 -> T3 / + Quit /
// 3 : ---------> DN /
// NRL1 tests that tasks that occur at a different nesting depth than their
// parent have a sane backtrace nonetheless (both ways).
// NRL2 tests that posting T2 right after exiting the RunLoop (from the same
// task) results in NRL2 being its parent (and not the DoNothing() task that
// just ran -- which would have been the case if the "current task" wasn't
// restored properly when returning from a task within a task).
// In other words, this is regression test for a bug in the previous
// implementation. In the current implementation, replacing
// tls_for_current_pending_task->Set(previous_pending_task);
// by
// tls_for_current_pending_task->Set(nullptr);
// at the end of TaskAnnotator::RunTask() makes this test fail.
RunLoop nested_run_loop1(RunLoop::Type::kNestableTasksAllowed);
// Expectations are the same as in SingleThreadedSimple test despite the
// nested loop starting between tasks 0 and 1 and stopping between tasks 3 and
// 4.
OnceClosure task5 = BindOnce(
&TaskAnnotatorBacktraceIntegrationTest::VerifyTraceAndPost,
Unretained(this), loop.task_runner(), location5, FROM_HERE,
ExpectedTrace({location4.program_counter(), location3.program_counter(),
location2.program_counter(), location1.program_counter()}),
run_loop.QuitClosure());
OnceClosure task4 = BindOnce(
&TaskAnnotatorBacktraceIntegrationTest::VerifyTraceAndPost,
Unretained(this), loop.task_runner(), location4, location5,
ExpectedTrace({location3.program_counter(), location2.program_counter(),
location1.program_counter(), location0.program_counter()}),
std::move(task5));
OnceClosure task3 = BindOnce(
&TaskAnnotatorBacktraceIntegrationTest::VerifyTraceAndPost,
Unretained(this), loop.task_runner(), location3, location4,
ExpectedTrace({location2.program_counter(), location1.program_counter(),
location0.program_counter()}),
std::move(task4));
OnceClosure run_task_3_then_quit_nested_loop1 =
BindOnce(&TaskAnnotatorBacktraceIntegrationTest::RunTwo, std::move(task3),
nested_run_loop1.QuitClosure());
OnceClosure task2 = BindOnce(
&TaskAnnotatorBacktraceIntegrationTest::VerifyTraceAndPost,
Unretained(this), loop.task_runner(), location2, location3,
ExpectedTrace({location1.program_counter(), location0.program_counter()}),
std::move(run_task_3_then_quit_nested_loop1));
// Task 1 is custom. It enters another nested RunLoop, has it do work and exit
// before posting the next task. This confirms that |task1| is restored as the
// current task before posting |task2| after returning from the nested loop.
RunLoop nested_run_loop2(RunLoop::Type::kNestableTasksAllowed);
OnceClosure task1 = BindOnce(
[](RunLoop* nested_run_loop, const Location& location2,
OnceClosure task2) {
ThreadTaskRunnerHandle::Get()->PostTask(FROM_HERE, DoNothing());
nested_run_loop->RunUntilIdle();
ThreadTaskRunnerHandle::Get()->PostTask(location2, std::move(task2));
},
Unretained(&nested_run_loop2), location2, std::move(task2));
OnceClosure task0 =
BindOnce(&TaskAnnotatorBacktraceIntegrationTest::VerifyTraceAndPost,
Unretained(this), loop.task_runner(), location0, location1,
ExpectedTrace({}), std::move(task1));
loop.task_runner()->PostTask(location0, std::move(task0));
loop.task_runner()->PostTask(
FROM_HERE, BindOnce(&RunLoop::Run, Unretained(&nested_run_loop1)));
run_loop.Run();
}
} // namespace debug
} // namespace base