base/pending_task_unittest.cc - platform/external/libchrome - Gitiles

 // Copyright (c) 2017 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/pending_task.h"

 #include <vector>

 #include "base/bind.h"
 #include "base/message_loop/message_loop.h"
 #include "base/run_loop.h"
 #include "base/strings/stringprintf.h"
 #include "base/threading/thread.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace base {

 class PendingTaskTest : public ::testing::Test {
  public:
   PendingTaskTest() = default;

   ~PendingTaskTest() override = default;

  protected:
   using ExpectedTrace = std::vector<const void*>;

   static void VerifyTraceAndPost(const scoped_refptr<TaskRunner>& task_runner,
                                  const Location& posted_from,
                                  const Location& next_from_here,
                                  const std::vector<const void*>& expected_trace,
                                  Closure task) {
     SCOPED_TRACE(StringPrintf("Callback Depth: %zu", expected_trace.size()));

     // Beyond depth + 1, the trace is nonsensical because there haven't been
     // enough nested tasks called.
     const PendingTask* current_pending_task =
         MessageLoop::current()->current_pending_task_;
     size_t window = std::min(current_pending_task->task_backtrace.size(),
                              expected_trace.size());

     EXPECT_EQ(posted_from,
               MessageLoop::current()->current_pending_task_->posted_from);
     for (size_t i = 0; i < window; i++) {
       SCOPED_TRACE(StringPrintf("Trace frame: %zu", i));
       EXPECT_EQ(expected_trace[i], current_pending_task->task_backtrace[i]);
     }
     task_runner->PostTask(next_from_here, std::move(task));
   }

   static void RunTwo(Closure c1, Closure c2) {
     c1.Run();
     c2.Run();
   }
 };

 // Ensure the task backtrace populates correctly.
 TEST_F(PendingTaskTest, 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;

   Closure task5 = Bind(
       &PendingTaskTest::VerifyTraceAndPost, loop.task_runner(), location4,
       location5,
       ExpectedTrace({location3.program_counter(), location2.program_counter(),
                      location1.program_counter(), location0.program_counter()}),
       Bind(&DoNothing));
   Closure task4 = Bind(
       &PendingTaskTest::VerifyTraceAndPost, loop.task_runner(), location3,
       location4,
       ExpectedTrace({location2.program_counter(), location1.program_counter(),
                      location0.program_counter(), nullptr}),
       task5);
   Closure task3 = Bind(
       &PendingTaskTest::VerifyTraceAndPost, loop.task_runner(), location2,
       location3, ExpectedTrace({location1.program_counter(),
                                 location0.program_counter(), nullptr, nullptr}),
       task4);
   Closure task2 =
       Bind(&PendingTaskTest::VerifyTraceAndPost, loop.task_runner(), location1,
            location2, ExpectedTrace({location0.program_counter()}), task3);
   Closure task1 = Bind(&PendingTaskTest::VerifyTraceAndPost, loop.task_runner(),
                        location0, location1, ExpectedTrace({}), task2);

   loop.task_runner()->PostTask(location0, task1);

   RunLoop().RunUntilIdle();
 }

 // Post a task onto another thread. Ensure on the other thread, it has the
 // right stack trace.
 TEST_F(PendingTaskTest, MultipleThreads) {
   MessageLoop loop;  // Implicitly "thread a."
   Thread thread_b("pt_test_b");
   Thread thread_c("pt_test_c");
   thread_b.StartAndWaitForTesting();
   thread_c.StartAndWaitForTesting();

   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;

   // On thread c, post a task back to thread a that verifies its trace
   // and terminates after one more self-post.
   Closure task_a2 =
       Bind(&PendingTaskTest::VerifyTraceAndPost, loop.task_runner(),
            location_a2, location_a3,
            ExpectedTrace(
                {location_c0.program_counter(), location_b0.program_counter(),
                 location_a1.program_counter(), location_a0.program_counter()}),
            Bind(&DoNothing));
   Closure task_c0 = Bind(&PendingTaskTest::VerifyTraceAndPost,
                          loop.task_runner(), location_c0, location_a2,
                          ExpectedTrace({location_b0.program_counter(),
                                         location_a1.program_counter(),
                                         location_a0.program_counter()}),
                          task_a2);

   // On thread b run two tasks that conceptually come from the same location
   // (managed via RunTwo().) One will post back to thread b and another will
   // post to thread c to test spawning multiple tasks on different message
   // loops. The task posted to thread c will not get location b1 whereas the
   // one posted back to thread b will.
   Closure task_b0_fork =
       Bind(&PendingTaskTest::VerifyTraceAndPost,
            thread_c.message_loop()->task_runner(), location_b0, location_c0,
            ExpectedTrace({location_a1.program_counter(),
                           location_a0.program_counter(), nullptr}),
            task_c0);
   Closure task_b0_local =
       Bind(&PendingTaskTest::VerifyTraceAndPost,
            thread_b.message_loop()->task_runner(), location_b0, location_b1,
            ExpectedTrace({location_a1.program_counter(),
                           location_a0.program_counter(), nullptr}),
            Bind(&DoNothing));

   // Push one frame onto the stack in thread a then pass to thread b.
   Closure task_a1 =
       Bind(&PendingTaskTest::VerifyTraceAndPost,
            thread_b.message_loop()->task_runner(), location_a1, location_b0,
            ExpectedTrace({location_a0.program_counter(), nullptr}),
            Bind(&PendingTaskTest::RunTwo, task_b0_local, task_b0_fork));
   Closure task_a0 =
       Bind(&PendingTaskTest::VerifyTraceAndPost, loop.task_runner(),
            location_a0, location_a1, ExpectedTrace({nullptr}), task_a1);

   loop.task_runner()->PostTask(location_a0, task_a0);

   RunLoop().RunUntilIdle();

   thread_b.FlushForTesting();
   thread_b.Stop();

   thread_c.FlushForTesting();
   thread_c.Stop();
 }

 }  // namespace base
	// Copyright (c) 2017 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/pending_task.h"

	#include <vector>

	#include "base/bind.h"
	#include "base/message_loop/message_loop.h"
	#include "base/run_loop.h"
	#include "base/strings/stringprintf.h"
	#include "base/threading/thread.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace base {

	class PendingTaskTest : public ::testing::Test {
	public:
	PendingTaskTest() = default;

	~PendingTaskTest() override = default;

	protected:
	using ExpectedTrace = std::vector<const void*>;

	static void VerifyTraceAndPost(const scoped_refptr<TaskRunner>& task_runner,
	const Location& posted_from,
	const Location& next_from_here,
	const std::vector<const void*>& expected_trace,
	Closure task) {
	SCOPED_TRACE(StringPrintf("Callback Depth: %zu", expected_trace.size()));

	// Beyond depth + 1, the trace is nonsensical because there haven't been
	// enough nested tasks called.
	const PendingTask* current_pending_task =
	MessageLoop::current()->current_pending_task_;
	size_t window = std::min(current_pending_task->task_backtrace.size(),
	expected_trace.size());

	EXPECT_EQ(posted_from,
	MessageLoop::current()->current_pending_task_->posted_from);
	for (size_t i = 0; i < window; i++) {
	SCOPED_TRACE(StringPrintf("Trace frame: %zu", i));
	EXPECT_EQ(expected_trace[i], current_pending_task->task_backtrace[i]);
	}
	task_runner->PostTask(next_from_here, std::move(task));
	}

	static void RunTwo(Closure c1, Closure c2) {
	c1.Run();
	c2.Run();
	}
	};

	// Ensure the task backtrace populates correctly.
	TEST_F(PendingTaskTest, 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;

	Closure task5 = Bind(
	&PendingTaskTest::VerifyTraceAndPost, loop.task_runner(), location4,
	location5,
	ExpectedTrace({location3.program_counter(), location2.program_counter(),
	location1.program_counter(), location0.program_counter()}),
	Bind(&DoNothing));
	Closure task4 = Bind(
	&PendingTaskTest::VerifyTraceAndPost, loop.task_runner(), location3,
	location4,
	ExpectedTrace({location2.program_counter(), location1.program_counter(),
	location0.program_counter(), nullptr}),
	task5);
	Closure task3 = Bind(
	&PendingTaskTest::VerifyTraceAndPost, loop.task_runner(), location2,
	location3, ExpectedTrace({location1.program_counter(),
	location0.program_counter(), nullptr, nullptr}),
	task4);
	Closure task2 =
	Bind(&PendingTaskTest::VerifyTraceAndPost, loop.task_runner(), location1,
	location2, ExpectedTrace({location0.program_counter()}), task3);
	Closure task1 = Bind(&PendingTaskTest::VerifyTraceAndPost, loop.task_runner(),
	location0, location1, ExpectedTrace({}), task2);

	loop.task_runner()->PostTask(location0, task1);

	RunLoop().RunUntilIdle();
	}

	// Post a task onto another thread. Ensure on the other thread, it has the
	// right stack trace.
	TEST_F(PendingTaskTest, MultipleThreads) {
	MessageLoop loop; // Implicitly "thread a."
	Thread thread_b("pt_test_b");
	Thread thread_c("pt_test_c");
	thread_b.StartAndWaitForTesting();
	thread_c.StartAndWaitForTesting();

	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;

	// On thread c, post a task back to thread a that verifies its trace
	// and terminates after one more self-post.
	Closure task_a2 =
	Bind(&PendingTaskTest::VerifyTraceAndPost, loop.task_runner(),
	location_a2, location_a3,
	ExpectedTrace(
	{location_c0.program_counter(), location_b0.program_counter(),
	location_a1.program_counter(), location_a0.program_counter()}),
	Bind(&DoNothing));
	Closure task_c0 = Bind(&PendingTaskTest::VerifyTraceAndPost,
	loop.task_runner(), location_c0, location_a2,
	ExpectedTrace({location_b0.program_counter(),
	location_a1.program_counter(),
	location_a0.program_counter()}),
	task_a2);

	// On thread b run two tasks that conceptually come from the same location
	// (managed via RunTwo().) One will post back to thread b and another will
	// post to thread c to test spawning multiple tasks on different message
	// loops. The task posted to thread c will not get location b1 whereas the
	// one posted back to thread b will.
	Closure task_b0_fork =
	Bind(&PendingTaskTest::VerifyTraceAndPost,
	thread_c.message_loop()->task_runner(), location_b0, location_c0,
	ExpectedTrace({location_a1.program_counter(),
	location_a0.program_counter(), nullptr}),
	task_c0);
	Closure task_b0_local =
	Bind(&PendingTaskTest::VerifyTraceAndPost,
	thread_b.message_loop()->task_runner(), location_b0, location_b1,
	ExpectedTrace({location_a1.program_counter(),
	location_a0.program_counter(), nullptr}),
	Bind(&DoNothing));

	// Push one frame onto the stack in thread a then pass to thread b.
	Closure task_a1 =
	Bind(&PendingTaskTest::VerifyTraceAndPost,
	thread_b.message_loop()->task_runner(), location_a1, location_b0,
	ExpectedTrace({location_a0.program_counter(), nullptr}),
	Bind(&PendingTaskTest::RunTwo, task_b0_local, task_b0_fork));
	Closure task_a0 =
	Bind(&PendingTaskTest::VerifyTraceAndPost, loop.task_runner(),
	location_a0, location_a1, ExpectedTrace({nullptr}), task_a1);

	loop.task_runner()->PostTask(location_a0, task_a0);

	RunLoop().RunUntilIdle();

	thread_b.FlushForTesting();
	thread_b.Stop();

	thread_c.FlushForTesting();
	thread_c.Stop();
	}

	} // namespace base