base/threading/thread_unittest.cc - platform/external/chromium - Git at Google

 // Copyright (c) 2006-2008 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/threading/thread.h"

 #include <vector>

 #include "base/message_loop.h"
 #include "base/third_party/dynamic_annotations/dynamic_annotations.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "testing/platform_test.h"

 using base::Thread;

 typedef PlatformTest ThreadTest;

 namespace {

 class ToggleValue : public Task {
  public:
   explicit ToggleValue(bool* value) : value_(value) {
     ANNOTATE_BENIGN_RACE(value, "Test-only data race on boolean "
                          "in base/thread_unittest");
   }
   virtual void Run() {
     *value_ = !*value_;
   }
  private:
   bool* value_;
 };

 class SleepSome : public Task {
  public:
   explicit SleepSome(int msec) : msec_(msec) {
   }
   virtual void Run() {
     base::PlatformThread::Sleep(msec_);
   }
  private:
   int msec_;
 };

 class SleepInsideInitThread : public Thread {
  public:
   SleepInsideInitThread() : Thread("none") { init_called_ = false; }
   virtual ~SleepInsideInitThread() { }

   virtual void Init() {
     base::PlatformThread::Sleep(500);
     init_called_ = true;
   }
   bool InitCalled() { return init_called_; }
  private:
   bool init_called_;
 };

 enum ThreadEvent {
   // Thread::Init() was called.
   THREAD_EVENT_INIT = 0,

   // The MessageLoop for the thread was deleted.
   THREAD_EVENT_MESSAGE_LOOP_DESTROYED,

   // Thread::CleanUp() was called.
   THREAD_EVENT_CLEANUP,

   // Keep at end of list.
   THREAD_NUM_EVENTS
 };

 typedef std::vector<ThreadEvent> EventList;

 class CaptureToEventList : public Thread {
  public:
   // This Thread pushes events into the vector |event_list| to show
   // the order they occured in. |event_list| must remain valid for the
   // lifetime of this thread.
   explicit CaptureToEventList(EventList* event_list)
       : Thread("none"), event_list_(event_list) {
   }

   virtual ~CaptureToEventList() {
     // Must call Stop() manually to have our CleanUp() function called.
     Stop();
   }

   virtual void Init() {
     event_list_->push_back(THREAD_EVENT_INIT);
   }

   virtual void CleanUp() {
     event_list_->push_back(THREAD_EVENT_CLEANUP);
   }

  private:
   EventList* event_list_;
 };

 // Observer that writes a value into |event_list| when a message loop has been
 // destroyed.
 class CapturingDestructionObserver : public MessageLoop::DestructionObserver {
  public:
   // |event_list| must remain valid throughout the observer's lifetime.
   explicit CapturingDestructionObserver(EventList* event_list)
       : event_list_(event_list) {
   }

   // DestructionObserver implementation:
   virtual void WillDestroyCurrentMessageLoop() {
     event_list_->push_back(THREAD_EVENT_MESSAGE_LOOP_DESTROYED);
     event_list_ = NULL;
   }

  private:
   EventList* event_list_;
 };

 // Task that adds a destruction observer to the current message loop.
 class RegisterDestructionObserver : public Task {
  public:
   explicit RegisterDestructionObserver(
       MessageLoop::DestructionObserver* observer)
       : observer_(observer) {
   }

   virtual void Run() {
     MessageLoop::current()->AddDestructionObserver(observer_);
     observer_ = NULL;
   }

  private:
   MessageLoop::DestructionObserver* observer_;
 };

 }  // namespace

 TEST_F(ThreadTest, Restart) {
   Thread a("Restart");
   a.Stop();
   EXPECT_FALSE(a.message_loop());
   EXPECT_FALSE(a.IsRunning());
   EXPECT_TRUE(a.Start());
   EXPECT_TRUE(a.message_loop());
   EXPECT_TRUE(a.IsRunning());
   a.Stop();
   EXPECT_FALSE(a.message_loop());
   EXPECT_FALSE(a.IsRunning());
   EXPECT_TRUE(a.Start());
   EXPECT_TRUE(a.message_loop());
   EXPECT_TRUE(a.IsRunning());
   a.Stop();
   EXPECT_FALSE(a.message_loop());
   EXPECT_FALSE(a.IsRunning());
   a.Stop();
   EXPECT_FALSE(a.message_loop());
   EXPECT_FALSE(a.IsRunning());
 }

 TEST_F(ThreadTest, StartWithOptions_StackSize) {
   Thread a("StartWithStackSize");
   // Ensure that the thread can work with only 12 kb and still process a
   // message.
   Thread::Options options;
   options.stack_size = 12*1024;
   EXPECT_TRUE(a.StartWithOptions(options));
   EXPECT_TRUE(a.message_loop());
   EXPECT_TRUE(a.IsRunning());

   bool was_invoked = false;
   a.message_loop()->PostTask(FROM_HERE, new ToggleValue(&was_invoked));

   // wait for the task to run (we could use a kernel event here
   // instead to avoid busy waiting, but this is sufficient for
   // testing purposes).
   for (int i = 100; i >= 0 && !was_invoked; --i) {
     base::PlatformThread::Sleep(10);
   }
   EXPECT_TRUE(was_invoked);
 }

 TEST_F(ThreadTest, TwoTasks) {
   bool was_invoked = false;
   {
     Thread a("TwoTasks");
     EXPECT_TRUE(a.Start());
     EXPECT_TRUE(a.message_loop());

     // Test that all events are dispatched before the Thread object is
     // destroyed.  We do this by dispatching a sleep event before the
     // event that will toggle our sentinel value.
     a.message_loop()->PostTask(FROM_HERE, new SleepSome(20));
     a.message_loop()->PostTask(FROM_HERE, new ToggleValue(&was_invoked));
   }
   EXPECT_TRUE(was_invoked);
 }

 TEST_F(ThreadTest, StopSoon) {
   Thread a("StopSoon");
   EXPECT_TRUE(a.Start());
   EXPECT_TRUE(a.message_loop());
   EXPECT_TRUE(a.IsRunning());
   a.StopSoon();
   a.StopSoon();
   a.Stop();
   EXPECT_FALSE(a.message_loop());
   EXPECT_FALSE(a.IsRunning());
 }

 TEST_F(ThreadTest, ThreadName) {
   Thread a("ThreadName");
   EXPECT_TRUE(a.Start());
   EXPECT_EQ("ThreadName", a.thread_name());
 }

 // Make sure we can't use a thread between Start() and Init().
 TEST_F(ThreadTest, SleepInsideInit) {
   SleepInsideInitThread t;
   EXPECT_FALSE(t.InitCalled());
   t.Start();
   EXPECT_TRUE(t.InitCalled());
 }

 // Make sure that the destruction sequence is:
 //
 //  (1) Thread::CleanUp()
 //  (2) MessageLoop::~MessageLoop()
 //      MessageLoop::DestructionObservers called.
 TEST_F(ThreadTest, CleanUp) {
   EventList captured_events;
   CapturingDestructionObserver loop_destruction_observer(&captured_events);

   {
     // Start a thread which writes its event into |captured_events|.
     CaptureToEventList t(&captured_events);
     EXPECT_TRUE(t.Start());
     EXPECT_TRUE(t.message_loop());
     EXPECT_TRUE(t.IsRunning());

     // Register an observer that writes into |captured_events| once the
     // thread's message loop is destroyed.
     t.message_loop()->PostTask(
         FROM_HERE,
         new RegisterDestructionObserver(&loop_destruction_observer));

     // Upon leaving this scope, the thread is deleted.
   }

   // Check the order of events during shutdown.
   ASSERT_EQ(static_cast<size_t>(THREAD_NUM_EVENTS), captured_events.size());
   EXPECT_EQ(THREAD_EVENT_INIT, captured_events[0]);
   EXPECT_EQ(THREAD_EVENT_CLEANUP, captured_events[1]);
   EXPECT_EQ(THREAD_EVENT_MESSAGE_LOOP_DESTROYED, captured_events[2]);
 }
	// Copyright (c) 2006-2008 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/threading/thread.h"

	#include <vector>

	#include "base/message_loop.h"
	#include "base/third_party/dynamic_annotations/dynamic_annotations.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "testing/platform_test.h"

	using base::Thread;

	typedef PlatformTest ThreadTest;

	namespace {

	class ToggleValue : public Task {
	public:
	explicit ToggleValue(bool* value) : value_(value) {
	ANNOTATE_BENIGN_RACE(value, "Test-only data race on boolean "
	"in base/thread_unittest");
	}
	virtual void Run() {
	value_ = !value_;
	}
	private:
	bool* value_;
	};

	class SleepSome : public Task {
	public:
	explicit SleepSome(int msec) : msec_(msec) {
	}
	virtual void Run() {
	base::PlatformThread::Sleep(msec_);
	}
	private:
	int msec_;
	};

	class SleepInsideInitThread : public Thread {
	public:
	SleepInsideInitThread() : Thread("none") { init_called_ = false; }
	virtual ~SleepInsideInitThread() { }

	virtual void Init() {
	base::PlatformThread::Sleep(500);
	init_called_ = true;
	}
	bool InitCalled() { return init_called_; }
	private:
	bool init_called_;
	};

	enum ThreadEvent {
	// Thread::Init() was called.
	THREAD_EVENT_INIT = 0,

	// The MessageLoop for the thread was deleted.
	THREAD_EVENT_MESSAGE_LOOP_DESTROYED,

	// Thread::CleanUp() was called.
	THREAD_EVENT_CLEANUP,

	// Keep at end of list.
	THREAD_NUM_EVENTS
	};

	typedef std::vector<ThreadEvent> EventList;

	class CaptureToEventList : public Thread {
	public:
	// This Thread pushes events into the vector \|event_list\| to show
	// the order they occured in. \|event_list\| must remain valid for the
	// lifetime of this thread.
	explicit CaptureToEventList(EventList* event_list)
	: Thread("none"), event_list_(event_list) {
	}

	virtual ~CaptureToEventList() {
	// Must call Stop() manually to have our CleanUp() function called.
	Stop();
	}

	virtual void Init() {
	event_list_->push_back(THREAD_EVENT_INIT);
	}

	virtual void CleanUp() {
	event_list_->push_back(THREAD_EVENT_CLEANUP);
	}

	private:
	EventList* event_list_;
	};

	// Observer that writes a value into \|event_list\| when a message loop has been
	// destroyed.
	class CapturingDestructionObserver : public MessageLoop::DestructionObserver {
	public:
	// \|event_list\| must remain valid throughout the observer's lifetime.
	explicit CapturingDestructionObserver(EventList* event_list)
	: event_list_(event_list) {
	}

	// DestructionObserver implementation:
	virtual void WillDestroyCurrentMessageLoop() {
	event_list_->push_back(THREAD_EVENT_MESSAGE_LOOP_DESTROYED);
	event_list_ = NULL;
	}

	private:
	EventList* event_list_;
	};

	// Task that adds a destruction observer to the current message loop.
	class RegisterDestructionObserver : public Task {
	public:
	explicit RegisterDestructionObserver(
	MessageLoop::DestructionObserver* observer)
	: observer_(observer) {
	}

	virtual void Run() {
	MessageLoop::current()->AddDestructionObserver(observer_);
	observer_ = NULL;
	}

	private:
	MessageLoop::DestructionObserver* observer_;
	};

	} // namespace

	TEST_F(ThreadTest, Restart) {
	Thread a("Restart");
	a.Stop();
	EXPECT_FALSE(a.message_loop());
	EXPECT_FALSE(a.IsRunning());
	EXPECT_TRUE(a.Start());
	EXPECT_TRUE(a.message_loop());
	EXPECT_TRUE(a.IsRunning());
	a.Stop();
	EXPECT_FALSE(a.message_loop());
	EXPECT_FALSE(a.IsRunning());
	EXPECT_TRUE(a.Start());
	EXPECT_TRUE(a.message_loop());
	EXPECT_TRUE(a.IsRunning());
	a.Stop();
	EXPECT_FALSE(a.message_loop());
	EXPECT_FALSE(a.IsRunning());
	a.Stop();
	EXPECT_FALSE(a.message_loop());
	EXPECT_FALSE(a.IsRunning());
	}

	TEST_F(ThreadTest, StartWithOptions_StackSize) {
	Thread a("StartWithStackSize");
	// Ensure that the thread can work with only 12 kb and still process a
	// message.
	Thread::Options options;
	options.stack_size = 12*1024;
	EXPECT_TRUE(a.StartWithOptions(options));
	EXPECT_TRUE(a.message_loop());
	EXPECT_TRUE(a.IsRunning());

	bool was_invoked = false;
	a.message_loop()->PostTask(FROM_HERE, new ToggleValue(&was_invoked));

	// wait for the task to run (we could use a kernel event here
	// instead to avoid busy waiting, but this is sufficient for
	// testing purposes).
	for (int i = 100; i >= 0 && !was_invoked; --i) {
	base::PlatformThread::Sleep(10);
	}
	EXPECT_TRUE(was_invoked);
	}

	TEST_F(ThreadTest, TwoTasks) {
	bool was_invoked = false;
	{
	Thread a("TwoTasks");
	EXPECT_TRUE(a.Start());
	EXPECT_TRUE(a.message_loop());

	// Test that all events are dispatched before the Thread object is
	// destroyed. We do this by dispatching a sleep event before the
	// event that will toggle our sentinel value.
	a.message_loop()->PostTask(FROM_HERE, new SleepSome(20));
	a.message_loop()->PostTask(FROM_HERE, new ToggleValue(&was_invoked));
	}
	EXPECT_TRUE(was_invoked);
	}

	TEST_F(ThreadTest, StopSoon) {
	Thread a("StopSoon");
	EXPECT_TRUE(a.Start());
	EXPECT_TRUE(a.message_loop());
	EXPECT_TRUE(a.IsRunning());
	a.StopSoon();
	a.StopSoon();
	a.Stop();
	EXPECT_FALSE(a.message_loop());
	EXPECT_FALSE(a.IsRunning());
	}

	TEST_F(ThreadTest, ThreadName) {
	Thread a("ThreadName");
	EXPECT_TRUE(a.Start());
	EXPECT_EQ("ThreadName", a.thread_name());
	}

	// Make sure we can't use a thread between Start() and Init().
	TEST_F(ThreadTest, SleepInsideInit) {
	SleepInsideInitThread t;
	EXPECT_FALSE(t.InitCalled());
	t.Start();
	EXPECT_TRUE(t.InitCalled());
	}

	// Make sure that the destruction sequence is:
	//
	// (1) Thread::CleanUp()
	// (2) MessageLoop::~MessageLoop()
	// MessageLoop::DestructionObservers called.
	TEST_F(ThreadTest, CleanUp) {
	EventList captured_events;
	CapturingDestructionObserver loop_destruction_observer(&captured_events);

	{
	// Start a thread which writes its event into \|captured_events\|.
	CaptureToEventList t(&captured_events);
	EXPECT_TRUE(t.Start());
	EXPECT_TRUE(t.message_loop());
	EXPECT_TRUE(t.IsRunning());

	// Register an observer that writes into \|captured_events\| once the
	// thread's message loop is destroyed.
	t.message_loop()->PostTask(
	FROM_HERE,
	new RegisterDestructionObserver(&loop_destruction_observer));

	// Upon leaving this scope, the thread is deleted.
	}

	// Check the order of events during shutdown.
	ASSERT_EQ(static_cast<size_t>(THREAD_NUM_EVENTS), captured_events.size());
	EXPECT_EQ(THREAD_EVENT_INIT, captured_events[0]);
	EXPECT_EQ(THREAD_EVENT_CLEANUP, captured_events[1]);
	EXPECT_EQ(THREAD_EVENT_MESSAGE_LOOP_DESTROYED, captured_events[2]);
	}