src/base/threading/thread_collision_warner_unittest.cc - cobalt - Git at Google

 // Copyright (c) 2012 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_collision_warner.h"

 #include <memory>

 #include "base/compiler_specific.h"
 #include "base/macros.h"
 #include "base/synchronization/lock.h"
 #include "base/threading/platform_thread.h"
 #include "base/threading/simple_thread.h"
 #include "testing/gtest/include/gtest/gtest.h"

 // '' : local class member function does not have a body
 MSVC_PUSH_DISABLE_WARNING(4822)


 #if defined(NDEBUG)

 // Would cause a memory leak otherwise.
 #undef DFAKE_MUTEX
 #define DFAKE_MUTEX(obj) std::unique_ptr<base::AsserterBase> obj

 // In Release, we expect the AsserterBase::warn() to not happen.
 #define EXPECT_NDEBUG_FALSE_DEBUG_TRUE EXPECT_FALSE

 #else

 // In Debug, we expect the AsserterBase::warn() to happen.
 #define EXPECT_NDEBUG_FALSE_DEBUG_TRUE EXPECT_TRUE

 #endif


 namespace {

 // This is the asserter used with ThreadCollisionWarner instead of the default
 // DCheckAsserter. The method fail_state is used to know if a collision took
 // place.
 class AssertReporter : public base::AsserterBase {
  public:
   AssertReporter()
       : failed_(false) {}

   void warn() override { failed_ = true; }

   ~AssertReporter() override = default;

   bool fail_state() const { return failed_; }
   void reset() { failed_ = false; }

  private:
   bool failed_;
 };

 }  // namespace

 TEST(ThreadCollisionTest, BookCriticalSection) {
   AssertReporter* local_reporter = new AssertReporter();

   base::ThreadCollisionWarner warner(local_reporter);
   EXPECT_FALSE(local_reporter->fail_state());

   {  // Pin section.
     DFAKE_SCOPED_LOCK_THREAD_LOCKED(warner);
     EXPECT_FALSE(local_reporter->fail_state());
     {  // Pin section.
       DFAKE_SCOPED_LOCK_THREAD_LOCKED(warner);
       EXPECT_FALSE(local_reporter->fail_state());
     }
   }
 }

 TEST(ThreadCollisionTest, ScopedRecursiveBookCriticalSection) {
   AssertReporter* local_reporter = new AssertReporter();

   base::ThreadCollisionWarner warner(local_reporter);
   EXPECT_FALSE(local_reporter->fail_state());

   {  // Pin section.
     DFAKE_SCOPED_RECURSIVE_LOCK(warner);
     EXPECT_FALSE(local_reporter->fail_state());
     {  // Pin section again (allowed by DFAKE_SCOPED_RECURSIVE_LOCK)
       DFAKE_SCOPED_RECURSIVE_LOCK(warner);
       EXPECT_FALSE(local_reporter->fail_state());
     }  // Unpin section.
   }  // Unpin section.

   // Check that section is not pinned
   {  // Pin section.
     DFAKE_SCOPED_LOCK(warner);
     EXPECT_FALSE(local_reporter->fail_state());
   }  // Unpin section.
 }

 TEST(ThreadCollisionTest, ScopedBookCriticalSection) {
   AssertReporter* local_reporter = new AssertReporter();

   base::ThreadCollisionWarner warner(local_reporter);
   EXPECT_FALSE(local_reporter->fail_state());

   {  // Pin section.
     DFAKE_SCOPED_LOCK(warner);
     EXPECT_FALSE(local_reporter->fail_state());
   }  // Unpin section.

   {  // Pin section.
     DFAKE_SCOPED_LOCK(warner);
     EXPECT_FALSE(local_reporter->fail_state());
     {
       // Pin section again (not allowed by DFAKE_SCOPED_LOCK)
       DFAKE_SCOPED_LOCK(warner);
       EXPECT_NDEBUG_FALSE_DEBUG_TRUE(local_reporter->fail_state());
       // Reset the status of warner for further tests.
       local_reporter->reset();
     }  // Unpin section.
   }  // Unpin section.

   {
     // Pin section.
     DFAKE_SCOPED_LOCK(warner);
     EXPECT_FALSE(local_reporter->fail_state());
   }  // Unpin section.
 }

 TEST(ThreadCollisionTest, MTBookCriticalSectionTest) {
   class NonThreadSafeQueue {
    public:
     explicit NonThreadSafeQueue(base::AsserterBase* asserter)
         : push_pop_(asserter) {
     }

     void push(int value) {
       DFAKE_SCOPED_LOCK_THREAD_LOCKED(push_pop_);
     }

     int pop() {
       DFAKE_SCOPED_LOCK_THREAD_LOCKED(push_pop_);
       return 0;
     }

    private:
     DFAKE_MUTEX(push_pop_);

     DISALLOW_COPY_AND_ASSIGN(NonThreadSafeQueue);
   };

   class QueueUser : public base::DelegateSimpleThread::Delegate {
    public:
     explicit QueueUser(NonThreadSafeQueue* queue) : queue_(queue) {}

     void Run() override {
       queue_->push(0);
       queue_->pop();
     }

    private:
     NonThreadSafeQueue* queue_;
   };

   AssertReporter* local_reporter = new AssertReporter();

   NonThreadSafeQueue queue(local_reporter);

   QueueUser queue_user_a(&queue);
   QueueUser queue_user_b(&queue);

   base::DelegateSimpleThread thread_a(&queue_user_a, "queue_user_thread_a");
   base::DelegateSimpleThread thread_b(&queue_user_b, "queue_user_thread_b");

   thread_a.Start();
   thread_b.Start();

   thread_a.Join();
   thread_b.Join();

   EXPECT_NDEBUG_FALSE_DEBUG_TRUE(local_reporter->fail_state());
 }

 TEST(ThreadCollisionTest, MTScopedBookCriticalSectionTest) {
   // Queue with a 5 seconds push execution time, hopefuly the two used threads
   // in the test will enter the push at same time.
   class NonThreadSafeQueue {
    public:
     explicit NonThreadSafeQueue(base::AsserterBase* asserter)
         : push_pop_(asserter) {
     }

     void push(int value) {
       DFAKE_SCOPED_LOCK(push_pop_);
       base::PlatformThread::Sleep(base::TimeDelta::FromSeconds(5));
     }

     int pop() {
       DFAKE_SCOPED_LOCK(push_pop_);
       return 0;
     }

    private:
     DFAKE_MUTEX(push_pop_);

     DISALLOW_COPY_AND_ASSIGN(NonThreadSafeQueue);
   };

   class QueueUser : public base::DelegateSimpleThread::Delegate {
    public:
     explicit QueueUser(NonThreadSafeQueue* queue) : queue_(queue) {}

     void Run() override {
       queue_->push(0);
       queue_->pop();
     }

    private:
     NonThreadSafeQueue* queue_;
   };

   AssertReporter* local_reporter = new AssertReporter();

   NonThreadSafeQueue queue(local_reporter);

   QueueUser queue_user_a(&queue);
   QueueUser queue_user_b(&queue);

   base::DelegateSimpleThread thread_a(&queue_user_a, "queue_user_thread_a");
   base::DelegateSimpleThread thread_b(&queue_user_b, "queue_user_thread_b");

   thread_a.Start();
   thread_b.Start();

   thread_a.Join();
   thread_b.Join();

   EXPECT_NDEBUG_FALSE_DEBUG_TRUE(local_reporter->fail_state());
 }

 TEST(ThreadCollisionTest, MTSynchedScopedBookCriticalSectionTest) {
   // Queue with a 2 seconds push execution time, hopefuly the two used threads
   // in the test will enter the push at same time.
   class NonThreadSafeQueue {
    public:
     explicit NonThreadSafeQueue(base::AsserterBase* asserter)
         : push_pop_(asserter) {
     }

     void push(int value) {
       DFAKE_SCOPED_LOCK(push_pop_);
       base::PlatformThread::Sleep(base::TimeDelta::FromSeconds(2));
     }

     int pop() {
       DFAKE_SCOPED_LOCK(push_pop_);
       return 0;
     }

    private:
     DFAKE_MUTEX(push_pop_);

     DISALLOW_COPY_AND_ASSIGN(NonThreadSafeQueue);
   };

   // This time the QueueUser class protects the non thread safe queue with
   // a lock.
   class QueueUser : public base::DelegateSimpleThread::Delegate {
    public:
     QueueUser(NonThreadSafeQueue* queue, base::Lock* lock)
         : queue_(queue), lock_(lock) {}

     void Run() override {
       {
         base::AutoLock auto_lock(*lock_);
         queue_->push(0);
       }
       {
         base::AutoLock auto_lock(*lock_);
         queue_->pop();
       }
     }
    private:
     NonThreadSafeQueue* queue_;
     base::Lock* lock_;
   };

   AssertReporter* local_reporter = new AssertReporter();

   NonThreadSafeQueue queue(local_reporter);

   base::Lock lock;

   QueueUser queue_user_a(&queue, &lock);
   QueueUser queue_user_b(&queue, &lock);

   base::DelegateSimpleThread thread_a(&queue_user_a, "queue_user_thread_a");
   base::DelegateSimpleThread thread_b(&queue_user_b, "queue_user_thread_b");

   thread_a.Start();
   thread_b.Start();

   thread_a.Join();
   thread_b.Join();

   EXPECT_FALSE(local_reporter->fail_state());
 }

 TEST(ThreadCollisionTest, MTSynchedScopedRecursiveBookCriticalSectionTest) {
   // Queue with a 2 seconds push execution time, hopefuly the two used threads
   // in the test will enter the push at same time.
   class NonThreadSafeQueue {
    public:
     explicit NonThreadSafeQueue(base::AsserterBase* asserter)
         : push_pop_(asserter) {
     }

     void push(int) {
       DFAKE_SCOPED_RECURSIVE_LOCK(push_pop_);
       bar();
       base::PlatformThread::Sleep(base::TimeDelta::FromSeconds(2));
     }

     int pop() {
       DFAKE_SCOPED_RECURSIVE_LOCK(push_pop_);
       return 0;
     }

     void bar() {
       DFAKE_SCOPED_RECURSIVE_LOCK(push_pop_);
     }

    private:
     DFAKE_MUTEX(push_pop_);

     DISALLOW_COPY_AND_ASSIGN(NonThreadSafeQueue);
   };

   // This time the QueueUser class protects the non thread safe queue with
   // a lock.
   class QueueUser : public base::DelegateSimpleThread::Delegate {
    public:
     QueueUser(NonThreadSafeQueue* queue, base::Lock* lock)
         : queue_(queue), lock_(lock) {}

     void Run() override {
       {
         base::AutoLock auto_lock(*lock_);
         queue_->push(0);
       }
       {
         base::AutoLock auto_lock(*lock_);
         queue_->bar();
       }
       {
         base::AutoLock auto_lock(*lock_);
         queue_->pop();
       }
     }
    private:
     NonThreadSafeQueue* queue_;
     base::Lock* lock_;
   };

   AssertReporter* local_reporter = new AssertReporter();

   NonThreadSafeQueue queue(local_reporter);

   base::Lock lock;

   QueueUser queue_user_a(&queue, &lock);
   QueueUser queue_user_b(&queue, &lock);

   base::DelegateSimpleThread thread_a(&queue_user_a, "queue_user_thread_a");
   base::DelegateSimpleThread thread_b(&queue_user_b, "queue_user_thread_b");

   thread_a.Start();
   thread_b.Start();

   thread_a.Join();
   thread_b.Join();

   EXPECT_FALSE(local_reporter->fail_state());
 }
	// Copyright (c) 2012 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_collision_warner.h"

	#include <memory>

	#include "base/compiler_specific.h"
	#include "base/macros.h"
	#include "base/synchronization/lock.h"
	#include "base/threading/platform_thread.h"
	#include "base/threading/simple_thread.h"
	#include "testing/gtest/include/gtest/gtest.h"

	// '' : local class member function does not have a body
	MSVC_PUSH_DISABLE_WARNING(4822)


	#if defined(NDEBUG)

	// Would cause a memory leak otherwise.
	#undef DFAKE_MUTEX
	#define DFAKE_MUTEX(obj) std::unique_ptr<base::AsserterBase> obj

	// In Release, we expect the AsserterBase::warn() to not happen.
	#define EXPECT_NDEBUG_FALSE_DEBUG_TRUE EXPECT_FALSE

	#else

	// In Debug, we expect the AsserterBase::warn() to happen.
	#define EXPECT_NDEBUG_FALSE_DEBUG_TRUE EXPECT_TRUE

	#endif


	namespace {

	// This is the asserter used with ThreadCollisionWarner instead of the default
	// DCheckAsserter. The method fail_state is used to know if a collision took
	// place.
	class AssertReporter : public base::AsserterBase {
	public:
	AssertReporter()
	: failed_(false) {}

	void warn() override { failed_ = true; }

	~AssertReporter() override = default;

	bool fail_state() const { return failed_; }
	void reset() { failed_ = false; }

	private:
	bool failed_;
	};

	} // namespace

	TEST(ThreadCollisionTest, BookCriticalSection) {
	AssertReporter* local_reporter = new AssertReporter();

	base::ThreadCollisionWarner warner(local_reporter);
	EXPECT_FALSE(local_reporter->fail_state());

	{ // Pin section.
	DFAKE_SCOPED_LOCK_THREAD_LOCKED(warner);
	EXPECT_FALSE(local_reporter->fail_state());
	{ // Pin section.
	DFAKE_SCOPED_LOCK_THREAD_LOCKED(warner);
	EXPECT_FALSE(local_reporter->fail_state());
	}
	}
	}

	TEST(ThreadCollisionTest, ScopedRecursiveBookCriticalSection) {
	AssertReporter* local_reporter = new AssertReporter();

	base::ThreadCollisionWarner warner(local_reporter);
	EXPECT_FALSE(local_reporter->fail_state());

	{ // Pin section.
	DFAKE_SCOPED_RECURSIVE_LOCK(warner);
	EXPECT_FALSE(local_reporter->fail_state());
	{ // Pin section again (allowed by DFAKE_SCOPED_RECURSIVE_LOCK)
	DFAKE_SCOPED_RECURSIVE_LOCK(warner);
	EXPECT_FALSE(local_reporter->fail_state());
	} // Unpin section.
	} // Unpin section.

	// Check that section is not pinned
	{ // Pin section.
	DFAKE_SCOPED_LOCK(warner);
	EXPECT_FALSE(local_reporter->fail_state());
	} // Unpin section.
	}

	TEST(ThreadCollisionTest, ScopedBookCriticalSection) {
	AssertReporter* local_reporter = new AssertReporter();

	base::ThreadCollisionWarner warner(local_reporter);
	EXPECT_FALSE(local_reporter->fail_state());

	{ // Pin section.
	DFAKE_SCOPED_LOCK(warner);
	EXPECT_FALSE(local_reporter->fail_state());
	} // Unpin section.

	{ // Pin section.
	DFAKE_SCOPED_LOCK(warner);
	EXPECT_FALSE(local_reporter->fail_state());
	{
	// Pin section again (not allowed by DFAKE_SCOPED_LOCK)
	DFAKE_SCOPED_LOCK(warner);
	EXPECT_NDEBUG_FALSE_DEBUG_TRUE(local_reporter->fail_state());
	// Reset the status of warner for further tests.
	local_reporter->reset();
	} // Unpin section.
	} // Unpin section.

	{
	// Pin section.
	DFAKE_SCOPED_LOCK(warner);
	EXPECT_FALSE(local_reporter->fail_state());
	} // Unpin section.
	}

	TEST(ThreadCollisionTest, MTBookCriticalSectionTest) {
	class NonThreadSafeQueue {
	public:
	explicit NonThreadSafeQueue(base::AsserterBase* asserter)
	: push_pop_(asserter) {
	}

	void push(int value) {
	DFAKE_SCOPED_LOCK_THREAD_LOCKED(push_pop_);
	}

	int pop() {
	DFAKE_SCOPED_LOCK_THREAD_LOCKED(push_pop_);
	return 0;
	}

	private:
	DFAKE_MUTEX(push_pop_);

	DISALLOW_COPY_AND_ASSIGN(NonThreadSafeQueue);
	};

	class QueueUser : public base::DelegateSimpleThread::Delegate {
	public:
	explicit QueueUser(NonThreadSafeQueue* queue) : queue_(queue) {}

	void Run() override {
	queue_->push(0);
	queue_->pop();
	}

	private:
	NonThreadSafeQueue* queue_;
	};

	AssertReporter* local_reporter = new AssertReporter();

	NonThreadSafeQueue queue(local_reporter);

	QueueUser queue_user_a(&queue);
	QueueUser queue_user_b(&queue);

	base::DelegateSimpleThread thread_a(&queue_user_a, "queue_user_thread_a");
	base::DelegateSimpleThread thread_b(&queue_user_b, "queue_user_thread_b");

	thread_a.Start();
	thread_b.Start();

	thread_a.Join();
	thread_b.Join();

	EXPECT_NDEBUG_FALSE_DEBUG_TRUE(local_reporter->fail_state());
	}

	TEST(ThreadCollisionTest, MTScopedBookCriticalSectionTest) {
	// Queue with a 5 seconds push execution time, hopefuly the two used threads
	// in the test will enter the push at same time.
	class NonThreadSafeQueue {
	public:
	explicit NonThreadSafeQueue(base::AsserterBase* asserter)
	: push_pop_(asserter) {
	}

	void push(int value) {
	DFAKE_SCOPED_LOCK(push_pop_);
	base::PlatformThread::Sleep(base::TimeDelta::FromSeconds(5));
	}

	int pop() {
	DFAKE_SCOPED_LOCK(push_pop_);
	return 0;
	}

	private:
	DFAKE_MUTEX(push_pop_);

	DISALLOW_COPY_AND_ASSIGN(NonThreadSafeQueue);
	};

	class QueueUser : public base::DelegateSimpleThread::Delegate {
	public:
	explicit QueueUser(NonThreadSafeQueue* queue) : queue_(queue) {}

	void Run() override {
	queue_->push(0);
	queue_->pop();
	}

	private:
	NonThreadSafeQueue* queue_;
	};

	AssertReporter* local_reporter = new AssertReporter();

	NonThreadSafeQueue queue(local_reporter);

	QueueUser queue_user_a(&queue);
	QueueUser queue_user_b(&queue);

	base::DelegateSimpleThread thread_a(&queue_user_a, "queue_user_thread_a");
	base::DelegateSimpleThread thread_b(&queue_user_b, "queue_user_thread_b");

	thread_a.Start();
	thread_b.Start();

	thread_a.Join();
	thread_b.Join();

	EXPECT_NDEBUG_FALSE_DEBUG_TRUE(local_reporter->fail_state());
	}

	TEST(ThreadCollisionTest, MTSynchedScopedBookCriticalSectionTest) {
	// Queue with a 2 seconds push execution time, hopefuly the two used threads
	// in the test will enter the push at same time.
	class NonThreadSafeQueue {
	public:
	explicit NonThreadSafeQueue(base::AsserterBase* asserter)
	: push_pop_(asserter) {
	}

	void push(int value) {
	DFAKE_SCOPED_LOCK(push_pop_);
	base::PlatformThread::Sleep(base::TimeDelta::FromSeconds(2));
	}

	int pop() {
	DFAKE_SCOPED_LOCK(push_pop_);
	return 0;
	}

	private:
	DFAKE_MUTEX(push_pop_);

	DISALLOW_COPY_AND_ASSIGN(NonThreadSafeQueue);
	};

	// This time the QueueUser class protects the non thread safe queue with
	// a lock.
	class QueueUser : public base::DelegateSimpleThread::Delegate {
	public:
	QueueUser(NonThreadSafeQueue* queue, base::Lock* lock)
	: queue_(queue), lock_(lock) {}

	void Run() override {
	{
	base::AutoLock auto_lock(*lock_);
	queue_->push(0);
	}
	{
	base::AutoLock auto_lock(*lock_);
	queue_->pop();
	}
	}
	private:
	NonThreadSafeQueue* queue_;
	base::Lock* lock_;
	};

	AssertReporter* local_reporter = new AssertReporter();

	NonThreadSafeQueue queue(local_reporter);

	base::Lock lock;

	QueueUser queue_user_a(&queue, &lock);
	QueueUser queue_user_b(&queue, &lock);

	base::DelegateSimpleThread thread_a(&queue_user_a, "queue_user_thread_a");
	base::DelegateSimpleThread thread_b(&queue_user_b, "queue_user_thread_b");

	thread_a.Start();
	thread_b.Start();

	thread_a.Join();
	thread_b.Join();

	EXPECT_FALSE(local_reporter->fail_state());
	}

	TEST(ThreadCollisionTest, MTSynchedScopedRecursiveBookCriticalSectionTest) {
	// Queue with a 2 seconds push execution time, hopefuly the two used threads
	// in the test will enter the push at same time.
	class NonThreadSafeQueue {
	public:
	explicit NonThreadSafeQueue(base::AsserterBase* asserter)
	: push_pop_(asserter) {
	}

	void push(int) {
	DFAKE_SCOPED_RECURSIVE_LOCK(push_pop_);
	bar();
	base::PlatformThread::Sleep(base::TimeDelta::FromSeconds(2));
	}

	int pop() {
	DFAKE_SCOPED_RECURSIVE_LOCK(push_pop_);
	return 0;
	}

	void bar() {
	DFAKE_SCOPED_RECURSIVE_LOCK(push_pop_);
	}

	private:
	DFAKE_MUTEX(push_pop_);

	DISALLOW_COPY_AND_ASSIGN(NonThreadSafeQueue);
	};

	// This time the QueueUser class protects the non thread safe queue with
	// a lock.
	class QueueUser : public base::DelegateSimpleThread::Delegate {
	public:
	QueueUser(NonThreadSafeQueue* queue, base::Lock* lock)
	: queue_(queue), lock_(lock) {}

	void Run() override {
	{
	base::AutoLock auto_lock(*lock_);
	queue_->push(0);
	}
	{
	base::AutoLock auto_lock(*lock_);
	queue_->bar();
	}
	{
	base::AutoLock auto_lock(*lock_);
	queue_->pop();
	}
	}
	private:
	NonThreadSafeQueue* queue_;
	base::Lock* lock_;
	};

	AssertReporter* local_reporter = new AssertReporter();

	NonThreadSafeQueue queue(local_reporter);

	base::Lock lock;

	QueueUser queue_user_a(&queue, &lock);
	QueueUser queue_user_b(&queue, &lock);

	base::DelegateSimpleThread thread_a(&queue_user_a, "queue_user_thread_a");
	base::DelegateSimpleThread thread_b(&queue_user_b, "queue_user_thread_b");

	thread_a.Start();
	thread_b.Start();

	thread_a.Join();
	thread_b.Join();

	EXPECT_FALSE(local_reporter->fail_state());
	}