src/base/platform/condition-variable.cc - fp2-dev/platform/external/v8 - Gitiles

 // Copyright 2013 the V8 project 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 "src/base/platform/condition-variable.h"

 #include <errno.h>
 #include <time.h>

 #include "src/base/platform/time.h"

 namespace v8 {
 namespace base {

 #if V8_OS_POSIX

 ConditionVariable::ConditionVariable() {
 #if (V8_OS_FREEBSD || V8_OS_NETBSD || V8_OS_OPENBSD || \
      (V8_OS_LINUX && V8_LIBC_GLIBC))
   // On Free/Net/OpenBSD and Linux with glibc we can change the time
   // source for pthread_cond_timedwait() to use the monotonic clock.
   pthread_condattr_t attr;
   int result = pthread_condattr_init(&attr);
   DCHECK_EQ(0, result);
   result = pthread_condattr_setclock(&attr, CLOCK_MONOTONIC);
   DCHECK_EQ(0, result);
   result = pthread_cond_init(&native_handle_, &attr);
   DCHECK_EQ(0, result);
   result = pthread_condattr_destroy(&attr);
 #else
   int result = pthread_cond_init(&native_handle_, NULL);
 #endif
   DCHECK_EQ(0, result);
   USE(result);
 }


 ConditionVariable::~ConditionVariable() {
 #if defined(V8_OS_MACOSX)
   // This hack is necessary to avoid a fatal pthreads subsystem bug in the
   // Darwin kernel. http://crbug.com/517681.
   {
     Mutex lock;
     LockGuard<Mutex> l(&lock);
     struct timespec ts;
     ts.tv_sec = 0;
     ts.tv_nsec = 1;
     pthread_cond_timedwait_relative_np(&native_handle_, &lock.native_handle(),
                                        &ts);
   }
 #endif
   int result = pthread_cond_destroy(&native_handle_);
   DCHECK_EQ(0, result);
   USE(result);
 }


 void ConditionVariable::NotifyOne() {
   int result = pthread_cond_signal(&native_handle_);
   DCHECK_EQ(0, result);
   USE(result);
 }


 void ConditionVariable::NotifyAll() {
   int result = pthread_cond_broadcast(&native_handle_);
   DCHECK_EQ(0, result);
   USE(result);
 }


 void ConditionVariable::Wait(Mutex* mutex) {
   mutex->AssertHeldAndUnmark();
   int result = pthread_cond_wait(&native_handle_, &mutex->native_handle());
   DCHECK_EQ(0, result);
   USE(result);
   mutex->AssertUnheldAndMark();
 }


 bool ConditionVariable::WaitFor(Mutex* mutex, const TimeDelta& rel_time) {
   struct timespec ts;
   int result;
   mutex->AssertHeldAndUnmark();
 #if V8_OS_MACOSX
   // Mac OS X provides pthread_cond_timedwait_relative_np(), which does
   // not depend on the real time clock, which is what you really WANT here!
   ts = rel_time.ToTimespec();
   DCHECK_GE(ts.tv_sec, 0);
   DCHECK_GE(ts.tv_nsec, 0);
   result = pthread_cond_timedwait_relative_np(
       &native_handle_, &mutex->native_handle(), &ts);
 #else
 #if (V8_OS_FREEBSD || V8_OS_NETBSD || V8_OS_OPENBSD || \
      (V8_OS_LINUX && V8_LIBC_GLIBC))
   // On Free/Net/OpenBSD and Linux with glibc we can change the time
   // source for pthread_cond_timedwait() to use the monotonic clock.
   result = clock_gettime(CLOCK_MONOTONIC, &ts);
   DCHECK_EQ(0, result);
   Time now = Time::FromTimespec(ts);
 #else
   // The timeout argument to pthread_cond_timedwait() is in absolute time.
   Time now = Time::NowFromSystemTime();
 #endif
   Time end_time = now + rel_time;
   DCHECK_GE(end_time, now);
   ts = end_time.ToTimespec();
   result = pthread_cond_timedwait(
       &native_handle_, &mutex->native_handle(), &ts);
 #endif  // V8_OS_MACOSX
   mutex->AssertUnheldAndMark();
   if (result == ETIMEDOUT) {
     return false;
   }
   DCHECK_EQ(0, result);
   return true;
 }

 #elif V8_OS_WIN

 struct ConditionVariable::Event {
   Event() : handle_(::CreateEventA(NULL, true, false, NULL)) {
     DCHECK(handle_ != NULL);
   }

   ~Event() {
     BOOL ok = ::CloseHandle(handle_);
     DCHECK(ok);
     USE(ok);
   }

   bool WaitFor(DWORD timeout_ms) {
     DWORD result = ::WaitForSingleObject(handle_, timeout_ms);
     if (result == WAIT_OBJECT_0) {
       return true;
     }
     DCHECK(result == WAIT_TIMEOUT);
     return false;
   }

   HANDLE handle_;
   Event* next_;
   HANDLE thread_;
   volatile bool notified_;
 };


 ConditionVariable::NativeHandle::~NativeHandle() {
   DCHECK(waitlist_ == NULL);

   while (freelist_ != NULL) {
     Event* event = freelist_;
     freelist_ = event->next_;
     delete event;
   }
 }


 ConditionVariable::Event* ConditionVariable::NativeHandle::Pre() {
   LockGuard<Mutex> lock_guard(&mutex_);

   // Grab an event from the free list or create a new one.
   Event* event = freelist_;
   if (event != NULL) {
     freelist_ = event->next_;
   } else {
     event = new Event;
   }
   event->thread_ = GetCurrentThread();
   event->notified_ = false;

 #ifdef DEBUG
   // The event must not be on the wait list.
   for (Event* we = waitlist_; we != NULL; we = we->next_) {
     DCHECK_NE(event, we);
   }
 #endif

   // Prepend the event to the wait list.
   event->next_ = waitlist_;
   waitlist_ = event;

   return event;
 }


 void ConditionVariable::NativeHandle::Post(Event* event, bool result) {
   LockGuard<Mutex> lock_guard(&mutex_);

   // Remove the event from the wait list.
   for (Event** wep = &waitlist_;; wep = &(*wep)->next_) {
     DCHECK(*wep);
     if (*wep == event) {
       *wep = event->next_;
       break;
     }
   }

 #ifdef DEBUG
   // The event must not be on the free list.
   for (Event* fe = freelist_; fe != NULL; fe = fe->next_) {
     DCHECK_NE(event, fe);
   }
 #endif

   // Reset the event.
   BOOL ok = ::ResetEvent(event->handle_);
   DCHECK(ok);
   USE(ok);

   // Insert the event into the free list.
   event->next_ = freelist_;
   freelist_ = event;

   // Forward signals delivered after the timeout to the next waiting event.
   if (!result && event->notified_ && waitlist_ != NULL) {
     ok = ::SetEvent(waitlist_->handle_);
     DCHECK(ok);
     USE(ok);
     waitlist_->notified_ = true;
   }
 }


 ConditionVariable::ConditionVariable() {}


 ConditionVariable::~ConditionVariable() {}


 void ConditionVariable::NotifyOne() {
   // Notify the thread with the highest priority in the waitlist
   // that was not already signalled.
   LockGuard<Mutex> lock_guard(native_handle_.mutex());
   Event* highest_event = NULL;
   int highest_priority = std::numeric_limits<int>::min();
   for (Event* event = native_handle().waitlist();
        event != NULL;
        event = event->next_) {
     if (event->notified_) {
       continue;
     }
     int priority = GetThreadPriority(event->thread_);
     DCHECK_NE(THREAD_PRIORITY_ERROR_RETURN, priority);
     if (priority >= highest_priority) {
       highest_priority = priority;
       highest_event = event;
     }
   }
   if (highest_event != NULL) {
     DCHECK(!highest_event->notified_);
     ::SetEvent(highest_event->handle_);
     highest_event->notified_ = true;
   }
 }


 void ConditionVariable::NotifyAll() {
   // Notify all threads on the waitlist.
   LockGuard<Mutex> lock_guard(native_handle_.mutex());
   for (Event* event = native_handle().waitlist();
        event != NULL;
        event = event->next_) {
     if (!event->notified_) {
       ::SetEvent(event->handle_);
       event->notified_ = true;
     }
   }
 }


 void ConditionVariable::Wait(Mutex* mutex) {
   // Create and setup the wait event.
   Event* event = native_handle_.Pre();

   // Release the user mutex.
   mutex->Unlock();

   // Wait on the wait event.
   while (!event->WaitFor(INFINITE)) {
   }

   // Reaquire the user mutex.
   mutex->Lock();

   // Release the wait event (we must have been notified).
   DCHECK(event->notified_);
   native_handle_.Post(event, true);
 }


 bool ConditionVariable::WaitFor(Mutex* mutex, const TimeDelta& rel_time) {
   // Create and setup the wait event.
   Event* event = native_handle_.Pre();

   // Release the user mutex.
   mutex->Unlock();

   // Wait on the wait event.
   TimeTicks now = TimeTicks::Now();
   TimeTicks end = now + rel_time;
   bool result = false;
   while (true) {
     int64_t msec = (end - now).InMilliseconds();
     if (msec >= static_cast<int64_t>(INFINITE)) {
       result = event->WaitFor(INFINITE - 1);
       if (result) {
         break;
       }
       now = TimeTicks::Now();
     } else {
       result = event->WaitFor((msec < 0) ? 0 : static_cast<DWORD>(msec));
       break;
     }
   }

   // Reaquire the user mutex.
   mutex->Lock();

   // Release the wait event.
   DCHECK(!result || event->notified_);
   native_handle_.Post(event, result);

   return result;
 }

 #endif  // V8_OS_POSIX

 }  // namespace base
 }  // namespace v8
	// Copyright 2013 the V8 project 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 "src/base/platform/condition-variable.h"

	#include <errno.h>
	#include <time.h>

	#include "src/base/platform/time.h"

	namespace v8 {
	namespace base {

	#if V8_OS_POSIX

	ConditionVariable::ConditionVariable() {
	#if (V8_OS_FREEBSD \|\| V8_OS_NETBSD \|\| V8_OS_OPENBSD \|\| \
	(V8_OS_LINUX && V8_LIBC_GLIBC))
	// On Free/Net/OpenBSD and Linux with glibc we can change the time
	// source for pthread_cond_timedwait() to use the monotonic clock.
	pthread_condattr_t attr;
	int result = pthread_condattr_init(&attr);
	DCHECK_EQ(0, result);
	result = pthread_condattr_setclock(&attr, CLOCK_MONOTONIC);
	DCHECK_EQ(0, result);
	result = pthread_cond_init(&native_handle_, &attr);
	DCHECK_EQ(0, result);
	result = pthread_condattr_destroy(&attr);
	#else
	int result = pthread_cond_init(&native_handle_, NULL);
	#endif
	DCHECK_EQ(0, result);
	USE(result);
	}


	ConditionVariable::~ConditionVariable() {
	#if defined(V8_OS_MACOSX)
	// This hack is necessary to avoid a fatal pthreads subsystem bug in the
	// Darwin kernel. http://crbug.com/517681.
	{
	Mutex lock;
	LockGuard<Mutex> l(&lock);
	struct timespec ts;
	ts.tv_sec = 0;
	ts.tv_nsec = 1;
	pthread_cond_timedwait_relative_np(&native_handle_, &lock.native_handle(),
	&ts);
	}
	#endif
	int result = pthread_cond_destroy(&native_handle_);
	DCHECK_EQ(0, result);
	USE(result);
	}


	void ConditionVariable::NotifyOne() {
	int result = pthread_cond_signal(&native_handle_);
	DCHECK_EQ(0, result);
	USE(result);
	}


	void ConditionVariable::NotifyAll() {
	int result = pthread_cond_broadcast(&native_handle_);
	DCHECK_EQ(0, result);
	USE(result);
	}


	void ConditionVariable::Wait(Mutex* mutex) {
	mutex->AssertHeldAndUnmark();
	int result = pthread_cond_wait(&native_handle_, &mutex->native_handle());
	DCHECK_EQ(0, result);
	USE(result);
	mutex->AssertUnheldAndMark();
	}


	bool ConditionVariable::WaitFor(Mutex* mutex, const TimeDelta& rel_time) {
	struct timespec ts;
	int result;
	mutex->AssertHeldAndUnmark();
	#if V8_OS_MACOSX
	// Mac OS X provides pthread_cond_timedwait_relative_np(), which does
	// not depend on the real time clock, which is what you really WANT here!
	ts = rel_time.ToTimespec();
	DCHECK_GE(ts.tv_sec, 0);
	DCHECK_GE(ts.tv_nsec, 0);
	result = pthread_cond_timedwait_relative_np(
	&native_handle_, &mutex->native_handle(), &ts);
	#else
	#if (V8_OS_FREEBSD \|\| V8_OS_NETBSD \|\| V8_OS_OPENBSD \|\| \
	(V8_OS_LINUX && V8_LIBC_GLIBC))
	// On Free/Net/OpenBSD and Linux with glibc we can change the time
	// source for pthread_cond_timedwait() to use the monotonic clock.
	result = clock_gettime(CLOCK_MONOTONIC, &ts);
	DCHECK_EQ(0, result);
	Time now = Time::FromTimespec(ts);
	#else
	// The timeout argument to pthread_cond_timedwait() is in absolute time.
	Time now = Time::NowFromSystemTime();
	#endif
	Time end_time = now + rel_time;
	DCHECK_GE(end_time, now);
	ts = end_time.ToTimespec();
	result = pthread_cond_timedwait(
	&native_handle_, &mutex->native_handle(), &ts);
	#endif // V8_OS_MACOSX
	mutex->AssertUnheldAndMark();
	if (result == ETIMEDOUT) {
	return false;
	}
	DCHECK_EQ(0, result);
	return true;
	}

	#elif V8_OS_WIN

	struct ConditionVariable::Event {
	Event() : handle_(::CreateEventA(NULL, true, false, NULL)) {
	DCHECK(handle_ != NULL);
	}

	~Event() {
	BOOL ok = ::CloseHandle(handle_);
	DCHECK(ok);
	USE(ok);
	}

	bool WaitFor(DWORD timeout_ms) {
	DWORD result = ::WaitForSingleObject(handle_, timeout_ms);
	if (result == WAIT_OBJECT_0) {
	return true;
	}
	DCHECK(result == WAIT_TIMEOUT);
	return false;
	}

	HANDLE handle_;
	Event* next_;
	HANDLE thread_;
	volatile bool notified_;
	};


	ConditionVariable::NativeHandle::~NativeHandle() {
	DCHECK(waitlist_ == NULL);

	while (freelist_ != NULL) {
	Event* event = freelist_;
	freelist_ = event->next_;
	delete event;
	}
	}


	ConditionVariable::Event* ConditionVariable::NativeHandle::Pre() {
	LockGuard<Mutex> lock_guard(&mutex_);

	// Grab an event from the free list or create a new one.
	Event* event = freelist_;
	if (event != NULL) {
	freelist_ = event->next_;
	} else {
	event = new Event;
	}
	event->thread_ = GetCurrentThread();
	event->notified_ = false;

	#ifdef DEBUG
	// The event must not be on the wait list.
	for (Event* we = waitlist_; we != NULL; we = we->next_) {
	DCHECK_NE(event, we);
	}
	#endif

	// Prepend the event to the wait list.
	event->next_ = waitlist_;
	waitlist_ = event;

	return event;
	}


	void ConditionVariable::NativeHandle::Post(Event* event, bool result) {
	LockGuard<Mutex> lock_guard(&mutex_);

	// Remove the event from the wait list.
	for (Event** wep = &waitlist_;; wep = &(*wep)->next_) {
	DCHECK(*wep);
	if (*wep == event) {
	*wep = event->next_;
	break;
	}
	}

	#ifdef DEBUG
	// The event must not be on the free list.
	for (Event* fe = freelist_; fe != NULL; fe = fe->next_) {
	DCHECK_NE(event, fe);
	}
	#endif

	// Reset the event.
	BOOL ok = ::ResetEvent(event->handle_);
	DCHECK(ok);
	USE(ok);

	// Insert the event into the free list.
	event->next_ = freelist_;
	freelist_ = event;

	// Forward signals delivered after the timeout to the next waiting event.
	if (!result && event->notified_ && waitlist_ != NULL) {
	ok = ::SetEvent(waitlist_->handle_);
	DCHECK(ok);
	USE(ok);
	waitlist_->notified_ = true;
	}
	}


	ConditionVariable::ConditionVariable() {}


	ConditionVariable::~ConditionVariable() {}


	void ConditionVariable::NotifyOne() {
	// Notify the thread with the highest priority in the waitlist
	// that was not already signalled.
	LockGuard<Mutex> lock_guard(native_handle_.mutex());
	Event* highest_event = NULL;
	int highest_priority = std::numeric_limits<int>::min();
	for (Event* event = native_handle().waitlist();
	event != NULL;
	event = event->next_) {
	if (event->notified_) {
	continue;
	}
	int priority = GetThreadPriority(event->thread_);
	DCHECK_NE(THREAD_PRIORITY_ERROR_RETURN, priority);
	if (priority >= highest_priority) {
	highest_priority = priority;
	highest_event = event;
	}
	}
	if (highest_event != NULL) {
	DCHECK(!highest_event->notified_);
	::SetEvent(highest_event->handle_);
	highest_event->notified_ = true;
	}
	}


	void ConditionVariable::NotifyAll() {
	// Notify all threads on the waitlist.
	LockGuard<Mutex> lock_guard(native_handle_.mutex());
	for (Event* event = native_handle().waitlist();
	event != NULL;
	event = event->next_) {
	if (!event->notified_) {
	::SetEvent(event->handle_);
	event->notified_ = true;
	}
	}
	}


	void ConditionVariable::Wait(Mutex* mutex) {
	// Create and setup the wait event.
	Event* event = native_handle_.Pre();

	// Release the user mutex.
	mutex->Unlock();

	// Wait on the wait event.
	while (!event->WaitFor(INFINITE)) {
	}

	// Reaquire the user mutex.
	mutex->Lock();

	// Release the wait event (we must have been notified).
	DCHECK(event->notified_);
	native_handle_.Post(event, true);
	}


	bool ConditionVariable::WaitFor(Mutex* mutex, const TimeDelta& rel_time) {
	// Create and setup the wait event.
	Event* event = native_handle_.Pre();

	// Release the user mutex.
	mutex->Unlock();

	// Wait on the wait event.
	TimeTicks now = TimeTicks::Now();
	TimeTicks end = now + rel_time;
	bool result = false;
	while (true) {
	int64_t msec = (end - now).InMilliseconds();
	if (msec >= static_cast<int64_t>(INFINITE)) {
	result = event->WaitFor(INFINITE - 1);
	if (result) {
	break;
	}
	now = TimeTicks::Now();
	} else {
	result = event->WaitFor((msec < 0) ? 0 : static_cast<DWORD>(msec));
	break;
	}
	}

	// Reaquire the user mutex.
	mutex->Lock();

	// Release the wait event.
	DCHECK(!result \|\| event->notified_);
	native_handle_.Post(event, result);

	return result;
	}

	#endif // V8_OS_POSIX

	} // namespace base
	} // namespace v8