runtime/vm/lockers.cc - sdk.git - Git at Google

 // Copyright (c) 2016, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #include "vm/lockers.h"
 #include "platform/assert.h"
 #include "vm/heap/safepoint.h"
 #include "vm/isolate.h"

 namespace dart {

 Monitor::WaitResult MonitorLocker::WaitWithSafepointCheck(Thread* thread,
                                                           int64_t millis) {
   ASSERT(thread == Thread::Current());
   ASSERT(thread->execution_state() == Thread::kThreadInVM);
 #if defined(DEBUG)
   if (no_safepoint_scope_) {
     thread->DecrementNoSafepointScopeDepth();
   }
 #endif
   thread->set_execution_state(Thread::kThreadInBlockedState);
   thread->EnterSafepoint();
   Monitor::WaitResult result = monitor_->Wait(millis);
   // First try a fast update of the thread state to indicate it is not at a
   // safepoint anymore.
   if (!thread->TryExitSafepoint()) {
     // Fast update failed which means we could potentially be in the middle
     // of a safepoint operation and need to block for it.
     monitor_->Exit();
     thread->ExitSafepointUsingLock();
     monitor_->Enter();
   }
   thread->set_execution_state(Thread::kThreadInVM);
 #if defined(DEBUG)
   if (no_safepoint_scope_) {
     thread->IncrementNoSafepointScopeDepth();
   }
 #endif
   return result;
 }

 SafepointMutexLocker::SafepointMutexLocker(ThreadState* thread, Mutex* mutex)
     : StackResource(thread), mutex_(mutex) {
   ASSERT(mutex != NULL);
   if (!mutex_->TryLock()) {
     // We did not get the lock and could potentially block, so transition
     // accordingly.
     Thread* thread = Thread::Current();
     if (thread != NULL) {
       TransitionVMToBlocked transition(thread);
       mutex->Lock();
     } else {
       mutex->Lock();
     }
   }
 }

 void SafepointMonitorLocker::AcquireLock() {
   ASSERT(monitor_ != NULL);
   if (!monitor_->TryEnter()) {
     // We did not get the lock and could potentially block, so transition
     // accordingly.
     Thread* thread = Thread::Current();
     if (thread != NULL) {
       TransitionVMToBlocked transition(thread);
       monitor_->Enter();
     } else {
       monitor_->Enter();
     }
   }
 }

 void SafepointMonitorLocker::ReleaseLock() {
   monitor_->Exit();
 }

 Monitor::WaitResult SafepointMonitorLocker::Wait(int64_t millis) {
   Thread* thread = Thread::Current();
   if (thread != NULL) {
     Monitor::WaitResult result;
     {
       TransitionVMToBlocked transition(thread);
       result = monitor_->Wait(millis);
     }
     return result;
   } else {
     return monitor_->Wait(millis);
   }
 }

 #if defined(DEBUG)
 bool SafepointRwLock::IsCurrentThreadReader() {
   ThreadId id = OSThread::GetCurrentThreadId();
   if (IsCurrentThreadWriter()) {
     return true;
   }
   MonitorLocker ml(&monitor_);
   for (intptr_t i = readers_ids_.length() - 1; i >= 0; i--) {
     if (readers_ids_.At(i) == id) {
       return true;
     }
   }
   return false;
 }
 #endif  // defined(DEBUG)

 bool SafepointRwLock::EnterRead() {
   // No need to safepoint if the current thread is not attached.
   auto thread = Thread::Current();
   // Attempt to acquire a lock while owning a safepoint could lead to a deadlock
   // (some other thread might be forced to a safepoint while holding this lock).
   ASSERT(thread == nullptr ||
          !thread->isolate_group()->safepoint_handler()->IsOwnedByTheThread(
              thread));

   const bool can_block_without_safepoint = thread == nullptr;

   bool acquired_read_lock = false;
   if (!TryEnterRead(can_block_without_safepoint, &acquired_read_lock)) {
     // Important: must never hold monitor_ when blocking for safepoint.
     TransitionVMToBlocked transition(thread);
     const bool ok = TryEnterRead(/*can_block=*/true, &acquired_read_lock);
     RELEASE_ASSERT(ok);
     RELEASE_ASSERT(acquired_read_lock);
   }
   return acquired_read_lock;
 }

 bool SafepointRwLock::TryEnterRead(bool can_block, bool* acquired_read_lock) {
   MonitorLocker ml(&monitor_);
   if (IsCurrentThreadWriter()) {
     *acquired_read_lock = false;
     return true;
   }
   if (can_block) {
     while (state_ < 0) {
       ml.Wait();
     }
   }
   if (state_ >= 0) {
     ++state_;
     DEBUG_ONLY(readers_ids_.Add(OSThread::GetCurrentThreadId()));
     *acquired_read_lock = true;
     return true;
   }
   return false;
 }

 void SafepointRwLock::LeaveRead() {
   MonitorLocker ml(&monitor_);
   ASSERT(state_ > 0);
 #if defined(DEBUG)
   {
     intptr_t i = readers_ids_.length() - 1;
     ThreadId id = OSThread::GetCurrentThreadId();
     while (i >= 0) {
       if (readers_ids_.At(i) == id) {
         readers_ids_.RemoveAt(i);
         break;
       }
       i--;
     }
     ASSERT(i >= 0);
   }
 #endif
   if (--state_ == 0) {
     ml.NotifyAll();
   }
 }

 void SafepointRwLock::EnterWrite() {
   // No need to safepoint if the current thread is not attached.
   auto thread = Thread::Current();
   const bool can_block_without_safepoint = thread == nullptr;

   if (!TryEnterWrite(can_block_without_safepoint)) {
     // Important: must never hold monitor_ when blocking for safepoint.
     TransitionVMToBlocked transition(thread);
     const bool ok = TryEnterWrite(/*can_block=*/true);
     RELEASE_ASSERT(ok);
   }
 }

 bool SafepointRwLock::TryEnterWrite(bool can_block) {
   MonitorLocker ml(&monitor_);
   if (IsCurrentThreadWriter()) {
     state_--;
     return true;
   }
   if (can_block) {
     while (state_ != 0) {
       ml.Wait();
     }
   }
   if (state_ == 0) {
     writer_id_ = OSThread::GetCurrentThreadId();
     state_ = -1;
     return true;
   }
   return false;
 }

 void SafepointRwLock::LeaveWrite() {
   MonitorLocker ml(&monitor_);
   ASSERT(state_ < 0);
   if (++state_ < 0) {
     return;
   }
   writer_id_ = OSThread::kInvalidThreadId;
   ml.NotifyAll();
 }

 }  // namespace dart
	// Copyright (c) 2016, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#include "vm/lockers.h"
	#include "platform/assert.h"
	#include "vm/heap/safepoint.h"
	#include "vm/isolate.h"

	namespace dart {

	Monitor::WaitResult MonitorLocker::WaitWithSafepointCheck(Thread* thread,
	int64_t millis) {
	ASSERT(thread == Thread::Current());
	ASSERT(thread->execution_state() == Thread::kThreadInVM);
	#if defined(DEBUG)
	if (no_safepoint_scope_) {
	thread->DecrementNoSafepointScopeDepth();
	}
	#endif
	thread->set_execution_state(Thread::kThreadInBlockedState);
	thread->EnterSafepoint();
	Monitor::WaitResult result = monitor_->Wait(millis);
	// First try a fast update of the thread state to indicate it is not at a
	// safepoint anymore.
	if (!thread->TryExitSafepoint()) {
	// Fast update failed which means we could potentially be in the middle
	// of a safepoint operation and need to block for it.
	monitor_->Exit();
	thread->ExitSafepointUsingLock();
	monitor_->Enter();
	}
	thread->set_execution_state(Thread::kThreadInVM);
	#if defined(DEBUG)
	if (no_safepoint_scope_) {
	thread->IncrementNoSafepointScopeDepth();
	}
	#endif
	return result;
	}

	SafepointMutexLocker::SafepointMutexLocker(ThreadState* thread, Mutex* mutex)
	: StackResource(thread), mutex_(mutex) {
	ASSERT(mutex != NULL);
	if (!mutex_->TryLock()) {
	// We did not get the lock and could potentially block, so transition
	// accordingly.
	Thread* thread = Thread::Current();
	if (thread != NULL) {
	TransitionVMToBlocked transition(thread);
	mutex->Lock();
	} else {
	mutex->Lock();
	}
	}
	}

	void SafepointMonitorLocker::AcquireLock() {
	ASSERT(monitor_ != NULL);
	if (!monitor_->TryEnter()) {
	// We did not get the lock and could potentially block, so transition
	// accordingly.
	Thread* thread = Thread::Current();
	if (thread != NULL) {
	TransitionVMToBlocked transition(thread);
	monitor_->Enter();
	} else {
	monitor_->Enter();
	}
	}
	}

	void SafepointMonitorLocker::ReleaseLock() {
	monitor_->Exit();
	}

	Monitor::WaitResult SafepointMonitorLocker::Wait(int64_t millis) {
	Thread* thread = Thread::Current();
	if (thread != NULL) {
	Monitor::WaitResult result;
	{
	TransitionVMToBlocked transition(thread);
	result = monitor_->Wait(millis);
	}
	return result;
	} else {
	return monitor_->Wait(millis);
	}
	}

	#if defined(DEBUG)
	bool SafepointRwLock::IsCurrentThreadReader() {
	ThreadId id = OSThread::GetCurrentThreadId();
	if (IsCurrentThreadWriter()) {
	return true;
	}
	MonitorLocker ml(&monitor_);
	for (intptr_t i = readers_ids_.length() - 1; i >= 0; i--) {
	if (readers_ids_.At(i) == id) {
	return true;
	}
	}
	return false;
	}
	#endif // defined(DEBUG)

	bool SafepointRwLock::EnterRead() {
	// No need to safepoint if the current thread is not attached.
	auto thread = Thread::Current();
	// Attempt to acquire a lock while owning a safepoint could lead to a deadlock
	// (some other thread might be forced to a safepoint while holding this lock).
	ASSERT(thread == nullptr \|\|
	!thread->isolate_group()->safepoint_handler()->IsOwnedByTheThread(
	thread));

	const bool can_block_without_safepoint = thread == nullptr;

	bool acquired_read_lock = false;
	if (!TryEnterRead(can_block_without_safepoint, &acquired_read_lock)) {
	// Important: must never hold monitor_ when blocking for safepoint.
	TransitionVMToBlocked transition(thread);
	const bool ok = TryEnterRead(/can_block=/true, &acquired_read_lock);
	RELEASE_ASSERT(ok);
	RELEASE_ASSERT(acquired_read_lock);
	}
	return acquired_read_lock;
	}

	bool SafepointRwLock::TryEnterRead(bool can_block, bool* acquired_read_lock) {
	MonitorLocker ml(&monitor_);
	if (IsCurrentThreadWriter()) {
	*acquired_read_lock = false;
	return true;
	}
	if (can_block) {
	while (state_ < 0) {
	ml.Wait();
	}
	}
	if (state_ >= 0) {
	++state_;
	DEBUG_ONLY(readers_ids_.Add(OSThread::GetCurrentThreadId()));
	*acquired_read_lock = true;
	return true;
	}
	return false;
	}

	void SafepointRwLock::LeaveRead() {
	MonitorLocker ml(&monitor_);
	ASSERT(state_ > 0);
	#if defined(DEBUG)
	{
	intptr_t i = readers_ids_.length() - 1;
	ThreadId id = OSThread::GetCurrentThreadId();
	while (i >= 0) {
	if (readers_ids_.At(i) == id) {
	readers_ids_.RemoveAt(i);
	break;
	}
	i--;
	}
	ASSERT(i >= 0);
	}
	#endif
	if (--state_ == 0) {
	ml.NotifyAll();
	}
	}

	void SafepointRwLock::EnterWrite() {
	// No need to safepoint if the current thread is not attached.
	auto thread = Thread::Current();
	const bool can_block_without_safepoint = thread == nullptr;

	if (!TryEnterWrite(can_block_without_safepoint)) {
	// Important: must never hold monitor_ when blocking for safepoint.
	TransitionVMToBlocked transition(thread);
	const bool ok = TryEnterWrite(/can_block=/true);
	RELEASE_ASSERT(ok);
	}
	}

	bool SafepointRwLock::TryEnterWrite(bool can_block) {
	MonitorLocker ml(&monitor_);
	if (IsCurrentThreadWriter()) {
	state_--;
	return true;
	}
	if (can_block) {
	while (state_ != 0) {
	ml.Wait();
	}
	}
	if (state_ == 0) {
	writer_id_ = OSThread::GetCurrentThreadId();
	state_ = -1;
	return true;
	}
	return false;
	}

	void SafepointRwLock::LeaveWrite() {
	MonitorLocker ml(&monitor_);
	ASSERT(state_ < 0);
	if (++state_ < 0) {
	return;
	}
	writer_id_ = OSThread::kInvalidThreadId;
	ml.NotifyAll();
	}

	} // namespace dart