base/observer_list_threadsafe.h - aosp/platform/external/libchrome - 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.

 #ifndef BASE_OBSERVER_LIST_THREADSAFE_H_
 #define BASE_OBSERVER_LIST_THREADSAFE_H_

 #include <algorithm>
 #include <map>
 #include <memory>
 #include <tuple>

 #include "base/bind.h"
 #include "base/location.h"
 #include "base/logging.h"
 #include "base/macros.h"
 #include "base/memory/ptr_util.h"
 #include "base/memory/ref_counted.h"
 #include "base/observer_list.h"
 #include "base/single_thread_task_runner.h"
 #include "base/threading/platform_thread.h"
 #include "base/threading/thread_task_runner_handle.h"

 ///////////////////////////////////////////////////////////////////////////////
 //
 // OVERVIEW:
 //
 //   A thread-safe container for a list of observers.
 //   This is similar to the observer_list (see observer_list.h), but it
 //   is more robust for multi-threaded situations.
 //
 //   The following use cases are supported:
 //    * Observers can register for notifications from any thread.
 //      Callbacks to the observer will occur on the same thread where
 //      the observer initially called AddObserver() from.
 //    * Any thread may trigger a notification via Notify().
 //    * Observers can remove themselves from the observer list inside
 //      of a callback.
 //    * If one thread is notifying observers concurrently with an observer
 //      removing itself from the observer list, the notifications will
 //      be silently dropped.
 //
 //   The drawback of the threadsafe observer list is that notifications
 //   are not as real-time as the non-threadsafe version of this class.
 //   Notifications will always be done via PostTask() to another thread,
 //   whereas with the non-thread-safe observer_list, notifications happen
 //   synchronously and immediately.
 //
 //   IMPLEMENTATION NOTES
 //   The ObserverListThreadSafe maintains an ObserverList for each thread
 //   which uses the ThreadSafeObserver.  When Notifying the observers,
 //   we simply call PostTask to each registered thread, and then each thread
 //   will notify its regular ObserverList.
 //
 ///////////////////////////////////////////////////////////////////////////////

 namespace base {
 namespace internal {

 template <typename ObserverType, typename Method>
 struct Dispatcher;

 template <typename ObserverType, typename ReceiverType, typename... Params>
 struct Dispatcher<ObserverType, void(ReceiverType::*)(Params...)> {
   static void Run(void(ReceiverType::* m)(Params...),
                   Params... params, ObserverType* obj) {
     (obj->*m)(std::forward<Params>(params)...);
   }
 };

 }  // namespace internal

 template <class ObserverType>
 class ObserverListThreadSafe
     : public RefCountedThreadSafe<ObserverListThreadSafe<ObserverType>> {
  public:
   using NotificationType =
       typename ObserverList<ObserverType>::NotificationType;

   ObserverListThreadSafe()
       : type_(ObserverListBase<ObserverType>::NOTIFY_ALL) {}
   explicit ObserverListThreadSafe(NotificationType type) : type_(type) {}

   // Add an observer to the list.  An observer should not be added to
   // the same list more than once.
   void AddObserver(ObserverType* obs) {
     // If there is no ThreadTaskRunnerHandle, it is impossible to notify on it,
     // so do not add the observer.
     if (!ThreadTaskRunnerHandle::IsSet())
       return;

     ObserverList<ObserverType>* list = nullptr;
     PlatformThreadId thread_id = PlatformThread::CurrentId();
     {
       AutoLock lock(list_lock_);
       if (observer_lists_.find(thread_id) == observer_lists_.end()) {
         observer_lists_[thread_id] =
             base::MakeUnique<ObserverListContext>(type_);
       }
       list = &(observer_lists_[thread_id]->list);
     }
     list->AddObserver(obs);
   }

   // Remove an observer from the list if it is in the list.
   // If there are pending notifications in-transit to the observer, they will
   // be aborted.
   // If the observer to be removed is in the list, RemoveObserver MUST
   // be called from the same thread which called AddObserver.
   void RemoveObserver(ObserverType* obs) {
     PlatformThreadId thread_id = PlatformThread::CurrentId();
     {
       AutoLock lock(list_lock_);
       auto it = observer_lists_.find(thread_id);
       if (it == observer_lists_.end()) {
         // This will happen if we try to remove an observer on a thread
         // we never added an observer for.
         return;
       }
       ObserverList<ObserverType>& list = it->second->list;

       list.RemoveObserver(obs);

       // If that was the last observer in the list, remove the ObserverList
       // entirely.
       if (list.size() == 0)
         observer_lists_.erase(it);
     }
   }

   // Verifies that the list is currently empty (i.e. there are no observers).
   void AssertEmpty() const {
     AutoLock lock(list_lock_);
     DCHECK(observer_lists_.empty());
   }

   // Notify methods.
   // Make a thread-safe callback to each Observer in the list.
   // Note, these calls are effectively asynchronous.  You cannot assume
   // that at the completion of the Notify call that all Observers have
   // been Notified.  The notification may still be pending delivery.
   template <typename Method, typename... Params>
   void Notify(const tracked_objects::Location& from_here,
               Method m, Params&&... params) {
     Callback<void(ObserverType*)> method =
         Bind(&internal::Dispatcher<ObserverType, Method>::Run,
              m, std::forward<Params>(params)...);

     AutoLock lock(list_lock_);
     for (const auto& entry : observer_lists_) {
       ObserverListContext* context = entry.second.get();
       context->task_runner->PostTask(
           from_here,
           Bind(&ObserverListThreadSafe<ObserverType>::NotifyWrapper,
                this, context, method));
     }
   }

  private:
   friend class RefCountedThreadSafe<ObserverListThreadSafe<ObserverType>>;

   struct ObserverListContext {
     explicit ObserverListContext(NotificationType type)
         : task_runner(ThreadTaskRunnerHandle::Get()), list(type) {}

     scoped_refptr<SingleThreadTaskRunner> task_runner;
     ObserverList<ObserverType> list;

    private:
     DISALLOW_COPY_AND_ASSIGN(ObserverListContext);
   };

   ~ObserverListThreadSafe() {
   }

   // Wrapper which is called to fire the notifications for each thread's
   // ObserverList.  This function MUST be called on the thread which owns
   // the unsafe ObserverList.
   void NotifyWrapper(ObserverListContext* context,
                      const Callback<void(ObserverType*)>& method) {
     // Check that this list still needs notifications.
     {
       AutoLock lock(list_lock_);
       auto it = observer_lists_.find(PlatformThread::CurrentId());

       // The ObserverList could have been removed already.  In fact, it could
       // have been removed and then re-added!  If the master list's loop
       // does not match this one, then we do not need to finish this
       // notification.
       if (it == observer_lists_.end() || it->second.get() != context)
         return;
     }

     for (auto& observer : context->list) {
       method.Run(&observer);
     }

     // If there are no more observers on the list, we can now delete it.
     if (context->list.size() == 0) {
       {
         AutoLock lock(list_lock_);
         // Remove |list| if it's not already removed.
         // This can happen if multiple observers got removed in a notification.
         // See http://crbug.com/55725.
         auto it = observer_lists_.find(PlatformThread::CurrentId());
         if (it != observer_lists_.end() && it->second.get() == context)
           observer_lists_.erase(it);
       }
     }
   }

   mutable Lock list_lock_;  // Protects the observer_lists_.

   // Key by PlatformThreadId because in tests, clients can attempt to remove
   // observers without a SingleThreadTaskRunner. If this were keyed by
   // SingleThreadTaskRunner, that operation would be silently ignored, leaving
   // garbage in the ObserverList.
   std::map<PlatformThreadId, std::unique_ptr<ObserverListContext>>
       observer_lists_;

   const NotificationType type_;

   DISALLOW_COPY_AND_ASSIGN(ObserverListThreadSafe);
 };

 }  // namespace base

 #endif  // BASE_OBSERVER_LIST_THREADSAFE_H_
	// 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.

	#ifndef BASE_OBSERVER_LIST_THREADSAFE_H_
	#define BASE_OBSERVER_LIST_THREADSAFE_H_

	#include <algorithm>
	#include <map>
	#include <memory>
	#include <tuple>

	#include "base/bind.h"
	#include "base/location.h"
	#include "base/logging.h"
	#include "base/macros.h"
	#include "base/memory/ptr_util.h"
	#include "base/memory/ref_counted.h"
	#include "base/observer_list.h"
	#include "base/single_thread_task_runner.h"
	#include "base/threading/platform_thread.h"
	#include "base/threading/thread_task_runner_handle.h"

	///////////////////////////////////////////////////////////////////////////////
	//
	// OVERVIEW:
	//
	// A thread-safe container for a list of observers.
	// This is similar to the observer_list (see observer_list.h), but it
	// is more robust for multi-threaded situations.
	//
	// The following use cases are supported:
	// * Observers can register for notifications from any thread.
	// Callbacks to the observer will occur on the same thread where
	// the observer initially called AddObserver() from.
	// * Any thread may trigger a notification via Notify().
	// * Observers can remove themselves from the observer list inside
	// of a callback.
	// * If one thread is notifying observers concurrently with an observer
	// removing itself from the observer list, the notifications will
	// be silently dropped.
	//
	// The drawback of the threadsafe observer list is that notifications
	// are not as real-time as the non-threadsafe version of this class.
	// Notifications will always be done via PostTask() to another thread,
	// whereas with the non-thread-safe observer_list, notifications happen
	// synchronously and immediately.
	//
	// IMPLEMENTATION NOTES
	// The ObserverListThreadSafe maintains an ObserverList for each thread
	// which uses the ThreadSafeObserver. When Notifying the observers,
	// we simply call PostTask to each registered thread, and then each thread
	// will notify its regular ObserverList.
	//
	///////////////////////////////////////////////////////////////////////////////

	namespace base {
	namespace internal {

	template <typename ObserverType, typename Method>
	struct Dispatcher;

	template <typename ObserverType, typename ReceiverType, typename... Params>
	struct Dispatcher<ObserverType, void(ReceiverType::*)(Params...)> {
	static void Run(void(ReceiverType::* m)(Params...),
	Params... params, ObserverType* obj) {
	(obj->*m)(std::forward<Params>(params)...);
	}
	};

	} // namespace internal

	template <class ObserverType>
	class ObserverListThreadSafe
	: public RefCountedThreadSafe<ObserverListThreadSafe<ObserverType>> {
	public:
	using NotificationType =
	typename ObserverList<ObserverType>::NotificationType;

	ObserverListThreadSafe()
	: type_(ObserverListBase<ObserverType>::NOTIFY_ALL) {}
	explicit ObserverListThreadSafe(NotificationType type) : type_(type) {}

	// Add an observer to the list. An observer should not be added to
	// the same list more than once.
	void AddObserver(ObserverType* obs) {
	// If there is no ThreadTaskRunnerHandle, it is impossible to notify on it,
	// so do not add the observer.
	if (!ThreadTaskRunnerHandle::IsSet())
	return;

	ObserverList<ObserverType>* list = nullptr;
	PlatformThreadId thread_id = PlatformThread::CurrentId();
	{
	AutoLock lock(list_lock_);
	if (observer_lists_.find(thread_id) == observer_lists_.end()) {
	observer_lists_[thread_id] =
	base::MakeUnique<ObserverListContext>(type_);
	}
	list = &(observer_lists_[thread_id]->list);
	}
	list->AddObserver(obs);
	}

	// Remove an observer from the list if it is in the list.
	// If there are pending notifications in-transit to the observer, they will
	// be aborted.
	// If the observer to be removed is in the list, RemoveObserver MUST
	// be called from the same thread which called AddObserver.
	void RemoveObserver(ObserverType* obs) {
	PlatformThreadId thread_id = PlatformThread::CurrentId();
	{
	AutoLock lock(list_lock_);
	auto it = observer_lists_.find(thread_id);
	if (it == observer_lists_.end()) {
	// This will happen if we try to remove an observer on a thread
	// we never added an observer for.
	return;
	}
	ObserverList<ObserverType>& list = it->second->list;

	list.RemoveObserver(obs);

	// If that was the last observer in the list, remove the ObserverList
	// entirely.
	if (list.size() == 0)
	observer_lists_.erase(it);
	}
	}

	// Verifies that the list is currently empty (i.e. there are no observers).
	void AssertEmpty() const {
	AutoLock lock(list_lock_);
	DCHECK(observer_lists_.empty());
	}

	// Notify methods.
	// Make a thread-safe callback to each Observer in the list.
	// Note, these calls are effectively asynchronous. You cannot assume
	// that at the completion of the Notify call that all Observers have
	// been Notified. The notification may still be pending delivery.
	template <typename Method, typename... Params>
	void Notify(const tracked_objects::Location& from_here,
	Method m, Params&&... params) {
	Callback<void(ObserverType*)> method =
	Bind(&internal::Dispatcher<ObserverType, Method>::Run,
	m, std::forward<Params>(params)...);

	AutoLock lock(list_lock_);
	for (const auto& entry : observer_lists_) {
	ObserverListContext* context = entry.second.get();
	context->task_runner->PostTask(
	from_here,
	Bind(&ObserverListThreadSafe<ObserverType>::NotifyWrapper,
	this, context, method));
	}
	}

	private:
	friend class RefCountedThreadSafe<ObserverListThreadSafe<ObserverType>>;

	struct ObserverListContext {
	explicit ObserverListContext(NotificationType type)
	: task_runner(ThreadTaskRunnerHandle::Get()), list(type) {}

	scoped_refptr<SingleThreadTaskRunner> task_runner;
	ObserverList<ObserverType> list;

	private:
	DISALLOW_COPY_AND_ASSIGN(ObserverListContext);
	};

	~ObserverListThreadSafe() {
	}

	// Wrapper which is called to fire the notifications for each thread's
	// ObserverList. This function MUST be called on the thread which owns
	// the unsafe ObserverList.
	void NotifyWrapper(ObserverListContext* context,
	const Callback<void(ObserverType*)>& method) {
	// Check that this list still needs notifications.
	{
	AutoLock lock(list_lock_);
	auto it = observer_lists_.find(PlatformThread::CurrentId());

	// The ObserverList could have been removed already. In fact, it could
	// have been removed and then re-added! If the master list's loop
	// does not match this one, then we do not need to finish this
	// notification.
	if (it == observer_lists_.end() \|\| it->second.get() != context)
	return;
	}

	for (auto& observer : context->list) {
	method.Run(&observer);
	}

	// If there are no more observers on the list, we can now delete it.
	if (context->list.size() == 0) {
	{
	AutoLock lock(list_lock_);
	// Remove \|list\| if it's not already removed.
	// This can happen if multiple observers got removed in a notification.
	// See http://crbug.com/55725.
	auto it = observer_lists_.find(PlatformThread::CurrentId());
	if (it != observer_lists_.end() && it->second.get() == context)
	observer_lists_.erase(it);
	}
	}
	}

	mutable Lock list_lock_; // Protects the observer_lists_.

	// Key by PlatformThreadId because in tests, clients can attempt to remove
	// observers without a SingleThreadTaskRunner. If this were keyed by
	// SingleThreadTaskRunner, that operation would be silently ignored, leaving
	// garbage in the ObserverList.
	std::map<PlatformThreadId, std::unique_ptr<ObserverListContext>>
	observer_lists_;

	const NotificationType type_;

	DISALLOW_COPY_AND_ASSIGN(ObserverListThreadSafe);
	};

	} // namespace base

	#endif // BASE_OBSERVER_LIST_THREADSAFE_H_