content/child/child_process.h - chromium/src - 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 CONTENT_CHILD_CHILD_PROCESS_H_
 #define CONTENT_CHILD_CHILD_PROCESS_H_

 #include <memory>

 #include "base/macros.h"
 #include "base/synchronization/waitable_event.h"
 #include "base/threading/thread.h"
 #include "content/common/content_export.h"

 namespace content {
 class ChildThreadImpl;

 // Base class for child processes of the browser process (i.e. renderer and
 // plugin host). This is a singleton object for each child process.
 //
 // During process shutdown the following sequence of actions happens in
 // order.
 //
 // 1. ChildProcess::~ChildProcess() is called.
 //   2. Shutdown event is fired. Background threads should stop.
 //   3. ChildThreadImpl::Shutdown() is called. ChildThread is also deleted.
 //   4. IO thread is stopped.
 // 5. Main message loop exits.
 // 6. Child process is now fully stopped.
 //
 // Note: IO thread outlives the ChildThreadImpl object.
 class CONTENT_EXPORT ChildProcess {
  public:
   // Child processes should have an object that derives from this class.
   // Normally you would immediately call set_main_thread after construction.
   ChildProcess();
   explicit ChildProcess(base::ThreadPriority io_thread_priority);
   virtual ~ChildProcess();

   // May be NULL if the main thread hasn't been set explicitly.
   ChildThreadImpl* main_thread();

   // Sets the object associated with the main thread of this process.
   // Takes ownership of the pointer.
   void set_main_thread(ChildThreadImpl* thread);

   base::MessageLoop* io_message_loop() { return io_thread_.message_loop(); }
   base::SingleThreadTaskRunner* io_task_runner() {
     return io_thread_.task_runner().get();
   }

   // A global event object that is signalled when the main thread's message
   // loop exits.  This gives background threads a way to observe the main
   // thread shutting down.  This can be useful when a background thread is
   // waiting for some information from the browser process.  If the browser
   // process goes away prematurely, the background thread can at least notice
   // the child processes's main thread exiting to determine that it should give
   // up waiting.
   // For example, see the renderer code used to implement GetCookies().
   base::WaitableEvent* GetShutDownEvent();

   // These are used for ref-counting the child process.  The process shuts
   // itself down when the ref count reaches 0.
   // For example, in the renderer process, generally each tab managed by this
   // process will hold a reference to the process, and release when closed.
   // However for renderer processes specifically, there is also fast shutdown
   // code path initiated by the browser process. The process refcount does
   // not influence fast shutdown. See blink::Platform::suddenTerminationChanged.
   void AddRefProcess();
   void ReleaseProcess();

 #if defined(OS_LINUX)
   void SetIOThreadPriority(base::ThreadPriority io_thread_priority);
 #endif

   // Getter for the one ChildProcess object for this process. Can only be called
   // on the main thread.
   static ChildProcess* current();

   static void WaitForDebugger(const std::string& label);
  private:
   int ref_count_;

   // An event that will be signalled when we shutdown.
   base::WaitableEvent shutdown_event_;

   // The thread that handles IO events.
   base::Thread io_thread_;

   // NOTE: make sure that main_thread_ is listed after shutdown_event_, since
   // it depends on it (indirectly through IPC::SyncChannel).  Same for
   // io_thread_.
   std::unique_ptr<ChildThreadImpl> main_thread_;

   DISALLOW_COPY_AND_ASSIGN(ChildProcess);
 };

 }  // namespace content

 #endif  // CONTENT_CHILD_CHILD_PROCESS_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 CONTENT_CHILD_CHILD_PROCESS_H_
	#define CONTENT_CHILD_CHILD_PROCESS_H_

	#include <memory>

	#include "base/macros.h"
	#include "base/synchronization/waitable_event.h"
	#include "base/threading/thread.h"
	#include "content/common/content_export.h"

	namespace content {
	class ChildThreadImpl;

	// Base class for child processes of the browser process (i.e. renderer and
	// plugin host). This is a singleton object for each child process.
	//
	// During process shutdown the following sequence of actions happens in
	// order.
	//
	// 1. ChildProcess::~ChildProcess() is called.
	// 2. Shutdown event is fired. Background threads should stop.
	// 3. ChildThreadImpl::Shutdown() is called. ChildThread is also deleted.
	// 4. IO thread is stopped.
	// 5. Main message loop exits.
	// 6. Child process is now fully stopped.
	//
	// Note: IO thread outlives the ChildThreadImpl object.
	class CONTENT_EXPORT ChildProcess {
	public:
	// Child processes should have an object that derives from this class.
	// Normally you would immediately call set_main_thread after construction.
	ChildProcess();
	explicit ChildProcess(base::ThreadPriority io_thread_priority);
	virtual ~ChildProcess();

	// May be NULL if the main thread hasn't been set explicitly.
	ChildThreadImpl* main_thread();

	// Sets the object associated with the main thread of this process.
	// Takes ownership of the pointer.
	void set_main_thread(ChildThreadImpl* thread);

	base::MessageLoop* io_message_loop() { return io_thread_.message_loop(); }
	base::SingleThreadTaskRunner* io_task_runner() {
	return io_thread_.task_runner().get();
	}

	// A global event object that is signalled when the main thread's message
	// loop exits. This gives background threads a way to observe the main
	// thread shutting down. This can be useful when a background thread is
	// waiting for some information from the browser process. If the browser
	// process goes away prematurely, the background thread can at least notice
	// the child processes's main thread exiting to determine that it should give
	// up waiting.
	// For example, see the renderer code used to implement GetCookies().
	base::WaitableEvent* GetShutDownEvent();

	// These are used for ref-counting the child process. The process shuts
	// itself down when the ref count reaches 0.
	// For example, in the renderer process, generally each tab managed by this
	// process will hold a reference to the process, and release when closed.
	// However for renderer processes specifically, there is also fast shutdown
	// code path initiated by the browser process. The process refcount does
	// not influence fast shutdown. See blink::Platform::suddenTerminationChanged.
	void AddRefProcess();
	void ReleaseProcess();

	#if defined(OS_LINUX)
	void SetIOThreadPriority(base::ThreadPriority io_thread_priority);
	#endif

	// Getter for the one ChildProcess object for this process. Can only be called
	// on the main thread.
	static ChildProcess* current();

	static void WaitForDebugger(const std::string& label);
	private:
	int ref_count_;

	// An event that will be signalled when we shutdown.
	base::WaitableEvent shutdown_event_;

	// The thread that handles IO events.
	base::Thread io_thread_;

	// NOTE: make sure that main_thread_ is listed after shutdown_event_, since
	// it depends on it (indirectly through IPC::SyncChannel). Same for
	// io_thread_.
	std::unique_ptr<ChildThreadImpl> main_thread_;

	DISALLOW_COPY_AND_ASSIGN(ChildProcess);
	};

	} // namespace content

	#endif // CONTENT_CHILD_CHILD_PROCESS_H_