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// Copyright (c) 2010 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 CHROME_BROWSER_BROWSER_THREAD_H_
#define CHROME_BROWSER_BROWSER_THREAD_H_
#pragma once
#include "base/lock.h"
#include "base/task.h"
#include "base/thread.h"
namespace base {
class MessageLoopProxy;
}
///////////////////////////////////////////////////////////////////////////////
// BrowserThread
//
// This class represents a thread that is known by a browser-wide name. For
// example, there is one IO thread for the entire browser process, and various
// pieces of code find it useful to retrieve a pointer to the IO thread's
// Invoke a task by thread ID:
//
// BrowserThread::PostTask(BrowserThread::IO, FROM_HERE, task);
//
// The return value is false if the task couldn't be posted because the target
// thread doesn't exist. If this could lead to data loss, you need to check the
// result and restructure the code to ensure it doesn't occur.
//
// This class automatically handles the lifetime of different threads.
// It's always safe to call PostTask on any thread. If it's not yet created,
// the task is deleted. There are no race conditions. If the thread that the
// task is posted to is guaranteed to outlive the current thread, then no locks
// are used. You should never need to cache pointers to MessageLoops, since
// they're not thread safe.
class BrowserThread : public base::Thread {
public:
// An enumeration of the well-known threads.
// NOTE: threads must be listed in the order of their life-time, with each
// thread outliving every other thread below it.
enum ID {
// The main thread in the browser.
UI,
// This is the thread that interacts with the database.
DB,
// This is the "main" thread for WebKit within the browser process when
// NOT in --single-process mode.
WEBKIT,
// This is the thread that interacts with the file system.
FILE,
// Used to launch and terminate processes.
PROCESS_LAUNCHER,
// This is the thread to handle slow HTTP cache operations.
CACHE,
// This is the thread that processes IPC and network messages.
IO,
#if defined(USE_X11)
// This thread has a second connection to the X server and is used to
// process UI requests when routing the request to the UI thread would risk
// deadlock.
BACKGROUND_X11,
#endif
// This identifier does not represent a thread. Instead it counts the
// number of well-known threads. Insert new well-known threads before this
// identifier.
ID_COUNT
};
// Construct a BrowserThread with the supplied identifier. It is an error
// to construct a BrowserThread that already exists.
explicit BrowserThread(ID identifier);
// Special constructor for the main (UI) thread and unittests. We use a dummy
// thread here since the main thread already exists.
BrowserThread(ID identifier, MessageLoop* message_loop);
virtual ~BrowserThread();
// These are the same methods in message_loop.h, but are guaranteed to either
// get posted to the MessageLoop if it's still alive, or be deleted otherwise.
// They return true iff the thread existed and the task was posted. Note that
// even if the task is posted, there's no guarantee that it will run, since
// the target thread may already have a Quit message in its queue.
static bool PostTask(ID identifier,
const tracked_objects::Location& from_here,
Task* task);
static bool PostDelayedTask(ID identifier,
const tracked_objects::Location& from_here,
Task* task,
int64 delay_ms);
static bool PostNonNestableTask(ID identifier,
const tracked_objects::Location& from_here,
Task* task);
static bool PostNonNestableDelayedTask(
ID identifier,
const tracked_objects::Location& from_here,
Task* task,
int64 delay_ms);
template <class T>
static bool DeleteSoon(ID identifier,
const tracked_objects::Location& from_here,
T* object) {
return PostNonNestableTask(
identifier, from_here, new DeleteTask<T>(object));
}
template <class T>
static bool ReleaseSoon(ID identifier,
const tracked_objects::Location& from_here,
T* object) {
return PostNonNestableTask(
identifier, from_here, new ReleaseTask<T>(object));
}
// Callable on any thread. Returns whether the given ID corresponds to a well
// known thread.
static bool IsWellKnownThread(ID identifier);
// Callable on any thread. Returns whether you're currently on a particular
// thread.
static bool CurrentlyOn(ID identifier);
// Callable on any thread. Returns whether the threads message loop is valid.
// If this returns false it means the thread is in the process of shutting
// down.
static bool IsMessageLoopValid(ID identifier);
// If the current message loop is one of the known threads, returns true and
// sets identifier to its ID. Otherwise returns false.
static bool GetCurrentThreadIdentifier(ID* identifier);
// Callers can hold on to a refcounted MessageLoopProxy beyond the lifetime
// of the thread.
static scoped_refptr<base::MessageLoopProxy> GetMessageLoopProxyForThread(
ID identifier);
// Use these templates in conjuction with RefCountedThreadSafe when you want
// to ensure that an object is deleted on a specific thread. This is needed
// when an object can hop between threads (i.e. IO -> FILE -> IO), and thread
// switching delays can mean that the final IO tasks executes before the FILE
// task's stack unwinds. This would lead to the object destructing on the
// FILE thread, which often is not what you want (i.e. to unregister from
// NotificationService, to notify other objects on the creating thread etc).
template<ID thread>
struct DeleteOnThread {
template<typename T>
static void Destruct(T* x) {
if (CurrentlyOn(thread)) {
delete x;
} else {
DeleteSoon(thread, FROM_HERE, x);
}
}
};
// Sample usage:
// class Foo
// : public base::RefCountedThreadSafe<
// Foo, BrowserThread::DeleteOnIOThread> {
//
// ...
// private:
// friend struct BrowserThread::DeleteOnThread<BrowserThread::IO>;
// friend class DeleteTask<Foo>;
//
// ~Foo();
struct DeleteOnUIThread : public DeleteOnThread<UI> { };
struct DeleteOnIOThread : public DeleteOnThread<IO> { };
struct DeleteOnFileThread : public DeleteOnThread<FILE> { };
struct DeleteOnDBThread : public DeleteOnThread<DB> { };
struct DeleteOnWebKitThread : public DeleteOnThread<WEBKIT> { };
private:
// Common initialization code for the constructors.
void Initialize();
static bool PostTaskHelper(
ID identifier,
const tracked_objects::Location& from_here,
Task* task,
int64 delay_ms,
bool nestable);
// The identifier of this thread. Only one thread can exist with a given
// identifier at a given time.
ID identifier_;
// This lock protects |browser_threads_|. Do not read or modify that array
// without holding this lock. Do not block while holding this lock.
static Lock lock_;
// An array of the BrowserThread objects. This array is protected by |lock_|.
// The threads are not owned by this array. Typically, the threads are owned
// on the UI thread by the g_browser_process object. BrowserThreads remove
// themselves from this array upon destruction.
static BrowserThread* browser_threads_[ID_COUNT];
};
#endif // CHROME_BROWSER_BROWSER_THREAD_H_
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