分类: LINUX
2010-03-23 17:13:47
Kevin Lynx
Proactor和都
是并发编程中的设计模式。在我看来,他们都是用于派发/分离IO操作事件的。这里所谓的
IO事件也就是诸如read/write的IO操作。"派
发/分离"就是将单独的IO事件通知到上层模块。两个模式不同的地方
在于,Proactor用于异步IO,而Reactor用于同步IO。
摘抄一些关键的东西:
"
Two patterns that involve event
demultiplexors are called Reactor and Proactor [1]. The Reactor patterns
involve synchronous I/O, whereas the Proactor pattern involves
asynchronous I/O.
"
关于两个模式的大致模型,从以下文字基本可以明白:
"
An example will help you understand the
difference between Reactor and Proactor. We will focus on the read
operation
here, as the write implementation is similar. Here's a read in Reactor:
* An event handler declares interest in I/O events
that indicate readiness for read on a particular socket ;
* The
event demultiplexor waits for events ;
* An event comes in and
wakes-up the demultiplexor, and the demultiplexor calls the appropriate
handler;
* The event handler performs the actual read operation,
handles the data read, declares renewed interest in
I/O events,
and returns control to the dispatcher .
By comparison, here is a read operation in Proactor (true async):
* A handler initiates an asynchronous read
operation (note: the OS must support asynchronous I/O). In this
case, the handler does not care about I/O readiness events, but is
instead registers interest in receiving
completion events;
*
The event demultiplexor waits until the operation is completed ;
*
While the event demultiplexor waits, the OS executes the read operation
in a parallel kernel thread, puts
data into a user-defined buffer,
and notifies the event demultiplexor that the read is complete ;
*
The event demultiplexor calls the appropriate handler;
* The event
handler handles the data from user defined buffer, starts a new
asynchronous operation, and returns
control to the event
demultiplexor.
"
可以看出,两个模式的相同点,都是对某个IO事件的事件通知(即告诉某个模块,这个IO操作可以进行或已经
完成)。在结构
上,两者也有相同点:demultiplexor负责提交IO操作(异步)、查询设备是否可操作(同步),然后当条件满足时,就回
调handler。
不同点在于,异步情况下(Proactor),当回调handler时,表示IO操作已经完成;同步情况下
(Reactor),回调handler时,表示
IO设备可以进行某个操作(can read or can
write),handler这个时候开始提交操作。
用select模型写个简单的reactor,大致为:
///
class handler{
public: virtual void onRead() = 0; virtual void onWrite() = 0; virtual void onAccept() = 0;
}; class dispatch{public: void poll()
{ // add fd in the set. //
// poll every fd int c = select( 0, &read_fd, &write_fd, 0, 0 ); if( c > 0 ) { for each fd in the read_fd_set { if fd can read _handler->onRead(); if fd can accept _handler->onAccept();
} for each fd in the write_fd_set { if fd can write _handler->onWrite(); } } } void setHandler( handler *_h ) { _handler = _h; } private: handler *_handler;}; /// applicationclass MyHandler : public handler{public: void onRead() { } void onWrite() { } void onAccept() { }};
在网上找了份Proactor模式比较正式的文档,其给出了一个总体的UML类图,比较全面:
根据这份图我随便写了个例子代码:
class AsyIOProcessor{public: void do_read() { //send read operation to OS // read io finished.and dispatch notification _proactor->dispatch_read(); } private: Proactor *_proactor;}; class Proactor{public: void dispatch_read() { _handlerMgr->onRead(); } private: HandlerManager *_handlerMgr;}; class HandlerManager{public: typedef std::list<Handler*> HandlerList; public: void onRead() { // notify all the handlers. std::for_each( _handlers.begin(), _handlers.end(), onRead ); } private: HandlerList *_handlers;}; class Handler{public: virtual void onRead() = 0;}; // application level handler.class MyHandler : public Handler{public: void onRead() { // }};
Reactor通过某种变形,可以将其改装为Proactor,在某些不支持异步IO的系统上,也可以隐藏
底层的实现,利于编写跨平台
代码。我们只需要在dispatch(也就是demultiplexor)中封装同步IO操作的代码,在上层,用户提
交自己的缓冲区到这一层,
这一层检查到设备可操作时,不像原来立即回调handler,而是开始IO操作,然后将操作结果放到用户缓冲区(读),
然后再
回调handler。这样,对于上层handler而言,就像是proactor一样。详细技法参见。
其实就设计模式而言,我个人觉得某个模式其实是没有完全固定的结构的。不能说某个模式里就肯定会有某个类,
类之间的
关系就肯定是这样。在实际写程序过程中也很少去特别地实现某个模式,只能说模式会给你更多更好的架构方案。
最近在看spserver的代码,看到别人提各种并发系统中的模式,有点眼红,于是才来扫扫盲。知道什么是leader follower模式,
reactor,
proactor,multiplexing,对于心中的那个网络库也越来越清晰。
最近还干了些离谱的事,写了传说中的字节流编码,用模板的方式实现,不但保持了扩展性,还少写很多代码;处
于效率考虑,
写了个static array容器(其实就是template
加了iterator,遵循STL标准,可以结
合进STL的各个generic algorithm用,自我感觉不错。基础模块搭建完毕,解析了公司
服务器网络模块的消息,我是不是真的打算用
自己的网络模块重写我的验证服务器?在另一个给公司写的工具里,因为实在厌恶
越来越多的重复代码,索性写了几个宏,还真的做到了代码的自动生
成:D。
