yehao's Blog

I/O完成端口简单例子

转自http://www.cnblogs.com/pen-ink/articles/1834088.html


HANDLE WINAPI CreateIoCompletionPort(
__in HANDLE FileHandle,
__in HANDLE ExistingCompletionPort,
__in ULONG_PTR CompletionKey,
__in DWORD NumberOfConcurrentThreads
);
/*
这个函数完成两个不同的任务:1、创建一个完成端口对象;2、将一个或者多个文件句柄关联到I/O完成端口对象。可分成两个小函数对CreateIoCompletionPort调用进行抽象。
*/
//1、创建I/O完成端口
HANDLE CreateNewCompletionPort(DWORD dwNumberOfConcurrentThreads)
{
return (CreateNewCompletionPort(INVALID_HANDLE_VALUE, NULL, 0, dwNumberOfConcurrentThreads));
}
//2、将设备与I/O完成端口关联起来
BOOL AssociateDeviceWithCompletionPort(HANDLE hCompletionPort, HANDLE hDevice, DWORD dwCompletionKey)
{
HANDLE h
= CreateIoCompletionPort(hDevice, hCompletionPort, dwCompletionKey, 0);
return (h == hCompletionPort);
}



/////////////////////////////////////////////////
// IOCPDemo.cpp文件 调试通过

#include
"WSAInit.h"
#include
<stdio.h>
#include
<windows.h>

// 初始化Winsock库
CWSAInit theSock;

#define BUFFER_SIZE 1024
#define OP_READ 1
#define OP_WRITE 2
#define OP_ACCEPT 3

typedef
struct _PER_HANDLE_DATA // per-handle数据
{
SOCKET s;
// 对应的套节字句柄
sockaddr_in addr; // 客户方地址
char buf[BUFFER_SIZE]; // 数据缓冲区
int nOperationType; // 操作类型
} PER_HANDLE_DATA, *PPER_HANDLE_DATA;

DWORD WINAPI ServerThread(LPVOID lpParam)
{
// 得到完成端口对象句柄
HANDLE hCompletion = (HANDLE)lpParam;

DWORD dwTrans;
PPER_HANDLE_DATA pPerHandle;
OVERLAPPED
*pOverlapped;
while(TRUE)
{
// 在关联到此完成端口的所有套节字上等待I/O完成
BOOL bOK = ::GetQueuedCompletionStatus(hCompletion,
&dwTrans, (PULONG_PTR)&pPerHandle, &pOverlapped, WSA_INFINITE);
if(!bOK) // 在此套节字上有错误发生
{
::closesocket(pPerHandle
->s);
::GlobalFree(pPerHandle);
::GlobalFree(pOverlapped);
continue;
}

if(dwTrans == 0 && // 套节字被对方关闭
(pPerHandle->nOperationType == OP_READ || pPerHandle->nOperationType == OP_WRITE))

{
::closesocket(pPerHandle
->s);
::GlobalFree(pPerHandle);
::GlobalFree(pOverlapped);
continue;
}

switch(pPerHandle->nOperationType) // 通过per-I/O数据中的nOperationType域查看什么I/O请求完成了
{
case OP_READ: // 完成一个接收请求
{
pPerHandle
->buf[dwTrans] = '\0';
printf(pPerHandle
-> buf);

// 继续投递接收I/O请求
WSABUF buf;
buf.buf
= pPerHandle->buf ;
buf.len
= BUFFER_SIZE;
pPerHandle
->nOperationType = OP_READ;

DWORD nFlags
= 0;
::WSARecv(pPerHandle
->s, &buf, 1, &dwTrans, &nFlags, pOverlapped, NULL);
}
break;
case OP_WRITE: // 本例中没有投递这些类型的I/O请求
case OP_ACCEPT:
break;
}
}
return 0;
}


void main()
{
int nPort = 4567;
// 创建完成端口对象,创建工作线程处理完成端口对象中事件
HANDLE hCompletion = ::CreateIoCompletionPort(INVALID_HANDLE_VALUE, 0, 0, 0);
::CreateThread(NULL,
0, ServerThread, (LPVOID)hCompletion, 0, 0);

// 创建监听套节字,绑定到本地地址,开始监听
SOCKET sListen = ::socket(AF_INET, SOCK_STREAM, 0);
SOCKADDR_IN si;
si.sin_family
= AF_INET;
si.sin_port
= ::ntohs(nPort);
si.sin_addr.S_un.S_addr
= INADDR_ANY;
::bind(sListen, (sockaddr
*)&si, sizeof(si));
::listen(sListen,
5);

// 循环处理到来的连接
while(TRUE)
{
// 等待接受未决的连接请求
SOCKADDR_IN saRemote;
int nRemoteLen = sizeof(saRemote);
SOCKET sNew
= ::accept(sListen, (sockaddr*)&saRemote, &nRemoteLen);
// 接受到新连接之后,为它创建一个per-handle数据,并将它们关联到完成端口对象。
PPER_HANDLE_DATA pPerHandle =
(PPER_HANDLE_DATA)::GlobalAlloc(GPTR,
sizeof(PER_HANDLE_DATA));
pPerHandle
->s = sNew;
memcpy(
&pPerHandle->addr, &saRemote, nRemoteLen);
pPerHandle
->nOperationType = OP_READ;
::CreateIoCompletionPort((HANDLE)pPerHandle
->s, hCompletion, (ULONG_PTR)pPerHandle, 0);
// 投递一个接收请求
OVERLAPPED *pol = (OVERLAPPED *)::GlobalAlloc(GPTR, sizeof(OVERLAPPED));
WSABUF buf;
buf.buf
= pPerHandle->buf;
buf.len
= BUFFER_SIZE;
DWORD dwRecv;
DWORD dwFlags
= 0;
::WSARecv(pPerHandle
->s, &buf, 1, &dwRecv, &dwFlags, pol, NULL);
}
}

posted on 2011-05-18 15:11 厚积薄发 阅读(662) 评论(0)  编辑 收藏 引用 所属分类: 网络编程


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