Socket IOCP网络模型实现
PS:最近一直在钻研几种主流IO网络模型的实现原理 唯一感觉不是很通的就是IOCP了 希望慢慢多加实践会真正消化掉这个强大的网络模型 下面推荐一篇写的很不错的博客 基本都是windows网络编程那些内容了 希望对你有帮助 -----11/12/18-----jemmy整理
原文出处:http://tangfeng.iteye.com/blog/518148
“完成端口”模型是迄今为止最为复杂的一种I/O模型。然而,假若一个应用程序同时需要管理为数众多的套接字,那么采用这种模型,往往可以达到最佳的系统性能!但不幸的是,该模型只适用于Windows NT和Windows 2000操作系统。因其设计的复杂性,只有在你的应用程序需要同时管理数百乃至上千个套接字的时候,而且希望随着系统内安装的CPU数量的增多,应用程序的性能也可以线性提升,才应考虑采用“完成端口”模型。要记住的一个基本准则是,假如要为Windows NT或Windows 2000开发高性能的服务器应用,同时希望为大量套接字I/O请求提供服务(Web服务器便是这方面的典型例子),那么I/O完成端口模型便是最佳选择!
使用完成端口模型的服务器端代码:
// write by larry
// 2009-8-20
// This is a server using completion port.
#include "stdafx.h"
#include <WINSOCK2.H>
#include <stdio.h>
#pragma comment(lib, "ws2_32.lib")
#define PORT 5150
#define MSGSIZE 1024
typedef enum
{
RECV_POSTED
} OPERATION_TYPE;
typedef struct
{
WSAOVERLAPPED overlap;
WSABUF Buffer;
char szMessage[MSGSIZE];
DWORD NumberOfBytesRecvd;
DWORD Flags;
OPERATION_TYPE OperationType;
} PER_IO_OPERATION_DATA, *LPPER_IO_OPERATION_DATA;
DWORD WINAPI WorkerThread(LPVOID CompletionPortID);
int main(int argc, char* argv[])
{
WSADATA wsaData;
SOCKET sListen, sClient;
SOCKADDR_IN local, client;
DWORD i, dwThreadId;
int iAddrSize = sizeof(SOCKADDR_IN);
HANDLE CompletionPort = INVALID_HANDLE_VALUE;
SYSTEM_INFO sysinfo;
LPPER_IO_OPERATION_DATA lpPerIOData = NULL;
// Initialize windows socket library
WSAStartup(0x0202, &wsaData);
// Create completion port
CompletionPort = CreateIoCompletionPort(INVALID_HANDLE_VALUE, NULL, 0, 0);
// Create worker thread
GetSystemInfo(&sysinfo);
for (i = 0; i < sysinfo.dwNumberOfProcessors; i++)
{
CreateThread(NULL, 0, WorkerThread, CompletionPort, 0, &dwThreadId);
}
// Create listening socket
sListen = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP);
// Bind
local.sin_family = AF_INET;
local.sin_addr.S_un.S_addr = htonl(INADDR_ANY);
local.sin_port = htons(PORT);
bind(sListen, (sockaddr*)&local, sizeof(SOCKADDR_IN));
// Listen
listen(sListen, 3);
while (TRUE)
{
// Accept a connection
sClient = accept(sListen, (sockaddr*)&client, &iAddrSize);
printf("Accepted client:%s:%d\n", inet_ntoa(client.sin_addr), ntohs(client.sin_port));
// Associate the newly arrived client socket with completion port
CreateIoCompletionPort((HANDLE)sClient, CompletionPort, (DWORD)sClient, 0);
// Launch an asynchronous operation for new arrived connection
lpPerIOData = (LPPER_IO_OPERATION_DATA)HeapAlloc(
GetProcessHeap(),
HEAP_ZERO_MEMORY,
sizeof(PER_IO_OPERATION_DATA));
lpPerIOData->Buffer.len = MSGSIZE;
lpPerIOData->Buffer.buf = lpPerIOData->szMessage;
lpPerIOData->OperationType = RECV_POSTED;
WSARecv(sClient,
&lpPerIOData->Buffer,
1,
&lpPerIOData->NumberOfBytesRecvd,
&lpPerIOData->Flags,
&lpPerIOData->overlap,
NULL);
}
PostQueuedCompletionStatus(CompletionPort, 0xFFFFFFFF, 0, NULL);
CloseHandle(CompletionPort);
closesocket(sListen);
WSACleanup();
return 0;
}
DWORD WINAPI WorkerThread(LPVOID CompletionPortID)
{
HANDLE CompletionPort = (HANDLE)CompletionPortID;
DWORD dwBytesTransferred;
SOCKET sClient;
LPPER_IO_OPERATION_DATA lpPerIOData = NULL;
while (TRUE)
{
GetQueuedCompletionStatus(
CompletionPort,
&dwBytesTransferred,
(DWORD*)&sClient,
(LPOVERLAPPED*)&lpPerIOData,
INFINITE);
if (dwBytesTransferred == 0xFFFFFFFF)
{
return 0;
}
if (lpPerIOData->OperationType == RECV_POSTED)
{
if (dwBytesTransferred == 0)
{
// Connection was closed by client
closesocket(sClient);
HeapFree(GetProcessHeap(), 0, lpPerIOData);
}
else
{
lpPerIOData->szMessage[dwBytesTransferred] = '\0';
send(sClient, lpPerIOData->szMessage, dwBytesTransferred, 0);
// Launch another asynchronous operation for sClient
memset(lpPerIOData, 0, sizeof(PER_IO_OPERATION_DATA));
lpPerIOData->Buffer.len = MSGSIZE;
lpPerIOData->Buffer.buf = lpPerIOData->szMessage;
lpPerIOData->OperationType = RECV_POSTED;
WSARecv(sClient,
&lpPerIOData->Buffer,
1,
&lpPerIOData->NumberOfBytesRecvd,
&lpPerIOData->Flags,
&lpPerIOData->overlap,
NULL);
}
}
}
return 0;
}
服务器端得主要流程:
1.创建完成端口对象
2.创建工作者线程(这里工作者线程的数量是按照CPU的个数来决定的,这样可以达到最佳性能)
3.创建监听套接字,绑定,监听,然后程序进入循环
4.在循环中,我做了以下几件事情:
(1).接受一个客户端连接
(2).将该客户端套接字与完成端口绑定到一起(还是调用CreateIoCompletionPort,但这次的作用不同),注意,按道理来讲,此时传递给CreateIoCompletionPort的第三个参数应该是一个完成键,一般来讲,程序都是传递一个单句柄数据结构的地址,该单句柄数据包含了和该客户端连接有关的信息,由于我们只关心套接字句柄,所以直接将套接字句柄作为完成键传递;
(3).触发一个WSARecv异步调用,这次又用到了“尾随数据”,使接收数据所用的缓冲区紧跟在WSAOVERLAPPED对象之后,此外,还有操作类型等重要信息。
在工作者线程的循环中,我们
1.调用GetQueuedCompletionStatus取得本次I/O的相关信息(例如套接字句柄、传送的字节数、单I/O数据结构的地址等等)
2.通过单I/O数据结构找到接收数据缓冲区,然后将数据原封不动的发送到客户端
3.再次触发一个WSARecv异步操作