IOCP 模型2 AcceptEx
// IOCP2.cpp : Defines the entry point for the console application.
// #include "stdafx.h"
#include <WinSock2.h>
#include <MSWSock.h>
#include <Windows.h>
#include <process.h>
#pragma comment(lib, "WS2_32.lib") #define MAX_BUFFER 256
#define MAX_TIMEOUT 1000
#define MAX_SOCKET 1024
#define MAX_THREAD 64
#define MAX_ACCEPT 5 typedef enum _OPERATION_INFO_
{
OP_NULL,
OP_ACCEPT,
OP_READ,
OP_WRITE
}OPERATIONINFO; typedef struct _PER_HANDLE_DATA_
{
public:
_PER_HANDLE_DATA_()
{
clean();
}
~_PER_HANDLE_DATA_()
{
clean();
}
protected:
void clean()
{
sock = INVALID_SOCKET;
memset(&addr, 0, sizeof(addr));
addr.sin_addr.S_un.S_addr = INADDR_ANY;
addr.sin_port = htons(0);
addr.sin_family = AF_INET;
}
public:
SOCKET sock;
SOCKADDR_IN addr;
}PERHANDLEDATA, *PPERHANDLEDATA; typedef struct _PER_IO_DTATA_
{
public:
_PER_IO_DTATA_()
{
clean();
}
~_PER_IO_DTATA_()
{
clean();
}
void clean()
{
ZeroMemory(&ol, sizeof(ol));
memset(buf, 0, sizeof(buf));
sAccept = INVALID_SOCKET;
sListen = INVALID_SOCKET;
wsaBuf.buf = buf;
wsaBuf.len = MAX_BUFFER;
opType = OP_NULL;
}
public:
WSAOVERLAPPED ol;
SOCKET sAccept; // Only valid with AcceptEx
SOCKET sListen; // Only valid with AcceptEx
WSABUF wsaBuf;
char buf[MAX_BUFFER];
OPERATIONINFO opType;
}PERIODATA, *PPERIODATA; HANDLE hThread[MAX_THREAD] = {0};
PERIODATA* pAcceptData[MAX_ACCEPT] = {0};
int g_nThread = 0;
BOOL g_bExitThread = FALSE;
LPFN_ACCEPTEX lpfnAcceptEx = NULL;
LPFN_GETACCEPTEXSOCKADDRS lpfnGetAcceptExSockAddrs = NULL;
GUID GuidAcceptEx = WSAID_ACCEPTEX;
GUID GuidGetAcceptExSockAddrs = WSAID_GETACCEPTEXSOCKADDRS; unsigned __stdcall ThreadProc(LPVOID lParam);
BOOL PostAccept(PERIODATA* pIoData); int _tmain(int argc, _TCHAR* argv[])
{
WORD wVersionRequested = MAKEWORD(2, 2);
WSADATA wsaData;
if(0 != WSAStartup(wVersionRequested, &wsaData))
{
printf("WSAStartup failed with error code: %d/n", GetLastError());
return EXIT_FAILURE;
} if(2 != HIBYTE(wsaData.wVersion) || 2 != LOBYTE(wsaData.wVersion))
{
printf("Socket version not supported./n");
WSACleanup();
return EXIT_FAILURE;
} // Create IOCP
HANDLE hIOCP = CreateIoCompletionPort(INVALID_HANDLE_VALUE, NULL, NULL, 0);
if(NULL == hIOCP)
{
printf("CreateIoCompletionPort failed with error code: %d/n", WSAGetLastError());
WSACleanup();
return EXIT_FAILURE;
} // Create worker thread
SYSTEM_INFO si = {0};
GetSystemInfo(&si);
for(int i = 0; i < (int)si.dwNumberOfProcessors+2; i++)
{
hThread[g_nThread] = (HANDLE)_beginthreadex(NULL, 0, ThreadProc, (LPVOID)hIOCP, 0, NULL);
if(NULL == hThread[g_nThread])
{
printf("_beginthreadex failed with error code: %d/n", GetLastError());
continue;
}
++g_nThread; if(g_nThread > MAX_THREAD)
{
break;
}
} // Create listen SOCKET
SOCKET sListen = WSASocket(AF_INET, SOCK_STREAM, IPPROTO_TCP, NULL, 0, WSA_FLAG_OVERLAPPED);
if(INVALID_SOCKET == sListen)
{
printf("WSASocket failed with error code: %d/n", WSAGetLastError());
goto EXIT_CODE;
} // Associate SOCKET with IOCP
if(NULL == CreateIoCompletionPort((HANDLE)sListen, hIOCP, NULL, 0))
{
printf("CreateIoCompletionPort failed with error code: %d/n", WSAGetLastError());
if(INVALID_SOCKET != sListen)
{
closesocket(sListen);
sListen = INVALID_SOCKET;
}
goto EXIT_CODE;
} // Bind SOCKET
SOCKADDR_IN addr;
memset(&addr, 0, sizeof(addr));
addr.sin_family = AF_INET;
addr.sin_addr.S_un.S_addr = inet_addr("127.0.0.1");
addr.sin_port = htons(5050);
if(SOCKET_ERROR == bind(sListen, (LPSOCKADDR)&addr, sizeof(addr)))
{
printf("bind failed with error code: %d/n", WSAGetLastError());
if(INVALID_SOCKET != sListen)
{
closesocket(sListen);
sListen = INVALID_SOCKET;
}
goto EXIT_CODE;
} // Start Listen
if(SOCKET_ERROR == listen(sListen, 200))
{
printf("listen failed with error code: %d/n", WSAGetLastError());
if(INVALID_SOCKET != sListen)
{
closesocket(sListen);
sListen = INVALID_SOCKET;
}
goto EXIT_CODE;
} printf("Server start, wait for client to connect .../n"); DWORD dwBytes = 0;
if(SOCKET_ERROR == WSAIoctl(sListen, SIO_GET_EXTENSION_FUNCTION_POINTER, &GuidAcceptEx, sizeof(GuidAcceptEx), &lpfnAcceptEx,
sizeof(lpfnAcceptEx), &dwBytes, NULL, NULL))
{
printf("WSAIoctl failed with error code: %d/n", WSAGetLastError());
if(INVALID_SOCKET != sListen)
{
closesocket(sListen);
sListen = INVALID_SOCKET;
}
goto EXIT_CODE;
} if(SOCKET_ERROR == WSAIoctl(sListen, SIO_GET_EXTENSION_FUNCTION_POINTER, &GuidGetAcceptExSockAddrs,
sizeof(GuidGetAcceptExSockAddrs), &lpfnGetAcceptExSockAddrs, sizeof(lpfnGetAcceptExSockAddrs),
&dwBytes, NULL, NULL))
{
printf("WSAIoctl failed with error code: %d/n", WSAGetLastError());
if(INVALID_SOCKET != sListen)
{
closesocket(sListen);
sListen = INVALID_SOCKET;
}
goto EXIT_CODE;
} // Post MAX_ACCEPT accept
for(int i=0; i<MAX_ACCEPT; i++)
{
pAcceptData[i] = new PERIODATA;
pAcceptData[i]->sListen = sListen;
PostAccept(pAcceptData[i]);
}
// After 1 hour later, Server shutdown.
Sleep(1000 * 60 *60); EXIT_CODE:
g_bExitThread = TRUE; PostQueuedCompletionStatus(hIOCP, 0, NULL, NULL);
WaitForMultipleObjects(g_nThread, hThread, TRUE, INFINITE);
for(int i = 0; i < g_nThread; i++)
{
CloseHandle(hThread[g_nThread]);
} for(int i=0; i<MAX_ACCEPT; i++)
{
if(pAcceptData[i])
{
delete pAcceptData[i];
pAcceptData[i] = NULL;
}
} if(INVALID_SOCKET != sListen)
{
closesocket(sListen);
sListen = INVALID_SOCKET;
}
CloseHandle(hIOCP); // Close IOCP WSACleanup();
return 0;
} BOOL PostAccept(PERIODATA* pIoData)
{
if(INVALID_SOCKET == pIoData->sListen)
{
return FALSE;
} DWORD dwBytes = 0;
pIoData->opType = OP_ACCEPT;
pIoData->sAccept = WSASocket(AF_INET, SOCK_STREAM, IPPROTO_TCP, NULL, 0, WSA_FLAG_OVERLAPPED);
if(INVALID_SOCKET == pIoData->sAccept)
{
printf("WSASocket failed with error code: %d/n", WSAGetLastError());
return FALSE;
} if(FALSE == lpfnAcceptEx(pIoData->sListen, pIoData->sAccept, pIoData->wsaBuf.buf, pIoData->wsaBuf.len - ((sizeof(SOCKADDR_IN)+16)*2),
sizeof(SOCKADDR_IN)+16, sizeof(SOCKADDR_IN)+16, &dwBytes, &(pIoData->ol)))
{
if(WSA_IO_PENDING != WSAGetLastError())
{
printf("lpfnAcceptEx failed with error code: %d/n", WSAGetLastError()); return FALSE;
}
}
return TRUE;
} unsigned __stdcall ThreadProc(LPVOID lParam)
{
HANDLE hIOCP = (HANDLE)lParam; PERHANDLEDATA* pPerHandleData = NULL;
PERIODATA* pPerIoData = NULL;
WSAOVERLAPPED* lpOverlapped = NULL;
DWORD dwTrans = 0;
DWORD dwFlags = 0;
while(!g_bExitThread)
{
BOOL bRet = GetQueuedCompletionStatus(hIOCP, &dwTrans, (PULONG_PTR)&pPerHandleData, &lpOverlapped, MAX_TIMEOUT);
if(!bRet)
{
// Timeout and exit thread
if(WAIT_TIMEOUT == GetLastError())
{
continue;
}
// Error
printf("GetQueuedCompletionStatus failed with error: %d/n", GetLastError());
continue;
}
else
{
pPerIoData = CONTAINING_RECORD(lpOverlapped, PERIODATA, ol);
if(NULL == pPerIoData)
{
// Exit thread
break;
} if((0 == dwTrans) && (OP_READ == pPerIoData->opType || OP_WRITE == pPerIoData->opType))
{
// Client leave.
printf("Client: <%s : %d> leave./n", inet_ntoa(pPerHandleData->addr.sin_addr), ntohs(pPerHandleData->addr.sin_port));
closesocket(pPerHandleData->sock);
delete pPerHandleData;
delete pPerIoData;
continue;
}
else
{
switch(pPerIoData->opType)
{
case OP_ACCEPT: // Accept
{
SOCKADDR_IN* remote = NULL;
SOCKADDR_IN* local = NULL;
int remoteLen = sizeof(SOCKADDR_IN);
int localLen = sizeof(SOCKADDR_IN);
lpfnGetAcceptExSockAddrs(pPerIoData->wsaBuf.buf, pPerIoData->wsaBuf.len - ((sizeof(SOCKADDR_IN)+16)*2),
sizeof(SOCKADDR_IN)+16, sizeof(SOCKADDR_IN)+16, (LPSOCKADDR*)&local, &localLen, (LPSOCKADDR*)&remote, &remoteLen);
printf("Client <%s : %d> come in./n", inet_ntoa(remote->sin_addr), ntohs(remote->sin_port));
printf("Recv Data: <%s : %d> %s./n", inet_ntoa(remote->sin_addr), ntohs(remote->sin_port), pPerIoData->wsaBuf.buf); if(NULL != pPerHandleData)
{
delete pPerHandleData;
pPerHandleData = NULL;
}
pPerHandleData = new PERHANDLEDATA;
pPerHandleData->sock = pPerIoData->sAccept; PERHANDLEDATA* pPerHandle = new PERHANDLEDATA;
pPerHandle->sock = pPerIoData->sAccept;
PERIODATA* pPerIo = new PERIODATA;
pPerIo->opType = OP_WRITE;
strcpy_s(pPerIo->buf, MAX_BUFFER, pPerIoData->buf);
DWORD dwTrans = strlen(pPerIo->buf);
memcpy(&(pPerHandleData->addr), remote, sizeof(SOCKADDR_IN));
// Associate with IOCP
if(NULL == CreateIoCompletionPort((HANDLE)(pPerHandleData->sock), hIOCP, (ULONG_PTR)pPerHandleData, 0))
{
printf("CreateIoCompletionPort failed with error code: %d/n", GetLastError());
closesocket(pPerHandleData->sock);
delete pPerHandleData;
continue;
} // Post Accept
memset(&(pPerIoData->ol), 0, sizeof(pPerIoData->ol));
PostAccept(pPerIoData); // Post Receive
DWORD dwFlags = 0;
if(SOCKET_ERROR == WSASend(pPerHandle->sock, &(pPerIo->wsaBuf), 1,
&dwTrans, dwFlags, &(pPerIo->ol), NULL))
{
if(WSA_IO_PENDING != WSAGetLastError())
{
printf("WSASend failed with error code: %d/n", WSAGetLastError());
closesocket(pPerHandle->sock);
delete pPerHandle;
delete pPerIo;
continue;
}
}
}
break; case OP_READ: // Read
printf("recv client <%s : %d> data: %s/n", inet_ntoa(pPerHandleData->addr.sin_addr), ntohs(pPerHandleData->addr.sin_port), pPerIoData->buf);
pPerIoData->opType = OP_WRITE;
memset(&(pPerIoData->ol), 0, sizeof(pPerIoData->ol));
if(SOCKET_ERROR == WSASend(pPerHandleData->sock, &(pPerIoData->wsaBuf), 1, &dwTrans, dwFlags, &(pPerIoData->ol), NULL))
{
if(WSA_IO_PENDING != WSAGetLastError())
{
printf("WSASend failed with error code: %d./n", WSAGetLastError());
continue;
}
}
break; case OP_WRITE: // Write
{
pPerIoData->opType = OP_READ;
dwFlags = 0;
memset(&(pPerIoData->ol), 0, sizeof(pPerIoData->ol));
memset(pPerIoData->buf, 0, sizeof(pPerIoData->buf));
pPerIoData->wsaBuf.buf = pPerIoData->buf;
dwTrans = pPerIoData->wsaBuf.len = MAX_BUFFER;
if(SOCKET_ERROR == WSARecv(pPerHandleData->sock, &(pPerIoData->wsaBuf), 1, &dwTrans, &dwFlags, &(pPerIoData->ol), NULL))
{
if(WSA_IO_PENDING != WSAGetLastError())
{
printf("WSARecv failed with error code: %d./n", WSAGetLastError());
continue;
}
}
}
break; default:
break;
}
}
}
}
return 0;
}
IOCP 模型2 AcceptEx的更多相关文章
- IOCP模型总结(转)
IOCP模型总结(转) IOCP(I/O Completion Port,I/O完成端口)是性能最好的一种I/O模型.它是应用程序使用线程池处理异步I/O请求的一种机制.在处理多个并发的异步I/O请求 ...
- IOCP模型与网络编程
IOCP模型与网络编程 一.前言: 在老师分配任务(“尝试利用IOCP模型写出服务端和客户端的代码”)给我时,脑子一片空白,并不知道什么是IOCP模型,会不会是像软件设计模式里面的工厂模 ...
- winsock编程IOCP模型实现代码
winsock编程IOCP模型实现代码 话不多说,上代码.借鉴<windows核心编程>部分源码和CSDN小猪部分代码. stdafx.h依赖头文件: #include <iostr ...
- IOCP模型与网络编
一.前言: 在老师分配任务(“尝试利用IOCP模型写出服务端和客户端的代码”)给我时,脑子一片空白,并不知道什么是IOCP模型,会不会是像软件设计模式里面的工厂模式,装饰模式之类的那些呢 ...
- [转载]IOCP模型的总结
原文:IOCP模型的总结 IOCP(I/O Completion Port,I/O完成端口)是性能最好的一种I/O模型.它是应用程序使用线程池处理异步I/O请求的一种机制.在处理多个并发的异步I/O请 ...
- IOCP模型总结(总结回想)
IOCP旧代码重提.近期一直在玩其它方面的东东.时不时回想一下,收益多多. IOCP(I/O Completion Port,I/O完毕port)是性能最好的一种I/O模型.它是应用程序使用线程池处理 ...
- Server Develop (八) IOCP模型
IOCP模型 IOCP全称I/O Completion Port,中文译为I/O完成端口.IOCP是一个异步I/O的Windows API,它可以高效地将I/O事件通知给应用程序,类似于Linux中的 ...
- IOCP模型
IOCP http://blog.csdn.net/zhongguoren666/article/details/7386592 Winsock IO模型之IOCP模型 http://blog.csd ...
- 【IOCP】 IOCP模型属于一种通讯模型- 较难
http://baike.baidu.com/link?url=e9vXkKd2aHp8VDr1XTURdwQB4K85r28IYjeMwRIyuaXtsrCsXHY1eohiFgsDXRYRlj6x ...
随机推荐
- gRPC-微服务间通信实践
微服务间通信常见的两种方式 由于微服务架构慢慢被更多人使用后,迎面而来的问题是如何做好微服务间通信的方案.我们先分析下目前最常用的两种服务间通信方案. gRPC(rpc远程调用) 场景:A服务主动发起 ...
- 理解RESTful:理论与最佳实践
什么是 REST 什么是 RESTful Richardson 成熟度模型 RESTful API 设计最佳实践 补充:HTTP 状态码及说明 什么是 REST REST 一词,是由 HTTP 协议的 ...
- 排序算法:冒泡排序(Bubble Sort)
冒泡排序 算法原理 冒泡排序的原理是每次从头开始依次比较相邻的两个元素,如果后面一个元素比前一个要大,说明顺序不对,则将它们交换,本次循环完毕之后再次从头开始扫描,直到某次扫描中没有元素交换,说明每个 ...
- 头文件.h的作用
参考链接http://www.cnblogs.com/webcyz/archive/2012/09/16/2688035.html懒得复制过来
- ElasticSearch 索引 VS MySQL 索引
前言 这段时间在维护产品的搜索功能,每次在管理台看到 elasticsearch 这么高效的查询效率我都很好奇他是如何做到的. 这甚至比在我本地使用 MySQL 通过主键的查询速度还快. 为此我搜索了 ...
- 带有Firebase的离子2:在OAuth 2中签名
介绍 这是一个指南,展示如何在Android上使用Firebase认证谷歌用户. 背景 虽然很多人都写过这个指南,但是他们没有解释一个关键的部分--为什么在执行了每一步之后仍然会看到认证错误12501 ...
- 远程触发Jenkins的Pipeline任务
场景 虽然能配置提交代码时触发Jenkins任务,但有时并不需要每次提交代码都触发,而是仅在有需要时才执行. 除了在Jenkins页面上手动执行任务,还可以向Jenkins网站发起HTTP请求,触发指 ...
- jquery购物车全选,取消全选,计算总金额
这是html代码 <div class="gwcxqbj"> <div class="gwcxd center"> <div cl ...
- shell-变量的数值运算符-计算双括号(())的使用
1. 变量的数值计算 变量的数值计算常见的如下几个命令: (()).let.expr.bc.$[] 1) (())用法:(此法很常用,且效率高) 执行简单的整数运算,只需将特定的算术表达式用 &qu ...
- S3C6410 LCD驱动分析(转)
一. 理论分析1. 几个概念:FIMC : Fully Interactive Mobile Camera (完全交互式移动摄像机)FIMD: Fully Interactive Mob ...