epoll学习

简介:

epoll全名event poll,他是poll的加强版本,从linux 2.6开始。

select,poll,epoll的关系:

  • select,IO多路归并,也就是在单一线程中监控多个fd
  • poll:具有select的作用,但是select有个局限,被监听的fd数量有限,poll改进了这一点,并且相比于select而言,接口更方便
  • epoll:具有epoll的作用,但是poll是O(n)操作,即需要线性遍历所有的fd,逐一检测,而epoll进行了改进,通过事件注册,直接触发相关函数,不需要遍历所有注册的fd。

epoll有三个接口:

  • epoll_create:创建epoll对象
  • epoll_ctl:控制epoll对象
  • epoll_wait:等待epoll事件发生

 

这里一遍介绍epoll使用方法的文章 https://banu.com/blog/2/how-to-use-epoll-a-complete-example-in-c/

我将里面的元代码修改了,将一些方法提取出来,使得程序的整体脉络更清晰,记录在这里,以便参考:

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#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <netdb.h>
#include <unistd.h>
#include <fcntl.h>
#include <sys/epoll.h>
#include <errno.h>
 
#define MAXEVENTS 64
 
/**
  * 将socket设置为非堵塞
  * static 函数防止外部调用,默认都是extern
  */
static int MakeSocketNonBlocking (int nSockFd);
 
/**
  * 接受新的链接,并将其放到epoll中
  * @param nListenSock 监听socket
  * @param nEpoll epoll对象实例
  * @ return  0 for  OK,-1 for  error
  */
static int AcceptConnections(int nListenSock, int nEpoll);
 
/**
  * 处理新链接的客户端
  */
static int ProcessClient(int nClientSock);
 
/**
  * 根据端口创建一个socket,绑定到指定端口并返回此socket。
  * 此方法兼容IPv4和IPv6
  */
static int CreateAndBindSocket (char *szPort);
 
/**
  * 主入口
  */
int main (int argc, char *argv[])
{
     if  (argc != 2)
     {
         fprintf (stderr, "Usage: %s [port]\n" , argv[0]);
         exit  (EXIT_FAILURE);
     }
 
     int nListenSock = CreateAndBindSocket(argv[1]);
     if  (nListenSock == -1)
     {
         abort();
     }
 
     int iRet = MakeSocketNonBlocking(nListenSock);
     if  (iRet == -1)
     {
         abort();
     }
 
     iRet = listen(nListenSock, SOMAXCONN);
     if  (iRet == -1)
     {
         perror ( "listen" );
         abort ();
     }
 
     //  创建epoll对象
     int nEpoll = epoll_create(1024);
     if  (nEpoll == -1)
     {
         perror ( "epoll_create" );
         abort ();
     }
 
     struct epoll_event oEvent;
     oEvent.data.fd = nListenSock; //  此事件fd设置为监听socket
     oEvent.events = EPOLLIN | EPOLLET; //  注册读( in )事件和边界触发事件,默认为level-triggered
     iRet = epoll_ctl (nEpoll, EPOLL_CTL_ADD, nListenSock, &oEvent); //  将此事件添加到epoll对象中
     if  (iRet == -1)
     {
         perror ( "epoll_ctl" );
         abort ();
     }
 
     /* Buffer where events are returned */
     struct epoll_event* pEventList = (epoll_event*)calloc(MAXEVENTS, sizeof oEvent);
 
     /* The event loop */
     while  (1)
     {
         //  等待epoll事件发生,n为发生的个数,-1那么wait的事件有内核指定
         int n = epoll_wait(nEpoll, pEventList, MAXEVENTS, -1);
         for  (int i = 0; i < n; i++)
         {
             if  ((pEventList[i].events & EPOLLERR) ||
                 (pEventList[i].events & EPOLLHUP) ||
                 (!(pEventList[i].events & EPOLLIN)))
             {
                 /* An error has occured on this fd, or the socket is not
                 ready for  reading (why were we notified then ?) */
                 fprintf (stderr, "epoll error\n" );
                 close (pEventList[i].data.fd);
                 continue ;
             }
             else  if  (nListenSock == pEventList[i].data.fd) //  监听socket有 in 事件触发,说明有新的链接,那么添加到epoll中
             {
                 int iRet = AcceptConnections(nListenSock, nEpoll);
                 if  (iRet == -1)
                 {
                     abort();
                 }
             }
             else  //  处理所有的fd
             {
                 int iRet = ProcessClient(pEventList[i].data.fd);
                 if  (iRet != 0)
                 {
                     abort();
                 }
             } //  end of if
         } //  end of for
     } //  end of while
 
     free  (pEventList);
     close (nListenSock);
 
     return  EXIT_SUCCESS;
}
 
/**
  * 将socket设置为非堵塞
  * static 函数防止外部调用,默认都是extern
  */
int MakeSocketNonBlocking (int nSockFd)
{
     //  获取当前的flags
     int nFlags = fcntl (nSockFd, F_GETFL, 0);
     if  (nFlags == -1)
     {
         perror ( "fcntl" );
         return  -1;
     }
 
     //  添加O_NONBLOCK标记,也就是非堵塞
     nFlags |= O_NONBLOCK;
     int iRet = fcntl (nSockFd, F_SETFL, nFlags);
     if  (iRet == -1)
     {
         perror ( "fcntl" );
         return  -1;
     }
 
     return  0;
}
 
/**
  * 根据端口创建一个socket,绑定到指定端口并返回此socket。
  * 此方法兼容IPv4和IPv6
  */
int CreateAndBindSocket (char *szPort)
{
     //  传给函数getaddrinfo的提示数据结构,用于IPv4和IPv6兼容
     struct addrinfo oAddrHints;
     memset (&oAddrHints, 0, sizeof (struct addrinfo));
     oAddrHints.ai_family = AF_UNSPEC;     /* Return IPv4 and IPv6 choices */
     oAddrHints.ai_socktype = SOCK_STREAM; /* We want a TCP socket */
     oAddrHints.ai_flags = AI_PASSIVE;     /* All interfaces */
 
     //  获取当前host的信息数据
     struct addrinfo *pHostAddrInfo;
     int iRet = getaddrinfo (NULL, szPort, &oAddrHints, &pHostAddrInfo);
     if  (iRet != 0)
     {
         fprintf (stderr, "getaddrinfo: %s\n" , gai_strerror (iRet));
         return  -1;
     }
 
     int nSock = -1;
     struct addrinfo *pCurAddr; //  当前地址,host可以装有多个网卡,需要遍历每一个可用的ip
     for  (pCurAddr = pHostAddrInfo; pCurAddr != NULL; pCurAddr = pCurAddr->ai_next)
     {
         nSock = socket (pCurAddr->ai_family, pCurAddr->ai_socktype, pCurAddr->ai_protocol);
         if  (nSock == -1)
         {
             continue ;
         }
         iRet = bind (nSock, pCurAddr->ai_addr, pCurAddr->ai_addrlen);
         if  (iRet == 0)
         {
             /* We managed to bind successfully! */
             break ;
         }
 
         close (nSock);
     }
 
     if  (pCurAddr == NULL)
     {
         fprintf (stderr, "Could not bind\n" );
         return  -1;
     }
 
     //  释放内存
     freeaddrinfo (pHostAddrInfo);
 
     //  返回可以用的socket
     return  nSock;
}
 
/**
  * 接受新的链接,并将其放到epoll中
  * @param nListenSock 监听socket
  * @param nEpoll epoll对象实例
  * @ return  0 for  OK,-1 for  error
  */
int AcceptConnections(int nListenSock, int nEpoll)
{
     //  We have a notification on the listening socket, which  means one or more  incoming connections.
     while  (1)
     {
         struct sockaddr oClientAddr;
         socklen_t nSockLen = sizeof oClientAddr;
         int nConnSock = accept (nListenSock, &oClientAddr, &nSockLen);
         if  (nConnSock == -1)
         {
             if  (errno == EAGAIN || errno == EWOULDBLOCK)
             {
                 //  We have processed all incoming connections.
                 break ;
             }
             else
             {
                 perror ( "accept" );
                 return  -1;
             }
         }
 
         //  输出新建连接的客户端地址
         char szHostBuf[NI_MAXHOST], szServerBuf[NI_MAXSERV];
         int iRet = getnameinfo( &oClientAddr, nSockLen,
                             szHostBuf, sizeof szHostBuf,
                             szServerBuf, sizeof szServerBuf,
                             NI_NUMERICHOST | NI_NUMERICSERV);
         if  (iRet == 0)
         {
             printf ( "Accepted connection on descriptor %d "
                    "(host=%s, port=%s)\n" , nConnSock, szHostBuf, szServerBuf);
         }
 
         /* Make the incoming socket non-blocking and add it to the
          list of fds to monitor. */
         iRet = MakeSocketNonBlocking (nConnSock);
         if  (iRet == -1)
         {
             return  -1;
         }
         struct epoll_event oEvent;
         oEvent.data.fd = nConnSock;
         oEvent.events = EPOLLIN | EPOLLET;
         iRet = epoll_ctl(nEpoll, EPOLL_CTL_ADD, nConnSock, &oEvent); //  将新的fd添加到epoll中
         if  (iRet == -1)
         {
             perror ( "epoll_ctl" );
             return  -1;
         }
     }
 
     return  0;
}
 
/**
  * 处理新链接的客户端
  */
int ProcessClient(int nClientSock)
{
     /* We have data on the fd waiting to be read . Read and
     display it. We must read  whatever data is available
     completely, as we are running in  edge-triggered mode
     and won't get a notification again for  the same
     data. */
     int done  = 0;
 
     while  (1)
     {
        ssize_t count;
        char buf[512];
 
        count = read (nClientSock, buf, sizeof buf);
        if  (count == -1)
        {
             /* If errno == EAGAIN, that means we have read  all
             data. So go back to the main loop. */
             if  (errno != EAGAIN)
             {
                perror ( "read" );
                done  = 1;
             }
             break ;
        }
        else  if  (count == 0)
        {
            /* End of file . The remote has closed the
             connection. */
            done  = 1;
            break ;
        }
 
         /* Write the buffer to standard output */
         int iRet = write (1, buf, count);
         if  (iRet == -1)
         {
            perror ( "write" );
            return  -1;
         }
     }
 
     if  ( done )
     {
         printf  ( "Closed connection on descriptor %d\n" , nClientSock);
 
         /* Closing the descriptor will make  epoll remove it
         from the set  of descriptors which  are monitored. */
         close (nClientSock);
     }
 
     return  0;
}

编译好后,使用telnet链接服务器,可以看到效果

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本文转自bourneli博客园博客,原文链接:http://www.cnblogs.com/bourneli/archive/2011/12/30/unp.html ,如需转载请自行联系原作者
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