本文介绍了一个使用Epoll实现的服务端程序,通过自定义事件结构体管理客户端连接,并实现了接收和发送数据的功能。该程序利用红黑树进行高效地文件描述符管理。
#include <stdio.h>
#include <sys/socket.h>
#include <sys/epoll.h>
#include <arpa/inet.h>
#include <fcntl.h>
#include <unistd.h>
#include <errno.h>
#include <string.h>
#include <stdlib.h>
#include <time.h>
#define MAX_EVENTS 1024 /*监听上限*/
#define BUFLEN 4096 /*缓存区大小*/
#define SERV_PORT 6666 /*端口号*/
void recvdata(int fd,int events,void *arg);
void senddata(int fd,int events,void *arg);
/*描述就绪文件描述符的相关信息*/
struct myevent_s{
int fd;
int events;
void *arg;
void (*call_back)(int fd,int events,void *arg);
int status;
char buf[BUFLEN];
int len;
long last_active;
};
int g_efd; /*全局变量,作为红黑树根*/
struct myevent_s g_events[MAX_EVENTS+1]; /*自定义结构体类型数组. +1-->listen fd*/
/*将结构体 myevent_s 成员变量 初始化*/
void eventset(struct myevent_s *ev,int fd,void (*call_back)(int fd,int events,void *arg),void
*arg)
{
ev->fd=fd;
ev->call_back=call_back;
ev->events=0;
ev->arg=arg;
ev->status=0;
if(ev->len<=0)
{
memset(ev->buf,0,sizeof(ev->buf));
ev->len = 0;
}
ev->last_active= time(NULL);
return;
}
/* 向 epoll监听的红黑树 添加一个 文件描述符 */
void eventadd(int efd,int events,struct myevent_s *ev)
{
struct epoll_event epv={0,{0}};
int op=0;
epv.data.ptr=ev;
epv.events=ev->events=events;
if(ev->status==0) /*status 说明文件描述符是否在红黑树上 0不在,1 在*/
{
op=EPOLL_CTL_ADD;
ev->status=1;
}
if(epoll_ctl(efd,op,ev->fd,&epv)<0)
printf("event add failed [fd=%d],events[%d]\n",ev->fd,events);
else
printf("event add OK [fd=%d],events[%0X]\n",ev->fd,events);
return;
}
/* 从epoll 监听的 红黑树中删除一个 文件描述符*/
void eventdel(int efd,struct myevent_s *ev)
{
struct epoll_event epv={0,{0}};
if(ev->status != 1)
return;
epv.data.ptr=NULL;
ev->status=0;
epoll_ctl(efd,EPOLL_CTL_DEL,ev->fd,&epv);
return;
}
/* 当有文件描述符就绪, epoll返回, 调用该函数 与客户端建立链接 */
void acceptconn(int lfd,int events,void *arg)
{
struct sockaddr_in cin;
socklen_t len=sizeof(cin);
int cfd,i;
if((cfd=accept(lfd,(struct sockaddr *)&cin,&len)) == -1)
{
if(errno !=EAGAIN && errno !=EINTR)
{
sleep(1);
}
printf("%s:accept,%s\n",__func__,strerror(errno));
return;
}
do
{
for(i=0;i<MAX_EVENTS;i++)
{
if(g_events[i].status ==0)
break;
}
if(i==MAX_EVENTS)
{
printf("%s: max connect limit[%d]\n", __func__, MAX_EVENTS);
break;
while(0);
}
int flag = 0;
if((flag = fcntl(cfd, F_SETFL, O_NONBLOCK)) < 0)
{
printf("%s: fcntl nonblocking failed, %s\n", __func__, strerror(errno
));
break;
}
eventset(&g_events[i], cfd, recvdata, &g_events[i]);
eventadd(g_efd, EPOLLIN, &g_events[i]);
}while(0);
printf("new connect[%s:%d],[time:%ld],pos[%d]",inet_ntoa(cin.sin_addr), ntohs(cin.sin
_port), g_events[i].last_active, i);
return;
}
void recvdata(int fd, int events, void *arg)
{
struct myevent_s *ev = (struct myevent_s *)arg;
int len;
len = recv(fd, ev->buf, sizeof(ev->buf), 0); //读文件描述符, 数据存入myevent_s
成员buf中
eventdel(g_efd, ev); //将该节点从红黑树上摘除
if (len > 0) {
ev->len = len;
ev->buf[len] = '\0'; //手动添加字符串结束标记
printf("C[%d]:%s\n", fd, ev->buf);
eventset(ev, fd, senddata, ev); //设置该 fd 对应的回调函数为 send
data
eventadd(g_efd, EPOLLOUT, ev); //将fd加入红黑树g_efd中,监听其写>
事件
} else if (len == 0) {
close(ev->fd);
/* ev-g_events 地址相减得到偏移元素位置 */
printf("[fd=%d] pos[%ld], closed\n", fd, ev-g_events);
} else {
close(ev->fd);
printf("recv[fd=%d] error[%d]:%s\n", fd, errno, strerror(errno));
}
return;
}
void senddata(int fd, int events, void *arg)
{
struct myevent_s *ev = (struct myevent_s *)arg;
int len;
len = send(fd, ev->buf, ev->len, 0); //直接将数据 回写给客户端。未作处
理
eventdel(g_efd, ev); //从红黑树g_efd中移除
if (len > 0) {
printf("send[fd=%d], [%d]%s\n", fd, len, ev->buf);
eventset(ev, fd, recvdata, ev); //将该fd的 回调函数改为 recvdata
eventadd(g_efd, EPOLLIN, ev); //从新添加到红黑树上, 设为监听读
事件
} else {
close(ev->fd); //关闭链接
printf("send[fd=%d] error %s\n", fd, strerror(errno));
}
return ;
}
/*创建 socket, 初始化lfd */
void initlistensocket(int efd, short port)
{
struct sockaddr_in sin;
int lfd = socket(AF_INET, SOCK_STREAM, 0);
fcntl(lfd, F_SETFL, O_NONBLOCK); //将socket设>
为非阻塞
memset(&sin, 0, sizeof(sin)); //bzero(&sin,
sizeof(sin))
sin.sin_family = AF_INET;
sin.sin_addr.s_addr = INADDR_ANY;
sin.sin_port = htons(port);
bind(lfd, (struct sockaddr *)&sin, sizeof(sin));
listen(lfd, 20);
/* void eventset(struct myevent_s *ev, int fd, void (*call_back)(int, int, void *), void
*arg); */
eventset(&g_events[MAX_EVENTS], lfd, acceptconn, &g_events[MAX_EVENTS]);
/* void eventadd(int efd, int events, struct myevent_s *ev) */
eventadd(efd, EPOLLIN, &g_events[MAX_EVENTS]);
return;
}
int main()
{
int port=SERV_PORT;
g_efd = epoll_create(MAX_EVENTS+1);
if(g_efd <= 0)
printf("create efd in %s err %s\n", __func__, strerror(errno));
initlistensocket(g_efd, port);
struct epoll_event events[MAX_EVENTS+1];
printf("server running:port[%d]\n", port);
int checkpos=0;
int i;
while(1)
{
long now=time(NULL);
for(i=0;i<100;i++,checkpos++)
{
if(checkpos==MAX_EVENTS);
checkpos=0;
if(g_events[checkpos].status != 1)
continue;
long duration=now -g_events[checkpos].last_active;
if(duration >= 60)
{
close(g_events[checkpos].fd);
printf("[fd=%d] timeout\n", g_events[checkpos].fd);
eventdel(g_efd, &g_events[checkpos]);
}
}
int nfd = epoll_wait(g_efd, events, MAX_EVENTS+1, 1000);
if (nfd < 0)
{
printf("epoll_wait error, exit\n");
exit(-1);
}
for(i=0;i<nfd;i++)
{
struct myevent_s *ev = (struct myevent_s *)events[i].data.ptr;
if((events[i].events & EPOLLIN) &&(ev->events & EPOLLIN))
{
ev->call_back(ev->fd, events[i].events, ev->arg);
}
if((events[i].events & EPOLLOUT) && (ev->events & EPOLLOUT))
{
ev->call_back(ev->fd, events[i].events, ev->arg);
}
}
}
return 0;
}
C-socket编-epoll反应堆模型
最新推荐文章于 2025-04-07 15:44:07 发布
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