基于epoll的多线程网络服务程序设计——C语言
采用C语言设计了一个基于epoll的多线程网络服务程序。每个线程都有一个epoll来捕获处于这个线程的socket事件。当子线程数量为0,即只有一个线程,则网络监听服务与socket消息处理处于同一个epoll。当子线程数量大于0时,主线程监听socket连接,当有新的连接到来时将其加入到活跃socket数量最小的子线程的epoll中。
server.h
#ifndef EPOLL_C_SERVER_H #define EPOLL_C_SERVER_H #include#include #include #include #include #include #include #include #include #include #define RESULT_OK 0 #define RESULT_ERROR -1 /************************************************************************** * Function : *MSG_HANDLE * Input : socket_fd --> socket文件描述符 * : arg --> void* 参数 * Output : * Return : 1 处理成功,继续等待下次消息;0 处理完毕完毕该连接;-1 异常错误发生 * Description : 消息处理函数指针 ****************************************************************************/ typedef int (*MSG_HANDLE)(int socket_fd,void* arg) ; typedef struct { int epoll_fd; pthread_t thd_fd; //消息处理函数,各个线程会调用该函数进行消息处理 MSG_HANDLE data_func; //一个线程里面的有效socket数量 unsigned int active_conection_cnt; //线程互斥锁,用于实时更新有效socket数量 pthread_mutex_t thd_mutex; }socket_thd_struct; //表示处理socket的子线程 typedef struct { int epoll_fd; unsigned short ip_port; //消息处理函数,当只有一个线程时,会调用该函数进行消息处理 MSG_HANDLE data_func; //子线程数量,可以为0,为0表示server与socket处理处于同一个线程 unsigned int socket_pthread_count; //子线程结构体指针 socket_thd_struct* socket_thd; }server_struct; //一个网络服务结构体 /************************************************************************** * Function : initServerStruct * Input : param_port --> 服务端口号 * : param_thd_count --> 子线程数量,用于处理连接的client * : param_handle --> socket数据处理函数指针 * Output : * Return : 初始化好的server结构体 * Description : 初始化server结构体 ****************************************************************************/ server_struct* initServerStruct(unsigned short param_port,unsigned int param_thd_count,MSG_HANDLE param_handle); /************************************************************************** * Function : serverRun * Input : param_server --> server服务结构体参数 * Output : * Return :RESULT_OK(0):执行成功;RESULT_ERROR(-1):执行失败 * Description : 运行网络服务,监听服务端口 ****************************************************************************/ int serverRun(server_struct *param_server); #endif //EPOLL_C_SERVER_H
server.c
#include "server.h" static void* socketPthreadRun(void* arg) { socket_thd_struct* pa_sock_st=(socket_thd_struct*)arg; int active_counts=0; struct epoll_event ev; struct epoll_event events[5]; int ret=0; while(1) { //等待读写事件的到来 active_counts=epoll_wait(pa_sock_st->epoll_fd,events,5,-1); fprintf(stdout,"active count:%d\n",active_counts); int index=0; for(index=0;indexepoll_fd,EPOLL_CTL_DEL,events[index].data.fd,NULL); close(events[index].data.fd); pthread_mutex_lock(&(pa_sock_st->thd_mutex)); pa_sock_st->active_conection_cnt--; pthread_mutex_unlock(&(pa_sock_st->thd_mutex)); } else if(events[index].events&EPOLLRDHUP) //对端异常关闭连接 { fprintf(stdout,"client close this socket\n"); epoll_ctl(pa_sock_st->epoll_fd,EPOLL_CTL_DEL,events[index].data.fd,NULL); close(events[index].data.fd); pthread_mutex_lock(&(pa_sock_st->thd_mutex)); pa_sock_st->active_conection_cnt--; pthread_mutex_unlock(&(pa_sock_st->thd_mutex)); } else if(events[index].events&EPOLLIN) //读事件到来,进行消息处理 { ret=pa_sock_st->data_func(events[index].data.fd,NULL); if(ret==-1) { fprintf(stderr,"client socket exception happened\n"); epoll_ctl(pa_sock_st->epoll_fd,EPOLL_CTL_DEL,events[index].data.fd,NULL); close(events[index].data.fd); pthread_mutex_lock(&(pa_sock_st->thd_mutex)); pa_sock_st->active_conection_cnt--; pthread_mutex_unlock(&(pa_sock_st->thd_mutex)); } if(ret==0) { fprintf(stdout,"client close this socket\n"); epoll_ctl(pa_sock_st->epoll_fd,EPOLL_CTL_DEL,events[index].data.fd,NULL); close(events[index].data.fd); pthread_mutex_lock(&(pa_sock_st->thd_mutex)); pa_sock_st->active_conection_cnt--; pthread_mutex_unlock(&(pa_sock_st->thd_mutex)); } else if(ret==1) { } } } } pthread_exit(NULL); } server_struct* initServerStruct(unsigned short param_port,unsigned int param_thd_count,MSG_HANDLE param_handle) { server_struct* serv_st=(server_struct*)malloc(sizeof(server_struct)); serv_st->ip_port=param_port; serv_st->data_func=param_handle; serv_st->epoll_fd=epoll_create(256); serv_st->socket_pthread_count=param_thd_count; serv_st->socket_thd=NULL; if(serv_st->socket_pthread_count>0) { fprintf(stdout,"create client socket sub thread\n"); serv_st->socket_thd=(socket_thd_struct*)malloc(sizeof(socket_thd_struct)*serv_st->socket_pthread_count); int index=0; for(index=0;index socket_pthread_count;index++) { serv_st->socket_thd[index].epoll_fd=epoll_create(256); serv_st->socket_thd[index].data_func=param_handle; serv_st->socket_thd[index].active_conection_cnt=0; serv_st->socket_thd[index].thd_fd=0; //创建子线程 pthread_create(&(serv_st->socket_thd[index].thd_fd),NULL,socketPthreadRun,(void*)&(serv_st->socket_thd[index])); //初始化线程互斥锁 pthread_mutex_init(&(serv_st->socket_thd[index].thd_mutex),NULL); } } return serv_st; } int serverRun(server_struct *param_server) { int ret=RESULT_OK; int server_socket=0; struct sockaddr_in server_addr; bzero(&server_addr,sizeof(server_addr)); struct epoll_event ev; struct epoll_event events[5]; int active_count=0; int index=0; int new_socket=0; struct sockaddr_in client_info; socklen_t client_info_len=0; server_addr.sin_family=AF_INET; server_addr.sin_addr.s_addr=htons(INADDR_ANY); server_addr.sin_port=htons(param_server->ip_port); server_socket=socket(PF_INET,SOCK_STREAM,0); if(server_socket<0) { fprintf(stderr,"create socket error:errno(%d)-%s\n",errno,strerror(errno)); return RESULT_ERROR; } fprintf(stdout,"create server socket ssuccessful\n"); param_server->epoll_fd=epoll_create(256); ev.data.fd=server_socket; ev.events=EPOLLIN|EPOLLET; if(epoll_ctl(param_server->epoll_fd,EPOLL_CTL_ADD,server_socket,&ev)!=0) { fprintf(stderr,"server socket add to epoll error:errno(%d)-%s\n",errno,strerror(errno)); return RESULT_ERROR; } fprintf(stdout,"server socket add to epoll successful\n"); if(bind(server_socket,(struct sockaddr*)&server_addr,sizeof(server_addr))!=0) { fprintf(stderr,"server bind failed:errno(%d)-%s\n",errno,strerror(errno)); return RESULT_ERROR; } fprintf(stdout,"server socket bind successful\n"); if(listen(server_socket,param_server->ip_port)!=0) { fprintf(stderr,"server listen failed:errno(%d)-%s\n",errno,strerror(errno)); return RESULT_ERROR; } fprintf(stdout,"server socket listen successful\n"); while(1) { active_count=epoll_wait(param_server->epoll_fd,events,5,-1); fprintf(stdout,"active count:%d\n",active_count); for(index=0;index connected\n",((unsigned char*)&(client_info.sin_addr))[0],((unsigned char*)&(client_info.sin_addr))[1],((unsigned char*)&(client_info.sin_addr))[2],((unsigned char*)&(client_info.sin_addr))[3],client_info.sin_port); ev.data.fd=new_socket; ev.events=EPOLLIN|EPOLLERR|EPOLLRDHUP; if(param_server->socket_pthread_count==0) { epoll_ctl(param_server->epoll_fd,EPOLL_CTL_ADD,new_socket,&ev); } else { int tmp_index=0; int mix_cnt_thread_id=0; unsigned int act_cnts=0; for(tmp_index=0;tmp_index socket_pthread_count;tmp_index++) { pthread_mutex_lock(&(param_server->socket_thd[tmp_index].thd_mutex)); act_cnts=param_server->socket_thd[tmp_index].active_conection_cnt; pthread_mutex_unlock(&(param_server->socket_thd[tmp_index].thd_mutex)); if(mix_cnt_thread_id>act_cnts) { mix_cnt_thread_id=tmp_index; } } epoll_ctl(param_server->socket_thd[mix_cnt_thread_id].epoll_fd,EPOLL_CTL_ADD,new_socket,&ev); pthread_mutex_lock(&(param_server->socket_thd[mix_cnt_thread_id].thd_mutex)); param_server->socket_thd[mix_cnt_thread_id].active_conection_cnt++; pthread_mutex_unlock(&(param_server->socket_thd[mix_cnt_thread_id].thd_mutex)); } fprintf(stdout,"add new client socket to epoll\n"); } else if(events[index].events&EPOLLERR || events[index].events&EPOLLRDHUP) //对端关闭连接 { fprintf(stdout,"client close this socket\n"); epoll_ctl(param_server->epoll_fd,EPOLL_CTL_DEL,events[index].data.fd,NULL); close(events[index].data.fd); } else if(events[index].events&EPOLLIN) //读事件到来,进行消息处理 { fprintf(stdout,"begin recv client data\n"); ret=param_server->data_func(events[index].data.fd,NULL); if(ret==-1) { fprintf(stderr,"client socket exception happened\n"); epoll_ctl(param_server->epoll_fd,EPOLL_CTL_DEL,events[index].data.fd,NULL); close(events[index].data.fd); } if(ret==0) { fprintf(stdout,"client close this socket\n"); epoll_ctl(param_server->epoll_fd,EPOLL_CTL_DEL,events[index].data.fd,NULL); close(events[index].data.fd); } else if(ret==1) { } } } } close(server_socket); return RESULT_OK; }
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