/* * Compile with: * gcc  time-test time-test.c -o time-test time-test  -I/usr/local/include  -L/usr/local/lib  -levent *//* * XXX This sample code was once meant to show how to use the basic Libevent * interfaces, but it never worked on non-Unix platforms, and some of the * interfaces have changed since it was first written.  It should probably * be removed or replaced with something better. * * Compile with: * gcc -I/usr/local/include -o time-test time-test.c -L/usr/local/lib -levent */#include <sys/types.h>#include <sys/stat.h>#include <time.h>#ifdef _EVENT_HAVE_SYS_TIME_H#include <sys/time.h>#endif#include <stdio.h>#include <event2/event.h>#include <event2/event_struct.h>#include <event2/util.h>struct timeval lasttime;int event_is_persistent;static void timeout_cb(evutil_socket_t fd, short event, void *arg){    struct timeval newtime, difference;    struct event *timeout = arg;    double elapsed;    evutil_gettimeofday(&newtime, NULL);    evutil_timersub(&newtime, &lasttime, &difference);    elapsed = difference.tv_sec +        (difference.tv_usec / 1.0e6);    printf("timeout_cb called at %d‘: %.3f seconds elapsed.\n",        (int)newtime.tv_sec, elapsed);    lasttime = newtime;//  /* 启动此测试程序时,不加-p参数,使用以下代码也可实现相同功能 *///    struct timeval tv;//    evutil_timerclear(&tv);//    tv.tv_sec = 1;//    event_add(timeout, &tv);    //再次添加定时事件}int main(int argc, char **argv){    struct event timeout;        //创建事件    struct timeval tv;    struct event_base *base;    //创建事件"总管"的指针    int flags;                    //事件标志,超时事件可不设EV_TIMEOUT,因为在添加事件时可设置    if (argc == 2 && !strcmp(argv[1], "-p")) {        event_is_persistent = 1;        flags = EV_PERSIST;        //使得事件具有持久性(否则事件只会调度一次)    } else {        event_is_persistent = 0;        flags = 0;    }    /* Initalize the event library */    base = event_base_new();            //创建事件"总管"    /* Initalize one event */    event_assign(&timeout, base, -1, flags, timeout_cb, (void*) &timeout);    evutil_timerclear(&tv);    tv.tv_sec = 1;    event_add(&timeout, &tv);        //添加事件,同时设置超时时间    evutil_gettimeofday(&lasttime, NULL);    event_base_dispatch(base);        //循环监视事件,事件标志的条件发生,就调用回调函数    return (0);}

/* * Compile with: *  gcc libe_signal_test.c -o libe_signal_test -I/usr/local/include -L/usr/local/lib -levent */#include <signal.h>#include <stdio.h>#include <event.h>#include <event2/event.h>#ifdef _EVENT___func__#define __func__ _EVENT___func__#endif//int called = 0;static void signal_cb(evutil_socket_t fd, short event, void *arg){    struct event *signal = arg;    sleep(10);    printf("%s: got signal %d\n", __func__, EVENT_SIGNAL(signal));//    if (called >= 2)//        event_del(signal);//    called++;}int main(int argc, char **argv){    struct event signal_usr;    struct event_base* base;    /* Initalize the event library */    base = event_base_new();    /* Initalize one event */    event_assign(&signal_usr, base, SIGUSR1, EV_SIGNAL|EV_PERSIST, signal_cb,        &signal_usr);    event_add(&signal_usr, NULL);    event_base_dispatch(base);    event_base_free(base);    printf("end of main!\n");    return (0);}

#include <sys/socket.h>#include <sys/types.h>#include <netinet/in.h>#include <stdio.h>#include <event.h>#include <event2/event.h>#include<errno.h>#define PORT            6666            //----------需改灵活点#define BACKLOG         10                //好像没起到作用，我设置为1，在同一机子下开两个连接，没弹出警告信息#define EV_BUFSIZE_T       sizeof(pid_t)    //服务端与客户端传递数据的buffer大小/* 管理每一个连接的读写事件和数据 */typedef struct sock_event {    struct event *read_ev;        //读事件    struct event *write_ev;        //写事件    pid_t *buffer;                //buffer仅存进程pid    int    gapbeats;                //定时间隔    int    maxbeats;                //在客户端不工作或退出的情况下，服务端的最大检测次数    int    pastbeats;                //没有收到数据的情况下，当前的心跳检测数}sock_ev;struct event_base* base;        //管理所有连接事件/* 释放堆分配的sock_ev结构体 */void release_sock_ev(sock_ev *ev){    event_del(ev->read_ev);    free(ev->read_ev);    event_del(ev->write_ev);        free(ev->write_ev);    free(ev->buffer);    free(ev);}/* 功能:创建一个sock_ev结构体,并且将它初始化. * 参数:gapbeats,服务端两个检测心跳的间隔时间(单位:秒); *        maxbeats,没有收到客户端数据的最大检测次数. * 返回:sock_ev结构体指针. */sock_ev* create_sock_ev(int gapbeats, int maxbeats){    sock_ev * se = (sock_ev *)malloc(sizeof(sock_ev));        if (!se)        return NULL;    memset(se, 0, sizeof(sock_ev));    se->read_ev = (struct event*)malloc(sizeof(struct event));    se->write_ev = (struct event*)malloc(sizeof(struct event));    se->buffer = (pid_t *)malloc(EV_BUFSIZE_T);    if (!se->read_ev || !se->write_ev || !se->buffer)        return NULL;    memset(se->read_ev, 0, sizeof(struct event));    memset(se->write_ev, 0, sizeof(struct event));    memset(se->buffer, 0, EV_BUFSIZE_T);    se->gapbeats = gapbeats;    se->maxbeats = maxbeats;    se->pastbeats = 0;    return se;    }/* 功能:写事件回调函数 * 参数:libevent回调函数的三个典型参数 *         sock,文件描述符;event,事件类型(EV_WRITE);arg,传给函数的数据指针(buffer) * 返回: void (libevent回调函数的返回为void)*/void socket_write(int sock, short event, void* arg){    pid_t* buffer;    if (!arg)        return;            buffer = (pid_t*)arg;    if (send(sock, buffer, sizeof(*buffer), 0) < 0) {        printf("server send msg error: errno %d--%s\n", errno, strerror(errno));            return;     }    memset(buffer, 0, sizeof(*buffer));}/* 功能:读事件回调函数 * 参数:libevent回调函数的三个典型参数 *         sock,文件描述符;event,事件类型(EV_READ);arg,传给函数的数据指针(sock_ev) * 返回: void.*/void socket_read(int sock, short event, void* arg){    int size;    sock_ev* sockev = (sock_ev*)arg;    if(!sockev)        return;            memset(sockev->buffer, 0, EV_BUFSIZE_T);    size = recv(sock, sockev->buffer, EV_BUFSIZE_T, 0);    if (size <= 0) {            //接收数据失败        sockev->pastbeats++;                //全局变量        printf("pastbeats:\t%d\n", sockev->pastbeats);        //--debug        if (sockev->pastbeats >= sockev->maxbeats) {                    printf("---client error or exit:please restart\n");    //--debug            release_sock_ev(sockev);            close(sock);        }        return;    }    sockev->pastbeats = 0;    printf("pastbeats:\t%d\n", sockev->pastbeats);            //--debug    printf("receive data:\t%d    size:\t%d\n", *sockev->buffer, size);    event_add(sockev->write_ev, NULL);            //添加端口写事件，将数据返回给客户端}/* 功能:接受新连接请求 * 参数:libevent回调函数的三个典型参数 *         sock,文件描述符;event,事件类型(EV_READ,监听端口可读,表示有新连接请求);         arg,目前为空指针. * 返回: void.*/void connect_accept(int sock, short event, void* arg){    struct sockaddr_in cli_addr;    int connetfd, sin_size;    struct timeval beat;                //定时读事件,来检测客户端发送了数据    sock_ev* sockev;                      //为连接建立端口事件        if ((sockev = create_sock_ev(1, 10)) == NULL)        return;    sin_size = sizeof(struct sockaddr_in);        connetfd = accept(sock, (struct sockaddr*)&cli_addr, &sin_size);    if (connetfd == -1) {        printf("server accept() error: errno %d--%s\n", errno, strerror(errno));            return;    }      event_assign(sockev->read_ev, base, connetfd, EV_PERSIST, socket_read, sockev);      //下面是老版接口    //    event_set(sockev->read_ev, connetfd, EV_PERSIST, socket_read, sockev);        //读事件  (若加上EV_READ|,则定时读会失效)//    event_base_set(base, sockev->read_ev);      evutil_timerclear(&beat);    beat.tv_sec = sockev->gapbeats;             //定期检查端口是否可读,来判断客户端是否存在    event_add(sockev->read_ev, &beat);        event_assign(sockev->write_ev, base, connetfd, EV_WRITE, socket_write, sockev->buffer);                                                                              //写事件//    event_set(sockev->write_ev, connetfd, EV_WRITE, socket_write, sockev->buffer);    //    event_base_set(base, sockev->write_ev);                                          }int main(int argc, char* argv[]){    struct sockaddr_in server_addr;    int sock;//    struct event listen_ev;        //创建连接请求监听事件    struct event *listen_ev;        sock = socket(AF_INET, SOCK_STREAM, 0);    setsockopt(sock, SOL_SOCKET, SO_REUSEADDR, (int *)1, sizeof(int));    memset(&server_addr, 0, sizeof(server_addr));    server_addr.sin_family = AF_INET;    server_addr.sin_port = htons(PORT);    server_addr.sin_addr.s_addr = INADDR_ANY;    if (bind(sock, (struct sockaddr*)&server_addr, sizeof(struct sockaddr)) == -1) {        printf("bind socket error: errno %d--%s\n", errno, strerror(errno));            exit(0);     }    if (listen(sock, BACKLOG) == -1) {        printf("listen socket error: errno %d--%s\n", errno, strerror(errno));            exit(0);    }    base = event_base_new();    //base,全局变量.    listen_ev = event_new(base, sock, EV_READ|EV_PERSIST, connect_accept, NULL);    //创建evnet对象并初始化    if (!listen_ev) {        printf("event_new() fail\n");        exit(0);    }//    event_set(&listen_ev, sock, EV_READ|EV_PERSIST, connect_accept, NULL); 这是老接口//    event_base_set(base, &listen_ev);    event_add(listen_ev, NULL);        //添加到监视事件集中，event就变成的未决状态    event_base_dispatch(base);        //轮询监视所有事件        if(event_del(listen_ev) == 0) {    //从监视事件集中删除        event_free(listen_ev);        //删除事件,释放空间    }    event_base_free(base);            //删除base对象    exit(0);}

#include<stdio.h>#include<stdlib.h>#include<string.h>#include<errno.h>#include<sys/types.h>#include<sys/socket.h>#include<netinet/in.h>#include <event.h>#include <event2/event.h>#include <event2/util.h>#define MAXLINE 1024static void heartbit_cb(evutil_socket_t fd, short event, void *arg);int main(int argc, char** argv){    int sockfd, n, received;     int len, bytes;       char recvline[MAXLINE], sendline[MAXLINE];     pid_t tests = getpid();     pid_t *pids = &tests;     pid_t testr = 0;     pid_t *pidr = &testr;     struct sockaddr_in    servaddr;      struct timeval tv;     struct event_base* base;    struct event *client_ev;        if( argc != 2){            printf("usage: ./client <ip address>\n");            exit(0);        }        memset(sendline, 0, MAXLINE);    if( (sockfd = socket(AF_INET, SOCK_STREAM, 0)) < 0){            printf("create socket error: %s(errno: %d)\n", strerror(errno),errno);            exit(0);        }        memset(&servaddr, 0, sizeof(servaddr));        servaddr.sin_family = AF_INET;        servaddr.sin_port = htons(6666);   //把16位值从主机字节序转换成网络字节序     if( inet_pton(AF_INET, argv[1], &servaddr.sin_addr) <= 0){   // [将“点分十进制”ip－> 网络字节序“整数”ip]         printf("inet_pton error for %s\n",argv[1]);            exit(0);        }        if( connect(sockfd, (struct sockaddr*)&servaddr, sizeof(servaddr)) < 0){            printf("connect error: %s(errno: %d)\n",strerror(errno),errno);            exit(0);        }        printf("send msg to server: \n");      evutil_timerclear(&tv);    tv.tv_sec = 2;        base = event_base_new();    client_ev = event_new(base, sockfd, EV_PERSIST, heartbit_cb, pids);    if (!client_ev) {        printf("event_new() fail\n");        exit(0);    }//    event_set(&client_ev, sockfd, EV_PERSIST, heartbit_cb, pids); //若加上EV_WRITE|,sockfd可写,则会一直写(与定时事件是关系或) EV_PERSIST//    event_base_set(base, &client_ev);    event_add(client_ev, &tv);    event_base_dispatch(base);        if(event_del(client_ev) == 0) {        event_free(client_ev);    }    event_base_free(base);    close(sockfd);        exit(0);}/* 功能: 向服务端发送心跳包 * 参数:  * */static void heartbit_cb(evutil_socket_t fd, short event, void *arg){    pid_t *pid = (pid_t *)arg;     pid_t testr = 0;     pid_t *pid_recv = &testr;     int len;    len = sizeof(pid_t);    if( send(fd, pid, len, 0) != len) {            printf("send msg error: %s(errno: %d)\n", strerror(errno), errno);            exit(0);        }    //接收从服务端的返回数据          fputs("echo from server:\n", stdout);    if(recv(fd, pid_recv, len, 0) < 0) {        printf("Failed to receive bytes from client\n");        exit(-1);    }     printf("%d\n", *pid_recv);    fputs("\n", stdout);         }