1高并发server:多路IO之select

Posted gavanwanggw

tags:

篇首语:本文由小常识网(cha138.com)小编为大家整理,主要介绍了1高并发server:多路IO之select相关的知识,希望对你有一定的参考价值。

??

1 select

Aselect能监听的文件描写叙述符个数受限于FD_SETSIZE,一般为1024。单纯改变进程打开

的文件描写叙述符个数并不能改变select监听文件个数

B:解决1024下面client时使用select是非常合适的,但假设链接client过多,select採用的是轮询模型,会大大减少server响应效率。不应在select上投入很多其它精力

2 依赖的头文件

#include <sys/select.h>

/* According to earlier standards */

#include <sys/time.h>

#include <sys/types.h>

#include <unistd.h>

 

int select(int nfds, fd_set *readfds,fd_set *writefds,fd_set *exceptfds, struct timeval *timeout);

说明:

nfds: 监控的文件描写叙述符集里最大文件描写叙述符加1,由于此參数会告诉内核检測前多少个文件描写叙述符的状态

readfds:监控有读数据到达文件描写叙述符集合。传入传出參数

writefds:监控写数据到达文件描写叙述符集合,传入传出參数

exceptfds:监控异常发生达文件描写叙述符集合,如带外数据到达异常。传入传出參数

timeout:定时堵塞监控时间,3中情况

  1. NULL,永远等下去

  2. 设置timeval,等待固定时间

  3. 设置timeval里时间均为0,检查描写叙述字后马上返回,轮询。

 

struct timeval {

long tv_sec; /* seconds */

long tv_usec; /* microseconds  微秒;一百万分之中的一个秒*/

};

 

void FD_CLR(int fd,fd_set *set); 把文件描写叙述符集合里fd清零

int FD_ISSET(int fd,fd_set *set); 測试文件描写叙述符集合里fd是否置1

void FD_SET(int fd,fd_set *set); 把文件描写叙述符集合里fd位置1

void FD_ZERO(fd_set *set);    把文件描写叙述符集合里全部位清0

 

技术分享

select模型

 

案例说明:

Server.c

#include<stdio.h>

#include<stdlib.h>

#include<string.h>

#include<netinet/in.h>

#include<arpa/inet.h>

#include<ctype.h>

#include<unistd.h>

#include"wrap.h"

 

#define MAXLINE 80

#define SERV_PORT 8000

 

int main(void)

{

    int i,maxi,maxfd,listenfd,connfd,sockfd;

    /*

     * nreadyselect之后返回的被监控管理的数量,

     * 最大的被管理的文件最大的被管理的文件描写叙述符的

     * 数量是1024

     */

    /*FD_SETSIZE默觉得1024*/

    int nready,client[FD_SETSIZE]; /* FD_SETSIZE默觉得1024 */

    ssize_t n;

    fd_set rset,allset;

    char buf[MAXLINE];

    /*以下表示的是ip地址的长度*/

    char str[INET_ADDRSTRLEN];   /*#define IN*/

    socklen_t cliaddr_len;

    struct sockaddr_in cliaddr,servaddr;

 

    /*整个server仅仅有一个listenfd文件描写叙述符*/

    //1、建立一个socket,案例中是针对TCP

    listenfd = Socket(AF_INET,SOCK_STREAM,0);

    bzero(&servaddr,sizeof(servaddr));

    servaddr.sin_family = AF_INET;

    servaddr.sin_addr.s_addr = htonl(INADDR_ANY);

    servaddr.sin_port = htons(SERV_PORT);

    //2Bind

    Bind(listenfd,(struct sockaddr *)&servaddr,sizeof(servaddr));

    //3、正在链接的时候最大支持128个,当accept之后就无论了

    Listen(listenfd,20); /*默认最大128*/

    maxfd = listenfd;    /*初始化*/

    maxi = -1;           /*client[]的下标*/

    for(i = 0;i < FD_SETSIZE;i++){

        client[i] = -1;  /*-1初始化client*/

    }

    //将管理的文件描写叙述符集合的内容设置成为0

    FD_ZERO(&allset);

    //listenfd纳入allset中进行管理

    FD_SET(listenfd,&allset);   /*构造select监控文件描写叙述符集*/

    for(;;){

        /*每次循环时都又一次设置select监控信号集。这里相当于rset的一个备份*/

        rset = allset;

        //第一个參数是最大描写叙述的最大值+1

        nready = select(maxfd+1,&rset,NULL,NULL,NULL);

        if(nready < 0) {

            perr_exit("select error");

        }

        //推断listenfd是否已经纳入管理

        if(FD_ISSET(listenfd,&rset)) {

            cliaddr_len = sizeof(cliaddr);

            connfd = Accept(listenfd,(struct sockaddr *)&cliaddr,&cliaddr_len);

            //打印ip地址和port号

            printf("received from %s at PORT %d\n",

                inet_ntop(AF_INET,&cliaddr.sin_addr.s_addr,str,sizeof(str)),

                ntohs(cliaddr.sin_port));

            for(i = 0;i < FD_SETSIZE;i++) {

                if(client[i] < 0) {

                    client[i] = connfd;/*保存accept返回的文件描写叙述符到client[]*/

                    break;

                }

            }

        }   /*达到select能监控的文件个数上限1024*/

            if(i == FD_SETSIZE) {

                fputs("to many clients\n",stderr);

                exit(1);

            }

            /*加入一个新的文件描写叙述符到监控信号集里*/

            FD_SET(connfd,&allset);

            if(connfd > maxfd)

                maxfd = connfd; /*select第一个參数须要*/

            if(i > maxi)

                maxi = i;  /*更新client[]最大下标值*/

            if(--nready == 0)

                /*假设没有很多其它的就绪文件描写叙述符,继续回到上面select

                 * 负责处理未完毕的就绪文件描写叙述符*/

                continue;

    }

 

    for(i = 0;i< maxi;i++) {

        if((sockfd = client[i]) < 0)

            continue;

        if(FD_ISSET(sockfd,&rset)) {

            if((n=Read(sockfd,buf,MAXLINE)) == 0) {

                /*client关闭链接时,server端也关闭链接*/

                Close(sockfd);

                /*解除select监控文件描写叙述符*/

                FD_CLR(sockfd,&allset);

                client[i] = -1;

            } else {

                int j;

                for(j = 0; j< n;j++) {

                    buf[j] = toupper(buf[j]);

                }

                Write(sockfd,buf,n);

            }

 

            if(--nready == 0)

                break;

        }

    }

 

    Close(listenfd);

    return 0;

}

Client.c

#include <stdio.h>

#include <string.h>

#include <unistd.h>

#include <netinet/in.h>

#include <arpa/inet.h>

#include"wrap.h"

 

#define MAXLINE 80

#define SERV_PORT 8000

 

int main(void) {

    struct sockaddr_in servaddr;

    char buf[MAXLINE];

    int sockfd,n;

    //1.Socket

    sockfd = Socket(AF_INET,SOCK_STREAM,0);

    //设置ip和port号等相关信息

    bzero(&servaddr,sizeof(servaddr));

    servaddr.sin_family = AF_INET;

    inet_pton(AF_INET,"127.0.0.1",&servaddr.sin_addr);

    servaddr.sin_port = htons(SERV_PORT);

    //2.建立连接

    Connect(sockfd,(struct sockaddr *)&servaddr,sizeof(servaddr));

   

    while(fgets(buf,MAXLINE,stdin) != NULL) {

        //3.Write数据

        Write(sockfd,buf,strlen(buf));

        n = Read(sockfd,buf,MAXLINE);

        if(n == 0) {

            printf("the other side has been closed.\n");

        } else {

            Write(STDOUT_FILENO,buf,n);

        }

    }

 

    Close(sockfd);

    return 0;

}

Wrap.h

#ifndef __WRAP_H_

#define __WRAP_H_

 

void perr_exit(const char *s);

int Accept(int fd, struct sockaddr *sa, socklen_t *salenptr);

void Bind(int fd, const struct sockaddr *sa, socklen_t salen);

void Connect(int fd, const struct sockaddr *sa, socklen_t salen);

void Listen(int fd, int backlog);

int Socket(int family, int type, int protocol);

ssize_t Read(int fd, void *ptr, size_t nbytes);

ssize_t Write(int fd, const void *ptr, size_t nbytes);

void Close(int fd);

ssize_t Readn(int fd, void *vptr, size_t n);

ssize_t Writen(int fd, const void *vptr, size_t n);

static ssize_t my_read(int fd, char *ptr);

ssize_t Readline(int fd, void *vptr, size_t maxlen);

 

#endif

Wrap.c

#include <stdlib.h>

#include <errno.h>

#include <sys/socket.h>

 

void perr_exit(const char *s)

{

         perror(s);

         exit(1);

}

 

int Accept(int fd, struct sockaddr *sa, socklen_t *salenptr)

{

         int n;

 

again:

         if ( (n = accept(fd, sa, salenptr)) < 0) {

                   if ((errno == ECONNABORTED) || (errno == EINTR))

                            goto again;

                   else

                            perr_exit("accept error");

         }

         return n;

}

 

void Bind(int fd, const struct sockaddr *sa, socklen_t salen)

{

         if (bind(fd, sa, salen) < 0)

                   perr_exit("bind error");

}

 

void Connect(int fd, const struct sockaddr *sa, socklen_t salen)

{

         if (connect(fd, sa, salen) < 0)

                   perr_exit("connect error");

}

 

void Listen(int fd, int backlog)

{

         if (listen(fd, backlog) < 0)

                   perr_exit("listen error");

}

 

int Socket(int family, int type, int protocol)

{

         int n;

 

         if ( (n = socket(family, type, protocol)) < 0)

                   perr_exit("socket error");

         return n;

}

 

ssize_t Read(int fd, void *ptr, size_t nbytes)

{

         ssize_t n;

 

again:

         if ( (n = read(fd, ptr, nbytes)) == -1) {

                   if (errno == EINTR)

                            goto again;

                   else

                            return -1;

         }

         return n;

}

 

ssize_t Write(int fd, const void *ptr, size_t nbytes)

{

         ssize_t n;

 

again:

         if ( (n = write(fd, ptr, nbytes)) == -1) {

                   if (errno == EINTR)

                            goto again;

                   else

                            return -1;

         }

         return n;

}

 

void Close(int fd)

{

         if (close(fd) == -1)

                   perr_exit("close error");

}

ssize_t Readn(int fd, void *vptr, size_t n)

{

         size_t  nleft;

         ssize_t nread;

         char   *ptr;

 

         ptr = vptr;

         nleft = n;

         while (nleft > 0) {

                   if ( (nread = read(fd, ptr, nleft)) < 0) {

                            if (errno == EINTR)

                                     nread = 0;

                            else

                                     return -1;

                   } else if (nread == 0)

                            break;

 

                   nleft -= nread;

                   ptr += nread;

         }

         return n - nleft;

}

 

ssize_t Writen(int fd, const void *vptr, size_t n)

{

         size_t nleft;

         ssize_t nwritten;

         const char *ptr;

 

         ptr = vptr;

         nleft = n;

         while (nleft > 0) {

                   if ( (nwritten = write(fd, ptr, nleft)) <= 0) {

                            if (nwritten < 0 && errno == EINTR)

                                     nwritten = 0;

                            else

                                     return -1;

                   }

 

                   nleft -= nwritten;

                   ptr += nwritten;

         }

         return n;

}

static ssize_t my_read(int fd, char *ptr)

{

         static int read_cnt;

         static char *read_ptr;

         static char read_buf[100];

 

         if (read_cnt <= 0) {

again:

                   if ( (read_cnt = read(fd, read_buf, sizeof(read_buf))) < 0) {

                            if (errno == EINTR)

                                     goto again;

                            return -1;

                   } else if (read_cnt == 0)

                            return 0;

                   read_ptr = read_buf;

         }

         read_cnt--;

         *ptr = *read_ptr++;

         return 1;

}

 

ssize_t Readline(int fd, void *vptr, size_t maxlen)

{

         ssize_t n, rc;

         char    c, *ptr;

 

         ptr = vptr;

         for (n = 1; n < maxlen; n++) {

                   if ( (rc = my_read(fd, &c)) == 1) {

                            *ptr++ = c;

                            if (c  == ‘\n‘)

                                     break;

                   } else if (rc == 0) {

                            *ptr = 0;

                            return n - 1;

                   } else

                            return -1;

         }

         *ptr  = 0;

         return n;

}

 

以上是关于1高并发server:多路IO之select的主要内容,如果未能解决你的问题,请参考以下文章

python实现高并发

高并发服务器---基础----IO模式和IO多路复用

第15章 高并发服务器编程_I/O多路复用

nginx 多进程 + io多路复用 实现高并发

39.IO多路复用(用select实现伪并发)

高并发之网络IO模型