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1高并发服务器:多进程服务器



1多进程并发服务器

使用多进程并发服务器时要考虑以下几点:

A.父最大文件描述个数(父进程中需要close关闭accept返回的新文件描述符)

B.系统内创建进程个数(和内存大小相关)

C.进程创建过多是否降低整体服务性能(进程调度)

2.案例说明

server.c,代码如下:

#include <stdio.h>

#include <string.h>

#include <netinet/in.h>

#include <arpa/inet.h>

#include <signal.h>

#include <sys/wait.h>

#include <sys/types.h>

#include <arpa/inet.h>

#include <ctype.h>

#include <unistd.h>

#include "wrap.h"

 

#define MAXLINE 80

#define SERV_PORT 8000

 

void do_sigchild(int num) {

   waitpid(0,NULL,WNOHANG);

}

 

int main(void) {

   struct sockaddr_in servaddr,cliaddr;

   socklen_t cliaddr_len;

   int listenfd,connfd;

   char buf[MAXLINE];

   //INET_ADDRSTRLENip地址的最大长度,是系统定义的一个宏

   char str[INET_ADDRSTRLEN];

   int i,n;

   pid_t pid;

 

   struct sigaction newact;

   newact.sa_handler = do_sigchild;

   sigemptyset(&newact.sa_mask);

   newact.sa_flags = 0;

   //发信号

   sigaction(SIGCHLD,&newact,NULL);

 

   //1.这里建立一个TCP的连接,因为是SOCK_STREAM的,表示的是TCP

   listenfd = Socket(AF_INET,SOCK_STREAM,0);

   //seraddr内容清零

   bzero(&servaddr,sizeof(servaddr));

   servaddr.sin_family = AF_INET;

   servaddr.sin_addr.s_addr = htonl(INADDR_ANY);

   servaddr.sin_port = htons(SERV_PORT);

   //2.绑定ip地址和端口号

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

   //监听,最多的可以是20

   Listen(listenfd,20);

   

   printf("Accepting connections...\n");

   while(1) {

       cliaddr_len = sizeof(cliaddr_len);

       //connfd:这里才是后续进程需要用的文件描述符

       //listenfd:已经不用里,可以被销毁,这个程序是在子进程里面销毁

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

 

       pid = fork();

       if(pid ==0) {

           if(pid == 0) {

               Close(listenfd);

               while(1) {

                   n = Read(connfd,buf,MAXLINE);

                   if(n == 0) {

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

                       break;

                   }

                   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< n; i++) {

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

                   }

                   Write(connfd,buf,n);

               }

               Close(connfd);

               return 0;

           } else if(pid > 0) {

               Close(connfd);

           } else {

               perr_exit("fork");

           }

       }

   }

}

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(int argc,char *argv[]) {

   struct sockaddr_in servaddr;

   char buf[MAXLINE];

   int sockfd,n;

 

   sockfd = Socket(AF_INET,SOCK_STREAM,0);

 

   bzero(&servaddr,sizeof(servaddr));

   servaddr.sin_family = AF_INET;

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

   servaddr.sin_port = htons(SERV_PORT);

 

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

 

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

       Write(sockfd,buf,strlen(buf));

       n = Read(sockfd,buf,MAXLINE);

       if(n == 0) {

           printf("the other side has ben 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;

}

运行结果(编译server):

运行client

 

 

 

 

 

1高并发服务器:多进程服务器