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16.9.7 Byte Stream Connection Server Example

The server end is much more complicated. Since we want to allow multiple clients to be connected to the server at the same time, it would be incorrect to wait for input from a single client by simply calling read or recv. Instead, the right thing to do is to use select (see Waiting for I/O) to wait for input on all of the open sockets. This also allows the server to deal with additional connection requests.

This particular server doesn't do anything interesting once it has gotten a message from a client. It does close the socket for that client when it detects an end-of-file condition (resulting from the client shutting down its end of the connection).

This program uses make_socket to set up the socket address; see Inet Example.

     
     #include <stdio.h>
     #include <errno.h>
     #include <stdlib.h>
     #include <unistd.h>
     #include <sys/types.h>
     #include <sys/socket.h>
     #include <netinet/in.h>
     #include <netdb.h>
     
     #define PORT    5555
     #define MAXMSG  512
     
     int
     read_from_client (int filedes)
     {
       char buffer[MAXMSG];
       int nbytes;
     
       nbytes = read (filedes, buffer, MAXMSG);
       if (nbytes < 0)
         {
           /* Read error. */
           perror ("read");
           exit (EXIT_FAILURE);
         }
       else if (nbytes == 0)
         /* End-of-file. */
         return -1;
       else
         {
           /* Data read. */
           fprintf (stderr, "Server: got message: `%s'\n", buffer);
           return 0;
         }
     }
     
     int
     main (void)
     {
       extern int make_socket (uint16_t port);
       int sock;
       fd_set active_fd_set, read_fd_set;
       int i;
       struct sockaddr_in clientname;
       size_t size;
     
       /* Create the socket and set it up to accept connections. */
       sock = make_socket (PORT);
       if (listen (sock, 1) < 0)
         {
           perror ("listen");
           exit (EXIT_FAILURE);
         }
     
       /* Initialize the set of active sockets. */
       FD_ZERO (&active_fd_set);
       FD_SET (sock, &active_fd_set);
     
       while (1)
         {
           /* Block until input arrives on one or more active sockets. */
           read_fd_set = active_fd_set;
           if (select (FD_SETSIZE, &read_fd_set, NULL, NULL, NULL) < 0)
             {
               perror ("select");
               exit (EXIT_FAILURE);
             }
     
           /* Service all the sockets with input pending. */
           for (i = 0; i < FD_SETSIZE; ++i)
             if (FD_ISSET (i, &read_fd_set))
               {
                 if (i == sock)
                   {
                     /* Connection request on original socket. */
                     int new;
                     size = sizeof (clientname);
                     new = accept (sock,
                                   (struct sockaddr *) &clientname,
                                   &size);
                     if (new < 0)
                       {
                         perror ("accept");
                         exit (EXIT_FAILURE);
                       }
                     fprintf (stderr,
                              "Server: connect from host %s, port %hd.\n",
                              inet_ntoa (clientname.sin_addr),
                              ntohs (clientname.sin_port));
                     FD_SET (new, &active_fd_set);
                   }
                 else
                   {
                     /* Data arriving on an already-connected socket. */
                     if (read_from_client (i) < 0)
                       {
                         close (i);
                         FD_CLR (i, &active_fd_set);
                       }
                   }
               }
         }
     }