/* * Copyright (c) 1983 Regents of the University of California. * All rights reserved. The Berkeley software License Agreement * specifies the terms and conditions for redistribution. */ #if defined(DOSCCS) && !defined(lint) static char sccsid[] = "@(#)announce.c 5.3.1 (2.11BSD GTE) 1/1/94"; #endif #include #include #include #include #include #include #include #include #include #include extern int errno; extern char hostname[]; /* * Announce an invitation to talk. * * Because the tty driver insists on attaching a terminal-less * process to any terminal that it writes on, we must fork a child * to protect ourselves */ announce(request, remote_machine) CTL_MSG *request; char *remote_machine; { int pid, val, status; if (pid = fork()) { /* we are the parent, so wait for the child */ if (pid == -1) /* the fork failed */ return (FAILED); do { val = wait(&status); if (val == -1) { if (errno == EINTR) continue; /* shouldn't happen */ syslog(LOG_WARNING, "announce: wait: %m"); return (FAILED); } } while (val != pid); if (status&0377 > 0) /* we were killed by some signal */ return (FAILED); /* Get the second byte, this is the exit/return code */ return ((status >> 8) & 0377); } /* we are the child, go and do it */ _exit(announce_proc(request, remote_machine)); } /* * See if the user is accepting messages. If so, announce that * a talk is requested. */ announce_proc(request, remote_machine) CTL_MSG *request; char *remote_machine; { int pid, status; char full_tty[32]; FILE *tf; struct stat stbuf; sprintf(full_tty, "/dev/%s", request->r_tty); if (access(full_tty, 0) != 0) return (FAILED); if ((tf = fopen(full_tty, "w")) == NULL) return (PERMISSION_DENIED); /* * On first tty open, the server will have * it's pgrp set, so disconnect us from the * tty before we catch a signal. */ ioctl(fileno(tf), TIOCNOTTY, (struct sgttyb *) 0); if (fstat(fileno(tf), &stbuf) < 0) return (PERMISSION_DENIED); if ((stbuf.st_mode&020) == 0) return (PERMISSION_DENIED); print_mesg(tf, request, remote_machine); fclose(tf); return (SUCCESS); } #define max(a,b) ( (a) > (b) ? (a) : (b) ) #define N_LINES 5 #define N_CHARS 120 /* * Build a block of characters containing the message. * It is sent blank filled and in a single block to * try to keep the message in one piece if the recipient * in in vi at the time */ print_mesg(tf, request, remote_machine) FILE *tf; CTL_MSG *request; char *remote_machine; { struct timeval clock; struct timezone zone; struct tm *localtime(); struct tm *localclock; char line_buf[N_LINES][N_CHARS]; int sizes[N_LINES]; char big_buf[N_LINES*N_CHARS]; char *bptr, *lptr; int i, j, max_size; i = 0; max_size = 0; gettimeofday(&clock, &zone); localclock = localtime( &clock.tv_sec ); sprintf(line_buf[i], " "); sizes[i] = strlen(line_buf[i]); max_size = max(max_size, sizes[i]); i++; sprintf(line_buf[i], "Message from Talk_Daemon@%s at %d:%02d ...", hostname, localclock->tm_hour , localclock->tm_min ); sizes[i] = strlen(line_buf[i]); max_size = max(max_size, sizes[i]); i++; sprintf(line_buf[i], "talk: connection requested by %s@%s.", request->l_name, remote_machine); sizes[i] = strlen(line_buf[i]); max_size = max(max_size, sizes[i]); i++; sprintf(line_buf[i], "talk: respond with: talk %s@%s", request->l_name, remote_machine); sizes[i] = strlen(line_buf[i]); max_size = max(max_size, sizes[i]); i++; sprintf(line_buf[i], " "); sizes[i] = strlen(line_buf[i]); max_size = max(max_size, sizes[i]); i++; bptr = big_buf; *bptr++ = ''; /* send something to wake them up */ *bptr++ = '\r'; /* add a \r in case of raw mode */ *bptr++ = '\n'; for (i = 0; i < N_LINES; i++) { /* copy the line into the big buffer */ lptr = line_buf[i]; while (*lptr != '\0') *(bptr++) = *(lptr++); /* pad out the rest of the lines with blanks */ for (j = sizes[i]; j < max_size + 2; j++) *(bptr++) = ' '; *(bptr++) = '\r'; /* add a \r in case of raw mode */ *(bptr++) = '\n'; } *bptr = '\0'; fputs(big_buf, tf); fflush(tf); ioctl(fileno(tf), TIOCNOTTY, (struct sgttyb *) 0); }