/* -*-C-*- Server code for handling requests from clients and forwarding them on to the GNU Emacs process. This file is part of GNU Emacs. Copying is permitted under those conditions described by the GNU General Public License. Copyright (C) 1989 Free Software Foundation, Inc. Author: Andy Norman (ange@hplb.hpl.hp.com), based on 'etc/server.c' from the 18.52 GNU Emacs distribution. Please mail bugs and suggestions to the author at the above address. */ /* HISTORY * 11-Nov-1990 bristor@simba * Added EOT stuff. */ /* * This file incorporates new features added by Bob Weiner , * Darrell Kindred and Arup Mukherjee . * Please see the note at the end of the README file for details. * * (If gnuserv came bundled with your emacs, the README file is probably * ../etc/gnuserv.README relative to the directory containing this file) */ #include "gnuserv.h" char gnuserv_version[] = "gnuserv version" GNUSERV_VERSION; #ifdef USE_LITOUT #ifdef linux #include #else #include #endif #endif #ifdef AIX #include #endif #include #include #include #include #ifdef HAVE_UNISTD_H #include #endif /* HAVE_UNISTD_H */ #ifdef HAVE_STRING_H #include #endif /* HAVE_STRING_H */ #if !defined(SYSV_IPC) && !defined(UNIX_DOMAIN_SOCKETS) && \ !defined(INTERNET_DOMAIN_SOCKETS) main () { fprintf (stderr,"Sorry, the Emacs server is only supported on systems that have\n"); fprintf (stderr,"Unix Domain sockets, Internet Domain sockets or System V IPC\n"); exit (1); } /* main */ #else /* SYSV_IPC || UNIX_DOMAIN_SOCKETS || INTERNET_DOMAIN_SOCKETS */ #ifdef SYSV_IPC int ipc_qid = 0; /* ipc message queue id */ pid_t ipc_wpid = 0; /* watchdog task pid */ /* ipc_exit -- clean up the queue id and queue, then kill the watchdog task if it exists. exit with the given status. */ void ipc_exit (int stat) { msgctl (ipc_qid,IPC_RMID,0); if (ipc_wpid != 0) kill (ipc_wpid, SIGKILL); exit (stat); } /* ipc_exit */ /* ipc_handle_signal -- catch the signal given and clean up. */ void ipc_handle_signal(int sig) { ipc_exit (0); } /* ipc_handle_signal */ /* ipc_spawn_watchdog -- spawn a watchdog task to clean up the message queue should the server process die. */ void ipc_spawn_watchdog (void) { if ((ipc_wpid = fork ()) == 0) { /* child process */ pid_t ppid = getppid (); /* parent's process id */ setpgrp(); /* gnu kills process group on exit */ while (1) { if (kill (ppid, 0) < 0) /* ppid is no longer valid, parent may have died */ { ipc_exit (0); } /* if */ sleep(10); /* have another go later */ } /* while */ } /* if */ } /* ipc_spawn_watchdog */ /* ipc_init -- initialize server, setting the global msqid that can be listened on. */ void ipc_init (struct msgbuf **msgpp) { key_t key; /* messge key */ char buf[GSERV_BUFSZ]; /* pathname for key */ sprintf (buf,"%s/gsrv%d",tmpdir,(int)geteuid ()); creat (buf,0600); key = ftok (buf,1); if ((ipc_qid = msgget (key,0600|IPC_CREAT)) == -1) { perror (progname); fprintf (stderr, "%s: unable to create msg queue\n", progname); ipc_exit (1); } /* if */ ipc_spawn_watchdog (); signal (SIGTERM,ipc_handle_signal); signal (SIGINT,ipc_handle_signal); if ((*msgpp = (struct msgbuf *) malloc (sizeof **msgpp + GSERV_BUFSZ)) == NULL) { fprintf (stderr, "%s: unable to allocate space for message buffer\n", progname); ipc_exit(1); } /* if */ } /* ipc_init */ /* handle_ipc_request -- accept a request from a client, pass the request on to the GNU Emacs process, then wait for its reply and pass that on to the client. */ void handle_ipc_request (struct msgbuf *msgp) { struct msqid_ds msg_st; /* message status */ char buf[GSERV_BUFSZ]; int len; /* length of message / read */ int s, result_len; /* tag fields on the response from emacs */ int offset = 0; int total = 1; /* # bytes that will actually be sent off */ if ((len = msgrcv (ipc_qid, msgp, GSERV_BUFSZ - 1, 1, 0)) < 0) { perror (progname); fprintf (stderr, "%s: unable to receive\n", progname); ipc_exit (1); } /* if */ msgctl (ipc_qid, IPC_STAT, &msg_st); strncpy (buf, msgp->mtext, len); buf[len] = '\0'; /* terminate */ printf ("%d %s", ipc_qid, buf); fflush (stdout); /* now for the response from gnu */ msgp->mtext[0] = '\0'; #if 0 if ((len = read(0,buf,GSERV_BUFSZ-1)) < 0) { perror (progname); fprintf (stderr, "%s: unable to read\n", progname); ipc_exit (1); } /* if */ sscanf (buf, "%d:%[^\n]\n", &junk, msgp->mtext); #else /* read in "n/m:" (n=client fd, m=message length) */ while (offset < (GSERV_BUFSZ-1) && ((len = read (0, buf + offset, 1)) > 0) && buf[offset] != ':') { offset += len; } if (len < 0) { perror (progname); fprintf (stderr, "%s: unable to read\n", progname); exit(1); } /* parse the response from emacs, getting client fd & result length */ buf[offset] = '\0'; sscanf (buf, "%d/%d", &s, &result_len); while (result_len > 0) { if ((len = read(0, buf, min2 (result_len, GSERV_BUFSZ - 1))) < 0) { perror (progname); fprintf (stderr, "%s: unable to read\n", progname); exit (1); } /* Send this string off, but only if we have enough space */ if (GSERV_BUFSZ > total) { if (total + len <= GSERV_BUFSZ) buf[len] = 0; else buf[GSERV_BUFSZ - total] = 0; send_string(s,buf); total += strlen(buf); } result_len -= len; } /* eat the newline */ while ((len = read (0,buf,1)) == 0) ; if (len < 0) { perror(progname); fprintf (stderr,"%s: unable to read\n", progname); exit (1); } if (buf[0] != '\n') { fprintf (stderr,"%s: garbage after result [%c]\n", progname, buf[0]); exit (1); } #endif /* Send a response back to the client. */ msgp->mtype = msg_st.msg_lspid; if (msgsnd (ipc_qid,msgp,strlen(msgp->mtext)+1,0) < 0) perror ("msgsend(gnuserv)"); } /* handle_ipc_request */ #endif /* SYSV_IPC */ #if defined(INTERNET_DOMAIN_SOCKETS) || defined(UNIX_DOMAIN_SOCKETS) /* echo_request -- read request from a given socket descriptor, and send the information to stdout (the gnu process). */ static void echo_request (int s) { char buf[GSERV_BUFSZ]; int len; printf("%d ",s); /* read until we get a newline or no characters */ while ((len = recv(s,buf,GSERV_BUFSZ-1,0)) > 0) { buf[len] = '\0'; printf("%s",buf); if (buf[len-1] == EOT_CHR) { fflush(stdout); break; /* end of message */ } } /* while */ if (len < 0) { perror(progname); fprintf(stderr,"%s: unable to recv\n",progname); exit(1); } /* if */ } /* echo_request */ /* handle_response -- accept a response from stdin (the gnu process) and pass the information on to the relevant client. */ static void handle_response (void) { char buf[GSERV_BUFSZ+1]; int offset=0; int s; int len = 0; int result_len; /* read in "n/m:" (n=client fd, m=message length) */ while (offset < GSERV_BUFSZ && ((len = read(0,buf+offset,1)) > 0) && buf[offset] != ':') { offset += len; } if (len < 0) { perror(progname); fprintf(stderr,"%s: unable to read\n",progname); exit(1); } /* parse the response from emacs, getting client fd & result length */ buf[offset] = '\0'; sscanf(buf,"%d/%d", &s, &result_len); while (result_len > 0) { if ((len = read(0,buf,min2(result_len,GSERV_BUFSZ))) < 0) { perror(progname); fprintf(stderr,"%s: unable to read\n",progname); exit(1); } buf[len] = '\0'; send_string(s,buf); result_len -= len; } /* eat the newline */ while ((len = read(0,buf,1)) == 0) ; if (len < 0) { perror(progname); fprintf(stderr,"%s: unable to read\n",progname); exit(1); } if (buf[0] != '\n') { fprintf(stderr,"%s: garbage after result\n",progname); exit(1); } /* send the newline */ buf[1] = '\0'; send_string(s,buf); close(s); } /* handle_response */ #endif /* INTERNET_DOMAIN_SOCKETS || UNIX_DOMAIN_SOCKETS */ #ifdef INTERNET_DOMAIN_SOCKETS struct entry { unsigned long host_addr; struct entry *next; }; struct entry *permitted_hosts[TABLE_SIZE]; #ifdef AUTH_MAGIC_COOKIE # include # include static Xauth *server_xauth = NULL; #endif static int timed_read (int fd, char *buf, int max, int timeout, int one_line) { fd_set rmask; struct timeval tv; /* = {timeout, 0}; */ char c = 0; int nbytes = 0; int r; tv.tv_sec = timeout; tv.tv_usec = 0; FD_ZERO(&rmask); FD_SET(fd, &rmask); do { r = select(fd + 1, &rmask, NULL, NULL, &tv); if (r > 0) { if (read (fd, &c, 1) == 1 ) { *buf++ = c; ++nbytes; } else { printf ("read error on socket\004\n"); return -1; } } else if (r == 0) { printf ("read timed out\004\n"); return -1; } else { printf ("error in select\004\n"); return -1; } } while ((nbytes < max) && !(one_line && (c == '\n'))); --buf; if (one_line && *buf == '\n') { *buf = 0; } return nbytes; } /* permitted -- return whether a given host is allowed to connect to the server. */ static int permitted (unsigned long host_addr, int fd) { int key; struct entry *entry; char auth_protocol[128]; char buf[1024]; int auth_data_len; if (fd > 0) { /* we are checking permission on a real connection */ /* Read auth protocol name */ if (timed_read(fd, auth_protocol, AUTH_NAMESZ, AUTH_TIMEOUT, 1) <= 0) return FALSE; if (strcmp (auth_protocol, DEFAUTH_NAME) && strcmp (auth_protocol, MCOOKIE_NAME)) { printf ("authentication protocol (%s) from client is invalid...\n", auth_protocol); printf ("... Was the client an old version of gnuclient/gnudoit?\004\n"); return FALSE; } if (!strcmp(auth_protocol, MCOOKIE_NAME)) { /* * doing magic cookie auth */ if (timed_read(fd, buf, 10, AUTH_TIMEOUT, 1) <= 0) return FALSE; auth_data_len = atoi(buf); if (auth_data_len <= 0 || auth_data_len > (int) sizeof(buf)) { return FALSE; } if (timed_read(fd, buf, auth_data_len, AUTH_TIMEOUT, 0) != auth_data_len) return FALSE; #ifdef AUTH_MAGIC_COOKIE if (server_xauth && server_xauth->data) { /* Do a compare without comprising info about the size of the cookie */ int auth_data_pos; int auth_mismatches = ( auth_data_len ^ server_xauth->data_length ); for(auth_data_pos=0; auth_data_pos < auth_data_len; ++auth_data_pos) auth_mismatches |= ( buf[auth_data_pos] ^ server_xauth->data[auth_data_pos % server_xauth->data_length]); if (auth_mismatches == 0) return TRUE; for(;rand() % 1000;); } #else printf ("client tried Xauth, but server is not compiled with Xauth\n"); #endif /* * auth failed, but allow this to fall through to the GNU_SECURE * protocol.... */ printf ("Xauth authentication failed, trying GNU_SECURE auth...\004\n"); } /* Other auth protocols go here, and should execute only if the * auth_protocol name matches. */ } /* Now, try the old GNU_SECURE stuff... */ /* First find the hash key */ key = HASH(host_addr) % TABLE_SIZE; /* Now check the chain for that hash key */ for(entry=permitted_hosts[key]; entry != NULL; entry=entry->next) if (host_addr == entry->host_addr) return(TRUE); return(FALSE); } /* permitted */ /* add_host -- add the given host to the list of permitted hosts, provided it isn't already there. */ static void add_host (unsigned long host_addr) { int key; struct entry *new_entry; if (!permitted(host_addr, -1)) { if ((new_entry = (struct entry *) malloc(sizeof(struct entry))) == NULL) { fprintf(stderr,"%s: unable to malloc space for permitted host entry\n", progname); exit(1); } /* if */ new_entry->host_addr = host_addr; key = HASH(host_addr) % TABLE_SIZE; new_entry->next = permitted_hosts[key]; permitted_hosts[key] = new_entry; } /* if */ } /* add_host */ /* setup_table -- initialize the table of hosts allowed to contact the server, by reading from the file specified by the GNU_SECURE environment variable Put in the local machine, and, if a security file is specifed, add each host that is named in the file. Return the number of hosts added. */ static int setup_table (void) { FILE *host_file; char *file_name; char hostname[HOSTNAMSZ]; unsigned int host_addr; int i, hosts=0; int t; /* Make sure every entry is null */ for (i=0; is_port; /* Create the listen socket. */ if ((ls = socket (AF_INET,SOCK_STREAM, 0)) == -1) { perror(progname); fprintf(stderr,"%s: unable to create socket\n",progname); exit(1); } /* if */ /* Bind the listen address to the socket. */ if (bind(ls,(struct sockaddr *) &server,sizeof(struct sockaddr_in)) == -1) { perror(progname); fprintf(stderr,"%s: unable to bind socket\n",progname); exit(1); } /* if */ /* Initiate the listen on the socket so remote users * can connect. */ if (listen(ls,20) == -1) { perror(progname); fprintf(stderr,"%s: unable to listen\n",progname); exit(1); } /* if */ return(ls); } /* internet_init */ /* handle_internet_request -- accept a request from a client and send the information to stdout (the gnu process). */ static void handle_internet_request (int ls) { int s; socklen_t addrlen = sizeof (struct sockaddr_in); struct sockaddr_in peer; /* for peer socket address */ memset (&peer, '\0', sizeof (peer)); if ((s = accept(ls,(struct sockaddr *)&peer, &addrlen)) == -1) { perror(progname); fprintf(stderr,"%s: unable to accept\n",progname); exit(1); } /* if */ /* Check that access is allowed - if not return crud to the client */ if (!permitted(peer.sin_addr.s_addr, s)) { send_string(s,"gnudoit: Connection refused\ngnudoit: unable to connect to remote"); close(s); printf("Refused connection from %s\004\n", inet_ntoa(peer.sin_addr)); return; } /* if */ echo_request(s); } /* handle_internet_request */ #endif /* INTERNET_DOMAIN_SOCKETS */ #ifdef UNIX_DOMAIN_SOCKETS /* unix_init -- initialize server, returning an unix-domain socket that can be listened on. */ static int unix_init (void) { int ls; /* socket descriptor */ struct sockaddr_un server; /* unix socket address */ socklen_t bindlen; if ((ls = socket(AF_UNIX,SOCK_STREAM, 0)) < 0) { perror(progname); fprintf(stderr,"%s: unable to create socket\n",progname); exit(1); } /* if */ /* Set up address structure for the listen socket. */ #ifdef HIDE_UNIX_SOCKET sprintf(server.sun_path,"%s/gsrvdir%d",tmpdir,(int)geteuid()); if (mkdir(server.sun_path, 0700) < 0) { /* assume it already exists, and try to set perms */ if (chmod(server.sun_path, 0700) < 0) { perror(progname); fprintf(stderr,"%s: can't set permissions on %s\n", progname, server.sun_path); exit(1); } } strcat(server.sun_path,"/gsrv"); unlink(server.sun_path); /* remove old file if it exists */ #else /* HIDE_UNIX_SOCKET */ sprintf(server.sun_path,"%s/gsrv%d",tmpdir,(int)geteuid()); unlink(server.sun_path); /* remove old file if it exists */ #endif /* HIDE_UNIX_SOCKET */ server.sun_family = AF_UNIX; #ifdef HAVE_SOCKADDR_SUN_LEN /* See W. R. Stevens "Advanced Programming in the Unix Environment" p. 502 */ bindlen = (sizeof (server.sun_len) + sizeof (server.sun_family) + strlen (server.sun_path) + 1); server.sun_len = bindlen; #else bindlen = strlen (server.sun_path) + sizeof (server.sun_family); #endif if (bind(ls,(struct sockaddr *)&server,bindlen) < 0) { perror(progname); fprintf(stderr,"%s: unable to bind socket\n",progname); exit(1); } /* if */ chmod(server.sun_path,0700); /* only this user can send commands */ if (listen(ls,20) < 0) { perror(progname); fprintf(stderr,"%s: unable to listen\n",progname); exit(1); } /* if */ /* #### there are also better ways of dealing with this when sigvec() is present. */ #if defined (HAVE_SIGPROCMASK) { sigset_t _mask; sigemptyset (&_mask); sigaddset (&_mask, SIGPIPE); sigprocmask (SIG_BLOCK, &_mask, NULL); } #else signal(SIGPIPE,SIG_IGN); /* in case user kills client */ #endif return(ls); } /* unix_init */ /* handle_unix_request -- accept a request from a client and send the information to stdout (the gnu process). */ static void handle_unix_request (int ls) { int s; socklen_t len = sizeof (struct sockaddr_un); struct sockaddr_un server; /* for unix socket address */ server.sun_family = AF_UNIX; if ((s = accept(ls,(struct sockaddr *)&server, &len)) < 0) { perror(progname); fprintf(stderr,"%s: unable to accept\n",progname); } /* if */ echo_request(s); } /* handle_unix_request */ #endif /* UNIX_DOMAIN_SOCKETS */ int main (int argc, char *argv[]) { int chan; /* temporary channel number */ #ifdef SYSV_IPC struct msgbuf *msgp; /* message buffer */ #else int ils = -1; /* internet domain listen socket */ int uls = -1; /* unix domain listen socket */ #endif /* SYSV_IPC */ progname = argv[0]; for(chan=3; chan < _NFILE; close(chan++)) /* close unwanted channels */ ; #ifdef USE_TMPDIR tmpdir = getenv("TMPDIR"); #endif if (!tmpdir) tmpdir = "/tmp"; #ifdef USE_LITOUT { /* this is to allow ^D to pass to emacs */ int d = LLITOUT; (void) ioctl(fileno(stdout), TIOCLBIS, &d); } #endif #ifdef SYSV_IPC ipc_init(&msgp); /* get a msqid to listen on, and a message buffer */ #endif /* SYSV_IPC */ #ifdef INTERNET_DOMAIN_SOCKETS ils = internet_init(); /* get an internet domain socket to listen on */ #endif /* INTERNET_DOMAIN_SOCKETS */ #ifdef UNIX_DOMAIN_SOCKETS uls = unix_init(); /* get a unix domain socket to listen on */ #endif /* UNIX_DOMAIN_SOCKETS */ while (1) { #ifdef SYSV_IPC handle_ipc_request(msgp); #else /* NOT SYSV_IPC */ fd_set rmask; FD_ZERO(&rmask); FD_SET(fileno(stdin), &rmask); if (uls >= 0) FD_SET(uls, &rmask); if (ils >= 0) FD_SET(ils, &rmask); if (select(max2(fileno(stdin),max2(uls,ils)) + 1, &rmask, (fd_set *)NULL, (fd_set *)NULL, (struct timeval *)NULL) < 0) { perror(progname); fprintf(stderr,"%s: unable to select\n",progname); return 1; } /* if */ #ifdef UNIX_DOMAIN_SOCKETS if (uls > 0 && FD_ISSET(uls, &rmask)) handle_unix_request(uls); #endif #ifdef INTERNET_DOMAIN_SOCKETS if (ils > 0 && FD_ISSET(ils, &rmask)) handle_internet_request(ils); #endif /* INTERNET_DOMAIN_SOCKETS */ if (FD_ISSET(fileno(stdin), &rmask)) /* from stdin (gnu process) */ handle_response(); #endif /* NOT SYSV_IPC */ } /* while (1) */ } /* main */ #endif /* SYSV_IPC || UNIX_DOMAIN_SOCKETS || INTERNET_DOMAIN_SOCKETS */