Mercurial > hg > xemacs-beta
view lib-src/gnuserv.c @ 5546:d54278e74d71
Add some working with Mercurial stuff.
| author | Stephen J. Turnbull <stephen@xemacs.org> |
|---|---|
| date | Mon, 08 Aug 2011 23:10:47 +0900 |
| parents | b9167d522a9a |
| children | c03dd89e0055 |
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/* -*-C-*- Server code for handling requests from clients and forwarding them on to the XEmacs process. This file is part of XEmacs. XEmacs is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. XEmacs is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with XEmacs. If not, see <http://www.gnu.org/licenses/>. 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 <weiner@mot.com>, * Darrell Kindred <dkindred@cmu.edu> and Arup Mukherjee <arup@cmu.edu>. * 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 <bsd/sgtty.h> #else #include <sgtty.h> #endif #endif #ifdef AIX #include <sys/select.h> #endif #include <stdlib.h> #include <stdio.h> #include <sys/types.h> #include <sys/stat.h> #ifdef HAVE_UNISTD_H #include <unistd.h> #endif /* HAVE_UNISTD_H */ #ifdef HAVE_STRING_H #include <string.h> #endif /* HAVE_STRING_H */ #include "compiler.h" #if !defined(SYSV_IPC) && !defined(UNIX_DOMAIN_SOCKETS) && \ !defined(INTERNET_DOMAIN_SOCKETS) int 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 XEmacs 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 <X11/X.h> # include <X11/Xauth.h> 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; /* Make sure every entry is null */ for (i=0; i<TABLE_SIZE; i++) permitted_hosts[i] = NULL; gethostname(hostname,HOSTNAMSZ); if ((host_addr = internet_addr (hostname)) == (unsigned int) -1) { fprintf(stderr,"%s: unable to find %s in /etc/hosts or from YP", progname,hostname); exit(1); } /* if */ #ifdef AUTH_MAGIC_COOKIE server_xauth = XauGetAuthByAddr (FamilyInternet, sizeof(host_addr), (char *)&host_addr, strlen(MCOOKIE_SCREEN), MCOOKIE_SCREEN, strlen(MCOOKIE_X_NAME), MCOOKIE_X_NAME); hosts++; #endif /* AUTH_MAGIC_COOKIE */ #if 0 /* Don't even want to allow access from the local host by default */ add_host(host_addr); /* add local host */ #endif if (((file_name = getenv("GNU_SECURE")) != NULL && /* security file */ (host_file = fopen(file_name,"r")) != NULL)) /* opened ok */ { while ((fscanf(host_file,"%s",hostname) != EOF)) /* find a host */ if ((host_addr = internet_addr(hostname)) != (unsigned int) -1) /* get its addr */ { add_host(host_addr); /* add the addr */ hosts++; } fclose(host_file); } /* if */ return hosts; } /* setup_table */ /* internet_init -- initialize server, returning an internet socket that can be listened on. */ static int internet_init (void) { int ls; /* socket descriptor */ struct servent *sp; /* pointer to service information */ struct sockaddr_in server; /* for local socket address */ char *ptr; /* ptr to return from getenv */ if (setup_table() == 0) return -1; /* clear out address structure */ memset (&server, '\0', sizeof (server)); /* Set up address structure for the listen socket. */ server.sin_family = AF_INET; server.sin_addr.s_addr = INADDR_ANY; /* Find the information for the gnu server * in order to get the needed port number. */ if ((ptr=getenv("GNU_PORT")) != NULL) server.sin_port = htons(atoi(ptr)); else if ((sp = getservbyname ("gnuserv", "tcp")) == NULL) server.sin_port = htons(DEFAULT_PORT+getuid()); else server.sin_port = sp->s_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 UNUSED (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 WIN32_NATIVE tmpdir = getenv ("TEMP"); if (!tmpdir) tmpdir = getenv ("TMP"); if (!tmpdir) tmpdir = "c:\\"; #else #ifdef USE_TMPDIR tmpdir = getenv ("TMPDIR"); #endif if (!tmpdir) tmpdir = "/tmp"; #endif /* WIN32_NATIVE */ #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 */