/* Copyright 1993, 1994, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. * Copyright 1993, 1994 NCR Corporation - Dayton, Ohio, USA * * All Rights Reserved * * Permission to use, copy, modify, and distribute this software and its * documentation for any purpose and without fee is hereby granted, provided * that the above copyright notice appear in all copies and that both that * copyright notice and this permission notice appear in supporting * documentation, and that the name NCR not be used in advertising * or publicity pertaining to distribution of the software without specific, * written prior permission. NCR makes no representations about the * suitability of this software for any purpose. It is provided "as is" * without express or implied warranty. * * NCR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN * NO EVENT SHALL NCR BE LIABLE FOR ANY SPECIAL, INDIRECT OR * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS * OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, * NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN * CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ /* * * The connection code/ideas in lib/X and server/os for SVR4/Intel * environments was contributed by the following companies/groups: * * MetroLink Inc * NCR * Pittsburgh Powercomputing Corporation (PPc)/Quarterdeck Office Systems * SGCS * Unix System Laboratories (USL) / Novell * XFree86 * * The goal is to have common connection code among all SVR4/Intel vendors. * * ALL THE ABOVE COMPANIES DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS * SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, * IN NO EVENT SHALL THESE COMPANIES * BE LIABLE FOR ANY SPECIAL, INDIRECT * OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS * OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE * OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE * OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #if defined(SVR4) || defined(__SVR4) #include #endif #ifdef __sun # include #else # include #endif #include #include /* * The local transports should be treated the same as a UNIX domain socket * wrt authentication, etc. Because of this, we will use struct sockaddr_un * for the address format. This will simplify the code in other places like * The X Server. */ #include #ifndef X_NO_SYS_UN #include #endif /* Types of local connections supported: * - PTS * - named pipes * - SCO */ #if !defined(__sun) # define LOCAL_TRANS_PTS #endif #if defined(SVR4) || defined(__SVR4) # define LOCAL_TRANS_NAMED #endif #if defined(__SCO__) || defined(__UNIXWARE__) # define LOCAL_TRANS_SCO #endif static int TRANS(LocalClose)(XtransConnInfo ciptr); /* * These functions actually implement the local connection mechanisms. */ /* Type Not Supported */ static int TRANS(OpenFail)(XtransConnInfo ciptr _X_UNUSED, const char *port _X_UNUSED) { return -1; } #ifdef TRANS_REOPEN static int TRANS(ReopenFail)(XtransConnInfo ciptr _X_UNUSED, int fd _X_UNUSED, const char *port _X_UNUSED) { return 0; } #endif /* TRANS_REOPEN */ #if XTRANS_SEND_FDS static int TRANS(LocalRecvFdInvalid)(XtransConnInfo ciptr) { errno = EINVAL; return -1; } static int TRANS(LocalSendFdInvalid)(XtransConnInfo ciptr, int fd, int do_close) { errno = EINVAL; return -1; } #endif static int TRANS(FillAddrInfo)(XtransConnInfo ciptr, const char *sun_path, const char *peer_sun_path) { struct sockaddr_un *sunaddr; struct sockaddr_un *p_sunaddr; ciptr->family = AF_UNIX; ciptr->addrlen = sizeof (struct sockaddr_un); if ((sunaddr = malloc (ciptr->addrlen)) == NULL) { prmsg(1,"FillAddrInfo: failed to allocate memory for addr\n"); return 0; } sunaddr->sun_family = AF_UNIX; if (strlen(sun_path) > sizeof(sunaddr->sun_path) - 1) { prmsg(1, "FillAddrInfo: path too long\n"); free((char *) sunaddr); return 0; } strcpy (sunaddr->sun_path, sun_path); #if defined(BSD44SOCKETS) sunaddr->sun_len = strlen (sunaddr->sun_path); #endif ciptr->addr = (char *) sunaddr; ciptr->peeraddrlen = sizeof (struct sockaddr_un); if ((p_sunaddr = malloc (ciptr->peeraddrlen)) == NULL) { prmsg(1, "FillAddrInfo: failed to allocate memory for peer addr\n"); free (sunaddr); ciptr->addr = NULL; return 0; } p_sunaddr->sun_family = AF_UNIX; if (strlen(peer_sun_path) > sizeof(p_sunaddr->sun_path) - 1) { prmsg(1, "FillAddrInfo: peer path too long\n"); free((char *) p_sunaddr); return 0; } strcpy (p_sunaddr->sun_path, peer_sun_path); #if defined(BSD44SOCKETS) p_sunaddr->sun_len = strlen (p_sunaddr->sun_path); #endif ciptr->peeraddr = (char *) p_sunaddr; return 1; } #ifdef LOCAL_TRANS_PTS /* PTS */ #if defined(SYSV) && !defined(__SCO__) #define SIGNAL_T int #else #define SIGNAL_T void #endif /* SYSV */ typedef SIGNAL_T (*PFV)(); extern PFV signal(); extern char *ptsname( int ); static void _dummy(int sig _X_UNUSED) { } #endif /* LOCAL_TRANS_PTS */ #ifndef __sun #define X_STREAMS_DIR "/dev/X" #define DEV_SPX "/dev/spx" #else #ifndef X11_t #define X_STREAMS_DIR "/dev/X" #else #define X_STREAMS_DIR "/tmp/.X11-pipe" #endif #endif #define DEV_PTMX "/dev/ptmx" #if defined(X11_t) #define PTSNODENAME "/dev/X/server." #ifdef __sun #define NAMEDNODENAME "/tmp/.X11-pipe/X" #else #define NAMEDNODENAME "/dev/X/Nserver." #define SCORNODENAME "/dev/X%1sR" #define SCOSNODENAME "/dev/X%1sS" #endif /* !__sun */ #endif #if defined(XIM_t) #ifdef __sun #define NAMEDNODENAME "/tmp/.XIM-pipe/XIM" #else #define PTSNODENAME "/dev/X/XIM." #define NAMEDNODENAME "/dev/X/NXIM." #define SCORNODENAME "/dev/XIM.%sR" #define SCOSNODENAME "/dev/XIM.%sS" #endif #endif #if defined(FS_t) || defined (FONT_t) #ifdef __sun #define NAMEDNODENAME "/tmp/.font-pipe/fs" #else /* * USL has already defined something here. We need to check with them * and see if their choice is usable here. */ #define PTSNODENAME "/dev/X/fontserver." #define NAMEDNODENAME "/dev/X/Nfontserver." #define SCORNODENAME "/dev/fontserver.%sR" #define SCOSNODENAME "/dev/fontserver.%sS" #endif #endif #if defined(ICE_t) #ifdef __sun #define NAMEDNODENAME "/tmp/.ICE-pipe/" #else #define PTSNODENAME "/dev/X/ICE." #define NAMEDNODENAME "/dev/X/NICE." #define SCORNODENAME "/dev/ICE.%sR" #define SCOSNODENAME "/dev/ICE.%sS" #endif #endif #if defined(TEST_t) #ifdef __sun #define NAMEDNODENAME "/tmp/.Test-unix/test" #endif #define PTSNODENAME "/dev/X/transtest." #define NAMEDNODENAME "/dev/X/Ntranstest." #define SCORNODENAME "/dev/transtest.%sR" #define SCOSNODENAME "/dev/transtest.%sS" #endif #ifdef LOCAL_TRANS_PTS #ifdef TRANS_CLIENT static int TRANS(PTSOpenClient)(XtransConnInfo ciptr, const char *port) { #ifdef PTSNODENAME int fd,server,exitval,alarm_time,ret; char server_path[64]; char *slave, namelen; char buf[20]; /* MAX_PATH_LEN?? */ PFV savef; pid_t saved_pid; #endif prmsg(2,"PTSOpenClient(%s)\n", port); #if !defined(PTSNODENAME) prmsg(1,"PTSOpenClient: Protocol is not supported by a pts connection\n"); return -1; #else if (port && *port ) { if( *port == '/' ) { /* A full pathname */ snprintf(server_path, sizeof(server_path), "%s", port); } else { snprintf(server_path, sizeof(server_path), "%s%s", PTSNODENAME, port); } } else { snprintf(server_path, sizeof(server_path), "%s%d", PTSNODENAME, getpid()); } /* * Open the node the on which the server is listening. */ if ((server = open (server_path, O_RDWR)) < 0) { prmsg(1,"PTSOpenClient: failed to open %s\n", server_path); return -1; } /* * Open the streams based pipe that will be this connection. */ if ((fd = open(DEV_PTMX, O_RDWR)) < 0) { prmsg(1,"PTSOpenClient: failed to open %s\n", DEV_PTMX); close(server); return(-1); } (void) grantpt(fd); (void) unlockpt(fd); slave = ptsname(fd); /* get name */ if( slave == NULL ) { prmsg(1,"PTSOpenClient: failed to get ptsname()\n"); close(fd); close(server); return -1; } /* * This is neccesary for the case where a program is setuid to non-root. * grantpt() calls /usr/lib/pt_chmod which is set-uid root. This program will * set the owner of the pt device incorrectly if the uid is not restored * before it is called. The problem is that once it gets restored, it * cannot be changed back to its original condition, hence the fork(). */ if(!(saved_pid=fork())) { uid_t saved_euid; saved_euid = geteuid(); /** sets the euid to the actual/real uid **/ if (setuid( getuid() ) == -1) { exit(1); } if( chown( slave, saved_euid, -1 ) < 0 ) { exit( 1 ); } exit( 0 ); } waitpid(saved_pid, &exitval, 0); if (WIFEXITED(exitval) && WEXITSTATUS(exitval) != 0) { close(fd); close(server); prmsg(1, "PTSOpenClient: cannot set the owner of %s\n", slave); return(-1); } if (chmod(slave, 0666) < 0) { close(fd); close(server); prmsg(1,"PTSOpenClient: Cannot chmod %s\n", slave); return(-1); } /* * write slave name to server */ namelen = strlen(slave); buf[0] = namelen; (void) sprintf(&buf[1], slave); (void) write(server, buf, namelen+1); (void) close(server); /* * wait for server to respond */ savef = signal(SIGALRM, _dummy); alarm_time = alarm (30); /* CONNECT_TIMEOUT */ ret = read(fd, buf, 1); (void) alarm(alarm_time); (void) signal(SIGALRM, savef); if (ret != 1) { prmsg(1, "PTSOpenClient: failed to get acknoledgement from server\n"); (void) close(fd); fd = -1; } /* * Everything looks good: fill in the XtransConnInfo structure. */ if (TRANS(FillAddrInfo) (ciptr, slave, server_path) == 0) { prmsg(1,"PTSOpenClient: failed to fill in addr info\n"); close(fd); return -1; } return(fd); #endif /* !PTSNODENAME */ } #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER static int TRANS(PTSOpenServer)(XtransConnInfo ciptr, const char *port) { #ifdef PTSNODENAME int fd, server; char server_path[64], *slave; int mode; #endif prmsg(2,"PTSOpenServer(%s)\n", port); #if !defined(PTSNODENAME) prmsg(1,"PTSOpenServer: Protocol is not supported by a pts connection\n"); return -1; #else if (port && *port ) { if( *port == '/' ) { /* A full pathname */ (void) sprintf(server_path, "%s", port); } else { (void) sprintf(server_path, "%s%s", PTSNODENAME, port); } } else { (void) sprintf(server_path, "%s%d", PTSNODENAME, getpid()); } #ifdef HAS_STICKY_DIR_BIT mode = 01777; #else mode = 0777; #endif if (trans_mkdir(X_STREAMS_DIR, mode) == -1) { prmsg (1, "PTSOpenServer: mkdir(%s) failed, errno = %d\n", X_STREAMS_DIR, errno); return(-1); } #if 0 if( (fd=open(server_path, O_RDWR)) >= 0 ) { /* * This doesn't prevent the server from starting up, and doesn't * prevent clients from trying to connect to the in-use PTS (which * is often in use by something other than another server). */ prmsg(1, "PTSOpenServer: A server is already running on port %s\n", port); prmsg(1, "PTSOpenServer: Remove %s if this is incorrect.\n", server_path); close(fd); return(-1); } #else /* Just remove the old path (which is what happens with UNIXCONN) */ #endif unlink(server_path); if( (fd=open(DEV_PTMX, O_RDWR)) < 0) { prmsg(1, "PTSOpenServer: Unable to open %s\n", DEV_PTMX); return(-1); } grantpt(fd); unlockpt(fd); if( (slave=ptsname(fd)) == NULL) { prmsg(1, "PTSOpenServer: Unable to get slave device name\n"); close(fd); return(-1); } if( link(slave,server_path) < 0 ) { prmsg(1, "PTSOpenServer: Unable to link %s to %s\n", slave, server_path); close(fd); return(-1); } if( chmod(server_path, 0666) < 0 ) { prmsg(1, "PTSOpenServer: Unable to chmod %s to 0666\n", server_path); close(fd); return(-1); } if( (server=open(server_path, O_RDWR)) < 0 ) { prmsg(1, "PTSOpenServer: Unable to open server device %s\n", server_path); close(fd); return(-1); } close(server); /* * Everything looks good: fill in the XtransConnInfo structure. */ if (TRANS(FillAddrInfo) (ciptr, server_path, server_path) == 0) { prmsg(1,"PTSOpenServer: failed to fill in addr info\n"); close(fd); return -1; } return fd; #endif /* !PTSNODENAME */ } static int TRANS(PTSAccept)(XtransConnInfo ciptr, XtransConnInfo newciptr, int *status) { int newfd; int in; unsigned char length; char buf[256]; struct sockaddr_un *sunaddr; prmsg(2,"PTSAccept(%x->%d)\n",ciptr,ciptr->fd); if( (in=read(ciptr->fd,&length,1)) <= 0 ){ if( !in ) { prmsg(2, "PTSAccept: Incoming connection closed\n"); } else { prmsg(1, "PTSAccept: Error reading incoming connection. errno=%d \n", errno); } *status = TRANS_ACCEPT_MISC_ERROR; return -1; } if( (in=read(ciptr->fd,buf,length)) <= 0 ){ if( !in ) { prmsg(2, "PTSAccept: Incoming connection closed\n"); } else { prmsg(1, "PTSAccept: Error reading device name for new connection. errno=%d \n", errno); } *status = TRANS_ACCEPT_MISC_ERROR; return -1; } buf[length] = '\0'; if( (newfd=open(buf,O_RDWR)) < 0 ) { prmsg(1, "PTSAccept: Failed to open %s\n",buf); *status = TRANS_ACCEPT_MISC_ERROR; return -1; } write(newfd,"1",1); /* * Everything looks good: fill in the XtransConnInfo structure. */ newciptr->addrlen=ciptr->addrlen; if( (newciptr->addr = malloc(newciptr->addrlen)) == NULL ) { prmsg(1,"PTSAccept: failed to allocate memory for peer addr\n"); close(newfd); *status = TRANS_ACCEPT_BAD_MALLOC; return -1; } memcpy(newciptr->addr,ciptr->addr,newciptr->addrlen); newciptr->peeraddrlen=sizeof(struct sockaddr_un); if( (sunaddr = malloc(newciptr->peeraddrlen)) == NULL ) { prmsg(1,"PTSAccept: failed to allocate memory for peer addr\n"); free(newciptr->addr); close(newfd); *status = TRANS_ACCEPT_BAD_MALLOC; return -1; } sunaddr->sun_family=AF_UNIX; strcpy(sunaddr->sun_path,buf); #if defined(BSD44SOCKETS) sunaddr->sun_len=strlen(sunaddr->sun_path); #endif newciptr->peeraddr=(char *)sunaddr; *status = 0; return newfd; } #endif /* TRANS_SERVER */ #endif /* LOCAL_TRANS_PTS */ #ifdef LOCAL_TRANS_NAMED /* NAMED */ #ifdef TRANS_CLIENT static int TRANS(NAMEDOpenClient)(XtransConnInfo ciptr, const char *port) { #ifdef NAMEDNODENAME int fd; char server_path[64]; struct stat filestat; # ifndef __sun extern int isastream(int); # endif #endif prmsg(2,"NAMEDOpenClient(%s)\n", port); #if !defined(NAMEDNODENAME) prmsg(1,"NAMEDOpenClient: Protocol is not supported by a NAMED connection\n"); return -1; #else if ( port && *port ) { if( *port == '/' ) { /* A full pathname */ (void) snprintf(server_path, sizeof(server_path), "%s", port); } else { (void) snprintf(server_path, sizeof(server_path), "%s%s", NAMEDNODENAME, port); } } else { (void) snprintf(server_path, sizeof(server_path), "%s%ld", NAMEDNODENAME, (long)getpid()); } if ((fd = open(server_path, O_RDWR)) < 0) { prmsg(1,"NAMEDOpenClient: Cannot open %s for NAMED connection\n", server_path); return -1; } if (fstat(fd, &filestat) < 0 ) { prmsg(1,"NAMEDOpenClient: Cannot stat %s for NAMED connection\n", server_path); (void) close(fd); return -1; } if ((filestat.st_mode & S_IFMT) != S_IFIFO) { prmsg(1,"NAMEDOpenClient: Device %s is not a FIFO\n", server_path); /* Is this really a failure? */ (void) close(fd); return -1; } if (isastream(fd) <= 0) { prmsg(1,"NAMEDOpenClient: %s is not a streams device\n", server_path); (void) close(fd); return -1; } /* * Everything looks good: fill in the XtransConnInfo structure. */ if (TRANS(FillAddrInfo) (ciptr, server_path, server_path) == 0) { prmsg(1,"NAMEDOpenClient: failed to fill in addr info\n"); close(fd); return -1; } return(fd); #endif /* !NAMEDNODENAME */ } #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER #ifdef NAMEDNODENAME static int TRANS(NAMEDOpenPipe)(const char *server_path) { int fd, pipefd[2]; struct stat sbuf; int mode; prmsg(2,"NAMEDOpenPipe(%s)\n", server_path); #ifdef HAS_STICKY_DIR_BIT mode = 01777; #else mode = 0777; #endif if (trans_mkdir(X_STREAMS_DIR, mode) == -1) { prmsg (1, "NAMEDOpenPipe: mkdir(%s) failed, errno = %d\n", X_STREAMS_DIR, errno); return(-1); } if(stat(server_path, &sbuf) != 0) { if (errno == ENOENT) { if ((fd = creat(server_path, (mode_t)0666)) == -1) { prmsg(1, "NAMEDOpenPipe: Can't open %s\n", server_path); return(-1); } close(fd); if (chmod(server_path, (mode_t)0666) < 0) { prmsg(1, "NAMEDOpenPipe: Can't open %s\n", server_path); return(-1); } } else { prmsg(1, "NAMEDOpenPipe: stat on %s failed\n", server_path); return(-1); } } if( pipe(pipefd) != 0) { prmsg(1, "NAMEDOpenPipe: pipe() failed, errno=%d\n",errno); return(-1); } if( ioctl(pipefd[0], I_PUSH, "connld") != 0) { prmsg(1, "NAMEDOpenPipe: ioctl(I_PUSH,\"connld\") failed, errno=%d\n",errno); close(pipefd[0]); close(pipefd[1]); return(-1); } if( fattach(pipefd[0], server_path) != 0) { prmsg(1, "NAMEDOpenPipe: fattach(%s) failed, errno=%d\n", server_path,errno); close(pipefd[0]); close(pipefd[1]); return(-1); } return(pipefd[1]); } #endif static int TRANS(NAMEDOpenServer)(XtransConnInfo ciptr, const char *port) { #ifdef NAMEDNODENAME int fd; char server_path[64]; #endif prmsg(2,"NAMEDOpenServer(%s)\n", port); #if !defined(NAMEDNODENAME) prmsg(1,"NAMEDOpenServer: Protocol is not supported by a NAMED connection\n"); return -1; #else if ( port && *port ) { if( *port == '/' ) { /* A full pathname */ (void) snprintf(server_path, sizeof(server_path), "%s", port); } else { (void) snprintf(server_path, sizeof(server_path), "%s%s", NAMEDNODENAME, port); } } else { (void) snprintf(server_path, sizeof(server_path), "%s%ld", NAMEDNODENAME, (long)getpid()); } fd = TRANS(NAMEDOpenPipe)(server_path); if (fd < 0) { return -1; } /* * Everything looks good: fill in the XtransConnInfo structure. */ if (TRANS(FillAddrInfo) (ciptr, server_path, server_path) == 0) { prmsg(1,"NAMEDOpenServer: failed to fill in addr info\n"); TRANS(LocalClose)(ciptr); return -1; } return fd; #endif /* !NAMEDNODENAME */ } static int TRANS(NAMEDResetListener) (XtransConnInfo ciptr) { struct sockaddr_un *sockname=(struct sockaddr_un *) ciptr->addr; struct stat statb; prmsg(2,"NAMEDResetListener(%p, %d)\n", ciptr, ciptr->fd); if (ciptr->fd != -1) { /* * see if the pipe has disappeared */ if (stat (sockname->sun_path, &statb) == -1 || (statb.st_mode & S_IFMT) != S_IFIFO) { prmsg(3, "Pipe %s trashed, recreating\n", sockname->sun_path); TRANS(LocalClose)(ciptr); ciptr->fd = TRANS(NAMEDOpenPipe)(sockname->sun_path); if (ciptr->fd >= 0) return TRANS_RESET_NEW_FD; else return TRANS_CREATE_LISTENER_FAILED; } } return TRANS_RESET_NOOP; } static int TRANS(NAMEDAccept)(XtransConnInfo ciptr, XtransConnInfo newciptr, int *status) { struct strrecvfd str; prmsg(2,"NAMEDAccept(%p->%d)\n", ciptr, ciptr->fd); if( ioctl(ciptr->fd, I_RECVFD, &str ) < 0 ) { prmsg(1, "NAMEDAccept: ioctl(I_RECVFD) failed, errno=%d\n", errno); *status = TRANS_ACCEPT_MISC_ERROR; return(-1); } /* * Everything looks good: fill in the XtransConnInfo structure. */ newciptr->family=ciptr->family; newciptr->addrlen=ciptr->addrlen; if( (newciptr->addr = malloc(newciptr->addrlen)) == NULL ) { prmsg(1, "NAMEDAccept: failed to allocate memory for pipe addr\n"); close(str.fd); *status = TRANS_ACCEPT_BAD_MALLOC; return -1; } memcpy(newciptr->addr,ciptr->addr,newciptr->addrlen); newciptr->peeraddrlen=newciptr->addrlen; if( (newciptr->peeraddr = malloc(newciptr->peeraddrlen)) == NULL ) { prmsg(1, "NAMEDAccept: failed to allocate memory for peer addr\n"); free(newciptr->addr); close(str.fd); *status = TRANS_ACCEPT_BAD_MALLOC; return -1; } memcpy(newciptr->peeraddr,newciptr->addr,newciptr->peeraddrlen); *status = 0; return str.fd; } #endif /* TRANS_SERVER */ #endif /* LOCAL_TRANS_NAMED */ #if defined(LOCAL_TRANS_SCO) /* * connect_spipe is used by the SCO connection type. */ static int connect_spipe(int fd1, int fd2) { long temp; struct strfdinsert sbuf; sbuf.databuf.maxlen = -1; sbuf.databuf.len = -1; sbuf.databuf.buf = NULL; sbuf.ctlbuf.maxlen = sizeof(long); sbuf.ctlbuf.len = sizeof(long); sbuf.ctlbuf.buf = (caddr_t)&temp; sbuf.offset = 0; sbuf.fildes = fd2; sbuf.flags = 0; if( ioctl(fd1, I_FDINSERT, &sbuf) < 0 ) return(-1); return(0); } /* * named_spipe is used by the SCO connection type. */ static int named_spipe(int fd, char *path) { int oldUmask, ret; struct stat sbuf; oldUmask = umask(0); (void) fstat(fd, &sbuf); ret = mknod(path, 0020666, sbuf.st_rdev); umask(oldUmask); if (ret < 0) { ret = -1; } else { ret = fd; } return(ret); } #endif /* defined(LOCAL_TRANS_SCO) */ #ifdef LOCAL_TRANS_SCO /* SCO */ /* * 2002-11-09 (jkj@sco.com) * * This code has been modified to match what is in the actual SCO X server. * This greatly helps inter-operability between X11R6 and X11R5 (the native * SCO server). Mainly, it relies on streams nodes existing in /dev, not * creating them or unlinking them, which breaks the native X server. * * However, this is only for the X protocol. For all other protocols, we * do in fact create the nodes, as only X11R6 will use them, and this makes * it possible to have both types of clients running, otherwise we get all * kinds of nasty errors on startup for anything that doesnt use the X * protocol (like SM, when KDE starts up). */ #ifdef TRANS_CLIENT static int TRANS(SCOOpenClient)(XtransConnInfo ciptr, const char *port) { #ifdef SCORNODENAME int fd, server, fl, ret; char server_path[64]; struct strbuf ctlbuf; unsigned long alarm_time; void (*savef)(); long temp; extern int getmsg(), putmsg(); #endif prmsg(2,"SCOOpenClient(%s)\n", port); if (!port || !port[0]) port = "0"; #if !defined(SCORNODENAME) prmsg(2,"SCOOpenClient: Protocol is not supported by a SCO connection\n"); return -1; #else (void) sprintf(server_path, SCORNODENAME, port); if ((server = open(server_path, O_RDWR)) < 0) { prmsg(1,"SCOOpenClient: failed to open %s\n", server_path); return -1; } if ((fd = open(DEV_SPX, O_RDWR)) < 0) { prmsg(1,"SCOOpenClient: failed to open %s\n", DEV_SPX); close(server); return -1; } (void) write(server, &server, 1); ctlbuf.len = 0; ctlbuf.maxlen = sizeof(long); ctlbuf.buf = (caddr_t)&temp; fl = 0; savef = signal(SIGALRM, _dummy); alarm_time = alarm(10); ret = getmsg(server, &ctlbuf, 0, &fl); (void) alarm(alarm_time); (void) signal(SIGALRM, savef); if (ret < 0) { prmsg(1,"SCOOpenClient: error from getmsg\n"); close(fd); close(server); return -1; } /* The msg we got via getmsg is the result of an * I_FDINSERT, so if we do a putmsg with whatever * we recieved, we're doing another I_FDINSERT ... */ (void) putmsg(fd, &ctlbuf, 0, 0); (void) fcntl(fd,F_SETFL,fcntl(fd,F_GETFL,0)|O_NDELAY); (void) close(server); /* * Everything looks good: fill in the XtransConnInfo structure. */ #if defined(X11_t) && defined(__SCO__) ciptr->flags |= TRANS_NOUNLINK; #endif if (TRANS(FillAddrInfo) (ciptr, server_path, server_path) == 0) { prmsg(1,"SCOOpenClient: failed to fill addr info\n"); close(fd); return -1; } return(fd); #endif /* !SCORNODENAME */ } #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER static int TRANS(SCOOpenServer)(XtransConnInfo ciptr, const char *port) { #ifdef SCORNODENAME char serverR_path[64]; char serverS_path[64]; struct flock mylock; int fdr = -1; int fds = -1; #endif prmsg(2,"SCOOpenServer(%s)\n", port); if (!port || !port[0]) port = "0"; #if !defined(SCORNODENAME) prmsg(1,"SCOOpenServer: Protocol is not supported by a SCO connection\n"); return -1; #else (void) sprintf(serverR_path, SCORNODENAME, port); (void) sprintf(serverS_path, SCOSNODENAME, port); #if !defined(X11_t) || !defined(__SCO__) unlink(serverR_path); unlink(serverS_path); if ((fds = open(DEV_SPX, O_RDWR)) < 0 || (fdr = open(DEV_SPX, O_RDWR)) < 0 ) { prmsg(1,"SCOOpenServer: failed to open %s\n", DEV_SPX); if (fds >= 0) close(fds); if (fdr >= 0) close(fdr); return -1; } if (named_spipe (fds, serverS_path) == -1) { prmsg(1,"SCOOpenServer: failed to create %s\n", serverS_path); close (fdr); close (fds); return -1; } if (named_spipe (fdr, serverR_path) == -1) { prmsg(1,"SCOOpenServer: failed to create %s\n", serverR_path); close (fdr); close (fds); return -1; } #else /* X11_t */ fds = open (serverS_path, O_RDWR | O_NDELAY); if (fds < 0) { prmsg(1,"SCOOpenServer: failed to open %s\n", serverS_path); return -1; } /* * Lock the connection device for the duration of the server. * This resolves multiple server starts especially on SMP machines. */ mylock.l_type = F_WRLCK; mylock.l_whence = 0; mylock.l_start = 0; mylock.l_len = 0; if (fcntl (fds, F_SETLK, &mylock) < 0) { prmsg(1,"SCOOpenServer: failed to lock %s\n", serverS_path); close (fds); return -1; } fdr = open (serverR_path, O_RDWR | O_NDELAY); if (fdr < 0) { prmsg(1,"SCOOpenServer: failed to open %s\n", serverR_path); close (fds); return -1; } #endif /* X11_t */ if (connect_spipe(fds, fdr)) { prmsg(1,"SCOOpenServer: ioctl(I_FDINSERT) failed on %s\n", serverS_path); close (fdr); close (fds); return -1; } /* * Everything looks good: fill in the XtransConnInfo structure. */ #if defined(X11_t) && defined(__SCO__) ciptr->flags |= TRANS_NOUNLINK; #endif if (TRANS(FillAddrInfo) (ciptr, serverS_path, serverR_path) == 0) { prmsg(1,"SCOOpenServer: failed to fill in addr info\n"); close(fds); close(fdr); return -1; } return(fds); #endif /* !SCORNODENAME */ } static int TRANS(SCOAccept)(XtransConnInfo ciptr, XtransConnInfo newciptr, int *status) { char c; int fd; prmsg(2,"SCOAccept(%d)\n", ciptr->fd); if (read(ciptr->fd, &c, 1) < 0) { prmsg(1,"SCOAccept: can't read from client\n"); *status = TRANS_ACCEPT_MISC_ERROR; return(-1); } if( (fd = open(DEV_SPX, O_RDWR)) < 0 ) { prmsg(1,"SCOAccept: can't open \"%s\"\n",DEV_SPX); *status = TRANS_ACCEPT_MISC_ERROR; return(-1); } if (connect_spipe (ciptr->fd, fd) < 0) { prmsg(1,"SCOAccept: ioctl(I_FDINSERT) failed\n"); close (fd); *status = TRANS_ACCEPT_MISC_ERROR; return -1; } /* * Everything looks good: fill in the XtransConnInfo structure. */ newciptr->addrlen=ciptr->addrlen; if( (newciptr->addr = malloc(newciptr->addrlen)) == NULL ) { prmsg(1, "SCOAccept: failed to allocate memory for peer addr\n"); close(fd); *status = TRANS_ACCEPT_BAD_MALLOC; return -1; } memcpy(newciptr->addr,ciptr->addr,newciptr->addrlen); #if defined(__SCO__) newciptr->flags |= TRANS_NOUNLINK; #endif newciptr->peeraddrlen=newciptr->addrlen; if( (newciptr->peeraddr = malloc(newciptr->peeraddrlen)) == NULL ) { prmsg(1, "SCOAccept: failed to allocate memory for peer addr\n"); free(newciptr->addr); close(fd); *status = TRANS_ACCEPT_BAD_MALLOC; return -1; } memcpy(newciptr->peeraddr,newciptr->addr,newciptr->peeraddrlen); *status = 0; return(fd); } #endif /* TRANS_SERVER */ #endif /* LOCAL_TRANS_SCO */ #ifdef TRANS_REOPEN #ifdef LOCAL_TRANS_PTS static int TRANS(PTSReopenServer)(XtransConnInfo ciptr, int fd, const char *port) { #ifdef PTSNODENAME char server_path[64]; #endif prmsg(2,"PTSReopenServer(%d,%s)\n", fd, port); #if !defined(PTSNODENAME) prmsg(1,"PTSReopenServer: Protocol is not supported by a pts connection\n"); return 0; #else if (port && *port ) { if( *port == '/' ) { /* A full pathname */ snprintf(server_path, sizeof(server_path), "%s", port); } else { snprintf(server_path, sizeof(server_path), "%s%s", PTSNODENAME, port); } } else { snprintf(server_path, sizeof(server_path), "%s%ld", PTSNODENAME, (long)getpid()); } if (TRANS(FillAddrInfo) (ciptr, server_path, server_path) == 0) { prmsg(1,"PTSReopenServer: failed to fill in addr info\n"); return 0; } return 1; #endif /* !PTSNODENAME */ } #endif /* LOCAL_TRANS_PTS */ #ifdef LOCAL_TRANS_NAMED static int TRANS(NAMEDReopenServer)(XtransConnInfo ciptr, int fd _X_UNUSED, const char *port) { #ifdef NAMEDNODENAME char server_path[64]; #endif prmsg(2,"NAMEDReopenServer(%s)\n", port); #if !defined(NAMEDNODENAME) prmsg(1,"NAMEDReopenServer: Protocol is not supported by a NAMED connection\n"); return 0; #else if ( port && *port ) { if( *port == '/' ) { /* A full pathname */ snprintf(server_path, sizeof(server_path),"%s", port); } else { snprintf(server_path, sizeof(server_path), "%s%s", NAMEDNODENAME, port); } } else { snprintf(server_path, sizeof(server_path), "%s%ld", NAMEDNODENAME, (long)getpid()); } if (TRANS(FillAddrInfo) (ciptr, server_path, server_path) == 0) { prmsg(1,"NAMEDReopenServer: failed to fill in addr info\n"); return 0; } return 1; #endif /* !NAMEDNODENAME */ } #endif /* LOCAL_TRANS_NAMED */ #ifdef LOCAL_TRANS_SCO static int TRANS(SCOReopenServer)(XtransConnInfo ciptr, int fd, const char *port) { #ifdef SCORNODENAME char serverR_path[64], serverS_path[64]; #endif prmsg(2,"SCOReopenServer(%s)\n", port); if (!port || !port[0]) port = "0"; #if !defined(SCORNODENAME) prmsg(2,"SCOReopenServer: Protocol is not supported by a SCO connection\n"); return 0; #else (void) sprintf(serverR_path, SCORNODENAME, port); (void) sprintf(serverS_path, SCOSNODENAME, port); #if defined(X11_t) && defined(__SCO__) ciptr->flags |= TRANS_NOUNLINK; #endif if (TRANS(FillAddrInfo) (ciptr, serverS_path, serverR_path) == 0) { prmsg(1, "SCOReopenServer: failed to fill in addr info\n"); return 0; } return 1; #endif /* SCORNODENAME */ } #endif /* LOCAL_TRANS_SCO */ #endif /* TRANS_REOPEN */ /* * This table contains all of the entry points for the different local * connection mechanisms. */ typedef struct _LOCALtrans2dev { const char *transname; #ifdef TRANS_CLIENT int (*devcotsopenclient)( XtransConnInfo, const char * /*port*/ ); #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER int (*devcotsopenserver)( XtransConnInfo, const char * /*port*/ ); #endif /* TRANS_SERVER */ #ifdef TRANS_CLIENT int (*devcltsopenclient)( XtransConnInfo, const char * /*port*/ ); #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER int (*devcltsopenserver)( XtransConnInfo, const char * /*port*/ ); #endif /* TRANS_SERVER */ #ifdef TRANS_REOPEN int (*devcotsreopenserver)( XtransConnInfo, int, /* fd */ const char * /* port */ ); int (*devcltsreopenserver)( XtransConnInfo, int, /* fd */ const char * /* port */ ); #endif /* TRANS_REOPEN */ #ifdef TRANS_SERVER int (*devreset)( XtransConnInfo /* ciptr */ ); int (*devaccept)( XtransConnInfo, XtransConnInfo, int * ); #endif /* TRANS_SERVER */ } LOCALtrans2dev; static LOCALtrans2dev LOCALtrans2devtab[] = { #ifdef LOCAL_TRANS_PTS {"", #ifdef TRANS_CLIENT TRANS(PTSOpenClient), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER TRANS(PTSOpenServer), #endif /* TRANS_SERVER */ #ifdef TRANS_CLIENT TRANS(OpenFail), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER TRANS(OpenFail), #endif /* TRANS_SERVER */ #ifdef TRANS_REOPEN TRANS(PTSReopenServer), TRANS(ReopenFail), #endif #ifdef TRANS_SERVER NULL, /* ResetListener */ TRANS(PTSAccept) #endif /* TRANS_SERVER */ }, {"local", #ifdef TRANS_CLIENT TRANS(PTSOpenClient), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER TRANS(PTSOpenServer), #endif /* TRANS_SERVER */ #ifdef TRANS_CLIENT TRANS(OpenFail), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER TRANS(OpenFail), #endif /* TRANS_SERVER */ #ifdef TRANS_REOPEN TRANS(PTSReopenServer), TRANS(ReopenFail), #endif #ifdef TRANS_SERVER NULL, /* ResetListener */ TRANS(PTSAccept) #endif /* TRANS_SERVER */ }, {"pts", #ifdef TRANS_CLIENT TRANS(PTSOpenClient), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER TRANS(PTSOpenServer), #endif /* TRANS_SERVER */ #ifdef TRANS_CLIENT TRANS(OpenFail), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER TRANS(OpenFail), #endif /* TRANS_SERVER */ #ifdef TRANS_REOPEN TRANS(PTSReopenServer), TRANS(ReopenFail), #endif #ifdef TRANS_SERVER NULL, /* ResetListener */ TRANS(PTSAccept) #endif /* TRANS_SERVER */ }, #else /* !LOCAL_TRANS_PTS */ {"", #ifdef TRANS_CLIENT TRANS(NAMEDOpenClient), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER TRANS(NAMEDOpenServer), #endif /* TRANS_SERVER */ #ifdef TRANS_CLIENT TRANS(OpenFail), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER TRANS(OpenFail), #endif /* TRANS_SERVER */ #ifdef TRANS_REOPEN TRANS(NAMEDReopenServer), TRANS(ReopenFail), #endif #ifdef TRANS_SERVER TRANS(NAMEDResetListener), TRANS(NAMEDAccept) #endif /* TRANS_SERVER */ }, {"local", #ifdef TRANS_CLIENT TRANS(NAMEDOpenClient), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER TRANS(NAMEDOpenServer), #endif /* TRANS_SERVER */ #ifdef TRANS_CLIENT TRANS(OpenFail), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER TRANS(OpenFail), #endif /* TRANS_SERVER */ #ifdef TRANS_REOPEN TRANS(NAMEDReopenServer), TRANS(ReopenFail), #endif #ifdef TRANS_SERVER TRANS(NAMEDResetListener), TRANS(NAMEDAccept) #endif /* TRANS_SERVER */ }, #endif /* !LOCAL_TRANS_PTS */ #ifdef LOCAL_TRANS_NAMED {"named", #ifdef TRANS_CLIENT TRANS(NAMEDOpenClient), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER TRANS(NAMEDOpenServer), #endif /* TRANS_SERVER */ #ifdef TRANS_CLIENT TRANS(OpenFail), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER TRANS(OpenFail), #endif /* TRANS_SERVER */ #ifdef TRANS_REOPEN TRANS(NAMEDReopenServer), TRANS(ReopenFail), #endif #ifdef TRANS_SERVER TRANS(NAMEDResetListener), TRANS(NAMEDAccept) #endif /* TRANS_SERVER */ }, #ifdef __sun /* Alias "pipe" to named, since that's what Solaris called it */ {"pipe", #ifdef TRANS_CLIENT TRANS(NAMEDOpenClient), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER TRANS(NAMEDOpenServer), #endif /* TRANS_SERVER */ #ifdef TRANS_CLIENT TRANS(OpenFail), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER TRANS(OpenFail), #endif /* TRANS_SERVER */ #ifdef TRANS_REOPEN TRANS(NAMEDReopenServer), TRANS(ReopenFail), #endif #ifdef TRANS_SERVER TRANS(NAMEDResetListener), TRANS(NAMEDAccept) #endif /* TRANS_SERVER */ }, #endif /* __sun */ #endif /* LOCAL_TRANS_NAMED */ #ifdef LOCAL_TRANS_SCO {"sco", #ifdef TRANS_CLIENT TRANS(SCOOpenClient), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER TRANS(SCOOpenServer), #endif /* TRANS_SERVER */ #ifdef TRANS_CLIENT TRANS(OpenFail), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER TRANS(OpenFail), #endif /* TRANS_SERVER */ #ifdef TRANS_REOPEN TRANS(SCOReopenServer), TRANS(ReopenFail), #endif #ifdef TRANS_SERVER NULL, /* ResetListener */ TRANS(SCOAccept) #endif /* TRANS_SERVER */ }, #endif /* LOCAL_TRANS_SCO */ }; #define NUMTRANSPORTS (sizeof(LOCALtrans2devtab)/sizeof(LOCALtrans2dev)) static const char *XLOCAL=NULL; static char *workingXLOCAL=NULL; static char *freeXLOCAL=NULL; #if defined(__SCO__) #define DEF_XLOCAL "SCO:UNIX:PTS" #elif defined(__UNIXWARE__) #define DEF_XLOCAL "UNIX:PTS:NAMED:SCO" #elif defined(__sun) #define DEF_XLOCAL "UNIX:NAMED" #else #define DEF_XLOCAL "UNIX:PTS:NAMED:SCO" #endif static void TRANS(LocalInitTransports)(const char *protocol) { prmsg(3,"LocalInitTransports(%s)\n", protocol); if( strcmp(protocol,"local") && strcmp(protocol,"LOCAL") ) { workingXLOCAL = freeXLOCAL = strdup (protocol); } else { XLOCAL=(char *)getenv("XLOCAL"); if(XLOCAL==NULL) XLOCAL=DEF_XLOCAL; workingXLOCAL = freeXLOCAL = strdup (XLOCAL); } } static void TRANS(LocalEndTransports)(void) { prmsg(3,"LocalEndTransports()\n"); free(freeXLOCAL); freeXLOCAL = NULL; } #define TYPEBUFSIZE 32 #ifdef TRANS_CLIENT static LOCALtrans2dev * TRANS(LocalGetNextTransport)(void) { int i; char *typetocheck; prmsg(3,"LocalGetNextTransport()\n"); while(1) { if( workingXLOCAL == NULL || *workingXLOCAL == '\0' ) return NULL; typetocheck=workingXLOCAL; workingXLOCAL=strchr(workingXLOCAL,':'); if(workingXLOCAL && *workingXLOCAL) *workingXLOCAL++='\0'; for(i=0;i #endif /* * Make sure 'host' is really local. */ static int HostReallyLocal (const char *host) { /* * The 'host' passed to this function may have been generated * by either uname() or gethostname(). We try both if possible. */ #ifdef NEED_UTSNAME struct utsname name; #endif char buf[256]; #ifdef NEED_UTSNAME if (uname (&name) >= 0 && strcmp (host, name.nodename) == 0) return (1); #endif buf[0] = '\0'; (void) gethostname (buf, 256); buf[255] = '\0'; if (strcmp (host, buf) == 0) return (1); return (0); } static XtransConnInfo TRANS(LocalOpenClient)(int type, const char *protocol, const char *host, const char *port) { LOCALtrans2dev *transptr; XtransConnInfo ciptr; int index; prmsg(3,"LocalOpenClient()\n"); /* * Make sure 'host' is really local. If not, we return failure. * The reason we make this check is because a process may advertise * a "local" address for which it can accept connections, but if a * process on a remote machine tries to connect to this address, * we know for sure it will fail. */ if (strcmp (host, "unix") != 0 && !HostReallyLocal (host)) { prmsg (1, "LocalOpenClient: Cannot connect to non-local host %s\n", host); return NULL; } #if defined(X11_t) /* * X has a well known port, that is transport dependant. It is easier * to handle it here, than try and come up with a transport independent * representation that can be passed in and resolved the usual way. * * The port that is passed here is really a string containing the idisplay * from ConnectDisplay(). Since that is what we want for the local transports, * we don't have to do anything special. */ #endif /* X11_t */ if( (ciptr = calloc(1,sizeof(struct _XtransConnInfo))) == NULL ) { prmsg(1,"LocalOpenClient: calloc(1,%lu) failed\n", sizeof(struct _XtransConnInfo)); return NULL; } ciptr->fd = -1; TRANS(LocalInitTransports)(protocol); index = 0; for(transptr=TRANS(LocalGetNextTransport)(); transptr!=NULL;transptr=TRANS(LocalGetNextTransport)(), index++) { switch( type ) { case XTRANS_OPEN_COTS_CLIENT: ciptr->fd=transptr->devcotsopenclient(ciptr,port); break; case XTRANS_OPEN_COTS_SERVER: prmsg(1, "LocalOpenClient: Should not be opening a server with this function\n"); break; default: prmsg(1, "LocalOpenClient: Unknown Open type %d\n", type); } if( ciptr->fd >= 0 ) break; } TRANS(LocalEndTransports)(); if( ciptr->fd < 0 ) { free(ciptr); return NULL; } ciptr->priv=(char *)transptr; ciptr->index = index; return ciptr; } #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER static XtransConnInfo TRANS(LocalOpenServer)(int type, const char *protocol, const char *host _X_UNUSED, const char *port) { int i; XtransConnInfo ciptr; prmsg(2,"LocalOpenServer(%d,%s,%s)\n", type, protocol, port); #if defined(X11_t) /* * For X11, the port will be in the format xserverN where N is the * display number. All of the local connections just need to know * the display number because they don't do any name resolution on * the port. This just truncates port to the display portion. */ #endif /* X11_t */ if( (ciptr = calloc(1,sizeof(struct _XtransConnInfo))) == NULL ) { prmsg(1,"LocalOpenServer: calloc(1,%lu) failed\n", sizeof(struct _XtransConnInfo)); return NULL; } for(i=1;ifd=LOCALtrans2devtab[i].devcotsopenserver(ciptr,port); break; default: prmsg(1,"LocalOpenServer: Unknown Open type %d\n", type ); } if( ciptr->fd >= 0 ) { ciptr->priv=(char *)&LOCALtrans2devtab[i]; ciptr->index=i; ciptr->flags = 1 | (ciptr->flags & TRANS_KEEPFLAGS); return ciptr; } } free(ciptr); return NULL; } #endif /* TRANS_SERVER */ #ifdef TRANS_REOPEN static XtransConnInfo TRANS(LocalReopenServer)(int type, int index, int fd, const char *port) { XtransConnInfo ciptr; int stat = 0; prmsg(2,"LocalReopenServer(%d,%d,%d)\n", type, index, fd); if( (ciptr = calloc(1,sizeof(struct _XtransConnInfo))) == NULL ) { prmsg(1,"LocalReopenServer: calloc(1,%lu) failed\n", sizeof(struct _XtransConnInfo)); return NULL; } ciptr->fd = fd; switch( type ) { case XTRANS_OPEN_COTS_SERVER: stat = LOCALtrans2devtab[index].devcotsreopenserver(ciptr,fd,port); break; default: prmsg(1,"LocalReopenServer: Unknown Open type %d\n", type ); } if( stat > 0 ) { ciptr->priv=(char *)&LOCALtrans2devtab[index]; ciptr->index=index; ciptr->flags = 1 | (ciptr->flags & TRANS_KEEPFLAGS); return ciptr; } free(ciptr); return NULL; } #endif /* TRANS_REOPEN */ /* * This is the Local implementation of the X Transport service layer */ #ifdef TRANS_CLIENT static XtransConnInfo TRANS(LocalOpenCOTSClient)(Xtransport *thistrans _X_UNUSED, const char *protocol, const char *host, const char *port) { prmsg(2,"LocalOpenCOTSClient(%s,%s,%s)\n",protocol,host,port); return TRANS(LocalOpenClient)(XTRANS_OPEN_COTS_CLIENT, protocol, host, port); } #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER static XtransConnInfo TRANS(LocalOpenCOTSServer)(Xtransport *thistrans, const char *protocol, const char *host, const char *port) { char *typetocheck = NULL; int found = 0; prmsg(2,"LocalOpenCOTSServer(%s,%s,%s)\n",protocol,host,port); /* Check if this local type is in the XLOCAL list */ TRANS(LocalInitTransports)("local"); typetocheck = workingXLOCAL; while (typetocheck && !found) { #ifndef HAVE_STRCASECMP int j; char typebuf[TYPEBUFSIZE]; #endif workingXLOCAL = strchr(workingXLOCAL, ':'); if (workingXLOCAL && *workingXLOCAL) *workingXLOCAL++ = '\0'; #ifndef HAVE_STRCASECMP strncpy(typebuf, typetocheck, TYPEBUFSIZE); for (j = 0; j < TYPEBUFSIZE; j++) if (isupper(typebuf[j])) typebuf[j] = tolower(typebuf[j]); if (!strcmp(thistrans->TransName, typebuf)) #else if (!strcasecmp(thistrans->TransName, typetocheck)) #endif found = 1; typetocheck = workingXLOCAL; } TRANS(LocalEndTransports)(); if (!found) { prmsg(3,"LocalOpenCOTSServer: disabling %s\n",thistrans->TransName); thistrans->flags |= TRANS_DISABLED; return NULL; } return TRANS(LocalOpenServer)(XTRANS_OPEN_COTS_SERVER, protocol, host, port); } #endif /* TRANS_SERVER */ #ifdef TRANS_REOPEN static XtransConnInfo TRANS(LocalReopenCOTSServer)(Xtransport *thistrans, int fd, const char *port) { int index; prmsg(2,"LocalReopenCOTSServer(%d,%s)\n", fd, port); for(index=1;indexTransName, LOCALtrans2devtab[index].transname) == 0 ) break; } if (index >= NUMTRANSPORTS) { return (NULL); } return TRANS(LocalReopenServer)(XTRANS_OPEN_COTS_SERVER, index, fd, port); } #endif /* TRANS_REOPEN */ static int TRANS(LocalSetOption)(XtransConnInfo ciptr, int option, int arg) { prmsg(2,"LocalSetOption(%d,%d,%d)\n",ciptr->fd,option,arg); return -1; } #ifdef TRANS_SERVER static int TRANS(LocalCreateListener)(XtransConnInfo ciptr, const char *port, unsigned int flags _X_UNUSED) { prmsg(2,"LocalCreateListener(%p->%d,%s)\n",ciptr,ciptr->fd,port); return 0; } static int TRANS(LocalResetListener)(XtransConnInfo ciptr) { LOCALtrans2dev *transptr; prmsg(2,"LocalResetListener(%p)\n",ciptr); transptr=(LOCALtrans2dev *)ciptr->priv; if (transptr->devreset != NULL) { return transptr->devreset(ciptr); } return TRANS_RESET_NOOP; } static XtransConnInfo TRANS(LocalAccept)(XtransConnInfo ciptr, int *status) { XtransConnInfo newciptr; LOCALtrans2dev *transptr; prmsg(2,"LocalAccept(%p->%d)\n", ciptr, ciptr->fd); transptr=(LOCALtrans2dev *)ciptr->priv; if( (newciptr = calloc(1,sizeof(struct _XtransConnInfo)))==NULL ) { prmsg(1,"LocalAccept: calloc(1,%lu) failed\n", sizeof(struct _XtransConnInfo)); *status = TRANS_ACCEPT_BAD_MALLOC; return NULL; } newciptr->fd=transptr->devaccept(ciptr,newciptr,status); if( newciptr->fd < 0 ) { free(newciptr); return NULL; } newciptr->priv=(char *)transptr; newciptr->index = ciptr->index; *status = 0; return newciptr; } #endif /* TRANS_SERVER */ #ifdef TRANS_CLIENT static int TRANS(LocalConnect)(XtransConnInfo ciptr, const char *host _X_UNUSED, const char *port) { prmsg(2,"LocalConnect(%p->%d,%s)\n", ciptr, ciptr->fd, port); return 0; } #endif /* TRANS_CLIENT */ static int TRANS(LocalBytesReadable)(XtransConnInfo ciptr, BytesReadable_t *pend ) { prmsg(2,"LocalBytesReadable(%p->%d,%p)\n", ciptr, ciptr->fd, pend); #if defined(SCO325) return ioctl(ciptr->fd, I_NREAD, (char *)pend); #else return ioctl(ciptr->fd, FIONREAD, (char *)pend); #endif } static int TRANS(LocalRead)(XtransConnInfo ciptr, char *buf, int size) { prmsg(2,"LocalRead(%d,%p,%d)\n", ciptr->fd, buf, size ); return read(ciptr->fd,buf,size); } static int TRANS(LocalWrite)(XtransConnInfo ciptr, char *buf, int size) { prmsg(2,"LocalWrite(%d,%p,%d)\n", ciptr->fd, buf, size ); return write(ciptr->fd,buf,size); } static int TRANS(LocalReadv)(XtransConnInfo ciptr, struct iovec *buf, int size) { prmsg(2,"LocalReadv(%d,%p,%d)\n", ciptr->fd, buf, size ); return READV(ciptr,buf,size); } static int TRANS(LocalWritev)(XtransConnInfo ciptr, struct iovec *buf, int size) { prmsg(2,"LocalWritev(%d,%p,%d)\n", ciptr->fd, buf, size ); return WRITEV(ciptr,buf,size); } static int TRANS(LocalDisconnect)(XtransConnInfo ciptr) { prmsg(2,"LocalDisconnect(%p->%d)\n", ciptr, ciptr->fd); return 0; } static int TRANS(LocalClose)(XtransConnInfo ciptr) { struct sockaddr_un *sockname=(struct sockaddr_un *) ciptr->addr; int ret; prmsg(2,"LocalClose(%p->%d)\n", ciptr, ciptr->fd ); ret=close(ciptr->fd); if(ciptr->flags && sockname && sockname->sun_family == AF_UNIX && sockname->sun_path[0] ) { if (!(ciptr->flags & TRANS_NOUNLINK)) unlink(sockname->sun_path); } return ret; } static int TRANS(LocalCloseForCloning)(XtransConnInfo ciptr) { int ret; prmsg(2,"LocalCloseForCloning(%p->%d)\n", ciptr, ciptr->fd ); /* Don't unlink path */ ret=close(ciptr->fd); return ret; } /* * MakeAllCOTSServerListeners() will go through the entire Xtransports[] * array defined in Xtrans.c and try to OpenCOTSServer() for each entry. * We will add duplicate entries to that table so that the OpenCOTSServer() * function will get called once for each type of local transport. * * The TransName is in lowercase, so it will never match during a normal * call to SelectTransport() in Xtrans.c. */ #ifdef TRANS_SERVER static const char * local_aliases[] = { # ifdef LOCAL_TRANS_PTS "pts", # endif "named", # ifdef __sun "pipe", /* compatibility with Solaris Xlib */ # endif # ifdef LOCAL_TRANS_SCO "sco", # endif NULL }; #endif Xtransport TRANS(LocalFuncs) = { /* Local Interface */ "local", TRANS_ALIAS | TRANS_LOCAL, #ifdef TRANS_CLIENT TRANS(LocalOpenCOTSClient), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER local_aliases, TRANS(LocalOpenCOTSServer), #endif /* TRANS_SERVER */ #ifdef TRANS_REOPEN TRANS(LocalReopenCOTSServer), #endif TRANS(LocalSetOption), #ifdef TRANS_SERVER TRANS(LocalCreateListener), TRANS(LocalResetListener), TRANS(LocalAccept), #endif /* TRANS_SERVER */ #ifdef TRANS_CLIENT TRANS(LocalConnect), #endif /* TRANS_CLIENT */ TRANS(LocalBytesReadable), TRANS(LocalRead), TRANS(LocalWrite), TRANS(LocalReadv), TRANS(LocalWritev), #if XTRANS_SEND_FDS TRANS(LocalSendFdInvalid), TRANS(LocalRecvFdInvalid), #endif TRANS(LocalDisconnect), TRANS(LocalClose), TRANS(LocalCloseForCloning), }; #ifdef LOCAL_TRANS_PTS Xtransport TRANS(PTSFuncs) = { /* Local Interface */ "pts", TRANS_LOCAL, #ifdef TRANS_CLIENT TRANS(LocalOpenCOTSClient), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER NULL, TRANS(LocalOpenCOTSServer), #endif /* TRANS_SERVER */ #ifdef TRANS_REOPEN TRANS(LocalReopenCOTSServer), #endif TRANS(LocalSetOption), #ifdef TRANS_SERVER TRANS(LocalCreateListener), TRANS(LocalResetListener), TRANS(LocalAccept), #endif /* TRANS_SERVER */ #ifdef TRANS_CLIENT TRANS(LocalConnect), #endif /* TRANS_CLIENT */ TRANS(LocalBytesReadable), TRANS(LocalRead), TRANS(LocalWrite), TRANS(LocalReadv), TRANS(LocalWritev), #if XTRANS_SEND_FDS TRANS(LocalSendFdInvalid), TRANS(LocalRecvFdInvalid), #endif TRANS(LocalDisconnect), TRANS(LocalClose), TRANS(LocalCloseForCloning), }; #endif /* LOCAL_TRANS_PTS */ #ifdef LOCAL_TRANS_NAMED Xtransport TRANS(NAMEDFuncs) = { /* Local Interface */ "named", TRANS_LOCAL, #ifdef TRANS_CLIENT TRANS(LocalOpenCOTSClient), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER NULL, TRANS(LocalOpenCOTSServer), #endif /* TRANS_SERVER */ #ifdef TRANS_REOPEN TRANS(LocalReopenCOTSServer), #endif TRANS(LocalSetOption), #ifdef TRANS_SERVER TRANS(LocalCreateListener), TRANS(LocalResetListener), TRANS(LocalAccept), #endif /* TRANS_SERVER */ #ifdef TRANS_CLIENT TRANS(LocalConnect), #endif /* TRANS_CLIENT */ TRANS(LocalBytesReadable), TRANS(LocalRead), TRANS(LocalWrite), TRANS(LocalReadv), TRANS(LocalWritev), #if XTRANS_SEND_FDS TRANS(LocalSendFdInvalid), TRANS(LocalRecvFdInvalid), #endif TRANS(LocalDisconnect), TRANS(LocalClose), TRANS(LocalCloseForCloning), }; #ifdef __sun Xtransport TRANS(PIPEFuncs) = { /* Local Interface */ "pipe", TRANS_ALIAS | TRANS_LOCAL, #ifdef TRANS_CLIENT TRANS(LocalOpenCOTSClient), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER NULL, TRANS(LocalOpenCOTSServer), #endif /* TRANS_SERVER */ #ifdef TRANS_REOPEN TRANS(LocalReopenCOTSServer), #endif TRANS(LocalSetOption), #ifdef TRANS_SERVER TRANS(LocalCreateListener), TRANS(LocalResetListener), TRANS(LocalAccept), #endif /* TRANS_SERVER */ #ifdef TRANS_CLIENT TRANS(LocalConnect), #endif /* TRANS_CLIENT */ TRANS(LocalBytesReadable), TRANS(LocalRead), TRANS(LocalWrite), TRANS(LocalReadv), TRANS(LocalWritev), #if XTRANS_SEND_FDS TRANS(LocalSendFdInvalid), TRANS(LocalRecvFdInvalid), #endif TRANS(LocalDisconnect), TRANS(LocalClose), TRANS(LocalCloseForCloning), }; #endif /* __sun */ #endif /* LOCAL_TRANS_NAMED */ #ifdef LOCAL_TRANS_SCO Xtransport TRANS(SCOFuncs) = { /* Local Interface */ "sco", TRANS_LOCAL, #ifdef TRANS_CLIENT TRANS(LocalOpenCOTSClient), #endif /* TRANS_CLIENT */ #ifdef TRANS_SERVER NULL, TRANS(LocalOpenCOTSServer), #endif /* TRANS_SERVER */ #ifdef TRANS_REOPEN TRANS(LocalReopenCOTSServer), #endif TRANS(LocalSetOption), #ifdef TRANS_SERVER TRANS(LocalCreateListener), TRANS(LocalResetListener), TRANS(LocalAccept), #endif /* TRANS_SERVER */ #ifdef TRANS_CLIENT TRANS(LocalConnect), #endif /* TRANS_CLIENT */ TRANS(LocalBytesReadable), TRANS(LocalRead), TRANS(LocalWrite), TRANS(LocalReadv), TRANS(LocalWritev), #if XTRANS_SEND_FDS TRANS(LocalSendFdInvalid), TRANS(LocalRecvFdInvalid), #endif TRANS(LocalDisconnect), TRANS(LocalClose), TRANS(LocalCloseForCloning), }; #endif /* LOCAL_TRANS_SCO */