/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ /* * Copyright 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #include "mt.h" #include "uucp.h" static void alarmtr(int); static jmp_buf Sjbuf; static char *fdig(char *); #ifndef SMALL static char *strecpy(char *, char *, char *); #endif static int interface(const char *); static int fd_mklock(int); static int getdialline(char *, int); static int chat(int, char *[], int, char *, char *); static void fixline(), fd_rmlock(); static void translate(char *, char *); static int gdial(char *, char *[], int); static int Modemctrl; static unsigned connecttime; static int (*Setup)(); /* * to add a new caller: * declare the function that knows how to call on the device, * add a line to the callers table giving the name of the device * (from Devices file) and the name of the function * add the function to the end of this file */ #ifdef TLI static int tlicall(char *[], char *[]); #endif /* TLI */ static struct caller Caller[] = { #ifdef TLI {"TLI", tlicall}, /* AT&T Transport Layer Interface */ #ifdef TLIS {"TLIS", tlicall}, /* AT&T Transport Layer Interface */ #endif /* TLIS */ #endif /* TLI */ {NULL, NULL} /* this line must be last */ }; /* * exphone - expand phone number for given prefix and number * * return code - none */ static void exphone(char *in, char *out) { FILE *fn; char pre[MAXPH], npart[MAXPH], tpre[MAXPH], p[MAXPH]; char buf[BUFSIZ]; char *s1; if (!isalpha(*in)) { (void) strcpy(out, in); return; } s1 = pre; while (isalpha(*in)) *s1++ = *in++; *s1 = NULLCHAR; s1 = npart; while (*in != NULLCHAR) *s1++ = *in++; *s1 = NULLCHAR; tpre[0] = NULLCHAR; fn = fopen(DIALCODES, "rF"); if (fn != NULL) { while (fgets(buf, BUFSIZ, fn)) { if (sscanf(buf, "%60s%60s", p, tpre) < 1) continue; if (EQUALS(p, pre)) break; tpre[0] = NULLCHAR; } (void) fclose(fn); } (void) strcpy(out, tpre); (void) strcat(out, npart); } /* * repphone - Replace \D and \T sequences in arg with phone * expanding and translating as appropriate. */ static char * repphone(char *arg, char *phone, char *trstr) { static char *pbuf; /* dynamically allocated below */ char *fp, *tp; if (pbuf == NULL) { pbuf = malloc(2*(MAXPH+2)); if (pbuf == NULL) return (arg); } for (tp = pbuf; *arg; arg++) { if (*arg != '\\') { *tp++ = *arg; continue; } else { switch (*(arg+1)) { case 'T': exphone(phone, tp); translate(trstr, tp); for (; *tp; tp++) ; arg++; break; case 'D': for (fp = phone; *tp = *fp++; tp++) ; arg++; break; default: *tp++ = *arg; break; } } } *tp = '\0'; return (pbuf); } static uint_t saved_mode; static char saved_dcname[20]; static int pop_push(int); static void setdevcfg(char *, char *); static void ttygenbrk(int); /* * processdev - Process a line from the Devices file * * return codes: * file descriptor - succeeded * FAIL - failed */ static int processdev(char *flds[], char *dev[]) { int dcf = -1; struct caller *ca; char *args[D_MAX+1], dcname[20]; char **sdev; int nullfd; char *phonecl; /* clear phone string */ char phoneex[2*(MAXPH+2)]; /* expanded phone string */ struct termio tty_orig; int ret_orig = -1; sdev = dev; /* set up default "break" routine */ genbrk = ttygenbrk; /* initialize Devconfig info */ DEBUG(5, "processdev: calling setdevcfg(%s, ", Progname); DEBUG(5, "%s)\n", flds[F_TYPE]); setdevcfg(Progname, flds[F_TYPE]); for (ca = Caller; ca->CA_type != NULL; ca++) { /* This will find built-in caller functions */ if (EQUALS(ca->CA_type, dev[D_CALLER])) { DEBUG(5, "Internal caller type %s\n", dev[D_CALLER]); if (dev[D_ARG] == NULL) { /* if NULL - assume translate */ /* needed for for loop later to mark the end */ dev[D_ARG+1] = NULL; dev[D_ARG] = "\\T"; } dev[D_ARG] = repphone(dev[D_ARG], flds[F_PHONE], ""); if ((dcf = (*(ca->CA_caller))(flds, dev)) < 0) return (dcf); if (interface(ca->CA_type)) { DEBUG(5, "interface(%s) failed", ca->CA_type); Uerror = SS_DEVICE_FAILED; /* restore vanilla unix interface */ (void) interface("UNIX"); return (FAIL); } dev += 2; /* Skip to next CALLER and ARG */ break; } } if (dcf == -1) { /* Here if not a built-in caller function */ /* We do locking (file and advisory) after open */ /* * Open the line */ if (*dev[D_LINE] != '/') { (void) snprintf(dcname, sizeof (dcname), "/dev/%s", dev[D_LINE]); } else { (void) strcpy(dcname, dev[D_LINE]); } /* take care of the possible partial open fd */ (void) close(nullfd = open("/", O_RDONLY)); if (setjmp(Sjbuf)) { (void) close(nullfd); DEBUG(1, "generic open timeout\n%s", ""); logent("generic open", "TIMEOUT"); Uerror = SS_CANT_ACCESS_DEVICE; goto bad; } (void) signal(SIGALRM, alarmtr); (void) alarm(10); if (Modemctrl) { DEBUG(7, "opening with O_NDELAY set\n%s", ""); dcf = open(dcname, (O_RDWR | O_NDELAY)); saved_mode = O_RDWR | O_NDELAY; } else { dcf = open(dcname, O_RDWR); saved_mode = O_RDWR; } (void) strcpy(saved_dcname, dcname); (void) alarm(0); if (dcf < 0) { DEBUG(1, "generic open failed, errno = %d\n", errno); (void) close(nullfd); logent("generic open", "FAILED"); Uerror = SS_CANT_ACCESS_DEVICE; goto bad; } /* check locks BEFORE modifying the stream */ if (fd_mklock(dcf) != SUCCESS) { DEBUG(1, "failed to lock device %s\n", dcname); Uerror = SS_LOCKED_DEVICE; goto bad; } if (Modemctrl) { DEBUG(7, "clear O_NDELAY\n%s", ""); if (fcntl(dcf, F_SETFL, (fcntl(dcf, F_GETFL, 0) & ~O_NDELAY)) < 0) { DEBUG(7, "clear O_NDELAY failed, errno %d\n", errno); Uerror = SS_DEVICE_FAILED; goto bad; } } } if ((*Setup)(MASTER, &dcf, &dcf)) { /* any device|system lock files we should remove? */ DEBUG(5, "MASTER Setup failed%s", ""); Uerror = SS_DEVICE_FAILED; goto bad; } /* configure any requested streams modules */ if (!pop_push(dcf)) { DEBUG(5, "STREAMS module configuration failed%s\n", ""); Uerror = SS_DEVICE_FAILED; goto bad; } /* save initial state of line in case script fails */ ret_orig = ioctl(dcf, TCGETA, &tty_orig); /* use sdev[] since dev[] is incremented for internal callers */ fixline(dcf, atoi(fdig(sdev[D_CLASS])), D_DIRECT); /* * Now loop through the remaining callers and chat * according to scripts in dialers file. */ for (; dev[D_CALLER] != NULL; dev += 2) { int w; /* * Scan Dialers file to find an entry */ if ((w = gdial(dev[D_CALLER], args, D_MAX)) < 1) { logent("generic call to gdial", "FAILED"); Uerror = SS_CANT_ACCESS_DEVICE; goto bad; } if (w <= 2) /* do nothing - no chat */ break; /* * Translate the phone number */ if (dev[D_ARG] == NULL) { /* if NULL - assume no translation */ /* needed for for loop to mark the end */ dev[D_ARG+1] = NULL; dev[D_ARG] = "\\D"; } phonecl = repphone(dev[D_ARG], flds[F_PHONE], args[1]); exphone(phonecl, phoneex); translate(args[1], phoneex); /* * Chat */ if (chat(w-2, &args[2], dcf, phonecl, phoneex) != SUCCESS) { CDEBUG(5, "\nCHAT gdial(%s) FAILED\n", dev[D_CALLER]); Uerror = SS_CHAT_FAILED; goto bad; } } /* * Success at last! */ (void) strcpy(Dc, sdev[D_LINE]); return (dcf); bad: if (dcf >= 0) { /* reset line settings if we got them in the beginning */ if (ret_orig == 0) (void) ioctl(dcf, TCSETAW, &tty_orig); fd_rmlock(dcf); (void) close(dcf); } /* restore vanilla unix interface */ (void) interface("UNIX"); return (FAIL); } /* * clear_hup() clear the hangup state of the given device */ static int clear_hup(int dcf) { int ndcf; if ((ndcf = open(saved_dcname, saved_mode)) < 0) { return (FAIL); } if (ndcf != dcf) { (void) close(ndcf); } return (SUCCESS); } /* * translate the pairs of characters present in the first * string whenever the first of the pair appears in the second * string. */ static void translate(char *ttab, char *str) { char *s; for (; *ttab && *(ttab+1); ttab += 2) for (s = str; *s; s++) if (*ttab == *s) *s = *(ttab+1); } #define MAXLINE 512 static void dialreset(void); #ifndef SMALL static char *currdial(void); #endif /* * Get the information about the dialer. * gdial(type, arps, narps) * type -> type of dialer (e.g., penril) * arps -> array of pointers returned by gdial * narps -> number of elements in array returned by gdial * Return value: * -1 -> Can't open DIALERFILE * 0 -> requested type not found * >0 -> success - number of fields filled in */ static int gdial(char *type, char *arps[], int narps) { static char *info; /* dynamically allocated MAXLINE */ int na; DEBUG(2, "gdial(%s) called\n", type); if (info == NULL) { info = malloc(MAXLINE); if (info == NULL) { DEBUG(1, "malloc failed for info in gdial\n", 0); return (0); } } while (getdialline(info, MAXLINE)) { if ((info[0] == '#') || (info[0] == ' ') || (info[0] == '\t') || (info[0] == '\n')) continue; if ((na = getargs(info, arps, narps)) == 0) continue; if (EQUALS(arps[0], type)) { DEBUG(5, "Trying caller script '%s'", type); DEBUG(5, " from '%s'.\n", currdial()); dialreset(); bsfix(arps); return (na); } } DEBUG(1, "%s not found in Dialers file\n", type); dialreset(); return (0); } #ifdef TLI /* * * AT&T Transport Layer Interface * * expected in Devices * TLI line1 - - TLI * or * TLIS line1 - - TLIS * */ #include static void tfaillog(int fd, const char *s); #define CONNECT_ATTEMPTS 3 #define TFREE(p, type) if ((p)) (void) t_free((char *)(p), (type)) static struct netbuf *stoa(char *, struct netbuf *); /* * returns fd to remote uucp daemon */ /*ARGSUSED*/ static int tlicall(char *flds[], char *dev[]) { char addrbuf[ BUFSIZ ]; char devname[MAXNAMESIZE]; int fd; int i, j; struct t_bind *bind_ret = 0; struct t_info tinfo; struct t_call *sndcall = 0, *rcvcall = 0; if (dev[D_LINE][0] != '/') { /* dev holds device name relative to /dev */ (void) snprintf(devname, sizeof (devname), "/dev/%s", dev[D_LINE]); } else { /* dev holds full path name of device */ (void) strcpy(devname, dev[D_LINE]); } /* gimme local transport endpoint */ errno = t_errno = 0; if (setjmp(Sjbuf)) { DEBUG(1, "t_open timeout\n%s", ""); logent("t_open", "TIMEOUT"); Uerror = SS_NO_DEVICE; return (FAIL); } (void) signal(SIGALRM, alarmtr); (void) alarm(5); fd = t_open(devname, O_RDWR, &tinfo); (void) alarm(0); if (fd < 0) { tfaillog(fd, "t_open"); Uerror = SS_NO_DEVICE; return (FAIL); } if (fd_mklock(fd) != SUCCESS) { (void) t_close(fd); DEBUG(1, "tlicall: failed to lock device %s\n", devname); Uerror = SS_LOCKED_DEVICE; return (FAIL); } /* allocate tli structures */ errno = t_errno = 0; /* LINTED pointer cast */ if ((bind_ret = (struct t_bind *)t_alloc(fd, T_BIND, T_ALL)) == NULL || /* LINTED pointer cast */ (sndcall = (struct t_call *)t_alloc(fd, T_CALL, T_ALL)) == NULL || /* LINTED pointer cast */ (rcvcall = (struct t_call *)t_alloc(fd, T_CALL, T_ALL)) == NULL) { tfaillog(fd, "t_alloc"); TFREE(bind_ret, T_BIND); TFREE(sndcall, T_CALL); TFREE(rcvcall, T_CALL); Uerror = SS_NO_DEVICE; return (FAIL); } /* bind */ errno = t_errno = 0; if (t_bind(fd, (struct t_bind *)0, bind_ret) < 0) { tfaillog(fd, "t_bind"); TFREE(bind_ret, T_BIND); TFREE(sndcall, T_CALL); TFREE(rcvcall, T_CALL); Uerror = SS_NO_DEVICE; fd_rmlock(fd); (void) t_close(fd); return (FAIL); } DEBUG(5, "tlicall: bound to %s\n", bind_ret->addr.buf); /* * Prepare to connect. * * If address begins with "\x", "\X", "\o", or "\O", * assume is hexadecimal or octal address and use stoa() * to convert it. * * Else is usual uucico address -- only \N's left to process. * Walk thru connection address, changing \N's to NULLCHARs. * Note: If a NULLCHAR must be part of the connection address, * it must be overtly included in the address. One recommended * way is to do it in the Devices file, thusly: * Netname /dev/netport - - TLI \D\000 * bsfix() turns \000 into \N and then the loop below makes it a * real, included-in-the-length null-byte. * * The DEBUG must print the strecpy'd address (so that * non-printables will have been replaced with C escapes). */ DEBUG(5, "t_connect to addr \"%s\"\n", strecpy(addrbuf, dev[D_ARG], "\\")); if (dev[D_ARG][0] == '\\' && (dev[D_ARG][1] == 'x' || dev[D_ARG][1] == 'X' || dev[D_ARG][1] == 'o' || dev[D_ARG][1] == 'O')) { if (stoa(dev[D_ARG], &(sndcall->addr)) == NULL) { DEBUG(5, "tlicall: stoa failed\n%s", ""); logent("tlicall", "string-to-address failed"); TFREE(bind_ret, T_BIND); TFREE(sndcall, T_CALL); TFREE(rcvcall, T_CALL); Uerror = SS_NO_DEVICE; fd_rmlock(fd); (void) t_close(fd); return (FAIL); } } else { for (i = j = 0; i < BUFSIZ && dev[D_ARG][i] != NULLCHAR; ++i, ++j) { if (dev[D_ARG][i] == '\\' && dev[D_ARG][i+1] == 'N') { addrbuf[j] = NULLCHAR; ++i; } else { addrbuf[j] = dev[D_ARG][i]; } } sndcall->addr.buf = addrbuf; sndcall->addr.len = j; } if (setjmp(Sjbuf)) { DEBUG(4, "timeout tlicall\n%s", ""); logent("tlicall", "TIMEOUT"); TFREE(bind_ret, T_BIND); TFREE(sndcall, T_CALL); TFREE(rcvcall, T_CALL); Uerror = SS_NO_DEVICE; fd_rmlock(fd); (void) t_close(fd); return (FAIL); } (void) signal(SIGALRM, alarmtr); (void) alarm(connecttime); /* connect to the service -- some listeners can't handle */ /* multiple connect requests, so try it a few times */ errno = t_errno = 0; for (i = 0; i < CONNECT_ATTEMPTS; ++i) { if (t_connect(fd, sndcall, rcvcall) == 0) break; if ((t_errno == TLOOK) && (t_look(fd) == T_DISCONNECT)) { (void) t_rcvdis(fd, NULL); (void) alarm(0); } else { (void) alarm(0); tfaillog(fd, "t_connect"); TFREE(bind_ret, T_BIND); TFREE(sndcall, T_CALL); TFREE(rcvcall, T_CALL); Uerror = SS_DIAL_FAILED; fd_rmlock(fd); (void) t_close(fd); return (FAIL); } } (void) alarm(0); TFREE(bind_ret, T_BIND); TFREE(sndcall, T_CALL); TFREE(rcvcall, T_CALL); if (i == CONNECT_ATTEMPTS) { tfaillog(fd, "t_connect"); Uerror = SS_DIAL_FAILED; fd_rmlock(fd); (void) t_close(fd); return (FAIL); } errno = t_errno = 0; (void) strcpy(Dc, dev[D_CALLER]); return (fd); } #endif /* TLI */