/* * Adapted from: * Chat -- a program for automatic session establishment (i.e. dial * the phone and log in). * * The original author is: * * Karl Fox * Morning Star Technologies, Inc. * 1760 Zollinger Road * Columbus, OH 43221 * (614)451-1883 * */ #include #include #include #include #include #include #include #include #include #include #include #include #ifndef TERMIO #undef TERMIOS #define TERMIOS #endif #ifdef TERMIO #include #endif #ifdef TERMIOS #include #endif #define STR_LEN 1024 #ifndef SIGTYPE #define SIGTYPE void #endif #ifdef __STDC__ #undef __P #define __P(x) x #else #define __P(x) () #define const #endif #ifndef O_NONBLOCK #define O_NONBLOCK O_NDELAY #endif /*************** Micro getopt() *********************************************/ #define OPTION(c,v) (_O&2&&**v?*(*v)++:!c||_O&4?0:(!(_O&1)&& \ (--c,++v),_O=4,c&&**v=='-'&&v[0][1]?*++*v=='-'\ &&!v[0][1]?(--c,++v,0):(_O=2,*(*v)++):0)) #define OPTARG(c,v) (_O&2?**v||(++v,--c)?(_O=1,--c,*v++): \ (_O=4,(char*)0):(char*)0) #define OPTONLYARG(c,v) (_O&2&&**v?(_O=1,--c,*v++):(char*)0) #define ARG(c,v) (c?(--c,*v++):(char*)0) static int _O = 0; /* Internal state */ /*************** Micro getopt() *********************************************/ char *program_name; #define MAX_ABORTS 50 #define MAX_REPORTS 50 #define DEFAULT_CHAT_TIMEOUT 45 int verbose = 0; int to_log = 1; int to_stderr = 0; int Verbose = 0; int quiet = 0; int report = 0; int exit_code = 0; FILE* report_fp = (FILE *) 0; char *report_file = (char *) 0; char *chat_file = (char *) 0; int timeout = DEFAULT_CHAT_TIMEOUT; int have_tty_parameters = 0; #ifdef TERMIO #define term_parms struct termio #define get_term_param(param) ioctl(0, TCGETA, param) #define set_term_param(param) ioctl(0, TCSETA, param) struct termio saved_tty_parameters; #endif #ifdef TERMIOS #define term_parms struct termios #define get_term_param(param) tcgetattr(0, param) #define set_term_param(param) tcsetattr(0, TCSANOW, param) struct termios saved_tty_parameters; #endif char *abort_string[MAX_ABORTS], *fail_reason = (char *)0, fail_buffer[50]; int n_aborts = 0, abort_next = 0, timeout_next = 0; char *report_string[MAX_REPORTS] ; char report_buffer[50] ; int n_reports = 0, report_next = 0, report_gathering = 0 ; void *dup_mem __P((void *b, size_t c)); void *copy_of __P((char *s)); void usage __P((void)); void logv __P((void)); void logf __P((const char *str)); void logflush __P((void)); void fatal __P((const char *msg)); void sysfatal __P((const char *msg)); SIGTYPE sigalrm __P((int signo)); SIGTYPE sigint __P((int signo)); SIGTYPE sigterm __P((int signo)); SIGTYPE sighup __P((int signo)); void unalarm __P((void)); void init __P((void)); void set_tty_parameters __P((void)); void break_sequence __P((void)); void terminate __P((int status)); void do_file __P((char *chat_file)); int get_string __P((register char *string)); int put_string __P((register char *s)); int write_char __P((int c)); int put_char __P((int c)); int get_char __P((void)); void chat_send __P((register char *s)); char *character __P((int c)); void chat_expect __P((register char *s)); char *clean __P((register char *s, int sending)); void break_sequence __P((void)); void terminate __P((int status)); void die __P((void)); void *dup_mem(b, c) void *b; size_t c; { void *ans = malloc (c); if (!ans) { fatal ("memory error!\n"); } memcpy (ans, b, c); return ans; } void *copy_of (s) char *s; { return dup_mem (s, strlen (s) + 1); } /* * chat [ -v ] [ -t timeout ] [ -f chat-file ] [ -r report-file ] \ * [...[[expect[-say[-expect...]] say expect[-say[-expect]] ...]]] * * Perform a UUCP-dialer-like chat script on stdin and stdout. */ int main(argc, argv) int argc; char **argv; { int option; char *arg; program_name = *argv; tzset(); while ((option = OPTION(argc, argv))) { switch (option) { case 'v': ++verbose; break; case 'V': ++Verbose; break; case 's': ++to_stderr; break; case 'S': to_log=0; break; case 'f': if ((arg = OPTARG(argc, argv))) { chat_file = copy_of(arg); } else { usage(); } break; case 't': if ((arg = OPTARG(argc, argv))) { timeout = atoi(arg); } else { usage(); } break; case 'r': arg = OPTARG (argc, argv); if (arg) { if (report_fp != NULL) { fclose (report_fp); } report_file = copy_of (arg); report_fp = fopen (report_file, "a"); if (report_fp != NULL) { if (verbose) { fprintf (report_fp, "Opening \"%s\"...\n", report_file); } report = 1; } } break; default: usage(); break; } } /* * Default the report file to the stderr location */ if (report_fp == NULL) { report_fp = stderr; } if (to_log) { #ifdef ultrix openlog("chat", LOG_PID); #else openlog("chat", LOG_PID | LOG_NDELAY, LOG_LOCAL2); if (verbose) { setlogmask(LOG_UPTO(LOG_INFO)); } else { setlogmask(LOG_UPTO(LOG_WARNING)); } #endif } init(); if (chat_file != NULL) { arg = ARG(argc, argv); if (arg != NULL) { usage(); } else { do_file (chat_file); } } else { while ((arg = ARG(argc, argv))) { chat_expect(arg); if ((arg = ARG(argc, argv))) { chat_send(arg); } } } /* * Allow the last of the report string to be gathered before we terminate. */ while (report_gathering) { int c; c = get_char(); if (!iscntrl (c)) { int rep_len = strlen (report_buffer); report_buffer[rep_len] = c; report_buffer[rep_len + 1] = '\0'; } else { report_gathering = 0; fprintf (report_fp, "chat: %s\n", report_buffer); } } terminate(0); return(0); } /* * Process a chat script when read from a file. */ void do_file (chat_file) char *chat_file; { int linect, sendflg; char *sp, *arg, quote; char buf [STR_LEN]; FILE *cfp; cfp = fopen (chat_file, "r"); if (cfp == NULL) { if (to_log) { syslog (LOG_ERR, "%s -- open failed: %m", chat_file); } if (to_stderr) { extern int errno; fprintf(stderr, "%s -- open failed: %s\n", chat_file, strerror(errno)); } terminate (1); } linect = 0; sendflg = 0; while (fgets(buf, STR_LEN, cfp) != NULL) { sp = strchr (buf, '\n'); if (sp) { *sp = '\0'; } linect++; sp = buf; while (*sp != '\0') { if (*sp == ' ' || *sp == '\t') { ++sp; continue; } if (*sp == '"' || *sp == '\'') { quote = *sp++; arg = sp; while (*sp != quote) { if (*sp == '\0') { if (to_log) { syslog (LOG_ERR, "unterminated quote (line %d)", linect); } if (to_stderr) { fprintf(stderr, "unterminated quote (line %d)\n", linect); } terminate (1); } if (*sp++ == '\\') { if (*sp != '\0') { ++sp; } } } } else { arg = sp; while (*sp != '\0' && *sp != ' ' && *sp != '\t') { ++sp; } } if (*sp != '\0') { *sp++ = '\0'; } if (sendflg) { chat_send (arg); } else { chat_expect (arg); } sendflg = !sendflg; } } fclose (cfp); } /* * We got an error parsing the command line. */ void usage() { fprintf(stderr, "\ Usage: %s [-v] [-V] [-s] [-S] [-t timeout] [-r report-file] {-f chat-file | chat-script}\n", program_name); exit(1); } char line[256]; char *p; void logv() { if (to_log) { syslog (LOG_INFO, "%s", line); } if (to_stderr) { fprintf(stderr, "%s", line); } line[0] = 0; } void logf (str) const char *str; { p = line + strlen(line); strcat (p, str); if (str[strlen(str)-1] == '\n') { logv(); } } void logflush() { if (line[0] != 0) { logv(); } } /* * Terminate with an error. */ void die() { terminate(1); } /* * Print an error message and terminate. */ void fatal (msg) const char *msg; { if (to_log) { syslog(LOG_ERR, "%s", msg); } if (to_stderr) { fprintf(stderr, "%s\n", msg); } terminate(2); } /* * Print an error message along with the system error message and * terminate. */ void sysfatal (msg) const char *msg; { if (to_log) { syslog(LOG_ERR, "%s: %m", msg); } if (to_stderr) { extern int errno; fprintf(stderr, "%s: %s\n", msg, strerror(errno)); } terminate(2); } int alarmed = 0; SIGTYPE sigalrm(signo) int signo; { int flags; alarm(1); alarmed = 1; /* Reset alarm to avoid race window */ signal(SIGALRM, sigalrm); /* that can cause hanging in read() */ logflush(); if ((flags = fcntl(0, F_GETFL, 0)) == -1) { sysfatal("Can't get file mode flags on stdin"); } else { if (fcntl(0, F_SETFL, flags | O_NONBLOCK) == -1) { sysfatal("Can't set file mode flags on stdin"); } } if (verbose) { logf("alarm\n"); } } void unalarm() { int flags; if ((flags = fcntl(0, F_GETFL, 0)) == -1) { sysfatal("Can't get file mode flags on stdin"); } else { if (fcntl(0, F_SETFL, flags & ~O_NONBLOCK) == -1) { sysfatal("Can't set file mode flags on stdin"); } } } SIGTYPE sigint(signo) int signo; { fatal("SIGINT"); } SIGTYPE sigterm(signo) int signo; { fatal("SIGTERM"); } SIGTYPE sighup(signo) int signo; { fatal("SIGHUP"); } void init() { signal(SIGINT, sigint); signal(SIGTERM, sigterm); signal(SIGHUP, sighup); set_tty_parameters(); signal(SIGALRM, sigalrm); alarm(0); alarmed = 0; } void set_tty_parameters() { #if defined(get_term_param) term_parms t; if (get_term_param (&t) < 0) { sysfatal("Can't get terminal parameters"); } saved_tty_parameters = t; have_tty_parameters = 1; t.c_iflag |= IGNBRK | ISTRIP | IGNPAR; t.c_oflag = 0; t.c_lflag = 0; t.c_cc[VERASE] = t.c_cc[VKILL] = 0; t.c_cc[VMIN] = 1; t.c_cc[VTIME] = 0; if (set_term_param (&t) < 0) { sysfatal("Can't set terminal parameters"); } #endif } void break_sequence() { #ifdef TERMIOS tcsendbreak (0, 0); #endif } void terminate(status) int status; { if (report_file != (char *) 0 && report_fp != (FILE *) NULL) { if (verbose) { fprintf (report_fp, "Closing \"%s\".\n", report_file); } fclose (report_fp); report_fp = (FILE *) NULL; } #if defined(get_term_param) if (have_tty_parameters) { if (set_term_param (&saved_tty_parameters) < 0) { if (to_log) { syslog(LOG_ERR, "Can't restore terminal parameters: %m"); } if (to_stderr) { extern int errno; fprintf(stderr, "Can't restore terminal parameters: %s\n", strerror(errno)); } exit(1); } } #endif exit(status); } /* * 'Clean up' this string. */ char *clean(s, sending) register char *s; int sending; { char temp[STR_LEN], cur_chr; register char *s1; int add_return = sending; #define isoctal(chr) (((chr) >= '0') && ((chr) <= '7')) s1 = temp; while (*s) { cur_chr = *s++; if (cur_chr == '^') { cur_chr = *s++; if (cur_chr == '\0') { *s1++ = '^'; break; } cur_chr &= 0x1F; if (cur_chr != 0) { *s1++ = cur_chr; } continue; } if (cur_chr != '\\') { *s1++ = cur_chr; continue; } cur_chr = *s++; if (cur_chr == '\0') { if (sending) { *s1++ = '\\'; *s1++ = '\\'; } break; } switch (cur_chr) { case 'b': *s1++ = '\b'; break; case 'c': if (sending && *s == '\0') { add_return = 0; } else { *s1++ = cur_chr; } break; case '\\': case 'K': case 'p': case 'd': if (sending) { *s1++ = '\\'; } *s1++ = cur_chr; break; case 'q': quiet = ! quiet; break; case 'r': *s1++ = '\r'; break; case 'n': *s1++ = '\n'; break; case 's': *s1++ = ' '; break; case 't': *s1++ = '\t'; break; case 'N': if (sending) { *s1++ = '\\'; *s1++ = '\0'; } else { *s1++ = 'N'; } break; default: if (isoctal (cur_chr)) { cur_chr &= 0x07; if (isoctal (*s)) { cur_chr <<= 3; cur_chr |= *s++ - '0'; if (isoctal (*s)) { cur_chr <<= 3; cur_chr |= *s++ - '0'; } } if (cur_chr != 0 || sending) { if (sending && (cur_chr == '\\' || cur_chr == 0)) { *s1++ = '\\'; } *s1++ = cur_chr; } break; } if (sending) { *s1++ = '\\'; } *s1++ = cur_chr; break; } } if (add_return) { *s1++ = '\r'; } *s1++ = '\0'; /* guarantee closure */ *s1++ = '\0'; /* terminate the string */ return dup_mem (temp, (size_t) (s1 - temp)); /* may have embedded nuls */ } /* * A modified version of 'strtok'. This version skips \ sequences. */ char *expect_strtok (s, term) char *s, *term; { static char *str = ""; static int escape_flag = 0; char *result; /* * If a string was specified then do initial processing. */ if (s) { str = s; } /* * If this is the escape flag then reset it and ignore the character. */ if (*str) { result = str; } else { result = (char *) 0; } escape_flag = 0; while (*str) { if (escape_flag) { escape_flag = 0; ++str; continue; } if (*str == '\\') { ++str; escape_flag = 1; continue; } /* * If this is not in the termination string, continue. */ if (strchr (term, *str) == (char *) 0) { ++str; continue; } /* * This is the terminator. Mark the end of the string and stop. */ *str++ = '\0'; break; } return (result); } /* * Process the expect string */ void chat_expect (s) char *s; { char *expect; char *reply; if (strcmp(s, "ABORT") == 0) { ++abort_next; return; } if (strcmp(s, "REPORT") == 0) { ++report_next; return; } if (strcmp(s, "TIMEOUT") == 0) { ++timeout_next; return; } /* * Fetch the expect and reply string. */ for (;;) { expect = expect_strtok (s, "-"); s = (char *) 0; if (expect == (char *) 0) { return; } reply = expect_strtok (s, "-"); /* * Handle the expect string. If successful then exit. */ if (get_string (expect)) { return; } /* * If there is a sub-reply string then send it. Otherwise any condition * is terminal. */ if (reply == (char *) 0 || exit_code != 3) { break; } chat_send (reply); } /* * The expectation did not occur. This is terminal. */ if (fail_reason) { logf("Failed ("); logf(fail_reason); logf(")\n"); } else { logf("Failed\n"); } terminate(exit_code); } /* * Translate the input character to the appropriate string for printing * the data. */ char *character(c) int c; { static char string[10]; char *meta; meta = (c & 0x80) ? "M-" : ""; c &= 0x7F; if (c < 32) { sprintf(string, "%s^%c", meta, (int)c + '@'); } else { if (c == 127) { sprintf(string, "%s^?", meta); } else { sprintf(string, "%s%c", meta, c); } } return (string); } /* * process the reply string */ void chat_send (s) register char *s; { if (abort_next) { char *s1; abort_next = 0; if (n_aborts >= MAX_ABORTS) { fatal("Too many ABORT strings"); } s1 = clean(s, 0); if (strlen(s1) > strlen(s) || strlen(s1) + 1 > sizeof(fail_buffer)) { if (to_log) { syslog(LOG_WARNING, "Illegal or too-long ABORT string ('%s')", s); } if (to_stderr) { fprintf(stderr, "Illegal or too-long ABORT string ('%s')\n", s); } die(); } abort_string[n_aborts++] = s1; if (verbose) { logf("abort on ("); for (s1 = s; *s1; ++s1) { logf(character(*s1)); } logf(")\n"); } return; } if (report_next) { char *s1; report_next = 0; if (n_reports >= MAX_REPORTS) { fatal("Too many REPORT strings"); } s1 = clean(s, 0); if (strlen(s1) > strlen(s) || strlen(s1) > sizeof fail_buffer - 1) { if (to_log) { syslog(LOG_WARNING, "Illegal or too-long REPORT string ('%s')", s); } if (to_stderr) { fprintf(stderr, "Illegal or too-long REPORT string ('%s')\n", s); } die(); } report_string[n_reports++] = s1; if (verbose) { logf("report ("); s1 = s; while (*s1) { logf(character(*s1)); ++s1; } logf(")\n"); } return; } if (timeout_next) { timeout_next = 0; timeout = atoi(s); if (timeout <= 0) { timeout = DEFAULT_CHAT_TIMEOUT; } if (verbose) { char scratch[14]; logf("timeout set to "); sprintf(scratch, "%d", timeout); logf(scratch); logf(" seconds\n"); } return; } if (strcmp(s, "EOT") == 0) { s = "^D\\c"; } else { if (strcmp(s, "BREAK") == 0) { s = "\\K\\c"; } } if (!put_string(s)) { logf("Failed\n"); terminate(1); } } int get_char() { int status; char c; status = read(0, &c, 1); switch (status) { case 1: return ((int)c & 0x7F); default: { if (to_log) { syslog(LOG_WARNING, "warning: read() on stdin returned %d", status); } if (to_stderr) { fprintf(stderr, "warning: read() on stdin returned %d\n", status); } } case -1: if ((status = fcntl(0, F_GETFL, 0)) == -1) { sysfatal("Can't get file mode flags on stdin"); } else { if (fcntl(0, F_SETFL, status & ~O_NONBLOCK) == -1) { sysfatal("Can't set file mode flags on stdin"); } } return (-1); } } int put_char(c) int c; { int status; char ch = c; usleep(10000); /* inter-character typing delay (?) */ status = write(1, &ch, 1); switch (status) { case 1: return (0); default: if (to_log) { syslog(LOG_WARNING, "warning: write() on stdout returned %d", status); } if (to_stderr) { fprintf(stderr, "warning: write() on stdout returned %d\n", status); } case -1: if ((status = fcntl(0, F_GETFL, 0)) == -1) { sysfatal("Can't get file mode flags on stdin"); } else { if (fcntl(0, F_SETFL, status & ~O_NONBLOCK) == -1) { sysfatal("Can't set file mode flags on stdin"); } } return (-1); } } int write_char (c) int c; { if (alarmed || put_char(c) < 0) { extern int errno; alarm(0); alarmed = 0; if (verbose) { if (errno == EINTR || errno == EWOULDBLOCK) { logf(" -- write timed out\n"); } else { logf(" -- write failed: "); logf(strerror(errno)); logflush(); } } return (0); } return (1); } int put_string (s) register char *s; { s = clean(s, 1); if (verbose) { logf("send ("); if (quiet) { logf("??????"); } else { register char *s1 = s; for (s1 = s; *s1; ++s1) { logf(character(*s1)); } } logf(")\n"); } alarm(timeout); alarmed = 0; while (*s) { register char c = *s++; if (c != '\\') { if (!write_char (c)) { return 0; } continue; } c = *s++; switch (c) { case 'd': sleep(1); break; case 'K': break_sequence(); break; case 'p': usleep(10000); /* 1/100th of a second (arg is microseconds) */ break; default: if (!write_char (c)) return 0; break; } } alarm(0); alarmed = 0; return (1); } /* * 'Wait for' this string to appear on this file descriptor. */ int get_string(string) register char *string; { char temp[STR_LEN]; int c, printed = 0, len, minlen, got_it=0; register char *s = temp, *end = s + STR_LEN; fail_reason = (char *)0; string = clean(string, 0); len = strlen(string); minlen = (len > sizeof(fail_buffer)? len: sizeof(fail_buffer)) - 1; if (verbose) { register char *s1; logf("expect ("); for (s1 = string; *s1; ++s1) { logf(character(*s1)); } logf(")\n"); } if (len > STR_LEN) { if (to_log) { syslog(LOG_INFO, "expect string is too long"); } if (to_stderr) { fprintf(stderr, "expect string is too long\n"); } exit_code = 1; return 0; } if (len == 0) { if (verbose) { logf("got it\n"); } return (1); } alarm(timeout); alarmed = 0; while ( ! alarmed && (c = get_char()) >= 0) { int n, abort_len, report_len; if (verbose) { if (c == '\n') { logf("\n"); } else { logf(character(c)); } } if (Verbose) { if (c == '\n') { fputc( '\n', stderr ); } else { if (c != '\r') { fprintf( stderr, "%s", character(c) ); } } } *s++ = c; if (s - temp >= len && c == string[len - 1] && strncmp(s - len, string, len) == 0) { if (verbose) { logf(" -- got it\n"); } alarm(0); alarmed = 0; got_it=1; } for (n = 0; n < n_aborts; ++n) { if (s - temp >= (abort_len = strlen(abort_string[n])) && strncmp(s - abort_len, abort_string[n], abort_len) == 0) { if (verbose) { logf(" -- failed\n"); } alarm(0); alarmed = 0; exit_code = n + 4; strcpy(fail_reason = fail_buffer, abort_string[n]); return (0); } } if (!report_gathering) { for (n = 0; n < n_reports; ++n) { if ((report_string[n] != (char*) NULL) && s - temp >= (report_len = strlen(report_string[n])) && strncmp(s - report_len, report_string[n], report_len) == 0) { time_t time_now = time ((time_t*) NULL); struct tm* tm_now = localtime (&time_now); strftime (report_buffer, 20, "%b %d %H:%M:%S ", tm_now); strcat (report_buffer, report_string[n]); report_string[n] = (char *) NULL; report_gathering = 1; break; } } } else { if (!iscntrl (c)) { int rep_len = strlen (report_buffer); report_buffer[rep_len] = c; report_buffer[rep_len + 1] = '\0'; } else { report_gathering = 0; fprintf (report_fp, "chat: %s\n", report_buffer); } } if (got_it) { return(1); } if (s >= end) { strncpy (temp, s - minlen, minlen); s = temp + minlen; } if (alarmed && verbose) { if (to_log) { syslog(LOG_WARNING, "warning: alarm synchronization problem"); } if (to_stderr) { fprintf(stderr, "warning: alarm synchronization problem\n"); } } } alarm(0); if (verbose && printed) { if (alarmed) { logf(" -- read timed out\n"); } else { extern int errno; logflush(); logf(" -- read failed: "); logf(strerror(errno)); logflush(); } } exit_code = 3; alarmed = 0; return (0); } #ifdef NO_USLEEP #include #include /* usleep -- support routine for 4.2BSD system call emulations last edit: 29-Oct-1984 D A Gwyn */ extern int select(); int usleep( usec ) /* returns 0 if ok, else -1 */ long usec; /* delay in microseconds */ { static struct /* `timeval' */ { long tv_sec; /* seconds */ long tv_usec; /* microsecs */ } delay; /* _select() timeout */ delay.tv_sec = usec / 1000000L; delay.tv_usec = usec % 1000000L; return select( 0, (long *)0, (long *)0, (long *)0, &delay ); } #endif