/* * Copyright 1992 by Jutta Degener and Carsten Bormann, Technische * Universitaet Berlin. See the accompanying file "COPYRIGHT" for * details. THERE IS ABSOLUTELY NO WARRANTY FOR THIS SOFTWARE. */ /* $Header: /tmp_amd/presto/export/kbs/jutta/src/gsm/RCS/toast.c,v 1.8 1996/07/02 10:41:04 jutta Exp $ */ #include "toast.h" /* toast -- lossy sound compression using the gsm library. */ char * progname; int f_decode = 0; /* decode rather than encode (-d) */ int f_cat = 0; /* write to stdout; implies -p (-c) */ int f_force = 0; /* don't ask about replacements (-f) */ int f_precious = 0; /* avoid deletion of original (-p) */ int f_fast = 0; /* use faster fpt algorithm (-F) */ int f_verbose = 0; /* debugging (-V) */ int f_ltp_cut = 0; /* LTP cut-off margin (-C) */ struct stat instat; /* stat (inname) */ FILE *in, *out; char *inname, *outname; /* * The function (*output)() writes a frame of 160 samples given as * 160 signed 16 bit values (gsm_signals) to . * The function (*input)() reads one such frame from . * The function (*init_output)() begins output (e.g. writes a header)., * The function (*init_input)() begins input (e.g. skips a header). * * There are different versions of input, output, init_input and init_output * for different formats understood by toast; which ones are used * depends on the command line arguments and, in their absence, the * filename; the fallback is #defined in toast.h * * The specific implementations of input, output, init_input and init_output * for a format `foo' live in toast_foo.c. */ int (*output ) P((gsm_signal *)), (*input ) P((gsm_signal *)); int (*init_input) P((void)), (*init_output) P((void)); static int generic_init P0() { return 0; } /* NOP */ struct fmtdesc { char * name, * longname, * suffix; int (* init_input ) P((void)), (* init_output) P((void)); int (* input ) P((gsm_signal * )), (* output) P((gsm_signal * )); } f_audio = { "audio", "8 kHz, 8 bit u-law encoding with Sun audio header", ".au", audio_init_input, audio_init_output, ulaw_input, ulaw_output }, f_ulaw = { "u-law", "plain 8 kHz, 8 bit u-law encoding", ".u", generic_init, generic_init, ulaw_input, ulaw_output }, f_alaw = { "A-law", "8 kHz, 8 bit A-law encoding", ".A", generic_init, generic_init, alaw_input, alaw_output }, f_linear = { "linear", "16 bit (13 significant) signed 8 kHz signal", ".l", generic_init, generic_init, linear_input, linear_output }; struct fmtdesc * alldescs[] = { &f_audio, &f_alaw, &f_ulaw, &f_linear, (struct fmtdesc *)NULL }; #define DEFAULT_FORMAT f_ulaw /* default audio format, others */ /* are: f_alaw,f_audio,f_linear */ struct fmtdesc * f_format = 0; /* * basename + suffix of a pathname */ static char * endname P1((name), char * name) { if (name) { char * s = strrchr(name, '/'); if (s && s[1]) name = s + 1; } return name; } /* * Try to figure out what we're supposed to do from the argv[0], if * any, and set the parameters accordingly. */ static void parse_argv0 P1((av0), char * av0 ) { int l; progname = av0 = endname(av0 ? av0 : "toast"); /* If the name starts with `un', we want to decode, not code. * If the name ends in `cat', we want to write to stdout, * and decode as well. */ if (!strncmp(av0, "un", 2)) f_decode = 1; if ( (l = strlen(av0)) >= 3 /* strlen("cat") */ && !strcmp( av0 + l - 3, "cat" )) f_cat = f_decode = 1; } /* * Check whether the name (possibly generated by appending * .gsm to something else) is short enough for this system. */ static int length_okay P1((name), char * name) { long max_filename_length = 0; char * end; /* If our _pathname_ is too long, we'll usually not be * able to open the file at all -- don't worry about that. * * But if the _filename_ is too long, there is danger of * silent truncation on some systems, which results * in the target replacing the source! */ if (!name) return 0; end = endname(name); #ifdef NAME_MAX max_filename_length = NAME_MAX; #else #ifdef _PC_NAME_MAX #ifdef USE_PATHCONF { char * s, tmp; /* s = dirname(name) */ if ((s = end) > name) { if (s > name + 1) s--; tmp = s; *s = 0; } errno = 0; max_filename_length = pathconf(s > name ? name : ".", _PC_NAME_MAX); if (max_filename_length == -1 && errno) { perror( s > name ? name : "." ); fprintf(stderr, "%s: cannot get dynamic filename length limit for %s.\n", progname, s > name ? name : "."); return 0; } if (s > name) *s = tmp; } #endif /* USE_PATHCONF */ #endif /* _PC_NAME_MAX */ #endif /* !NAME_MAX */ if (max_filename_length > 0 && strlen(end) > max_filename_length) { fprintf(stderr, "%s: filename \"%s\" is too long (maximum is %ld)\n", progname, endname(name), max_filename_length ); return 0; } return 1; } /* * Return a pointer the suffix of a string, if any. * A suffix alone has no suffix, an empty suffix can not be had. */ static char * suffix P2((name, suf), char *name, char * suf) { size_t nlen = strlen(name); size_t slen = strlen(suf); if (!slen || nlen <= slen) return (char *)0; name += nlen - slen; return memcmp(name, suf, slen) ? (char *)0 : name; } static void catch_signals P1((fun), SIGHANDLER_T (*fun) ()) { #ifdef SIGHUP signal( SIGHUP, fun ); #endif #ifdef SIGINT signal( SIGINT, fun ); #endif #ifdef SIGPIPE signal( SIGPIPE, fun ); #endif #ifdef SIGTERM signal( SIGTERM, fun ); #endif #ifdef SIGXFSZ signal( SIGXFSZ, fun ); #endif } static SIGHANDLER_T onintr P0() { char * tmp = outname; #ifdef HAS_SYSV_SIGNALS catch_signals( SIG_IGN ); #endif outname = (char *)0; if (tmp) (void)unlink(tmp); exit(1); } /* * Allocate some memory and complain if it fails. */ static char * emalloc P1((len), size_t len) { char * s; if (!(s = malloc(len))) { fprintf(stderr, "%s: failed to malloc %d bytes -- abort\n", progname, len); onintr(); exit(1); } return s; } static char* normalname P3((name, want, cut), char *name, char *want,char *cut) { size_t maxlen; char * s, * p; p = (char *)0; if (!name) return p; maxlen = strlen(name) + 1 + strlen(want) + strlen(cut); p = strcpy(emalloc(maxlen), name); if (s = suffix(p, cut)) strcpy(s, want); else if (*want && !suffix(p, want)) strcat(p, want); return p; } /* * Generate a `plain' (non-encoded) name from a given name. */ static char * plainname P1((name), char *name) { return normalname(name, "", SUFFIX_TOASTED ); } /* * Generate a `code' name from a given name. */ static char * codename P1((name), char *name) { return normalname( name, SUFFIX_TOASTED, "" ); } /* * If we're supposed to ask (fileno (stderr) is a tty, and f_force not * set), ask the user whether to overwrite a file or not. */ static int ok_to_replace P1(( name ), char * name) { int reply, c; if (f_force) return 1; /* YES, do replace */ if (!isatty(fileno(stderr))) return 0; /* NO, don't replace */ fprintf(stderr, "%s already exists; do you wish to overwrite %s (y or n)? ", name, name); fflush(stderr); for (c = reply = getchar(); c != '\n' && c != EOF; c = getchar()) ; if (reply == 'y') return 1; fprintf(stderr, "\tnot overwritten\n"); return 0; } static void update_mode P0() { if (!instat.st_nlink) return; /* couldn't stat in */ #ifdef HAS_FCHMOD if (fchmod(fileno(out), instat.st_mode & 07777)) { perror(outname); fprintf(stderr, "%s: could not change file mode of \"%s\"\n", progname, outname); } #else #ifdef HAS_CHMOD if (outname && chmod(outname, instat.st_mode & 07777)) { perror(outname); fprintf(stderr, "%s: could not change file mode of \"%s\"\n", progname, outname); } #endif /* HAS_CHMOD */ #endif /* HAS_FCHMOD */ } static void update_own P0() { if (!instat.st_nlink) return; /* couldn't stat in */ #ifdef HAS_FCHOWN (void)fchown(fileno(out), instat.st_uid, instat.st_gid); #else #ifdef HAS_CHOWN (void)chown(outname, instat.st_uid, instat.st_gid); #endif /* HAS_CHOWN */ #endif /* HAS_FCHOWN */ } static void update_times P0() { if (!instat.st_nlink) return; /* couldn't stat in */ #ifdef HAS_UTIMES if (outname) { struct timeval tv[2]; tv[0].tv_sec = instat.st_atime; tv[1].tv_sec = instat.st_mtime; tv[0].tv_usec = tv[1].tv_usec = 0; (void) utimes(outname, tv); } #else #ifdef HAS_UTIME if (outname) { #ifdef HAS_UTIMBUF struct utimbuf ut; ut.actime = instat.st_atime; ut.modtime = instat.st_mtime; # ifdef HAS_UTIMEUSEC ut.acusec = instat.st_ausec; ut.modusec = instat.st_musec; # endif /* HAS_UTIMEUSEC */ (void) utime(outname, &ut); #else /* UTIMBUF */ time_t ut[2]; ut[0] = instat.st_atime; ut[1] = instat.st_mtime; (void) utime(outname, ut); #endif /* UTIMBUF */ } #endif /* HAS_UTIME */ #endif /* HAS_UTIMES */ } static int okay_as_input P3((name,f,st), char* name, FILE* f, struct stat * st) { # ifdef HAS_FSTAT if (fstat(fileno(f), st) < 0) # else if (stat(name, st) < 0) # endif { perror(name); fprintf(stderr, "%s: cannot stat \"%s\"\n", progname, name); return 0; } if (!S_ISREG(st->st_mode)) { fprintf(stderr, "%s: \"%s\" is not a regular file -- unchanged.\n", progname, name); return 0; } if (st->st_nlink > 1 && !f_cat && !f_precious) { fprintf(stderr, "%s: \"%s\" has %s other link%s -- unchanged.\n", progname,name,st->st_nlink - 1,"s" + (st->st_nlink<=2)); return 0; } return 1; } static void prepare_io P1(( desc), struct fmtdesc * desc) { output = desc->output; input = desc->input; init_input = desc->init_input; init_output = desc->init_output; } static struct fmtdesc * grok_format P1((name), char * name) { char * c; struct fmtdesc ** f; if (name) { c = plainname(name); for (f = alldescs; *f; f++) { if ( (*f)->suffix && *(*f)->suffix && suffix(c, (*f)->suffix)) { free(c); return *f; } } free(c); } return (struct fmtdesc *)0; } static int open_input P2((name, st), char * name, struct stat * st) { struct fmtdesc * f = f_format; st->st_nlink = 0; /* indicates `undefined' value */ if (!name) { inname = (char *)NULL; in = stdin; #ifdef HAS__FSETMODE _fsetmode(in, "b"); #endif } else { if (f_decode) inname = codename(name); else { if (!f_cat && suffix(name, SUFFIX_TOASTED)) { fprintf(stderr, "%s: %s already has \"%s\" suffix -- unchanged.\n", progname, name, SUFFIX_TOASTED ); return 0; } inname = strcpy(emalloc(strlen(name)+1), name); } if (!(in = fopen(inname, READ))) { perror(inname); /* not guaranteed to be valid here */ fprintf(stderr, "%s: cannot open \"%s\" for reading\n", progname, inname); return 0; } if (!okay_as_input(inname, in, st)) return 0; if (!f) f = grok_format(inname); } prepare_io( f ? f : & DEFAULT_FORMAT ); return 1; } static int open_output P1((name), char *name) { if (!name || f_cat) { out = stdout; outname = (char *)NULL; #ifdef HAS__FSETMODE _fsetmode(out, "b"); #endif } else { int outfd = -1; char * o; o = (*(f_decode ? plainname : codename))(name); if (!length_okay(o)) return 0; if ((outfd = open(o, O_WRITE_EXCL, 0666)) >= 0) out = fdopen(outfd, WRITE); else if (errno != EEXIST) out = (FILE *)NULL; else if (ok_to_replace(o)) out = fopen(o, WRITE); else return 0; if (!out) { perror(o); fprintf(stderr, "%s: can't open \"%s\" for writing\n", progname, o); if (outfd >= 0) (void)close(outfd); return 0; } outname = o; } return 1; } static int process_encode P0() { gsm r; gsm_signal s[ 160 ]; gsm_frame d; int cc; if (!(r = gsm_create())) { perror(progname); return -1; } (void)gsm_option(r, GSM_OPT_FAST, &f_fast); (void)gsm_option(r, GSM_OPT_VERBOSE, &f_verbose); (void)gsm_option(r, GSM_OPT_LTP_CUT, &f_ltp_cut); while ((cc = (*input)(s)) > 0) { if (cc < sizeof(s) / sizeof(*s)) memset((char *)(s+cc), 0, sizeof(s)-(cc * sizeof(*s))); gsm_encode(r, s, d); if (fwrite((char *)d, sizeof(d), 1, out) != 1) { perror(outname ? outname : "stdout"); fprintf(stderr, "%s: error writing to %s\n", progname, outname ? outname : "stdout"); gsm_destroy(r); return -1; } } if (cc < 0) { perror(inname ? inname : "stdin"); fprintf(stderr, "%s: error reading from %s\n", progname, inname ? inname : "stdin"); gsm_destroy(r); return -1; } gsm_destroy(r); return 0; } static int process_decode P0() { gsm r; gsm_frame s; gsm_signal d[ 160 ]; int cc; if (!(r = gsm_create())) { /* malloc failed */ perror(progname); return -1; } (void)gsm_option(r, GSM_OPT_FAST, &f_fast); (void)gsm_option(r, GSM_OPT_VERBOSE, &f_verbose); while ((cc = fread(s, 1, sizeof(s), in)) > 0) { if (cc != sizeof(s)) { if (cc >= 0) fprintf(stderr, "%s: incomplete frame (%d byte%s missing) from %s\n", progname, sizeof(s) - cc, "s" + (sizeof(s) - cc == 1), inname ? inname : "stdin" ); gsm_destroy(r); errno = 0; return -1; } if (gsm_decode(r, s, d)) { fprintf(stderr, "%s: bad frame in %s\n", progname, inname ? inname : "stdin"); gsm_destroy(r); errno = 0; return -1; } if ((*output)(d) < 0) { perror(outname); fprintf(stderr, "%s: error writing to %s\n", progname, outname); gsm_destroy(r); return -1; } } if (cc < 0) { perror(inname ? inname : "stdin" ); fprintf(stderr, "%s: error reading from %s\n", progname, inname ? inname : "stdin"); gsm_destroy(r); return -1; } gsm_destroy(r); return 0; } static int process P1((name), char * name) { int step = 0; out = (FILE *)0; in = (FILE *)0; outname = (char *)0; inname = (char *)0; if (!open_input(name, &instat) || !open_output(name)) goto err; if ((*(f_decode ? init_output : init_input))()) { fprintf(stderr, "%s: error %s %s\n", progname, f_decode ? "writing header to" : "reading header from", f_decode ? (outname ? outname : "stdout") : (inname ? inname : "stdin")); goto err; } if ((*(f_decode ? process_decode : process_encode))()) goto err; if (fflush(out) < 0 || ferror(out)) { perror(outname ? outname : "stdout"); fprintf(stderr, "%s: error writing \"%s\"\n", progname, outname ? outname:"stdout"); goto err; } if (out != stdout) { update_times(); update_mode (); update_own (); if (fclose(out) < 0) { perror(outname); fprintf(stderr, "%s: error writing \"%s\"\n", progname, outname); goto err; } if (outname != name) free(outname); outname = (char *)0; } out = (FILE *)0; if (in != stdin) { (void)fclose(in), in = (FILE *)0; if (!f_cat && !f_precious) { if (unlink(inname) < 0) { perror(inname); fprintf(stderr, "%s: source \"%s\" not deleted.\n", progname, inname); } goto err; } if (inname != name) free(inname); inname = (char *)0; } return 0; /* * Error handling and cleanup. */ err: if (out && out != stdout) { (void)fclose(out), out = (FILE *)0; if (unlink(outname) < 0 && errno != ENOENT && errno != EINTR) { perror(outname); fprintf(stderr, "%s: could not unlink \"%s\"\n", progname, outname); } } if (in && in != stdin) (void)fclose(in), in = (FILE *)0; if (inname && inname != name) free(inname); if (outname && outname != name) free(outname); return -1; } static void version P0() { printf( "%s 1.0, version %s\n", progname, "$Id: toast.c,v 1.8 1996/07/02 10:41:04 jutta Exp $" ); } static void help P0() { printf("Usage: %s [-fcpdhvaulsFC] [files...]\n", progname); printf("\n"); printf(" -f force Replace existing files without asking\n"); printf(" -c cat Write to stdout, do not remove source files\n"); printf(" -d decode Decode data (default is encode)\n"); printf(" -p precious Do not delete the source\n"); printf("\n"); printf(" -u u-law Force 8 kHz/8 bit u-law in/output format\n"); printf(" -s sun .au Force Sun .au u-law in/output format\n"); printf(" -a A-law Force 8 kHz/8 bit A-law in/output format\n"); printf(" -l linear Force 16 bit linear in/output format\n"); printf("\n"); printf(" -F fast Sacrifice conformance to performance\n"); printf(" -C cutoff Ignore most samples during LTP\n"); printf(" -v version Show version information\n"); printf(" -h help Print this text\n"); printf("\n"); } static void set_format P1((f), struct fmtdesc * f) { if (f_format && f_format != f) { fprintf( stderr, "%s: only one of -[uals] is possible (%s -h for help)\n", progname, progname); exit(1); } f_format = f; } int main P2((ac, av), int ac, char **av) { int opt; extern int optind; extern char * optarg; parse_argv0(*av); while ((opt = getopt(ac, av, "fcdpvhuaslVFC:")) != EOF) switch (opt) { case 'd': f_decode = 1; break; case 'f': f_force = 1; break; case 'c': f_cat = 1; break; case 'p': f_precious = 1; break; case 'F': f_fast = 1; break; case 'C': f_ltp_cut = 100; break; #ifndef NDEBUG case 'V': f_verbose = 1; break; /* undocumented */ #endif case 'u': set_format( &f_ulaw ); break; case 'l': set_format( &f_linear ); break; case 'a': set_format( &f_alaw ); break; case 's': set_format( &f_audio ); break; case 'v': version(); exit(0); case 'h': help(); exit(0); default: usage: fprintf(stderr, "Usage: %s [-fcpdhvuaslFC] [files...] (-h for help)\n", progname); exit(1); } f_precious |= f_cat; av += optind; ac -= optind; catch_signals(onintr); if (ac <= 0) process( (char *)0 ); else while (ac--) process( *av++ ); exit(0); }