/* $OpenBSD: cdio.c,v 1.18 2001/10/28 03:57:59 deraadt Exp $ */ /* * Compact Disc Control Utility by Serge V. Vakulenko . * Based on the non-X based CD player by Jean-Marc Zucconi and * Andrey A. Chernov. * * Fixed and further modified on 5-Sep-1995 by Jukka Ukkonen . * * 11-Sep-1995: Jukka A. Ukkonen * A couple of further fixes to my own earlier "fixes". * * 18-Sep-1995: Jukka A. Ukkonen * Added an ability to specify addresses relative to the * beginning of a track. This is in fact a variation of * doing the simple play_msf() call. * * 11-Oct-1995: Serge V.Vakulenko * New eject algorithm. * Some code style reformatting. * * $FreeBSD: cdcontrol.c,v 1.13 1996/06/25 21:01:27 ache Exp $ */ #include #include #include #include #include #include #include #include #include #include #include #include #include #define VERSION "2.0" #define ASTS_INVALID 0x00 /* Audio status byte not valid */ #define ASTS_PLAYING 0x11 /* Audio play operation in progress */ #define ASTS_PAUSED 0x12 /* Audio play operation paused */ #define ASTS_COMPLETED 0x13 /* Audio play operation successfully completed */ #define ASTS_ERROR 0x14 /* Audio play operation stopped due to error */ #define ASTS_VOID 0x15 /* No current audio status to return */ #ifndef DEFAULT_CD_DRIVE # define DEFAULT_CD_DRIVE "cd0" #endif #define CMD_DEBUG 1 #define CMD_DEVICE 2 #define CMD_EJECT 3 #define CMD_HELP 4 #define CMD_INFO 5 #define CMD_PAUSE 6 #define CMD_PLAY 7 #define CMD_QUIT 8 #define CMD_RESUME 9 #define CMD_STOP 10 #define CMD_VOLUME 11 #define CMD_CLOSE 12 #define CMD_RESET 13 #define CMD_SET 14 #define CMD_STATUS 15 #define CMD_NEXT 16 #define CMD_PREV 17 #define CMD_REPLAY 18 struct cmdtab { int command; char *name; unsigned min; char *args; } cmdtab[] = { { CMD_CLOSE, "close", 1, "" }, { CMD_DEBUG, "debug", 1, "on | off" }, { CMD_DEVICE, "device", 1, "devname" }, { CMD_EJECT, "eject", 1, "" }, { CMD_HELP, "?", 1, 0 }, { CMD_HELP, "help", 1, "" }, { CMD_INFO, "info", 1, "" }, { CMD_NEXT, "next", 1, "" }, { CMD_PAUSE, "pause", 2, "" }, { CMD_PLAY, "play", 1, "min1:sec1[.fram1] [min2:sec2[.fram2]]" }, { CMD_PLAY, "play", 1, "track1[.index1] [track2[.index2]]" }, { CMD_PLAY, "play", 1, "tr1 m1:s1[.f1] [[tr2] [m2:s2[.f2]]]" }, { CMD_PLAY, "play", 1, "[#block [len]]" }, { CMD_PREV, "previous", 2, "" }, { CMD_QUIT, "quit", 1, "" }, { CMD_RESET, "reset", 4, "" }, { CMD_RESUME, "resume", 1, "" }, { CMD_REPLAY, "replay", 3, "" }, { CMD_SET, "set", 2, "msf | lba" }, { CMD_STATUS, "status", 1, "" }, { CMD_STOP, "stop", 3, "" }, { CMD_VOLUME, "volume", 1, " | left | right | mute | mono | stereo" }, { 0, } }; struct cd_toc_entry *toc_buffer; char *cdname; int fd = -1; int verbose = 1; int msf = 1; extern char *__progname; int setvol __P((int, int)); int read_toc_entrys __P((int)); int play_msf __P((int, int, int, int, int, int)); int play_track __P((int, int, int, int)); int get_vol __P((int *, int *)); int status __P((int *, int *, int *, int *)); int open_cd __P((char *)); int play __P((char *arg)); int info __P((char *arg)); int pstatus __P((char *arg)); int play_next __P((char *arg)); int play_prev __P((char *arg)); int play_same __P((char *arg)); char *input __P((int *)); void prtrack __P((struct cd_toc_entry *e, int lastflag)); void lba2msf __P((unsigned long lba, u_char *m, u_char *s, u_char *f)); unsigned int msf2lba __P((u_char m, u_char s, u_char f)); int play_blocks __P((int blk, int len)); int run __P((int cmd, char *arg)); char *parse __P((char *buf, int *cmd)); void help() { struct cmdtab *c; char *s, n; int i; for (c=cmdtab; c->name; ++c) { if (! c->args) continue; printf("\t"); for (i = c->min, s = c->name; *s; s++, i--) { if (i > 0) n = toupper(*s); else n = *s; putchar(n); } if (*c->args) printf(" %s", c->args); printf("\n"); } printf("\n\tThe word \"play\" is not required for the play commands.\n"); printf("\tThe plain target address is taken as a synonym for play.\n"); } void usage() { fprintf(stderr, "usage: %s [-sv] [-f device] [command args ...]\n", __progname); exit(1); } int main(argc, argv) int argc; char **argv; { int cmd; char *arg; cdname = getenv("DISC"); if (! cdname) cdname = getenv("CDROM"); for (;;) { switch (getopt(argc, argv, "svf:")) { case EOF: break; case 's': verbose = 0; continue; case 'v': verbose = 2; continue; case 'f': cdname = optarg; continue; default: usage(); } break; } argc -= optind; argv += optind; if (argc > 0 && ! strcasecmp(*argv, "help")) usage(); if (! cdname) { cdname = DEFAULT_CD_DRIVE; fprintf(stderr, "No CD device name specified. Defaulting to %s.\n", cdname); } if (argc > 0) { char buf[80], *p; int len; for (p=buf; argc-->0; ++argv) { len = strlen(*argv); if (p + len >= buf + sizeof (buf) - 1) usage(); if (p > buf) *p++ = ' '; strcpy(p, *argv); /* ok */ p += len; } *p = 0; arg = parse(buf, &cmd); return (run(cmd, arg)); } if (verbose == 1) verbose = isatty(0); if (verbose) { printf("Compact Disc Control utility, version %s\n", VERSION); printf("Type `?' for command list\n\n"); } for (;;) { arg = input(&cmd); if (run(cmd, arg) < 0) { if (verbose) warn(NULL); close(fd); fd = -1; } fflush(stdout); } } int run(cmd, arg) int cmd; char *arg; { int l, r, rc; static char newcdname[MAXPATHLEN]; switch (cmd) { case CMD_QUIT: exit(0); case CMD_INFO: if (fd < 0 && ! open_cd(cdname)) return (0); return info(arg); case CMD_STATUS: if (fd < 0 && ! open_cd(cdname)) return (0); return pstatus(arg); case CMD_PAUSE: if (fd < 0 && ! open_cd(cdname)) return (0); return ioctl(fd, CDIOCPAUSE); case CMD_RESUME: if (fd < 0 && ! open_cd(cdname)) return (0); return ioctl(fd, CDIOCRESUME); case CMD_STOP: if (fd < 0 && ! open_cd(cdname)) return (0); rc = ioctl(fd, CDIOCSTOP); (void) ioctl(fd, CDIOCALLOW); return (rc); case CMD_RESET: if (fd < 0 && ! open_cd(cdname)) return (0); rc = ioctl(fd, CDIOCRESET); if (rc < 0) return rc; close(fd); fd = -1; return (0); case CMD_DEBUG: if (fd < 0 && ! open_cd(cdname)) return (0); if (! strcasecmp(arg, "on")) return ioctl(fd, CDIOCSETDEBUG); if (! strcasecmp(arg, "off")) return ioctl(fd, CDIOCCLRDEBUG); printf("%s: Invalid command arguments\n", __progname); return (0); case CMD_DEVICE: /* close old device */ if (fd > -1) { (void) ioctl(fd, CDIOCALLOW); close(fd); fd = -1; } /* open new device */ if (!open_cd(arg)) return (0); (void) strlcpy(newcdname, arg, sizeof(newcdname)); cdname = newcdname; return (1); case CMD_EJECT: if (fd < 0 && ! open_cd(cdname)) return (0); (void) ioctl(fd, CDIOCALLOW); rc = ioctl(fd, CDIOCEJECT); if (rc < 0) return (rc); #if defined(__OpenBSD__) close(fd); fd = -1; #endif return (0); case CMD_CLOSE: #if defined(CDIOCCLOSE) if (fd < 0 && ! open_cd(cdname)) return (0); (void) ioctl(fd, CDIOCALLOW); rc = ioctl(fd, CDIOCCLOSE); if (rc < 0) return (rc); close(fd); fd = -1; return (0); #else printf("%s: Command not yet supported\n", __progname); return (0); #endif case CMD_PLAY: if (fd < 0 && ! open_cd(cdname)) return (0); while (isspace(*arg)) arg++; return play(arg); case CMD_SET: if (!strcasecmp(arg, "msf")) msf = 1; else if (!strcasecmp(arg, "lba")) msf = 0; else printf("%s: Invalid command arguments\n", __progname); return (0); case CMD_VOLUME: if (fd < 0 && !open_cd(cdname)) return (0); if (!strncasecmp(arg, "left", strlen(arg))) return ioctl(fd, CDIOCSETLEFT); if (!strncasecmp(arg, "right", strlen(arg))) return ioctl(fd, CDIOCSETRIGHT); if (!strncasecmp(arg, "mono", strlen(arg))) return ioctl(fd, CDIOCSETMONO); if (!strncasecmp(arg, "stereo", strlen(arg))) return ioctl(fd, CDIOCSETSTEREO); if (!strncasecmp(arg, "mute", strlen(arg))) return ioctl(fd, CDIOCSETMUTE); if (2 != sscanf(arg, "%d %d", &l, &r)) { printf("%s: Invalid command arguments\n", __progname); return (0); } return setvol(l, r); case CMD_NEXT: if (fd < 0 && ! open_cd(cdname)) return (0); return play_next(arg); case CMD_PREV: if (fd < 0 && ! open_cd(cdname)) return (0); return play_prev(arg); case CMD_REPLAY: if (fd < 0 && ! open_cd(cdname)) return 0; return play_same(arg); default: case CMD_HELP: help(); return (0); } } int play(arg) char *arg; { struct ioc_toc_header h; int rc, n, start, end = 0, istart = 1, iend = 1; rc = ioctl(fd, CDIOREADTOCHEADER, &h); if (rc < 0) return (rc); n = h.ending_track - h.starting_track + 1; rc = read_toc_entrys((n + 1) * sizeof (struct cd_toc_entry)); if (rc < 0) return (rc); if (! arg || ! *arg) { /* Play the whole disc */ return (play_track(h.starting_track, 1, h.ending_track, 1)); } if (strchr(arg, '#')) { /* Play block #blk [ len ] */ int blk, len = 0; if (2 != sscanf(arg, "#%d%d", &blk, &len) && 1 != sscanf(arg, "#%d", &blk)) goto Clean_up; if (len == 0) { if (msf) len = msf2lba(toc_buffer[n].addr.msf.minute, toc_buffer[n].addr.msf.second, toc_buffer[n].addr.msf.frame) - blk; else len = ntohl(toc_buffer[n].addr.lba) - blk; } return play_blocks(blk, len); } if (strchr(arg, ':')) { /* * Play MSF m1:s1 [ .f1 ] [ m2:s2 [ .f2 ] ] * * Will now also undestand timed addresses relative * to the beginning of a track in the form... * * tr1 m1:s1[.f1] [[tr2] [m2:s2[.f2]]] */ unsigned tr1, tr2; unsigned m1, m2, s1, s2, f1, f2; unsigned char tm, ts, tf; tr2 = m2 = s2 = f2 = f1 = 0; if (8 == sscanf(arg, "%d %d:%d.%d %d %d:%d.%d", &tr1, &m1, &s1, &f1, &tr2, &m2, &s2, &f2)) goto Play_Relative_Addresses; tr2 = m2 = s2 = f2 = f1 = 0; if (7 == sscanf(arg, "%d %d:%d %d %d:%d.%d", &tr1, &m1, &s1, &tr2, &m2, &s2, &f2)) goto Play_Relative_Addresses; tr2 = m2 = s2 = f2 = f1 = 0; if (7 == sscanf(arg, "%d %d:%d.%d %d %d:%d", &tr1, &m1, &s1, &f1, &tr2, &m2, &s2)) goto Play_Relative_Addresses; tr2 = m2 = s2 = f2 = f1 = 0; if (7 == sscanf(arg, "%d %d:%d.%d %d:%d.%d", &tr1, &m1, &s1, &f1, &m2, &s2, &f2)) goto Play_Relative_Addresses; tr2 = m2 = s2 = f2 = f1 = 0; if (6 == sscanf(arg, "%d %d:%d.%d %d:%d", &tr1, &m1, &s1, &f1, &m2, &s2)) goto Play_Relative_Addresses; tr2 = m2 = s2 = f2 = f1 = 0; if (6 == sscanf(arg, "%d %d:%d %d:%d.%d", &tr1, &m1, &s1, &m2, &s2, &f2)) goto Play_Relative_Addresses; tr2 = m2 = s2 = f2 = f1 = 0; if (6 == sscanf(arg, "%d %d:%d.%d %d %d", &tr1, &m1, &s1, &f1, &tr2, &m2)) goto Play_Relative_Addresses; tr2 = m2 = s2 = f2 = f1 = 0; if (5 == sscanf(arg, "%d %d:%d %d:%d", &tr1, &m1, &s1, &m2, &s2)) goto Play_Relative_Addresses; tr2 = m2 = s2 = f2 = f1 = 0; if (5 == sscanf(arg, "%d %d:%d %d %d", &tr1, &m1, &s1, &tr2, &m2)) goto Play_Relative_Addresses; tr2 = m2 = s2 = f2 = f1 = 0; if (5 == sscanf(arg, "%d %d:%d.%d %d", &tr1, &m1, &s1, &f1, &tr2)) goto Play_Relative_Addresses; tr2 = m2 = s2 = f2 = f1 = 0; if (4 == sscanf(arg, "%d %d:%d %d", &tr1, &m1, &s1, &tr2)) goto Play_Relative_Addresses; tr2 = m2 = s2 = f2 = f1 = 0; if (4 == sscanf(arg, "%d %d:%d.%d", &tr1, &m1, &s1, &f1)) goto Play_Relative_Addresses; tr2 = m2 = s2 = f2 = f1 = 0; if (3 == sscanf(arg, "%d %d:%d", &tr1, &m1, &s1)) goto Play_Relative_Addresses; tr2 = m2 = s2 = f2 = f1 = 0; goto Try_Absolute_Timed_Addresses; Play_Relative_Addresses: if (! tr1) tr1 = 1; else if (tr1 > n) tr1 = n; if (msf) { tm = toc_buffer[tr1].addr.msf.minute; ts = toc_buffer[tr1].addr.msf.second; tf = toc_buffer[tr1].addr.msf.frame; } else lba2msf(ntohl(toc_buffer[tr1].addr.lba), &tm, &ts, &tf); if ((m1 > tm) || ((m1 == tm) && ((s1 > ts) || ((s1 == ts) && (f1 > tf))))) { printf("Track %d is not that long.\n", tr1); return (0); } tr1--; f1 += tf; if (f1 >= 75) { s1 += f1 / 75; f1 %= 75; } s1 += ts; if (s1 >= 60) { m1 += s1 / 60; s1 %= 60; } m1 += tm; if (! tr2) { if (m2 || s2 || f2) { tr2 = tr1; f2 += f1; if (f2 >= 75) { s2 += f2 / 75; f2 %= 75; } s2 += s1; if (s2 > 60) { m2 += s2 / 60; s2 %= 60; } m2 += m1; } else { tr2 = n; if (msf) { m2 = toc_buffer[n].addr.msf.minute; s2 = toc_buffer[n].addr.msf.second; f2 = toc_buffer[n].addr.msf.frame; } else { lba2msf(ntohl(toc_buffer[n].addr.lba), &tm, &ts, &tf); m2 = tm; s2 = ts; f2 = tf; } } } else if (tr2 > n) { tr2 = n; m2 = s2 = f2 = 0; } else { if (m2 || s2 || f2) tr2--; if (msf) { tm = toc_buffer[tr2].addr.msf.minute; ts = toc_buffer[tr2].addr.msf.second; tf = toc_buffer[tr2].addr.msf.frame; } else lba2msf(ntohl(toc_buffer[tr2].addr.lba), &tm, &ts, &tf); f2 += tf; if (f2 >= 75) { s2 += f2 / 75; f2 %= 75; } s2 += ts; if (s2 > 60) { m2 += s2 / 60; s2 %= 60; } m2 += tm; } if (msf) { tm = toc_buffer[n].addr.msf.minute; ts = toc_buffer[n].addr.msf.second; tf = toc_buffer[n].addr.msf.frame; } else lba2msf(ntohl(toc_buffer[n].addr.lba), &tm, &ts, &tf); if ((tr2 < n) && ((m2 > tm) || ((m2 == tm) && ((s2 > ts) || ((s2 == ts) && (f2 > tf)))))) { printf("The playing time of the disc is not that long.\n"); return (0); } return (play_msf(m1, s1, f1, m2, s2, f2)); Try_Absolute_Timed_Addresses: if (6 != sscanf(arg, "%d:%d.%d%d:%d.%d", &m1, &s1, &f1, &m2, &s2, &f2) && 5 != sscanf(arg, "%d:%d.%d%d:%d", &m1, &s1, &f1, &m2, &s2) && 5 != sscanf(arg, "%d:%d%d:%d.%d", &m1, &s1, &m2, &s2, &f2) && 3 != sscanf(arg, "%d:%d.%d", &m1, &s1, &f1) && 4 != sscanf(arg, "%d:%d%d:%d", &m1, &s1, &m2, &s2) && 2 != sscanf(arg, "%d:%d", &m1, &s1)) goto Clean_up; if (m2 == 0) { if (msf) { m2 = toc_buffer[n].addr.msf.minute; s2 = toc_buffer[n].addr.msf.second; f2 = toc_buffer[n].addr.msf.frame; } else { lba2msf(ntohl(toc_buffer[n].addr.lba), &tm, &ts, &tf); m2 = tm; s2 = ts; f2 = tf; } } return play_msf(m1, s1, f1, m2, s2, f2); } /* * Play track trk1 [ .idx1 ] [ trk2 [ .idx2 ] ] */ if (4 != sscanf(arg, "%d.%d%d.%d", &start, &istart, &end, &iend) && 3 != sscanf(arg, "%d.%d%d", &start, &istart, &end) && 3 != sscanf(arg, "%d%d.%d", &start, &end, &iend) && 2 != sscanf(arg, "%d.%d", &start, &istart) && 2 != sscanf(arg, "%d%d", &start, &end) && 1 != sscanf(arg, "%d", &start)) goto Clean_up; if (end == 0) end = h.ending_track; return (play_track(start, istart, end, iend)); Clean_up: printf("%s: Invalid command arguments\n", __progname); return (0); } int play_prev(arg) char *arg; { int trk, min, sec, frm, rc; struct ioc_toc_header h; if (status(&trk, &min, &sec, &frm) >= 0) { trk--; rc = ioctl(fd, CDIOREADTOCHEADER, &h); if (rc < 0) { warn("getting toc header"); return (rc); } if (trk < h.starting_track) return play_track(h.starting_track, 1, h.ending_track + 1, 1); return play_track(trk, 1, h.ending_track, 1); } return (0); } int play_same(arg) char *arg; { int trk, min, sec, frm, rc; struct ioc_toc_header h; if (status (&trk, &min, &sec, &frm) >= 0) { rc = ioctl(fd, CDIOREADTOCHEADER, &h); if (rc < 0) { warn("getting toc header"); return (rc); } return play_track(trk, 1, h.ending_track, 1); } return (0); } int play_next(arg) char *arg; { int trk, min, sec, frm, rc; struct ioc_toc_header h; if (status(&trk, &min, &sec, &frm) >= 0) { trk++; rc = ioctl(fd, CDIOREADTOCHEADER, &h); if (rc < 0) { warn("getting toc header"); return (rc); } if (trk > h.ending_track) { printf("%s: end of CD\n", __progname); rc = ioctl(fd, CDIOCSTOP); (void) ioctl(fd, CDIOCALLOW); return (rc); } return play_track(trk, 1, h.ending_track, 1); } return (0); } char * strstatus(sts) int sts; { switch (sts) { case ASTS_INVALID: return ("invalid"); case ASTS_PLAYING: return ("playing"); case ASTS_PAUSED: return ("paused"); case ASTS_COMPLETED: return ("completed"); case ASTS_ERROR: return ("error"); case ASTS_VOID: return ("void"); default: return ("??"); } } int pstatus(arg) char *arg; { struct ioc_vol v; struct ioc_read_subchannel ss; struct cd_sub_channel_info data; int rc, trk, m, s, f; char vis_catalog[1 + 4 * 15]; rc = status(&trk, &m, &s, &f); if (rc >= 0) { if (verbose) printf("Audio status = %d<%s>, current track = %d, current position = %d:%02d.%02d\n", rc, strstatus(rc), trk, m, s, f); else printf("%d %d %d:%02d.%02d\n", rc, trk, m, s, f); } else printf("No current status info available\n"); bzero(&ss, sizeof (ss)); ss.data = &data; ss.data_len = sizeof (data); ss.address_format = msf ? CD_MSF_FORMAT : CD_LBA_FORMAT; ss.data_format = CD_MEDIA_CATALOG; rc = ioctl(fd, CDIOCREADSUBCHANNEL, (char *) &ss); if (rc >= 0) { printf("Media catalog is %sactive", ss.data->what.media_catalog.mc_valid ? "": "in"); if (ss.data->what.media_catalog.mc_valid && ss.data->what.media_catalog.mc_number[0]) { strvisx(vis_catalog, ss.data->what.media_catalog.mc_number, 15, VIS_SAFE); printf(", number \"%.15s\"", vis_catalog); } putchar('\n'); } else printf("No media catalog info available\n"); rc = ioctl(fd, CDIOCGETVOL, &v); if (rc >= 0) { if (verbose) printf("Left volume = %d, right volume = %d\n", v.vol[0], v.vol[1]); else printf("%d %d\n", v.vol[0], v.vol[1]); } else printf("No volume level info available\n"); return(0); } int info(arg) char *arg; { struct ioc_toc_header h; int rc, i, n; rc = ioctl(fd, CDIOREADTOCHEADER, &h); if (rc >= 0) { if (verbose) printf("Starting track = %d, ending track = %d, TOC size = %d bytes\n", h.starting_track, h.ending_track, h.len); else printf("%d %d %d\n", h.starting_track, h.ending_track, h.len); } else { warn("getting toc header"); return (rc); } n = h.ending_track - h.starting_track + 1; rc = read_toc_entrys((n + 1) * sizeof (struct cd_toc_entry)); if (rc < 0) return (rc); if (verbose) { printf("track start duration block length type\n"); printf("-------------------------------------------------\n"); } for (i = 0; i < n; i++) { printf("%5d ", toc_buffer[i].track); prtrack(toc_buffer + i, 0); } printf("%5d ", toc_buffer[n].track); prtrack(toc_buffer + n, 1); return (0); } void lba2msf(lba, m, s, f) unsigned long lba; u_char *m; u_char *s; u_char *f; { lba += 150; /* block start offset */ lba &= 0xffffff; /* negative lbas use only 24 bits */ *m = lba / (60 * 75); lba %= (60 * 75); *s = lba / 75; *f = lba % 75; } unsigned int msf2lba(m, s, f) u_char m; u_char s; u_char f; { return (((m * 60) + s) * 75 + f) - 150; } void prtrack(e, lastflag) struct cd_toc_entry *e; int lastflag; { int block, next, len; u_char m, s, f; if (msf) { /* Print track start */ printf("%2d:%02d.%02d ", e->addr.msf.minute, e->addr.msf.second, e->addr.msf.frame); block = msf2lba(e->addr.msf.minute, e->addr.msf.second, e->addr.msf.frame); } else { block = ntohl(e->addr.lba); lba2msf(block, &m, &s, &f); /* Print track start */ printf("%2d:%02d.%02d ", m, s, f); } if (lastflag) { /* Last track -- print block */ printf(" - %6d - -\n", block); return; } if (msf) next = msf2lba(e[1].addr.msf.minute, e[1].addr.msf.second, e[1].addr.msf.frame); else next = ntohl(e[1].addr.lba); len = next - block; lba2msf(len, &m, &s, &f); /* Print duration, block, length, type */ printf("%2d:%02d.%02d %6d %6d %5s\n", m, s, f, block, len, (e->control & 4) ? "data" : "audio"); } int play_track(tstart, istart, tend, iend) int tstart; int istart; int tend; int iend; { struct ioc_play_track t; t.start_track = tstart; t.start_index = istart; t.end_track = tend; t.end_index = iend; return ioctl(fd, CDIOCPLAYTRACKS, &t); } int play_blocks(blk, len) int blk; int len; { struct ioc_play_blocks t; t.blk = blk; t.len = len; return ioctl(fd, CDIOCPLAYBLOCKS, &t); } int setvol(left, right) int left; int right; { struct ioc_vol v; v.vol[0] = left; v.vol[1] = right; v.vol[2] = 0; v.vol[3] = 0; return ioctl(fd, CDIOCSETVOL, &v); } int read_toc_entrys(len) int len; { struct ioc_read_toc_entry t; if (toc_buffer) { free(toc_buffer); toc_buffer = 0; } toc_buffer = malloc(len); if (!toc_buffer) { errno = ENOMEM; return (-1); } t.address_format = msf ? CD_MSF_FORMAT : CD_LBA_FORMAT; t.starting_track = 0; t.data_len = len; t.data = toc_buffer; return (ioctl(fd, CDIOREADTOCENTRYS, (char *) &t)); } int play_msf(start_m, start_s, start_f, end_m, end_s, end_f) int start_m; int start_s; int start_f; int end_m; int end_s; int end_f; { struct ioc_play_msf a; a.start_m = start_m; a.start_s = start_s; a.start_f = start_f; a.end_m = end_m; a.end_s = end_s; a.end_f = end_f; return ioctl(fd, CDIOCPLAYMSF, (char *) &a); } int status(trk, min, sec, frame) int *trk; int *min; int *sec; int *frame; { struct ioc_read_subchannel s; struct cd_sub_channel_info data; u_char mm, ss, ff; bzero(&s, sizeof (s)); s.data = &data; s.data_len = sizeof (data); s.address_format = msf ? CD_MSF_FORMAT : CD_LBA_FORMAT; s.data_format = CD_CURRENT_POSITION; if (ioctl(fd, CDIOCREADSUBCHANNEL, (char *) &s) < 0) return -1; *trk = s.data->what.position.track_number; if (msf) { *min = s.data->what.position.reladdr.msf.minute; *sec = s.data->what.position.reladdr.msf.second; *frame = s.data->what.position.reladdr.msf.frame; } else { lba2msf(ntohl(s.data->what.position.reladdr.lba), &mm, &ss, &ff); *min = mm; *sec = ss; *frame = ff; } return s.data->header.audio_status; } char * input(cmd) int *cmd; { static char buf[80]; char *p; do { if (verbose) fprintf(stderr, "%s> ", __progname); if (!fgets(buf, sizeof (buf), stdin)) { *cmd = CMD_QUIT; fprintf(stderr, "\r\n"); return (0); } p = parse(buf, cmd); } while (!p); return (p); } char * parse(buf, cmd) char *buf; int *cmd; { struct cmdtab *c; char *p; int len; for (p=buf; isspace(*p); p++) continue; if (isdigit(*p) || (p[0] == '#' && isdigit(p[1]))) { *cmd = CMD_PLAY; return (p); } for (buf = p; *p && ! isspace(*p); p++) continue; len = p - buf; if (! len) return (0); if (*p) { /* It must be a spacing character! */ char *q; *p++ = 0; for (q=p; *q && *q != '\n' && *q != '\r'; q++) continue; *q = 0; } *cmd = -1; for (c=cmdtab; c->name; ++c) { /* Is it an exact match? */ if (! strcasecmp(buf, c->name)) { *cmd = c->command; break; } /* Try short hand forms then... */ if (len >= c->min && ! strncasecmp(buf, c->name, len)) { if (*cmd != -1 && *cmd != c->command) { fprintf(stderr, "Ambiguous command\n"); return (0); } *cmd = c->command; } } if (*cmd == -1) { fprintf(stderr, "%s: Invalid command, enter ``help'' for commands.\n", __progname); return (0); } while (isspace(*p)) p++; return p; } int open_cd(dev) char *dev; { char *realdev; int tries; if (fd > -1) return (1); for (tries = 0; fd < 0 && tries < 10; tries++) { fd = opendev(dev, O_RDONLY, OPENDEV_PART, &realdev); if (fd < 0) { if (errno == ENXIO) { /* ENXIO has an overloaded meaning here. * The original "Device not configured" should * be interpreted as "No disc in drive %s". */ warnx("No disc in drive %s.", realdev); return (0); } else if (errno != EIO) { /* EIO may simply mean the device is not ready * yet which is common with CD changers. */ warn("Can't open %s", realdev); return (0); } } sleep(1); } if (fd < 0) { warn("Can't open %s", realdev); return (0); } return (1); }