dockapps/ascd/libworkman/cdrom.c

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/*
* $Id: cdrom.c,v 1.10 1999/05/05 16:34:19 dirk Exp $
*
* This file is part of WorkMan, the civilized CD player library
* (c) 1991-1997 by Steven Grimm (original author)
* (c) by Dirk F<EFBFBD>rsterling (current 'author' = maintainer)
* The maintainer can be contacted by his e-mail address:
* milliByte@DeathsDoor.com
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the Free
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
*
* Interface between most of WorkMan and the low-level CD-ROM library
* routines defined in plat_*.c and drv_*.c. The goal is to have no
* platform- or drive-dependent code here.
*/
static char cdrom_id[] = "$Id: cdrom.c,v 1.10 1999/05/05 16:34:19 dirk Exp $";
#include <errno.h>
#include <stdio.h>
#include <unistd.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
/* #include <sys/time.h> */
#include "include/wm_config.h"
#include "include/wm_struct.h"
#include "include/wm_cddb.h"
#include "include/wm_cdrom.h"
#include "include/wm_database.h"
#include "include/wm_platform.h"
#include "include/wm_helpers.h"
#include "include/wm_cdinfo.h"
#ifdef CAN_CLOSE
#include <fcntl.h>
#endif
#define WM_MSG_CLASS WM_MSG_CLASS_CDROM
/* extern struct wm_drive generic_proto, toshiba_proto, sony_proto; */
/* toshiba33_proto; <=== Somehow, this got lost */
/*
* The supported drive types are listed here. NULL means match anything.
* The first match in the list is used, and substring matches are done (so
* put long names before their shorter prefixes.)
*/
struct drivelist {
char *ven;
char *mod;
char *rev;
struct wm_drive *proto;
} drives[] = {
{ "TOSHIBA", "XM-3501", NULL, &toshiba_proto },
{ "TOSHIBA", "XM-3401", NULL, &toshiba_proto },
{ "TOSHIBA", "XM-3301", NULL, &toshiba_proto },
{ "SONY", "CDU-8012", NULL, &sony_proto },
{ "SONY", "CDU 561", NULL, &sony_proto },
{ WM_STR_GENVENDOR, WM_STR_GENMODEL, WM_STR_GENREV, &generic_proto },
{ NULL, NULL, NULL, &generic_proto }
};
/*
* Solaris 2.2 will remove the device out from under us. Getting an ENOENT
* is therefore sometimes not a problem.
*/
int intermittent_dev = 0;
/*
* Do we want to keep the CD device open after quitting by default?
*
int keep_open = 0;
*/
#if defined DEFAULT_CD_DEVICE
char *cd_device = DEFAULT_CD_DEVICE;
#else
char *cd_device = NULL;
#endif
int wm_cd_cur_balance = 10;
struct wm_drive drive = { -1, "", "", "", NULL, NULL };
char _wm_drive_vendor[32] = "Generic";
char _wm_drive_model[32] = "drive type";
char _wm_drive_revision[32] = "";
/*
* Give information about the drive we found during wmcd_open()
*/
char *wm_drive_vendor( void )
{
char *s = NULL;
wm_strmcpy( &s, _wm_drive_vendor );
return s;
}
char *wm_drive_model( void )
{
char *s = NULL;
wm_strmcpy( &s, _wm_drive_model );
return s;
}
char *wm_drive_revision( void )
{
char *s = NULL;
wm_strmcpy( &s, _wm_drive_revision );
return s;
}
void wm_drive_settype( char *vendor, char *model, char *revision )
{
sprintf( _wm_drive_vendor, "%s", vendor );
sprintf( _wm_drive_model, "%s", model );
sprintf( _wm_drive_revision, "%s", revision );
}
/*
* Figure out which prototype drive structure we should be using based
* on the vendor, model, and revision of the current drive.
*/
struct wm_drive *
find_drive_struct(char *vendor, char *model, char *rev)
{
struct drivelist *d;
for (d = drives; d; d++)
{
if( ( (d->ven != NULL) && strncmp(d->ven, vendor, strlen(d->ven)) ) ||
( (d->mod != NULL) && strncmp(d->mod, model, strlen(d->mod)) ) ||
( (d->rev != NULL) && strncmp(d->rev, rev, strlen(d->rev)) ) )
continue;
if (d->proto->vendor[0] == '\0')
strcpy(d->proto->vendor, vendor);
if (d->proto->model[0] == '\0')
strcpy(d->proto->model, model);
return (d->proto);
}
return (NULL); /* this means the list is badly terminated. */
} /* find_drive_struct() */
/*
* read_toc()
*
* Read the table of contents from the CD. Return a pointer to a wm_cdinfo
* struct containing the relevant information (minus artist/cdname/etc.)
* This is a static struct. Returns NULL if there was an error.
*
* XXX allocates one trackinfo too many.
*/
struct wm_cdinfo *
read_toc()
{
struct wm_playlist *l;
int i, pos;
if ((drive.get_trackcount)(&drive, &thiscd.ntracks) < 0)
{
perror("trackcount");
return (NULL);
}
thiscd.artist[0] = thiscd.cdname[0] = '\0';
thiscd.whichdb = thiscd.otherrc = thiscd.otherdb = thiscd.user = NULL;
thiscd.length = 0;
thiscd.autoplay = thiscd.playmode = thiscd.volume = 0;
/* Free up any left-over playlists. */
if (thiscd.lists != NULL)
{
for (l = thiscd.lists; l->name != NULL; l++)
{
free(l->name);
free(l->list);
}
free(thiscd.lists);
thiscd.lists = NULL;
}
if (thiscd.trk != NULL)
free(thiscd.trk);
thiscd.trk = malloc((thiscd.ntracks + 1) * sizeof(struct wm_trackinfo));
if (thiscd.trk == NULL)
{
perror("malloc");
return (NULL);
}
for (i = 0; i < thiscd.ntracks; i++)
{
if ((drive.get_trackinfo)(&drive, i + 1, &thiscd.trk[i].data,
&thiscd.trk[i].start) < 0)
{
perror("CD track info read");
return (NULL);
}
thiscd.trk[i].avoid = thiscd.trk[i].data;
thiscd.trk[i].length = thiscd.trk[i].start / 75;
thiscd.trk[i].songname = thiscd.trk[i].otherrc =
thiscd.trk[i].otherdb = NULL;
thiscd.trk[i].contd = 0;
thiscd.trk[i].volume = 0;
thiscd.trk[i].track = i + 1;
thiscd.trk[i].section = 0;
}
if ((drive.get_cdlen)(&drive, &thiscd.trk[i].start) < 0)
{
perror("CD length read");
return (NULL);
}
thiscd.trk[i].length = thiscd.trk[i].start / 75;
/* Now compute actual track lengths. */
pos = thiscd.trk[0].length;
for (i = 0; i < thiscd.ntracks; i++)
{
thiscd.trk[i].length = thiscd.trk[i+1].length - pos;
pos = thiscd.trk[i+1].length;
if (thiscd.trk[i].data)
thiscd.trk[i].length = (thiscd.trk[i + 1].start -
thiscd.trk[i].start) * 2;
if (thiscd.trk[i].avoid)
wm_strmcpy(&thiscd.trk[i].songname, "DATA TRACK");
}
thiscd.length = thiscd.trk[thiscd.ntracks].length;
thiscd.cddbid = cddb_discid(drive);
return (&thiscd);
}
/*
* wm_cd_status()
*
* Return values:
*
* 0 No CD in drive.
* 1 CD in drive.
* 2 CD has just been inserted (TOC has been read)
*
* Updates cur_track, cur_pos_rel, cur_pos_abs and other variables.
*/
int
wm_cd_status( void )
{
static enum wm_cd_modes oldmode = WM_CDM_UNKNOWN;
enum wm_cd_modes mode;
int status, trackno = cur_track;
int ret = WM_CDS_DISC_READY;
/* Open the drive. This returns 1 if the device isn't ready. */
status = wmcd_open(&drive);
if (status < 0)
return (status);
if (status > 0)
return (WM_CDS_NO_DISC);
/* If the user hit the stop button, don't pass PLAYING as oldmode.
* Likewise, if we've just started playing, don't remember that
* we were stopped before (or the state machine in get_drive_status
* can get confused.)
*/
if( (cur_cdmode == WM_CDM_STOPPED) || (cur_cdmode == WM_CDM_PLAYING) )
oldmode = cur_cdmode;
if( (drive.get_drive_status)(&drive, oldmode, &mode, &cur_frame,
&trackno, &cur_index) < 0)
{
perror("CD get drive status");
return (-1);
}
oldmode = mode;
if (mode == WM_CDM_EJECTED || mode == WM_CDM_UNKNOWN)
{
cur_cdmode = WM_CDM_EJECTED;
cur_track = -1;
cur_cdlen = cur_tracklen = 1;
cur_pos_abs = cur_pos_rel = cur_frame = 0;
if (exit_on_eject)
exit(0);
return (WM_CDS_NO_DISC);
}
/* If there wasn't a CD before and there is now, learn about it. */
if (cur_cdmode == WM_CDM_EJECTED)
{
cur_pos_rel = cur_pos_abs = 0;
status = wmcd_reopen( &drive );
if ((cd = read_toc()) == NULL)
{
if (exit_on_eject)
{
exit(-1);
} else {
return (-1);
}
}
cur_nsections = 0;
cur_ntracks = cd->ntracks;
cur_cdlen = cd->length;
load();
cur_artist = cd->artist;
cur_cdname = cd->cdname;
cur_cdmode = WM_CDM_STOPPED;
ret = WM_CDS_JUST_INSERTED;
}
switch (mode) {
case WM_CDM_PLAYING:
case WM_CDM_PAUSED:
cur_pos_abs = cur_frame / 75;
/* Only look up the current track number if necessary. */
if (cur_track < 1 || cur_frame < cd->trk[cur_track-1].start ||
cur_frame >= (cur_track >= cur_ntracks ?
(cur_cdlen + 1) * 75 :
cd->trk[cur_track].start))
{
cur_track = 0;
while (cur_track < cur_ntracks && cur_frame >=
cd->trk[cur_track].start)
cur_track++;
}
if (cur_track >= 1 && trackno > cd->trk[cur_track-1].track)
cur_track++;
/* Fall through */
case WM_CDM_UNKNOWN:
if (mode == WM_CDM_UNKNOWN)
{
mode = WM_CDM_STOPPED;
cur_lasttrack = cur_firsttrack = -1;
}
/* Fall through */
case WM_CDM_STOPPED:
if (cur_track >= 1 && cur_track <= cur_ntracks)
{
cur_trackname = cd->trk[cur_track-1].songname;
cur_avoid = cd->trk[cur_track-1].avoid;
cur_contd = cd->trk[cur_track-1].contd;
cur_pos_rel = (cur_frame -
cd->trk[cur_track-1].start) / 75;
if (cur_pos_rel < 0)
cur_pos_rel = -cur_pos_rel;
}
if( (playlist != NULL) && playlist[0].start & (cur_listno > 0))
{
cur_pos_abs -= cd->trk[playlist[cur_listno-1].
start - 1].start / 75;
cur_pos_abs += playlist[cur_listno-1].starttime;
}
if (cur_pos_abs < 0)
cur_pos_abs = cur_frame = 0;
if (cur_track < 1)
cur_tracklen = cd->length;
else
cur_tracklen = cd->trk[cur_track-1].length;
/* Fall through */
case WM_CDM_TRACK_DONE:
cur_cdmode = mode;
break;
case WM_CDM_FORWARD:
case WM_CDM_EJECTED:
break;
}
return (ret);
}
#undef CLIF_VOL
#ifdef CLIF_VOL
/*
* cd_volume(vol, bal, max)
*
* Set the volume levels. "vol" and "bal" are the volume and balance knob
* settings, respectively. "max" is the maximum value of the volume knob
* (the balance knob is assumed to always go from 0 to 20.)
*/
void
cd_volume(vol, bal, max)
int vol, bal, max;
{
int left, right, scale;
/*
* Set "left" and "right" to volume-slider values accounting for the
* balance setting.
*/
/* printf("Vol = %d, Bal = %d, Max = %d\n", vol, bal, max);
*/
vol = (vol * 100 + max - 16) / max;
scale = (vol + 5) / 10;
if (bal < 9)
{
right = vol - scale * (10 - bal);
#ifdef SYMETRIC_BALANCE
left = vol + scale * (10 - bal);
#else
left = vol;
#endif
}
else if (bal > 11)
{
#ifdef SYMETRIC_BALANCE
right = vol + scale * (bal - 10);
#else
right = vol;
#endif
left = vol - scale * (bal - 10);
}
else
left = right = vol;
/*
* some plat_*.c is missing the limitation
*/
left = left < 0 ? 0 : left > 100 ? 100 : left;
right = right < 0 ? 0 : right > 100 ? 100 : right;
/* printf("Left = %d, Right = %d\n", left, right);
*/
(void) (drive.set_volume)(&drive, left, right);
} /* cd_volume() */
#else
/*
* cd_volume(vol, bal, max)
*
* Set the volume levels. "vol" and "bal" are the volume and balance knob
* settings, respectively. "max" is the maximum value of the volume knob
* (the balance knob is assumed to always go from 0 to 20.)
*/
void
cd_volume( int vol, int bal, int max )
{
int left, right;
/*
* Set "left" and "right" to volume-slider values accounting for the
* balance setting.
*
* XXX - the maximum volume setting is assumed to be in the 20-30 range.
*/
if (bal < 9)
right = vol - (9 - bal) * 2;
else
right = vol;
if (bal > 11)
left = vol - (bal - 11) * 2;
else
left = vol;
left = (left * 100 + max - 1) / max;
right = (right * 100 + max - 1) / max;
if (left > 100)
left = 100;
if (right > 100)
right = 100;
(void) (drive.set_volume)(&drive, left, right);
} /* cd_volume() */
#endif /* CLIF_VOL */
/*
* wm_cd_pause()
*
* Pause the CD, if it's in play mode. If it's already paused, go back to
* play mode.
*/
void
wm_cd_pause( void )
{
static int paused_pos;
if (cur_cdmode == WM_CDM_EJECTED) /* do nothing if there's no CD! */
return;
switch (cur_cdmode) {
case WM_CDM_PLAYING: /* playing */
cur_cdmode = WM_CDM_PAUSED;
(drive.pause)(&drive);
paused_pos = cur_pos_rel;
break;
case WM_CDM_PAUSED: /* paused */
cur_cdmode = WM_CDM_PLAYING;
/* (drive.resume)(&drive); */
if ((drive.resume)(&drive))
wm_cd_play(cur_track, paused_pos,
playlist[cur_listno-1].end);
default: /* */
break;
}
} /* wm_cd_pause() */
/*
* wm_cd_stop()
*
* Stop the CD if it's not already stopped.
*/
void
wm_cd_stop( void )
{
if (cur_cdmode == WM_CDM_EJECTED)
return;
if (cur_cdmode != WM_CDM_STOPPED)
{
cur_lasttrack = cur_firsttrack = -1;
cur_cdmode = WM_CDM_STOPPED;
(drive.stop)(&drive);
cur_track = 1;
}
} /* wm_cd_stop() */
/*
* wm_cd_play_chunk(start, end)
*
* Play the CD from one position to another (both in frames.)
*/
void
wm_cd_play_chunk( int start, int end, int realstart )
{
if (cur_cdmode == WM_CDM_EJECTED || cd == NULL)
return;
end--;
if (start >= end)
start = end-1;
(drive.play)(&drive, start, end, realstart);
}
/*
* wm_cd_play(starttrack, pos, endtrack)
*
* Start playing the CD or jump to a new position. "pos" is in seconds,
* relative to start of track.
*/
void
wm_cd_play( int start, int pos, int end )
{
if (cur_cdmode == WM_CDM_EJECTED || cd == NULL)
return;
cur_firsttrack = start;
start--;
end--;
cur_lasttrack = end;
wm_cd_play_chunk(cd->trk[start].start + pos * 75, end >= cur_ntracks ?
cur_cdlen * 75 : cd->trk[end].start - 1,
cd->trk[start].start);
/* So we don't update the display with the old frame number */
wm_cd_status();
cur_frame = cd->trk[start].start + pos * 75;
cur_track = cur_firsttrack;
cur_cdmode = WM_CDM_PLAYING;
}
/*
* Set the offset into the current track and play. -1 means end of track
* (i.e., go to next track.)
*/
void
wm_cd_play_from_pos( int pos )
{
if (pos == -1)
if (cd)
pos = cd->trk[cur_track - 1].length - 1;
if (cur_cdmode == WM_CDM_PLAYING)
wm_cd_play(cur_track, pos, playlist[cur_listno-1].end);
} /* wm_cd_play_from_pos() */
/*
* Eject the current CD, if there is one, and set the mode to 5.
*
* Returns 0 on success, 1 if the CD couldn't be ejected, or 2 if the
* CD contains a mounted filesystem.
*/
int
wm_cd_eject( void )
{
int status;
status = (drive.eject)(&drive);
if (status < 0)
{
if (status == -3)
{
return (2);
} else {
return (1);
}
}
if (exit_on_eject)
exit(0);
cur_track = -1;
cur_cdlen = cur_tracklen = 1;
cur_pos_abs = cur_pos_rel = cur_frame = 0;
cur_cdmode = WM_CDM_EJECTED;
return (0);
}
int wm_cd_closetray(void)
{
return((drive.closetray)(&drive) ? 0 : wm_cd_status()==2 ? 1 : 0);
} /* wm_cd_closetray() */
/*
* find_trkind(track, index, start)
*
* Start playing at a particular track and index, optionally using a particular
* frame as a starting position. Returns a frame number near the start of the
* index mark if successful, 0 if the track/index didn't exist.
*
* This is made significantly more tedious (though probably easier to port)
* by the fact that CDROMPLAYTRKIND doesn't work as advertised. The routine
* does a binary search of the track, terminating when the interval gets to
* around 10 frames or when the next track is encountered, at which point
* it's a fair bet the index in question doesn't exist.
*/
int
find_trkind( int track, int index, int start )
{
int top = 0, bottom, current, interval, ret = 0, i;
if( cur_cdmode == WM_CDM_EJECTED || cd == NULL )
return ( 0 ); /* WARNING: was nothing */
for (i = 0; i < cur_ntracks; i++)
if (cd->trk[i].track == track)
break;
bottom = cd->trk[i].start;
for (; i < cur_ntracks; i++)
if (cd->trk[i].track > track)
break;
top = i == cur_ntracks ? (cd->length - 1) * 75 : cd->trk[i].start;
if (start > bottom && start < top)
bottom = start;
current = (top + bottom) / 2;
interval = (top - bottom) / 4;
do {
wm_cd_play_chunk(current, current + 75, current);
if (wm_cd_status() != 1)
return (0);
while (cur_frame < current)
if (wm_cd_status() != 1 || cur_cdmode != WM_CDM_PLAYING)
return (0);
else
wm_susleep(1);
if (cd->trk[cur_track - 1].track > track)
break;
if (cur_index >= index)
{
ret = current;
current -= interval;
}
else
current += interval;
interval /= 2;
} while (interval > 2);
return (ret);
} /* find_trkind() */
/*
* Read the initial volume from the drive, if available. Set cur_balance to
* the balance level (0-20, 10=centered) and return the proper setting for
* the volume knob.
*
* "max" is the maximum value of the volume knob.
*/
int
wm_cd_read_initial_volume( int max )
{
int left, right;
if ((drive.get_volume)(&drive, &left, &right) < 0 || left == -1)
return (max);
left = (left * max + 99) / 100;
right = (right * max + 99) / 100;
if (left < right)
{
wm_cd_cur_balance = (right - left) / 2 + 11;
if (wm_cd_cur_balance > 20)
wm_cd_cur_balance = 20;
return (right);
}
else if (left == right)
{
wm_cd_cur_balance = 10;
return (left);
}
else
{
wm_cd_cur_balance = (right - left) / 2 + 9;
if (wm_cd_cur_balance < 0)
wm_cd_cur_balance = 0;
return (left);
}
} /* wm_cd_read_initial_volume() */
/*
* Prototype wm_drive structure, with generic functions. The generic functions
* will be replaced with drive-specific functions as appropriate once the drive
* type has been sensed.
*/
struct wm_drive generic_proto = {
-1, /* fd */
"Generic\0", /* vendor */
"drive type\0 ", /* model */
"\0", /* revision */
NULL, /* aux */
NULL, /* daux */
gen_init, /* functions... */
gen_get_trackcount,
gen_get_cdlen,
gen_get_trackinfo,
gen_get_drive_status,
gen_get_volume,
gen_set_volume,
gen_pause,
gen_resume,
gen_stop,
gen_play,
gen_eject,
gen_closetray
};