/*
* Class: org_tritonus_lowlevel_cdda_cdparanoia_Cdparanoia
* Method: open
* Signature: (Ljava/lang/String;)I
*/
JNIEXPORT jint JNICALL
Java_org_tritonus_lowlevel_cdda_cdparanoia_Cdparanoia_open
(JNIEnv *env, jobject obj, jstring strDevice)
{
int nReturn;
const char* cd_dev;
cdrom_drive* cdrom = NULL;
handle_t* pHandle;
int nParanoiaMode;
if (debug_flag) { fprintf(debug_file, "Java_org_tritonus_lowlevel_cdda_cdparanoia_Cdparanoia_open(): begin\n"); }
cd_dev = (*env)->GetStringUTFChars(env, strDevice, NULL);
if (cd_dev == NULL)
{
if (debug_flag) { fprintf(debug_file, "Java_org_tritonus_lowlevel_cdda_cdparanoia_Cdparanoia_open(): GetStringUTFChars() failed.\n"); }
return -1;
}
if (debug_flag) { fprintf(debug_file, "Java_org_tritonus_lowlevel_cdda_cdparanoia_Cdparanoia_open(): device name: %s\n", cd_dev); }
cdrom = cdda_identify(cd_dev, 0, NULL);
if (debug_flag) { fprintf(debug_file, "Java_org_tritonus_lowlevel_cdda_cdparanoia_Cdparanoia_open(): device name: %s\n", cd_dev); }
(*env)->ReleaseStringUTFChars(env, strDevice, cd_dev);
if (cdrom == NULL)
{
if (debug_flag) { fprintf(debug_file, "Java_org_tritonus_lowlevel_cdda_cdparanoia_Cdparanoia_open(): cdda_identify() failed.\n"); }
return -1;
}
nReturn = cdda_open(cdrom);
if (nReturn < 0)
{
if (debug_flag) { fprintf(debug_file, "Java_org_tritonus_lowlevel_cdda_cdparanoia_Cdparanoia_open(): cdda_open() failed.\n"); }
return -1;
}
if (debug_flag) { fprintf(debug_file, "Java_org_tritonus_lowlevel_cdda_cdparanoia_Cdparanoia_open(): drive endianess: %d\n", cdrom->bigendianp); }
pHandle = (handle_t*) malloc(sizeof(handle_t));
if (pHandle == NULL)
{
if (debug_flag) { fprintf(debug_file, "Java_org_tritonus_lowlevel_cdda_cdparanoia_Cdparanoia_open(): malloc() failed.\n"); }
cdda_close(cdrom);
return -1;
}
pHandle->drive = cdrom;
pHandle->paranoia = paranoia_init(pHandle->drive);
if (pHandle->paranoia == NULL)
{
if (debug_flag) { fprintf(debug_file, "Java_org_tritonus_lowlevel_cdda_cdparanoia_Cdparanoia_open(): paranoia_init() failed.\n"); }
cdda_close(pHandle->drive);
free(pHandle);
return -1;
}
nParanoiaMode = getParanoiaMode();
if (debug_flag) { fprintf(debug_file, "Java_org_tritonus_lowlevel_cdda_cdparanoia_Cdparanoia_open(): paranoia mode: %d\n", nParanoiaMode); }
paranoia_modeset(pHandle->paranoia, nParanoiaMode);
setHandle(env, obj, pHandle);
if (debug_flag) { fprintf(debug_file, "Java_org_tritonus_lowlevel_cdda_cdparanoia_Cdparanoia_open(): end\n"); }
return 0;
}
int rip (cdrom_drive *drive, text_tag_s **text_tags, char **filenames)
{
int i, len;
rip_opts_s *rip_opts = parse_config (NULL);
for (i = 0; text_tags[i] != NULL; i++)
/* just counting */;
len = i;
for (i = 0; text_tags[i] != NULL; i++) {
char *filename;
if (filenames == NULL) {
filename = build_filename (text_tags[i]);
}
else {
filename = filenames[i];
}
encode_ogg (drive, rip_opts, text_tags[i], i + 1, len, filename, filenames);
free_text_tag (text_tags[i]);
}
free (text_tags);
update_statistics (0, 0, 0, 0, len, 1, NULL);
free (rip_opts);
cdda_close (drive);
return 0;
}
static void close_cdda(stream_t *s)
{
cdda_priv *p = (cdda_priv *)s->priv;
paranoia_free(p->cdp);
cdda_close(p->cd);
free(p);
}
void CdParanoia::free() {
if (paranoia) {
paranoia_free(paranoia);
paranoia = 0;
}
if (drive) {
cdda_close(drive);
drive = 0;
}
}
void CddaImpl::close()
{
_is_open = false;
// Close cd-rom connection
// cddda_close destroys _cdio
if (_cdrom != NULL)
{
cdda_close(_cdrom);
}
}
void CDDAParanoia::_paranoia_free() {
//mutex.lock();
if (paranoia) {
paranoia_free(paranoia);
paranoia = 0;
}
if (paranoia_drive) {
cdda_close(paranoia_drive);
paranoia_drive = 0;
}
//mutex.unlock();
}
/* This is run automatically before leaving the program.
Free allocated resources.
*/
static void
cleanup (void)
{
if (p) paranoia_free(p);
if (d) cdda_close(d);
free_and_null(force_cdrom_device);
free_and_null(span);
if(logfile_open) {
fclose(logfile);
logfile = NULL;
}
if(reportfile_open) {
fclose(reportfile);
reportfile = NULL;
}
}
static void
gst_cd_paranoia_src_close (GstCddaBaseSrc * cddabasesrc)
{
GstCdParanoiaSrc *src = GST_CD_PARANOIA_SRC (cddabasesrc);
if (src->p) {
paranoia_free (src->p);
src->p = NULL;
}
if (src->d) {
cdda_close (src->d);
src->d = NULL;
}
src->next_sector = -1;
}
static void
gst_cd_paranoia_src_close (GstAudioCdSrc * audiocdsrc)
{
GstCdParanoiaSrc *src = GST_CD_PARANOIA_SRC (audiocdsrc);
if (src->p) {
paranoia_free (src->p);
src->p = NULL;
}
if (src->d) {
cdda_close (src->d);
src->d = NULL;
}
src->next_sector = -1;
}
/* mutex must be locked */
static void refresh_trackinfo (gboolean warning)
{
trigger_monitor ();
if (pcdrom_drive == NULL)
{
open_cd ();
if (pcdrom_drive == NULL)
return;
}
int mode = cdio_get_discmode (pcdrom_drive->p_cdio);
#ifdef _WIN32 /* cdio_get_discmode reports the wrong disk type sometimes */
if (mode == CDIO_DISC_MODE_NO_INFO || mode == CDIO_DISC_MODE_ERROR)
#else
if (mode != CDIO_DISC_MODE_CD_DA && mode != CDIO_DISC_MODE_CD_MIXED)
#endif
{
if (warning)
{
if (mode == CDIO_DISC_MODE_NO_INFO)
cdaudio_error (_("Drive is empty."));
else
cdaudio_error (_("Unsupported disk type."));
}
/* reset libcdio, else it will not read a new disk correctly */
if (pcdrom_drive)
{
cdda_close (pcdrom_drive);
pcdrom_drive = NULL;
}
g_free (trackinfo);
trackinfo = NULL;
return;
}
if (trackinfo == NULL || cdio_get_media_changed (pcdrom_drive->p_cdio))
{
g_free (trackinfo);
trackinfo = NULL;
scan_cd ();
}
}
/* main thread only */
static void cdaudio_cleanup (void)
{
g_mutex_lock (mutex);
if (monitor_source)
{
g_source_remove (monitor_source);
monitor_source = 0;
}
if (pcdrom_drive != NULL)
{
cdda_close (pcdrom_drive);
pcdrom_drive = NULL;
}
if (trackinfo != NULL)
{
g_free (trackinfo);
trackinfo = NULL;
}
libcddb_shutdown ();
// todo: destroy the gui
mlp_set_bool ("CDDA", "use_cdtext", cdng_cfg.use_cdtext);
mlp_set_bool ("CDDA", "use_cddb", cdng_cfg.use_cddb);
mlp_set_string ("CDDA", "device", cdng_cfg.device);
mlp_set_string ("CDDA", "cddbserver", cdng_cfg.cddb_server);
mlp_set_string ("CDDA", "cddbpath", cdng_cfg.cddb_path);
mlp_set_int ("CDDA", "cddbport", cdng_cfg.cddb_port);
mlp_set_bool ("CDDA", "cddbhttp", cdng_cfg.cddb_http);
mlp_set_int ("CDDA", "disc_speed", cdng_cfg.disc_speed);
g_free (cdng_cfg.device);
g_free (cdng_cfg.cddb_server);
g_free (cdng_cfg.cddb_path);
g_free (cdng_cfg.proxy_host);
g_free (cdng_cfg.proxy_username);
g_free (cdng_cfg.proxy_password);
g_mutex_unlock (mutex);
g_mutex_free (mutex);
}
static void
cda_free (DB_fileinfo_t *_info)
{
if (_info) {
cdda_info_t *info = (cdda_info_t *)_info;
if (info->cdio) {
cdio_destroy (info->cdio);
}
#if USE_PARANOIA
if (info->paranoia) {
paranoia_free(info->paranoia);
}
if (info->cdrom) {
cdda_close(info->cdrom);
}
#endif
free (info);
}
}
void CdParanoia::free()
{
if (paranoia) {
#ifdef CDIOPARANOIA_FOUND
cdio_paranoia_free(paranoia);
#else
paranoia_free(paranoia);
#endif
paranoia = 0;
}
if (drive) {
#ifdef CDIOPARANOIA_FOUND
cdio_cddap_close(drive);
#else
cdda_close(drive);
#endif
drive = 0;
}
}
int main(int argc, char *argv[])
{
ZInfo4(DBG_MISC, "Start CDDetection\n");
static cdrom_drive *d = NULL;
if (signal(SIGINT | SIGKILL | SIGTERM | SIGSTOP | SIGHUP, catchKill) == SIG_ERR) {
ZWarning(DBG_INIT, "Unable to set SIGINT to catchKill function");
}
//lock the cdrom
i_cdHandler = zrip_lock_cdrom( ZLOCK_CDROM_FILE);
//search for CDROM
d = cdda_find_a_cdrom(0, NULL);
if(!d){
ZError(DBG_INIT, "Can not find cdrom drive.\n");
return(-1);
}
ZInfo4(DBG_MISC, "Waiting for CD insert\n");
while(1) {
if(cdda_open(d) == 0){
// found a cd had been inserted
ZInfo4(DBG_MISC, "CD Inserted\n");
SendZMXEvent(ZAPP_ZQ_SOCKET,
ZMX_EVT_WAKEUP_CDINSERT,
strlen(ZMX_EVT_WAKEUP_CDINSERT));
break;
}
}
if(d)
cdda_close(d);
//release cdrom lock
zrip_unlock_cdrom(i_cdHandler);
i_cdHandler = -1;
ZInfo4(DBG_MISC, "Exit CDDetectThread!\n");
return 0;
}
/*
* Class: org_tritonus_lowlevel_cdda_cdparanoia_Cdparanoia
* Method: close
* Signature: ()V
*/
JNIEXPORT void JNICALL
Java_org_tritonus_lowlevel_cdda_cdparanoia_Cdparanoia_close
(JNIEnv *env, jobject obj)
{
handle_t* handle;
cdrom_drive* cdrom;
if (debug_flag) { fprintf(debug_file, "Java_org_tritonus_lowlevel_cdda_cdparanoia_Cdparanoia_close(): begin\n"); }
// TODO: close paranoia pointer?
handle = getHandle(env, obj);
if (handle != NULL)
{
cdrom = handle->drive;
if (cdrom != NULL)
{
cdda_close(cdrom);
}
}
if (debug_flag) { fprintf(debug_file, "Java_org_tritonus_lowlevel_cdda_cdparanoia_Cdparanoia_close(): end\n"); }
}
/* this function gets called by the gui to update mplayer */
static void guiSetEvent(int event)
{
if(guiInfo.mpcontext)
mixer = mpctx_get_mixer(guiInfo.mpcontext);
switch(event)
{
case evPlay:
case evPlaySwitchToPause:
case evPauseSwitchToPlay:
uiPlay();
break;
case evPause:
uiPause();
break;
#ifdef CONFIG_DVDREAD
case evPlayDVD:
{
static char dvdname[MAX_PATH];
guiInfo.Track = 1;
guiInfo.Chapter = 1;
guiInfo.Angle = 1;
guiInfo.NewPlay = GUI_FILE_SAME;
#ifdef __WINE__
// dvd_device is in the Windows style (D:\), which needs to be
// converted for MPlayer, so that it will find the device in the
// Linux filesystem.
dvd_device = unix_device(dvd_device);
#endif
uiSetFileName(NULL, dvd_device, STREAMTYPE_DVD);
dvdname[0] = 0;
strcat(dvdname, "DVD Movie");
GetVolumeInformation(dvd_device, dvdname, MAX_PATH, NULL, NULL, NULL, NULL, 0);
capitalize(dvdname);
mp_msg(MSGT_GPLAYER, MSGL_V, "Opening DVD %s -> %s\n", dvd_device, dvdname);
mygui->playlist->clear_playlist(mygui->playlist);
mygui->playlist->add_track(mygui->playlist, filename, NULL, dvdname, 0);
uiPlay();
break;
}
#endif
#ifdef CONFIG_CDDA
case evPlayCD:
{
int i;
char track[10];
char trackname[10];
#ifdef CONFIG_LIBCDIO
cdrom_drive_t *cd;
#else
cdrom_drive *cd;
#endif
int i_tracks;
#ifdef __WINE__
// cdrom_device is in the Windows style (D:\), which needs to be
// converted for MPlayer, so that it will find the device in the
// Linux filesystem.
cdrom_device = unix_device(cdrom_device);
#endif
cd = cdda_identify(cdrom_device, 0, NULL);
if (cd)
{
if (cdda_open(cd) != 0)
{
cdda_close(cd);
cd = NULL;
}
}
if(!cd)
{
printf("Couldn't find a driver.\n");
break;
}
i_tracks = cdda_tracks(cd);
mygui->playlist->clear_playlist(mygui->playlist);
for(i=0;i<i_tracks;i++)
{
sprintf(track, "cdda://%d", i+1);
sprintf(trackname, "Track %d", i+1);
mygui->playlist->add_track(mygui->playlist, track, NULL, trackname, 0);
}
cdda_close(cd);
mygui->startplay(mygui);
break;
}
#endif
case evFullScreen:
mp_input_queue_cmd(mp_input_parse_cmd("vo_fullscreen"));
break;
case evExit:
{
/* We are asking mplayer to exit, later it will ask us after uninit is made
this should be the only safe way to quit */
mygui->activewidget = NULL;
mp_input_queue_cmd(mp_input_parse_cmd("quit"));
break;
}
case evStop:
if(guiInfo.Playing)
gui(GUI_SET_STATE, (void *) GUI_STOP);
break;
case evSetMoviePosition:
{
rel_seek_secs = guiInfo.Position / 100.0f;
abs_seek_pos = 3;
break;
}
case evForward10sec:
{
rel_seek_secs = 10.0f;
abs_seek_pos = 0;
break;
}
case evBackward10sec:
{
rel_seek_secs = -10.0f;
abs_seek_pos = 0;
break;
}
case evSetBalance:
case evSetVolume:
{
float l,r;
if (guiInfo.Playing == GUI_STOP)
break;
if (guiInfo.Balance == 50.0f)
mixer_setvolume(mixer, guiInfo.Volume, guiInfo.Volume);
l = guiInfo.Volume * ((100.0f - guiInfo.Balance) / 50.0f);
r = guiInfo.Volume * ((guiInfo.Balance) / 50.0f);
if (l > guiInfo.Volume) l=guiInfo.Volume;
if (r > guiInfo.Volume) r=guiInfo.Volume;
mixer_setvolume(mixer, l, r);
/* Check for balance support on mixer - there is a better way ?? */
if (r != l)
{
mixer_getvolume(mixer, &l, &r);
if (r == l)
{
mp_msg(MSGT_GPLAYER, MSGL_V, "[GUI] Mixer doesn't support balanced audio\n");
mixer_setvolume(mixer, guiInfo.Volume, guiInfo.Volume);
guiInfo.Balance = 50.0f;
}
}
break;
}
case evMute:
{
mp_cmd_t * cmd = calloc(1, sizeof(*cmd));
cmd->id=MP_CMD_MUTE;
cmd->name=strdup("mute");
mp_input_queue_cmd(cmd);
break;
}
case evLoadPlay:
{
switch(guiInfo.StreamType)
{
case STREAMTYPE_DVD:
{
guiInfo.NewPlay = GUI_FILE_SAME;
gui(GUI_SET_STATE, (void *) GUI_PLAY);
break;
}
default:
{
guiInfo.NewPlay = GUI_FILE_NEW;
update_playlistwindow();
uiGotoTheNext = guiInfo.Playing? 0 : 1;
gui(GUI_SET_STATE, (void *) GUI_STOP);
gui(GUI_SET_STATE, (void *) GUI_PLAY);
break;
}
}
break;
}
case evNext:
uiNext();
break;
case evPrev:
uiPrev();
break;
}
}
LocalAudioCD::~LocalAudioCD()
{
if (m_cdt)
cdda_close((cdrom_drive*)m_cdt);
// TRACE << "~LocalAudioCD\n";
}
static gboolean
gst_cd_paranoia_src_open (GstAudioCdSrc * audiocdsrc, const gchar * device)
{
GstCdParanoiaSrc *src = GST_CD_PARANOIA_SRC (audiocdsrc);
gint i, cache_size;
GST_DEBUG_OBJECT (src, "trying to open device %s (generic-device=%s) ...",
device, GST_STR_NULL (src->generic_device));
/* find the device */
if (src->generic_device != NULL) {
src->d = cdda_identify_scsi (src->generic_device, device, FALSE, NULL);
} else {
if (device != NULL) {
src->d = cdda_identify (device, FALSE, NULL);
} else {
src->d = cdda_identify ("/dev/cdrom", FALSE, NULL);
}
}
/* fail if the device couldn't be found */
if (src->d == NULL)
goto no_device;
/* set verbosity mode */
cdda_verbose_set (src->d, CDDA_MESSAGE_FORGETIT, CDDA_MESSAGE_FORGETIT);
/* open the disc */
if (cdda_open (src->d))
goto open_failed;
GST_INFO_OBJECT (src, "set read speed to %d", src->read_speed);
cdda_speed_set (src->d, src->read_speed);
for (i = 1; i < src->d->tracks + 1; i++) {
GstAudioCdSrcTrack track = { 0, };
track.num = i;
track.is_audio = IS_AUDIO (src->d, i - 1);
track.start = cdda_track_firstsector (src->d, i);
track.end = cdda_track_lastsector (src->d, i);
track.tags = NULL;
gst_audio_cd_src_add_track (GST_AUDIO_CD_SRC (src), &track);
}
/* create the paranoia struct and set it up */
src->p = paranoia_init (src->d);
if (src->p == NULL)
goto init_failed;
paranoia_modeset (src->p, src->paranoia_mode);
GST_INFO_OBJECT (src, "set paranoia mode to 0x%02x", src->paranoia_mode);
if (src->search_overlap != -1) {
paranoia_overlapset (src->p, src->search_overlap);
GST_INFO_OBJECT (src, "search overlap set to %u", src->search_overlap);
}
cache_size = src->cache_size;
if (cache_size == -1) {
/* if paranoia mode is low (the default), assume we're doing playback */
if (src->paranoia_mode <= PARANOIA_MODE_FRAGMENT)
cache_size = 150;
else
cache_size = paranoia_cachemodel_size (src->p, -1);
}
paranoia_cachemodel_size (src->p, cache_size);
GST_INFO_OBJECT (src, "set cachemodel size to %u", cache_size);
src->next_sector = -1;
return TRUE;
/* ERRORS */
no_device:
{
GST_ELEMENT_ERROR (src, RESOURCE, OPEN_READ,
(_("Could not open CD device for reading.")), ("cdda_identify failed"));
return FALSE;
}
open_failed:
{
GST_ELEMENT_ERROR (src, RESOURCE, OPEN_READ,
(_("Could not open CD device for reading.")), ("cdda_open failed"));
cdda_close (src->d);
src->d = NULL;
return FALSE;
}
init_failed:
{
GST_ELEMENT_ERROR (src, LIBRARY, INIT,
("failed to initialize paranoia"), ("failed to initialize paranoia"));
return FALSE;
}
}
static int open_cdda(stream_t *st, int m)
{
cdda_priv *priv = st->priv;
cdda_priv *p = priv;
int mode = p->paranoia_mode;
int offset = p->toc_offset;
cdrom_drive_t *cdd = NULL;
int last_track;
if (m != STREAM_READ) {
return STREAM_UNSUPPORTED;
}
if (!p->device) {
if (cdrom_device)
p->device = talloc_strdup(NULL, cdrom_device);
else
p->device = talloc_strdup(NULL, DEFAULT_CDROM_DEVICE);
}
#if defined(__NetBSD__)
cdd = cdda_identify_scsi(p->device, p->device, 0, NULL);
#else
cdd = cdda_identify(p->device, 0, NULL);
#endif
if (!cdd) {
MP_ERR(st, "Can't open CDDA device.\n");
return STREAM_ERROR;
}
cdda_verbose_set(cdd, CDDA_MESSAGE_FORGETIT, CDDA_MESSAGE_FORGETIT);
if (p->sector_size)
cdd->nsectors = p->sector_size;
if (cdda_open(cdd) != 0) {
MP_ERR(st, "Can't open disc.\n");
cdda_close(cdd);
return STREAM_ERROR;
}
priv = malloc(sizeof(cdda_priv));
memset(priv, 0, sizeof(cdda_priv));
priv->cd = cdd;
if (p->toc_bias)
offset -= cdda_track_firstsector(cdd, 1);
if (offset) {
for (int n = 0; n < cdd->tracks + 1; n++)
cdd->disc_toc[n].dwStartSector += offset;
}
if (p->speed > 0)
cdda_speed_set(cdd, p->speed);
last_track = cdda_tracks(cdd);
if (p->span[0] > last_track)
p->span[0] = last_track;
if (p->span[1] < p->span[0])
p->span[1] = p->span[0];
if (p->span[1] > last_track)
p->span[1] = last_track;
if (p->span[0])
priv->start_sector = cdda_track_firstsector(cdd, p->span[0]);
else
priv->start_sector = cdda_disc_firstsector(cdd);
if (p->span[1])
priv->end_sector = cdda_track_lastsector(cdd, p->span[1]);
else
priv->end_sector = cdda_disc_lastsector(cdd);
priv->cdp = paranoia_init(cdd);
if (priv->cdp == NULL) {
cdda_close(cdd);
free(priv);
return STREAM_ERROR;
}
if (mode == 0)
mode = PARANOIA_MODE_DISABLE;
else if (mode == 1)
mode = PARANOIA_MODE_OVERLAP;
else
mode = PARANOIA_MODE_FULL;
if (p->no_skip)
mode |= PARANOIA_MODE_NEVERSKIP;
else
mode &= ~PARANOIA_MODE_NEVERSKIP;
if (p->search_overlap > 0)
mode |= PARANOIA_MODE_OVERLAP;
else if (p->search_overlap == 0)
mode &= ~PARANOIA_MODE_OVERLAP;
paranoia_modeset(priv->cdp, mode);
if (p->search_overlap > 0)
paranoia_overlapset(priv->cdp, p->search_overlap);
paranoia_seek(priv->cdp, priv->start_sector, SEEK_SET);
priv->sector = priv->start_sector;
st->priv = priv;
st->start_pos = priv->start_sector * CDIO_CD_FRAMESIZE_RAW;
st->end_pos = (priv->end_sector + 1) * CDIO_CD_FRAMESIZE_RAW;
st->sector_size = CDIO_CD_FRAMESIZE_RAW;
st->fill_buffer = fill_buffer;
st->seek = seek;
st->control = control;
st->close = close_cdda;
st->demuxer = "rawaudio";
print_cdtext(st, 0);
return STREAM_OK;
}
unsigned LocalAudioCD::Create(const std::string& device, AudioCDPtr *pcd)
{
*pcd = AudioCDPtr(NULL);
TRACE << "Calling identify\n";
cdrom_drive *cdt = cdda_identify(device.c_str(), CDDA_MESSAGE_FORGETIT,
NULL);
if (!cdt)
{
TRACE << "Can't identify CD drive\n";
return EINVAL;
}
TRACE << "Identified\n";
int rc = cdda_open(cdt);
if (rc<0)
{
TRACE << "Can't open CD drive\n";
return (unsigned)errno;
}
TRACE << "Opened\n";
unsigned int total = (unsigned int)cdda_tracks(cdt);
TRACE << "Got tracks\n";
if (total == (track_t)-1)
{
cdda_close(cdt);
TRACE << "No audio tracks\n";
return ENOENT;
}
toc_t toc;
unsigned total_sectors = 0;
for (track_t i=1; i<=total; ++i) // Peculiar 1-based numbering
{
if (cdda_track_audiop(cdt, i))
{
TocEntry te;
te.first_sector = (int)cdda_track_firstsector(cdt, i);
te.last_sector = (int)cdda_track_lastsector(cdt, i);
TRACE << "Track " << i << " " << te.first_sector
<< ".." << te.last_sector << "\n";
toc.push_back(te);
total_sectors += (unsigned)(te.last_sector - te.first_sector + 1);
}
else
{
// TRACE << "Track " << i+1 << " not audio\n";
}
}
if (toc.empty())
{
cdda_close(cdt);
TRACE << "No audio tracks\n";
return ENOENT;
}
TRACE << "Opened with " << toc.size() << " tracks\n";
LocalAudioCD *cd = new LocalAudioCD();
cd->m_toc = toc;
cd->m_cdt = cdt;
cd->m_total_sectors = total_sectors;
*pcd = AudioCDPtr(cd);
return 0;
}
static gboolean
gst_cd_paranoia_src_open (GstCddaBaseSrc * cddabasesrc, const gchar * device)
{
GstCdParanoiaSrc *src = GST_CD_PARANOIA_SRC (cddabasesrc);
gint i;
GST_DEBUG_OBJECT (src, "trying to open device %s (generic-device=%s) ...",
device, GST_STR_NULL (src->generic_device));
/* find the device */
if (src->generic_device != NULL) {
src->d = cdda_identify_scsi (src->generic_device, device, FALSE, NULL);
} else {
if (device != NULL) {
src->d = cdda_identify (device, FALSE, NULL);
} else {
src->d = cdda_identify ("/dev/cdrom", FALSE, NULL);
}
}
/* fail if the device couldn't be found */
if (src->d == NULL)
goto no_device;
/* set verbosity mode */
cdda_verbose_set (src->d, CDDA_MESSAGE_FORGETIT, CDDA_MESSAGE_FORGETIT);
/* open the disc */
if (cdda_open (src->d))
goto open_failed;
if (src->read_speed != -1) {
cdda_speed_set (src->d, src->read_speed);
}
for (i = 1; i < src->d->tracks + 1; i++) {
GstCddaBaseSrcTrack track = { 0, };
track.num = i;
track.is_audio = IS_AUDIO (src->d, i - 1);
track.start = cdda_track_firstsector (src->d, i);
track.end = cdda_track_lastsector (src->d, i);
track.tags = NULL;
gst_cdda_base_src_add_track (GST_CDDA_BASE_SRC (src), &track);
}
/* create the paranoia struct and set it up */
src->p = paranoia_init (src->d);
if (src->p == NULL)
goto init_failed;
paranoia_modeset (src->p, src->paranoia_mode);
if (src->search_overlap != -1)
paranoia_overlapset (src->p, src->search_overlap);
src->next_sector = -1;
return TRUE;
/* ERRORS */
no_device:
{
GST_ELEMENT_ERROR (src, RESOURCE, OPEN_READ,
(_("Could not open CD device for reading.")), ("cdda_identify failed"));
return FALSE;
}
open_failed:
{
GST_ELEMENT_ERROR (src, RESOURCE, OPEN_READ,
(_("Could not open CD device for reading.")), ("cdda_open failed"));
cdda_close (src->d);
src->d = NULL;
return FALSE;
}
init_failed:
{
GST_ELEMENT_ERROR (src, LIBRARY, INIT,
("failed to initialize paranoia"), ("failed to initialize paranoia"));
return FALSE;
}
}
int
main(int argc,char *argv[])
{
int toc_bias = 0;
int force_cdrom_endian = -1;
int output_type = 1; /* 0=raw, 1=wav, 2=aifc */
int output_endian = 0; /* -1=host, 0=little, 1=big */
int query_only = 0;
int batch = 0;
int run_cache_test = 0;
long int force_cdrom_overlap = -1;
long int force_cdrom_sectors = -1;
long int force_cdrom_speed = 0;
long int force_overread = 0;
long int sample_offset = 0;
long int test_flags = 0;
long int toc_offset = 0;
long int max_retries = 20;
char *logfile_name=NULL;
char *reportfile_name=NULL;
/* full paranoia, but allow skipping */
int paranoia_mode=PARANOIA_MODE_FULL^PARANOIA_MODE_NEVERSKIP;
int out;
int c,long_option_index;
atexit(cleanup);
while((c=getopt_long(argc,argv,optstring,options,&long_option_index))!=EOF){
switch(c){
case 'a':
output_type=2;
output_endian=1;
break;
case 'B':
batch=1;
break;
case 'c':
force_cdrom_endian=0;
break;
case 'C':
force_cdrom_endian=1;
break;
case 'e':
callscript=1;
fprintf(stderr,
"Sending all callback output to stderr for wrapper script\n");
break;
case 'f':
output_type=3;
output_endian=1;
break;
case 'F':
paranoia_mode&=~(PARANOIA_MODE_FRAGMENT);
break;
case 'g':
case 'k':
case 'd':
if (force_cdrom_device) {
fprintf(stderr,
"Multiple cdrom devices given. Previous device %s ignored\n",
force_cdrom_device);
free(force_cdrom_device);
}
force_cdrom_device=strdup(optarg);
break;
case 'h':
usage(stdout);
exit(0);
case 'l':
if(logfile_name)free(logfile_name);
logfile_name=NULL;
if(optarg)
logfile_name=strdup(optarg);
logfile_open=1;
break;
case 'L':
if(reportfile_name)free(reportfile_name);
reportfile_name=NULL;
if(optarg)
reportfile_name=strdup(optarg);
reportfile_open=1;
break;
case 'm':
{
long int mmc_timeout_sec;
if (get_int_arg(c, &mmc_timeout_sec)) {
mmc_timeout_ms = 1000*mmc_timeout_sec;
}
}
break;
case 'n':
get_int_arg(c, &force_cdrom_sectors);
break;
case 'o':
get_int_arg(c, &force_cdrom_overlap);
break;
case 'O':
get_int_arg(c, &sample_offset);
break;
case 'p':
output_type=0;
output_endian=-1;
break;
case 'r':
output_type=0;
output_endian=0;
break;
case 'q':
verbose=CDDA_MESSAGE_FORGETIT;
quiet=1;
break;
case 'Q':
query_only=1;
break;
case 'R':
output_type=0;
output_endian=1;
break;
case 'S':
get_int_arg(c, &force_cdrom_speed);
break;
case 't':
get_int_arg(c, &toc_offset);
break;
case 'T':
toc_bias=-1;
break;
case 'v':
verbose=CDDA_MESSAGE_PRINTIT;
quiet=0;
break;
case 'V':
fprintf(stderr,PARANOIA_VERSION);
fprintf(stderr,"\n");
exit(0);
break;
case 'w':
output_type=1;
output_endian=0;
break;
case 'W':
paranoia_mode&=~PARANOIA_MODE_REPAIR;
break;
case 'x':
get_int_arg(c, &test_flags);
break;
case 'X':
/*paranoia_mode&=~(PARANOIA_MODE_SCRATCH|PARANOIA_MODE_REPAIR);*/
abort_on_skip=1;
break;
case 'Y':
paranoia_mode|=PARANOIA_MODE_OVERLAP; /* cdda2wav style overlap
check only */
paranoia_mode&=~PARANOIA_MODE_VERIFY;
break;
case 'Z':
paranoia_mode=PARANOIA_MODE_DISABLE;
break;
case 'A':
run_cache_test=1;
query_only=1;
reportfile_open=1;
verbose=CDDA_MESSAGE_PRINTIT;
break;
case 'z':
if (optarg) {
get_int_arg(c, &max_retries);
paranoia_mode&=~PARANOIA_MODE_NEVERSKIP;
} else {
paranoia_mode|=PARANOIA_MODE_NEVERSKIP;
}
break;
case 'E':
force_overread=1;
break;
default:
usage(stderr);
exit(1);
}
}
if(logfile_open){
if(logfile_name==NULL)
logfile_name=strdup("cdparanoia.log");
if(!strcmp(logfile_name,"-")){
logfile=stdout;
logfile_open=0;
}else{
logfile=fopen(logfile_name,"w");
if(logfile==NULL){
report("Cannot open log summary file %s: %s",logfile_name,
strerror(errno));
exit(1);
}
}
}
if(reportfile_open){
if(reportfile_name==NULL)
reportfile_name=strdup("cdparanoia.log");
if(!strcmp(reportfile_name,"-")){
reportfile=stdout;
reportfile_open=0;
}else{
if(logfile_name && !strcmp(reportfile_name,logfile_name)){
reportfile=logfile;
reportfile_open=0;
}else{
reportfile=fopen(reportfile_name,"w");
if(reportfile==NULL){
report("Cannot open debug log file %s: %s",reportfile_name,
strerror(errno));
exit(1);
}
}
}
}
if(logfile){
/* log command line and version */
int i;
for (i = 0; i < argc; i++)
fprintf(logfile,"%s ",argv[i]);
fprintf(logfile,"\n");
if(reportfile!=logfile){
fprintf(logfile,VERSION);
fprintf(logfile,"\n");
fprintf(logfile,"Using cdda library version: %s\n",cdda_version());
fprintf(logfile,"Using paranoia library version: %s\n",paranoia_version());
}
fflush(logfile);
}
if(reportfile && reportfile!=logfile){
/* log command line */
int i;
for (i = 0; i < argc; i++)
fprintf(reportfile,"%s ",argv[i]);
fprintf(reportfile,"\n");
fflush(reportfile);
}
if(optind>=argc && !query_only){
if(batch)
span=NULL;
else{
/* D'oh. No span. Fetch me a brain, Igor. */
usage(stderr);
exit(1);
}
}else
if (argv[optind]) span=strdup(argv[optind]);
report(PARANOIA_VERSION);
if(verbose){
report("Using cdda library version: %s",cdda_version());
report("Using paranoia library version: %s",paranoia_version());
}
/* Query the cdrom/disc; we may need to override some settings */
if(force_cdrom_device)
d=cdda_identify(force_cdrom_device,verbose,NULL);
else {
driver_id_t driver_id;
char **ppsz_cd_drives = cdio_get_devices_with_cap_ret(NULL,
CDIO_FS_AUDIO,
false,
&driver_id);
if (ppsz_cd_drives && *ppsz_cd_drives) {
d=cdda_identify(*ppsz_cd_drives,verbose, NULL);
} else {
report("\nUnable find or access a CD-ROM drive with an audio CD"
" in it.");
report("\nYou might try specifying the drive, especially if it has"
" mixed-mode (and non-audio) format tracks");
exit(1);
}
cdio_free_device_list(ppsz_cd_drives);
}
if(!d){
if(!verbose)
report("\nUnable to open cdrom drive; -v might give more information.");
exit(1);
}
if(verbose)
cdda_verbose_set(d,CDDA_MESSAGE_PRINTIT,CDDA_MESSAGE_PRINTIT);
else
cdda_verbose_set(d,CDDA_MESSAGE_PRINTIT,CDDA_MESSAGE_FORGETIT);
/* possibly force hand on endianness of drive, sector request size */
if(force_cdrom_endian!=-1){
d->bigendianp=force_cdrom_endian;
switch(force_cdrom_endian){
case 0:
report("Forcing CDROM sense to little-endian; ignoring preset and autosense");
break;
case 1:
report("Forcing CDROM sense to big-endian; ignoring preset and autosense");
break;
}
}
if (force_cdrom_sectors!=-1) {
if(force_cdrom_sectors<0 || force_cdrom_sectors>100){
report("Default sector read size must be 1<= n <= 100\n");
cdda_close(d);
d=NULL;
exit(1);
}
report("Forcing default to read %ld sectors; "
"ignoring preset and autosense",force_cdrom_sectors);
d->nsectors=force_cdrom_sectors;
}
if (force_cdrom_overlap!=-1) {
if (force_cdrom_overlap<0 || force_cdrom_overlap>CDIO_CD_FRAMES_PER_SEC) {
report("Search overlap sectors must be 0<= n <=75\n");
cdda_close(d);
d=NULL;
if(logfile && logfile != stdout)
fclose(logfile);
exit(1);
}
report("Forcing search overlap to %ld sectors; "
"ignoring autosense",force_cdrom_overlap);
}
switch( cdda_open(d) ) {
case -2:case -3:case -4:case -5:
report("\nUnable to open disc. Is there an audio CD in the drive?");
exit(1);
case -6:
report("\nCdparanoia could not find a way to read audio from this drive.");
exit(1);
case 0:
break;
default:
report("\nUnable to open disc.");
exit(1);
}
d->i_test_flags = test_flags;
if (force_cdrom_speed == 0) force_cdrom_speed = -1;
if (force_cdrom_speed != -1) {
report("\nAttempting to set speed to %ldx... ", force_cdrom_speed);
} else {
if (verbose)
report("\nAttempting to set cdrom to full speed... ");
}
if (cdda_speed_set(d, force_cdrom_speed)) {
if (verbose || force_cdrom_speed != -1)
report("\tCDROM speed set FAILED. Continuing anyway...");
} else {
if (verbose)
report("\tdrive returned OK.");
}
if(run_cache_test){
int warn=analyze_cache(d, stderr, reportfile, force_cdrom_speed);
if(warn==0){
reportC("\nDrive tests OK with Paranoia.\n\n");
return 0;
}
if(warn==1)
reportC("\nWARNING! PARANOIA MAY NOT BE TRUSTWORTHY WITH THIS DRIVE!\n"
"\nThe Paranoia library may not model this CDROM drive's cache"
"\ncorrectly according to this analysis run. Analysis is not"
"\nalways accurate (it can be fooled by machine load or random"
"\nkernel latencies), but if a failed result happens more often"
"\nthan one time in twenty on an unloaded machine, please mail"
"\nthe %s file produced by this failed analysis to"
"\[email protected] to assist developers in extending"
"\nParanoia to handle this CDROM properly.\n\n",reportfile_name);
return 1;
}
/* Dump the TOC */
if (query_only || verbose ) display_toc(d);
if (query_only) exit(0);
/* bias the disc. A hack. Of course. this is never the default. */
/*
Some CD-ROM/CD-R drives will add an offset to the position on
reading audio data. This is usually around 500-700 audio samples
(ca. 1/75 second) on reading. So when this program queries a
specific sector, it might not receive exactly that sector, but
shifted by some amount.
Note that if ripping includes the end of the CD, this will this
cause this program to attempt to read partial sectors before or
past the known user data area of the disc, probably causing read
errors on most drives and possibly even hard lockups on some
buggy hardware.
[Note to libcdio driver hackers: make sure all CD-drivers don't
try to read outside of the stated disc boundaries.]
*/
if(sample_offset){
toc_offset+=sample_offset/588;
sample_offset%=588;
if(sample_offset<0){
sample_offset+=588;
toc_offset--;
}
}
if (toc_bias) {
toc_offset = -cdda_track_firstsector(d,1);
}
{
int i;
for( i=0; i < d->tracks+1; i++ )
d->disc_toc[i].dwStartSector+=toc_offset;
}
if (d->nsectors==1) {
report("WARNING: The autosensed/selected sectors per read value is\n"
" one sector, making it very unlikely Paranoia can \n"
" work.\n\n"
" Attempting to continue...\n\n");
}
/* parse the span, set up begin and end sectors */
{
long i_first_lsn;
long i_last_lsn;
long batch_first;
long batch_last;
int batch_track;
if (span) {
/* look for the hyphen */
char *span2=strchr(span,'-');
if(strrchr(span,'-')!=span2){
report("Error parsing span argument");
exit(1);
}
if (span2!=NULL) {
*span2='\0';
span2++;
}
i_first_lsn=parse_offset(d, span, -1);
if(i_first_lsn==-1)
i_last_lsn=parse_offset(d, span2, cdda_disc_firstsector(d));
else
i_last_lsn=parse_offset(d, span2, i_first_lsn);
if (i_first_lsn == -1) {
if (i_last_lsn == -1) {
report("Error parsing span argument");
exit(1);
} else {
i_first_lsn=cdda_disc_firstsector(d);
}
} else {
if (i_last_lsn==-1) {
if (span2) { /* There was a hyphen */
i_last_lsn=cdda_disc_lastsector(d);
} else {
i_last_lsn=
cdda_track_lastsector(d,cdda_sector_gettrack(d, i_first_lsn));
}
}
}
} else {
i_first_lsn = cdda_disc_firstsector(d);
i_last_lsn = cdda_disc_lastsector(d);
}
{
int track1 = cdda_sector_gettrack(d, i_first_lsn);
int track2 = cdda_sector_gettrack(d, i_last_lsn);
long off1 = i_first_lsn - cdda_track_firstsector(d, track1);
long off2 = i_last_lsn - cdda_track_firstsector(d, track2);
int i;
for( i=track1; i<=track2; i++ ) {
if(i != 0 && !cdda_track_audiop(d,i)){
report("Selected span contains non audio track at track %02d. Aborting.\n\n", i);
exit(1);
if (i == 0)
i = cdio_get_first_track_num(d->p_cdio) - 1;
}
}
report("Ripping from sector %7ld (track %2d [%d:%02d.%02d])\n"
"\t to sector %7ld (track %2d [%d:%02d.%02d])\n",
i_first_lsn,
track1,
(int) (off1/(CDIO_CD_FRAMES_PER_MIN)),
(int) ((off1/CDIO_CD_FRAMES_PER_SEC) % CDIO_CD_SECS_PER_MIN),
(int)(off1 % CDIO_CD_FRAMES_PER_SEC),
i_last_lsn,
track2,
(int) (off2/(CDIO_CD_FRAMES_PER_MIN)),
(int) ((off2/CDIO_CD_FRAMES_PER_SEC) % CDIO_CD_SECS_PER_MIN),
(int)(off2 % CDIO_CD_FRAMES_PER_SEC));
}
if (toc_offset && !force_overread) {
d->disc_toc[d->tracks].dwStartSector -= toc_offset;
if (i_last_lsn > cdda_track_lastsector(d, d->tracks))
i_last_lsn -= toc_offset;
}
{
long cursor;
int16_t offset_buffer[1176];
int offset_buffer_used=0;
int offset_skip=sample_offset*4;
off_t sectorlen;
#if defined(HAVE_GETUID) && (defined(HAVE_SETEUID) || defined(HAVE_SETEGID))
int dummy __attribute__((unused));
#endif
p=paranoia_init(d);
paranoia_modeset(p,paranoia_mode);
if(force_cdrom_overlap!=-1)paranoia_overlapset(p,force_cdrom_overlap);
if(verbose) {
cdda_verbose_set(d,CDDA_MESSAGE_LOGIT,CDDA_MESSAGE_LOGIT);
cdio_loglevel_default = CDIO_LOG_INFO;
} else
cdda_verbose_set(d,CDDA_MESSAGE_FORGETIT,CDDA_MESSAGE_FORGETIT);
paranoia_seek(p,cursor=i_first_lsn,SEEK_SET);
/* this is probably a good idea in general */
#if defined(HAVE_GETUID) && defined(HAVE_SETEUID)
dummy = seteuid(getuid());
#endif
#if defined(HAVE_GETGID) && defined(HAVE_SETEGID)
dummy = setegid(getgid());
#endif
/* we'll need to be able to read one sector past user data if we
have a sample offset in order to pick up the last bytes. We
need to set the disc length forward here so that the libs are
willing to read past, assuming that works on the hardware, of
course */
if(sample_offset && force_overread)
d->disc_toc[d->tracks].dwStartSector++;
while(cursor<=i_last_lsn){
char outfile_name[PATH_MAX];
if ( batch ){
batch_first = cursor;
batch_track = cdda_sector_gettrack(d,cursor);
batch_last = cdda_track_lastsector(d, batch_track);
if (batch_last>i_last_lsn) batch_last=i_last_lsn;
} else {
batch_first = i_first_lsn;
batch_last = i_last_lsn;
batch_track = -1;
}
callbegin=batch_first;
callend=batch_last;
/* argv[optind] is the span, argv[optind+1] (if exists) is outfile */
if (optind+1<argc) {
if (!strcmp(argv[optind+1],"-") ){
out = dup(fileno(stdout));
if(out==-1){
report("Cannot dupplicate stdout: %s",
strerror(errno));
exit(1);
}
if(batch)
report("Are you sure you wanted 'batch' "
"(-B) output with stdout?");
report("outputting to stdout\n");
if(logfile){
fprintf(logfile,"outputting to stdout\n");
fflush(logfile);
}
outfile_name[0]='\0';
} else {
char dirname[PATH_MAX];
char *basename=split_base_dir(argv[optind+1], dirname,
PATH_MAX);
if (NULL == basename) {
report("Output filename too long");
exit(1);
}
if(batch) {
if (strlen(argv[optind+1]) - 10 > PATH_MAX) {
report("Output filename too long");
exit(1);
}
snprintf(outfile_name, PATH_MAX,
" %strack%02d.%s", dirname,
batch_track, basename);
} else
snprintf(outfile_name, PATH_MAX, "%s%s", dirname, basename);
if(basename[0]=='\0'){
switch (output_type) {
case 0: /* raw */
strncat(outfile_name, "cdda.raw", sizeof("cdda.raw"));
break;
case 1:
strncat(outfile_name, "cdda.wav", sizeof("cdda.wav"));
break;
case 2:
strncat(outfile_name, "cdda.aifc", sizeof("cdda.aifc"));
break;
case 3:
strncat(outfile_name, "cdda.aiff", sizeof("cdda.aiff"));
break;
}
}
out=open(outfile_name,O_RDWR|O_CREAT|O_TRUNC|O_BINARY,0666);
if(out==-1){
report("Cannot open specified output file %s: %s",
outfile_name, strerror(errno));
exit(1);
}
report("outputting to %s\n", outfile_name);
if(logfile){
fprintf(logfile,"outputting to %s\n",outfile_name);
fflush(logfile);
}
}
} else {
/* default */
if (batch)
sprintf(outfile_name,"track%02d.", batch_track);
else
outfile_name[0]='\0';
switch(output_type){
case 0: /* raw */
strncat(outfile_name, "cdda.raw", sizeof("cdda.raw"));
break;
case 1:
strncat(outfile_name, "cdda.wav", sizeof("cdda.wav"));
break;
case 2:
strncat(outfile_name, "cdda.aifc", sizeof("cdda.aifc"));
break;
case 3:
strncat(outfile_name, "cdda.aiff", sizeof("cdda.aiff"));
break;
}
out = open(outfile_name, O_RDWR|O_CREAT|O_TRUNC|O_BINARY, 0666);
if(out==-1){
report("Cannot open default output file %s: %s", outfile_name,
strerror(errno));
exit(1);
}
report("outputting to %s\n", outfile_name);
if(logfile){
fprintf(logfile,"outputting to %s\n",outfile_name);
fflush(logfile);
}
}
sectorlen = batch_last - batch_first + 1;
if (cdda_sector_gettrack(d, cursor) == d->tracks &&
toc_offset > 0 && !force_overread){
sectorlen += toc_offset;
}
switch(output_type) {
case 0: /* raw */
break;
case 1: /* wav */
WriteWav(out, sectorlen * CD_FRAMESIZE_RAW);
break;
case 2: /* aifc */
WriteAifc(out, sectorlen * CD_FRAMESIZE_RAW);
break;
case 3: /* aiff */
WriteAiff(out, sectorlen * CD_FRAMESIZE_RAW);
break;
}
/* Off we go! */
if(offset_buffer_used){
/* partial sector from previous batch read */
cursor++;
if (buffering_write(out,
((char *)offset_buffer)+offset_buffer_used,
CDIO_CD_FRAMESIZE_RAW-offset_buffer_used)){
report("Error writing output: %s", strerror(errno));
exit(1);
}
}
skipped_flag=0;
while(cursor<=batch_last){
/* read a sector */
int16_t *readbuf=paranoia_read_limited(p, callback, max_retries);
char *err=cdda_errors(d);
char *mes=cdda_messages(d);
if(mes || err)
fprintf(stderr,"\r "
" \r%s%s\n",
mes?mes:"",err?err:"");
if (err) free(err);
if (mes) free(mes);
if( readbuf==NULL) {
if(errno==EBADF || errno==ENOMEDIUM){
report("\nparanoia_read: CDROM drive unavailable, bailing.\n");
exit(1);
}
skipped_flag=1;
report("\nparanoia_read: Unrecoverable error, bailing.\n");
break;
}
if(skipped_flag && abort_on_skip){
cursor=batch_last+1;
break;
}
skipped_flag=0;
cursor++;
if (output_endian!=bigendianp()) {
int i;
for (i=0; i<CDIO_CD_FRAMESIZE_RAW/2; i++)
readbuf[i]=UINT16_SWAP_LE_BE_C(readbuf[i]);
}
callback(cursor*(CD_FRAMEWORDS)-1, PARANOIA_CB_WROTE);
if (buffering_write(out,((char *)readbuf)+offset_skip,
CDIO_CD_FRAMESIZE_RAW-offset_skip)){
report("Error writing output: %s", strerror(errno));
exit(1);
}
offset_skip=0;
if (output_endian != bigendianp()){
int i;
for (i=0; i<CDIO_CD_FRAMESIZE_RAW/2; i++)
readbuf[i] = UINT16_SWAP_LE_BE_C(readbuf[i]);
}
/* One last bit of silliness to deal with sample offsets */
if(sample_offset && cursor>batch_last){
if (cdda_sector_gettrack(d, batch_last) < d->tracks || force_overread) {
int i;
/* Need to flush the buffer when overreading into the leadout */
if (cdda_sector_gettrack(d, batch_last) == d->tracks)
paranoia_seek(p, cursor, SEEK_SET);
/* read a sector and output the partial offset. Save the
rest for the next batch iteration */
readbuf=paranoia_read_limited(p,callback,max_retries);
err=cdda_errors(d);mes=cdda_messages(d);
if(mes || err)
fprintf(stderr,"\r "
" \r%s%s\n",
mes?mes:"",err?err:"");
if(err)free(err);if(mes)free(mes);
if(readbuf==NULL){
skipped_flag=1;
report("\nparanoia_read: Unrecoverable error reading through "
"sample_offset shift\n\tat end of track, bailing.\n");
break;
}
if (skipped_flag && abort_on_skip) break;
skipped_flag=0;
/* do not move the cursor */
if(output_endian!=bigendianp())
for(i=0;i<CD_FRAMESIZE_RAW/2;i++)
offset_buffer[i]=UINT16_SWAP_LE_BE_C(readbuf[i]);
else
memcpy(offset_buffer,readbuf,CD_FRAMESIZE_RAW);
offset_buffer_used=sample_offset*4;
callback(cursor* (CD_FRAMEWORDS), PARANOIA_CB_WROTE);
} else {
memset(offset_buffer, 0, sizeof(offset_buffer));
offset_buffer_used = sample_offset * 4;
}
if(buffering_write(out,(char *)offset_buffer,
offset_buffer_used)){
report("Error writing output: %s", strerror(errno));
exit(1);
}
}
}
/* Write sectors of silent audio to compensate for
missing samples that would be in the leadout */
if (cdda_sector_gettrack(d, batch_last) == d->tracks &&
toc_offset > 0 && !force_overread)
{
char *silence;
size_t missing_sector_bytes = CD_FRAMESIZE_RAW * toc_offset;
silence = calloc(toc_offset, CD_FRAMESIZE_RAW);
if (!silence || buffering_write(out, silence, missing_sector_bytes)) {
report("Error writing output: %s", strerror(errno));
exit(1);
}
free(silence);
}
callback(cursor* (CDIO_CD_FRAMESIZE_RAW/2)-1,
PARANOIA_CB_FINISHED);
buffering_close(out);
if(skipped_flag){
/* remove the file */
report("\nRemoving aborted file: %s", outfile_name);
unlink(outfile_name);
/* make the cursor correct if we have another track */
if(batch_track!=-1){
batch_track++;
cursor=cdda_track_firstsector(d,batch_track);
paranoia_seek(p,cursor, SEEK_SET);
offset_skip=sample_offset*4;
offset_buffer_used=0;
}
}
report("\n");
}
paranoia_free(p);
p=NULL;
}
}
report("Done.\n\n");
return 0;
}
int main(int argc,char *argv[]){
int toc_bias=0;
int toc_offset=0;
int sample_offset=0;
int force_cdrom_endian=-1;
int force_cdrom_sectors=-1;
int force_cdrom_overlap=-1;
char *force_cdrom_device=NULL;
char *force_generic_device=NULL;
char *force_cooked_device=NULL;
int force_cdrom_speed=0;
int max_retries=20;
char *span=NULL;
int output_type=1; /* 0=raw, 1=wav, 2=aifc */
int output_endian=0; /* -1=host, 0=little, 1=big */
int query_only=0;
int batch=0,i;
int run_cache_test=0;
char *logfile_name=NULL;
char *reportfile_name=NULL;
int logfile_open=0;
int reportfile_open=0;
/* full paranoia, but allow skipping */
int paranoia_mode=PARANOIA_MODE_FULL^PARANOIA_MODE_NEVERSKIP;
char *info_file=NULL;
int out;
int search=0;
int c,long_option_index;
atexit(cleanup);
while((c=getopt_long(argc,argv,optstring,options,&long_option_index))!=EOF){
switch(c){
case 'B':
batch=1;
break;
case 'c':
force_cdrom_endian=0;
break;
case 'C':
force_cdrom_endian=1;
break;
case 'n':
force_cdrom_sectors=atoi(optarg);
break;
case 'o':
force_cdrom_overlap=atoi(optarg);
break;
case 'd':
if(force_cdrom_device)free(force_cdrom_device);
force_cdrom_device=copystring(optarg);
break;
case 'g':
if(force_cooked_device){
report("-g option incompatable with -k\n");
exit(1);
}
force_cooked_device=NULL;
if(force_generic_device)free(force_generic_device);
force_generic_device=copystring(optarg);
break;
case 'k':
if(force_generic_device || force_cdrom_device){
report("-k option incompatable with -d and -g\n");
exit(1);
}
if(force_cooked_device)free(force_cooked_device);
force_cooked_device=copystring(optarg);
break;
case 'S':
force_cdrom_speed=atoi(optarg);
break;
case 'p':
output_type=0;
output_endian=-1;
break;
case 'r':
output_type=0;
output_endian=0;
break;
case 'R':
output_type=0;
output_endian=1;
break;
case 'w':
output_type=1;
output_endian=0;
break;
case 'a':
output_type=2;
output_endian=1;
break;
case 'f':
output_type=3;
output_endian=1;
break;
case 'v':
verbose=CDDA_MESSAGE_PRINTIT;
quiet=0;
break;
case 's':
search=1;
break;
case 'q':
verbose=CDDA_MESSAGE_FORGETIT;
quiet=1;
break;
case 'e':
callscript=1;
fprintf(stderr,"Sending all callbacks to stderr for wrapper script\n");
break;
case 'V':
fprintf(stderr,VERSION);
fprintf(stderr,"\n");
exit(0);
break;
case 'Q':
query_only=1;
break;
case 'h':
usage(stdout);
exit(0);
case 'Z':
paranoia_mode=PARANOIA_MODE_DISABLE;
break;
case 'A':
run_cache_test=1;
query_only=1;
reportfile_open=1;
verbose=CDDA_MESSAGE_PRINTIT;
break;
case 'z':
if (optarg) {
max_retries = atoi (optarg);
paranoia_mode&=~PARANOIA_MODE_NEVERSKIP;
} else {
paranoia_mode|=PARANOIA_MODE_NEVERSKIP;
}
break;
case 'Y':
paranoia_mode|=PARANOIA_MODE_OVERLAP; /* cdda2wav style overlap
check only */
paranoia_mode&=~PARANOIA_MODE_VERIFY;
break;
case 'X':
/*paranoia_mode&=~(PARANOIA_MODE_SCRATCH|PARANOIA_MODE_REPAIR);*/
abort_on_skip=1;
break;
case 'W':
paranoia_mode&=~PARANOIA_MODE_REPAIR;
break;
case 'F':
paranoia_mode&=~(PARANOIA_MODE_FRAGMENT);
break;
case 'i':
if(info_file)free(info_file);
info_file=copystring(info_file);
break;
case 'T':
toc_bias=-1;
break;
case 't':
toc_offset=atoi(optarg);
break;
case 'l':
if(logfile_name)free(logfile_name);
logfile_name=NULL;
if(optarg)
logfile_name=strdup(optarg);
logfile_open=1;
break;
case 'L':
if(reportfile_name)free(reportfile_name);
reportfile_name=NULL;
if(optarg)
reportfile_name=strdup(optarg);
reportfile_open=1;
break;
case 'O':
sample_offset=atoi(optarg);
break;
default:
usage(stderr);
exit(1);
}
}
if(logfile_open){
if(logfile_name==NULL)
logfile_name=strdup("cdparanoia.log");
if(!strcmp(logfile_name,"-")){
logfile=stdout;
logfile_open=0;
}else{
logfile=fopen(logfile_name,"w");
if(logfile==NULL){
report("Cannot open log summary file %s: %s",logfile_name,
strerror(errno));
exit(1);
}
}
}
if(reportfile_open){
if(reportfile_name==NULL)
reportfile_name=strdup("cdparanoia.log");
if(!strcmp(reportfile_name,"-")){
reportfile=stdout;
reportfile_open=0;
}else{
if(logfile_name && !strcmp(reportfile_name,logfile_name)){
reportfile=logfile;
reportfile_open=0;
}else{
reportfile=fopen(reportfile_name,"w");
if(reportfile==NULL){
report("Cannot open debug log file %s: %s",reportfile_name,
strerror(errno));
exit(1);
}
}
}
}
if(logfile){
/* log command line and version */
int i;
for (i = 0; i < argc; i++)
fprintf(logfile,"%s ",argv[i]);
fprintf(logfile,"\n");
if(reportfile!=logfile){
fprintf(logfile,VERSION);
fprintf(logfile,"\n");
fprintf(logfile,"Using cdda library version: %s\n",cdda_version());
fprintf(logfile,"Using paranoia library version: %s\n",paranoia_version());
}
fflush(logfile);
}
if(reportfile && reportfile!=logfile){
/* log command line */
int i;
for (i = 0; i < argc; i++)
fprintf(reportfile,"%s ",argv[i]);
fprintf(reportfile,"\n");
fflush(reportfile);
}
if(optind>=argc && !query_only){
if(batch)
span=NULL;
else{
/* D'oh. No span. Fetch me a brain, Igor. */
usage(stderr);
exit(1);
}
}else
span=copystring(argv[optind]);
report(VERSION);
if(verbose){
report("Using cdda library version: %s",cdda_version());
report("Using paranoia library version: %s",paranoia_version());
}
/* Query the cdrom/disc; we may need to override some settings */
if(force_cooked_device){
d=cdda_identify_cooked(force_cooked_device,verbose,NULL);
}else if(force_generic_device)
d=cdda_identify_scsi(force_generic_device,force_cdrom_device,verbose,NULL);
else
if(force_cdrom_device)
d=cdda_identify(force_cdrom_device,verbose,NULL);
else
if(search)
d=cdda_find_a_cdrom(verbose,NULL);
else{
/* does the /dev/cdrom link exist? */
struct stat s;
if(lstat("/dev/cdrom",&s)){
/* no link. Search anyway */
d=cdda_find_a_cdrom(verbose,NULL);
}else{
d=cdda_identify("/dev/cdrom",verbose,NULL);
if(d==NULL && !verbose){
verbose=1;
report("\n/dev/cdrom exists but isn't accessible. By default,\n"
"cdparanoia stops searching for an accessible drive here.\n"
"Consider using -sv to force a more complete autosense\n"
"of the machine.\n\nMore information about /dev/cdrom:");
d=cdda_identify("/dev/cdrom",CDDA_MESSAGE_PRINTIT,NULL);
report("\n");
exit(1);
}else
report(" ");
}
}
if(!d){
if(!verbose)
report("\nUnable to open cdrom drive; -v will give more information.");
exit(1);
}
if(verbose)
cdda_verbose_set(d,CDDA_MESSAGE_PRINTIT,CDDA_MESSAGE_PRINTIT);
else
cdda_verbose_set(d,CDDA_MESSAGE_PRINTIT,CDDA_MESSAGE_FORGETIT);
/* possibly force hand on endianness of drive, sector request size */
if(force_cdrom_endian!=-1){
d->bigendianp=force_cdrom_endian;
switch(force_cdrom_endian){
case 0:
report("Forcing CDROM sense to little-endian; ignoring preset and autosense");
break;
case 1:
report("Forcing CDROM sense to big-endian; ignoring preset and autosense");
break;
}
}
if(force_cdrom_sectors!=-1){
if(force_cdrom_sectors<0 || force_cdrom_sectors>100){
report("Default sector read size must be 1<= n <= 100\n");
cdda_close(d);
d=NULL;
exit(1);
}
report("Forcing default to read %d sectors; "
"ignoring preset and autosense",force_cdrom_sectors);
d->nsectors=force_cdrom_sectors;
d->bigbuff=force_cdrom_sectors*CD_FRAMESIZE_RAW;
}
if(force_cdrom_overlap!=-1){
if(force_cdrom_overlap<0 || force_cdrom_overlap>75){
report("Search overlap sectors must be 0<= n <=75\n");
cdda_close(d);
d=NULL;
exit(1);
}
report("Forcing search overlap to %d sectors; "
"ignoring autosense",force_cdrom_overlap);
}
switch(cdda_open(d)){
case -2:case -3:case -4:case -5:
report("\nUnable to open disc. Is there an audio CD in the drive?");
exit(1);
case -6:
report("\ncdparanoia could not find a way to read audio from this drive.");
exit(1);
case 0:
break;
default:
report("\nUnable to open disc.");
exit(1);
}
if(force_cdrom_speed==0)force_cdrom_speed=-1;
if(force_cdrom_speed!=-1){
report("\nAttempting to set speed to %dx... ",force_cdrom_speed);
}else{
if(verbose)
report("\nAttempting to set cdrom to full speed... ");
}
if(cdda_speed_set(d,force_cdrom_speed)){
if(verbose || force_cdrom_speed!=-1)
report("\tCDROM speed set FAILED. Continuing anyway...");
}else{
if(verbose)
report("\tdrive returned OK.");
}
if(run_cache_test){
int warn=analyze_cache(d, stderr, reportfile, force_cdrom_speed);
if(warn==0){
reportC("\nDrive tests OK with Paranoia.\n\n");
return 0;
}
if(warn==1)
reportC("\nWARNING! PARANOIA MAY NOT BE TRUSTWORTHY WITH THIS DRIVE!\n"
"\nThe Paranoia library may not model this CDROM drive's cache"
"\ncorrectly according to this analysis run. Analysis is not"
"\nalways accurate (it can be fooled by machine load or random"
"\nkernel latencies), but if a failed result happens more often"
"\nthan one time in twenty on an unloaded machine, please mail"
"\nthe %s file produced by this failed analysis to"
"\[email protected] to assist developers in extending"
"\nParanoia to handle this CDROM properly.\n\n",reportfile_name);
return 1;
}
/* Dump the TOC */
if(query_only || verbose)display_toc(d);
if(query_only)exit(0);
/* bias the disc. A hack. Of course. */
/* we may need to read before or past user area; this is never
default, and we do it because the [allegedly informed] user told
us to */
if(sample_offset){
toc_offset+=sample_offset/588;
sample_offset%=588;
if(sample_offset<0){
sample_offset+=588;
toc_offset--;
}
}
if(toc_bias){
toc_offset=-cdda_track_firstsector(d,1);
}
for(i=0;i<d->tracks+1;i++)
d->disc_toc[i].dwStartSector+=toc_offset;
if(d->nsectors==1){
report("WARNING: The autosensed/selected sectors per read value is\n"
" one sector, making it very unlikely Paranoia can \n"
" work.\n\n"
" Attempting to continue...\n\n");
}
/* parse the span, set up begin and end sectors */
{
long first_sector;
long last_sector;
long batch_first;
long batch_last;
int batch_track;
if(span){
/* look for the hyphen */
char *span2=strchr(span,'-');
if(strrchr(span,'-')!=span2){
report("Error parsing span argument");
cdda_close(d);
d=NULL;
exit(1);
}
if(span2!=NULL){
*span2='\0';
span2++;
}
first_sector=parse_offset(d,span,-1);
if(first_sector==-1)
last_sector=parse_offset(d,span2,cdda_disc_firstsector(d));
else
last_sector=parse_offset(d,span2,first_sector);
if(first_sector==-1){
if(last_sector==-1){
report("Error parsing span argument");
cdda_close(d);
d=NULL;
exit(1);
}else{
first_sector=cdda_disc_firstsector(d);
}
}else{
if(last_sector==-1){
if(span2){ /* There was a hyphen */
last_sector=cdda_disc_lastsector(d);
}else{
last_sector=
cdda_track_lastsector(d,cdda_sector_gettrack(d,first_sector));
}
}
}
}else{
first_sector=cdda_disc_firstsector(d);
last_sector=cdda_disc_lastsector(d);
}
{
int track1=cdda_sector_gettrack(d,first_sector);
int track2=cdda_sector_gettrack(d,last_sector);
long off1=first_sector-cdda_track_firstsector(d,track1);
long off2=last_sector-cdda_track_firstsector(d,track2);
int i;
for(i=track1;i<=track2;i++)
if(!cdda_track_audiop(d,i)){
report("Selected span contains non audio tracks. Aborting.\n\n");
exit(1);
}
report("Ripping from sector %7ld (track %2d [%d:%02d.%02d])\n"
"\t to sector %7ld (track %2d [%d:%02d.%02d])\n",first_sector,
track1,(int)(off1/(60*75)),(int)((off1/75)%60),(int)(off1%75),
last_sector,
track2,(int)(off2/(60*75)),(int)((off2/75)%60),(int)(off2%75));
}
{
long cursor;
int16_t offset_buffer[1176];
int offset_buffer_used=0;
int offset_skip=sample_offset*4;
p=paranoia_init(d);
paranoia_modeset(p,paranoia_mode);
if(force_cdrom_overlap!=-1)paranoia_overlapset(p,force_cdrom_overlap);
if(verbose)
cdda_verbose_set(d,CDDA_MESSAGE_LOGIT,CDDA_MESSAGE_LOGIT);
else
cdda_verbose_set(d,CDDA_MESSAGE_FORGETIT,CDDA_MESSAGE_FORGETIT);
paranoia_seek(p,cursor=first_sector,SEEK_SET);
/* this is probably a good idea in general */
seteuid(getuid());
setegid(getgid());
/* we'll need to be able to read one sector past user data if we
have a sample offset in order to pick up the last bytes. We
need to set the disc length forward here so that the libs are
willing to read past, assuming that works on the hardware, of
course */
if(sample_offset)
d->disc_toc[d->tracks].dwStartSector++;
while(cursor<=last_sector){
char outfile_name[256];
if(batch){
batch_first=cursor;
batch_last=
cdda_track_lastsector(d,batch_track=
cdda_sector_gettrack(d,cursor));
if(batch_last>last_sector)batch_last=last_sector;
}else{
batch_first=first_sector;
batch_last=last_sector;
batch_track=-1;
}
callbegin=batch_first;
callend=batch_last;
/* argv[optind] is the span, argv[optind+1] (if exists) is outfile */
if(optind+1<argc){
if(!strcmp(argv[optind+1],"-")){
out=dup(fileno(stdout));
if(batch)report("Are you sure you wanted 'batch' "
"(-B) output with stdout?");
report("outputting to stdout\n");
if(logfile){
fprintf(logfile,"outputting to stdout\n");
fflush(logfile);
}
outfile_name[0]='\0';
}else{
char path[256];
char *post=strrchr(argv[optind+1],'/');
int pos=(post?post-argv[optind+1]+1:0);
char *file=argv[optind+1]+pos;
path[0]='\0';
if(pos)
strncat(path,argv[optind+1],pos>256?256:pos);
if(batch)
snprintf(outfile_name,246,"%strack%02d.%s",path,batch_track,file);
else
snprintf(outfile_name,246,"%s%s",path,file);
if(file[0]=='\0'){
switch(output_type){
case 0: /* raw */
strcat(outfile_name,"cdda.raw");
break;
case 1:
strcat(outfile_name,"cdda.wav");
break;
case 2:
strcat(outfile_name,"cdda.aifc");
break;
case 3:
strcat(outfile_name,"cdda.aiff");
break;
}
}
out=open(outfile_name,O_RDWR|O_CREAT|O_TRUNC,0666);
if(out==-1){
report("Cannot open specified output file %s: %s",outfile_name,
strerror(errno));
cdda_close(d);
d=NULL;
exit(1);
}
report("outputting to %s\n",outfile_name);
if(logfile){
fprintf(logfile,"outputting to %s\n",outfile_name);
fflush(logfile);
}
}
}else{
/* default */
if(batch)
sprintf(outfile_name,"track%02d.",batch_track);
else
outfile_name[0]='\0';
switch(output_type){
case 0: /* raw */
strcat(outfile_name,"cdda.raw");
break;
case 1:
strcat(outfile_name,"cdda.wav");
break;
case 2:
strcat(outfile_name,"cdda.aifc");
break;
case 3:
strcat(outfile_name,"cdda.aiff");
break;
}
out=open(outfile_name,O_RDWR|O_CREAT|O_TRUNC,0666);
if(out==-1){
report("Cannot open default output file %s: %s",outfile_name,
strerror(errno));
cdda_close(d);
d=NULL;
exit(1);
}
report("outputting to %s\n",outfile_name);
if(logfile){
fprintf(logfile,"outputting to %s\n",outfile_name);
fflush(logfile);
}
}
switch(output_type){
case 0: /* raw */
break;
case 1: /* wav */
WriteWav(out,(batch_last-batch_first+1)*CD_FRAMESIZE_RAW);
break;
case 2: /* aifc */
WriteAifc(out,(batch_last-batch_first+1)*CD_FRAMESIZE_RAW);
break;
case 3: /* aiff */
WriteAiff(out,(batch_last-batch_first+1)*CD_FRAMESIZE_RAW);
break;
}
/* Off we go! */
if(offset_buffer_used){
/* partial sector from previous batch read */
cursor++;
if(buffering_write(out,
((char *)offset_buffer)+offset_buffer_used,
CD_FRAMESIZE_RAW-offset_buffer_used)){
report("Error writing output: %s",strerror(errno));
exit(1);
}
}
skipped_flag=0;
while(cursor<=batch_last){
/* read a sector */
int16_t *readbuf=paranoia_read_limited(p,callback,max_retries);
char *err=cdda_errors(d);
char *mes=cdda_messages(d);
if(mes || err)
fprintf(stderr,"\r "
" \r%s%s\n",
mes?mes:"",err?err:"");
if(err)free(err);
if(mes)free(mes);
if(readbuf==NULL){
if(errno==EBADF || errno==ENOMEDIUM){
report("\nparanoia_read: CDROM drive unavailable, bailing.\n");
exit(1);
}
skipped_flag=1;
report("\nparanoia_read: Unrecoverable error, bailing.\n");
break;
}
if(skipped_flag && abort_on_skip){
cursor=batch_last+1;
break;
}
skipped_flag=0;
cursor++;
if(output_endian!=bigendianp()){
int i;
for(i=0;i<CD_FRAMESIZE_RAW/2;i++)readbuf[i]=swap16(readbuf[i]);
}
callback(cursor*(CD_FRAMEWORDS)-1,-2);
if(buffering_write(out,((char *)readbuf)+offset_skip,
CD_FRAMESIZE_RAW-offset_skip)){
report("Error writing output: %s",strerror(errno));
exit(1);
}
offset_skip=0;
if(output_endian!=bigendianp()){
int i;
for(i=0;i<CD_FRAMESIZE_RAW/2;i++)readbuf[i]=swap16(readbuf[i]);
}
/* One last bit of silliness to deal with sample offsets */
if(sample_offset && cursor>batch_last){
int i;
/* read a sector and output the partial offset. Save the
rest for the next batch iteration */
readbuf=paranoia_read_limited(p,callback,max_retries);
err=cdda_errors(d);mes=cdda_messages(d);
if(mes || err)
fprintf(stderr,"\r "
" \r%s%s\n",
mes?mes:"",err?err:"");
if(err)free(err);if(mes)free(mes);
if(readbuf==NULL){
skipped_flag=1;
report("\nparanoia_read: Unrecoverable error reading through "
"sample_offset shift\n\tat end of track, bailing.\n");
break;
}
if(skipped_flag && abort_on_skip)break;
skipped_flag=0;
/* do not move the cursor */
if(output_endian!=bigendianp())
for(i=0;i<CD_FRAMESIZE_RAW/2;i++)
offset_buffer[i]=swap16(readbuf[i]);
else
memcpy(offset_buffer,readbuf,CD_FRAMESIZE_RAW);
offset_buffer_used=sample_offset*4;
callback(cursor*(CD_FRAMEWORDS),-2);
if(buffering_write(out,(char *)offset_buffer,
offset_buffer_used)){
report("Error writing output: %s",strerror(errno));
exit(1);
}
}
}
callback(cursor*(CD_FRAMESIZE_RAW/2)-1,-1);
buffering_close(out);
if(skipped_flag){
/* remove the file */
report("\nRemoving aborted file: %s",outfile_name);
unlink(outfile_name);
/* make the cursor correct if we have another track */
if(batch_track!=-1){
batch_track++;
cursor=cdda_track_firstsector(d,batch_track);
paranoia_seek(p,cursor,SEEK_SET);
offset_skip=sample_offset*4;
offset_buffer_used=0;
}
}
report("\n");
}
paranoia_free(p);
p=NULL;
}
}
report("Done.\n\n");
cdda_close(d);
d=NULL;
if(logfile_open)
fclose(logfile);
if(reportfile_open)
fclose(reportfile);
return 0;
}
static void cleanup(void){
if(p)paranoia_free(p);
if(d)cdda_close(d);
}
static int open_cdda(stream_t *st,int m, void* opts, int* file_format) {
struct cdda_params* p = (struct cdda_params*)opts;
int mode = p->paranoia_mode;
int offset = p->toc_offset;
#ifndef HAVE_LIBCDIO
cdrom_drive* cdd = NULL;
#else
cdrom_drive_t* cdd = NULL;
#endif
cdda_priv* priv;
cd_info_t *cd_info,*cddb_info = NULL;
unsigned int audiolen=0;
int last_track;
int i;
char *xmcd_file = NULL;
if(m != STREAM_READ) {
m_struct_free(&stream_opts,opts);
return STREAM_UNSUPORTED;
}
if(!p->device) {
if (cdrom_device)
p->device = strdup(cdrom_device);
else
p->device = strdup(DEFAULT_CDROM_DEVICE);
}
#ifdef HAVE_CDDB
// cdd_identify returns -1 if it cannot read the TOC,
// in which case there is no point in calling cddb_resolve
if(cdd_identify(p->device) >= 0 && strncmp(st->url,"cddb",4) == 0) {
i = cddb_resolve(p->device, &xmcd_file);
if(i == 0) {
cddb_info = cddb_parse_xmcd(xmcd_file);
free(xmcd_file);
}
}
#endif
#ifndef HAVE_LIBCDIO
if(p->generic_dev)
cdd = cdda_identify_scsi(p->generic_dev,p->device,0,NULL);
else
#endif
#if defined(__NetBSD__)
cdd = cdda_identify_scsi(p->device,p->device,0,NULL);
#else
cdd = cdda_identify(p->device,0,NULL);
#endif
if(!cdd) {
mp_msg(MSGT_OPEN,MSGL_ERR,MSGTR_MPDEMUX_CDDA_CantOpenCDDADevice);
m_struct_free(&stream_opts,opts);
free(cddb_info);
return STREAM_ERROR;
}
cdda_verbose_set(cdd, CDDA_MESSAGE_FORGETIT, CDDA_MESSAGE_FORGETIT);
if(p->sector_size) {
cdd->nsectors = p->sector_size;
#ifndef HAVE_LIBCDIO
cdd->bigbuff = p->sector_size * CD_FRAMESIZE_RAW;
#endif
}
if(cdda_open(cdd) != 0) {
mp_msg(MSGT_OPEN,MSGL_ERR,MSGTR_MPDEMUX_CDDA_CantOpenDisc);
cdda_close(cdd);
m_struct_free(&stream_opts,opts);
free(cddb_info);
return STREAM_ERROR;
}
cd_info = cd_info_new();
mp_msg(MSGT_OPEN,MSGL_INFO,MSGTR_MPDEMUX_CDDA_AudioCDFoundWithNTracks,cdda_tracks(cdd));
for(i=0;i<cdd->tracks;i++) {
char track_name[80];
long sec=cdda_track_firstsector(cdd,i+1);
long off=cdda_track_lastsector(cdd,i+1)-sec+1;
sprintf(track_name, "Track %d", i+1);
cd_info_add_track(cd_info, track_name, i+1, (unsigned int)(off/(60*75)), (unsigned int)((off/75)%60), (unsigned int)(off%75), sec, off );
audiolen += off;
}
cd_info->min = (unsigned int)(audiolen/(60*75));
cd_info->sec = (unsigned int)((audiolen/75)%60);
cd_info->msec = (unsigned int)(audiolen%75);
priv = malloc(sizeof(cdda_priv));
memset(priv, 0, sizeof(cdda_priv));
priv->cd = cdd;
priv->cd_info = cd_info;
if(p->toc_bias)
offset -= cdda_track_firstsector(cdd,1);
if(offset) {
int i;
for(i = 0 ; i < cdd->tracks + 1 ; i++)
cdd->disc_toc[i].dwStartSector += offset;
}
if(p->speed)
cdda_speed_set(cdd,p->speed);
last_track = cdda_tracks(cdd);
if (p->span.start > last_track) p->span.start = last_track;
if (p->span.end < p->span.start) p->span.end = p->span.start;
if (p->span.end > last_track) p->span.end = last_track;
if(p->span.start)
priv->start_sector = cdda_track_firstsector(cdd,p->span.start);
else
priv->start_sector = cdda_disc_firstsector(cdd);
if(p->span.end) {
priv->end_sector = cdda_track_lastsector(cdd,p->span.end);
} else
priv->end_sector = cdda_disc_lastsector(cdd);
priv->cdp = paranoia_init(cdd);
if(priv->cdp == NULL) {
cdda_close(cdd);
free(priv);
cd_info_free(cd_info);
m_struct_free(&stream_opts,opts);
free(cddb_info);
return STREAM_ERROR;
}
if(mode == 0)
mode = PARANOIA_MODE_DISABLE;
else if(mode == 1)
mode = PARANOIA_MODE_OVERLAP;
else
mode = PARANOIA_MODE_FULL;
if(p->no_skip)
mode |= PARANOIA_MODE_NEVERSKIP;
#ifndef HAVE_LIBCDIO
paranoia_modeset(cdd, mode);
if(p->search_overlap >= 0)
paranoia_overlapset(cdd,p->search_overlap);
#else
paranoia_modeset(priv->cdp, mode);
if(p->search_overlap >= 0)
paranoia_overlapset(priv->cdp,p->search_overlap);
#endif
paranoia_seek(priv->cdp,priv->start_sector,SEEK_SET);
priv->sector = priv->start_sector;
#ifdef HAVE_CDDB
if(cddb_info) {
cd_info_free(cd_info);
priv->cd_info = cddb_info;
cd_info_debug( cddb_info );
}
#endif
st->priv = priv;
st->start_pos = priv->start_sector*CD_FRAMESIZE_RAW;
st->end_pos = priv->end_sector*CD_FRAMESIZE_RAW;
st->type = STREAMTYPE_CDDA;
st->sector_size = CD_FRAMESIZE_RAW;
st->fill_buffer = fill_buffer;
st->seek = seek;
st->close = close_cdda;
*file_format = DEMUXER_TYPE_RAWAUDIO;
m_struct_free(&stream_opts,opts);
return STREAM_OK;
}