Added --audio and multi-track, removed --verbose, hid --burn_for_real

This commit is contained in:
Thomas Schmitt 2006-10-18 16:59:07 +00:00
parent 362bcc9cc0
commit a6f394f626

View File

@ -76,13 +76,6 @@ static unsigned int drive_count;
static int drive_is_grabbed = 0;
/** Here you may enable simulated burn by default. This does not apply to
blanking. Anyway, some CD recorders obey the request to simulate, some do
not. Explicit options are: --burn_for_real and --try_to_simulate
*/
static int simulate_burn = 0;
/* Some in-advance definitions to allow a more comprehensive ordering
of the functions and their explanations in here */
int libburner_aquire_by_adr(char *drive_adr);
@ -258,7 +251,7 @@ int libburner_blank_disc(struct burn_drive *drive, int blank_fast)
enum burn_disc_status disc_state;
struct burn_progress progress;
while (burn_drive_get_status(drive, NULL))
while (burn_drive_get_status(drive, NULL) != BURN_DRIVE_IDLE)
usleep(1001);
while ((disc_state = burn_disc_get_status(drive)) == BURN_DISC_UNREADY)
@ -291,7 +284,7 @@ int libburner_blank_disc(struct burn_drive *drive, int blank_fast)
printf(
"Expect some garbage sector numbers and some zeros at first.\n");
burn_disc_erase(drive, blank_fast);
while (burn_drive_get_status(drive, &progress)) {
while (burn_drive_get_status(drive, &progress) != BURN_DRIVE_IDLE) {
printf("Blanking sector %d\n", progress.sector);
sleep(1);
}
@ -321,15 +314,17 @@ int libburner_regrab(struct burn_drive *drive) {
}
/** Brings the preformatted image (ISO 9660, afio, ext2, whatever) onto media.
To make sure your image is fully readable on any Linux machine, this
function adds 300 kB of padding to the track.
/** Brings preformatted track images (ISO 9660, audio, ...) onto media.
To make sure a data image is fully readable on any Linux machine, this
function adds 300 kB of padding to the (usualy single) track.
Audio tracks get padded to complete their last sector.
In case of external signals expect abort handling of an ongoing burn to
last up to a minute. Wait the normal burning timespan before any kill -9.
*/
int libburner_payload(struct burn_drive *drive, const char *source_adr,
off_t size)
int libburner_payload(struct burn_drive *drive,
char source_adr[][4096], int source_adr_count,
off_t stdin_size, int simulate_burn, int all_tracks_type)
{
struct burn_source *data_src;
struct burn_disc *target_disc;
@ -339,44 +334,54 @@ int libburner_payload(struct burn_drive *drive, const char *source_adr,
struct burn_track *track;
struct burn_progress progress;
time_t start_time;
int last_sector = 0;
int last_sector = 0, padding = 0, trackno;
char *adr;
if (all_tracks_type != BURN_AUDIO) {
all_tracks_type = BURN_MODE1;
/* a padding of 300 kB helps to avoid the read-ahead bug */
padding = 300*1024;
}
target_disc = burn_disc_create();
session = burn_session_create();
burn_disc_add_session(target_disc, session, BURN_POS_END);
for (trackno = 0 ; trackno < source_adr_count; trackno++) {
track = burn_track_create();
burn_track_define_data(track, 0, padding, 1, all_tracks_type);
/* a padding of 300 kB is helpful to avoid the read-ahead bug */
burn_track_define_data(track, 0, 300*1024, 1, BURN_MODE1);
if (source_adr[0] == '-' && source_adr[1] == 0) {
data_src = burn_fd_source_new(0, -1, size);
adr = source_adr[trackno];
if (adr[0] == '-' && adr[1] == 0) {
data_src = burn_fd_source_new(0, -1, stdin_size);
printf("Note: using standard input as source with %.f bytes\n",
(double) size);
(double) stdin_size);
} else
data_src = burn_file_source_new(source_adr, NULL);
data_src = burn_file_source_new(adr, NULL);
if (data_src == NULL) {
fprintf(stderr,
"FATAL: Could not open data source '%s'.\n",source_adr);
"FATAL: Could not open data source '%s'.\n",adr);
if(errno!=0)
fprintf(stderr,"(Most recent system error: %s )\n",
strerror(errno));
return 0;
}
if (burn_track_set_source(track, data_src) != BURN_SOURCE_OK) {
printf("FATAL: Cannot attach source object to track object\n");
return 0;
}
burn_session_add_track(session, track, BURN_POS_END);
burn_source_free(data_src);
while (burn_drive_get_status(drive, NULL))
usleep(1001);
burn_session_add_track(session, track, BURN_POS_END);
printf("Track %d : source is '%s'\n", trackno, adr);
burn_source_free(data_src);
} /* trackno loop end */
while (burn_drive_get_status(drive, NULL) != BURN_DRIVE_IDLE)
usleep(100001);
/* Evaluate drive and media */
while ((disc_state = burn_disc_get_status(drive)) == BURN_DISC_UNREADY)
usleep(1001);
usleep(100001);
if (disc_state != BURN_DISC_BLANK) {
if (disc_state == BURN_DISC_FULL ||
disc_state == BURN_DISC_APPENDABLE) {
@ -424,13 +429,13 @@ int libburner_payload(struct burn_drive *drive, const char *source_adr,
burn_write_opts_free(burn_options);
while (burn_drive_get_status(drive, NULL) == BURN_DRIVE_SPAWNING)
usleep(1002);
while (burn_drive_get_status(drive, &progress)) {
while (burn_drive_get_status(drive, &progress) != BURN_DRIVE_IDLE) {
if( progress.sectors <= 0 || progress.sector == last_sector)
printf(
"Thank you for being patient since %d seconds.\n",
(int) (time(0) - start_time));
else
printf("Burning sector %d of %d\n",
printf("Track %d : sector %d of %d\n", progress.track,
progress.sector, progress.sectors);
last_sector = progress.sector;
sleep(1);
@ -445,28 +450,34 @@ int libburner_payload(struct burn_drive *drive, const char *source_adr,
}
/** Converts command line arguments into a few program parameters.
/** The setup parameters of libburn */
static char drive_adr[BURN_DRIVE_ADR_LEN]= {""};
static int driveno= 0;
static int do_blank= 0;
static char source_adr[99][4096];
static int source_adr_count= 0;
static off_t stdin_size= 650*1024*1024;
static int simulate_burn = 0;
static int all_tracks_type = BURN_MODE1;
/** Converts command line arguments into above setup parameters.
drive_adr[] must provide at least BURN_DRIVE_ADR_LEN bytes.
source_adr[] must provide at least 4096 bytes.
*/
int libburner_setup(int argc, char **argv, char drive_adr[], int *driveno,
int *do_blank, char source_adr[], off_t *size)
int libburner_setup(int argc, char **argv)
{
int i, insuffient_parameters = 0;
int print_help = 0;
drive_adr[0] = 0;
*driveno = 0;
*do_blank = 0;
source_adr[0] = 0;
*size = 650*1024*1024;
int i, insuffient_parameters = 0, print_help = 0;
for (i = 1; i < argc; ++i) {
if (!strcmp(argv[i], "--blank_fast")) {
*do_blank = 1;
if (!strcmp(argv[i], "--audio")) {
all_tracks_type = BURN_AUDIO;
} else if (!strcmp(argv[i], "--blank_fast")) {
do_blank = 1;
} else if (!strcmp(argv[i], "--blank_full")) {
*do_blank = 2;
do_blank = 2;
} else if (!strcmp(argv[i], "--burn_for_real")) {
simulate_burn = 0;
@ -478,10 +489,10 @@ int libburner_setup(int argc, char **argv, char drive_adr[], int *driveno,
return 1;
} else if (strcmp(argv[i], "-") == 0) {
drive_adr[0] = 0;
*driveno = -1;
driveno = -1;
} else if (isdigit(argv[i][0])) {
drive_adr[0] = 0;
*driveno = atoi(argv[i]);
driveno = atoi(argv[i]);
} else {
if(strlen(argv[i]) >= BURN_DRIVE_ADR_LEN) {
fprintf(stderr,"--drive address too long (max. %d)\n",
@ -496,58 +507,62 @@ int libburner_setup(int argc, char **argv, char drive_adr[], int *driveno,
fprintf(stderr,"--stdin_size requires an argument\n");
return 3;
} else
*size = atoi(argv[i]);
if (*size < 600*1024) /* seems to be minimum readable track size */
*size = 600*1024;
stdin_size = atoi(argv[i]);
if (stdin_size < 600*1024) /* minimum readable track size */
stdin_size = 600*1024;
} else if (!strcmp(argv[i], "--try_to_simulate")) {
simulate_burn = 1;
} else if (!strcmp(argv[i], "--verbose")) {
++i;
if (i >= argc) {
fprintf(stderr,"--verbose requires an argument\n");
return 4;
} else
burn_set_verbosity(atoi(argv[i]));
} else if (!strcmp(argv[i], "--help")) {
print_help = 1;
} else if (!strncmp(argv[i], "--",2)) {
fprintf(stderr, "Unidentified option: %s\n", argv[i]);
return 7;
} else {
if(strlen(argv[i]) >= 4096) {
fprintf(stderr, "Source address too long (max. %d)\n", 4096-1);
return 5;
}
strcpy(source_adr, argv[i]);
if(source_adr_count >= 99) {
fprintf(stderr, "Too many tracks (max. 99)\n");
return 6;
}
strcpy(source_adr[source_adr_count], argv[i]);
source_adr_count++;
}
}
insuffient_parameters = 1;
if (*driveno < 0)
if (driveno < 0)
insuffient_parameters = 0;
if (source_adr[0] != 0)
if (source_adr_count > 0)
insuffient_parameters = 0;
if (*do_blank)
if (do_blank)
insuffient_parameters = 0;
if (print_help || insuffient_parameters ) {
printf("Usage: %s\n", argv[0]);
printf(" [--drive <address>|<driveno>|\"-\"]\n");
printf(" [--verbose <level>] [--blank_fast|--blank_full]\n");
printf(" [--burn_for_real|--try_to_simulate] [--stdin_size <bytes>]\n");
printf(" [<imagefile>|\"-\"]\n");
printf(" [--blank_fast|--blank_full] [--audio]\n");
printf(" [--try_to_simulate] [--stdin_size <bytes>]\n");
printf(" [<one or more imagefiles>|\"-\"]\n");
printf("Examples\n");
printf("A bus scan (needs rw-permissions to see a drive):\n");
printf(" %s --drive -\n",argv[0]);
printf("Burn a file to drive chosen by number:\n");
printf(" %s --drive 0 --burn_for_real my_image_file\n",
printf(" %s --drive 0 my_image_file\n",
argv[0]);
printf("Burn a file to drive chosen by persistent address:\n");
printf(" %s --drive /dev/hdc --burn_for_real my_image_file\n", argv[0]);
printf(" %s --drive /dev/hdc my_image_file\n", argv[0]);
printf("Blank a used CD-RW (is combinable with burning in one run):\n");
printf(" %s --drive 0 --blank_fast\n",argv[0]);
printf(" %s --drive /dev/hdc --blank_fast\n",argv[0]);
printf("Burn two audio tracks\n");
printf(" lame --decode -t /path/to/track1.mp3 track1.cd\n");
printf(" test/dewav /path/to/track2.wav -o track2.cd\n");
printf(" %s --drive /dev/hdc --audio track1.cd track2.cd\n", argv[0]);
printf("Burn a compressed afio archive on-the-fly, pad up to 700 MB:\n");
printf(" ( cd my_directory ; find . -print | afio -oZ - ) | \\\n");
printf(" %s --drive /dev/hdc --burn_for_real --stdin_size 734003200 -\n", argv[0]);
printf("To be read from *not mounted* CD via:\n");
printf(" afio -tvZ /dev/hdc\n");
printf(" %s --drive /dev/hdc --stdin_size 734003200 -\n", argv[0]);
printf("To be read from *not mounted* CD via: afio -tvZ /dev/hdc\n");
printf("Program tar would need a clean EOF which our padded CD cannot deliver.\n");
if (insuffient_parameters)
return 6;
@ -558,24 +573,24 @@ int libburner_setup(int argc, char **argv, char drive_adr[], int *driveno,
int main(int argc, char **argv)
{
int driveno, ret, do_blank;
char source_adr[4096], drive_adr[BURN_DRIVE_ADR_LEN];
off_t stdin_size;
int ret;
ret = libburner_setup(argc, argv, drive_adr, &driveno, &do_blank,
source_adr, &stdin_size);
ret = libburner_setup(argc, argv);
if (ret)
exit(ret);
printf("Initializing library ...\n");
printf("Initializing libburn.pykix.org ...\n");
if (burn_initialize())
printf("Done\n");
else {
printf("FAILED\n");
fprintf(stderr,"\nFATAL: Failed to initialize libburn.\n");
fprintf(stderr,"\nFATAL: Failed to initialize.\n");
exit(33);
}
/* Print messages of severity SORRY or more directly to stderr */
burn_msgs_set_severities("NEVER", "SORRY", "libburner : ");
/* Activate the default signal handler which eventually will try to
properly shutdown drive and library on aborting events. */
burn_set_signal_handling("libburner : ", NULL, 0);
@ -593,7 +608,7 @@ int main(int argc, char **argv)
do_blank == 1);
if (ret<=0)
{ ret = 36; goto release_drive; }
if (ret != 2 && source_adr[0] != 0)
if (ret != 2 && source_adr_count > 0)
ret = libburner_regrab(drive_list[driveno].drive);
if (ret<=0) {
fprintf(stderr,
@ -601,9 +616,10 @@ int main(int argc, char **argv)
{ ret = 37; goto finish_libburn; }
}
}
if (source_adr[0] != 0) {
ret = libburner_payload(drive_list[driveno].drive, source_adr,
stdin_size);
if (source_adr_count > 0) {
ret = libburner_payload(drive_list[driveno].drive,
source_adr, source_adr_count, stdin_size,
simulate_burn, all_tracks_type);
if (ret<=0)
{ ret = 38; goto release_drive; }
}
@ -618,7 +634,7 @@ finish_libburn:;
/* burn_drive_info_free(drive_list); */
burn_finish();
return ret;
exit(ret);
}