cd-paranoia 9.8 (Paranoia release III via libcdio) - an audio CD
reading utility which includes extra data verification features
cd-paranoia [options] span
[outfile]
cd-paranoia retrieves audio tracks from CDDA capable CD-ROM
drives. The data can be saved to a file or directed to standard output in
WAV, AIFF, AIFF-C or raw format. Most ATAPI, SCSI and several proprietary
CD-ROM drive makes are supported; cd-paranoia can determine if the
target drive is CDDA capable.
In addition to simple reading, cd-paranoia adds
extra-robust data verification, synchronization, error handling and scratch
reconstruction capability.
This version uses the libcdio library for interaction with a
CD-ROM drive. The jitter and error correction however are the same as used
in Xiph's cdparanoia.
- -A --analyze-drive
- Run and log a complete analysis of drive caching, timing and reading
behavior; verifies that cdparanoia is correctly modelling a specific
drive's cache and read behavior. Implies -vQL.
- -v --verbose
- Be absurdly verbose about the autosensing and reading process. Good for
setup and debugging.
- -q --quiet
- Do not print any progress or error information during the reading process.
- -e --stderr-progress
- Force output of progress information to stderr (for wrapper scripts).
- -V --version
- Print the program version and quit.
- -Q --query
- Perform CD-ROM drive autosense, query and print the CD-ROM table of
contents, then quit.
- -h --help
- Print a brief synopsis of cd-paranoia usage and options.
- -l --log-summary
file
- Save result summary to file.
- -L --log-debug
file
- Save detailed device autosense and debugging output to a file.
- -p --output-raw
- Output headerless data as raw 16 bit PCM data with interleaved samples in
host byte order. To force little or big endian byte order, use -r
or -R as described below.
- -r
--output-raw-little-endian
- Output headerless data as raw 16 bit PCM data with interleaved samples in
LSB first byte order.
- -R
--output-raw-big-endian
- Output headerless data as raw 16 bit PCM data with interleaved samples in
MSB first byte order.
- -w --output-wav
- Output data in Microsoft RIFF WAV format (note that WAV data is always LSB
first byte order).
- -f --output-aiff
- Output data in Apple AIFF format (note that AIFC data is always in MSB
first byte order).
- -a --output-aifc
- Output data in uncompressed Apple AIFF-C format (note that AIFF-C data is
always in MSB first byte order).
- -B --batch
-
Cdda2wav-style batch output flag; cd-paranoia will split the
output into multiple files at track boundaries. Output file names are
prepended with 'track#.'
- -c
--force-cdrom-little-endian
- Some CD-ROM drives misreport their endianness (or do not report it at
all); it's possible that cd-paranoia will guess wrong. Use -c to
force cd-paranoia to treat the drive as a little endian device.
- -C
--force-cdrom-big-endian
- As above but force cd-paranoia to treat the drive as a big endian device.
- -n --force-default-sectors
n
- Force the interface backend to do atomic reads of n sectors per
read. This number can be misleading; the kernel will often split read
requests into multiple atomic reads (the automated Paranoia code is aware
of this) or allow reads only wihin a restricted size range. This option
should generally not be used.
- -d --force-cdrom-device
device
- Force the interface backend to read from device rather than the
first readable CD-ROM drive it finds containing a CD-DA disc. This can be
used to specify devices of any valid interface type (ATAPI, SCSI or
proprietary).
- -g --force-generic-device
device
- This option is an alias for -d and is retained for compatibility.
- -S --force-read-speed
number
- Use this option explicitly to set the read rate of the CD drive (where
supported). This can reduce underruns on machines with slow disks, or
which are low on memory.
- -t --toc-offset
number
- Use this option to force the entire disc LBA addressing to shift by the
given amount; the value is added to the beginning offsets in the TOC. This
can be used to shift track boundaries for the whole disc manually on
sector granularity. The next option does something similar...
- -T --toc-bias
- Some drives (usually random Toshibas) report the actual track beginning
offset values in the TOC, but then treat the beginning of track 1 index 1
as sector 0 for all read operations. This results in every track seeming
to start too late (losing a bit of the beginning and catching a bit of the
next track). -T accounts for this behavior. Note that this option will
cause cd-paranoia to attempt to read sectors before or past the known user
data area of the disc, resulting in read errors at disc edges on most
drives and possibly even hard lockups on some buggy hardware.
- -O --sample-offset
number
- 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 cd-paranoia queries a specific sector, it might not
receive exactly that sector, but shifted by some amount.
Use this option to force the entire disc to shift sample position
output by the given amount; This can be used to shift track boundaries for
the whole disc manually on sample granularity. Note that if you are ripping
something including the ending of the CD (e.g. the entire disk), this option
will cause cd-paranoia to attempt to read partial sectors before or past the
known user data area, probably causing read errors on most drives and
possibly even hard lockups on some buggy hardware.
- -E--force-overread
- Force overreading into the lead-out portion of the disc. This option is
only applicable when using the +.B -O +option with a positive sample
offset value. Many drives are not capable of reading into this portion of
the disc and attempting to do so on those drives will produce read errors
and possibly hard lockups.
- -Z
--disable-paranoia
- Disable all data verification and correction features. When using
-Z, cd-paranoia reads data exactly as would cdda2wav with an overlap
setting of zero. This option implies that -Y is active.
- -z
--never-skip[=max_retries]
- Do not accept any skips; retry forever if needed. An optional maximum
number of retries can be specified; for comparison, default without -z is
currently 20.
- -Y
--disable-extra-paranoia
- Disables intra-read data verification; only overlap checking at read
boundaries is performed. It can wedge if errors occur in the attempted
overlap area. Not recommended.
- -X --abort-on-skip
- If the read skips due to imperfect data, a scratch, whatever, abort
reading this track. If output is to a file, delete the partially completed
file.
- -x --test-flags mask
- Simulate CD-reading errors. This is used in regression testing, but other
uses might be to see how well a CD-ROM performs under (simulated) CD
degradation. mask specifies the artificial kinds of errors to introduced;
"or"-ing values from the selection below will simulate the kind
of specified failure.
0x10 - Simulate under-run reading
-
:-)
- Normal operation, low/no jitter
-
:-|
- Normal operation, considerable jitter
-
:-/
- Read drift
-
:-P
- Unreported loss of streaming in atomic read operation
-
8-|
- Finding read problems at same point during reread; hard to correct
-
:-0
- SCSI/ATAPI transport error
-
:-(
- Scratch detected
-
;-(
- Gave up trying to perform a correction
-
8-X
- Aborted read due to known, uncorrectable error
-
:^D
- Finished extracting
- <space>
- No corrections needed
-
-
- Jitter correction required
-
+
- Unreported loss of streaming/other error in read
-
!
- Errors found after stage 1 correction; the drive is making the same error
through multiple re-reads, and cd-paranoia is having trouble detecting
them.
-
e
- SCSI/ATAPI transport error (corrected)
-
V
- Uncorrected error/skip
The span argument specifies which track, tracks or subsections of
tracks to read. This argument is required. NOTE: Unless the span is a
simple number, it's generally a good idea to quote the span argument to
protect it from the shell.
The span argument may be a simple track number or an offset/span
specification. The syntax of an offset/span takes the rough form:
1[ww:xx:yy.zz]-2[aa:bb:cc.dd]
Here, 1 and 2 are track numbers; the numbers in brackets provide a
finer grained offset within a particular track. [aa:bb:cc.dd] is in
hours/minutes/seconds/sectors format. Zero fields need not be specified:
[::20], [:20], [20], [20.], etc, would be interpreted as twenty seconds,
[10:] would be ten minutes, [.30] would be thirty sectors (75 sectors per
second).
When only a single offset is supplied, it is interpreted as a
starting offset and ripping will continue to the end of the track. If a
single offset is preceeded or followed by a hyphen, the implicit missing
offset is taken to be the start or end of the disc, respectively. Thus:
- 1:[20.35]
- Specifies ripping from track 1, second 20, sector 35 to the end of track
1.
- 1:[20.35]-
- Specifies ripping from 1[20.35] to the end of the disc
- -2
- Specifies ripping from the beginning of the disc up to (and including)
track 2
- -2:[30.35]
- Specifies ripping from the beginning of the disc up to 2:[30.35]
- 2-4
- Specifies ripping from the beginning of track 2 to the end of track
4.
Again, don't forget to protect square brackets and preceeding
hyphens from the shell.
The output file argument is optional; if it is not specified,
cd-paranoia will output samples to one of cdda.wav, cdda.aifc,
or cdda.raw depending on whether -w, -a, -r or
-R is used (-w is the implicit default). The output file
argument of - specifies standard output; all data formats may be
piped.
cd-paranoia sprang from and once drew heavily from the interface
of Heiko Eissfeldt's (heiko@colossus.escape.de) 'cdda2wav' package.
cd-paranoia would not have happened without it.
Joerg Schilling has also contributed SCSI expertise through his
generic SCSI transport library.
Monty <monty@xiph.org>
Cdparanoia's homepage may be found at:
https://www.xiph.org/paranoia/
Revised for use with libcdio by Rocky <rocky@gnu.org>
The libcdio homepage may be found at:
https://www.gnu.org/software/libcdio/