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This is clzip.info, produced by makeinfo version 4.13 from
clzip.texinfo.
INFO-DIR-SECTION Data Compression
START-INFO-DIR-ENTRY
* Clzip: (clzip). LZMA lossless data compressor
END-INFO-DIR-ENTRY
File: clzip.info, Node: Top, Next: Introduction, Up: (dir)
Clzip Manual
************
This manual is for Clzip (version 1.5-rc1, 1 August 2013).
* Menu:
* Introduction:: Purpose and features of clzip
* Algorithm:: How clzip compresses the data
* Invoking clzip:: Command line interface
* File format:: Detailed format of the compressed file
* Examples:: A small tutorial with examples
* Problems:: Reporting bugs
* Concept index:: Index of concepts
Copyright (C) 2010, 2011, 2012, 2013 Antonio Diaz Diaz.
This manual is free documentation: you have unlimited permission to
copy, distribute and modify it.
File: clzip.info, Node: Introduction, Next: Algorithm, Prev: Top, Up: Top
1 Introduction
**************
Clzip is a lossless data compressor with a user interface similar to the
one of gzip or bzip2. Clzip decompresses almost as fast as gzip and
compresses more than bzip2, which makes it well suited for software
distribution and data archiving. Clzip is a clean implementation of the
LZMA algorithm.
Clzip uses the lzip file format; the files produced by clzip are
fully compatible with lzip-1.4 or newer, and can be rescued with
lziprecover. Clzip is in fact a C language version of lzip, intended
for embedded devices or systems lacking a C++ compiler.
The lzip file format is designed for long-term data archiving and
provides very safe integrity checking. The member trailer stores the
32-bit CRC of the original data, the size of the original data and the
size of the member. These values, together with the value remaining in
the range decoder and the end-of-stream marker, provide a 4 factor
integrity checking which guarantees that the decompressed version of the
data is identical to the original. This guards against corruption of the
compressed data, and against undetected bugs in clzip (hopefully very
unlikely). The chances of data corruption going undetected are
microscopic. Be aware, though, that the check occurs upon decompression,
so it can only tell you that something is wrong. It can't help you
recover the original uncompressed data.
If you ever need to recover data from a damaged lzip file, try the
lziprecover program. Lziprecover makes lzip files resistant to bit-flip
(one of the most common forms of data corruption), and provides data
recovery capabilities, including error-checked merging of damaged copies
of a file.
Clzip uses the same well-defined exit status values used by lzip and
bzip2, which makes it safer when used in pipes or scripts than
compressors returning ambiguous warning values, like gzip.
Clzip replaces every file given in the command line with a compressed
version of itself, with the name "original_name.lz". Each compressed
file has the same modification date, permissions, and, when possible,
ownership as the corresponding original, so that these properties can be
correctly restored at decompression time. Clzip is able to read from
some types of non regular files if the `--stdout' option is specified.
If no file names are specified, clzip compresses (or decompresses)
from standard input to standard output. In this case, clzip will
decline to write compressed output to a terminal, as this would be
entirely incomprehensible and therefore pointless.
Clzip will correctly decompress a file which is the concatenation of
two or more compressed files. The result is the concatenation of the
corresponding uncompressed files. Integrity testing of concatenated
compressed files is also supported.
Clzip can produce multi-member files and safely recover, with
lziprecover, the undamaged members in case of file damage. Clzip can
also split the compressed output in volumes of a given size, even when
reading from standard input. This allows the direct creation of
multivolume compressed tar archives.
Clzip is able to compress and decompress streams of unlimited size by
automatically creating multi-member output. The members so created are
large, about 64 PiB each.
The amount of memory required for compression is about 1 or 2 times
the dictionary size limit (1 if input file size is less than dictionary
size limit, else 2) plus 9 times the dictionary size really used. The
amount of memory required for decompression is only a few tens of KiB
larger than the dictionary size really used.
Clzip will automatically use the smallest possible dictionary size
without exceeding the given limit. Keep in mind that the decompression
memory requirement is affected at compression time by the choice of
dictionary size limit.
When decompressing, clzip attempts to guess the name for the
decompressed file from that of the compressed file as follows:
filename.lz becomes filename
filename.tlz becomes filename.tar
anyothername becomes anyothername.out
File: clzip.info, Node: Algorithm, Next: Invoking clzip, Prev: Introduction, Up: Top
2 Algorithm
***********
Clzip implements a simplified version of the LZMA (Lempel-Ziv-Markov
chain-Algorithm) algorithm. The high compression of LZMA comes from
combining two basic, well-proven compression ideas: sliding dictionaries
(LZ77/78) and markov models (the thing used by every compression
algorithm that uses a range encoder or similar order-0 entropy coder as
its last stage) with segregation of contexts according to what the bits
are used for.
Clzip is a two stage compressor. The first stage is a Lempel-Ziv
coder, which reduces redundancy by translating chunks of data to their
corresponding distance-length pairs. The second stage is a range encoder
that uses a different probability model for each type of data;
distances, lengths, literal bytes, etc.
The match finder, part of the LZ coder, is the most important piece
of the LZMA algorithm, as it is in many Lempel-Ziv based algorithms.
Most of clzip's execution time is spent in the match finder, and it has
the greatest influence on the compression ratio.
Here is how it works, step by step:
1) The member header is written to the output stream.
2) The first byte is coded literally, because there are no previous
bytes to which the match finder can refer to.
3) The main encoder advances to the next byte in the input data and
calls the match finder.
4) The match finder fills an array with the minimum distances before
the current byte where a match of a given length can be found.
5) Go back to step 3 until a sequence (formed of pairs, repeated
distances and literal bytes) of minimum price has been formed. Where the
price represents the number of output bits produced.
6) The range encoder encodes the sequence produced by the main
encoder and sends the produced bytes to the output stream.
7) Go back to step 3 until the input data is finished or until the
member or volume size limits are reached.
8) The range encoder is flushed.
9) The member trailer is written to the output stream.
10) If there are more data to compress, go back to step 1.
The ideas embodied in clzip are due to (at least) the following people:
Abraham Lempel and Jacob Ziv (for the LZ algorithm), Andrey Markov (for
the definition of Markov chains), G.N.N. Martin (for the definition of
range encoding), Igor Pavlov (for putting all the above together in
LZMA), and Julian Seward (for bzip2's CLI).
File: clzip.info, Node: Invoking clzip, Next: File format, Prev: Algorithm, Up: Top
3 Invoking clzip
****************
The format for running clzip is:
clzip [OPTIONS] [FILES]
Clzip supports the following options:
`-h'
`--help'
Print an informative help message describing the options and exit.
`-V'
`--version'
Print the version number of clzip on the standard output and exit.
`-b BYTES'
`--member-size=BYTES'
Set the member size limit to BYTES. A small member size may
degrade compression ratio, so use it only when needed. Valid values
range from 100 kB to 64 PiB. Defaults to 64 PiB.
`-c'
`--stdout'
Compress or decompress to standard output. Needed when reading
from a named pipe (fifo) or from a device. Use it to recover as
much of the uncompressed data as possible when decompressing a
corrupt file.
`-d'
`--decompress'
Decompress.
`-f'
`--force'
Force overwrite of output files.
`-F'
`--recompress'
Force recompression of files whose name already has the `.lz' or
`.tlz' suffix.
`-k'
`--keep'
Keep (don't delete) input files during compression or
decompression.
`-m BYTES'
`--match-length=BYTES'
Set the match length limit in bytes. After a match this long is
found, the search is finished. Valid values range from 5 to 273.
Larger values usually give better compression ratios but longer
compression times.
`-o FILE'
`--output=FILE'
When reading from standard input and `--stdout' has not been
specified, use `FILE' as the virtual name of the uncompressed
file. This produces a file named `FILE' when decompressing, a file
named `FILE.lz' when compressing, and several files named
`FILE00001.lz', `FILE00002.lz', etc, when compressing and
splitting the output in volumes.
`-q'
`--quiet'
Quiet operation. Suppress all messages.
`-s BYTES'
`--dictionary-size=BYTES'
Set the dictionary size limit in bytes. Valid values range from 4
KiB to 512 MiB. Clzip will use the smallest possible dictionary
size for each member without exceeding this limit. Note that
dictionary sizes are quantized. If the specified size does not
match one of the valid sizes, it will be rounded upwards by adding
up to (BYTES / 16) to it.
For maximum compression you should use a dictionary size limit as
large as possible, but keep in mind that the decompression memory
requirement is affected at compression time by the choice of
dictionary size limit.
`-S BYTES'
`--volume-size=BYTES'
Split the compressed output into several volume files with names
`original_name00001.lz', `original_name00002.lz', etc, and set the
volume size limit to BYTES. Each volume is a complete, maybe
multi-member, lzip file. A small volume size may degrade
compression ratio, so use it only when needed. Valid values range
from 100 kB to 4 EiB.
`-t'
`--test'
Check integrity of the specified file(s), but don't decompress
them. This really performs a trial decompression and throws away
the result. Use it together with `-v' to see information about
the file.
`-v'
`--verbose'
Verbose mode.
When compressing, show the compression ratio for each file
processed. A second -v shows the progress of compression.
When decompressing or testing, further -v's (up to 4) increase the
verbosity level, showing status, compression ratio, dictionary
size, and trailer contents (CRC, data size, member size).
`-1 .. -9'
Set the compression parameters (dictionary size and match length
limit) as shown in the table below. Note that `-9' can be much
slower than `-1'. These options have no effect when decompressing.
The bidimensional parameter space of LZMA can't be mapped to a
linear scale optimal for all files. If your files are large, very
repetitive, etc, you may need to use the `--match-length' and
`--dictionary-size' options directly to achieve optimal
performance. For example, `-9m64' usually compresses executables
more (and faster) than `-9'.
Level Dictionary size Match length limit
-1 1 MiB 5 bytes
-2 1.5 MiB 6 bytes
-3 2 MiB 8 bytes
-4 3 MiB 12 bytes
-5 4 MiB 20 bytes
-6 8 MiB 36 bytes
-7 16 MiB 68 bytes
-8 24 MiB 132 bytes
-9 32 MiB 273 bytes
`--fast'
`--best'
Aliases for GNU gzip compatibility.
Numbers given as arguments to options may be followed by a multiplier
and an optional `B' for "byte".
Table of SI and binary prefixes (unit multipliers):
Prefix Value | Prefix Value
k kilobyte (10^3 = 1000) | Ki kibibyte (2^10 = 1024)
M megabyte (10^6) | Mi mebibyte (2^20)
G gigabyte (10^9) | Gi gibibyte (2^30)
T terabyte (10^12) | Ti tebibyte (2^40)
P petabyte (10^15) | Pi pebibyte (2^50)
E exabyte (10^18) | Ei exbibyte (2^60)
Z zettabyte (10^21) | Zi zebibyte (2^70)
Y yottabyte (10^24) | Yi yobibyte (2^80)
Exit status: 0 for a normal exit, 1 for environmental problems (file
not found, invalid flags, I/O errors, etc), 2 to indicate a corrupt or
invalid input file, 3 for an internal consistency error (eg, bug) which
caused clzip to panic.
File: clzip.info, Node: File format, Next: Examples, Prev: Invoking clzip, Up: Top
4 File format
*************
Perfection is reached, not when there is no longer anything to add, but
when there is no longer anything to take away.
-- Antoine de Saint-Exupery
In the diagram below, a box like this:
+---+
| | <-- the vertical bars might be missing
+---+
represents one byte; a box like this:
+==============+
| |
+==============+
represents a variable number of bytes.
A lzip file consists of a series of "members" (compressed data sets).
The members simply appear one after another in the file, with no
additional information before, between, or after them.
Each member has the following structure:
+--+--+--+--+----+----+=============+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| ID string | VN | DS | Lzma stream | CRC32 | Data size | Member size |
+--+--+--+--+----+----+=============+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
All multibyte values are stored in little endian order.
`ID string'
A four byte string, identifying the lzip format, with the value
"LZIP" (0x4C, 0x5A, 0x49, 0x50).
`VN (version number, 1 byte)'
Just in case something needs to be modified in the future. 1 for
now.
`DS (coded dictionary size, 1 byte)'
Lzip divides the distance between any two powers of 2 into 8
equally spaced intervals, named "wedges". The dictionary size is
calculated by taking a power of 2 (the base size) and substracting
from it a number of wedges between 0 and 7. The size of a wedge is
(base_size / 16).
Bits 4-0 contain the base 2 logarithm of the base size (12 to 29).
Bits 7-5 contain the number of wedges (0 to 7) to substract from
the base size to obtain the dictionary size.
Example: 0xD3 = 2^19 - 6 * 2^15 = 512 KiB - 6 * 32 KiB = 320 KiB
Valid values for dictionary size range from 4 KiB to 512 MiB.
`Lzma stream'
The lzma stream, finished by an end of stream marker. Uses default
values for encoder properties. See the lzip manual for a full
description.
`CRC32 (4 bytes)'
CRC of the uncompressed original data.
`Data size (8 bytes)'
Size of the uncompressed original data.
`Member size (8 bytes)'
Total size of the member, including header and trailer. This field
acts as a distributed index, allows the verification of stream
integrity, and facilitates safe recovery of undamaged members from
multi-member files.
File: clzip.info, Node: Examples, Next: Problems, Prev: File format, Up: Top
5 A small tutorial with examples
********************************
WARNING! Even if clzip is bug-free, other causes may result in a corrupt
compressed file (bugs in the system libraries, memory errors, etc).
Therefore, if the data you are going to compress is important, give the
`--keep' option to clzip and do not remove the original file until you
verify the compressed file with a command like
`clzip -cd file.lz | cmp file -'.
Example 1: Replace a regular file with its compressed version `file.lz'
and show the compression ratio.
clzip -v file
Example 2: Like example 1 but the created `file.lz' is multi-member
with a member size of 1 MiB. The compression ratio is not shown.
clzip -b 1MiB file
Example 3: Restore a regular file from its compressed version
`file.lz'. If the operation is successful, `file.lz' is removed.
clzip -d file.lz
Example 4: Verify the integrity of the compressed file `file.lz' and
show status.
clzip -tv file.lz
Example 5: Compress a whole floppy in /dev/fd0 and send the output to
`file.lz'.
clzip -c /dev/fd0 > file.lz
Example 6: Decompress `file.lz' partially until 10 KiB of decompressed
data are produced.
clzip -cd file.lz | dd bs=1024 count=10
Example 7: Decompress `file.lz' partially from decompressed byte 10000
to decompressed byte 15000 (5000 bytes are produced).
clzip -cd file.lz | dd bs=1000 skip=10 count=5
Example 8: Create a multivolume compressed tar archive with a volume
size of 1440 KiB.
tar -c some_directory | clzip -S 1440KiB -o volume_name
Example 9: Extract a multivolume compressed tar archive.
clzip -cd volume_name*.lz | tar -xf -
Example 10: Create a multivolume compressed backup of a large database
file with a volume size of 650 MB, where each volume is a multi-member
file with a member size of 32 MiB.
clzip -b 32MiB -S 650MB big_db
File: clzip.info, Node: Problems, Next: Concept index, Prev: Examples, Up: Top
6 Reporting Bugs
****************
There are probably bugs in clzip. There are certainly errors and
omissions in this manual. If you report them, they will get fixed. If
you don't, no one will ever know about them and they will remain unfixed
for all eternity, if not longer.
If you find a bug in clzip, please send electronic mail to
<lzip-bug@nongnu.org>. Include the version number, which you can find
by running `clzip --version'.
File: clzip.info, Node: Concept index, Prev: Problems, Up: Top
Concept index
*************
[index ]
* Menu:
* algorithm: Algorithm. (line 6)
* bugs: Problems. (line 6)
* examples: Examples. (line 6)
* file format: File format. (line 6)
* getting help: Problems. (line 6)
* introduction: Introduction. (line 6)
* invoking: Invoking clzip. (line 6)
* options: Invoking clzip. (line 6)
* usage: Invoking clzip. (line 6)
* version: Invoking clzip. (line 6)
Tag Table:
Node: Top212
Node: Introduction914
Node: Algorithm5091
Node: Invoking clzip7590
Node: File format13187
Node: Examples15692
Node: Problems17660
Node: Concept index18186
End Tag Table
Local Variables:
coding: iso-8859-15
End:
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