Provided by: jacksum_1.7.0-2_all
NAME
jacksum - computes checksums, CRCs and message digests
SYNOPSIS
jacksum [OPTIONS]... [FILE]... java -jar /usr/share/java/jacksum.jar [OPTIONS]... [FILE]... java -cp /usr/share/java/jacksum.jar Jacksum [OPTIONS]... [FILE]...
DESCRIPTION
Jacksum is a free and platform independent utility for computing and verifying checksums, CRCs and hashes (message digests) as well as timestamps of files. Jacksum is written entirely in Java. A Java Runtime Environment (JRE), at least version 1.3.1 or any equivalent JRE is required. At least JRE 1.4.2 is recommended. The following parameters are supported: file a path name of a file to be checked. Wildcards are supported. They depend on the shell you are running. With no file, or when the file is character "-", standard input is read. The following options are supported: -a algo the algorithm, default is sha-1 since Jacksum 1.0.0, see also -A. Algorithms can be combinded by the plus character, e. g. "sha1+crc32", "bsd+crc24+xor8". If you specify "-a all" all supported algorithms are used, see also -F. As soon as "all" or a plus character is used, the output is normalized with a hex checksum and a decimal filesize. Examples: "sha+", "md5+". Feature available since Jacksum 1.7.0, see also -A, -F. -A Alternate. By default Jacksum uses algorithms provided by the Java API if available, because those are optimized by the JVM vendor, they usually provide very good performance. If -A is set, Jacksum uses an alternate, pure Java implementation of an algorithm (if available). Actually, Jacksum supports alternate implementations for the following algorithms: adler32, crc32, md5, sha-1, sha-256, sha-384, sha-512 since Jacksum 1.5.0, see also -a. -c list checks the integrity against a given list. The list is usually a former output of Jacksum, ideally created with option -m. You can also check against a list which was created by a different application. In this case, you need to specify all parameters which are necessary to produce the same output. The parameter -F will be ignored. To exclude files, just remove lines from the list. Feature available since Jacksum 1.3.0, see also -l -I and -m. -d directories (regular) only. Don't follow symbolic links on Linux/Unix. A symbolic link from a subfolder to a parent folder could cause endless loops under Unix/Linux while recursively traversing the tree. If this option is set, symbolic links to directories will be ignored. This option will be ignored under Windows. Feature available since Jacksum 1.5.0, See also -r. -e seq expectation. A sequence for the calculation is expected. Works with a file, standard input or option -q. Returns OK (exit code 0) or MISMATCH (exit code 1). Available since Jacksum 1.4.0. Works also with multiple files or directories to find duplicates, in which case all findings are printed out. The sequence can be specified either case sensitive or case insensitive, except if Base 64 encoding (by -E) has been specified. Available since Jacksum 1.6.0, see also -a, -q, -E, -x and -X. -E encoding encoding. The checksum can be encoded: bin Binary dec Decimal oct Octal hex Hexadecimal in lowercase (same as -x) hexup Hexadecimal in uppercase (same as -X) base16 Base 16 (as defined by RFC 3548) base32 Base 32 (as defined by RFC 3548) base64 Base 64 (as defined by RFC 3548) bb BubbleBabble (used by OpenSSH and SSH2) available since Jacksum 1.6.0, see also -x and -X. -f process files only, this option suppresses the messages "... Is a directory" and " ... Is not a regular file". Available since Jacksum 1.0.0, see also -V. -F format Set a customizable output format to overwrite the default. Available since Jacksum 1.5.0, if not other specified, see also -a, -E, -g, -G, -p, -P, -s, -t, -x, -X. #ALGONAME will be replaced by the name of the algorithm #ALGONAME{i} see also #CHECKSUM{i} #CHECKSUM will be replaced by the hash, CRC or sum value (depends on -a, -b, -g, -G, -x, -X) #CHECKSUM{i} If the character called + has been used to separate multiple algorithms at option -a, the token will be replaced with the checksum. The token is indexed by a number. If you use the character called i rather than a number, it works like an automatic index. (1.6) #FILENAME will be replaced by the filename and path (depends on -p and -P) #FILENAME{NAME} will be replaced by the filename (1.5) #FILENAME{PATH} will be replaced by the filepath (1.5) #FILESIZE will be replaced by the filesize #FINGERPRINT is an alias for #CHECKSUM #SEPARATOR will be replaced by the separator which you can specify with -s #TIMESTAMP will be replaced by the timestamp (depends on -t) #QUOTE will be replaced by one quote char (") -g count group the hex output for the checksum in "count" bytes for better readability. Only valid if encoding is hex or hexup. Groups are separated by a blank or by the character specified by -G. The value for count must be greater than 0. Available since Jacksum 1.6.0, see also -E, -G, -x and -X -G char group character. Only valid if encoding is hexadecimal and -g has been set. -h [lang] [section] print help, valid codes for "lang" are "en" or "de", default is "en"; valid values for "section" are strings like headers or options. See section EXAMPLES for more information. Available since Jacksum 1.0.0, parameter section since Jacksum 1.6.0, see also -v. -I string ignore. While creating a list by -m or reading a list by -c, lines are ignored if they start with the specified string. Available since Jacksum 1.6.0, see also -c and -m. -l list. Just list files which were modified or deleted. In combination with -c only. Available since Jacksum 1.4.0, see also -c. -m print metainfo. Additional lines will be printed. With the metainfo available you can check files against a given list without the need to specify a lot of commandline parameters. Any customized format you can normally specify with -F are ignored. Available since Jacksum 1.3.0, see also -c. -o file output. The output of the program goes to a file rather than the standard output. The program exits with a warning if the file exists. The file which is specified by -o is excluded from the calculation process. Available since Jacksum 1.6.0, see also -O, -u and -U. -O file output. Same as -o, however an existing file will be overwritten without any warning. See also -U. Available since Jacksum 1.6.0, see also -o, -u and -U. -p path. Put the path info on each line, instead of printing a header for each directory while processing folders recursively (-r). With this option the output will increase, but on the flip side it will be much easier to sort or grep the lines with corresponding programs. Available since Jacksum 1.4.0, see also -F, -P, -r and -w. -P char path separator. By default, the system-dependent default file name separator character is used. On Unix systems the character is the slash (/), on Microsoft Windows systems it is the back slash (\). You can change the default if a special output format for filenames (such as HTML links) is required. Available since Jacksum 1.5.0, see also -F and -p. -q [type:]seq process a sequence quickly and quit the program. The type can be used to specify the type of the sequence (text, hexadecimal or decimal): txt:Example1 hex:4578616D706C6531 dec:69,120,97,109,112,108,101,49 4578616D706C6531 If type is not set, the seq is expected to be in hex form. If type is set to "txt", the platform's default charset will be used to interpret the sequence called seq. Available since Jacksum 1.3.0 (hex only), type since 1.5.0. -r process subdirectory recursively (without a file parameter the current directory is used). Available since Jacksum 1.0.0, see also -p and -w. -s sep a custom separator string (\t, \n, \r, \", \' and \\ will be translated). The default value depends on the checksum algorithm. Available since Jacksum 1.0.0, see also -F. -S summary. This calculates just one checksum value. All files, the directory structures, the filenames and timestamps (if requested) are part of that checksum. See also -w. Available since Jacksum 1.5.0, see also -r and -w. -t form a timestamp format. Java's formatter class SimpleDateFormat will be used. Valid characters are G Era designator y Year M Month in year w Week in year W Week in month D Day in year d Day in month F Day of week in month E Day in week a AM/PM marker H Hour in day (0-23) k Hour in day (1-24) K Hour in am/pm (0-11) h Hour in am/pm (1-12) m Minute in hour s Second in minute S Millisecond z Time zone, general Z Time zone, RFC 822 If form is set to the word "default", timestamps will be formatted with "yyyyMMddHHmmss". since Jacksum 1.3.0 #SEPARATOR will be replaced by the separator which you can specify with -s #QUOTE will be replaced by one quote char (") Available since Jacksum 1.6.0, see also -F. -u file ugly, undesirable, unforeseen, uninvited. Any error messages of the program is redirected to a file rather than the standard error. The program exits if the file exists. The file which is specified by -u is excluded from the calculation process. Available since Jacksum 1.6.0, see also -U, -o and -O. -U file ugly, undesirable, unforeseen, uninvited. Same as -u, however an existing file will be overwritten without any warning. See also -O. Available since Jacksum 1.6.0, see also -u, -o and -O. -v version. Prints the product version and exits. Available since Jacksum 1.2.0, see also -h. -V control verbose. Prints additional information. If -V is the only parameter it behaves like -v. "control" can be one of the following keywords which must be separated by a comma: details | nodetails Errors with or without details warnings | nowarnings Warnings or no warnings summary | nosummary Summary at the end or not If control is set to "default", control is set to "details,warnings,nosummary". Available since Jacksum 1.6.0, see also -f and -v. -w The file parameter (the last parameter) is intended to be the working directory. This allows to create relative path names rather than absolute ones. Only valid if the file parameter is a directory. Available since Jacksum 1.6.0, see also -r and -S. -x lowercase hex output for the checksum, it is an alias for -E hex. Available since Jacksum 1.1.0, see also -E. -X uppercase hex output for the checksum, it is an alias for -E hexup. Available since Jacksum 1.1.0, see also -E. The following algorithms are supported: adler32, adler-32 algorithm: Adler32 [java.util.zip.Adler32] length: 32 bits type: checksum, 1995 since: Jacksum 1.0.0 (alias "adler-32" since 1.2.0) comment: Adler32 was invented by Mark Adler in 1995. The specification for Adler32 may be found in RFC 1950. Adler32 is a 32-bit extension and improvement of the Fletcher algorithm, used in the ITU-T X.224 / ISO 8073 standard. [jonelo.jacksum.algorithm.Adler32alt] is the alternate implementation and it is used if option -A is specified. bsd, bsdsum, sumbsd algorithm: BSD checksum algorithm length: 16 bits type: checksum since: Jacksum 1.0.0 (alias "bsdsum" since 1.2.0, alias "sumbsd" since 1.6.0) comment: output format is exactly like the native program sum (size in 1024 byte blocks) see also sysv - under BeOS it is /bin/sum [-r] - under FreeBSD it is /usr/bin/sum and /usr/bin/cksum -o 1 - under HP-UX it is /usr/bin/sum -r - under IBM AIX it is /usr/bin/sum [-r] - under Linux it is /usr/bin/sum [-r] - under MacOS X it is /usr/bin/sum and /usr/bin/cksum -o 1 - under Solaris it is /usr/ucb/sum - under Windows there is no sum cksum algorithm: POSIX 1003.2 CRC algorithm length: 32 bits type: crc since: Jacksum 1.0.0 comment: - under BeOS it is /bin/cksum - under FreeBSD it is /usr/bin/cksum - under HP-UX it is /usr/bin/cksum and /usr/bin/sum -p - under IBM AIX it is /usr/bin/cksum - under Linux it is /usr/bin/cksum - under MacOS X it is /usr/bin/cksum - under Solaris it is /usr/bin/cksum - under Tru64 ist es /bin/cksum (CMD_ENV=xpg4) - under Windows there is no cksum The POSIX CRC cannot be described completely by the Rocksoft-Model, because the algorithm appends the message with its length. Without this special, the code would be: crc:32,04C11DB7,0,false,false,FFFFFFFF crc64, crc-64 algorithm: CRC-64 length: 64 bits type: crc:64,1B,0,true,true,0 since: Jacksum 1.5.0 comment: this algorithm is described in the ISO 3309 standard. (generator poly is x^64 + x^4 + x^3 + x + 1) elf, elf32, elf-32 algorithm: ELF length: 32 bits type: hash since: Jacksum 1.5.0 comment: hash function used in the Unix ELF (Executable and Linkable Format) for object files. ed2k, emule, edonkey algorithm: eMule/eDonkey length: 128 bits type: hash since: Jacksum 1.5.0 comment: this algorithm is used in eDonkey resp. eMule, it is based on MD4, but returns different fingerprints for files >= 9500 KB. gost algorithm: GOST R 34.11-94 [org.bouncycastle.crypto.digests.GOST3411Digest] length: 256 bits type: hash, 1994 since: Jacksum 1.6.0 comment: "GOsudarstvennyi STandard", Russian for "Government Standard". Published in 1994 as the Soviet Standard GOST-R-34.11-94. has160, has-160, has160 algoritm: HAS-160 [gnu.crypto.hash.Has160 (jonelo)] length: 160 bits type: hash, 2000 since: Jacksum 1.7.0 comment: HAS-160 is both a cryptographic hash function and a Korean TTA-Standard (Telecommunications and and Technology Association). haval, haval_<b>_<r> algorithm: Haval [gnu.crypto.hash.Haval] length: 128, 160, 192, 224 or 256 bits type: hash, 1992 since: Jacksum 1.4.0 comment: Haval was invented by Yuliang Zheng, Josef Pieprzyk, and Jennifer Seberry in 1992. The Haval message-digest algorithm has a variable output length, with variable number of rounds. The output length <b> can vary from 128 to 256 bits in increments of 32 bits. The number of rounds <r> can vary from 3 to 5. The default values (just "haval") are 128 and 3. md2, md2sum algorithm: MD2 [gnu.crypto.hash.MD2] length: 128 bits type: hash, 1989 since: Jacksum 1.2.0 comment: the MD2 message digest algorithm as defined in RFC 1319; RSA Laboratories, in their Bulletin #4, dated November 12, 1996, recommends to update applications away from MD2 whenever it is practical. Jacksum supports MD2 for compatibility and educational purposes. md4, md4sum algorithm: MD4 [gnu.crypto.hash.MD4] length: 128 bits type: hash, 1990 since: Jacksum 1.2.0 comment: the MD4 message digest algorithm as defined in RFC 1320; RSA Laboratories, in their Bulletin #4, dated November 12, 1996, recommends that MD4 should not be used. Jacksum supports MD4 for compatibility and educational purposes. md5, md5sum algorithm: MD5 [java.security.MessageDigest] length: 128 bits type: hash, 1991 since: Jacksum 1.0.0 comment: The MD5 message digest algorithm was designed by Ronald Rivest in 1991, and it is defined in RFC 1321. [gnu.crypto.hash.MD5] is the alternate implementation and it will be used if you have set the option -A. - under BeOS it is /bin/md5sum - under FreeBSD it is /sbin/md5 - under HP-UX there is no md5 or md5sum - under Linux it is /usr/bin/md5sum - under MacOS X it is /usr/bin/md5 - under Solaris it is /usr/sbin/md5 (SUNWkeymg) - under Windows there is no md5 or md5sum none algorithm: none length: 0 bits type: n/a since: Jacksum 1.6.0 comment: Calculates no checksum, it does not read the content of files, it just determines the filesize (and timestamp if required) crc:<params> algorithm: CRC length: 8..64 bits type: crc since: Jacksum 1.7.0 comment: With this generic CRC you can specify all CRC- algorithms which can be described by the famous "Rocksoft (tm) Model CRC Algorithm". <params> must have 6 values, which must be separated by a comma. Those are: width,poly,init,refIn,refOut,xorOut width - width of the crc, expressed in bits. This is one less than the width of the poly. poly - the polynomial, specify as hex The top bit of the poly should be omitted. For example, if the poly is 10110, you should specify 06. An important aspect of this parameter is that it represents the unreflected poly; the bottom bit of this parameter is always the LSB of the divisor during the division regardless of whether the algorithm being modelled is reflected. init - this parameter specifies the initial value of the register when the algorithm starts. Specify as hex. refIn - this is a boolean parameter. If it is false, input bytes are processed with bit 7 being treated as the most significant bit (MSB) and bit 0 being treated as the least significant bit. If this parameter is false, each byte is reflected before being processed. true or false refOut - this is a boolean parameter. If it is set to false, the final value in the register is fed into the xorOut stage directly, otherwise, if this parameter is true, the final register value is reflected first. xorOut - this value is XORed to the final register value (after the refOut) stage before the value is returned as the official checksum, specify as hex read algorithm: read length: 0 bits type: n/a since: Jacksum 1.6.0 comment: Calculates no checksum, but it does read the content of files, it also determines the filesize (and timestamp if required) rmd128, rmd-128, ripemd128, ripemd-128, ripe-md128 algorithm: RIPEMD-128 [gnu.crypto.hash.RipeMD128] length: 128 bits type: hash since: Jacksum 1.2.0 (alias rmd128/rmd-128 since 1.4.0) comment: a message digest, see also RIPEMD-160 rmd160, rmd-160, ripemd160, ripemd-160, ripe-md160 algorithm: RIPEMD-160 [gnu.crypto.hash.RipeMD160] length: 160 bits type: hash, 1996 since: Jacksum 1.2.0 (alias rmd160/rmd-160 since 1.4.0) comment: RIPEMD was developed in the framework of the EU project RIPE (RACE Integrity Primitives Evaluation), used by GnuPG rmd256, rmd-256, ripemd256, ripemd-256, ripe-md256 algorithm: RIPEMD-256 [org.bouncycastle.crypto.digests] length: 256 bits type: hash since: Jacksum 1.6.0 comment: a message digest, see also RIPEMD-160 RIPEMD-256 is as secure as RIPEMD-128 rmd320, rmd-320, ripemd320, ripemd-320, ripe-md320 algorithm: RIPEMD-320 [org.bouncycastle.crypto.digests] length: 128 bits type: hash since: Jacksum 1.6.0 comment: a message digest, see also RIPEMD-160 RIPEMD-320 is as secure as RIPEMD-160 sha0, sha-0 algorithm: SHA-0 [gnu.crypto.hash.Sha0 (jonelo)] length: 160 bits type: hash, 1993 since: Jacksum 1.6.0 comment: the Secure Hash Algorithm, as defined 1993 in the National Institute for Standards and Technology's Federal Information Processing Standard (FIPS PUB 180). It was withdrawn by NSA shortly after publication and was superseded by the revised version, published in 1995 in FIPS PUB 180-1 and commonly referred to as "SHA-1". sha, sha1, sha-1, sha160, sha-160 algorithm: SHA-1 [java.security.MessageDigest] length: 160 bits type: hash, 1995 since: Jacksum 1.0.0 (alias sha-1 since 1.2.0, alias sha-160. sha160 and sha-160 since 1.5.0, default algorithm since 1.5.0. comment: the Secure Hash Algorithm, as defined 1995 in the National Institute for Standards and Technology's Federal Information Processing Standard (NIST FIPS 180-1). [gnu.crypto.hash.Sha160] is the alternate implementation and it will be used if you have specified option -A. - under BeOS there is no sha1 - under FreeBSD it is /sbin/sha1 - under HP-UX there is no sha1 - under Linux it is /usr/bin/sha1sum - under MacOS X there is no sha1 - under Solaris there is no sha1 - under Windows there is no sha1 sha224, sha-224 algorithm: SHA-224 [gnu.crypto.hash.Sha224 (jonelo)] length: 224 bits type: hash, 2004 since: Jacksum 1.6.0 comment: the Secure Hash Algorithm, as defined 2004 in the National Institute for Standards and Technology's Federal Information Processing Standard (NIST FIPS 180-2) and in RFC 3874. SHA-224 is based on SHA-256, but it uses a different initial value and the final hash is truncated to 224 bits. sha256, sha-256 algorithm: SHA-256 [java.security.MessageDigest] length: 256 bits type: hash, 2001 since: Jacksum 1.3.0 comment: the Secure Hash Algorithm, as defined 2001 in the National Institute for Standards and Technology's Federal Information Processing Standard (NIST FIPS 180-2). [gnu.crypto.hash.Sha256] is an alternate implementation and it is used if you have a JRE < 1.4.2 or if you have specified option -A. sha384, sha-384 algorithm: SHA-384 [java.security.MessageDigest] length: 384 bits type: hash, 2001 since: Jacksum 1.3.0 comment: the Secure Hash Algorithm, as defined 2001 in the National Institute for Standards and Technology's Federal Information Processing Standard (NIST FIPS 180-2). [gnu.crypto.hash.Sha384] is an alternate implementation and it is used if you have a JRE < 1.4.2 or if you have specified option -A. crc8, crc-8 algorithm: CRC-8 length: 8 bits type: crc:8,7,0,false,false,0 since: Jacksum 1.6.0 comment: this implementation of the CRC-8 (cyclic redundancy check) is used in the System Management Bus (SMBus) and the Free Lossless Audio Codec (FLAC) for example (generator poly x^8 + x^2 + x^1 + 1) sha512, sha-512 algorithm: SHA-512 [java.security.MessageDigest] length: 512 bits type: hash, 2001 since: Jacksum 1.3.0 comment: the Secure Hash Algorithm, as defined 2001 in the National Institute for Standards and Technology's Federal Information Processing Standard (NIST FIPS 180-2). [gnu.crypto.hash.Sha512] is an alternate implementation and it is used if you have a JRE < 1.4.2 or if you have specified option -A. sum8, sum-8 algorithm: Sum 8 length: 8 bits type: checksum since: Jacksum 1.3.0 comment: value computed by adding together all values in the input data stream modulo 2^8. This algorithm doesn't care about the arrangement of bytes. sum16, sum-16 algorithm: Sum 16 length: 16 bits type: checksum since: Jacksum 1.3.0 comment: value computed by adding together all values in the input data stream modulo 2^16. This algorithm doesn't care about the arrangement of bytes. sum24, sum-24 algorithm: Sum 24 length: 24 bits type: checksum since: Jacksum 1.3.0 comment: value computed by adding together all values in the input data stream modulo 2^24. This algorithm doesn't care about the arrangement of bytes. sum32, sum-32 algorithm: Sum 32 length: 32 bits type: checksum since: Jacksum 1.3.0 comment: value computed by adding together all values in the input data stream modulo 2^32. This algorithm doesn't care about the arrangement of bytes. sysv, sysvsum, sumsysv algorithm: UNIX System V checksum algorithm length: 16 bits type: checksum, 1985 since: Jacksum 1.2.0, alias "sumsysv" since 1.6.0 comment: output format is exactly like the properitary program sum (size in 512 bytes blocks), see also bsd - under BeOS it is /bin/sum -s - under FreeBSD it is /usr/bin/cksum -o 2 - under HP-UX it is /usr/bin/sum - under Linux it is /usr/bin/sum -s - under MacOS X it is /usr/bin/cksum -o 2 - under Solaris it is /usr/bin/sum - under Windows there is no sum tiger128, tiger-128 algorithm: Tiger 128 [gnu.crypto.hash.Tiger160 (by jonelo)] length: 128 bits type: hash, 1995 since: Jacksum 1.6.0 comment: the hash value is the first 128 bits of the result of Tiger-192 tiger160, tiger-160 algorithm: Tiger 160 [gnu.crypto.hash.Tiger160 (by jonelo)] length: 160 bits type: hash, 1995 since: Jacksum 1.6.0 comment: the hash value is the first 160 bits of the result of Tiger-192 tiger, tiger192, tiger-192 algorithm: Tiger [gnu.crypto.hash.Tiger] length: 192 bits type: hash, 1995 since: Jacksum 1.4.0 comment: developed by Ross Anderson and Eli Biham, 1995 tiger2 algorithm: Tiger2 [gnu.crypto.hash.Tiger2 (jonelo)] length: 192 bits type: hash, 2005 since: Jacksum 1.6.0 comment: developed by Ross Anderson and Eli Biham, 2005 crc16, crc-16 algorithm: CRC-16 (ARC) length: 16 bits type: crc:16,8005,0,true,true,0 since: Jacksum 1.2.0 comment: this implementation of the CRC-16 (cyclic redundancy check) is the most popular form of CRC-16 algorithms (generator poly x^16 + x^15 + x^2 + 1) It is used by LHA, and ARC for example. tree:<algo> algorithm: Hash Tree length: dependent on the underlying algorithm type: hash tree, 1979 since: Jacksum 1.7.0 comment: invented by Ralph Merkle, 1979. A hash tree is a tree of hashes in which the leaves are hashes of data blocks. By default the tree hash is encoded base32. Jacksum allows to calculate the root hash of the hash tree, the following agorithms are supported with hash trees: tiger, tiger2 Tiger tree hashes are used in P2P file sharing protocols and applications. whirlpool0, whirlpool-0 algorithm: Whirlpool-0 [gnu.crypto.hash.Whirlpool (jonelo)] length: 512 bits type: hash, 2000 since: Jacksum 1.6.0 comment: The Whirlpool Hashing Function by Paulo S.L.M. Barreto and Vincent Rijmen, 2000. This is the original specification of Whirlpool from 2000. whirlpool1, whirlpool-1 algorithm: Whirlpool-1 [gnu.crypto.hash.Whirlpool] length: 512 bits type: hash, 2001 since: Jacksum 1.2.0 comment: The Whirlpool Hashing Function by Paulo S.L.M. Barreto and Vincent Rijmen, 2001. This is the first revision of the specification of Whirlpool from 2001 with improved S-box design: "We propose renaming the original algorithm Whirlpool-0 and using the term Whirlpool for the final, modified version that uses the improved S-box design." whirlpool, whirlpool2, whirlpool-2 algorithm: Whirlpool [gnu.crypto.hash.Whirlpool (jonelo)] length: 512 bits type: hash, 2003 since: Jacksum 1.6.0 comment: The Whirlpool Hashing Function by Paulo S.L.M. Barreto and Vincent Rijmen. This is the second revision of the specification of Whirlpool from 2003 with improved diffusion matrix: "Recently [March 11, 2003], Shirai and Shibutani discovered a flaw in the Whirlpool diffusion matrix that made its branch number suboptimal. Although this flaw per se does not seem to introduce an effective vulnerability, the present document replaces that matrix [May 24, 2003]" xor8, xor-8 algorithm: Exclusive-Or length: 8 bits type: checksum since: Jacksum 1.3.0 comment: value computed by xoring all values in the input data stream. This algorithm doesn't care about the arrangement of bytes in a file. crc16_x25, crc-16_x-25, fcs16, fcs-16 algorithm: CRC-16 (Frame Checking Sequence) length: 16 bits type: crc:16,1021,FFFF,true,true,FFFF since: Jacksum 1.5.0 (alias _x25, _x-25 seit 1.7.0) comment: The Frame Checking Sequence as defined in RFC1331. crc24, crc-24 algorithm: CRC-24 length: 24 bits type: crc:24,864CFB,B704CE,false,false,0 since: Jacksum 1.6.0 comment: this implementation of the CRC-24 (cyclic redundancy check) is used by Open PGP for example (RFC 2440). crc32, crc-32, fcs32, fcs-32 algorithm: CRC-32 [java.util.zip.CRC32] length: 32 bits type: crc:32,04C11DB7,FFFFFFFF,true,true,FFFFFFFF since: Jacksum 1.0.0 (alias crc-32 since 1.2.0, alias fcs32 and fcs-32 since 1.5.0) comment: the standard algorithm CRC-32 (cyclic redundancy check) is specified in ISO 3309, ISO/IEC 13239:2002 and ITU-T V.42, and it is used by PKZip, gzip, png, Ethernet, FDDI, and WEP. That algorithm is also known as FCS (frame checking sequence) An alternate implementation is available (-A). - under BeOS there is no crc32 - under FreeBSD it is /usr/bin/cksum -o 3 - under HP-UX there is no crc32 - under Linux there is no crc32 - under MacOS X it is /usr/bin/cksum -o 3 - under Solaris there is no crc32 - under Windows there is no crc32 crc32_bzip2, crc-32_bzip-2 algorithm: CRC-32 (Bzip2) length: 32 bits type: crc:32,04C11DB7,FFFFFFFF,false,false,FFFFFFFF since: Jacksum 1.7.0 comment: This CRC is used by bzip2 crc32_mpeg2, crc-32_mpeg-2 algorithm: CRC-32 (MPEG-2) length: 32 bits type: crc:32,04C11DB7,FFFFFFFF,false,false,0 since: Jacksum 1.4.0 comment: this algorithm implements the MPEG specification of the CRC-32 calculation The output format of Jacksum: If you don't specify a customized format with option -F, the following format is used: <checksum><sep><filesize><sep>[<timestamp><sep>]<filename> checksum is a checksum, CRC or a fingerprint; output depends on options -a and -x, resp. -X sep is a separator; it can be modified by -s, otherwise it depends on -a and -m filesize is the size (bytes or blocks) of a file, it depends on -a, the filesize won't be written by any MessageDigest-algorithm timestamp is an optional timestamp of a file; timestamps can be requested with -t filename is a filename, paths can be part of the output, output depends on -p and -P.
EXIT STATUS
0 - everthing is OK 1 - there was at least one mismatch during the verification process >1 - in case of a parameter-, .jacksum- or I/O-error
EXAMPLES
jacksum -a crc32 -q "txt:Hello World!" calculates a 32-bit CRC of the text "Hello World!" jacksum -a crc32 -q 48656C6C6F20576F726C6421 calculates a 32-bit CRC of the hex sequence 48656C6C6F20576F726C6421 which represents "Hello World!" jacksum -a crc32 -x *.txt calculates a 32 bit CRC of all textfiles within the current folder. The checksum will be printed in a hexadecimal format (-x). jacksum -a crc32 -f -t default . not only CRCs will be printed, but also timestamps (-t) of all files within the current folder (.). The message "is a directory" will be suppressed (-f). jacksum -f -a crc:16,1021,FFFF,false,false,0 . a CRC with customized parameters has been used: 16 Bit, Polynomial 1021 (hex, without the leading bit), initvalue FFFF (hex), mirror neither the input nor the output, no xor. jacksum -a haval_256_5 . calculates a 256 bit hash with 5 rounds by using the haval algorithm (haval_256_5) of all files within the current folder (.). jacksum -a sha1 -s "\t" -t "EEE, MMM d, yyyy 'at' h:mm a" . calculates a 160 bit SHA-1 Message-Digest of all files within the current folder. The separator string (-s) is set to the tabulator char ("\t"). Timestamps of files will be printed out in a customized format (-t). jacksum -a cksum -r /mnt/share calculates a 32 bit CRC with the standard Unix-algorithm cksum of all files /mnt/share and it's subfolders (-r) jacksum -a md5 -f -r -m -o list.jacksum /data calculates the Message-Digest MD5 of all files in /data and it's subfolders (-r), furthermore it prints metainfo (-m) and stores output to list.jacksum, path information is stored ABSOLUTELY jacksum -a md5 -f -r -m -o list.jacksum -w /data calculates the Message-Digest MD5 of all files in /data and it's subfolders (-r), furthermore it prints metainfo (-m) and stores output to list.jacksum, path information is stored RELATIVELY jacksum -c list.jacksum verifies all checksums resp. timestamps stored in a file called list.jacksum. list.jacksum must be generated first with option -m jacksum -a md5 -f -F "#FINGERPRINT #FILESIZE #FILENAME" * calculates the Message-Digest MD5 of all files in the current directory. The output format is customized, it prints also the filesize. jacksum -a md5 -A -V summary bigfile.iso Among others it also returns the elapsed time (-V summary) which was necessary to calculate the MD5 Hash of the file called bigfile.iso by using the alternate MD5 implementation (-A). jacksum -a crc32 -X -f -p -r -F "#FILENAME #CHECKSUM" -o list.sfv * prints CRC-32 values in the Simple File Verificator (SFV) format jacksum -a ed2k -f -F "ed2k://|file|#FILENAME|#FILESIZE|#FINGERPRINT|" * calculates the edonkey hash of all files in the current directory with a customized output format jacksum -a ed2k -f -P / -F "<a href=#QUOTEed2k://|file |#FILENAME|#FILESIZE|#FINGERPRINT|#QUOTE>#FILENAME</a>" -r . calculates the edonkey hash of all files in the current directory and it's subfolders with a customized output format (HTML) jacksum -a tree:tiger -F "urn:#ALGONAME:#FINGERPRINT" -q hex: calculates the root hash of the Tree Hash (aka Merkle Hash) with the underlying Tiger algorithm of an empty input. jacksum -a sha1+crc32 . calculates the sha1 hash and the crc32 as a combined checksum jacksum -a sha1+crc32 -F "#CHECKSUM{0} #CHECKSUM{1} #FILENAME" . calculates the sha1 hash and the crc32 as separate values jacksum -a all -F "#ALGONAME{i} (#FILENAME) = #CHECKSUM{i}" . calculates all supported algorithms on all files in a customized format jacksum -a all -F "#ALGONAME{i}" -q txt: prints names of all supported algorithms jacksum -h synopsis prints the SYNOPSIS section jacksum -h haval prints all sections containing information about haval jacksum -h -t prints all information about the timestamp option jacksum -h en | more prints the english help (use "de" for german help)
AUTHOR
Copyright (C) 2002-2006, Dipl.-Inf. (FH) Johann N. Loefflmann <jonelo@jonelo.de> http://www.jonelo.de/java/jacksum/index.html
LICENSE
This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License with the Debian GNU/Linux distribution in file /usr/share/common-licenses/GPL; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA