Provided by: jacksum_1.7.0-2_all bug

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