The aefp program is used to calculate the fingerprints of files. A fingerprint is a hash of the contents of a file. The default fingerprint is cryptographically strong, so the probability of two different files having the same fingerprint is less than 1 in 2**200.
The fingerprint is based on Dan Berstien <email@example.com> public domain fingerprint 0.50 beta package 930809, posted to the alt.sources newsgroup. This program produces identical results; the expected test results were generated using Dan's package.
The fingerprint is a base-64-sanely-encoded fingerprint of the input. Imagine this fingerprint as something universal and permanent. A fingerprint is 76 characters long, containing the following:
A Snefru-8 (version 2.5, 8 passes, 512->256) hash. (Derived from the Xerox Secure Hash Function.)
An MD5 hash, as per RFC 1321. (Derived from the RSADSI MD5 Message-Digest Algorithm.)
A CRC checksum, as in the new cksum utility.
Length modulo 2^40.
The output format is not expected to be compatible with anything. However, options are available to produce the purported output of Merkle's snefru program, the purported output of RSADSI's mddriver -x, or the purported output of the POSIX cksum program.
If no files are named as input, the standard input will be used. The special file name “-” is understood to mean the standard input.
The following options are understood:
Print the CRC32 checksum and length of the named file(s).
Print a condensed form of the fingerprint (obtained by performing a CRC32 checksum on the full fingerprint described above - a definite overkill). This is an 8-digit hexadecimal number, useful for generating unique short identifiers out of long names. The first character is forced to be a letter (g-p), so there is no problem in using the output as a variable name.
Provide some help with using the aefp program.
Print the RSA Data Security, Inc. MD5 Message-Digest Algorithm hash of the named file(s).
Print the Snefru hash of the named file(s), derived from the Xerox Secure Hash Function.
Print the version of the aefp program being executed.
All other options will produce a diagnostic error.
See also aegis(1) for options common to all aegis commands.
All options may be abbreviated; the abbreviation is documented as the upper case letters, all lower case letters and underscores (_) are optional. You must use consecutive sequences of optional letters.
All options are case insensitive, you may type them in upper case or lower case or a combination of both, case is not important.
the arguments "-project, "-PROJ" and "-p" are
all interpreted to mean the
The argument "-prj" will not be understood,
because consecutive optional characters were not supplied.
Options and other command line arguments may be mixed arbitrarily on the command line, after the function selectors.
The GNU long option names are understood.
Since all option names for
this means ignoring the extra leading '-'.
option=value" convention is also understood.
The aefp command will exit with a status of 1 on any error. The aefp command will only exit with a status of 0 if there are no errors.
See aegis(1) for a list of environment variables which may affect
aepconf(5) for the project configuration file's
project_specific field for how to set environment variables for
all commands executed by Aegis.
aefp version 4.22 Copyright (C) 1991-2006 Peter Miller; All rights reserved.
The aefp program comes with ABSOLUTELY NO WARRANTY; for details use the 'aefp -VERSion License' command. This is free software and you are welcome to redistribute it under certain conditions; for details use the 'aefp -VERSion License' command.
Portions of this program are derived from sources from other people, sometimes with liberal copyrights, and sometimes in the public domain. These include:
See common/fp/README for details.
In addition to the above copyright holders, there have been numerous authors and contributors, see the named files for details. Files names are relative to the root of the aegis distribution.