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Diffstat (limited to 'Master/tlpkg/tlperl/lib/Digest.pm')
-rwxr-xr-x | Master/tlpkg/tlperl/lib/Digest.pm | 316 |
1 files changed, 316 insertions, 0 deletions
diff --git a/Master/tlpkg/tlperl/lib/Digest.pm b/Master/tlpkg/tlperl/lib/Digest.pm new file mode 100755 index 00000000000..384dfc82668 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Digest.pm @@ -0,0 +1,316 @@ +package Digest; + +use strict; +use vars qw($VERSION %MMAP $AUTOLOAD); + +$VERSION = "1.16"; + +%MMAP = ( + "SHA-1" => [["Digest::SHA", 1], "Digest::SHA1", ["Digest::SHA2", 1]], + "SHA-224" => [["Digest::SHA", 224]], + "SHA-256" => [["Digest::SHA", 256], ["Digest::SHA2", 256]], + "SHA-384" => [["Digest::SHA", 384], ["Digest::SHA2", 384]], + "SHA-512" => [["Digest::SHA", 512], ["Digest::SHA2", 512]], + "HMAC-MD5" => "Digest::HMAC_MD5", + "HMAC-SHA-1" => "Digest::HMAC_SHA1", + "CRC-16" => [["Digest::CRC", type => "crc16"]], + "CRC-32" => [["Digest::CRC", type => "crc32"]], + "CRC-CCITT" => [["Digest::CRC", type => "crcccitt"]], + "RIPEMD-160" => "Crypt::PIPEMD160", +); + +sub new +{ + shift; # class ignored + my $algorithm = shift; + my $impl = $MMAP{$algorithm} || do { + $algorithm =~ s/\W+//; + "Digest::$algorithm"; + }; + $impl = [$impl] unless ref($impl); + my $err; + for (@$impl) { + my $class = $_; + my @args; + ($class, @args) = @$class if ref($class); + no strict 'refs'; + unless (exists ${"$class\::"}{"VERSION"}) { + eval "require $class"; + if ($@) { + $err ||= $@; + next; + } + } + return $class->new(@args, @_); + } + die $err; +} + +sub AUTOLOAD +{ + my $class = shift; + my $algorithm = substr($AUTOLOAD, rindex($AUTOLOAD, '::')+2); + $class->new($algorithm, @_); +} + +1; + +__END__ + +=head1 NAME + +Digest - Modules that calculate message digests + +=head1 SYNOPSIS + + $md5 = Digest->new("MD5"); + $sha1 = Digest->new("SHA-1"); + $sha256 = Digest->new("SHA-256"); + $sha384 = Digest->new("SHA-384"); + $sha512 = Digest->new("SHA-512"); + + $hmac = Digest->HMAC_MD5($key); + +=head1 DESCRIPTION + +The C<Digest::> modules calculate digests, also called "fingerprints" +or "hashes", of some data, called a message. The digest is (usually) +some small/fixed size string. The actual size of the digest depend of +the algorithm used. The message is simply a sequence of arbitrary +bytes or bits. + +An important property of the digest algorithms is that the digest is +I<likely> to change if the message change in some way. Another +property is that digest functions are one-way functions, that is it +should be I<hard> to find a message that correspond to some given +digest. Algorithms differ in how "likely" and how "hard", as well as +how efficient they are to compute. + +Note that the properties of the algorithms change over time, as the +algorithms are analyzed and machines grow faster. If your application +for instance depends on it being "impossible" to generate the same +digest for a different message it is wise to make it easy to plug in +stronger algorithms as the one used grow weaker. Using the interface +documented here should make it easy to change algorithms later. + +All C<Digest::> modules provide the same programming interface. A +functional interface for simple use, as well as an object oriented +interface that can handle messages of arbitrary length and which can +read files directly. + +The digest can be delivered in three formats: + +=over 8 + +=item I<binary> + +This is the most compact form, but it is not well suited for printing +or embedding in places that can't handle arbitrary data. + +=item I<hex> + +A twice as long string of lowercase hexadecimal digits. + +=item I<base64> + +A string of portable printable characters. This is the base64 encoded +representation of the digest with any trailing padding removed. The +string will be about 30% longer than the binary version. +L<MIME::Base64> tells you more about this encoding. + +=back + + +The functional interface is simply importable functions with the same +name as the algorithm. The functions take the message as argument and +return the digest. Example: + + use Digest::MD5 qw(md5); + $digest = md5($message); + +There are also versions of the functions with "_hex" or "_base64" +appended to the name, which returns the digest in the indicated form. + +=head1 OO INTERFACE + +The following methods are available for all C<Digest::> modules: + +=over 4 + +=item $ctx = Digest->XXX($arg,...) + +=item $ctx = Digest->new(XXX => $arg,...) + +=item $ctx = Digest::XXX->new($arg,...) + +The constructor returns some object that encapsulate the state of the +message-digest algorithm. You can add data to the object and finally +ask for the digest. The "XXX" should of course be replaced by the proper +name of the digest algorithm you want to use. + +The two first forms are simply syntactic sugar which automatically +load the right module on first use. The second form allow you to use +algorithm names which contains letters which are not legal perl +identifiers, e.g. "SHA-1". If no implementation for the given algorithm +can be found, then an exception is raised. + +If new() is called as an instance method (i.e. $ctx->new) it will just +reset the state the object to the state of a newly created object. No +new object is created in this case, and the return value is the +reference to the object (i.e. $ctx). + +=item $other_ctx = $ctx->clone + +The clone method creates a copy of the digest state object and returns +a reference to the copy. + +=item $ctx->reset + +This is just an alias for $ctx->new. + +=item $ctx->add( $data ) + +=item $ctx->add( $chunk1, $chunk2, ... ) + +The string value of the $data provided as argument is appended to the +message we calculate the digest for. The return value is the $ctx +object itself. + +If more arguments are provided then they are all appended to the +message, thus all these lines will have the same effect on the state +of the $ctx object: + + $ctx->add("a"); $ctx->add("b"); $ctx->add("c"); + $ctx->add("a")->add("b")->add("c"); + $ctx->add("a", "b", "c"); + $ctx->add("abc"); + +Most algorithms are only defined for strings of bytes and this method +might therefore croak if the provided arguments contain chars with +ordinal number above 255. + +=item $ctx->addfile( $io_handle ) + +The $io_handle is read until EOF and the content is appended to the +message we calculate the digest for. The return value is the $ctx +object itself. + +The addfile() method will croak() if it fails reading data for some +reason. If it croaks it is unpredictable what the state of the $ctx +object will be in. The addfile() method might have been able to read +the file partially before it failed. It is probably wise to discard +or reset the $ctx object if this occurs. + +In most cases you want to make sure that the $io_handle is in +"binmode" before you pass it as argument to the addfile() method. + +=item $ctx->add_bits( $data, $nbits ) + +=item $ctx->add_bits( $bitstring ) + +The add_bits() method is an alternative to add() that allow partial +bytes to be appended to the message. Most users should just ignore +this method as partial bytes is very unlikely to be of any practical +use. + +The two argument form of add_bits() will add the first $nbits bits +from $data. For the last potentially partial byte only the high order +C<< $nbits % 8 >> bits are used. If $nbits is greater than C<< +length($data) * 8 >>, then this method would do the same as C<< +$ctx->add($data) >>. + +The one argument form of add_bits() takes a $bitstring of "1" and "0" +chars as argument. It's a shorthand for C<< $ctx->add_bits(pack("B*", +$bitstring), length($bitstring)) >>. + +The return value is the $ctx object itself. + +This example shows two calls that should have the same effect: + + $ctx->add_bits("111100001010"); + $ctx->add_bits("\xF0\xA0", 12); + +Most digest algorithms are byte based and for these it is not possible +to add bits that are not a multiple of 8, and the add_bits() method +will croak if you try. + +=item $ctx->digest + +Return the binary digest for the message. + +Note that the C<digest> operation is effectively a destructive, +read-once operation. Once it has been performed, the $ctx object is +automatically C<reset> and can be used to calculate another digest +value. Call $ctx->clone->digest if you want to calculate the digest +without resetting the digest state. + +=item $ctx->hexdigest + +Same as $ctx->digest, but will return the digest in hexadecimal form. + +=item $ctx->b64digest + +Same as $ctx->digest, but will return the digest as a base64 encoded +string. + +=back + +=head1 Digest speed + +This table should give some indication on the relative speed of +different algorithms. It is sorted by throughput based on a benchmark +done with of some implementations of this API: + + Algorithm Size Implementation MB/s + + MD4 128 Digest::MD4 v1.3 165.0 + MD5 128 Digest::MD5 v2.33 98.8 + SHA-256 256 Digest::SHA2 v1.1.0 66.7 + SHA-1 160 Digest::SHA v4.3.1 58.9 + SHA-1 160 Digest::SHA1 v2.10 48.8 + SHA-256 256 Digest::SHA v4.3.1 41.3 + Haval-256 256 Digest::Haval256 v1.0.4 39.8 + SHA-384 384 Digest::SHA2 v1.1.0 19.6 + SHA-512 512 Digest::SHA2 v1.1.0 19.3 + SHA-384 384 Digest::SHA v4.3.1 19.2 + SHA-512 512 Digest::SHA v4.3.1 19.2 + Whirlpool 512 Digest::Whirlpool v1.0.2 13.0 + MD2 128 Digest::MD2 v2.03 9.5 + + Adler-32 32 Digest::Adler32 v0.03 1.3 + CRC-16 16 Digest::CRC v0.05 1.1 + CRC-32 32 Digest::CRC v0.05 1.1 + MD5 128 Digest::Perl::MD5 v1.5 1.0 + CRC-CCITT 16 Digest::CRC v0.05 0.8 + +These numbers was achieved Apr 2004 with ActivePerl-5.8.3 running +under Linux on a P4 2.8 GHz CPU. The last 5 entries differ by being +pure perl implementations of the algorithms, which explains why they +are so slow. + +=head1 SEE ALSO + +L<Digest::Adler32>, L<Digest::CRC>, L<Digest::Haval256>, +L<Digest::HMAC>, L<Digest::MD2>, L<Digest::MD4>, L<Digest::MD5>, +L<Digest::SHA>, L<Digest::SHA1>, L<Digest::SHA2>, L<Digest::Whirlpool> + +New digest implementations should consider subclassing from L<Digest::base>. + +L<MIME::Base64> + +http://en.wikipedia.org/wiki/Cryptographic_hash_function + +=head1 AUTHOR + +Gisle Aas <gisle@aas.no> + +The C<Digest::> interface is based on the interface originally +developed by Neil Winton for his C<MD5> module. + +This library is free software; you can redistribute it and/or +modify it under the same terms as Perl itself. + + Copyright 1998-2006 Gisle Aas. + Copyright 1995,1996 Neil Winton. + +=cut |