/usr/lib/perl5/Digest/SHA.pm is in libdigest-sha-perl 5.70-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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require 5.003000;
use strict;
use vars qw($VERSION @ISA @EXPORT @EXPORT_OK);
use Fcntl;
use integer;
$VERSION = '5.70';
require Exporter;
require DynaLoader;
@ISA = qw(Exporter DynaLoader);
@EXPORT_OK = qw(
hmac_sha1 hmac_sha1_base64 hmac_sha1_hex
hmac_sha224 hmac_sha224_base64 hmac_sha224_hex
hmac_sha256 hmac_sha256_base64 hmac_sha256_hex
hmac_sha384 hmac_sha384_base64 hmac_sha384_hex
hmac_sha512 hmac_sha512_base64 hmac_sha512_hex
hmac_sha512224 hmac_sha512224_base64 hmac_sha512224_hex
hmac_sha512256 hmac_sha512256_base64 hmac_sha512256_hex
sha1 sha1_base64 sha1_hex
sha224 sha224_base64 sha224_hex
sha256 sha256_base64 sha256_hex
sha384 sha384_base64 sha384_hex
sha512 sha512_base64 sha512_hex
sha512224 sha512224_base64 sha512224_hex
sha512256 sha512256_base64 sha512256_hex);
# If possible, inherit from Digest::base
eval {
require Digest::base;
push(@ISA, 'Digest::base');
};
*addfile = \&Addfile;
*hexdigest = \&Hexdigest;
*b64digest = \&B64digest;
# The following routines aren't time-critical, so they can be left in Perl
sub new {
my($class, $alg) = @_;
$alg =~ s/\D+//g if defined $alg;
if (ref($class)) { # instance method
unless (defined($alg) && ($alg != $class->algorithm)) {
sharewind($$class);
return($class);
}
shaclose($$class) if $$class;
$$class = shaopen($alg) || return;
return($class);
}
$alg = 1 unless defined $alg;
my $state = shaopen($alg) || return;
my $self = \$state;
bless($self, $class);
return($self);
}
sub DESTROY {
my $self = shift;
shaclose($$self) if $$self;
}
sub clone {
my $self = shift;
my $state = shadup($$self) || return;
my $copy = \$state;
bless($copy, ref($self));
return($copy);
}
*reset = \&new;
sub add_bits {
my($self, $data, $nbits) = @_;
unless (defined $nbits) {
$nbits = length($data);
$data = pack("B*", $data);
}
$nbits = length($data) * 8 if $nbits > length($data) * 8;
shawrite($data, $nbits, $$self);
return($self);
}
sub _bail {
my $msg = shift;
require Carp;
Carp::croak("$msg: $!");
}
sub _addfile { # this is "addfile" from Digest::base 1.00
my ($self, $handle) = @_;
my $n;
my $buf = "";
while (($n = read($handle, $buf, 4096))) {
$self->add($buf);
}
_bail("Read failed") unless defined $n;
$self;
}
sub Addfile {
my ($self, $file, $mode) = @_;
return(_addfile($self, $file)) unless ref(\$file) eq 'SCALAR';
$mode = defined($mode) ? $mode : "";
my ($binary, $portable, $BITS) = map { $_ eq $mode } ("b", "p", "0");
## Always interpret "-" to mean STDIN; otherwise use
## sysopen to handle full range of POSIX file names
local *FH;
$file eq '-' and open(FH, '< -')
or sysopen(FH, $file, O_RDONLY)
or _bail('Open failed');
if ($BITS) {
my ($n, $buf) = (0, "");
while (($n = read(FH, $buf, 4096))) {
$buf =~ s/[^01]//g;
$self->add_bits($buf);
}
_bail("Read failed") unless defined $n;
close(FH);
return($self);
}
binmode(FH) if $binary || $portable;
unless ($portable && -T $file) {
$self->_addfile(*FH);
close(FH);
return($self);
}
my ($n1, $n2);
my ($buf1, $buf2) = ("", "");
while (($n1 = read(FH, $buf1, 4096))) {
while (substr($buf1, -1) eq "\015") {
$n2 = read(FH, $buf2, 4096);
_bail("Read failed") unless defined $n2;
last unless $n2;
$buf1 .= $buf2;
}
$buf1 =~ s/\015?\015\012/\012/g; # DOS/Windows
$buf1 =~ s/\015/\012/g; # early MacOS
$self->add($buf1);
}
_bail("Read failed") unless defined $n1;
close(FH);
$self;
}
sub dump {
my $self = shift;
my $file = shift || "";
shadump($file, $$self) || return;
return($self);
}
sub load {
my $class = shift;
my $file = shift || "";
if (ref($class)) { # instance method
shaclose($$class) if $$class;
$$class = shaload($file) || return;
return($class);
}
my $state = shaload($file) || return;
my $self = \$state;
bless($self, $class);
return($self);
}
Digest::SHA->bootstrap($VERSION);
1;
__END__
=head1 NAME
Digest::SHA - Perl extension for SHA-1/224/256/384/512
=head1 SYNOPSIS
In programs:
# Functional interface
use Digest::SHA qw(sha1 sha1_hex sha1_base64 ...);
$digest = sha1($data);
$digest = sha1_hex($data);
$digest = sha1_base64($data);
$digest = sha256($data);
$digest = sha384_hex($data);
$digest = sha512_base64($data);
# Object-oriented
use Digest::SHA;
$sha = Digest::SHA->new($alg);
$sha->add($data); # feed data into stream
$sha->addfile(*F);
$sha->addfile($filename);
$sha->add_bits($bits);
$sha->add_bits($data, $nbits);
$sha_copy = $sha->clone; # if needed, make copy of
$sha->dump($file); # current digest state,
$sha->load($file); # or save it on disk
$digest = $sha->digest; # compute digest
$digest = $sha->hexdigest;
$digest = $sha->b64digest;
From the command line:
$ shasum files
$ shasum --help
=head1 SYNOPSIS (HMAC-SHA)
# Functional interface only
use Digest::SHA qw(hmac_sha1 hmac_sha1_hex ...);
$digest = hmac_sha1($data, $key);
$digest = hmac_sha224_hex($data, $key);
$digest = hmac_sha256_base64($data, $key);
=head1 ABSTRACT
Digest::SHA is a complete implementation of the NIST Secure Hash Standard.
It gives Perl programmers a convenient way to calculate SHA-1, SHA-224,
SHA-256, SHA-384, SHA-512, SHA-512/224, and SHA-512/256 message digests.
The module can handle all types of input, including partial-byte data.
=head1 DESCRIPTION
Digest::SHA is written in C for speed. If your platform lacks a
C compiler, you can install the functionally equivalent (but much
slower) L<Digest::SHA::PurePerl> module.
The programming interface is easy to use: it's the same one found
in CPAN's L<Digest> module. So, if your applications currently
use L<Digest::MD5> and you'd prefer the stronger security of SHA,
it's a simple matter to convert them.
The interface provides two ways to calculate digests: all-at-once,
or in stages. To illustrate, the following short program computes
the SHA-256 digest of "hello world" using each approach:
use Digest::SHA qw(sha256_hex);
$data = "hello world";
@frags = split(//, $data);
# all-at-once (Functional style)
$digest1 = sha256_hex($data);
# in-stages (OOP style)
$state = Digest::SHA->new(256);
for (@frags) { $state->add($_) }
$digest2 = $state->hexdigest;
print $digest1 eq $digest2 ?
"whew!\n" : "oops!\n";
To calculate the digest of an n-bit message where I<n> is not a
multiple of 8, use the I<add_bits()> method. For example, consider
the 446-bit message consisting of the bit-string "110" repeated
148 times, followed by "11". Here's how to display its SHA-1
digest:
use Digest::SHA;
$bits = "110" x 148 . "11";
$sha = Digest::SHA->new(1)->add_bits($bits);
print $sha->hexdigest, "\n";
Note that for larger bit-strings, it's more efficient to use the
two-argument version I<add_bits($data, $nbits)>, where I<$data> is
in the customary packed binary format used for Perl strings.
The module also lets you save intermediate SHA states to disk, or
display them on standard output. The I<dump()> method generates
portable, human-readable text describing the current state of
computation. You can subsequently retrieve the file with I<load()>
to resume where the calculation left off.
To see what a state description looks like, just run the following:
use Digest::SHA;
Digest::SHA->new->add("Shaw" x 1962)->dump;
As an added convenience, the Digest::SHA module offers routines to
calculate keyed hashes using the HMAC-SHA-1/224/256/384/512
algorithms. These services exist in functional form only, and
mimic the style and behavior of the I<sha()>, I<sha_hex()>, and
I<sha_base64()> functions.
# Test vector from draft-ietf-ipsec-ciph-sha-256-01.txt
use Digest::SHA qw(hmac_sha256_hex);
print hmac_sha256_hex("Hi There", chr(0x0b) x 32), "\n";
=head1 NIST STATEMENT ON SHA-1
I<NIST was recently informed that researchers had discovered a way
to "break" the current Federal Information Processing Standard SHA-1
algorithm, which has been in effect since 1994. The researchers
have not yet published their complete results, so NIST has not
confirmed these findings. However, the researchers are a reputable
research team with expertise in this area.>
I<Due to advances in computing power, NIST already planned to phase
out SHA-1 in favor of the larger and stronger hash functions (SHA-224,
SHA-256, SHA-384 and SHA-512) by 2010. New developments should use
the larger and stronger hash functions.>
ref. L<http://www.csrc.nist.gov/pki/HashWorkshop/NIST%20Statement/Burr_Mar2005.html>
=head1 PADDING OF BASE64 DIGESTS
By convention, CPAN Digest modules do B<not> pad their Base64 output.
Problems can occur when feeding such digests to other software that
expects properly padded Base64 encodings.
For the time being, any necessary padding must be done by the user.
Fortunately, this is a simple operation: if the length of a Base64-encoded
digest isn't a multiple of 4, simply append "=" characters to the end
of the digest until it is:
while (length($b64_digest) % 4) {
$b64_digest .= '=';
}
To illustrate, I<sha256_base64("abc")> is computed to be
ungWv48Bz+pBQUDeXa4iI7ADYaOWF3qctBD/YfIAFa0
which has a length of 43. So, the properly padded version is
ungWv48Bz+pBQUDeXa4iI7ADYaOWF3qctBD/YfIAFa0=
=head1 EXPORT
None by default.
=head1 EXPORTABLE FUNCTIONS
Provided your C compiler supports a 64-bit type (e.g. the I<long
long> of C99, or I<__int64> used by Microsoft C/C++), all of these
functions will be available for use. Otherwise, you won't be able
to perform the SHA-384 and SHA-512 transforms, both of which require
64-bit operations.
I<Functional style>
=over 4
=item B<sha1($data, ...)>
=item B<sha224($data, ...)>
=item B<sha256($data, ...)>
=item B<sha384($data, ...)>
=item B<sha512($data, ...)>
=item B<sha512224($data, ...)>
=item B<sha512256($data, ...)>
Logically joins the arguments into a single string, and returns
its SHA-1/224/256/384/512 digest encoded as a binary string.
=item B<sha1_hex($data, ...)>
=item B<sha224_hex($data, ...)>
=item B<sha256_hex($data, ...)>
=item B<sha384_hex($data, ...)>
=item B<sha512_hex($data, ...)>
=item B<sha512224_hex($data, ...)>
=item B<sha512256_hex($data, ...)>
Logically joins the arguments into a single string, and returns
its SHA-1/224/256/384/512 digest encoded as a hexadecimal string.
=item B<sha1_base64($data, ...)>
=item B<sha224_base64($data, ...)>
=item B<sha256_base64($data, ...)>
=item B<sha384_base64($data, ...)>
=item B<sha512_base64($data, ...)>
=item B<sha512224_base64($data, ...)>
=item B<sha512256_base64($data, ...)>
Logically joins the arguments into a single string, and returns
its SHA-1/224/256/384/512 digest encoded as a Base64 string.
It's important to note that the resulting string does B<not> contain
the padding characters typical of Base64 encodings. This omission is
deliberate, and is done to maintain compatibility with the family of
CPAN Digest modules. See L</"PADDING OF BASE64 DIGESTS"> for details.
=back
I<OOP style>
=over 4
=item B<new($alg)>
Returns a new Digest::SHA object. Allowed values for I<$alg> are 1,
224, 256, 384, 512, 512224, or 512256. It's also possible to use
common string representations of the algorithm (e.g. "sha256",
"SHA-384"). If the argument is missing, SHA-1 will be used by
default.
Invoking I<new> as an instance method will not create a new object;
instead, it will simply reset the object to the initial state
associated with I<$alg>. If the argument is missing, the object
will continue using the same algorithm that was selected at creation.
=item B<reset($alg)>
This method has exactly the same effect as I<new($alg)>. In fact,
I<reset> is just an alias for I<new>.
=item B<hashsize>
Returns the number of digest bits for this object. The values are
160, 224, 256, 384, 512, 224, and 256 for SHA-1, SHA-224, SHA-256,
SHA-384, SHA-512, SHA-512/224 and SHA-512/256, respectively.
=item B<algorithm>
Returns the digest algorithm for this object. The values are 1,
224, 256, 384, 512, 512224, and 512256 for SHA-1, SHA-224, SHA-256,
SHA-384, SHA-512, SHA-512/224, and SHA-512/256, respectively.
=item B<clone>
Returns a duplicate copy of the object.
=item B<add($data, ...)>
Logically joins the arguments into a single string, and uses it to
update the current digest state. In other words, the following
statements have the same effect:
$sha->add("a"); $sha->add("b"); $sha->add("c");
$sha->add("a")->add("b")->add("c");
$sha->add("a", "b", "c");
$sha->add("abc");
The return value is the updated object itself.
=item B<add_bits($data, $nbits)>
=item B<add_bits($bits)>
Updates the current digest state by appending bits to it. The
return value is the updated object itself.
The first form causes the most-significant I<$nbits> of I<$data>
to be appended to the stream. The I<$data> argument is in the
customary binary format used for Perl strings.
The second form takes an ASCII string of "0" and "1" characters as
its argument. It's equivalent to
$sha->add_bits(pack("B*", $bits), length($bits));
So, the following two statements do the same thing:
$sha->add_bits("111100001010");
$sha->add_bits("\xF0\xA0", 12);
=item B<addfile(*FILE)>
Reads from I<FILE> until EOF, and appends that data to the current
state. The return value is the updated object itself.
=item B<addfile($filename [, $mode])>
Reads the contents of I<$filename>, and appends that data to the current
state. The return value is the updated object itself.
By default, I<$filename> is simply opened and read; no special modes
or I/O disciplines are used. To change this, set the optional I<$mode>
argument to one of the following values:
"b" read file in binary mode
"p" use portable mode
"0" use BITS mode
The "p" mode ensures that the digest value of I<$filename> will be the
same when computed on different operating systems. It accomplishes
this by internally translating all newlines in text files to UNIX format
before calculating the digest. Binary files are read in raw mode with
no translation whatsoever.
The BITS mode ("0") interprets the contents of I<$filename> as a logical
stream of bits, where each ASCII '0' or '1' character represents a 0 or
1 bit, respectively. All other characters are ignored. This provides
a convenient way to calculate the digest values of partial-byte data by
using files, rather than having to write programs using the I<add_bits>
method.
=item B<dump($filename)>
Provides persistent storage of intermediate SHA states by writing
a portable, human-readable representation of the current state to
I<$filename>. If the argument is missing, or equal to the empty
string, the state information will be written to STDOUT.
=item B<load($filename)>
Returns a Digest::SHA object representing the intermediate SHA
state that was previously dumped to I<$filename>. If called as a
class method, a new object is created; if called as an instance
method, the object is reset to the state contained in I<$filename>.
If the argument is missing, or equal to the empty string, the state
information will be read from STDIN.
=item B<digest>
Returns the digest encoded as a binary string.
Note that the I<digest> method is a read-once operation. Once it
has been performed, the Digest::SHA object is automatically reset
in preparation for calculating another digest value. Call
I<$sha-E<gt>clone-E<gt>digest> if it's necessary to preserve the
original digest state.
=item B<hexdigest>
Returns the digest encoded as a hexadecimal string.
Like I<digest>, this method is a read-once operation. Call
I<$sha-E<gt>clone-E<gt>hexdigest> if it's necessary to preserve
the original digest state.
This method is inherited if L<Digest::base> is installed on your
system. Otherwise, a functionally equivalent substitute is used.
=item B<b64digest>
Returns the digest encoded as a Base64 string.
Like I<digest>, this method is a read-once operation. Call
I<$sha-E<gt>clone-E<gt>b64digest> if it's necessary to preserve
the original digest state.
This method is inherited if L<Digest::base> is installed on your
system. Otherwise, a functionally equivalent substitute is used.
It's important to note that the resulting string does B<not> contain
the padding characters typical of Base64 encodings. This omission is
deliberate, and is done to maintain compatibility with the family of
CPAN Digest modules. See L</"PADDING OF BASE64 DIGESTS"> for details.
=back
I<HMAC-SHA-1/224/256/384/512>
=over 4
=item B<hmac_sha1($data, $key)>
=item B<hmac_sha224($data, $key)>
=item B<hmac_sha256($data, $key)>
=item B<hmac_sha384($data, $key)>
=item B<hmac_sha512($data, $key)>
=item B<hmac_sha512224($data, $key)>
=item B<hmac_sha512256($data, $key)>
Returns the HMAC-SHA-1/224/256/384/512 digest of I<$data>/I<$key>,
with the result encoded as a binary string. Multiple I<$data>
arguments are allowed, provided that I<$key> is the last argument
in the list.
=item B<hmac_sha1_hex($data, $key)>
=item B<hmac_sha224_hex($data, $key)>
=item B<hmac_sha256_hex($data, $key)>
=item B<hmac_sha384_hex($data, $key)>
=item B<hmac_sha512_hex($data, $key)>
=item B<hmac_sha512224_hex($data, $key)>
=item B<hmac_sha512256_hex($data, $key)>
Returns the HMAC-SHA-1/224/256/384/512 digest of I<$data>/I<$key>,
with the result encoded as a hexadecimal string. Multiple I<$data>
arguments are allowed, provided that I<$key> is the last argument
in the list.
=item B<hmac_sha1_base64($data, $key)>
=item B<hmac_sha224_base64($data, $key)>
=item B<hmac_sha256_base64($data, $key)>
=item B<hmac_sha384_base64($data, $key)>
=item B<hmac_sha512_base64($data, $key)>
=item B<hmac_sha512224_base64($data, $key)>
=item B<hmac_sha512256_base64($data, $key)>
Returns the HMAC-SHA-1/224/256/384/512 digest of I<$data>/I<$key>,
with the result encoded as a Base64 string. Multiple I<$data>
arguments are allowed, provided that I<$key> is the last argument
in the list.
It's important to note that the resulting string does B<not> contain
the padding characters typical of Base64 encodings. This omission is
deliberate, and is done to maintain compatibility with the family of
CPAN Digest modules. See L</"PADDING OF BASE64 DIGESTS"> for details.
=back
=head1 SEE ALSO
L<Digest>, L<Digest::SHA::PurePerl>
The Secure Hash Standard (Draft FIPS PUB 180-4) can be found at:
L<http://csrc.nist.gov/publications/drafts/fips180-4/Draft-FIPS180-4_Feb2011.pdf>
The Keyed-Hash Message Authentication Code (HMAC):
L<http://csrc.nist.gov/publications/fips/fips198/fips-198a.pdf>
=head1 AUTHOR
Mark Shelor <mshelor@cpan.org>
=head1 ACKNOWLEDGMENTS
The author is particularly grateful to
Gisle Aas
Sean Burke
Chris Carey
Alexandr Ciornii
Jim Doble
Thomas Drugeon
Julius Duque
Jeffrey Friedl
Robert Gilmour
Brian Gladman
Adam Kennedy
Andy Lester
Alex Muntada
Steve Peters
Chris Skiscim
Martin Thurn
Gunnar Wolf
Adam Woodbury
"who by trained skill rescued life from such great billows and such thick
darkness and moored it in so perfect a calm and in so brilliant a light"
- Lucretius
=head1 COPYRIGHT AND LICENSE
Copyright (C) 2003-2011 Mark Shelor
This library is free software; you can redistribute it and/or modify
it under the same terms as Perl itself.
L<perlartistic>
=cut
|