| Current Path : /proc/self/root/proc/2/root/usr/local/ssl/share/perl5/x86_64-linux-thread-multi/Crypt/PK/ |
| Current File : //proc/self/root/proc/2/root/usr/local/ssl/share/perl5/x86_64-linux-thread-multi/Crypt/PK/DSA.pm |
package Crypt::PK::DSA;
use strict;
use warnings;
our $VERSION = '0.050';
require Exporter; our @ISA = qw(Exporter); ### use Exporter 'import';
our %EXPORT_TAGS = ( all => [qw( dsa_encrypt dsa_decrypt dsa_sign_message dsa_verify_message dsa_sign_hash dsa_verify_hash )] );
our @EXPORT_OK = ( @{ $EXPORT_TAGS{'all'} } );
our @EXPORT = qw();
use Carp;
use CryptX qw(_encode_json _decode_json);
use Crypt::Digest 'digest_data';
use Crypt::Misc qw(read_rawfile encode_b64u decode_b64u encode_b64 decode_b64 pem_to_der der_to_pem);
use Crypt::PK;
sub new {
my ($class, $f, $p) = @_;
my $self = _new();
$self->import_key($f, $p) if $f;
return $self;
}
sub generate_key {
my $self = shift;
return $self->_generate_key_size(@_) if @_ == 2;
if (@_ == 1 && ref $_[0] eq 'HASH') {
my $param = shift;
my $p = $param->{p} or croak "FATAL: 'p' param not specified";
my $q = $param->{q} or croak "FATAL: 'q' param not specified";
my $g = $param->{g} or croak "FATAL: 'g' param not specified";
$p =~ s/^0x//;
$q =~ s/^0x//;
$g =~ s/^0x//;
return $self->_generate_key_pqg($p, $q, $g);
}
elsif (@_ == 1 && ref $_[0] eq 'SCALAR') {
my $data = ${$_[0]};
$data = pem_to_der($data) if $data =~ /-----BEGIN DSA PARAMETERS-----\s*(.+)\s*-----END DSA PARAMETERS-----/s;
return $self->_generate_key_dsaparam($data);
}
croak "FATAL: DSA generate_key - invalid args";
}
sub export_key_pem {
my ($self, $type, $password, $cipher) = @_;
my $key = $self->export_key_der($type||'');
return unless $key;
return der_to_pem($key, "DSA PRIVATE KEY", $password, $cipher) if $type eq 'private';
return der_to_pem($key, "DSA PUBLIC KEY") if $type eq 'public';
return der_to_pem($key, "PUBLIC KEY") if $type eq 'public_x509';
}
sub import_key {
my ($self, $key, $password) = @_;
croak "FATAL: undefined key" unless $key;
# special case
if (ref($key) eq 'HASH') {
if ($key->{p} && $key->{q} && $key->{g} && $key->{y}) {
# hash exported via key2hash
return $self->_import_hex($key->{p}, $key->{q}, $key->{g}, $key->{x}, $key->{y});
}
}
my $data;
if (ref($key) eq 'SCALAR') {
$data = $$key;
}
elsif (-f $key) {
$data = read_rawfile($key);
}
else {
croak "FATAL: non-existing file '$key'";
}
croak "FATAL: invalid key data" unless $data;
if ($data =~ /-----BEGIN (DSA PRIVATE|DSA PUBLIC|PRIVATE|PUBLIC) KEY-----(.*?)-----END/sg) {
$data = pem_to_der($data, $password);
return $self->_import($data);
}
elsif ($data =~ /---- BEGIN SSH2 PUBLIC KEY ----(.*?)---- END SSH2 PUBLIC KEY ----/sg) {
$data = pem_to_der($data);
my ($typ, $p, $q, $g, $y) = Crypt::PK::_ssh_parse($data);
return $self->_import_hex(unpack('H*',$p), unpack('H*',$q), unpack('H*',$g), undef, unpack('H*',$y)) if $typ && $p && $q && $g && $y && $typ eq 'ssh-dss';
}
elsif ($data =~ /ssh-dss\s+(\S+)/) {
$data = decode_b64("$1");
my ($typ, $p, $q, $g, $y) = Crypt::PK::_ssh_parse($data);
return $self->_import_hex(unpack('H*',$p), unpack('H*',$q), unpack('H*',$g), undef, unpack('H*',$y)) if $typ && $p && $q && $g && $y && $typ eq 'ssh-dss';
}
else {
return $self->_import($data);
}
croak "FATAL: invalid or unsupported DSA key format";
}
sub encrypt {
my ($self, $data, $hash_name) = @_;
$hash_name = Crypt::Digest::_trans_digest_name($hash_name||'SHA1');
return $self->_encrypt($data, $hash_name);
}
sub decrypt {
my ($self, $data) = @_;
return $self->_decrypt($data);
}
sub _truncate {
my ($self, $hash) = @_;
### section 4.6 of FIPS 186-4
# let N be the bit length of q
# z = the leftmost min(N, outlen) bits of Hash(M).
my $q = $self->size_q; # = size in bytes
return $hash if $q >= length($hash);
return substr($hash, 0, $q);
}
sub sign_message {
my ($self, $data, $hash_name) = @_;
$hash_name ||= 'SHA1';
my $data_hash = digest_data($hash_name, $data);
return $self->_sign($self->_truncate($data_hash));
}
sub verify_message {
my ($self, $sig, $data, $hash_name) = @_;
$hash_name ||= 'SHA1';
my $data_hash = digest_data($hash_name, $data);
return $self->_verify($sig, $self->_truncate($data_hash));
}
sub sign_hash {
my ($self, $data_hash) = @_;
return $self->_sign($self->_truncate($data_hash));
}
sub verify_hash {
my ($self, $sig, $data_hash) = @_;
return $self->_verify($sig, $self->_truncate($data_hash));
}
### FUNCTIONS
sub dsa_encrypt {
my $key = shift;
$key = __PACKAGE__->new($key) unless ref $key;
carp "FATAL: invalid 'key' param" unless ref($key) eq __PACKAGE__;
return $key->encrypt(@_);
}
sub dsa_decrypt {
my $key = shift;
$key = __PACKAGE__->new($key) unless ref $key;
carp "FATAL: invalid 'key' param" unless ref($key) eq __PACKAGE__;
return $key->decrypt(@_);
}
sub dsa_sign_message {
my $key = shift;
$key = __PACKAGE__->new($key) unless ref $key;
carp "FATAL: invalid 'key' param" unless ref($key) eq __PACKAGE__;
return $key->sign_message(@_);
}
sub dsa_verify_message {
my $key = shift;
$key = __PACKAGE__->new($key) unless ref $key;
carp "FATAL: invalid 'key' param" unless ref($key) eq __PACKAGE__;
return $key->verify_message(@_);
}
sub dsa_sign_hash {
my $key = shift;
$key = __PACKAGE__->new($key) unless ref $key;
carp "FATAL: invalid 'key' param" unless ref($key) eq __PACKAGE__;
return $key->sign_hash(@_);
}
sub dsa_verify_hash {
my $key = shift;
$key = __PACKAGE__->new($key) unless ref $key;
carp "FATAL: invalid 'key' param" unless ref($key) eq __PACKAGE__;
return $key->verify_hash(@_);
}
sub CLONE_SKIP { 1 } # prevent cloning
1;
=pod
=head1 NAME
Crypt::PK::DSA - Public key cryptography based on DSA
=head1 SYNOPSIS
### OO interface
#Encryption: Alice
my $pub = Crypt::PK::DSA->new('Bob_pub_dsa1.der');
my $ct = $pub->encrypt("secret message");
#
#Encryption: Bob (received ciphertext $ct)
my $priv = Crypt::PK::DSA->new('Bob_priv_dsa1.der');
my $pt = $priv->decrypt($ct);
#Signature: Alice
my $priv = Crypt::PK::DSA->new('Alice_priv_dsa1.der');
my $sig = $priv->sign_message($message);
#
#Signature: Bob (received $message + $sig)
my $pub = Crypt::PK::DSA->new('Alice_pub_dsa1.der');
$pub->verify_message($sig, $message) or die "ERROR";
#Key generation
my $pk = Crypt::PK::DSA->new();
$pk->generate_key(30, 256);
my $private_der = $pk->export_key_der('private');
my $public_der = $pk->export_key_der('public');
my $private_pem = $pk->export_key_pem('private');
my $public_pem = $pk->export_key_pem('public');
### Functional interface
#Encryption: Alice
my $ct = dsa_encrypt('Bob_pub_dsa1.der', "secret message");
#Encryption: Bob (received ciphertext $ct)
my $pt = dsa_decrypt('Bob_priv_dsa1.der', $ct);
#Signature: Alice
my $sig = dsa_sign_message('Alice_priv_dsa1.der', $message);
#Signature: Bob (received $message + $sig)
dsa_verify_message('Alice_pub_dsa1.der', $sig, $message) or die "ERROR";
=head1 METHODS
=head2 new
my $pk = Crypt::PK::DSA->new();
#or
my $pk = Crypt::PK::DSA->new($priv_or_pub_key_filename);
#or
my $pk = Crypt::PK::DSA->new(\$buffer_containing_priv_or_pub_key);
Support for password protected PEM keys
my $pk = Crypt::PK::DSA->new($priv_pem_key_filename, $password);
#or
my $pk = Crypt::PK::DSA->new(\$buffer_containing_priv_pem_key, $password);
=head2 generate_key
Uses Yarrow-based cryptographically strong random number generator seeded with
random data taken from C</dev/random> (UNIX) or C<CryptGenRandom> (Win32).
$pk->generate_key($group_size, $modulus_size);
# $group_size ... in bytes .. 15 < $group_size < 1024
# $modulus_size .. in bytes .. ($modulus_size - $group_size) < 512
### Bits of Security according to libtomcrypt documentation
# 80 bits => generate_key(20, 128)
# 120 bits => generate_key(30, 256)
# 140 bits => generate_key(35, 384)
# 160 bits => generate_key(40, 512)
### Sizes according section 4.2 of FIPS 186-4
# (L and N are the bit lengths of p and q respectively)
# L = 1024, N = 160 => generate_key(20, 128)
# L = 2048, N = 224 => generate_key(28, 256)
# L = 2048, N = 256 => generate_key(32, 256)
# L = 3072, N = 256 => generate_key(32, 384)
$pk->generate_key($param_hash)
# $param_hash is { d => $d, p => $p, q => $q }
# where $d, $p, $q are hex strings
$pk->generate_key(\$dsa_param)
# $dsa_param is the content of DER or PEM file with DSA params
# e.g. openssl dsaparam 2048
=head2 import_key
Loads private or public key in DER or PEM format.
$pk->import_key($filename);
#or
$pk->import_key(\$buffer_containing_key);
Support for password protected PEM keys
$pk->import_key($pem_filename, $password);
#or
$pk->import_key(\$buffer_containing_pem_key, $password);
Loading private or public keys form perl hash:
$pk->import_key($hashref);
# where $hashref is a key exported via key2hash
$pk->import_key({
p => "AAF839A764E04D80824B79FA1F0496C093...", #prime modulus
q => "D05C4CB45F29D353442F1FEC43A6BE2BE8...", #prime divisor
g => "847E8896D12C9BF18FE283AE7AD58ED7F3...", #generator of a subgroup of order q in GF(p)
x => "6C801901AC74E2DC714D75A9F6969483CF...", #private key, random 0 < x < q
y => "8F7604D77FA62C7539562458A63C7611B7...", #public key, where y = g^x mod p
});
Supported key formats:
=over
=item * DSA public keys
-----BEGIN PUBLIC KEY-----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-----END PUBLIC KEY-----
=item * DSA private keys
-----BEGIN DSA PRIVATE KEY-----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-----END DSA PRIVATE KEY-----
=item * DSA private keys in password protected PEM format:
-----BEGIN DSA PRIVATE KEY-----
Proc-Type: 4,ENCRYPTED
DEK-Info: DES-CBC,227ADC3AA0299491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-----END DSA PRIVATE KEY-----
=item * SSH public DSA keys
ssh-dss AAAAB3NzaC1kc3MAAACBAKU8/avmk...4XOwuEssAVhmwA==
=item * SSH public DSA keys (RFC-4716 format)
---- BEGIN SSH2 PUBLIC KEY ----
Comment: "1024-bit DSA, converted from OpenSSH"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---- END SSH2 PUBLIC KEY ----
=back
=head2 export_key_der
my $private_der = $pk->export_key_der('private');
#or
my $public_der = $pk->export_key_der('public');
=head2 export_key_pem
my $private_pem = $pk->export_key_pem('private');
#or
my $public_pem = $pk->export_key_pem('public');
#or
my $public_pem = $pk->export_key_pem('public_x509');
With parameter C<'public'> uses header and footer lines:
-----BEGIN DSA PUBLIC KEY------
-----END DSA PUBLIC KEY------
With parameter C<'public_x509'> uses header and footer lines:
-----BEGIN PUBLIC KEY------
-----END PUBLIC KEY------
Support for password protected PEM keys
my $private_pem = $pk->export_key_pem('private', $password);
#or
my $private_pem = $pk->export_key_pem('private', $password, $cipher);
# supported ciphers: 'DES-CBC'
# 'DES-EDE3-CBC'
# 'SEED-CBC'
# 'CAMELLIA-128-CBC'
# 'CAMELLIA-192-CBC'
# 'CAMELLIA-256-CBC'
# 'AES-128-CBC'
# 'AES-192-CBC'
# 'AES-256-CBC' (DEFAULT)
=head2 encrypt
my $pk = Crypt::PK::DSA->new($pub_key_filename);
my $ct = $pk->encrypt($message);
#or
my $ct = $pk->encrypt($message, $hash_name);
#NOTE: $hash_name can be 'SHA1' (DEFAULT), 'SHA256' or any other hash supported by Crypt::Digest
=head2 decrypt
my $pk = Crypt::PK::DSA->new($priv_key_filename);
my $pt = $pk->decrypt($ciphertext);
=head2 sign_message
my $pk = Crypt::PK::DSA->new($priv_key_filename);
my $signature = $priv->sign_message($message);
#or
my $signature = $priv->sign_message($message, $hash_name);
#NOTE: $hash_name can be 'SHA1' (DEFAULT), 'SHA256' or any other hash supported by Crypt::Digest
=head2 verify_message
my $pk = Crypt::PK::DSA->new($pub_key_filename);
my $valid = $pub->verify_message($signature, $message)
#or
my $valid = $pub->verify_message($signature, $message, $hash_name);
#NOTE: $hash_name can be 'SHA1' (DEFAULT), 'SHA256' or any other hash supported by Crypt::Digest
=head2 sign_hash
my $pk = Crypt::PK::DSA->new($priv_key_filename);
my $signature = $priv->sign_hash($message_hash);
=head2 verify_hash
my $pk = Crypt::PK::DSA->new($pub_key_filename);
my $valid = $pub->verify_hash($signature, $message_hash);
=head2 is_private
my $rv = $pk->is_private;
# 1 .. private key loaded
# 0 .. public key loaded
# undef .. no key loaded
=head2 size
my $size = $pk->size;
# returns key size in bytes or undef if no key loaded
=head2 key2hash
my $hash = $pk->key2hash;
# returns hash like this (or undef if no key loaded):
{
type => 1, # integer: 1 .. private, 0 .. public
size => 256, # integer: key size in bytes
# all the rest are hex strings
p => "AAF839A764E04D80824B79FA1F0496C093...", #prime modulus
q => "D05C4CB45F29D353442F1FEC43A6BE2BE8...", #prime divisor
g => "847E8896D12C9BF18FE283AE7AD58ED7F3...", #generator of a subgroup of order q in GF(p)
x => "6C801901AC74E2DC714D75A9F6969483CF...", #private key, random 0 < x < q
y => "8F7604D77FA62C7539562458A63C7611B7...", #public key, where y = g^x mod p
}
=head1 FUNCTIONS
=head2 dsa_encrypt
DSA based encryption as implemented by libtomcrypt. See method L</encrypt> below.
my $ct = dsa_encrypt($pub_key_filename, $message);
#or
my $ct = dsa_encrypt(\$buffer_containing_pub_key, $message);
#or
my $ct = dsa_encrypt($pub_key_filename, $message, $hash_name);
#NOTE: $hash_name can be 'SHA1' (DEFAULT), 'SHA256' or any other hash supported by Crypt::Digest
Encryption works similar to the L<Crypt::PK::ECC> encryption whereas shared DSA key is computed, and
the hash of the shared key XOR'ed against the plaintext forms the ciphertext.
=head2 dsa_decrypt
DSA based decryption as implemented by libtomcrypt. See method L</decrypt> below.
my $pt = dsa_decrypt($priv_key_filename, $ciphertext);
#or
my $pt = dsa_decrypt(\$buffer_containing_priv_key, $ciphertext);
=head2 dsa_sign_message
Generate DSA signature. See method L</sign_message> below.
my $sig = dsa_sign_message($priv_key_filename, $message);
#or
my $sig = dsa_sign_message(\$buffer_containing_priv_key, $message);
#or
my $sig = dsa_sign_message($priv_key, $message, $hash_name);
=head2 dsa_verify_message
Verify DSA signature. See method L</verify_message> below.
dsa_verify_message($pub_key_filename, $signature, $message) or die "ERROR";
#or
dsa_verify_message(\$buffer_containing_pub_key, $signature, $message) or die "ERROR";
#or
dsa_verify_message($pub_key, $signature, $message, $hash_name) or die "ERROR";
=head2 dsa_sign_hash
Generate DSA signature. See method L</sign_hash> below.
my $sig = dsa_sign_hash($priv_key_filename, $message_hash);
#or
my $sig = dsa_sign_hash(\$buffer_containing_priv_key, $message_hash);
=head2 dsa_verify_hash
Verify DSA signature. See method L</verify_hash> below.
dsa_verify_hash($pub_key_filename, $signature, $message_hash) or die "ERROR";
#or
dsa_verify_hash(\$buffer_containing_pub_key, $signature, $message_hash) or die "ERROR";
=head1 OpenSSL interoperability
### let's have:
# DSA private key in PEM format - dsakey.priv.pem
# DSA public key in PEM format - dsakey.pub.pem
# data file to be signed - input.data
=head2 Sign by OpenSSL, verify by Crypt::PK::DSA
Create signature (from commandline):
openssl dgst -sha1 -sign dsakey.priv.pem -out input.sha1-dsa.sig input.data
Verify signature (Perl code):
use Crypt::PK::DSA;
use Crypt::Digest 'digest_file';
use File::Slurp 'read_file';
my $pkdsa = Crypt::PK::DSA->new("dsakey.pub.pem");
my $signature = read_file("input.sha1-dsa.sig", binmode=>':raw');
my $valid = $pkdsa->verify_hash($signature, digest_file("SHA1", "input.data"), "SHA1", "v1.5");
print $valid ? "SUCCESS" : "FAILURE";
=head2 Sign by Crypt::PK::DSA, verify by OpenSSL
Create signature (Perl code):
use Crypt::PK::DSA;
use Crypt::Digest 'digest_file';
use File::Slurp 'write_file';
my $pkdsa = Crypt::PK::DSA->new("dsakey.priv.pem");
my $signature = $pkdsa->sign_hash(digest_file("SHA1", "input.data"), "SHA1", "v1.5");
write_file("input.sha1-dsa.sig", {binmode=>':raw'}, $signature);
Verify signature (from commandline):
openssl dgst -sha1 -verify dsakey.pub.pem -signature input.sha1-dsa.sig input.data
=head2 Keys generated by Crypt::PK::DSA
Generate keys (Perl code):
use Crypt::PK::DSA;
use File::Slurp 'write_file';
my $pkdsa = Crypt::PK::DSA->new;
$pkdsa->generate_key(20, 128);
write_file("dsakey.pub.der", {binmode=>':raw'}, $pkdsa->export_key_der('public'));
write_file("dsakey.priv.der", {binmode=>':raw'}, $pkdsa->export_key_der('private'));
write_file("dsakey.pub.pem", $pkdsa->export_key_pem('public_x509'));
write_file("dsakey.priv.pem", $pkdsa->export_key_pem('private'));
write_file("dsakey-passwd.priv.pem", $pkdsa->export_key_pem('private', 'secret'));
Use keys by OpenSSL:
openssl dsa -in dsakey.priv.der -text -inform der
openssl dsa -in dsakey.priv.pem -text
openssl dsa -in dsakey-passwd.priv.pem -text -inform pem -passin pass:secret
openssl dsa -in dsakey.pub.der -pubin -text -inform der
openssl dsa -in dsakey.pub.pem -pubin -text
=head2 Keys generated by OpenSSL
Generate keys:
openssl dsaparam -genkey -out dsakey.priv.pem 1024
openssl dsa -in dsakey.priv.pem -out dsakey.priv.der -outform der
openssl dsa -in dsakey.priv.pem -out dsakey.pub.pem -pubout
openssl dsa -in dsakey.priv.pem -out dsakey.pub.der -outform der -pubout
openssl dsa -in dsakey.priv.pem -passout pass:secret -des3 -out dsakey-passwd.priv.pem
Load keys (Perl code):
use Crypt::PK::DSA;
use File::Slurp 'write_file';
my $pkdsa = Crypt::PK::DSA->new;
$pkdsa->import_key("dsakey.pub.der");
$pkdsa->import_key("dsakey.priv.der");
$pkdsa->import_key("dsakey.pub.pem");
$pkdsa->import_key("dsakey.priv.pem");
$pkdsa->import_key("dsakey-passwd.priv.pem", "secret");
=head1 SEE ALSO
=over
=item * L<https://en.wikipedia.org/wiki/Digital_Signature_Algorithm|https://en.wikipedia.org/wiki/Digital_Signature_Algorithm>
=back
Copyright 2K16 - 2K18 Indonesian Hacker Rulez
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