libcryptx-perl/lib/Crypt/Misc.pm

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package Crypt::Misc;
use strict;
use warnings;
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our $VERSION = '0.058_002';
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require Exporter; our @ISA = qw(Exporter); ### use Exporter 5.57 'import';
use Carp 'croak';
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our %EXPORT_TAGS = ( all => [qw(encode_b64 decode_b64
encode_b64u decode_b64u
encode_b58b decode_b58b
encode_b58f decode_b58f
encode_b58r decode_b58r
encode_b58t decode_b58t
encode_b58s decode_b58s
encode_b32r decode_b32r
encode_b32b decode_b32b
encode_b32z decode_b32z
encode_b32c decode_b32c
pem_to_der der_to_pem
read_rawfile write_rawfile
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slow_eq is_v4uuid random_v4uuid
increment_octets_be increment_octets_le
)] );
our @EXPORT_OK = ( @{ $EXPORT_TAGS{'all'} } );
our @EXPORT = qw();
use Carp 'carp';
use CryptX;
use Crypt::Digest 'digest_data';
use Crypt::Mode::CBC;
use Crypt::Mode::CFB;
use Crypt::Mode::ECB;
use Crypt::Mode::OFB;
use Crypt::Cipher;
use Crypt::PRNG 'random_bytes';
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sub _encode_b58 {
my ($bytes, $alphabet) = @_;
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return '' if !defined $bytes || length($bytes) == 0;
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# handle leading zero-bytes
my $base58 = '';
if ($bytes =~ /^(\x00+)/) {
$base58 = ('0' x length($1));
}
$base58 .= _bin_to_radix($bytes, 58);
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if (defined $alphabet) {
my $default = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuv";
return undef if $alphabet !~ /^[a-zA-Z0-9]{58}$/;
eval "\$base58 =~ tr/$default/$alphabet/"; # HACK: https://stackoverflow.com/questions/11415045/using-a-char-variable-in-tr
return undef if $@;
}
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return $base58;
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}
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sub _decode_b58 {
my ($base58, $alphabet) = @_;
return '' if !defined $base58 || length($base58) == 0;
my $default = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuv";
if (defined $alphabet) {
return undef if $alphabet !~ /^[a-zA-Z0-9]{58}$/ || $base58 !~ /^[$alphabet]+$/;
eval "\$base58 =~ tr/$alphabet/$default/"; # HACK: https://stackoverflow.com/questions/11415045/using-a-char-variable-in-tr
return undef if $@;
}
return undef if $base58 !~ /^[$default]+$/;
# handle leading zeroes
my $bytes = '';
if ($base58 =~ /^(0+)(.*)$/) {
$base58 = $2;
$bytes = ("\x00" x length($1));
}
$bytes .= _radix_to_bin($base58, 58) if defined $base58 && length($base58) > 0;
return $bytes;
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}
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sub decode_b58b { _decode_b58(shift, "123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz") } # Bitcoin
sub decode_b58f { _decode_b58(shift, "123456789abcdefghijkmnopqrstuvwxyzABCDEFGHJKLMNPQRSTUVWXYZ") } # Flickr
sub decode_b58r { _decode_b58(shift, "rpshnaf39wBUDNEGHJKLM4PQRST7VWXYZ2bcdeCg65jkm8oFqi1tuvAxyz") } # Ripple
sub decode_b58t { _decode_b58(shift, "RPShNAF39wBUDnEGHJKLM4pQrsT7VWXYZ2bcdeCg65jkm8ofqi1tuvaxyz") } # Tipple
sub decode_b58s { _decode_b58(shift, "gsphnaf39wBUDNEGHJKLM4PQRST7VWXYZ2bcdeCr65jkm8oFqi1tuvAxyz") } # Stellar
sub encode_b58b { _encode_b58(shift, "123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz") } # Bitcoin
sub encode_b58f { _encode_b58(shift, "123456789abcdefghijkmnopqrstuvwxyzABCDEFGHJKLMNPQRSTUVWXYZ") } # Flickr
sub encode_b58r { _encode_b58(shift, "rpshnaf39wBUDNEGHJKLM4PQRST7VWXYZ2bcdeCg65jkm8oFqi1tuvAxyz") } # Ripple
sub encode_b58t { _encode_b58(shift, "RPShNAF39wBUDnEGHJKLM4pQrsT7VWXYZ2bcdeCg65jkm8ofqi1tuvaxyz") } # Tipple
sub encode_b58s { _encode_b58(shift, "gsphnaf39wBUDNEGHJKLM4PQRST7VWXYZ2bcdeCr65jkm8oFqi1tuvAxyz") } # Stellar
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sub pem_to_der {
my ($data, $password) = @_;
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my ($begin, $obj1, $content, $end, $obj2);
# first try to load KEY (e.g. EC pem files might contain more parts)
($begin, $obj1, $content, $end, $obj2) = $data =~ m/(----[- ]BEGIN ([^\r\n\-]+KEY)[ -]----)(.*?)(----[- ]END ([^\r\n\-]+)[ -]----)/s;
# if failed then try to load anything
($begin, $obj1, $content, $end, $obj2) = $data =~ m/(----[- ]BEGIN ([^\r\n\-]+)[ -]----)(.*?)(----[- ]END ([^\r\n\-]+)[ -]----)/s unless $content;
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return undef unless $content;
$content =~ s/^\s+//sg;
$content =~ s/\s+$//sg;
$content =~ s/\r\n/\n/sg; # CR-LF >> LF
$content =~ s/\r/\n/sg; # CR >> LF
$content =~ s/\\\n//sg; # \ + LF
my ($headers, undef, $b64) = $content =~ /^(([^:]+:.*?\n)*)(.*)$/s;
return undef unless $b64;
my $binary = decode_b64($b64);
return undef unless $binary;
my ($ptype, $cipher_name, $iv_hex);
for my $h (split /\n/, ($headers||'')) {
my ($k, $v) = split /:\s*/, $h, 2;
$ptype = $v if $k eq 'Proc-Type';
($cipher_name, $iv_hex) = $v =~ /^\s*(.*?)\s*,\s*([0-9a-fA-F]+)\s*$/ if $k eq 'DEK-Info';
}
if ($cipher_name && $iv_hex && $ptype && $ptype eq '4,ENCRYPTED') {
croak "FATAL: encrypted PEM but no password provided" unless defined $password;
my $iv = pack("H*", $iv_hex);
my ($mode, $klen) = _name2mode($cipher_name);
my $key = _password2key($password, $klen, $iv, 'MD5');
return $mode->decrypt($binary, $key, $iv);
}
return $binary;
}
sub der_to_pem {
my ($data, $header_name, $password, $cipher_name) = @_;
my $content = $data;
my @headers;
if ($password) {
$cipher_name ||= 'AES-256-CBC';
my ($mode, $klen, $ilen) = _name2mode($cipher_name);
my $iv = random_bytes($ilen);
my $key = _password2key($password, $klen, $iv, 'MD5');
$content = $mode->encrypt($data, $key, $iv);
push @headers, 'Proc-Type: 4,ENCRYPTED', "DEK-Info: ".uc($cipher_name).",".unpack("H*", $iv);
}
my $pem = "-----BEGIN $header_name-----\n";
if (@headers) {
$pem .= "$_\n" for @headers;
$pem .= "\n";
}
my @l = encode_b64($content) =~ /.{1,64}/g;
$pem .= join("\n", @l) . "\n";
$pem .= "-----END $header_name-----\n";
return $pem;
}
sub read_rawfile {
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# $data = read_rawfile($filename);
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my $f = shift;
croak "FATAL: read_rawfile() non-existing file '$f'" unless -f $f;
open my $fh, "<", $f or croak "FATAL: read_rawfile() cannot open file '$f': $!";
binmode $fh;
return do { local $/; <$fh> };
}
sub write_rawfile {
# write_rawfile($filename, $data);
croak "FATAL: write_rawfile() no data" unless defined $_[1];
open my $fh, ">", $_[0] or croak "FATAL: write_rawfile() cannot open file '$_[0]': $!";
binmode $fh;
print $fh $_[1] or croak "FATAL: write_rawfile() cannot write to '$_[0]': $!";
close $fh or croak "FATAL: write_rawfile() cannot close '$_[0]': $!";
return;
}
sub slow_eq {
my ($a, $b) = @_;
return unless defined $a && defined $b;
my $diff = length $a ^ length $b;
for(my $i = 0; $i < length $a && $i < length $b; $i++) {
$diff |= ord(substr $a, $i) ^ ord(substr $b, $i);
}
return $diff == 0;
}
sub random_v4uuid() {
# Version 4 - random - UUID: xxxxxxxx-xxxx-4xxx-Yxxx-xxxxxxxxxxxx
# where x is any hexadecimal digit and Y is one of 8, 9, A, B (1000, 1001, 1010, 1011)
# e.g. f47ac10b-58cc-4372-a567-0e02b2c3d479
my $raw = random_bytes(16);
# xxxxxxxxxxxx4xxxYxxxxxxxxxxxxxxx
$raw &= pack("H*", "FFFFFFFFFFFF0FFFFFFFFFFFFFFFFFFF");
$raw |= pack("H*", "00000000000040000000000000000000");
$raw &= pack("H*", "FFFFFFFFFFFFFFFF3FFFFFFFFFFFFFFF"); # 0x3 == 0011b
$raw |= pack("H*", "00000000000000008000000000000000"); # 0x8 == 1000b
my $hex = unpack("H*", $raw);
$hex =~ s/^(.{8})(.{4})(.{4})(.{4})(.{12}).*$/$1-$2-$3-$4-$5/;
return $hex;
}
sub is_v4uuid($) {
my $uuid = shift;
return 0 if !$uuid;
return 1 if $uuid =~ /^[0-9a-f]{8}-[0-9a-f]{4}-4[0-9a-f]{3}-[89ab][0-9a-f]{3}-[0-9a-f]{12}$/i;
return 0;
}
### private functions
sub _name2mode {
my $cipher_name = uc(shift);
my %trans = ( 'DES-EDE3' => 'DES_EDE' );
my ($cipher, undef, $klen, $mode) = $cipher_name =~ /^(AES|CAMELLIA|DES|DES-EDE3|SEED)(-(\d+))?-(CBC|CFB|ECB|OFB)$/i;
croak "FATAL: unsupported cipher '$cipher_name'" unless $cipher && $mode;
$cipher = $trans{$cipher} || $cipher;
$klen = $klen ? int($klen/8) : Crypt::Cipher::min_keysize($cipher);
my $ilen = Crypt::Cipher::blocksize($cipher);
croak "FATAL: unsupported cipher '$cipher_name'" unless $klen && $ilen;
return (Crypt::Mode::CBC->new($cipher), $klen, $ilen) if $mode eq 'CBC';
return (Crypt::Mode::CFB->new($cipher), $klen, $ilen) if $mode eq 'CFB';
return (Crypt::Mode::ECB->new($cipher), $klen, $ilen) if $mode eq 'ECB';
return (Crypt::Mode::OFB->new($cipher), $klen, $ilen) if $mode eq 'OFB';
}
sub _password2key {
my ($password, $klen, $iv, $hash) = @_;
my $salt = substr($iv, 0, 8);
my $key = '';
while (length($key) < $klen) {
$key .= digest_data($hash, $key . $password . $salt);
}
return substr($key, 0, $klen);
}
1;
=pod
=head1 NAME
Crypt::Misc - miscellaneous functions related to (or used by) CryptX
=head1 SYNOPSIS
This module contains a collection of mostly unsorted functions loosely-related to CryptX distribution but not implementing cryptography.
Most of them are also available in other perl modules but once you utilize CryptX you might avoid dependencies on other modules by using
functions from Crypt::Misc.
=head1 DESCRIPTION
use Crypt::Misc ':all';
# Base64 and Base64/URL-safe functions
$base64 = encode_b64($rawbytes);
$rawbytes = decode_b64($base64);
$base64url = encode_b64u($encode_b64u);
$rawbytes = decode_b64u($base64url);
# read/write file
$rawdata = read_rawfile($filename);
write_rawfile($filename, $rawdata);
# convert PEM/DER
$der_data = pem_to_der($pem_data);
$pem_data = der_to_pem($der_data);
# others
die "mismatch" unless slow_eq($str1, $str2);
=head1 FUNCTIONS
By default, Crypt::Misc doesn't import any function. You can import individual functions like this:
use Crypt::Misc qw(read_rawfile);
Or import all available functions:
use Crypt::Misc ':all';
=head2 read_rawfile
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I<Since: 0.029>
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$rawdata = read_rawfile($filename);
Read file C<$filename> into a scalar as a binary data (without decoding/transformation).
=head2 write_rawfile
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I<Since: 0.029>
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write_rawfile($filename, $rawdata);
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Write C<$rawdata> to file C<$filename> as binary data.
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=head2 slow_eq
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I<Since: 0.029>
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if (slow_eq($data1, $data2)) { ... }
Constant time compare (to avoid timing side-channel).
=head2 pem_to_der
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I<Since: 0.029>
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$der_data = pem_to_der($pem_data);
#or
$der_data = pem_to_der($pem_data, $password);
Convert PEM to DER representation. Supports also password protected PEM data.
=head2 der_to_pem
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I<Since: 0.029>
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$pem_data = der_to_pem($der_data, $header_name);
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#or
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$pem_data = der_to_pem($der_data, $header_name, $password);
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#or
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$pem_data = der_to_pem($der_data, $header_name, $passord, $cipher_name);
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# $header_name e.g. "PUBLIC KEY", "RSA PRIVATE KEY" ...
# $cipher_name e.g. "DES-EDE3-CBC", "AES-256-CBC" (DEFAULT) ...
Convert DER to PEM representation. Supports also password protected PEM data.
=head2 random_v4uuid
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I<Since: 0.031>
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my $uuid = random_v4uuid();
Returns cryptographically strong Version 4 random UUID: C<xxxxxxxx-xxxx-4xxx-Yxxx-xxxxxxxxxxxx>
where C<x> is any hexadecimal digit and C<Y> is one of 8, 9, A, B (1000, 1001, 1010, 1011)
e.g. C<f47ac10b-58cc-4372-a567-0e02b2c3d479>.
=head2 is_v4uuid
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I<Since: 0.031>
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if (is_v4uuid($uuid)) {
...
}
Checks the given C<$uuid> string whether it matches V4 UUID format and returns C<0> (mismatch) or C<1> (match).
=head2 increment_octets_le
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I<Since: 0.048>
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$octects = increment_octets_le($octets);
Take input C<$octets> as a little-endian big number and return an increment.
=head2 increment_octets_be
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I<Since: 0.048>
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$octects = increment_octets_be($octets);
Take input C<$octets> as a big-endian big number and return an increment.
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=head2 encode_b64
I<Since: 0.029>
$base64string = encode_b64($rawdata);
Encode $rawbytes into Base64 string, no line-endings in the output string.
=head2 decode_b64
I<Since: 0.029>
$rawdata = decode_b64($base64string);
Decode a Base64 string.
=head2 encode_b64u
I<Since: 0.029>
$base64url_string = encode_b64($rawdata);
Encode $rawbytes into Base64/URL-Safe string, no line-endings in the output string.
=head2 decode_b64u
I<Since: 0.029>
$rawdata = decode_b64($base64url_string);
Decode a Base64/URL-Safe string.
=head2 encode_b32r
I<Since: 0.049>
$string = encode_b32r($rawdata);
Encode bytes into Base32 (rfc4648 alphabet) string, without "=" padding.
=head2 decode_b32r
I<Since: 0.049>
$rawdata = decode_b32r($string);
Decode a Base32 (rfc4648 alphabet) string into bytes.
=head2 encode_b32b
I<Since: 0.049>
$string = encode_b32b($rawdata);
Encode bytes into Base32 (base32hex alphabet) string, without "=" padding.
=head2 decode_b32b
I<Since: 0.049>
$rawdata = decode_b32b($string);
Decode a Base32 (base32hex alphabet) string into bytes.
=head2 encode_b32z
I<Since: 0.049>
$string = encode_b32z($rawdata);
Encode bytes into Base32 (zbase32 alphabet) string.
=head2 decode_b32z
I<Since: 0.049>
$rawdata = decode_b32z($string);
Decode a Base32 (zbase32 alphabet) string into bytes.
=head2 encode_b32c
I<Since: 0.049>
$string = encode_b32c($rawdata);
Encode bytes into Base32 (crockford alphabet) string.
=head2 decode_b32c
I<Since: 0.049>
$rawdata = decode_b32c($string);
Decode a Base32 (crockford alphabet) string into bytes.
=head2 encode_b58b
I<Since: 0.049>
$string = encode_b58b($rawdata);
Encode bytes into Base58 (Bitcoin alphabet) string.
=head2 decode_b58b
I<Since: 0.049>
$rawdata = decode_b58b($string);
Decode a Base58 (Bitcoin alphabet) string into bytes.
=head2 encode_b58f
I<Since: 0.049>
$string = encode_b58f($rawdata);
Encode bytes into Base58 (Flickr alphabet) string.
=head2 decode_b58f
I<Since: 0.049>
$rawdata = decode_b58f($string);
Decode a Base58 (Flickr alphabet) string into bytes.
=head2 encode_b58r
I<Since: 0.049>
$string = encode_b58r($rawdata);
Encode bytes into Base58 (Ripple alphabet) string.
=head2 decode_b58r
I<Since: 0.049>
$rawdata = decode_b58r($string);
Decode a Base58 (Ripple alphabet) string into bytes.
=head2 encode_b58t
I<Since: 0.049>
$string = encode_b58t($rawdata);
Encode bytes into Base58 (Tipple alphabet) string.
=head2 decode_b58t
I<Since: 0.049>
$rawdata = decode_b58t($string);
Decode a Base58 (Tipple alphabet) string into bytes.
=head2 encode_b58s
I<Since: 0.049>
$string = encode_b58s($rawdata);
Encode bytes into Base58 (Stellar alphabet) string.
=head2 decode_b58s
I<Since: 0.049>
$rawdata = decode_b58s($string);
Decode a Base58 (Stellar alphabet) string into bytes.
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=head1 SEE ALSO
=over
=item * L<CryptX|CryptX>
=back
=cut