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hashcat/tools/test_modules/m20013.pm
2022-01-30 10:35:51 +01:00

506 lines
11 KiB
Perl

#!/usr/bin/env perl
##
## Author......: See docs/credits.txt
## License.....: MIT
##
use strict;
use warnings;
use Crypt::PBKDF2;
use MIME::Base64 qw (encode_base64);
use Encode;
sub module_constraints { [[0, 256], [128, 128], [-1, -1], [-1, -1], [-1, -1]] }
sub aes_encrypt
{
my $key_main = shift;
my $key_tweak = shift;
my $data = shift;
my $data_base64 = encode_base64 ($data, "");
my $python_code = <<'END_CODE';
from CryptoPlus.Cipher import AES
import base64
key1 = base64.b64decode (key_main)
key2 = base64.b64decode (key_tweak)
key = (key1, key2)
cipher = AES.new (key, AES.MODE_XTS)
sequence = b"\x01"
encrypted = cipher.encrypt (base64.b64decode (data), sequence)
print (encrypted.hex ())
END_CODE
# replace code with these values
$python_code =~ s/key_main/"$key_main"/;
$python_code =~ s/key_tweak/"$key_tweak"/;
$python_code =~ s/data/"$data_base64"/;
my $output_buf = `python3 -c '$python_code'`;
$output_buf =~ s/[\r\n]//g;
$output_buf = substr ($output_buf, 128); # remove the "garbage" from the start (encrypted salt)
return $output_buf;
}
sub aes_decrypt
{
my $key_main = shift;
my $key_tweak = shift;
my $data = shift;
my $data_base64 = encode_base64 ($data, "");
my $python_code = <<'END_CODE';
from CryptoPlus.Cipher import AES
import base64
key1 = base64.b64decode (key_main)
key2 = base64.b64decode (key_tweak)
key = (key1, key2)
cipher = AES.new (key, AES.MODE_XTS)
sequence = b"\x01"
decrypted = cipher.decrypt (base64.b64decode (data), sequence)
print (decrypted.hex ())
END_CODE
# replace code with these values
$python_code =~ s/key_main/"$key_main"/;
$python_code =~ s/key_tweak/"$key_tweak"/;
$python_code =~ s/data/"$data_base64"/;
my $output_buf = `python3 -c '$python_code'`;
$output_buf =~ s/[\r\n]//g;
$output_buf = substr ($output_buf, 128); # remove the "garbage" from the start (encrypted salt)
$output_buf = pack ("H*", $output_buf);
return $output_buf;
}
sub twofish_encrypt
{
my $key_main = shift;
my $key_tweak = shift;
my $data = shift;
my $data_base64 = encode_base64 ($data, "");
my $python_code = <<'END_CODE';
from CryptoPlus.Cipher import python_Twofish
import base64
key1 = base64.b64decode (key_main)
key2 = base64.b64decode (key_tweak)
key = (key1, key2)
cipher = python_Twofish.new (key, python_Twofish.MODE_XTS)
sequence = b"\x01"
encrypted = cipher.encrypt (base64.b64decode (data), sequence)
print (encrypted.hex ())
END_CODE
# replace code with these values
$python_code =~ s/key_main/"$key_main"/;
$python_code =~ s/key_tweak/"$key_tweak"/;
$python_code =~ s/data/"$data_base64"/;
my $output_buf = `python3 -c '$python_code'`;
$output_buf =~ s/[\r\n]//g;
$output_buf = substr ($output_buf, 128); # remove the "garbage" from the start (encrypted salt)
return $output_buf;
}
sub twofish_decrypt
{
my $key_main = shift;
my $key_tweak = shift;
my $data = shift;
my $data_base64 = encode_base64 ($data, "");
my $python_code = <<'END_CODE';
from CryptoPlus.Cipher import python_Twofish
import base64
key1 = base64.b64decode (key_main)
key2 = base64.b64decode (key_tweak)
key = (key1, key2)
cipher = python_Twofish.new (key, python_Twofish.MODE_XTS)
sequence = b"\x01"
decrypted = cipher.decrypt (base64.b64decode (data), sequence)
print (decrypted.hex ())
END_CODE
# replace code with these values
$python_code =~ s/key_main/"$key_main"/;
$python_code =~ s/key_tweak/"$key_tweak"/;
$python_code =~ s/data/"$data_base64"/;
my $output_buf = `python3 -c '$python_code'`;
$output_buf =~ s/[\r\n]//g;
$output_buf = substr ($output_buf, 128); # remove the "garbage" from the start (encrypted salt)
$output_buf = pack ("H*", $output_buf);
return $output_buf;
}
sub serpent_encrypt
{
my $key_main = shift;
my $key_tweak = shift;
my $data = shift;
my $data_base64 = encode_base64 ($data, "");
my $python_code = <<'END_CODE';
from CryptoPlus.Cipher import python_Serpent
import base64
key1 = base64.b64decode (key_main)
key2 = base64.b64decode (key_tweak)
key = (key1, key2)
cipher = python_Serpent.new (key, python_Serpent.MODE_XTS)
sequence = b"\x01"
encrypted = cipher.encrypt (base64.b64decode (data), sequence)
print (encrypted.hex ())
END_CODE
# replace code with these values
$python_code =~ s/key_main/"$key_main"/;
$python_code =~ s/key_tweak/"$key_tweak"/;
$python_code =~ s/data/"$data_base64"/;
my $output_buf = `python3 -c '$python_code'`;
$output_buf =~ s/[\r\n]//g;
$output_buf = substr ($output_buf, 128); # remove the "garbage" from the start (encrypted salt)
return $output_buf;
}
sub serpent_decrypt
{
my $key_main = shift;
my $key_tweak = shift;
my $data = shift;
my $data_base64 = encode_base64 ($data, "");
my $python_code = <<'END_CODE';
from CryptoPlus.Cipher import python_Serpent
import base64
key1 = base64.b64decode (key_main)
key2 = base64.b64decode (key_tweak)
key = (key1, key2)
cipher = python_Serpent.new (key, python_Serpent.MODE_XTS)
sequence = b"\x01"
decrypted = cipher.decrypt (base64.b64decode (data), sequence)
print (decrypted.hex ())
END_CODE
# replace code with these values
$python_code =~ s/key_main/"$key_main"/;
$python_code =~ s/key_tweak/"$key_tweak"/;
$python_code =~ s/data/"$data_base64"/;
my $output_buf = `python3 -c '$python_code'`;
$output_buf =~ s/[\r\n]//g;
$output_buf = substr ($output_buf, 128); # remove the "garbage" from the start (encrypted salt)
$output_buf = pack ("H*", $output_buf);
return $output_buf;
}
sub verify_data
{
my $data = shift;
if (length ($data) < 16)
{
return 0;
}
if (substr ($data, 0, 4) ne "DCRP")
{
return 0;
}
my $flags = unpack ("H*", substr ($data, 8, 6));
if (($flags ne "020004000000") && ($flags ne "020005000000") && ($flags ne "020008000000"))
{
return 0;
}
return 1;
}
sub module_generate_hash
{
my $word = shift;
my $salt = shift;
my $data = shift // "";
my $iter = 1000;
my $pbkdf2 = Crypt::PBKDF2->new
(
hasher => Crypt::PBKDF2->hasher_from_algorithm ('HMACSHA2', 512),
iterations => $iter,
output_len => 192
);
my $word_utf16le = encode ("UTF-16LE", $word);
my $salt_bin = pack ("H*", $salt);
my $key = $pbkdf2->PBKDF2 ($salt_bin, $word_utf16le);
my $key1 = encode_base64 (substr ($key, 0, 32), "");
my $key2 = encode_base64 (substr ($key, 32, 32), "");
my $key3 = encode_base64 (substr ($key, 64, 32), "");
my $key4 = encode_base64 (substr ($key, 96, 32), "");
my $key5 = encode_base64 (substr ($key, 128, 32), "");
my $key6 = encode_base64 (substr ($key, 160, 32), "");
my $algo = random_number (1, 7);
my $diskcryptor_data = "";
$diskcryptor_data .= $salt_bin;
if (length ($data) == 0) # normal case
{
$diskcryptor_data .= "DCRP";
$diskcryptor_data .= random_bytes (4);
my $flags = random_number (1, 3);
if ($flags == 1)
{
$diskcryptor_data .= pack ("H*", "02000400");
}
elsif ($flags == 2)
{
$diskcryptor_data .= pack ("H*", "02000500");
}
else
{
$diskcryptor_data .= pack ("H*", "02000800");
}
$diskcryptor_data .= "\x00" x (2048 - length ($diskcryptor_data)); # fill it up to 2048 bytes
}
else # verify
{
# decrypt the data and verify:
$algo = 1;
my $output_buf = aes_decrypt ($key1, $key2, $data);
if (verify_data ($output_buf) == 0)
{
$algo = 2;
$output_buf = twofish_decrypt ($key1, $key2, $data);
if (verify_data ($output_buf) == 0)
{
$algo = 3;
$output_buf = serpent_decrypt ($key1, $key2, $data);
if (verify_data ($output_buf) == 0)
{
$algo = 4;
$output_buf = aes_decrypt ($key2, $key4, $data);
$output_buf = twofish_decrypt ($key1, $key3, $salt_bin . $output_buf);
if (verify_data ($output_buf) == 0)
{
$algo = 5;
$output_buf = twofish_decrypt ($key2, $key4, $data);
$output_buf = serpent_decrypt ($key1, $key3, $salt_bin . $output_buf);
if (verify_data ($output_buf) == 0)
{
$algo = 6;
$output_buf = serpent_decrypt ($key2, $key4, $data);
$output_buf = aes_decrypt ($key1, $key3, $salt_bin . $output_buf);
if (verify_data ($output_buf) == 0)
{
$algo = 7;
$output_buf = aes_decrypt ($key3, $key6, $data);
$output_buf = twofish_decrypt ($key2, $key5, $salt_bin . $output_buf);
$output_buf = serpent_decrypt ($key1, $key4, $salt_bin . $output_buf);
if (verify_data ($output_buf) == 0)
{
return;
}
}
}
}
}
}
}
$diskcryptor_data .= $output_buf;
}
my $hash_buf = "";
if ($algo == 1)
{
$hash_buf = aes_encrypt ($key1, $key2, $diskcryptor_data);
}
elsif ($algo == 2)
{
$hash_buf = twofish_encrypt ($key1, $key2, $diskcryptor_data);
}
elsif ($algo == 3)
{
$hash_buf = serpent_encrypt ($key1, $key2, $diskcryptor_data);
}
elsif ($algo == 4)
{
$hash_buf = twofish_encrypt ($key1, $key3, $diskcryptor_data);
$hash_buf = aes_encrypt ($key2, $key4, $salt_bin . pack ("H*", $hash_buf));
}
elsif ($algo == 5)
{
$hash_buf = serpent_encrypt ($key1, $key3, $diskcryptor_data);
$hash_buf = twofish_encrypt ($key2, $key4, $salt_bin . pack ("H*", $hash_buf));
}
elsif ($algo == 6)
{
$hash_buf = aes_encrypt ($key1, $key3, $diskcryptor_data);
$hash_buf = serpent_encrypt ($key2, $key4, $salt_bin . pack ("H*", $hash_buf));
}
else
{
$hash_buf = serpent_encrypt ($key1, $key4, $diskcryptor_data);
$hash_buf = twofish_encrypt ($key2, $key5, $salt_bin . pack ("H*", $hash_buf));
$hash_buf = aes_encrypt ($key3, $key6, $salt_bin . pack ("H*", $hash_buf));
}
my $hash = sprintf ("\$diskcryptor\$0*%s%s", $salt, $hash_buf);
return $hash;
}
sub module_verify_hash
{
my $line = shift;
my $index1 = index ($line, ":");
return if $index1 < 1;
my $hash_in = substr ($line, 0, $index1);
return unless (substr ($hash_in, 0, 13) eq "\$diskcryptor\$");
my $word = substr ($line, $index1 + 1);
my $index2 = index ($hash_in, "\*", 13);
return if $index2 < 1;
my $version = substr ($hash_in, 13, $index2 - 13);
return unless ($version eq "0");
my $data = substr ($hash_in, $index2 + 1);
return unless (length ($data) == 4096);
my $salt = substr ($data, 0, 128);
return unless defined $word;
$word = pack_if_HEX_notation ($word);
$data = pack ("H*", $data);
my $new_hash = module_generate_hash ($word, $salt, $data);
return ($new_hash, $word);
}
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