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hashcat/tools/test_modules/m02500.pm
2019-02-16 16:04:37 +01:00

501 lines
9.4 KiB
Perl

#!/usr/bin/env perl
##
## Author......: See docs/credits.txt
## License.....: MIT
##
use strict;
use warnings;
use Crypt::PBKDF2;
use Digest::CMAC;
use Digest::MD5 qw (md5);
use Digest::SHA qw (sha1 sha256);
use Digest::HMAC qw (hmac);
use MIME::Base64 qw (encode_base64);
sub module_constraints { [[8, 63], [0, 32], [-1, -1], [-1, -1], [-1, -1]] }
sub module_generate_hash
{
my $word = shift;
my $salt = shift;
my $bssid = random_bytes (6);
my $stmac = random_bytes (6);
my $snonce = random_bytes (32);
my $anonce = random_bytes (32);
my $keyver = random_number (1, 3); # 1, 2 or 3
# eapol:
# should be "validly" generated, but in theory could be anything for us also:
# $eapol = "\x00" x 121; # works too, but let's generate it correctly
my $eapol = gen_random_wpa_eapol ($keyver, $snonce);
my $eapol_len = length ($eapol);
# constants
my $iterations = 4096;
#
# START
#
# generate the Pairwise Master Key (PMK)
my $pbkdf2 = Crypt::PBKDF2->new
(
hash_class => 'HMACSHA1',
iterations => $iterations,
output_len => 32,
);
my $pmk = $pbkdf2->PBKDF2 ($salt, $word);
# Pairwise Transient Key (PTK) transformation
my $ptk = wpa_prf_512 ($keyver, $pmk, $stmac, $bssid, $snonce, $anonce);
# generate the Message Integrity Code (MIC)
my $mic = "";
if ($keyver == 1) # WPA1 => MD5
{
$mic = hmac ($eapol, $ptk, \&md5);
}
elsif ($keyver == 2) # WPA2 => SHA1
{
$mic = hmac ($eapol, $ptk, \&sha1);
}
elsif ($keyver == 3) # WPA2 => SHA256 + AES-CMAC
{
my $omac1 = Digest::CMAC->new ($ptk, 'Crypt::Rijndael');
$omac1->add ($eapol);
$mic = $omac1->digest;
}
$mic = substr ($mic, 0, 16);
#
# format the binary output
#
my $HCCAPX_VERSION = 4;
# signature
my $hash_buf = "HCPX";
# format version
$hash_buf .= pack ("L<", $HCCAPX_VERSION);
# authenticated
$hash_buf .= pack ("C", 0);
# essid length
my $essid_len = length ($salt);
$hash_buf .= pack ("C", $essid_len);
# essid (NULL-padded up to the first 32 bytes)
$hash_buf .= $salt;
$hash_buf .= "\x00" x (32 - $essid_len);
# key version
$hash_buf .= pack ("C", $keyver);
# key mic
$hash_buf .= $mic;
# access point MAC
$hash_buf .= $bssid;
# access point nonce
$hash_buf .= $snonce;
# client MAC
$hash_buf .= $stmac;
# client nonce
$hash_buf .= $anonce;
# eapol length
$hash_buf .= pack ("S<", $eapol_len);
# eapol
$hash_buf .= $eapol;
$hash_buf .= "\x00" x (256 - $eapol_len);
# base64 encode the output
my $hash = encode_base64 ($hash_buf, "");
return $hash;
}
sub module_verify_hash
{
print "ERROR: verify currently not supported for WPA-EAPOL-PBKDF2 (because of hashcat's output format)\n";
exit (1);
}
sub gen_random_wpa_eapol
{
my $keyver = shift;
my $snonce = shift;
my $ret = "";
# version
my $version = 1; # 802.1X-2001
$ret .= pack ("C*", $version);
my $type = 3; # means that this EAPOL frame is used to transfer key information
$ret .= pack ("C*", $type);
my $length; # length of remaining data
if ($keyver == 1)
{
$length = 119;
}
else
{
$length = 117;
}
$ret .= pack ("n*", $length);
my $descriptor_type;
if ($keyver == 1)
{
$descriptor_type = 254; # EAPOL WPA key
}
else
{
$descriptor_type = 1; # EAPOL RSN key
}
$ret .= pack ("C*", $descriptor_type);
# key_info is a bit vector:
# generated from these 13 bits: encrypted key data, request, error, secure, key mic, key ack, install, key index (2), key type, key descriptor (3)
my $key_info = 0;
$key_info |= 1 << 8; # set key MIC
$key_info |= 1 << 3; # set if it is a pairwise key
if ($keyver == 1)
{
$key_info |= 1 << 0; # RC4 Cipher, HMAC-MD5 MIC
}
else
{
$key_info |= 1 << 1; # AES Cipher, HMAC-SHA1 MIC
}
$ret .= pack ("n*", $key_info);
my $key_length;
if ($keyver == 1)
{
$key_length = 32;
}
else
{
$key_length = 0;
}
$ret .= pack ("n*", $key_length);
my $replay_counter = 1;
$ret .= pack ("Q>*", $replay_counter);
$ret .= $snonce;
my $key_iv = "\x00" x 16;
$ret .= $key_iv;
my $key_rsc = "\x00" x 8;
$ret .= $key_rsc;
my $key_id = "\x00" x 8;
$ret .= $key_id;
my $key_mic = "\x00" x 16;
$ret .= $key_mic;
my $key_data_len;
if ($keyver == 1)
{
$key_data_len = 24; # length of the key_data (== WPA info)
}
else
{
$key_data_len = 22; # length of the key_data (== RSN info)
}
$ret .= pack ("n*", $key_data_len);
my $key_data = "";
if ($keyver == 1)
{
# wpa info
my $wpa_info = "";
my $vendor_specific_data = "";
my $tag_number = 221; # means it is a vendor specific tag
$vendor_specific_data .= pack ("C*", $tag_number);
my $tag_len = 22; # length of the remaining "tag data"
$vendor_specific_data .= pack ("C*", $tag_len);
my $vendor_specific_oui = pack ("H*", "0050f2"); # microsoft
$vendor_specific_data .= $vendor_specific_oui;
my $vendor_specific_oui_type = 1; # WPA Information Element
$vendor_specific_data .= pack ("C*", $vendor_specific_oui_type);
my $vendor_specific_wpa_version = 1;
$vendor_specific_data .= pack ("v*", $vendor_specific_wpa_version);
# multicast
my $vendor_specific_multicast_oui = pack ("H*", "0050f2");
$vendor_specific_data .= $vendor_specific_multicast_oui;
my $vendor_specific_multicast_type = 2; # TKIP
$vendor_specific_data .= pack ("C*", $vendor_specific_multicast_type);
# unicast
my $vendor_specific_unicast_count = 1;
$vendor_specific_data .= pack ("v*", $vendor_specific_unicast_count);
my $vendor_specific_unicast_oui = pack ("H*", "0050f2");
$vendor_specific_data .= $vendor_specific_unicast_oui;
my $vendor_specific_unicast_type = 2; # TKIP
$vendor_specific_data .= pack ("C*", $vendor_specific_unicast_type);
# Auth Key Management (AKM)
my $auth_key_management_count = 1;
$vendor_specific_data .= pack ("v*", $auth_key_management_count);
my $auth_key_management_oui = pack ("H*", "0050f2");
$vendor_specific_data .= $auth_key_management_oui;
my $auth_key_management_type = 2; # Pre-Shared Key (PSK)
$vendor_specific_data .= pack ("C*", $auth_key_management_type);
$wpa_info = $vendor_specific_data;
$key_data = $wpa_info;
}
else
{
# rsn info
my $rsn_info = "";
my $tag_number = 48; # RSN info
$rsn_info .= pack ("C*", $tag_number);
my $tag_len = 20; # length of the remaining "tag_data"
$rsn_info .= pack ("C*", $tag_len);
my $rsn_version = 1;
$rsn_info .= pack ("v*", $rsn_version);
# group cipher suite
my $group_cipher_suite_oui = pack ("H*", "000fac"); # Ieee8021
$rsn_info .= $group_cipher_suite_oui;
my $group_cipher_suite_type = 4; # AES (CCM)
$rsn_info .= pack ("C*", $group_cipher_suite_type);
# pairwise cipher suite
my $pairwise_cipher_suite_count = 1;
$rsn_info .= pack ("v*", $pairwise_cipher_suite_count);
my $pairwise_cipher_suite_oui = pack ("H*", "000fac"); # Ieee8021
$rsn_info .= $pairwise_cipher_suite_oui;
my $pairwise_cipher_suite_type = 4; # AES (CCM)
$rsn_info .= pack ("C*", $pairwise_cipher_suite_type);
# Auth Key Management (AKM)
my $auth_key_management_count = 1;
$rsn_info .= pack ("v*", $auth_key_management_count);
my $auth_key_management_oui = pack ("H*", "000fac"); # Ieee8021
$rsn_info .= $auth_key_management_oui;
my $auth_key_management_type = 2; # Pre-Shared Key (PSK)
$rsn_info .= pack ("C*", $auth_key_management_type);
# RSN Capabilities
# bit vector of these 9 bits: peerkey enabled, management frame protection (MFP) capable, MFP required,
# RSN GTKSA Capabilities (2), RSN PTKSA Capabilities (2), no pairwise Capabilities, Pre-Auth Capabilities
my $rsn_capabilities = pack ("H*", "0000");
$rsn_info .= $rsn_capabilities;
$key_data = $rsn_info;
}
$ret .= $key_data;
return $ret;
}
sub wpa_prf_512
{
my $keyver = shift;
my $pmk = shift;
my $stmac = shift;
my $bssid = shift;
my $snonce = shift;
my $anonce = shift;
my $data = "Pairwise key expansion";
if (($keyver == 1) || ($keyver == 2))
{
$data .= "\x00";
}
#
# Min(AA, SPA) || Max(AA, SPA)
#
# compare if greater: Min()/Max() on the MACs (6 bytes)
if (memcmp ($stmac, $bssid, 6) < 0)
{
$data .= $stmac;
$data .= $bssid;
}
else
{
$data .= $bssid;
$data .= $stmac;
}
#
# Min(ANonce,SNonce) || Max(ANonce,SNonce)
#
# compare if greater: Min()/Max() on the nonces (32 bytes)
if (memcmp ($snonce, $anonce, 32) < 0)
{
$data .= $snonce;
$data .= $anonce;
}
else
{
$data .= $anonce;
$data .= $snonce;
}
my $prf_buf;
if (($keyver == 1) || ($keyver == 2))
{
$data .= "\x00";
$prf_buf = hmac ($data, $pmk, \&sha1);
}
else
{
my $data3 = "\x01\x00" . $data . "\x80\x01";
$prf_buf = hmac ($data3, $pmk, \&sha256);
}
$prf_buf = substr ($prf_buf, 0, 16);
return $prf_buf;
}
sub memcmp
{
my $str1 = shift;
my $str2 = shift;
my $len = shift;
my $len_str1 = length ($str1);
my $len_str2 = length ($str2);
if (($len > $len_str1) || ($len > $len_str2))
{
print "ERROR: memcmp () lengths wrong";
exit (1);
}
for (my $i = 0; $i < $len; $i++)
{
my $c_1 = ord (substr ($str1, $i, 1));
my $c_2 = ord (substr ($str2, $i, 1));
return -1 if ($c_1 < $c_2);
return 1 if ($c_1 > $c_2);
}
return 0;
}
1;