#!/usr/bin/env perl ## ## Author......: See docs/credits.txt ## License.....: MIT ## use strict; use warnings; use Crypt::Mode::ECB; use Crypt::PBKDF2; sub module_constraints { [[0, 256], [-1, -1], [-1, -1], [-1, -1], [-1, -1]] } sub module_generate_hash { my $word = shift; my $salt = shift; my $iter = shift // 20000; my $Z_PK = shift // 2; my $blob = shift; if (length $salt == 0) { $salt = random_hex_string (32); } my $salt_bin = pack ("H*", $salt); my $pbkdf2 = Crypt::PBKDF2->new ( hasher => Crypt::PBKDF2->hasher_from_algorithm ('HMACSHA2', 256), iterations => $iter, output_len => 32, ); my $KEK = $pbkdf2->PBKDF2 ($salt_bin, $word); my $aes = Crypt::Mode::ECB->new ('AES', 0); my $blob_bin; my $A; my $B; my $P1; my $P2; my $P3; my $P4; if (defined $blob) { $blob_bin = pack ("H*", $blob); $A = substr ($blob_bin, 0, 8); $P1 = substr ($blob_bin, 8, 8); $P2 = substr ($blob_bin, 16, 8); $P3 = substr ($blob_bin, 24, 8); $P4 = substr ($blob_bin, 32, 8); for (my $j = 5; $j >= 0; $j--) { # N = 4 $B = $A; $B ^= pack ("Q>", (4 * $j + 4)); $B .= $P4; $B = $aes->decrypt ($B, $KEK); $A = substr ($B, 0, 8); $P4 = substr ($B, 8, 8); # N = 3 $B = $A; $B ^= pack ("Q>", (4 * $j + 3)); $B .= $P3; $B = $aes->decrypt ($B, $KEK); $A = substr ($B, 0, 8); $P3 = substr ($B, 8, 8); # N = 2 $B = $A; $B ^= pack ("Q>", (4 * $j + 2)); $B .= $P2; $B = $aes->decrypt ($B, $KEK); $A = substr ($B, 0, 8); $P2 = substr ($B, 8, 8); # N = 1 $B = $A; $B ^= pack ("Q>", (4 * $j + 1)); $B .= $P1; $B = $aes->decrypt ($B, $KEK); $A = substr ($B, 0, 8); $P1 = substr ($B, 8, 8); } if ($A eq "\xa6" x 8) { for (my $j = 0; $j <= 5; $j++) { # N = 1 $B = $A; $B .= $P1; $B = $aes->encrypt ($B, $KEK); $A = substr ($B, 0, 8); $A ^= pack ("Q>", (4 * $j + 1)); $P1 = substr ($B, 8, 8); # N = 2 $B = $A; $B .= $P2; $B = $aes->encrypt ($B, $KEK); $A = substr ($B, 0, 8); $A ^= pack ("Q>", (4 * $j + 2)); $P2 = substr ($B, 8, 8); # N = 3 $B = $A; $B .= $P3; $B = $aes->encrypt ($B, $KEK); $A = substr ($B, 0, 8); $A ^= pack ("Q>", (4 * $j + 3)); $P3 = substr ($B, 8, 8); # N = 4 $B = $A; $B .= $P4; $B = $aes->encrypt ($B, $KEK); $A = substr ($B, 0, 8); $A ^= pack ("Q>", (4 * $j + 4)); $P4 = substr ($B, 8, 8); } $blob_bin = $A . $P1 . $P2 . $P3 . $P4; } else { $blob_bin = "\xff" x 40; } } else { $A = "\xa6" x 8; $P1 = "\xff" x 8; $P2 = "\xff" x 8; $P3 = "\xff" x 8; $P4 = "\xff" x 8; for (my $j = 0; $j <= 5; $j++) { # N = 1 $B = $A; $B .= $P1; $B = $aes->encrypt ($B, $KEK); $A = substr ($B, 0, 8); $A ^= pack ("Q>", (4 * $j + 1)); $P1 = substr ($B, 8, 8); # N = 2 $B = $A; $B .= $P2; $B = $aes->encrypt ($B, $KEK); $A = substr ($B, 0, 8); $A ^= pack ("Q>", (4 * $j + 2)); $P2 = substr ($B, 8, 8); # N = 3 $B = $A; $B .= $P3; $B = $aes->encrypt ($B, $KEK); $A = substr ($B, 0, 8); $A ^= pack ("Q>", (4 * $j + 3)); $P3 = substr ($B, 8, 8); # N = 4 $B = $A; $B .= $P4; $B = $aes->encrypt ($B, $KEK); $A = substr ($B, 0, 8); $A ^= pack ("Q>", (4 * $j + 4)); $P4 = substr ($B, 8, 8); } $blob_bin = $A . $P1 . $P2 . $P3 . $P4; } my $hash = sprintf ('$fvde$%d$%d$%s$%d$%s', $Z_PK, length ($salt_bin), unpack ("H*", $salt_bin), $iter, unpack ("H*", $blob_bin)); return $hash; } sub module_verify_hash { my $line = shift; my ($digest, $word) = split (':', $line); return unless defined $digest; return unless defined $word; my @data = split ('\$', $digest); return unless scalar @data == 7; shift @data; my $signature = shift @data; return unless ($signature eq 'fvde'); my $Z_PK = shift @data; return unless ($Z_PK eq '2'); my $salt_length = shift @data; return unless ($salt_length eq '16'); my ($ZCRYPTOSALT, $ZCRYPTOITERATIONCOUNT, $ZCRYPTOWRAPPEDKEY) = @data; my $salt = $ZCRYPTOSALT; my $iter = $ZCRYPTOITERATIONCOUNT; $word = pack_if_HEX_notation ($word); my $new_hash = module_generate_hash ($word, $ZCRYPTOSALT, $ZCRYPTOITERATIONCOUNT, $Z_PK, $ZCRYPTOWRAPPEDKEY); return ($new_hash, $word); } 1;