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267 lines
4.8 KiB
Perl
267 lines
4.8 KiB
Perl
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#!/usr/bin/env perl
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##
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## Author......: See docs/credits.txt
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## License.....: MIT
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##
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use strict;
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use warnings;
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use Digest::SHA qw (sha256);
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sub module_constraints { [[0, 256], [20, 20], [0, 15], [20, 20], [-1, -1]] }
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my $ITERATION_MULTIPLIER = 1000;
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sub module_generate_hash
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{
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my $word = shift;
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my $salt = shift;
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my $cost = shift // 5; # => cost * $ITERATION_MULTIPLIER
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my $lower = shift // 0;
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my $dgst = sha_crypts (\&sha256, 256, $word, $salt, $cost * $ITERATION_MULTIPLIER);
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my $salt_hex = unpack ("H*", $salt);
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my $dgst_hex = unpack ("H*", $dgst);
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# default for MySQL is upper-case hexadecimals:
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if ($lower == 0)
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{
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$salt_hex = uc ($salt_hex);
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$dgst_hex = uc ($dgst_hex);
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}
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my $hash = sprintf ("\$mysql\$A\$%03i*%s*%s",
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$cost,
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$salt_hex,
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$dgst_hex);
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return $hash;
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}
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sub module_verify_hash
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{
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my $line = shift;
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my $idx = index ($line, ':');
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return unless ($idx >= 0);
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my $hash = substr ($line, 0, $idx);
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my $word = substr ($line, $idx + 1);
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return unless defined $hash;
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return unless defined $word;
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return unless (substr ($hash, 0, 9) eq '$mysql$A$');
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$idx = index ($hash, '*');
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return unless ($idx == 12);
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# iter:
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my $cost_factor = substr ($hash, 9, 3);
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$cost_factor = int ($cost_factor);
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return unless ($cost_factor > 0);
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# salt:
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$idx = index ($hash, '*', 13);
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return unless ($idx == 53);
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my $salt = substr ($hash, 13, 40);
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$salt = pack ("H*", $salt);
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# check for lower/upper case:
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my $digest = substr ($hash, 54);
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my $is_lower = 0;
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$is_lower = 1 if (uc ($digest) ne $digest);
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# verify:
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$word = pack_if_HEX_notation ($word);
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my $new_hash = module_generate_hash ($word, $salt, $cost_factor, $is_lower);
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return ($new_hash, $word);
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}
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# This is a modified sha_crypts () function of pass_gen.pl from
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# https://github.com/magnumripper/JohnTheRipper/blob/bleeding-jumbo/run/pass_gen.pl
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# Copyright: https://github.com/magnumripper/JohnTheRipper/blob/bleeding-jumbo/doc/pass_gen.Manifest
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# public domain
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# written by Jim Fougeron
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# updated for new MySQL hashes by philsmd
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# modified date: February 2020
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# license: public domain
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my @i64 = ('.', '/', '0'..'9', 'A'..'Z', 'a'..'z');
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sub to64
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{
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my $v = shift;
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my $n = shift;
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my $str;
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while (--$n >= 0)
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{
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$str .= $i64[$v & 0x3F];
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$v >>= 6;
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}
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return $str;
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}
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sub sha_crypts
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{
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my ($func, $bits, $key, $salt, $loops) = @_;
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my $bytes = $bits / 8;
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my $b = $func->($key . $salt . $key);
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# Add for any character in the key one byte of the alternate sum.
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my $tmp = $key . $salt;
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for (my $i = length ($key); $i > 0; $i -= $bytes)
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{
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if ($i > $bytes)
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{
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$tmp .= $b;
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}
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else
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{
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$tmp .= substr ($b, 0, $i);
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}
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}
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# Take the binary representation of the length of the key and for every 1 add the alternate sum, for every 0 the key.
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for (my $i = length ($key); $i > 0; $i >>= 1)
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{
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if (($i & 1) != 0)
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{
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$tmp .= $b;
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}
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else
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{
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$tmp .= $key;
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}
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}
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my $a = $func->($tmp);
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# NOTE, this will be the 'initial' $c value in the inner loop.
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# For every character in the password add the entire password. produces DP
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$tmp = "";
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for (my $i = 0; $i < length ($key); $i++)
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{
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$tmp .= $key;
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}
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my $dp = $func->($tmp);
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# Create byte sequence P
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my $p = "";
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for (my $i = length ($key); $i > 0; $i -= $bytes)
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{
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if ($i > $bytes)
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{
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$p .= $dp;
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}
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else
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{
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$p .= substr ($dp, 0, $i);
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}
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}
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# produce ds
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$tmp = "";
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my $til = 16 + ord (substr ($a, 0, 1));
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for (my $i = 0; $i < $til; $i++)
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{
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$tmp .= $salt;
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}
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my $ds = $func->($tmp);
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# Create byte sequence S
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my $s = "";
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for (my $i = length ($salt); $i > 0; $i -= $bytes)
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{
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if ($i > $bytes)
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{
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$s .= $ds;
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}
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else
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{
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$s .= substr ($ds, 0, $i);
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}
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}
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my $c = $a; # Ok, we saved this, which will 'seed' our crypt value here in the loop.
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# now we do 5000 iterations of SHA2 (256 or 512)
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for (my $i = 0; $i < $loops; $i++)
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{
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if ($i & 1) { $tmp = $p; }
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else { $tmp = $c; }
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if ($i % 3) { $tmp .= $s; }
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if ($i % 7) { $tmp .= $p; }
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if ($i & 1) { $tmp .= $c; }
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else { $tmp .= $p; }
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$c = $func->($tmp);
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}
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my $inc1; my $inc2; my $mod; my $end;
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if ($bits == 256) { $inc1 = 10; $inc2 = 21; $mod = 30; $end = 0; }
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else { $inc1 = 21; $inc2 = 22; $mod = 63; $end = 21; }
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my $i = 0;
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$tmp = "";
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do
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{
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$tmp .= to64 ((ord (substr ($c, $i, 1)) << 16) | (ord (substr ($c, ($i + $inc1) % $mod, 1)) << 8) | ord (substr ($c, ($i + $inc1 * 2) % $mod, 1)), 4);
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$i = ($i + $inc2) % $mod;
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} while ($i != $end);
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if ($bits == 256) { $tmp .= to64 ((ord (substr ($c, 31, 1)) << 8) | ord (substr ($c, 30, 1)), 3); }
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else { $tmp .= to64 (ord (substr ($c, 63, 1)), 2); }
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return $tmp;
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}
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1;
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