permute($key, $this->perm1, 56); $c = array(); $d = array(); for ($i = 0; $i < 28; $i++) { $c[$i] = $pk1[$i]; $d[$i] = $pk1[28 + $i]; } for ($i = 0; $i < 16; $i++) { $c = $this->lshift($this->sc[$i], $c); $d = $this->lshift($this->sc[$i], $d); $cd = $c; for ($k = 0; $k < sizeof($d); $k++) $cd[] = $d[$k]; $ki[$i] = $this->permute($cd, $this->perm2, 48); } $pd1 = $this->permute($in, $this->perm3, 64); $l = array(); $r = array(); for ($i = 0; $i < 32; $i++) { $l[$i] = $pd1[$i]; $r[$i] = $pd1[32 + $i]; } for ($i = 0; $i < 16; $i++) { $er = $this->permute($r, $this->perm4, 48); if ($forw) $erk = $this->mxor($er, $ki[$i]); else $erk = $this->mxor($er, $ki[15 - $i]); for ($j = 0; $j < 8; $j++) { for ($k = 0; $k < 6; $k++) { $b[$j][$k] = $erk[($j * 6) + $k]; } } for ($j = 0; $j < 8; $j++) { $m = array(); $n = array(); $m = ($b[$j][0] << 1) | $b[$j][5]; $n = ($b[$j][1] << 3) | ($b[$j][2] << 2) | ($b[$j][3] << 1) | $b[$j][4]; for ($k = 0; $k < 4; $k++) { $b[$j][$k]=($this->sbox[$j][$m][$n] & (1 << (3-$k)))?1:0; } } for ($j = 0; $j < 8; $j++) { for ($k = 0; $k < 4; $k++) { $cb[($j * 4) + $k] = $b[$j][$k]; } } $pcb = $this->permute($cb, $this->perm5, 32); $r2 = $this->mxor($l, $pcb); for ($k = 0; $k < 32; $k++) $l[$k] = $r[$k]; for ($k = 0; $k < 32; $k++) $r[$k] = $r2[$k]; } $rl = $r; for ($i = 0; $i < sizeof($l); $i++) $rl[] = $l[$i]; return $this->permute($rl, $this->perm6, 64); } /** * str_to_key * * @param string $str * @return string key */ private function str_to_key($str) { $key[0] = $this->unsigned_shift_r($str[0], 1); $key[1] = (($str[0]&0x01)<<6) | $this->unsigned_shift_r($str[1], 2); $key[2] = (($str[1]&0x03)<<5) | $this->unsigned_shift_r($str[2], 3); $key[3] = (($str[2]&0x07)<<4) | $this->unsigned_shift_r($str[3], 4); $key[4] = (($str[3]&0x0F)<<3) | $this->unsigned_shift_r($str[4], 5); $key[5] = (($str[4]&0x1F)<<2) | $this->unsigned_shift_r($str[5], 6); $key[6] = (($str[5]&0x3F)<<1) | $this->unsigned_shift_r($str[6], 7); $key[7] = $str[6]&0x7F; for ($i = 0; $i < 8; $i++) { $key[$i] = ($key[$i] << 1); } return $key; } /** * smb_hash * * @param unknown_type $in * @param unknown_type $key * @param unknown_type $forw * @return unknown */ private function smb_hash($in, $key, $forw){ $key2 = $this->str_to_key($key); for ($i = 0; $i < 64; $i++) { $inb[$i] = ($in[$i/8] & (1<<(7-($i%8)))) ? 1:0; $keyb[$i] = ($key2[$i/8] & (1<<(7-($i%8)))) ? 1:0; $outb[$i] = 0; } $outb = $this->dohash($inb, $keyb, $forw); for ($i = 0; $i < 8; $i++) { $out[$i] = 0; } for ($i = 0; $i < 64; $i++) { if ( $outb[$i] ) { $out[$i/8] |= (1<<(7-($i%8))); } } return $out; } /** * E_P16 * * @param unknown_type $in * @return unknown */ private function E_P16($in) { $p14 = array_values(unpack("C*",$in)); $sp8 = array(0x4b, 0x47, 0x53, 0x21, 0x40, 0x23, 0x24, 0x25); $p14_1 = array(); $p14_2 = array(); for ($i = 0; $i < 7; $i++) { $p14_1[$i] = $p14[$i]; $p14_2[$i] = $p14[$i + 7]; } $p16_1 = $this->smb_hash($sp8, $p14_1, true); $p16_2 = $this->smb_hash($sp8, $p14_2, true); $p16 = $p16_1; for ($i = 0; $i < sizeof($p16_2); $i++) { $p16[] = $p16_2[$i]; } return $p16; } /** * Calculates the LM hash of a given password. * * @param string $password password * @return string hash value */ public function lmhash($password = "") { $password = strtoupper($password); $password = substr($password,0,14); $password = str_pad($password, 14, chr(0)); $p16 = $this->E_P16($password); for ($i = 0; $i < sizeof($p16); $i++) { $p16[$i] = sprintf("%02X", $p16[$i]); } return join("", $p16); } /** * Calculates the NT hash of a given password. * * @param string $password password * @return string hash value */ public function nthash($password = "") { return strtoupper(hash('md4', convertUtf8ToUtf16Le($password))); } /** * Unsigned shift operation for 32bit values. * * PHP 4 only supports signed shifts by default. */ private function unsigned_shift_r($a, $b) { $z = 0x80000000; if ($z & $a) { $a = ($a >> 1); $a &= (~$z); $a |= 0x40000000; $a = ($a >> ($b - 1)); } else { $a = ($a >> $b); } return $a; } } ?>