* @copyright 2005 Matthew Fonda * @license http://www.php.net/license/3_0.txt PHP License 3.0 * @link http://pear.php.net/package/Crypt_Blowfish */ /** * * Example usage: * $bf = new Crypt_Blowfish('some secret key!'); * $encrypted = $bf->encrypt('this is some example plain text'); * $plaintext = $bf->decrypt($encrypted); * echo "plain text: $plaintext"; * * * @category Encryption * @package Crypt_Blowfish * @author Matthew Fonda * @copyright 2005 Matthew Fonda * @license http://www.php.net/license/3_0.txt PHP License 3.0 * @link http://pear.php.net/package/Crypt_Blowfish * @version @package_version@ * @access public */ class Crypt_Blowfish { /** * P-Array contains 18 32-bit subkeys * * @var array * @access private */ var $_P = array(); /** * Array of four S-Blocks each containing 256 32-bit entries * * @var array * @access private */ var $_S = array(); /** * Mcrypt td resource * * @var resource * @access private */ var $_td = null; /** * Initialization vector * * @var string * @access private */ var $_iv = null; /** * Crypt_Blowfish Constructor * Initializes the Crypt_Blowfish object, and gives a sets * the secret key * * @param string $key * @access public */ function Crypt_Blowfish($key) { /* if (extension_loaded('mcrypt')) { $this->_td = mcrypt_module_open(MCRYPT_BLOWFISH, '', 'ecb', ''); $this->_iv = mcrypt_create_iv(8, MCRYPT_RAND); } */ $this->setKey($key); } /** * Deprecated isReady method * * @return bool * @access public * @deprecated */ function isReady() { return true; } /** * Deprecated init method - init is now a private * method and has been replaced with _init * * @return bool * @access public * @deprecated * @see Crypt_Blowfish::_init() */ function init() { $this->_init(); } /** * Initializes the Crypt_Blowfish object * * @access private */ function _init() { $defaults = new Crypt_Blowfish_DefaultKey(); $this->_P = $defaults->P; $this->_S = $defaults->S; } /** * Enciphers a single 64 bit block * * @param int &$Xl * @param int &$Xr * @access private */ function _encipher(&$Xl, &$Xr) { for ($i = 0; $i < 16; $i++) { $temp = $Xl ^ $this->_P[$i]; $Xl = ((($this->_S[0][($temp>>24) & 255] + $this->_S[1][($temp>>16) & 255]) ^ $this->_S[2][($temp>>8) & 255]) + $this->_S[3][$temp & 255]) ^ $Xr; $Xr = $temp; } $Xr = $Xl ^ $this->_P[16]; $Xl = $temp ^ $this->_P[17]; } /** * Deciphers a single 64 bit block * * @param int &$Xl * @param int &$Xr * @access private */ function _decipher(&$Xl, &$Xr) { for ($i = 17; $i > 1; $i--) { $temp = $Xl ^ $this->_P[$i]; $Xl = ((($this->_S[0][($temp>>24) & 255] + $this->_S[1][($temp>>16) & 255]) ^ $this->_S[2][($temp>>8) & 255]) + $this->_S[3][$temp & 255]) ^ $Xr; $Xr = $temp; } $Xr = $Xl ^ $this->_P[1]; $Xl = $temp ^ $this->_P[0]; } /** * Encrypts a string * * @param string $plainText * @return string Returns cipher text on success, PEAR_Error on failure * @access public */ function encrypt($plainText) { if (!is_string($plainText)) { $GLOBALS['log']->fatal('Plain text must be a string'); } /* if (extension_loaded('mcrypt')) { return mcrypt_generic($this->_td, $plainText); } */ $cipherText = ''; $len = strlen($plainText); $plainText .= str_repeat(chr(0),(8 - ($len%8))%8); for ($i = 0; $i < $len; $i += 8) { list(,$Xl,$Xr) = unpack("N2",substr($plainText,$i,8)); $this->_encipher($Xl, $Xr); $cipherText .= pack("N2", $Xl, $Xr); } return $cipherText; } /** * Decrypts an encrypted string * * @param string $cipherText * @return string Returns plain text on success, PEAR_Error on failure * @access public */ function decrypt($cipherText) { if (!is_string($cipherText)) { $GLOBALS['log']->fatal('Chiper text must be a string'); } /* if (extension_loaded('mcrypt')) { return mdecrypt_generic($this->_td, $cipherText); } */ $plainText = ''; $len = strlen($cipherText); $cipherText .= str_repeat(chr(0),(8 - ($len%8))%8); for ($i = 0; $i < $len; $i += 8) { list(,$Xl,$Xr) = unpack("N2",substr($cipherText,$i,8)); $this->_decipher($Xl, $Xr); $plainText .= pack("N2", $Xl, $Xr); } return $plainText; } /** * Sets the secret key * The key must be non-zero, and less than or equal to * 56 characters in length. * * @param string $key * @return bool Returns true on success, PEAR_Error on failure * @access public */ function setKey($key) { if (!is_string($key)) { $GLOBALS['log']->fatal('Key must be a string'); } $len = strlen($key); if ($len > 56 || $len == 0) { $GLOBALS['log']->fatal('Key must be less than 56 characters and non-zero. Supplied key length: ' . $len); } /* if (extension_loaded('mcrypt')) { mcrypt_generic_init($this->_td, $key, $this->_iv); return true; } */ require_once 'include/Pear/Crypt_Blowfish/Blowfish/DefaultKey.php'; $this->_init(); $k = 0; $data = 0; $datal = 0; $datar = 0; for ($i = 0; $i < 18; $i++) { $data = 0; for ($j = 4; $j > 0; $j--) { $data = $data << 8 | ord($key{$k}); $k = ($k+1) % $len; } $this->_P[$i] ^= $data; } for ($i = 0; $i <= 16; $i += 2) { $this->_encipher($datal, $datar); $this->_P[$i] = $datal; $this->_P[$i+1] = $datar; } for ($i = 0; $i < 256; $i += 2) { $this->_encipher($datal, $datar); $this->_S[0][$i] = $datal; $this->_S[0][$i+1] = $datar; } for ($i = 0; $i < 256; $i += 2) { $this->_encipher($datal, $datar); $this->_S[1][$i] = $datal; $this->_S[1][$i+1] = $datar; } for ($i = 0; $i < 256; $i += 2) { $this->_encipher($datal, $datar); $this->_S[2][$i] = $datal; $this->_S[2][$i+1] = $datar; } for ($i = 0; $i < 256; $i += 2) { $this->_encipher($datal, $datar); $this->_S[3][$i] = $datal; $this->_S[3][$i+1] = $datar; } return true; } } ?>