system/libraries/Encrypt.php - code-igniter-v3-giggi - Gitiles

 <?php  if (!defined('BASEPATH')) exit('No direct script access allowed');
 /**
  * Code Igniter
  *
  * An open source application development framework for PHP 4.3.2 or newer
  *
  * @package		CodeIgniter
  * @author		Rick Ellis
  * @copyright	Copyright (c) 2006, pMachine, Inc.
  * @license		http://www.codeignitor.com/user_guide/license.html
  * @link		http://www.codeigniter.com
  * @since		Version 1.0
  * @filesource
  */

 // ------------------------------------------------------------------------

 /**
  * Code Igniter Encryption Class
  *
  * Provides two-way keyed encoding using XOR Hashing and Mcrypt
  *
  * @package		CodeIgniter
  * @subpackage	Libraries
  * @category	Libraries
  * @author		Rick Ellis
  * @link		http://www.codeigniter.com/user_guide/libraries/encryption.html
  */
 class CI_Encrypt {
 	var $_hash_type	= 'sha1';
 	var $_mcrypt_exists = FALSE;
 	var $_mcrypt_cipher;
 	var $_mcrypt_mode;

 	/**
 	 * Constructor
 	 *
 	 * Simply determines whether the mcrypt library exists.
 	 *
 	 */
 	function CI_Encrypt()
 	{
 		$this->_mcrypt_exists = ( ! function_exists('mcrypt_encrypt')) ? FALSE : TRUE;
 		log_message('debug', "Encrypt Class Initialized");
 	}
   	// END CI_Encrypt()

 	// --------------------------------------------------------------------

 	/**
 	 * Fetch the encryption key
 	 *
 	 * Returns it as MD5 in order to have an exact-length 128 bit key.
 	 * Mcrypt is sensitive to keys that are not the correct length
 	 *
 	 * @access	public
 	 * @param	string
 	 * @return	string
 	 */
 	function get_key($key = '')
 	{
 		if ($key == '')
 		{
 			$obj =& get_instance();
 			$key = $obj->config->item('encryption_key');

 			if ($key === FALSE)
 			{
 				show_error('In order to use the encryption class requires that you set an encryption key in your config file.');
 			}
 		}

 		return md5($key);
 	}
   	// END get_key()

 	// --------------------------------------------------------------------

 	/**
 	 * Encode
 	 *
 	 * Encodes the message string using bitwise XOR encoding.
 	 * The key is combined with a random hash, and then it
 	 * too gets converted using XOR. The whole thing is then run
 	 * through mcrypt (if supported) using the randomized key.
 	 * The end result is a double-encrypted message string
 	 * that is randomized with each call to this function,
 	 * even if the supplied message and key are the same.
 	 *
 	 * @access	public
 	 * @param	string	the string to encode
 	 * @param	string	the key
 	 * @return	string
 	 */
 	function encode($string, $key = '')
 	{
 		$key = $this->get_key($key);
 		$enc = $this->_xor_encode($string, $key);

 		if ($this->_mcrypt_exists === TRUE)
 		{
 			$enc = $this->mcrypt_encode($enc, $key);
 		}
 		return base64_encode($enc);
 	}
   	// END encode()

 	// --------------------------------------------------------------------

 	/**
 	 * Decode
 	 *
 	 * Reverses the above process
 	 *
 	 * @access	public
 	 * @param	string
 	 * @param	string
 	 * @return	string
 	 */
 	function decode($string, $key = '')
 	{
 		$key = $this->get_key($key);
 		$dec = base64_decode($string);

 		 if ($dec === FALSE)
 		 {
 		 	return FALSE;
 		 }

 		if ($this->_mcrypt_exists === TRUE)
 		{
 			$dec = $this->mcrypt_decode($dec, $key);
 		}

 		return $this->_xor_decode($dec, $key);
 	}
   	// END decode()

 	// --------------------------------------------------------------------

 	/**
 	 * XOR Encode
 	 *
 	 * Takes a plain-text string and key as input and generates an
 	 * encoded bit-string using XOR
 	 *
 	 * @access	private
 	 * @param	string
 	 * @param	string
 	 * @return	string
 	 */
 	function _xor_encode($string, $key)
 	{
 		$rand = '';
 		while (strlen($rand) < 32)
 		{
 			$rand .= mt_rand(0, mt_getrandmax());
 		}

 		$rand = $this->hash($rand);

 		$enc = '';
 		for ($i = 0; $i < strlen($string); $i++)
 		{
 			$enc .= substr($rand, ($i % strlen($rand)), 1).(substr($rand, ($i % strlen($rand)), 1) ^ substr($string, $i, 1));
 		}

 		return $this->_xor_merge($enc, $key);
 	}
   	// END _xor_encode()

 	// --------------------------------------------------------------------

 	/**
 	 * XOR Decode
 	 *
 	 * Takes an encoded string and key as input and generates the
 	 * plain-text original message
 	 *
 	 * @access	private
 	 * @param	string
 	 * @param	string
 	 * @return	string
 	 */
 	function _xor_decode($string, $key)
 	{
 		$string = $this->_xor_merge($string, $key);

 		$dec = '';
 		for ($i = 0; $i < strlen($string); $i++)
 		{
 			$dec .= (substr($string, $i++, 1) ^ substr($string, $i, 1));
 		}

 		return $dec;
 	}
   	// END _xor_decode()

 	// --------------------------------------------------------------------

 	/**
 	 * XOR key + string Combiner
 	 *
 	 * Takes a string and key as input and computes the difference using XOR
 	 *
 	 * @access	private
 	 * @param	string
 	 * @param	string
 	 * @return	string
 	 */
 	function _xor_merge($string, $key)
 	{
 		$hash = $this->hash($key);
 		$str = '';
 		for ($i = 0; $i < strlen($string); $i++)
 		{
 			$str .= substr($string, $i, 1) ^ substr($hash, ($i % strlen($hash)), 1);
 		}

 		return $str;
 	}
   	// END _xor_merge()

 	// --------------------------------------------------------------------

 	/**
 	 * Encrypt using Mcrypt
 	 *
 	 * @access	public
 	 * @param	string
 	 * @param	string
 	 * @return	string
 	 */
 	function mcrypt_encode($data, $key)
 	{
 		$this->_get_mcrypt();
 		$init_size = mcrypt_get_iv_size($this->_mcrypt_cipher, $this->_mcrypt_mode);
 		$init_vect = mcrypt_create_iv($init_size, MCRYPT_RAND);
 		return mcrypt_encrypt($this->_mcrypt_cipher, $key, $data, $this->_mcrypt_mode, $init_vect);
 	}
   	// END mcrypt_encode()

 	// --------------------------------------------------------------------

 	/**
 	 * Decrypt using Mcrypt
 	 *
 	 * @access	public
 	 * @param	string
 	 * @param	string
 	 * @return	string
 	 */
 	function mcrypt_decode($data, $key)
 	{
 		$this->_get_mcrypt();
 		$init_size = mcrypt_get_iv_size($this->_mcrypt_cipher, $this->_mcrypt_mode);
 		$init_vect = mcrypt_create_iv($init_size, MCRYPT_RAND);
 		return rtrim(mcrypt_decrypt($this->_mcrypt_cipher, $key, $data, $this->_mcrypt_mode, $init_vect), "\0");
 	}
   	// END mcrypt_decode()

 	// --------------------------------------------------------------------

 	/**
 	 * Set the Mcrypt Cypher
 	 *
 	 * @access	public
 	 * @param	constant
 	 * @return	string
 	 */
 	function set_cypher($cypher)
 	{
 		$this->_mcrypt_cipher = $cypher;
 	}
   	// END set_cypher()

 	// --------------------------------------------------------------------

 	/**
 	 * Set the Mcrypt Mode
 	 *
 	 * @access	public
 	 * @param	constant
 	 * @return	string
 	 */
 	function set_mode($mode)
 	{
 		$this->_mcrypt_mode = $mode;
 	}
   	// END set_mode()

 	// --------------------------------------------------------------------

 	/**
 	 * Get Mcrypt value
 	 *
 	 * @access	private
 	 * @param	string
 	 * @return	string
 	 */
 	function _get_mcrypt()
 	{
 		if ($this->_mcrypt_cipher == '')
 		{
 			$this->_mcrypt_cipher = MCRYPT_RIJNDAEL_256;
 		}
 		if ($this->_mcrypt_mode == '')
 		{
 			$this->_mcrypt_mode = MCRYPT_MODE_ECB;
 		}
 	}
   	// END _get_mcrypt()

 	// --------------------------------------------------------------------

 	/**
 	 * Set the Hash type
 	 *
 	 * @access	public
 	 * @param	string
 	 * @return	string
 	 */
 	function set_hash($type = 'sha1')
 	{
 		$this->_hash_type = ($type != 'sha1' OR $type != 'md5') ? 'sha1' : $type;
 	}
   	// END set_hash()

 	// --------------------------------------------------------------------

 	/**
 	 * Hash encode a string
 	 *
 	 * @access	public
 	 * @param	string
 	 * @return	string
 	 */
 	function hash($str)
 	{
 		return ($this->_hash_type == 'sha1') ? $this->sha1($str) : md5($str);
 	}
   	// END hash()

 	// --------------------------------------------------------------------

 	/**
 	 * Generate an SHA1 Hash
 	 *
 	 * @access	public
 	 * @param	string
 	 * @return	string
 	 */
 	function sha1($str)
 	{
 		if ( ! function_exists('sha1'))
 		{
 			if ( ! function_exists('mhash'))
 			{
 				require_once(BASEPATH.'libraries/Sha1'.EXT);
 				$SH = new CI_SHA;
 				return $SH->generate($str);
 			}
 			else
 			{
 				return bin2hex(mhash(MHASH_SHA1, $str));
 			}
 		}
 		else
 		{
 			return sha1($str);
 		}
 	}
 	// END sha1()

 }

 // END CI_Encrypt class
 ?>
	<?php if (!defined('BASEPATH')) exit('No direct script access allowed');
	/**
	* Code Igniter
	*
	* An open source application development framework for PHP 4.3.2 or newer
	*
	* @package CodeIgniter
	* @author Rick Ellis
	* @copyright Copyright (c) 2006, pMachine, Inc.
	* @license http://www.codeignitor.com/user_guide/license.html
	* @link http://www.codeigniter.com
	* @since Version 1.0
	* @filesource
	*/

	// ------------------------------------------------------------------------

	/**
	* Code Igniter Encryption Class
	*
	* Provides two-way keyed encoding using XOR Hashing and Mcrypt
	*
	* @package CodeIgniter
	* @subpackage Libraries
	* @category Libraries
	* @author Rick Ellis
	* @link http://www.codeigniter.com/user_guide/libraries/encryption.html
	*/
	class CI_Encrypt {
	var $_hash_type = 'sha1';
	var $_mcrypt_exists = FALSE;
	var $_mcrypt_cipher;
	var $_mcrypt_mode;

	/**
	* Constructor
	*
	* Simply determines whether the mcrypt library exists.
	*
	*/
	function CI_Encrypt()
	{
	$this->_mcrypt_exists = ( ! function_exists('mcrypt_encrypt')) ? FALSE : TRUE;
	log_message('debug', "Encrypt Class Initialized");
	}
	// END CI_Encrypt()

	// --------------------------------------------------------------------

	/**
	* Fetch the encryption key
	*
	* Returns it as MD5 in order to have an exact-length 128 bit key.
	* Mcrypt is sensitive to keys that are not the correct length
	*
	* @access public
	* @param string
	* @return string
	*/
	function get_key($key = '')
	{
	if ($key == '')
	{
	$obj =& get_instance();
	$key = $obj->config->item('encryption_key');

	if ($key === FALSE)
	{
	show_error('In order to use the encryption class requires that you set an encryption key in your config file.');
	}
	}

	return md5($key);
	}
	// END get_key()

	// --------------------------------------------------------------------

	/**
	* Encode
	*
	* Encodes the message string using bitwise XOR encoding.
	* The key is combined with a random hash, and then it
	* too gets converted using XOR. The whole thing is then run
	* through mcrypt (if supported) using the randomized key.
	* The end result is a double-encrypted message string
	* that is randomized with each call to this function,
	* even if the supplied message and key are the same.
	*
	* @access public
	* @param string the string to encode
	* @param string the key
	* @return string
	*/
	function encode($string, $key = '')
	{
	$key = $this->get_key($key);
	$enc = $this->_xor_encode($string, $key);

	if ($this->_mcrypt_exists === TRUE)
	{
	$enc = $this->mcrypt_encode($enc, $key);
	}
	return base64_encode($enc);
	}
	// END encode()

	// --------------------------------------------------------------------

	/**
	* Decode
	*
	* Reverses the above process
	*
	* @access public
	* @param string
	* @param string
	* @return string
	*/
	function decode($string, $key = '')
	{
	$key = $this->get_key($key);
	$dec = base64_decode($string);

	if ($dec === FALSE)
	{
	return FALSE;
	}

	if ($this->_mcrypt_exists === TRUE)
	{
	$dec = $this->mcrypt_decode($dec, $key);
	}

	return $this->_xor_decode($dec, $key);
	}
	// END decode()

	// --------------------------------------------------------------------

	/**
	* XOR Encode
	*
	* Takes a plain-text string and key as input and generates an
	* encoded bit-string using XOR
	*
	* @access private
	* @param string
	* @param string
	* @return string
	*/
	function _xor_encode($string, $key)
	{
	$rand = '';
	while (strlen($rand) < 32)
	{
	$rand .= mt_rand(0, mt_getrandmax());
	}

	$rand = $this->hash($rand);

	$enc = '';
	for ($i = 0; $i < strlen($string); $i++)
	{
	$enc .= substr($rand, ($i % strlen($rand)), 1).(substr($rand, ($i % strlen($rand)), 1) ^ substr($string, $i, 1));
	}

	return $this->_xor_merge($enc, $key);
	}
	// END _xor_encode()

	// --------------------------------------------------------------------

	/**
	* XOR Decode
	*
	* Takes an encoded string and key as input and generates the
	* plain-text original message
	*
	* @access private
	* @param string
	* @param string
	* @return string
	*/
	function _xor_decode($string, $key)
	{
	$string = $this->_xor_merge($string, $key);

	$dec = '';
	for ($i = 0; $i < strlen($string); $i++)
	{
	$dec .= (substr($string, $i++, 1) ^ substr($string, $i, 1));
	}

	return $dec;
	}
	// END _xor_decode()

	// --------------------------------------------------------------------

	/**
	* XOR key + string Combiner
	*
	* Takes a string and key as input and computes the difference using XOR
	*
	* @access private
	* @param string
	* @param string
	* @return string
	*/
	function _xor_merge($string, $key)
	{
	$hash = $this->hash($key);
	$str = '';
	for ($i = 0; $i < strlen($string); $i++)
	{
	$str .= substr($string, $i, 1) ^ substr($hash, ($i % strlen($hash)), 1);
	}

	return $str;
	}
	// END _xor_merge()

	// --------------------------------------------------------------------

	/**
	* Encrypt using Mcrypt
	*
	* @access public
	* @param string
	* @param string
	* @return string
	*/
	function mcrypt_encode($data, $key)
	{
	$this->_get_mcrypt();
	$init_size = mcrypt_get_iv_size($this->_mcrypt_cipher, $this->_mcrypt_mode);
	$init_vect = mcrypt_create_iv($init_size, MCRYPT_RAND);
	return mcrypt_encrypt($this->_mcrypt_cipher, $key, $data, $this->_mcrypt_mode, $init_vect);
	}
	// END mcrypt_encode()

	// --------------------------------------------------------------------

	/**
	* Decrypt using Mcrypt
	*
	* @access public
	* @param string
	* @param string
	* @return string
	*/
	function mcrypt_decode($data, $key)
	{
	$this->_get_mcrypt();
	$init_size = mcrypt_get_iv_size($this->_mcrypt_cipher, $this->_mcrypt_mode);
	$init_vect = mcrypt_create_iv($init_size, MCRYPT_RAND);
	return rtrim(mcrypt_decrypt($this->_mcrypt_cipher, $key, $data, $this->_mcrypt_mode, $init_vect), "\0");
	}
	// END mcrypt_decode()

	// --------------------------------------------------------------------

	/**
	* Set the Mcrypt Cypher
	*
	* @access public
	* @param constant
	* @return string
	*/
	function set_cypher($cypher)
	{
	$this->_mcrypt_cipher = $cypher;
	}
	// END set_cypher()

	// --------------------------------------------------------------------

	/**
	* Set the Mcrypt Mode
	*
	* @access public
	* @param constant
	* @return string
	*/
	function set_mode($mode)
	{
	$this->_mcrypt_mode = $mode;
	}
	// END set_mode()

	// --------------------------------------------------------------------

	/**
	* Get Mcrypt value
	*
	* @access private
	* @param string
	* @return string
	*/
	function _get_mcrypt()
	{
	if ($this->_mcrypt_cipher == '')
	{
	$this->_mcrypt_cipher = MCRYPT_RIJNDAEL_256;
	}
	if ($this->_mcrypt_mode == '')
	{
	$this->_mcrypt_mode = MCRYPT_MODE_ECB;
	}
	}
	// END _get_mcrypt()

	// --------------------------------------------------------------------

	/**
	* Set the Hash type
	*
	* @access public
	* @param string
	* @return string
	*/
	function set_hash($type = 'sha1')
	{
	$this->_hash_type = ($type != 'sha1' OR $type != 'md5') ? 'sha1' : $type;
	}
	// END set_hash()

	// --------------------------------------------------------------------

	/**
	* Hash encode a string
	*
	* @access public
	* @param string
	* @return string
	*/
	function hash($str)
	{
	return ($this->_hash_type == 'sha1') ? $this->sha1($str) : md5($str);
	}
	// END hash()

	// --------------------------------------------------------------------

	/**
	* Generate an SHA1 Hash
	*
	* @access public
	* @param string
	* @return string
	*/
	function sha1($str)
	{
	if ( ! function_exists('sha1'))
	{
	if ( ! function_exists('mhash'))
	{
	require_once(BASEPATH.'libraries/Sha1'.EXT);
	$SH = new CI_SHA;
	return $SH->generate($str);
	}
	else
	{
	return bin2hex(mhash(MHASH_SHA1, $str));
	}
	}
	else
	{
	return sha1($str);
	}
	}
	// END sha1()

	}

	// END CI_Encrypt class
	?>