214 lines
5.5 KiB
PHP
214 lines
5.5 KiB
PHP
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<?php defined('SYSPATH') OR die('No direct script access.');
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/**
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* The Encrypt library provides two-way encryption of text and binary strings
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* using the [Mcrypt](http://php.net/mcrypt) extension, which consists of three
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* parts: the key, the cipher, and the mode.
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*
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* The Key
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* : A secret passphrase that is used for encoding and decoding
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*
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* The Cipher
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* : A [cipher](http://php.net/mcrypt.ciphers) determines how the encryption
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* is mathematically calculated. By default, the "rijndael-128" cipher
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* is used. This is commonly known as "AES-128" and is an industry standard.
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*
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* The Mode
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* : The [mode](http://php.net/mcrypt.constants) determines how the encrypted
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* data is written in binary form. By default, the "nofb" mode is used,
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* which produces short output with high entropy.
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*
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* @package Kohana
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* @category Security
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* @author Kohana Team
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* @copyright (c) 2007-2012 Kohana Team
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* @license http://kohanaframework.org/license
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*/
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class Kohana_Encrypt {
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/**
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* @var string default instance name
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*/
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public static $default = 'default';
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/**
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* @var array Encrypt class instances
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*/
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public static $instances = array();
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/**
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* @var string OS-dependent RAND type to use
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*/
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protected static $_rand;
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/**
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* Returns a singleton instance of Encrypt. An encryption key must be
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* provided in your "encrypt" configuration file.
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*
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* $encrypt = Encrypt::instance();
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*
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* @param string $name configuration group name
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* @return Encrypt
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*/
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public static function instance($name = NULL)
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{
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if ($name === NULL)
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{
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// Use the default instance name
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$name = Encrypt::$default;
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}
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if ( ! isset(Encrypt::$instances[$name]))
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{
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// Load the configuration data
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$config = Kohana::$config->load('encrypt')->$name;
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if ( ! isset($config['key']))
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{
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// No default encryption key is provided!
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throw new Kohana_Exception('No encryption key is defined in the encryption configuration group: :group',
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array(':group' => $name));
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}
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if ( ! isset($config['mode']))
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{
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// Add the default mode
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$config['mode'] = MCRYPT_MODE_NOFB;
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}
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if ( ! isset($config['cipher']))
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{
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// Add the default cipher
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$config['cipher'] = MCRYPT_RIJNDAEL_128;
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}
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// Create a new instance
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Encrypt::$instances[$name] = new Encrypt($config['key'], $config['mode'], $config['cipher']);
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}
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return Encrypt::$instances[$name];
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}
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/**
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* Creates a new mcrypt wrapper.
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*
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* @param string $key encryption key
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* @param string $mode mcrypt mode
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* @param string $cipher mcrypt cipher
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*/
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public function __construct($key, $mode, $cipher)
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{
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// Find the max length of the key, based on cipher and mode
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$size = mcrypt_get_key_size($cipher, $mode);
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if (isset($key[$size]))
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{
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// Shorten the key to the maximum size
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$key = substr($key, 0, $size);
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}
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// Store the key, mode, and cipher
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$this->_key = $key;
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$this->_mode = $mode;
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$this->_cipher = $cipher;
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// Store the IV size
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$this->_iv_size = mcrypt_get_iv_size($this->_cipher, $this->_mode);
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}
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/**
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* Encrypts a string and returns an encrypted string that can be decoded.
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*
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* $data = $encrypt->encode($data);
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*
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* The encrypted binary data is encoded using [base64](http://php.net/base64_encode)
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* to convert it to a string. This string can be stored in a database,
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* displayed, and passed using most other means without corruption.
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*
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* @param string $data data to be encrypted
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* @return string
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*/
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public function encode($data)
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{
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// Set the rand type if it has not already been set
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if (Encrypt::$_rand === NULL)
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{
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if (Kohana::$is_windows)
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{
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// Windows only supports the system random number generator
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Encrypt::$_rand = MCRYPT_RAND;
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}
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else
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{
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if (defined('MCRYPT_DEV_URANDOM'))
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{
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// Use /dev/urandom
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Encrypt::$_rand = MCRYPT_DEV_URANDOM;
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}
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elseif (defined('MCRYPT_DEV_RANDOM'))
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{
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// Use /dev/random
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Encrypt::$_rand = MCRYPT_DEV_RANDOM;
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}
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else
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{
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// Use the system random number generator
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Encrypt::$_rand = MCRYPT_RAND;
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}
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}
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}
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if (Encrypt::$_rand === MCRYPT_RAND)
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{
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// The system random number generator must always be seeded each
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// time it is used, or it will not produce true random results
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mt_srand();
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}
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// Create a random initialization vector of the proper size for the current cipher
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$iv = mcrypt_create_iv($this->_iv_size, Encrypt::$_rand);
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// Encrypt the data using the configured options and generated iv
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$data = mcrypt_encrypt($this->_cipher, $this->_key, $data, $this->_mode, $iv);
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// Use base64 encoding to convert to a string
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return base64_encode($iv.$data);
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}
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/**
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* Decrypts an encoded string back to its original value.
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*
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* $data = $encrypt->decode($data);
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*
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* @param string $data encoded string to be decrypted
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* @return FALSE if decryption fails
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* @return string
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*/
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public function decode($data)
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{
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// Convert the data back to binary
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$data = base64_decode($data, TRUE);
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if ( ! $data)
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{
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// Invalid base64 data
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return FALSE;
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}
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// Extract the initialization vector from the data
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$iv = substr($data, 0, $this->_iv_size);
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if ($this->_iv_size !== strlen($iv))
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{
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// The iv is not the expected size
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return FALSE;
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}
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// Remove the iv from the data
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$data = substr($data, $this->_iv_size);
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// Return the decrypted data, trimming the \0 padding bytes from the end of the data
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return rtrim(mcrypt_decrypt($this->_cipher, $this->_key, $data, $this->_mode, $iv), "\0");
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}
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} // End Encrypt
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