0byt3m1n1 - D7net
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Name File: simple.php
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<?php /** * @package Joomla.Platform * @subpackage Crypt * * @copyright Copyright (C) 2005 - 2011 Open Source Matters, Inc. All rights reserved. * @license GNU General Public License version 2 or later; see LICENSE */ defined('JPATH_PLATFORM') or die; /** * JCrypt cipher for Simple encryption, decryption and key generation. * * @package Joomla.Platform * @subpackage Crypt * @since 12.1 */ class JCryptCipherSimple implements JCryptCipher { /** * Method to decrypt a data string. * * @param string $data The encrypted string to decrypt. * @param JCryptKey $key The key[/pair] object to use for decryption. * * @return string The decrypted data string. * * @since 12.1 * @throws InvalidArgumentException */ public function decrypt($data, JCryptKey $key) { // Validate key. if ($key->type != 'simple') { throw new InvalidArgumentException('Invalid key of type: ' . $key->type . '. Expected simple.'); } // Initialise variables. $decrypted = ''; $tmp = $key->public; // Convert the HEX input into an array of integers and get the number of characters. $chars = $this->_hexToIntArray($data); $charCount = count($chars); // Repeat the key as many times as necessary to ensure that the key is at least as long as the input. for ($i = 0; $i < $charCount; $i = strlen($tmp)) { $tmp = $tmp . $tmp; } // Get the XOR values between the ASCII values of the input and key characters for all input offsets. for ($i = 0; $i < $charCount; $i++) { $decrypted .= chr($chars[$i] ^ ord($tmp[$i])); } return $decrypted; } /** * Method to encrypt a data string. * * @param string $data The data string to encrypt. * @param JCryptKey $key The key[/pair] object to use for encryption. * * @return string The encrypted data string. * * @since 12.1 * @throws InvalidArgumentException */ public function encrypt($data, JCryptKey $key) { // Validate key. if ($key->type != 'simple') { throw new InvalidArgumentException('Invalid key of type: ' . $key->type . '. Expected simple.'); } // Initialise variables. $encrypted = ''; $tmp = $key->private; // Split up the input into a character array and get the number of characters. $chars = preg_split('//', $data, -1, PREG_SPLIT_NO_EMPTY); $charCount = count($chars); // Repeat the key as many times as necessary to ensure that the key is at least as long as the input. for ($i = 0; $i < $charCount; $i = strlen($tmp)) { $tmp = $tmp . $tmp; } // Get the XOR values between the ASCII values of the input and key characters for all input offsets. for ($i = 0; $i < $charCount; $i++) { $encrypted .= $this->_intToHex(ord($tmp[$i]) ^ ord($chars[$i])); } return $encrypted; } /** * Method to generate a new encryption key[/pair] object. * * @param array $options Key generation options. * * @return JCryptKey * * @since 12.1 */ public function generateKey(array $options = array()) { // Create the new encryption key[/pair] object. $key = new JCryptKey('simple'); // Just a random key of a given length. $key->private = $this->_getRandomKey(); $key->public = $key->private; return $key; } /** * Method to generate a random key of a given length. * * @param integer $length The length of the key to generate. * * @return string * * @since 12.1 */ private function _getRandomKey($length = 256) { // Initialise variables. $key = ''; $salt = 'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789'; $saltLength = strlen($salt); // Build the random key. for ($i = 0; $i < $length; $i++) { $key .= $salt[mt_rand(0, $saltLength - 1)]; } return $key; } /** * Convert hex to an integer * * @param string $s The hex string to convert. * @param integer $i The offset? * * @return integer * * @since 11.1 */ private function _hexToInt($s, $i) { // Initialise variables. $j = (int) $i * 2; $k = 0; $s1 = (string) $s; // Get the character at position $j. $c = substr($s1, $j, 1); // Get the character at position $j + 1. $c1 = substr($s1, $j + 1, 1); switch ($c) { case 'A': $k += 160; break; case 'B': $k += 176; break; case 'C': $k += 192; break; case 'D': $k += 208; break; case 'E': $k += 224; break; case 'F': $k += 240; break; case ' ': $k += 0; break; default: (int) $k = $k + (16 * (int) $c); break; } switch ($c1) { case 'A': $k += 10; break; case 'B': $k += 11; break; case 'C': $k += 12; break; case 'D': $k += 13; break; case 'E': $k += 14; break; case 'F': $k += 15; break; case ' ': $k += 0; break; default: $k += (int) $c1; break; } return $k; } /** * Convert hex to an array of integers * * @param string $hex The hex string to convert to an integer array. * * @return array An array of integers. * * @since 11.1 */ private function _hexToIntArray($hex) { // Initialise variables. $array = array(); $j = (int) strlen($hex) / 2; for ($i = 0; $i < $j; $i++) { $array[$i] = (int) $this->_hexToInt($hex, $i); } return $array; } /** * Convert an integer to a hexadecimal string. * * @param integer $i An integer value to convert to a hex string. * * @return string * * @since 11.1 */ private function _intToHex($i) { // Sanitize the input. $i = (int) $i; // Get the first character of the hexadecimal string if there is one. $j = (int) ($i / 16); if ($j === 0) { $s = ' '; } else { $s = strtoupper(dechex($j)); } // Get the second character of the hexadecimal string. $k = $i - $j * 16; $s = $s . strtoupper(dechex($k)); return $s; } }
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