mirror of
https://gitlab.com/harald.mueller/aktuelle.kurse.git
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289 lines
9.0 KiB
PHP
289 lines
9.0 KiB
PHP
<?php
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//
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// +----------------------------------------------------------------------+
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// | PHP Version 4 |
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// +----------------------------------------------------------------------+
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// | Copyright (c) 1997-2002 The PHP Group |
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// +----------------------------------------------------------------------+
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// | This source file is subject to version 2.02 of the PHP license, |
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// | that is bundled with this package in the file LICENSE, and is |
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// | available at through the world-wide-web at |
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// | http://www.php.net/license/2_02.txt. |
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// | If you did not receive a copy of the PHP license and are unable to |
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// | obtain it through the world-wide-web, please send a note to |
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// | license@php.net so we can mail you a copy immediately. |
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// +----------------------------------------------------------------------+
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// | Authors: Manon Goo <manon@passionet.de> |
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// | Chuck Hagenbuch <chuck@horde.org> |
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// +----------------------------------------------------------------------+
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/**
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* Class to emulate Perl's Crypt::HCE_MD5 module
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*
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* The MIME Functions are tested and work symmetrically with the
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* Crypt::HCE_MD5 package (0.45) (without the KEYBUG Flag ..).
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*
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* Shamelessly stolen from Eric Estabrooks, eric@urbanrage.com
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* Crypt::HCE_MD5 package:
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*
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* This package implements a chaining block cipher using a one way
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* hash. This method of encryption is the same that is used by radius
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* (RFC2138) and is also described in Applied Cryptography by Bruce
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* Schneider (p. 353 / "Karn").
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*
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* Two interfaces are provided in the package. The first is straight
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* block encryption/decryption the second does base64 mime
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* encoding/decoding of the encrypted/decrypted blocks.
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*
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* The idea is the the two sides have a shared secret that supplies one
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* of the keys and a randomly generated block of bytes provides the
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* second key. The random key is passed in cleartext between the two
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* sides.
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*
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* Usage:
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* require_once 'Crypt/HCEMD5.php';
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* $key = 'my secret key';
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* srand((double)microtime()*32767);
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* $rand = rand(1, 32767);
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* $rand = pack('i*', $rand);
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* $message = 'text to encrypt';
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* $hcemd5 = new Crypt_HCEMD5($key, $rand);
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*
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* // These Functions work with mime decoded Data
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* $ciphertext = $hcemd5->encodeMime($message);
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* $cleartext = $hcemd5->decodeMime($ciphertext);
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*
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* // These Functions work with binary Data
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* $ciphertext = $hcemd5->encrypt($message);
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* $cleartext = $hcemd5->decrypt($ciphertext);
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*
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* // These Functions work with mime decoded Data the selfrand
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* // functions put the random value infront of the encrypted data to
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* // be restored later
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* $ciphertext = $hcemd5->encodeMimeSelfRand($message);
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* $new_hcemd5 = new Crypt_HCEMD5($key, '');
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* $cleartext = $new_hcemd5->DecodeMimeSelfRand($ciphertext);
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*
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* @version $Id: HCEMD5.php,v 1.8 2002/01/19 17:56:33 mj Exp $
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* @access public
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* @package Crypt
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*/
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class Crypt_HCEMD5 {
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/**
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* The first key to use. This should be a shared secret.
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* @var string
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*/
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var $key;
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/**
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* The second key to use. This should be a randomly generated
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* block of bytes.
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* @var long
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*/
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var $rand;
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/**
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* Creates a Crypt_HCEMD5 object.
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*
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* @param string The shared secret key
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* @param long (optional) The randomly generated key
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*
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* @access public
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*/
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function Crypt_HCEMD5($key, $rand = null) {
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$this->key = $key;
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if (!isset($rand)) {
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srand((double)microtime() * 32767);
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$rand = rand(1, 32767);
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$rand = pack('i*', $rand);
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}
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$this->rand = $rand;
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}
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/**
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* Encrypt a block of data.
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*
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* @param string The data to encrypt.
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* @return string The encrypted binary data.
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* @access public
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*/
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function encrypt($data)
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{
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$data = unpack('C*', $data);
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$ans = array();
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$ans1 = array();
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$eblock = 1;
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$e_block = $this->newKey($this->rand);
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$data_size = count($data);
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for ($i = 0; $i < $data_size; $i++) {
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$mod = $i % 16;
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if (($mod == 0) && ($i > 15)) {
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$tmparr = array($ans[$i - 15], $ans[$i - 14], $ans[$i - 13], $ans[$i - 12], $ans[$i - 11], $ans[$i - 10], $ans[$i - 9], $ans[$i - 8], $ans[$i - 7], $ans[$i - 6], $ans[$i - 5], $ans[$i - 4], $ans[$i - 3], $ans[$i - 2], $ans[$i - 1], $ans[$i] );
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$tmparr = $this->array2pack($tmparr);
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$tmparr = implode('', $tmparr);
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$e_block = $this->newKey($tmparr);
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}
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$mod++;
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$i++;
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$ans[$i] = $e_block[$mod] ^ $data[$i];
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$ans1[$i] = pack('C*', $ans[$i]);
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$i--;
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$mod--;
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}
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return implode('', $ans1);
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}
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/**
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* Decrypt a block of data.
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*
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* @param string The data to decrypt.
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* @return string The decrypted binary data.
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* @access public
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*/
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function decrypt($data)
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{
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$data = unpack('C*', $data);
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$ans = array();
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$ans1 = array();
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$eblock = 1;
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$e_block = $this->newKey($this->rand);
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$data_size = count($data);
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for ($i = 0; $i < $data_size; $i++) {
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$mod = $i % 16;
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if (($mod == 0) && ($i > 15)) {
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$tmparr = array($data[$i - 15], $data[$i - 14], $data[$i - 13], $data[$i - 12], $data[$i - 11], $data[$i - 10], $data[$i - 9], $data[$i - 8], $data[$i - 7], $data[$i - 6], $data[$i - 5], $data[$i - 4], $data[$i - 3], $data[$i - 2], $data[$i - 1], $data[$i]);
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$tmparr = $this->array2pack($tmparr);
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$tmparr = implode('', $tmparr);
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$e_block = $this->newKey($tmparr);
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}
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$mod++;
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$i++;
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$ans[$i] = $e_block[$mod] ^ $data[$i];
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$ans1[$i] = pack('C*', $ans[$i]);
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$i--;
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}
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return implode('', $ans1);
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}
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/**
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* Encrypt a block of data after MIME-encoding it.
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*
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* @param string The data to encrypt.
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* @return string The encrypted mime-encoded data.
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* @access public
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*/
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function encodeMime($data)
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{
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return base64_encode($this->encrypt($data));
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}
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/**
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* Decrypt a block of data and then MIME-decode it.
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*
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* @param string The data to decrypt.
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* @return string The decrypted mime-decoded data.
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* @access public
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*/
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function decodeMime($data)
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{
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return $this->decrypt(base64_decode($data));
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}
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/**
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* Encrypt a block of data after MIME-encoding it, and include the
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* random hash in the final output in plaintext so it can be
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* retrieved and decrypted with only the secret key by
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* decodeMimeSelfRand().
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*
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* @param string The data to encrypt.
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* @param string The encrypted mime-encoded data, in the format: randkey#encrypted_data.
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* @access public
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*/
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function encodeMimeSelfRand($data) {
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return base64_encode($this->rand) . '#' . $this->encodeMime($data);
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}
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/**
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* Decrypt a block of data and then MIME-decode it, using the
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* random key stored in beginning of the ciphertext generated by
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* encodeMimeSelfRand().
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*
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* @param string The data to decrypt, in the format: randkey#encrypted_data.
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* @return string The decrypted, mime-decoded data.
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* @access public
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*/
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function decodeMimeSelfRand($data)
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{
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if (strpos($data, '#') === false) {
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return false;
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}
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list($rand, $data_crypt) = explode('#', $data);
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if (isset($data_crypt)) {
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$rand = base64_decode($rand);
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$this->rand = $rand;
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return $this->decodeMime($data_crypt);
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} else {
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return false;
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}
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}
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/**
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** Support Functions
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**/
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/**
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* Implment md5 hashing in php, though use the mhash() function if it is available.
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*
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* @param string The string to hash.
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* @return string The md5 mhash of the string.
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* @access private
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*/
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function binmd5($string)
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{
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if (extension_loaded('mhash')) {
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return mhash(MHASH_MD5, $string);
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}
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return pack('H*', md5($string));
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}
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/**
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* Turn an array into a binary packed string.
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*
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* @param array The array to pack.
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* @return string The binary packed representation of the array.
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* @access private
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*/
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function array2pack($array)
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{
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$pack = array();
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foreach ($array as $val) {
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$pack[] = pack('C*', $val);
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}
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return $pack;
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}
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/**
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* Generate a new key for a new encryption block.
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*
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* @param string The basis for the key.
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* @param string The new key.
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* @access private
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*/
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function newKey($round)
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{
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$digest = $this->binmd5($this->key . $round);
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return unpack('C*', $digest);
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}
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}
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?>
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