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* @license GNU General Public License version 2 or later; see LICENSE.txt * @note This file has been modified by the Joomla! Project and no longer reflects the original work of its author. */ namespace Joomla\CMS\Encrypt; use Joomla\CMS\Encrypt\AES\AesInterface; use Joomla\CMS\Encrypt\AES\Mcrypt; use Joomla\CMS\Encrypt\AES\OpenSSL; \defined('JPATH_PLATFORM') or die; /** * A simple implementation of AES-128, AES-192 and AES-256 encryption using the * high performance mcrypt library. * * @since 1.0 */ class Aes { /** * The cipher key. * * @var string */ protected $key = ''; /** * The AES encryption adapter in use. * * @var AesInterface */ protected $adapter; /** * Initialise the AES encryption object. * * Note: If the key is not 16 bytes this class will do a stupid key expansion for legacy reasons (produce the * SHA-256 of the key string and throw away half of it). * * @param string $key The encryption key (password). It can be a raw key (16 bytes) or a passphrase. * @param int $strength Bit strength (128, 192 or 256) – ALWAYS USE 128 BITS. THIS PARAMETER IS DEPRECATED. * @param string $mode Encryption mode. Can be ebc or cbc. We recommend using cbc. * @param string $priority Priority which adapter we should try first */ public function __construct($key, $strength = 128, $mode = 'cbc', $priority = 'openssl') { if ($priority === 'openssl') { $this->adapter = new OpenSSL; if (!$this->adapter->isSupported()) { $this->adapter = new Mcrypt; } } else { $this->adapter = new Mcrypt; if (!$this->adapter->isSupported()) { $this->adapter = new OpenSSL; } } $this->adapter->setEncryptionMode($mode, $strength); $this->setPassword($key, true); } /** * Sets the password for this instance. * * WARNING: Do not use the legacy mode, it's insecure * * @param string $password The password (either user-provided password or binary encryption key) to use * @param bool $legacyMode True to use the legacy key expansion. We recommend against using it. * * @since 4.0.0 * @return void */ public function setPassword($password, $legacyMode = false) { $this->key = $password; $passLength = \strlen($password); if (\function_exists('mb_strlen')) { $passLength = mb_strlen($password, 'ASCII'); } // Legacy mode was doing something stupid, requiring a key of 32 bytes. DO NOT USE LEGACY MODE! if ($legacyMode && ($passLength != 32)) { // Legacy mode: use the sha256 of the password $this->key = hash('sha256', $password, true); // We have to trim or zero pad the password (we end up throwing half of it away in Rijndael-128 / AES...) $this->key = $this->adapter->resizeKey($this->key, $this->adapter->getBlockSize()); } } /** * Encrypts a string using AES * * @param string $stringToEncrypt The plaintext to encrypt * @param bool $base64encoded Should I Base64-encode the result? * * @return string The cryptotext. Please note that the first 16 bytes of * the raw string is the IV (initialisation vector) which * is necessary for decoding the string. */ public function encryptString($stringToEncrypt, $base64encoded = true) { $blockSize = $this->adapter->getBlockSize(); $randVal = new Randval; $iv = $randVal->generate($blockSize); $key = $this->getExpandedKey($blockSize, $iv); $cipherText = $this->adapter->encrypt($stringToEncrypt, $key, $iv); // Optionally pass the result through Base64 encoding if ($base64encoded) { $cipherText = base64_encode($cipherText); } // Return the result return $cipherText; } /** * Decrypts a ciphertext into a plaintext string using AES * * @param string $stringToDecrypt The ciphertext to decrypt. The first 16 bytes of the raw string must contain * the IV (initialisation vector). * @param bool $base64encoded Should I Base64-decode the data before decryption? * * @return string The plain text string */ public function decryptString($stringToDecrypt, $base64encoded = true) { if ($base64encoded) { $stringToDecrypt = base64_decode($stringToDecrypt); } // Extract IV $iv_size = $this->adapter->getBlockSize(); $iv = substr($stringToDecrypt, 0, $iv_size); $key = $this->getExpandedKey($iv_size, $iv); // Decrypt the data $plainText = $this->adapter->decrypt($stringToDecrypt, $key); return $plainText; } /** * Is AES encryption supported by this PHP installation? * * @return boolean */ public static function isSupported() { $adapter = new Mcrypt; if (!$adapter->isSupported()) { $adapter = new OpenSSL; } if (!$adapter->isSupported()) { return false; } if (!\function_exists('base64_encode')) { return false; } if (!\function_exists('base64_decode')) { return false; } if (!\function_exists('hash_algos')) { return false; } $algorightms = hash_algos(); if (!\in_array('sha256', $algorightms)) { return false; } return true; } /** * Get the expanded key * * @param integer $blockSize Blocksize to process * @param string $iv IV * * @return string */ public function getExpandedKey($blockSize, $iv) { $key = $this->key; $passLength = \strlen($key); if (\function_exists('mb_strlen')) { $passLength = mb_strlen($key, 'ASCII'); } if ($passLength != $blockSize) { $iterations = 1000; $salt = $this->adapter->resizeKey($iv, 16); $key = hash_pbkdf2('sha256', $this->key, $salt, $iterations, $blockSize, true); } return $key; } } if (!\function_exists('hash_pbkdf2')) { /** * Shim for missing hash_pbkdf2 * * @param string $algo Algorithm to use * @param string $password Plaintext password * @param string $salt Salt for the hash * @param integer $count Number of iterations * @param integer $length Length * @param boolean $rawOutput Raw output * * @return string Hashed string */ function hash_pbkdf2($algo, $password, $salt, $count, $length = 0, $rawOutput = false) { if (!\in_array(strtolower($algo), hash_algos())) { trigger_error(__FUNCTION__ . '(): Unknown hashing algorithm: ' . $algo, E_USER_WARNING); } if (!is_numeric($count)) { trigger_error(__FUNCTION__ . '(): expects parameter 4 to be long, ' . \gettype($count) . ' given', E_USER_WARNING); } if (!is_numeric($length)) { trigger_error(__FUNCTION__ . '(): expects parameter 5 to be long, ' . \gettype($length) . ' given', E_USER_WARNING); } if ($count <= 0) { trigger_error(__FUNCTION__ . '(): Iterations must be a positive integer: ' . $count, E_USER_WARNING); } if ($length < 0) { trigger_error(__FUNCTION__ . '(): Length must be greater than or equal to 0: ' . $length, E_USER_WARNING); } $output = ''; $block_count = $length ? ceil($length / \strlen(hash($algo, '', $rawOutput))) : 1; for ($i = 1; $i <= $block_count; $i++) { $last = $xorsum = hash_hmac($algo, $salt . pack('N', $i), $password, true); for ($j = 1; $j < $count; $j++) { $xorsum ^= ($last = hash_hmac($algo, $last, $password, true)); } $output .= $xorsum; } if (!$rawOutput) { $output = bin2hex($output); } return $length ? substr($output, 0, $length) : $output; } }