* @author Tom Worster * @since 2.0 */ class SecurityBase { /** * Encrypts data. * @param string $data data to be encrypted. * @param string $key the encryption secret key * @return string the encrypted data * @throws Exception if PHP Mcrypt extension is not loaded or failed to be initialized * @see decrypt() */ public static function encrypt($data, $key) { $module = static::openCryptModule(); // 192-bit (24 bytes) key size $key = StringHelper::substr($key, 0, 24); srand(); $iv = mcrypt_create_iv(mcrypt_enc_get_iv_size($module), MCRYPT_RAND); mcrypt_generic_init($module, $key, $iv); $encrypted = $iv . mcrypt_generic($module, $data); mcrypt_generic_deinit($module); mcrypt_module_close($module); return $encrypted; } /** * Decrypts data * @param string $data data to be decrypted. * @param string $key the decryption secret key * @return string the decrypted data * @throws Exception if PHP Mcrypt extension is not loaded or failed to be initialized * @see encrypt() */ public static function decrypt($data, $key) { $module = static::openCryptModule(); // 192-bit (24 bytes) key size $key = StringHelper::substr($key, 0, 24); $ivSize = mcrypt_enc_get_iv_size($module); $iv = StringHelper::substr($data, 0, $ivSize); mcrypt_generic_init($module, $key, $iv); $decrypted = mdecrypt_generic($module, StringHelper::substr($data, $ivSize, StringHelper::strlen($data))); mcrypt_generic_deinit($module); mcrypt_module_close($module); return rtrim($decrypted, "\0"); } /** * Prefixes data with a keyed hash value so that it can later be detected if it is tampered. * @param string $data the data to be protected * @param string $key the secret key to be used for generating hash * @param string $algorithm the hashing algorithm (e.g. "md5", "sha1", "sha256", etc.). Call PHP "hash_algos()" * function to see the supported hashing algorithms on your system. * @return string the data prefixed with the keyed hash * @see validateData() * @see getSecretKey() */ public static function hashData($data, $key, $algorithm = 'sha256') { return hash_hmac($algorithm, $data, $key) . $data; } /** * Validates if the given data is tampered. * @param string $data the data to be validated. The data must be previously * generated by [[hashData()]]. * @param string $key the secret key that was previously used to generate the hash for the data in [[hashData()]]. * @param string $algorithm the hashing algorithm (e.g. "md5", "sha1", "sha256", etc.). Call PHP "hash_algos()" * function to see the supported hashing algorithms on your system. This must be the same * as the value passed to [[hashData()]] when generating the hash for the data. * @return string the real data with the hash stripped off. False if the data is tampered. * @see hashData() */ public static function validateData($data, $key, $algorithm = 'sha256') { $hashSize = StringHelper::strlen(hash_hmac($algorithm, 'test', $key)); $n = StringHelper::strlen($data); if ($n >= $hashSize) { $hash = StringHelper::substr($data, 0, $hashSize); $data2 = StringHelper::substr($data, $hashSize, $n - $hashSize); return $hash === hash_hmac($algorithm, $data2, $key) ? $data2 : false; } else { return false; } } /** * Returns a secret key associated with the specified name. * If the secret key does not exist, a random key will be generated * and saved in the file "keys.php" under the application's runtime directory * so that the same secret key can be returned in future requests. * @param string $name the name that is associated with the secret key * @param integer $length the length of the key that should be generated if not exists * @return string the secret key associated with the specified name */ public static function getSecretKey($name, $length = 32) { static $keys; $keyFile = Yii::$app->getRuntimePath() . '/keys.php'; if ($keys === null) { $keys = array(); if (is_file($keyFile)) { $keys = require($keyFile); } } if (!isset($keys[$name])) { $keys[$name] = static::generateRandomKey($length); file_put_contents($keyFile, " '_', '/' => '-', '=' => '.')); if ($strong) { return substr($key, 0, $length); } } $chars = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789_-.'; return substr(str_shuffle(str_repeat($chars, 5)), 0, $length); } /** * Opens the mcrypt module. * @return resource the mcrypt module handle. * @throws InvalidConfigException if mcrypt extension is not installed * @throws Exception if mcrypt initialization fails */ protected static function openCryptModule() { if (!extension_loaded('mcrypt')) { throw new InvalidConfigException('The mcrypt PHP extension is not installed.'); } // AES uses a 128-bit block size $module = @mcrypt_module_open('rijndael-128', '', 'cbc', ''); if ($module === false) { throw new Exception('Failed to initialize the mcrypt module.'); } return $module; } /** * Generates a secure hash from a password and a random salt. * * The generated hash can be stored in database (e.g. `CHAR(64) CHARACTER SET latin1` on MySQL). * Later when a password needs to be validated, the hash can be fetched and passed * to [[validatePassword()]]. For example, * * ~~~ * // generates the hash (usually done during user registration or when the password is changed) * $hash = Security::generatePasswordHash($password); * // ...save $hash in database... * * // during login, validate if the password entered is correct using $hash fetched from database * if (Security::validatePassword($password, $hash) { * // password is good * } else { * // password is bad * } * ~~~ * * @param string $password The password to be hashed. * @param integer $cost Cost parameter used by the Blowfish hash algorithm. * The higher the value of cost, * the longer it takes to generate the hash and to verify a password against it. Higher cost * therefore slows down a brute-force attack. For best protection against brute for attacks, * set it to the highest value that is tolerable on production servers. The time taken to * compute the hash doubles for every increment by one of $cost. So, for example, if the * hash takes 1 second to compute when $cost is 14 then then the compute time varies as * 2^($cost - 14) seconds. * @throws Exception on bad password parameter or cost parameter * @return string The password hash string, ASCII and not longer than 64 characters. * @see validatePassword() */ public static function generatePasswordHash($password, $cost = 13) { $salt = static::generateSalt($cost); $hash = crypt($password, $salt); if (!is_string($hash) || strlen($hash) < 32) { throw new Exception('Unknown error occurred while generating hash.'); } return $hash; } /** * Verifies a password against a hash. * @param string $password The password to verify. * @param string $hash The hash to verify the password against. * @return boolean whether the password is correct. * @throws InvalidParamException on bad password or hash parameters or if crypt() with Blowfish hash is not available. * @see generatePasswordHash() */ public static function validatePassword($password, $hash) { if (!is_string($password) || $password === '') { throw new InvalidParamException('Password must be a string and cannot be empty.'); } if (!preg_match('/^\$2[axy]\$(\d\d)\$[\.\/0-9A-Za-z]{22}/', $hash, $matches) || $matches[1] < 4 || $matches[1] > 30) { throw new InvalidParamException('Hash is invalid.'); } $test = crypt($password, $hash); $n = strlen($test); if (strlen($test) < 32 || $n !== strlen($hash)) { return false; } // Use a for-loop to compare two strings to prevent timing attacks. See: // http://codereview.stackexchange.com/questions/13512 $check = 0; for ($i = 0; $i < $n; ++$i) { $check |= (ord($test[$i]) ^ ord($hash[$i])); } return $check === 0; } /** * Generates a salt that can be used to generate a password hash. * * The PHP [crypt()](http://php.net/manual/en/function.crypt.php) built-in function * requires, for the Blowfish hash algorithm, a salt string in a specific format: * "$2a$", "$2x$" or "$2y$", a two digit cost parameter, "$", and 22 characters * from the alphabet "./0-9A-Za-z". * * @param integer $cost the cost parameter * @return string the random salt value. * @throws InvalidParamException if the cost parameter is not between 4 and 30 */ protected static function generateSalt($cost = 13) { $cost = (int)$cost; if ($cost < 4 || $cost > 31) { throw new InvalidParamException('Cost must be between 4 and 31.'); } // Get 20 * 8bits of pseudo-random entropy from mt_rand(). $rand = ''; for ($i = 0; $i < 20; ++$i) { $rand .= chr(mt_rand(0, 255)); } // Add the microtime for a little more entropy. $rand .= microtime(); // Mix the bits cryptographically into a 20-byte binary string. $rand = sha1($rand, true); // Form the prefix that specifies Blowfish algorithm and cost parameter. $salt = sprintf("$2y$%02d$", $cost); // Append the random salt data in the required base64 format. $salt .= str_replace('+', '.', substr(base64_encode($rand), 0, 22)); return $salt; } }