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<?php /* * The RandomLib library for securely generating random numbers and strings in PHP * * @author Anthony Ferrara <ircmaxell@ircmaxell.com> * @copyright 2011 The Authors * @license http://www.opensource.org/licenses/mit-license.html MIT License * @version Build @@version@@ */ /** * The Microtime Random Number Source * * This uses the current micro-second (looped several times) for a **very** weak * random number source. This is only useful when combined with several other * stronger sources * * PHP version 5.3 * * @category PHPCryptLib * @package Random * @subpackage Source * * @author Anthony Ferrara <ircmaxell@ircmaxell.com> * @copyright 2011 The Authors * @license http://www.opensource.org/licenses/mit-license.html MIT License * * @version Build @@version@@ */ namespace RandomLib\Source; use SecurityLib\Strength; use SecurityLib\Util; /** * The Microtime Random Number Source * * This uses the current micro-second (looped several times) for a **very** weak * random number source. This is only useful when combined with several other * stronger sources * * @category PHPCryptLib * @package Random * @subpackage Source * * @author Anthony Ferrara <ircmaxell@ircmaxell.com> * @codeCoverageIgnore */ final class MicroTime extends \RandomLib\AbstractSource { /** * A static counter to ensure unique hashes and prevent state collisions * * @var int A counter */ private static $counter = null; /** * The current state of the random number generator. * * @var string The state of the PRNG */ private static $state = ''; public function __construct() { $state = self::$state; if (function_exists('posix_times')) { $state .= serialize(posix_times()); } if (!defined('HHVM_VERSION') && function_exists('zend_thread_id')) { $state .= zend_thread_id(); } if (function_exists('hphp_get_thread_id')) { $state .= hphp_get_thread_id(); } $state .= getmypid() . memory_get_usage(); $state .= serialize($_ENV); $state .= serialize($_SERVER); $state .= count(debug_backtrace(false)); self::$state = hash('sha512', $state, true); if (is_null(self::$counter)) { list(, self::$counter) = unpack("i", Util::safeSubstr(self::$state, 0, 4)); $seed = $this->generate(Util::safeStrlen(dechex(PHP_INT_MAX))); list(, self::$counter) = unpack("i", $seed); } } /** * Generate a random string of the specified size * * @param int $size The size of the requested random string * * @return string A string of the requested size */ public function generate($size) { $result = ''; $seed = microtime() . memory_get_usage(); self::$state = hash('sha512', self::$state . $seed, true); /** * Make the generated randomness a bit better by forcing a GC run which * should complete in a indeterminate amount of time, hence improving * the strength of the randomness a bit. It's still not crypto-safe, * but at least it's more difficult to predict. */ gc_collect_cycles(); for ($i = 0; $i < $size; $i += 8) { $seed = self::$state . microtime() . pack('Ni', $i, self::counter()); self::$state = hash('sha512', $seed, true); /** * We only use the first 8 bytes here to prevent exposing the state * in its entirety, which could potentially expose other random * generations in the future (in the same process)... */ $result .= Util::safeSubstr(self::$state, 0, 8); } return Util::safeSubstr($result, 0, $size); } private static function counter() { if (self::$counter >= PHP_INT_MAX) { self::$counter = -1 * PHP_INT_MAX - 1; } else { self::$counter++; } return self::$counter; } }