generate($length); } /** * Retrieve a fallback/alternative RNG generator * * @return RandomLib\Generator */ public static function getAlternativeGenerator() { if (null !== static::$generator) { return static::$generator; } if (!class_exists('RandomLib\\Factory')) { throw new Exception\RuntimeException( 'The RandomLib fallback pseudorandom number generator (PRNG) ' . ' must be installed in the absence of the OpenSSL and ' . 'Mcrypt extensions' ); } $factory = new RandomLib\Factory; $factory->registerSource( 'HashTiming', 'Zend\Math\Source\HashTiming' ); static::$generator = $factory->getMediumStrengthGenerator(); return static::$generator; } /** * Generate random boolean * * @param bool $strong true if you need a strong random generator (cryptography) * @return bool */ public static function getBoolean($strong = false) { $byte = static::getBytes(1, $strong); return (bool) (ord($byte) % 2); } /** * Generate a random integer between $min and $max * * @param int $min * @param int $max * @param bool $strong true if you need a strong random generator (cryptography) * @return int * @throws Exception\DomainException */ public static function getInteger($min, $max, $strong = false) { if ($min > $max) { throw new Exception\DomainException( 'The min parameter must be lower than max parameter' ); } $range = $max - $min; if ($range == 0) { return $max; } elseif ($range > PHP_INT_MAX || is_float($range)) { throw new Exception\DomainException( 'The supplied range is too great to generate' ); } // calculate number of bits required to store range on this machine $r = $range; $bits = 0; while ($r) { $bits++; $r >>= 1; } $bits = (int) max($bits, 1); $bytes = (int) max(ceil($bits / 8), 1); $filter = (int) ((1 << $bits) - 1); do { $rnd = hexdec(bin2hex(static::getBytes($bytes, $strong))); $rnd &= $filter; } while ($rnd > $range); return ($min + $rnd); } /** * Generate random float (0..1) * This function generates floats with platform-dependent precision * * PHP uses double precision floating-point format (64-bit) which has * 52-bits of significand precision. We gather 7 bytes of random data, * and we fix the exponent to the bias (1023). In this way we generate * a float of 1.mantissa. * * @param bool $strong true if you need a strong random generator (cryptography) * @return float */ public static function getFloat($strong = false) { $bytes = static::getBytes(7, $strong); $bytes[6] = $bytes[6] | chr(0xF0); $bytes .= chr(63); // exponent bias (1023) list(, $float) = unpack('d', $bytes); return ($float - 1); } /** * Generate a random string of specified length. * * Uses supplied character list for generating the new string. * If no character list provided - uses Base 64 character set. * * @param int $length * @param string|null $charlist * @param bool $strong true if you need a strong random generator (cryptography) * @return string * @throws Exception\DomainException */ public static function getString($length, $charlist = null, $strong = false) { if ($length < 1) { throw new Exception\DomainException('Length should be >= 1'); } // charlist is empty or not provided if (empty($charlist)) { $numBytes = ceil($length * 0.75); $bytes = static::getBytes($numBytes, $strong); return substr(rtrim(base64_encode($bytes), '='), 0, $length); } $listLen = strlen($charlist); if ($listLen == 1) { return str_repeat($charlist, $length); } $bytes = static::getBytes($length, $strong); $pos = 0; $result = ''; for ($i = 0; $i < $length; $i++) { $pos = ($pos + ord($bytes[$i])) % $listLen; $result .= $charlist[$pos]; } return $result; } }