gnu-social/extlib/Auth/OpenID/BigMath.php
Brion Vibber fe9473ac78 Check that 'dl' function is available and usable before trying to call it with error suppression; if it's disabled or unavailable we end up with mysterious failures during installation or loading of libraries.
Fixed for StatusNet installer as well as some external libraries that should be fixed upstream if they haven't already been:
* PEAR
* Auth/OpenID
* Auth/Yadis
2009-09-13 21:53:30 -04:00

472 lines
12 KiB
PHP

<?php
/**
* BigMath: A math library wrapper that abstracts out the underlying
* long integer library.
*
* PHP versions 4 and 5
*
* LICENSE: See the COPYING file included in this distribution.
*
* @access private
* @package OpenID
* @author JanRain, Inc. <openid@janrain.com>
* @copyright 2005-2008 Janrain, Inc.
* @license http://www.apache.org/licenses/LICENSE-2.0 Apache
*/
/**
* Needed for random number generation
*/
require_once 'Auth/OpenID/CryptUtil.php';
/**
* Need Auth_OpenID::bytes().
*/
require_once 'Auth/OpenID.php';
/**
* The superclass of all big-integer math implementations
* @access private
* @package OpenID
*/
class Auth_OpenID_MathLibrary {
/**
* Given a long integer, returns the number converted to a binary
* string. This function accepts long integer values of arbitrary
* magnitude and uses the local large-number math library when
* available.
*
* @param integer $long The long number (can be a normal PHP
* integer or a number created by one of the available long number
* libraries)
* @return string $binary The binary version of $long
*/
function longToBinary($long)
{
$cmp = $this->cmp($long, 0);
if ($cmp < 0) {
$msg = __FUNCTION__ . " takes only positive integers.";
trigger_error($msg, E_USER_ERROR);
return null;
}
if ($cmp == 0) {
return "\x00";
}
$bytes = array();
while ($this->cmp($long, 0) > 0) {
array_unshift($bytes, $this->mod($long, 256));
$long = $this->div($long, pow(2, 8));
}
if ($bytes && ($bytes[0] > 127)) {
array_unshift($bytes, 0);
}
$string = '';
foreach ($bytes as $byte) {
$string .= pack('C', $byte);
}
return $string;
}
/**
* Given a binary string, returns the binary string converted to a
* long number.
*
* @param string $binary The binary version of a long number,
* probably as a result of calling longToBinary
* @return integer $long The long number equivalent of the binary
* string $str
*/
function binaryToLong($str)
{
if ($str === null) {
return null;
}
// Use array_merge to return a zero-indexed array instead of a
// one-indexed array.
$bytes = array_merge(unpack('C*', $str));
$n = $this->init(0);
if ($bytes && ($bytes[0] > 127)) {
trigger_error("bytesToNum works only for positive integers.",
E_USER_WARNING);
return null;
}
foreach ($bytes as $byte) {
$n = $this->mul($n, pow(2, 8));
$n = $this->add($n, $byte);
}
return $n;
}
function base64ToLong($str)
{
$b64 = base64_decode($str);
if ($b64 === false) {
return false;
}
return $this->binaryToLong($b64);
}
function longToBase64($str)
{
return base64_encode($this->longToBinary($str));
}
/**
* Returns a random number in the specified range. This function
* accepts $start, $stop, and $step values of arbitrary magnitude
* and will utilize the local large-number math library when
* available.
*
* @param integer $start The start of the range, or the minimum
* random number to return
* @param integer $stop The end of the range, or the maximum
* random number to return
* @param integer $step The step size, such that $result - ($step
* * N) = $start for some N
* @return integer $result The resulting randomly-generated number
*/
function rand($stop)
{
static $duplicate_cache = array();
// Used as the key for the duplicate cache
$rbytes = $this->longToBinary($stop);
if (array_key_exists($rbytes, $duplicate_cache)) {
list($duplicate, $nbytes) = $duplicate_cache[$rbytes];
} else {
if ($rbytes[0] == "\x00") {
$nbytes = Auth_OpenID::bytes($rbytes) - 1;
} else {
$nbytes = Auth_OpenID::bytes($rbytes);
}
$mxrand = $this->pow(256, $nbytes);
// If we get a number less than this, then it is in the
// duplicated range.
$duplicate = $this->mod($mxrand, $stop);
if (count($duplicate_cache) > 10) {
$duplicate_cache = array();
}
$duplicate_cache[$rbytes] = array($duplicate, $nbytes);
}
do {
$bytes = "\x00" . Auth_OpenID_CryptUtil::getBytes($nbytes);
$n = $this->binaryToLong($bytes);
// Keep looping if this value is in the low duplicated range
} while ($this->cmp($n, $duplicate) < 0);
return $this->mod($n, $stop);
}
}
/**
* Exposes BCmath math library functionality.
*
* {@link Auth_OpenID_BcMathWrapper} wraps the functionality provided
* by the BCMath extension.
*
* @access private
* @package OpenID
*/
class Auth_OpenID_BcMathWrapper extends Auth_OpenID_MathLibrary{
var $type = 'bcmath';
function add($x, $y)
{
return bcadd($x, $y);
}
function sub($x, $y)
{
return bcsub($x, $y);
}
function pow($base, $exponent)
{
return bcpow($base, $exponent);
}
function cmp($x, $y)
{
return bccomp($x, $y);
}
function init($number, $base = 10)
{
return $number;
}
function mod($base, $modulus)
{
return bcmod($base, $modulus);
}
function mul($x, $y)
{
return bcmul($x, $y);
}
function div($x, $y)
{
return bcdiv($x, $y);
}
/**
* Same as bcpowmod when bcpowmod is missing
*
* @access private
*/
function _powmod($base, $exponent, $modulus)
{
$square = $this->mod($base, $modulus);
$result = 1;
while($this->cmp($exponent, 0) > 0) {
if ($this->mod($exponent, 2)) {
$result = $this->mod($this->mul($result, $square), $modulus);
}
$square = $this->mod($this->mul($square, $square), $modulus);
$exponent = $this->div($exponent, 2);
}
return $result;
}
function powmod($base, $exponent, $modulus)
{
if (function_exists('bcpowmod')) {
return bcpowmod($base, $exponent, $modulus);
} else {
return $this->_powmod($base, $exponent, $modulus);
}
}
function toString($num)
{
return $num;
}
}
/**
* Exposes GMP math library functionality.
*
* {@link Auth_OpenID_GmpMathWrapper} wraps the functionality provided
* by the GMP extension.
*
* @access private
* @package OpenID
*/
class Auth_OpenID_GmpMathWrapper extends Auth_OpenID_MathLibrary{
var $type = 'gmp';
function add($x, $y)
{
return gmp_add($x, $y);
}
function sub($x, $y)
{
return gmp_sub($x, $y);
}
function pow($base, $exponent)
{
return gmp_pow($base, $exponent);
}
function cmp($x, $y)
{
return gmp_cmp($x, $y);
}
function init($number, $base = 10)
{
return gmp_init($number, $base);
}
function mod($base, $modulus)
{
return gmp_mod($base, $modulus);
}
function mul($x, $y)
{
return gmp_mul($x, $y);
}
function div($x, $y)
{
return gmp_div_q($x, $y);
}
function powmod($base, $exponent, $modulus)
{
return gmp_powm($base, $exponent, $modulus);
}
function toString($num)
{
return gmp_strval($num);
}
}
/**
* Define the supported extensions. An extension array has keys
* 'modules', 'extension', and 'class'. 'modules' is an array of PHP
* module names which the loading code will attempt to load. These
* values will be suffixed with a library file extension (e.g. ".so").
* 'extension' is the name of a PHP extension which will be tested
* before 'modules' are loaded. 'class' is the string name of a
* {@link Auth_OpenID_MathWrapper} subclass which should be
* instantiated if a given extension is present.
*
* You can define new math library implementations and add them to
* this array.
*/
function Auth_OpenID_math_extensions()
{
$result = array();
if (!defined('Auth_OpenID_BUGGY_GMP')) {
$result[] =
array('modules' => array('gmp', 'php_gmp'),
'extension' => 'gmp',
'class' => 'Auth_OpenID_GmpMathWrapper');
}
$result[] = array(
'modules' => array('bcmath', 'php_bcmath'),
'extension' => 'bcmath',
'class' => 'Auth_OpenID_BcMathWrapper');
return $result;
}
/**
* Detect which (if any) math library is available
*/
function Auth_OpenID_detectMathLibrary($exts)
{
$loaded = false;
foreach ($exts as $extension) {
// See if the extension specified is already loaded.
if ($extension['extension'] &&
extension_loaded($extension['extension'])) {
$loaded = true;
}
// Try to load dynamic modules.
if (!$loaded) {
foreach ($extension['modules'] as $module) {
if (function_exists('dl') && ini_get('enable_dl') && !ini_get('safe_mode') && @dl($module . "." . PHP_SHLIB_SUFFIX)) {
$loaded = true;
break;
}
}
}
// If the load succeeded, supply an instance of
// Auth_OpenID_MathWrapper which wraps the specified
// module's functionality.
if ($loaded) {
return $extension;
}
}
return false;
}
/**
* {@link Auth_OpenID_getMathLib} checks for the presence of long
* number extension modules and returns an instance of
* {@link Auth_OpenID_MathWrapper} which exposes the module's
* functionality.
*
* Checks for the existence of an extension module described by the
* result of {@link Auth_OpenID_math_extensions()} and returns an
* instance of a wrapper for that extension module. If no extension
* module is found, an instance of {@link Auth_OpenID_MathWrapper} is
* returned, which wraps the native PHP integer implementation. The
* proper calling convention for this method is $lib =&
* Auth_OpenID_getMathLib().
*
* This function checks for the existence of specific long number
* implementations in the following order: GMP followed by BCmath.
*
* @return Auth_OpenID_MathWrapper $instance An instance of
* {@link Auth_OpenID_MathWrapper} or one of its subclasses
*
* @package OpenID
*/
function &Auth_OpenID_getMathLib()
{
// The instance of Auth_OpenID_MathWrapper that we choose to
// supply will be stored here, so that subseqent calls to this
// method will return a reference to the same object.
static $lib = null;
if (isset($lib)) {
return $lib;
}
if (Auth_OpenID_noMathSupport()) {
$null = null;
return $null;
}
// If this method has not been called before, look at
// Auth_OpenID_math_extensions and try to find an extension that
// works.
$ext = Auth_OpenID_detectMathLibrary(Auth_OpenID_math_extensions());
if ($ext === false) {
$tried = array();
foreach (Auth_OpenID_math_extensions() as $extinfo) {
$tried[] = $extinfo['extension'];
}
$triedstr = implode(", ", $tried);
Auth_OpenID_setNoMathSupport();
$result = null;
return $result;
}
// Instantiate a new wrapper
$class = $ext['class'];
$lib = new $class();
return $lib;
}
function Auth_OpenID_setNoMathSupport()
{
if (!defined('Auth_OpenID_NO_MATH_SUPPORT')) {
define('Auth_OpenID_NO_MATH_SUPPORT', true);
}
}
function Auth_OpenID_noMathSupport()
{
return defined('Auth_OpenID_NO_MATH_SUPPORT');
}
?>