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<?php /** * Curves over y^2 = x^3 + a*x + x * * Technically, a Montgomery curve has a coefficient for y^2 but for Curve25519 and Curve448 that * coefficient is 1. * * Curve25519 and Curve448 do not make use of the y coordinate, which makes it unsuitable for use * with ECDSA / EdDSA. A few other differences between Curve25519 and Ed25519 are discussed at * https://crypto.stackexchange.com/a/43058/4520 * * More info: * * https://en.wikipedia.org/wiki/Montgomery_curve * * PHP version 5 and 7 * * @author Jim Wigginton <terrafrost@php.net> * @copyright 2019 Jim Wigginton * @license http://www.opensource.org/licenses/mit-license.html MIT License * @link http://pear.php.net/package/Math_BigInteger */ namespace phpseclib3\Crypt\EC\BaseCurves; use phpseclib3\Crypt\EC\Curves\Curve25519; use phpseclib3\Math\BigInteger; use phpseclib3\Math\PrimeField; use phpseclib3\Math\PrimeField\Integer as PrimeInteger; /** * Curves over y^2 = x^3 + a*x + x * * @author Jim Wigginton <terrafrost@php.net> */ class Montgomery extends Base { /** * Prime Field Integer factory * * @var \phpseclib3\Math\PrimeField */ protected $factory; /** * Cofficient for x * * @var object */ protected $a; /** * Constant used for point doubling * * @var object */ protected $a24; /** * The Number Zero * * @var object */ protected $zero; /** * The Number One * * @var object */ protected $one; /** * Base Point * * @var object */ protected $p; /** * The modulo * * @var BigInteger */ protected $modulo; /** * The Order * * @var BigInteger */ protected $order; /** * Sets the modulo */ public function setModulo(BigInteger $modulo) { $this->modulo = $modulo; $this->factory = new PrimeField($modulo); $this->zero = $this->factory->newInteger(new BigInteger()); $this->one = $this->factory->newInteger(new BigInteger(1)); } /** * Set coefficients a */ public function setCoefficients(BigInteger $a) { if (!isset($this->factory)) { throw new \RuntimeException('setModulo needs to be called before this method'); } $this->a = $this->factory->newInteger($a); $two = $this->factory->newInteger(new BigInteger(2)); $four = $this->factory->newInteger(new BigInteger(4)); $this->a24 = $this->a->subtract($two)->divide($four); } /** * Set x and y coordinates for the base point * * @param BigInteger|PrimeInteger $x * @param BigInteger|PrimeInteger $y * @return PrimeInteger[] */ public function setBasePoint($x, $y) { switch (true) { case !$x instanceof BigInteger && !$x instanceof PrimeInteger: throw new \UnexpectedValueException('Argument 1 passed to Prime::setBasePoint() must be an instance of either BigInteger or PrimeField\Integer'); case !$y instanceof BigInteger && !$y instanceof PrimeInteger: throw new \UnexpectedValueException('Argument 2 passed to Prime::setBasePoint() must be an instance of either BigInteger or PrimeField\Integer'); } if (!isset($this->factory)) { throw new \RuntimeException('setModulo needs to be called before this method'); } $this->p = [ $x instanceof BigInteger ? $this->factory->newInteger($x) : $x, $y instanceof BigInteger ? $this->factory->newInteger($y) : $y ]; } /** * Retrieve the base point as an array * * @return array */ public function getBasePoint() { if (!isset($this->factory)) { throw new \RuntimeException('setModulo needs to be called before this method'); } /* if (!isset($this->p)) { throw new \RuntimeException('setBasePoint needs to be called before this method'); } */ return $this->p; } /** * Doubles and adds a point on a curve * * See https://tools.ietf.org/html/draft-ietf-tls-curve25519-01#appendix-A.1.3 * * @return FiniteField[][] */ private function doubleAndAddPoint(array $p, array $q, PrimeInteger $x1) { if (!isset($this->factory)) { throw new \RuntimeException('setModulo needs to be called before this method'); } if (!count($p) || !count($q)) { return []; } if (!isset($p[1])) { throw new \RuntimeException('Affine coordinates need to be manually converted to XZ coordinates'); } list($x2, $z2) = $p; list($x3, $z3) = $q; $a = $x2->add($z2); $aa = $a->multiply($a); $b = $x2->subtract($z2); $bb = $b->multiply($b); $e = $aa->subtract($bb); $c = $x3->add($z3); $d = $x3->subtract($z3); $da = $d->multiply($a); $cb = $c->multiply($b); $temp = $da->add($cb); $x5 = $temp->multiply($temp); $temp = $da->subtract($cb); $z5 = $x1->multiply($temp->multiply($temp)); $x4 = $aa->multiply($bb); $temp = static::class == Curve25519::class ? $bb : $aa; $z4 = $e->multiply($temp->add($this->a24->multiply($e))); return [ [$x4, $z4], [$x5, $z5] ]; } /** * Multiply a point on the curve by a scalar * * Uses the montgomery ladder technique as described here: * * https://en.wikipedia.org/wiki/Elliptic_curve_point_multiplication#Montgomery_ladder * https://github.com/phpecc/phpecc/issues/16#issuecomment-59176772 * * @return array */ public function multiplyPoint(array $p, BigInteger $d) { $p1 = [$this->one, $this->zero]; $alreadyInternal = isset($x[1]); $p2 = $this->convertToInternal($p); $x = $p[0]; $b = $d->toBits(); $b = str_pad($b, 256, '0', STR_PAD_LEFT); for ($i = 0; $i < strlen($b); $i++) { $b_i = (int) $b[$i]; if ($b_i) { list($p2, $p1) = $this->doubleAndAddPoint($p2, $p1, $x); } else { list($p1, $p2) = $this->doubleAndAddPoint($p1, $p2, $x); } } return $alreadyInternal ? $p1 : $this->convertToAffine($p1); } /** * Converts an affine point to an XZ coordinate * * From https://hyperelliptic.org/EFD/g1p/auto-montgom-xz.html * * XZ coordinates represent x y as X Z satsfying the following equations: * * x=X/Z * * @return \phpseclib3\Math\PrimeField\Integer[] */ public function convertToInternal(array $p) { if (empty($p)) { return [clone $this->zero, clone $this->one]; } if (isset($p[1])) { return $p; } $p[1] = clone $this->one; return $p; } /** * Returns the affine point * * @return \phpseclib3\Math\PrimeField\Integer[] */ public function convertToAffine(array $p) { if (!isset($p[1])) { return $p; } list($x, $z) = $p; return [$x->divide($z)]; } }

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