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https://github.com/danog/tgseclib.git
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576 lines
17 KiB
PHP
576 lines
17 KiB
PHP
<?php
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/**
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* RSA Private Key
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*
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* @category Crypt
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* @package RSA
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* @author Jim Wigginton <terrafrost@php.net>
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* @copyright 2015 Jim Wigginton
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* @license http://www.opensource.org/licenses/mit-license.html MIT License
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* @link http://phpseclib.sourceforge.net
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*/
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namespace phpseclib\Crypt\RSA;
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use phpseclib\Crypt\RSA;
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use phpseclib\Math\BigInteger;
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use phpseclib\File\ASN1;
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use phpseclib\Common\Functions\Strings;
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use phpseclib\Crypt\Hash;
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use phpseclib\Exceptions\NoKeyLoadedException;
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use phpseclib\Exception\UnsupportedFormatException;
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use phpseclib\Crypt\Random;
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use phpseclib\Crypt\Common;
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use phpseclib\Crypt\RSA\Formats\Keys\PSS;
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/**
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* Raw RSA Key Handler
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*
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* @package RSA
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* @author Jim Wigginton <terrafrost@php.net>
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* @access public
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*/
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class PrivateKey extends RSA implements Common\PrivateKey
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{
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use Common\Traits\PasswordProtected;
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/**
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* Primes for Chinese Remainder Theorem (ie. p and q)
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*
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* @var array
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* @access private
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*/
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protected $primes;
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/**
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* Exponents for Chinese Remainder Theorem (ie. dP and dQ)
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*
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* @var array
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* @access private
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*/
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protected $exponents;
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/**
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* Coefficients for Chinese Remainder Theorem (ie. qInv)
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*
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* @var array
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* @access private
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*/
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protected $coefficients;
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/**
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* Public Exponent
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*
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* @var mixed
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* @access private
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*/
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protected $publicExponent = false;
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/**
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* RSADP
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*
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* See {@link http://tools.ietf.org/html/rfc3447#section-5.1.2 RFC3447#section-5.1.2}.
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*
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* @access private
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* @param \phpseclib\Math\BigInteger $c
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* @return bool|\phpseclib\Math\BigInteger
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*/
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private function rsadp($c)
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{
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if ($c->compare(self::$zero) < 0 || $c->compare($this->modulus) > 0) {
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return false;
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}
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return $this->exponentiate($c);
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}
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/**
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* RSASP1
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*
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* See {@link http://tools.ietf.org/html/rfc3447#section-5.2.1 RFC3447#section-5.2.1}.
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*
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* @access private
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* @param \phpseclib\Math\BigInteger $m
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* @return bool|\phpseclib\Math\BigInteger
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*/
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private function rsasp1($m)
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{
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if ($m->compare(self::$zero) < 0 || $m->compare($this->modulus) > 0) {
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return false;
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}
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return $this->exponentiate($m);
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}
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/**
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* Exponentiate
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*
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* @param \phpseclib\Math\BigInteger $x
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* @return \phpseclib\Math\BigInteger
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*/
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protected function exponentiate(BigInteger $x)
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{
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switch (true) {
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case empty($this->primes):
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case $this->primes[1]->equals(self::$zero):
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case empty($this->coefficients):
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case $this->coefficients[2]->equals(self::$zero):
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case empty($this->exponents):
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case $this->exponents[1]->equals(self::$zero):
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return $x->modPow($this->exponent, $this->modulus);
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}
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$num_primes = count($this->primes);
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if (!static::$enableBlinding) {
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$m_i = [
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1 => $x->modPow($this->exponents[1], $this->primes[1]),
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2 => $x->modPow($this->exponents[2], $this->primes[2])
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];
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$h = $m_i[1]->subtract($m_i[2]);
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$h = $h->multiply($this->coefficients[2]);
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list(, $h) = $h->divide($this->primes[1]);
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$m = $m_i[2]->add($h->multiply($this->primes[2]));
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$r = $this->primes[1];
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for ($i = 3; $i <= $num_primes; $i++) {
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$m_i = $x->modPow($this->exponents[$i], $this->primes[$i]);
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$r = $r->multiply($this->primes[$i - 1]);
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$h = $m_i->subtract($m);
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$h = $h->multiply($this->coefficients[$i]);
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list(, $h) = $h->divide($this->primes[$i]);
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$m = $m->add($r->multiply($h));
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}
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} else {
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$smallest = $this->primes[1];
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for ($i = 2; $i <= $num_primes; $i++) {
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if ($smallest->compare($this->primes[$i]) > 0) {
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$smallest = $this->primes[$i];
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}
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}
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$r = BigInteger::randomRange(self::$one, $smallest->subtract(self::$one));
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$m_i = [
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1 => $this->blind($x, $r, 1),
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2 => $this->blind($x, $r, 2)
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];
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$h = $m_i[1]->subtract($m_i[2]);
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$h = $h->multiply($this->coefficients[2]);
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list(, $h) = $h->divide($this->primes[1]);
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$m = $m_i[2]->add($h->multiply($this->primes[2]));
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$r = $this->primes[1];
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for ($i = 3; $i <= $num_primes; $i++) {
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$m_i = $this->blind($x, $r, $i);
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$r = $r->multiply($this->primes[$i - 1]);
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$h = $m_i->subtract($m);
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$h = $h->multiply($this->coefficients[$i]);
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list(, $h) = $h->divide($this->primes[$i]);
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$m = $m->add($r->multiply($h));
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}
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}
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return $m;
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}
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/**
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* Performs RSA Blinding
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*
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* Protects against timing attacks by employing RSA Blinding.
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* Returns $x->modPow($this->exponents[$i], $this->primes[$i])
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*
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* @access private
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* @param \phpseclib\Math\BigInteger $x
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* @param \phpseclib\Math\BigInteger $r
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* @param int $i
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* @return \phpseclib\Math\BigInteger
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*/
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private function blind($x, $r, $i)
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{
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$x = $x->multiply($r->modPow($this->publicExponent, $this->primes[$i]));
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$x = $x->modPow($this->exponents[$i], $this->primes[$i]);
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$r = $r->modInverse($this->primes[$i]);
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$x = $x->multiply($r);
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list(, $x) = $x->divide($this->primes[$i]);
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return $x;
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}
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/**
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* EMSA-PSS-ENCODE
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*
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* See {@link http://tools.ietf.org/html/rfc3447#section-9.1.1 RFC3447#section-9.1.1}.
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*
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* @return string
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* @access private
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* @param string $m
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* @throws \RuntimeException on encoding error
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* @param int $emBits
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*/
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private function emsa_pss_encode($m, $emBits)
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{
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// if $m is larger than two million terrabytes and you're using sha1, PKCS#1 suggests a "Label too long" error
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// be output.
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$emLen = ($emBits + 1) >> 3; // ie. ceil($emBits / 8)
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$sLen = $this->sLen !== null ? $this->sLen : $this->hLen;
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$mHash = $this->hash->hash($m);
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if ($emLen < $this->hLen + $sLen + 2) {
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return false;
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}
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$salt = Random::string($sLen);
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$m2 = "\0\0\0\0\0\0\0\0" . $mHash . $salt;
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$h = $this->hash->hash($m2);
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$ps = str_repeat(chr(0), $emLen - $sLen - $this->hLen - 2);
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$db = $ps . chr(1) . $salt;
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$dbMask = $this->mgf1($h, $emLen - $this->hLen - 1);
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$maskedDB = $db ^ $dbMask;
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$maskedDB[0] = ~chr(0xFF << ($emBits & 7)) & $maskedDB[0];
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$em = $maskedDB . $h . chr(0xBC);
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return $em;
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}
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/**
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* RSASSA-PSS-SIGN
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*
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* See {@link http://tools.ietf.org/html/rfc3447#section-8.1.1 RFC3447#section-8.1.1}.
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*
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* @access private
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* @param string $m
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* @return bool|string
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*/
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private function rsassa_pss_sign($m)
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{
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// EMSA-PSS encoding
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$em = $this->emsa_pss_encode($m, 8 * $this->k - 1);
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// RSA signature
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$m = $this->os2ip($em);
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$s = $this->rsasp1($m);
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$s = $this->i2osp($s, $this->k);
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// Output the signature S
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return $s;
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}
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/**
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* RSASSA-PKCS1-V1_5-SIGN
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*
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* See {@link http://tools.ietf.org/html/rfc3447#section-8.2.1 RFC3447#section-8.2.1}.
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*
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* @access private
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* @param string $m
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* @throws \LengthException if the RSA modulus is too short
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* @return bool|string
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*/
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private function rsassa_pkcs1_v1_5_sign($m)
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{
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// EMSA-PKCS1-v1_5 encoding
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// If the encoding operation outputs "intended encoded message length too short," output "RSA modulus
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// too short" and stop.
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try {
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$em = $this->emsa_pkcs1_v1_5_encode($m, $this->k);
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} catch (\LengthException $e) {
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throw new \LengthException('RSA modulus too short');
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}
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// RSA signature
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$m = $this->os2ip($em);
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$s = $this->rsasp1($m);
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$s = $this->i2osp($s, $this->k);
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// Output the signature S
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return $s;
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}
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/**
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* Create a signature
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*
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* @see self::verify()
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* @access public
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* @param string $message
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* @return string
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*/
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public function sign($message)
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{
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switch ($this->signaturePadding) {
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case self::SIGNATURE_PKCS1:
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case self::SIGNATURE_RELAXED_PKCS1:
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return $this->rsassa_pkcs1_v1_5_sign($message);
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//case self::SIGNATURE_PSS:
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default:
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return $this->rsassa_pss_sign($message);
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}
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}
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/**
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* RSAES-PKCS1-V1_5-DECRYPT
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*
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* See {@link http://tools.ietf.org/html/rfc3447#section-7.2.2 RFC3447#section-7.2.2}.
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*
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* For compatibility purposes, this function departs slightly from the description given in RFC3447.
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* The reason being that RFC2313#section-8.1 (PKCS#1 v1.5) states that ciphertext's encrypted by the
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* private key should have the second byte set to either 0 or 1 and that ciphertext's encrypted by the
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* public key should have the second byte set to 2. In RFC3447 (PKCS#1 v2.1), the second byte is supposed
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* to be 2 regardless of which key is used. For compatibility purposes, we'll just check to make sure the
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* second byte is 2 or less. If it is, we'll accept the decrypted string as valid.
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*
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* As a consequence of this, a private key encrypted ciphertext produced with \phpseclib\Crypt\RSA may not decrypt
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* with a strictly PKCS#1 v1.5 compliant RSA implementation. Public key encrypted ciphertext's should but
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* not private key encrypted ciphertext's.
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*
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* @access private
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* @param string $c
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* @return bool|string
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*/
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private function rsaes_pkcs1_v1_5_decrypt($c)
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{
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// Length checking
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if (strlen($c) != $this->k) { // or if k < 11
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return false;
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}
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// RSA decryption
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$c = $this->os2ip($c);
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$m = $this->rsadp($c);
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$em = $this->i2osp($m, $this->k);
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if ($em === false) {
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return false;
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}
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// EME-PKCS1-v1_5 decoding
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if (ord($em[0]) != 0 || ord($em[1]) > 2) {
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return false;
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}
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$ps = substr($em, 2, strpos($em, chr(0), 2) - 2);
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$m = substr($em, strlen($ps) + 3);
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if (strlen($ps) < 8) {
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return false;
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}
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// Output M
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return $m;
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}
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/**
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* RSAES-OAEP-DECRYPT
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*
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* See {@link http://tools.ietf.org/html/rfc3447#section-7.1.2 RFC3447#section-7.1.2}. The fact that the error
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* messages aren't distinguishable from one another hinders debugging, but, to quote from RFC3447#section-7.1.2:
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*
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* Note. Care must be taken to ensure that an opponent cannot
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* distinguish the different error conditions in Step 3.g, whether by
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* error message or timing, or, more generally, learn partial
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* information about the encoded message EM. Otherwise an opponent may
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* be able to obtain useful information about the decryption of the
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* ciphertext C, leading to a chosen-ciphertext attack such as the one
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* observed by Manger [36].
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*
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* @access private
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* @param string $c
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* @return bool|string
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*/
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private function rsaes_oaep_decrypt($c)
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{
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// Length checking
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// if $l is larger than two million terrabytes and you're using sha1, PKCS#1 suggests a "Label too long" error
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// be output.
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if (strlen($c) != $this->k || $this->k < 2 * $this->hLen + 2) {
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return false;
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}
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// RSA decryption
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$c = $this->os2ip($c);
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$m = $this->rsadp($c);
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$em = $this->i2osp($m, $this->k);
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if ($em === false) {
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return false;
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}
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// EME-OAEP decoding
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$lHash = $this->hash->hash($this->label);
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$y = ord($em[0]);
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$maskedSeed = substr($em, 1, $this->hLen);
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$maskedDB = substr($em, $this->hLen + 1);
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$seedMask = $this->mgf1($maskedDB, $this->hLen);
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$seed = $maskedSeed ^ $seedMask;
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$dbMask = $this->mgf1($seed, $this->k - $this->hLen - 1);
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$db = $maskedDB ^ $dbMask;
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$lHash2 = substr($db, 0, $this->hLen);
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$m = substr($db, $this->hLen);
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$hashesMatch = hash_equals($lHash, $lHash2);
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$leadingZeros = 1;
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$patternMatch = 0;
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$offset = 0;
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for ($i = 0; $i < strlen($m); $i++) {
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$patternMatch|= $leadingZeros & ($m[$i] === "\1");
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$leadingZeros&= $m[$i] === "\0";
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$offset+= $patternMatch ? 0 : 1;
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}
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// we do & instead of && to avoid https://en.wikipedia.org/wiki/Short-circuit_evaluation
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// to protect against timing attacks
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if (!$hashesMatch & !$patternMatch) {
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return false;
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}
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// Output the message M
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return substr($m, $offset + 1);
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}
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/**
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* Raw Encryption / Decryption
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*
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* Doesn't use padding and is not recommended.
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*
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* @access private
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* @param string $m
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* @return bool|string
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* @throws \LengthException if strlen($m) > $this->k
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*/
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private function raw_encrypt($m)
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{
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if (strlen($m) > $this->k) {
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throw new \LengthException('Message too long');
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}
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$temp = $this->os2ip($m);
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$temp = $this->rsadp($temp);
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return $this->i2osp($temp, $this->k);
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}
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/**
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* Decryption
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*
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* @see self::encrypt()
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* @access public
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* @param string $ciphertext
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* @param int $padding optional
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* @return bool|string
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*/
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public function decrypt($ciphertext)
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{
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switch ($this->encryptionPadding) {
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case self::ENCRYPTION_NONE:
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return $this->raw_encrypt($ciphertext);
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case self::ENCRYPTION_PKCS1:
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return $this->rsaes_pkcs1_v1_5_decrypt($ciphertext);
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//case self::ENCRYPTION_OAEP:
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default:
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return $this->rsaes_oaep_decrypt($ciphertext);
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}
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}
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/**
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* Returns the public key
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*
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* @access public
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* @param string $type optional
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* @return mixed
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*/
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public function getPublicKey()
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{
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$type = self::validatePlugin('Keys', 'PKCS8', 'savePublicKey');
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if (empty($this->modulus) || empty($this->publicExponent)) {
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return false;
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}
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$key = $type::savePublicKey($this->modulus, $this->publicExponent);
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return RSA::loadFormat('PKCS8', $key)
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->withHash($this->hash->getHash())
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->withMGFHash($this->mgfHash->getHash())
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->withSaltLength($this->sLen)
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->withLabel($this->label)
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->withPadding($this->signaturePadding | $this->encryptionPadding);
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}
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/**
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* Returns the private key
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*
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* @param string $type
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* @param array $options optional
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* @return string
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*/
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public function toString($type, array $options = [])
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{
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$type = self::validatePlugin(
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'Keys',
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$type,
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empty($this->primes) ? 'savePublicKey' : 'savePrivateKey'
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);
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if ($type == PSS::class) {
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if ($this->signaturePadding == self::SIGNATURE_PSS) {
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$options+= [
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'hash' => $this->hash->getHash(),
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'MGFHash' => $this->mgfHash->getHash(),
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'saltLength' => $this->sLen
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];
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} else {
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throw new UnsupportedFormatException('The PSS format can only be used when the signature method has been explicitly set to PSS');
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}
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}
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if (empty($this->primes)) {
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return $type::savePublicKey($this->modulus, $this->exponent, $options);
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}
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return $type::savePrivateKey($this->modulus, $this->publicExponent, $this->exponent, $this->primes, $this->exponents, $this->coefficients, $this->password, $options);
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/*
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$key = $type::savePrivateKey($this->modulus, $this->publicExponent, $this->exponent, $this->primes, $this->exponents, $this->coefficients, $this->password, $options);
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if ($key !== false || count($this->primes) == 2) {
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return $key;
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}
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$nSize = $this->getSize() >> 1;
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$primes = [1 => clone self::$one, clone self::$one];
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$i = 1;
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foreach ($this->primes as $prime) {
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$primes[$i] = $primes[$i]->multiply($prime);
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if ($primes[$i]->getLength() >= $nSize) {
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$i++;
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}
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}
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$exponents = [];
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$coefficients = [2 => $primes[2]->modInverse($primes[1])];
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foreach ($primes as $i => $prime) {
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$temp = $prime->subtract(self::$one);
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$exponents[$i] = $this->modulus->modInverse($temp);
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}
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return $type::savePrivateKey($this->modulus, $this->publicExponent, $this->exponent, $primes, $exponents, $coefficients, $this->password, $options);
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*/
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}
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}
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