* @copyright 2015 Jim Wigginton * @license http://www.opensource.org/licenses/mit-license.html MIT License * @link http://phpseclib.sourceforge.net */ namespace phpseclib\Crypt\RSA; use phpseclib\Crypt\AES; use phpseclib\Crypt\Base; use phpseclib\Crypt\DES; use phpseclib\Crypt\TripleDES; use phpseclib\Math\BigInteger; /** * PKCS Formatted RSA Key Handler * * @package RSA * @author Jim Wigginton * @access public */ abstract class PKCS { /**#@+ * @access private * @see \phpseclib\Crypt\RSA::createKey() */ /** * ASN1 Integer */ const ASN1_INTEGER = 2; /** * ASN1 Bit String */ const ASN1_BITSTRING = 3; /** * ASN1 Octet String */ const ASN1_OCTETSTRING = 4; /** * ASN1 Object Identifier */ const ASN1_OBJECT = 6; /** * ASN1 Sequence (with the constucted bit set) */ const ASN1_SEQUENCE = 48; /**#@-*/ /**#@+ * @access private */ /** * Auto-detect the format */ const MODE_ANY = 0; /** * Require base64-encoded PEM's be supplied */ const MODE_PEM = 1; /** * Require raw DER's be supplied */ const MODE_DER = 2; /**#@-*/ /** * Is the key a base-64 encoded PEM, DER or should it be auto-detected? * * @access private * @param int */ static $format = self::MODE_ANY; /** * Returns the mode constant corresponding to the mode string * * @access public * @param string $mode * @return int * @throws \UnexpectedValueException if the block cipher mode is unsupported */ static function getEncryptionMode($mode) { switch ($mode) { case 'CBC': return Base::MODE_CBC; case 'ECB': return Base::MODE_ECB; case 'CFB': return Base::MODE_CFB; case 'OFB': return Base::MODE_OFB; case 'CTR': return Base::MODE_CTR; } throw new \UnexpectedValueException('Unsupported block cipher mode of operation'); } /** * Returns a cipher object corresponding to a string * * @access public * @param string $algo * @return string * @throws \UnexpectedValueException if the encryption algorithm is unsupported */ static function getEncryptionObject($algo) { $modes = '(CBC|ECB|CFB|OFB|CTR)'; switch (true) { case preg_match("#^AES-(128|192|256)-$modes$#", $algo, $matches): $cipher = new AES(self::getEncryptionMode($matches[2])); $cipher->setKeyLength($matches[1]); return $cipher; case preg_match("#^DES-EDE3-$modes$#", $algo, $matches): return new TripleDES(self::getEncryptionMode($matches[1])); case preg_match("#^DES-$modes$#", $algo, $matches): return new DES(self::getEncryptionMode($matches[1])); default: throw new \UnexpectedValueException('Unsupported encryption algorithmn'); } } /** * Generate a symmetric key for PKCS#1 keys * * @access public * @param string $password * @param string $iv * @param int $length * @return string */ static function generateSymmetricKey($password, $iv, $length) { $symkey = ''; $iv = substr($iv, 0, 8); while (strlen($symkey) < $length) { $symkey.= pack('H*', md5($symkey . $password . $iv)); } return substr($symkey, 0, $length); } /** * Break a public or private key down into its constituent components * * @access public * @param string $key * @param string $password optional * @return array */ static function load($key, $password = '') { if (!is_string($key)) { return false; } $components = array('isPublicKey' => strpos($key, 'PUBLIC') !== false); /* Although PKCS#1 proposes a format that public and private keys can use, encrypting them is "outside the scope" of PKCS#1. PKCS#1 then refers you to PKCS#12 and PKCS#15 if you're wanting to protect private keys, however, that's not what OpenSSL* does. OpenSSL protects private keys by adding two new "fields" to the key - DEK-Info and Proc-Type. These fields are discussed here: http://tools.ietf.org/html/rfc1421#section-4.6.1.1 http://tools.ietf.org/html/rfc1421#section-4.6.1.3 DES-EDE3-CBC as an algorithm, however, is not discussed anywhere, near as I can tell. DES-CBC and DES-EDE are discussed in RFC1423, however, DES-EDE3-CBC isn't, nor is its key derivation function. As is, the definitive authority on this encoding scheme isn't the IETF but rather OpenSSL's own implementation. ie. the implementation *is* the standard and any bugs that may exist in that implementation are part of the standard, as well. * OpenSSL is the de facto standard. It's utilized by OpenSSH and other projects */ if (preg_match('#DEK-Info: (.+),(.+)#', $key, $matches)) { $iv = pack('H*', trim($matches[2])); // remove the Proc-Type / DEK-Info sections as they're no longer needed $key = preg_replace('#^(?:Proc-Type|DEK-Info): .*#m', '', $key); $ciphertext = self::_extractBER($key); if ($ciphertext === false) { $ciphertext = $key; } $crypto = self::getEncryptionObject($matches[1]); $crypto->setKey(self::generateSymmetricKey($password, $iv, $crypto->getKeyLength() >> 3)); $crypto->setIV($iv); $key = $crypto->decrypt($ciphertext); if ($key === false) { return false; } } else { if (self::$format != self::MODE_DER) { $decoded = self::_extractBER($key); if ($decoded !== false) { $key = $decoded; } elseif (self::$format == self::MODE_PEM) { return false; } } } if (ord(self::_string_shift($key)) != self::ASN1_SEQUENCE) { return false; } if (self::_decodeLength($key) != strlen($key)) { return false; } $tag = ord(self::_string_shift($key)); /* intended for keys for which OpenSSL's asn1parse returns the following: 0:d=0 hl=4 l= 631 cons: SEQUENCE 4:d=1 hl=2 l= 1 prim: INTEGER :00 7:d=1 hl=2 l= 13 cons: SEQUENCE 9:d=2 hl=2 l= 9 prim: OBJECT :rsaEncryption 20:d=2 hl=2 l= 0 prim: NULL 22:d=1 hl=4 l= 609 prim: OCTET STRING ie. PKCS8 keys */ if ($tag == self::ASN1_INTEGER && substr($key, 0, 3) == "\x01\x00\x30") { self::_string_shift($key, 3); $tag = self::ASN1_SEQUENCE; } if ($tag == self::ASN1_SEQUENCE) { $temp = self::_string_shift($key, self::_decodeLength($key)); if (ord(self::_string_shift($temp)) != self::ASN1_OBJECT) { return false; } $length = self::_decodeLength($temp); switch (self::_string_shift($temp, $length)) { case "\x2a\x86\x48\x86\xf7\x0d\x01\x01\x01": // rsaEncryption break; case "\x2a\x86\x48\x86\xf7\x0d\x01\x05\x03": // pbeWithMD5AndDES-CBC /* PBEParameter ::= SEQUENCE { salt OCTET STRING (SIZE(8)), iterationCount INTEGER } */ if (ord(self::_string_shift($temp)) != self::ASN1_SEQUENCE) { return false; } if (self::_decodeLength($temp) != strlen($temp)) { return false; } self::_string_shift($temp); // assume it's an octet string $salt = self::_string_shift($temp, self::_decodeLength($temp)); if (ord(self::_string_shift($temp)) != self::ASN1_INTEGER) { return false; } self::_decodeLength($temp); list(, $iterationCount) = unpack('N', str_pad($temp, 4, chr(0), STR_PAD_LEFT)); self::_string_shift($key); // assume it's an octet string $length = self::_decodeLength($key); if (strlen($key) != $length) { return false; } $crypto = new DES(DES::MODE_CBC); $crypto->setPassword($password, 'pbkdf1', 'md5', $salt, $iterationCount); $key = $crypto->decrypt($key); if ($key === false) { return false; } return self::load($key); default: return false; } /* intended for keys for which OpenSSL's asn1parse returns the following: 0:d=0 hl=4 l= 290 cons: SEQUENCE 4:d=1 hl=2 l= 13 cons: SEQUENCE 6:d=2 hl=2 l= 9 prim: OBJECT :rsaEncryption 17:d=2 hl=2 l= 0 prim: NULL 19:d=1 hl=4 l= 271 prim: BIT STRING */ $tag = ord(self::_string_shift($key)); // skip over the BIT STRING / OCTET STRING tag self::_decodeLength($key); // skip over the BIT STRING / OCTET STRING length // "The initial octet shall encode, as an unsigned binary integer wtih bit 1 as the least significant bit, the number of // unused bits in the final subsequent octet. The number shall be in the range zero to seven." // -- http://www.itu.int/ITU-T/studygroups/com17/languages/X.690-0207.pdf (section 8.6.2.2) if ($tag == self::ASN1_BITSTRING) { self::_string_shift($key); } if (ord(self::_string_shift($key)) != self::ASN1_SEQUENCE) { return false; } if (self::_decodeLength($key) != strlen($key)) { return false; } $tag = ord(self::_string_shift($key)); } if ($tag != self::ASN1_INTEGER) { return false; } $length = self::_decodeLength($key); $temp = self::_string_shift($key, $length); if (strlen($temp) != 1 || ord($temp) > 2) { $components['modulus'] = new BigInteger($temp, 256); self::_string_shift($key); // skip over self::ASN1_INTEGER $length = self::_decodeLength($key); $components[$components['isPublicKey'] ? 'publicExponent' : 'privateExponent'] = new BigInteger(self::_string_shift($key, $length), 256); return $components; } if (ord(self::_string_shift($key)) != self::ASN1_INTEGER) { return false; } $length = self::_decodeLength($key); $components['modulus'] = new BigInteger(self::_string_shift($key, $length), 256); self::_string_shift($key); $length = self::_decodeLength($key); $components['publicExponent'] = new BigInteger(self::_string_shift($key, $length), 256); self::_string_shift($key); $length = self::_decodeLength($key); $components['privateExponent'] = new BigInteger(self::_string_shift($key, $length), 256); self::_string_shift($key); $length = self::_decodeLength($key); $components['primes'] = array(1 => new BigInteger(self::_string_shift($key, $length), 256)); self::_string_shift($key); $length = self::_decodeLength($key); $components['primes'][] = new BigInteger(self::_string_shift($key, $length), 256); self::_string_shift($key); $length = self::_decodeLength($key); $components['exponents'] = array(1 => new BigInteger(self::_string_shift($key, $length), 256)); self::_string_shift($key); $length = self::_decodeLength($key); $components['exponents'][] = new BigInteger(self::_string_shift($key, $length), 256); self::_string_shift($key); $length = self::_decodeLength($key); $components['coefficients'] = array(2 => new BigInteger(self::_string_shift($key, $length), 256)); if (!empty($key)) { if (ord(self::_string_shift($key)) != self::ASN1_SEQUENCE) { return false; } self::_decodeLength($key); while (!empty($key)) { if (ord(self::_string_shift($key)) != self::ASN1_SEQUENCE) { return false; } self::_decodeLength($key); $key = substr($key, 1); $length = self::_decodeLength($key); $components['primes'][] = new BigInteger(self::_string_shift($key, $length), 256); self::_string_shift($key); $length = self::_decodeLength($key); $components['exponents'][] = new BigInteger(self::_string_shift($key, $length), 256); self::_string_shift($key); $length = self::_decodeLength($key); $components['coefficients'][] = new BigInteger(self::_string_shift($key, $length), 256); } } return $components; } /** * Require base64-encoded PEM's be supplied * * @see self::load() * @access public */ static function requirePEM() { self::$format = self::MODE_PEM; } /** * Require raw DER's be supplied * * @see self::load() * @access public */ static function requireDER() { self::$format = self::MODE_DER; } /** * Accept any format and auto detect the format * * This is the default setting * * @see self::load() * @access public */ static function requireAny() { self::$format = self::MODE_ANY; } /** * DER-decode the length * * DER supports lengths up to (2**8)**127, however, we'll only support lengths up to (2**8)**4. See * {@link http://itu.int/ITU-T/studygroups/com17/languages/X.690-0207.pdf#p=13 X.690 paragraph 8.1.3} for more information. * * @access private * @param string $string * @return int */ static function _decodeLength(&$string) { $length = ord(self::_string_shift($string)); if ($length & 0x80) { // definite length, long form $length&= 0x7F; $temp = self::_string_shift($string, $length); list(, $length) = unpack('N', substr(str_pad($temp, 4, chr(0), STR_PAD_LEFT), -4)); } return $length; } /** * DER-encode the length * * DER supports lengths up to (2**8)**127, however, we'll only support lengths up to (2**8)**4. See * {@link http://itu.int/ITU-T/studygroups/com17/languages/X.690-0207.pdf#p=13 X.690 paragraph 8.1.3} for more information. * * @access private * @param int $length * @return string */ static function _encodeLength($length) { if ($length <= 0x7F) { return chr($length); } $temp = ltrim(pack('N', $length), chr(0)); return pack('Ca*', 0x80 | strlen($temp), $temp); } /** * String Shift * * Inspired by array_shift * * @param string $string * @param int $index * @return string * @access private */ static function _string_shift(&$string, $index = 1) { $substr = substr($string, 0, $index); $string = substr($string, $index); return $substr; } /** * Extract raw BER from Base64 encoding * * @access private * @param string $str * @return string */ static function _extractBER($str) { /* X.509 certs are assumed to be base64 encoded but sometimes they'll have additional things in them * above and beyond the ceritificate. * ie. some may have the following preceding the -----BEGIN CERTIFICATE----- line: * * Bag Attributes * localKeyID: 01 00 00 00 * subject=/O=organization/OU=org unit/CN=common name * issuer=/O=organization/CN=common name */ $temp = preg_replace('#.*?^-+[^-]+-+[\r\n ]*$#ms', '', $str, 1); // remove the -----BEGIN CERTIFICATE----- and -----END CERTIFICATE----- stuff $temp = preg_replace('#-+[^-]+-+#', '', $temp); // remove new lines $temp = str_replace(array("\r", "\n", ' '), '', $temp); $temp = preg_match('#^[a-zA-Z\d/+]*={0,2}$#', $temp) ? base64_decode($temp) : false; return $temp != false ? $temp : $str; } }