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* @license http://opensource.org/licenses/BSD-3-Clause 3-clause BSD * @link https://github.com/firebase/php-jwt */ class JWK { private const OID = '1.2.840.10045.2.1'; private const ASN1_OBJECT_IDENTIFIER = 0x06; private const ASN1_SEQUENCE = 0x10; // also defined in JWT private const ASN1_BIT_STRING = 0x03; private const EC_CURVES = [ 'P-256' => '1.2.840.10045.3.1.7', // Len: 64 'secp256k1' => '1.3.132.0.10', // Len: 64 // 'P-384' => '1.3.132.0.34', // Len: 96 (not yet supported) // 'P-521' => '1.3.132.0.35', // Len: 132 (not supported) ]; /** * Parse a set of JWK keys * * @param array
$jwks The JSON Web Key Set as an associative array * @param string $defaultAlg The algorithm for the Key object if "alg" is not set in the * JSON Web Key Set * * @return array
An associative array of key IDs (kid) to Key objects * * @throws InvalidArgumentException Provided JWK Set is empty * @throws UnexpectedValueException Provided JWK Set was invalid * @throws DomainException OpenSSL failure * * @uses parseKey */ public static function parseKeySet(array $jwks, string $defaultAlg = null): array { $keys = []; if (!isset($jwks['keys'])) { throw new UnexpectedValueException('"keys" member must exist in the JWK Set'); } if (empty($jwks['keys'])) { throw new InvalidArgumentException('JWK Set did not contain any keys'); } foreach ($jwks['keys'] as $k => $v) { $kid = isset($v['kid']) ? $v['kid'] : $k; if ($key = self::parseKey($v, $defaultAlg)) { $keys[(string) $kid] = $key; } } if (0 === \count($keys)) { throw new UnexpectedValueException('No supported algorithms found in JWK Set'); } return $keys; } /** * Parse a JWK key * * @param array
$jwk An individual JWK * @param string $defaultAlg The algorithm for the Key object if "alg" is not set in the * JSON Web Key Set * * @return Key The key object for the JWK * * @throws InvalidArgumentException Provided JWK is empty * @throws UnexpectedValueException Provided JWK was invalid * @throws DomainException OpenSSL failure * * @uses createPemFromModulusAndExponent */ public static function parseKey(array $jwk, string $defaultAlg = null): ?Key { if (empty($jwk)) { throw new InvalidArgumentException('JWK must not be empty'); } if (!isset($jwk['kty'])) { throw new UnexpectedValueException('JWK must contain a "kty" parameter'); } if (!isset($jwk['alg'])) { if (\is_null($defaultAlg)) { // The "alg" parameter is optional in a KTY, but an algorithm is required // for parsing in this library. Use the $defaultAlg parameter when parsing the // key set in order to prevent this error. // @see https://datatracker.ietf.org/doc/html/rfc7517#section-4.4 throw new UnexpectedValueException('JWK must contain an "alg" parameter'); } $jwk['alg'] = $defaultAlg; } switch ($jwk['kty']) { case 'RSA': if (!empty($jwk['d'])) { throw new UnexpectedValueException('RSA private keys are not supported'); } if (!isset($jwk['n']) || !isset($jwk['e'])) { throw new UnexpectedValueException('RSA keys must contain values for both "n" and "e"'); } $pem = self::createPemFromModulusAndExponent($jwk['n'], $jwk['e']); $publicKey = \openssl_pkey_get_public($pem); if (false === $publicKey) { throw new DomainException( 'OpenSSL error: ' . \openssl_error_string() ); } return new Key($publicKey, $jwk['alg']); case 'EC': if (isset($jwk['d'])) { // The key is actually a private key throw new UnexpectedValueException('Key data must be for a public key'); } if (empty($jwk['crv'])) { throw new UnexpectedValueException('crv not set'); } if (!isset(self::EC_CURVES[$jwk['crv']])) { throw new DomainException('Unrecognised or unsupported EC curve'); } if (empty($jwk['x']) || empty($jwk['y'])) { throw new UnexpectedValueException('x and y not set'); } $publicKey = self::createPemFromCrvAndXYCoordinates($jwk['crv'], $jwk['x'], $jwk['y']); return new Key($publicKey, $jwk['alg']); default: // Currently only RSA is supported break; } return null; } /** * Converts the EC JWK values to pem format. * * @param string $crv The EC curve (only P-256 is supported) * @param string $x The EC x-coordinate * @param string $y The EC y-coordinate * * @return string */ private static function createPemFromCrvAndXYCoordinates(string $crv, string $x, string $y): string { $pem = self::encodeDER( self::ASN1_SEQUENCE, self::encodeDER( self::ASN1_SEQUENCE, self::encodeDER( self::ASN1_OBJECT_IDENTIFIER, self::encodeOID(self::OID) ) . self::encodeDER( self::ASN1_OBJECT_IDENTIFIER, self::encodeOID(self::EC_CURVES[$crv]) ) ) . self::encodeDER( self::ASN1_BIT_STRING, \chr(0x00) . \chr(0x04) . JWT::urlsafeB64Decode($x) . JWT::urlsafeB64Decode($y) ) ); return sprintf( "-----BEGIN PUBLIC KEY-----\n%s\n-----END PUBLIC KEY-----\n", wordwrap(base64_encode($pem), 64, "\n", true) ); } /** * Create a public key represented in PEM format from RSA modulus and exponent information * * @param string $n The RSA modulus encoded in Base64 * @param string $e The RSA exponent encoded in Base64 * * @return string The RSA public key represented in PEM format * * @uses encodeLength */ private static function createPemFromModulusAndExponent( string $n, string $e ): string { $mod = JWT::urlsafeB64Decode($n); $exp = JWT::urlsafeB64Decode($e); $modulus = \pack('Ca*a*', 2, self::encodeLength(\strlen($mod)), $mod); $publicExponent = \pack('Ca*a*', 2, self::encodeLength(\strlen($exp)), $exp); $rsaPublicKey = \pack( 'Ca*a*a*', 48, self::encodeLength(\strlen($modulus) + \strlen($publicExponent)), $modulus, $publicExponent ); // sequence(oid(1.2.840.113549.1.1.1), null)) = rsaEncryption. $rsaOID = \pack('H*', '300d06092a864886f70d0101010500'); // hex version of MA0GCSqGSIb3DQEBAQUA $rsaPublicKey = \chr(0) . $rsaPublicKey; $rsaPublicKey = \chr(3) . self::encodeLength(\strlen($rsaPublicKey)) . $rsaPublicKey; $rsaPublicKey = \pack( 'Ca*a*', 48, self::encodeLength(\strlen($rsaOID . $rsaPublicKey)), $rsaOID . $rsaPublicKey ); return "-----BEGIN PUBLIC KEY-----\r\n" . \chunk_split(\base64_encode($rsaPublicKey), 64) . '-----END PUBLIC KEY-----'; } /** * 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. * * @param int $length * @return string */ private static function encodeLength(int $length): string { if ($length <= 0x7F) { return \chr($length); } $temp = \ltrim(\pack('N', $length), \chr(0)); return \pack('Ca*', 0x80 | \strlen($temp), $temp); } /** * Encodes a value into a DER object. * Also defined in Firebase\JWT\JWT * * @param int $type DER tag * @param string $value the value to encode * @return string the encoded object */ private static function encodeDER(int $type, string $value): string { $tag_header = 0; if ($type === self::ASN1_SEQUENCE) { $tag_header |= 0x20; } // Type $der = \chr($tag_header | $type); // Length $der .= \chr(\strlen($value)); return $der . $value; } /** * Encodes a string into a DER-encoded OID. * * @param string $oid the OID string * @return string the binary DER-encoded OID */ private static function encodeOID(string $oid): string { $octets = explode('.', $oid); // Get the first octet $first = (int) array_shift($octets); $second = (int) array_shift($octets); $oid = \chr($first * 40 + $second); // Iterate over subsequent octets foreach ($octets as $octet) { if ($octet == 0) { $oid .= \chr(0x00); continue; } $bin = ''; while ($octet) { $bin .= \chr(0x80 | ($octet & 0x7f)); $octet >>= 7; } $bin[0] = $bin[0] & \chr(0x7f); // Convert to big endian if necessary if (pack('V', 65534) == pack('L', 65534)) { $oid .= strrev($bin); } else { $oid .= $bin; } } return $oid; } }