_attestationObject['attStmt']; if (!\array_key_exists('ver', $attStmt) || !$attStmt['ver']) { throw new WebAuthnException('invalid Android Safety Net Format', WebAuthnException::INVALID_DATA); } if (!\array_key_exists('response', $attStmt) || !($attStmt['response'] instanceof ByteBuffer)) { throw new WebAuthnException('invalid Android Safety Net Format', WebAuthnException::INVALID_DATA); } $response = $attStmt['response']->getBinaryString(); // Response is a JWS [RFC7515] object in Compact Serialization. // JWSs have three segments separated by two period ('.') characters $parts = \explode('.', $response); unset ($response); if (\count($parts) !== 3) { throw new WebAuthnException('invalid JWS data', WebAuthnException::INVALID_DATA); } $header = $this->_base64url_decode($parts[0]); $payload = $this->_base64url_decode($parts[1]); $this->_signature = $this->_base64url_decode($parts[2]); $this->_signedValue = $parts[0] . '.' . $parts[1]; unset ($parts); $header = \json_decode($header); $payload = \json_decode($payload); if (!($header instanceof \stdClass)) { throw new WebAuthnException('invalid JWS header', WebAuthnException::INVALID_DATA); } if (!($payload instanceof \stdClass)) { throw new WebAuthnException('invalid JWS payload', WebAuthnException::INVALID_DATA); } if (!$header->x5c || !is_array($header->x5c) || count($header->x5c) === 0) { throw new WebAuthnException('No X.509 signature in JWS Header', WebAuthnException::INVALID_DATA); } // algorithm if (!\in_array($header->alg, array('RS256', 'ES256'))) { throw new WebAuthnException('invalid JWS algorithm ' . $header->alg, WebAuthnException::INVALID_DATA); } $this->_x5c = \base64_decode($header->x5c[0]); $this->_payload = $payload; if (count($header->x5c) > 1) { for ($i=1; $ix5c); $i++) { $this->_x5c_chain[] = \base64_decode($header->x5c[$i]); } unset ($i); } } /* * returns the key certificate in PEM format * @return string */ public function getCertificatePem() { return $this->_createCertificatePem($this->_x5c); } /** * @param string $clientDataHash */ public function validateAttestation($clientDataHash) { $publicKey = \openssl_pkey_get_public($this->getCertificatePem()); // Verify that the nonce in the response is identical to the Base64 encoding // of the SHA-256 hash of the concatenation of authenticatorData and clientDataHash. if (!$this->_payload->nonce || $this->_payload->nonce !== \base64_encode(\hash('SHA256', $this->_authenticatorData->getBinary() . $clientDataHash, true))) { throw new WebAuthnException('invalid nonce in JWS payload', WebAuthnException::INVALID_DATA); } // Verify that attestationCert is issued to the hostname "attest.android.com" $certInfo = \openssl_x509_parse($this->getCertificatePem()); if (!\is_array($certInfo) || !$certInfo['subject'] || $certInfo['subject']['CN'] !== 'attest.android.com') { throw new WebAuthnException('invalid certificate CN in JWS (' . $certInfo['subject']['CN']. ')', WebAuthnException::INVALID_DATA); } // Verify that the ctsProfileMatch attribute in the payload of response is true. if (!$this->_payload->ctsProfileMatch) { throw new WebAuthnException('invalid ctsProfileMatch in payload', WebAuthnException::INVALID_DATA); } // check certificate return \openssl_verify($this->_signedValue, $this->_signature, $publicKey, OPENSSL_ALGO_SHA256) === 1; } /** * validates the certificate against root certificates * @param array $rootCas * @return boolean * @throws WebAuthnException */ public function validateRootCertificate($rootCas) { $chainC = $this->_createX5cChainFile(); if ($chainC) { $rootCas[] = $chainC; } $v = \openssl_x509_checkpurpose($this->getCertificatePem(), -1, $rootCas); if ($v === -1) { throw new WebAuthnException('error on validating root certificate: ' . \openssl_error_string(), WebAuthnException::CERTIFICATE_NOT_TRUSTED); } return $v; } /** * decode base64 url * @param string $data * @return string */ private function _base64url_decode($data) { return \base64_decode(\strtr($data, '-_', '+/') . \str_repeat('=', 3 - (3 + \strlen($data)) % 4)); } }