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adding webauthn test code

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jakani24
2024-04-04 20:06:52 +02:00
parent 9415ba95e5
commit 6632604528
16 changed files with 3794 additions and 0 deletions
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179
src/server/cyberhex-code/test/Attestation/AttestationObject.php Normal file
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<?php
namespace lbuchs\WebAuthn\Attestation;
use lbuchs\WebAuthn\WebAuthnException;
use lbuchs\WebAuthn\CBOR\CborDecoder;
use lbuchs\WebAuthn\Binary\ByteBuffer;
/**
* @author Lukas Buchs
* @license https://github.com/lbuchs/WebAuthn/blob/master/LICENSE MIT
*/
class AttestationObject {
private $_authenticatorData;
private $_attestationFormat;
private $_attestationFormatName;
public function __construct($binary , $allowedFormats) {
$enc = CborDecoder::decode($binary);
// validation
if (!\is_array($enc) || !\array_key_exists('fmt', $enc) || !is_string($enc['fmt'])) {
throw new WebAuthnException('invalid attestation format', WebAuthnException::INVALID_DATA);
}
if (!\array_key_exists('attStmt', $enc) || !\is_array($enc['attStmt'])) {
throw new WebAuthnException('invalid attestation format (attStmt not available)', WebAuthnException::INVALID_DATA);
}
if (!\array_key_exists('authData', $enc) || !\is_object($enc['authData']) || !($enc['authData'] instanceof ByteBuffer)) {
throw new WebAuthnException('invalid attestation format (authData not available)', WebAuthnException::INVALID_DATA);
}
$this->_authenticatorData = new AuthenticatorData($enc['authData']->getBinaryString());
$this->_attestationFormatName = $enc['fmt'];
// Format ok?
if (!in_array($this->_attestationFormatName, $allowedFormats)) {
throw new WebAuthnException('invalid atttestation format: ' . $this->_attestationFormatName, WebAuthnException::INVALID_DATA);
}
switch ($this->_attestationFormatName) {
case 'android-key': $this->_attestationFormat = new Format\AndroidKey($enc, $this->_authenticatorData); break;
case 'android-safetynet': $this->_attestationFormat = new Format\AndroidSafetyNet($enc, $this->_authenticatorData); break;
case 'apple': $this->_attestationFormat = new Format\Apple($enc, $this->_authenticatorData); break;
case 'fido-u2f': $this->_attestationFormat = new Format\U2f($enc, $this->_authenticatorData); break;
case 'none': $this->_attestationFormat = new Format\None($enc, $this->_authenticatorData); break;
case 'packed': $this->_attestationFormat = new Format\Packed($enc, $this->_authenticatorData); break;
case 'tpm': $this->_attestationFormat = new Format\Tpm($enc, $this->_authenticatorData); break;
default: throw new WebAuthnException('invalid attestation format: ' . $enc['fmt'], WebAuthnException::INVALID_DATA);
}
}
/**
* returns the attestation format name
* @return string
*/
public function getAttestationFormatName() {
return $this->_attestationFormatName;
}
/**
* returns the attestation format class
* @return Format\FormatBase
*/
public function getAttestationFormat() {
return $this->_attestationFormat;
}
/**
* returns the attestation public key in PEM format
* @return AuthenticatorData
*/
public function getAuthenticatorData() {
return $this->_authenticatorData;
}
/**
* returns the certificate chain as PEM
* @return string|null
*/
public function getCertificateChain() {
return $this->_attestationFormat->getCertificateChain();
}
/**
* return the certificate issuer as string
* @return string
*/
public function getCertificateIssuer() {
$pem = $this->getCertificatePem();
$issuer = '';
if ($pem) {
$certInfo = \openssl_x509_parse($pem);
if (\is_array($certInfo) && \array_key_exists('issuer', $certInfo) && \is_array($certInfo['issuer'])) {
$cn = $certInfo['issuer']['CN'] ?? '';
$o = $certInfo['issuer']['O'] ?? '';
$ou = $certInfo['issuer']['OU'] ?? '';
if ($cn) {
$issuer .= $cn;
}
if ($issuer && ($o || $ou)) {
$issuer .= ' (' . trim($o . ' ' . $ou) . ')';
} else {
$issuer .= trim($o . ' ' . $ou);
}
}
}
return $issuer;
}
/**
* return the certificate subject as string
* @return string
*/
public function getCertificateSubject() {
$pem = $this->getCertificatePem();
$subject = '';
if ($pem) {
$certInfo = \openssl_x509_parse($pem);
if (\is_array($certInfo) && \array_key_exists('subject', $certInfo) && \is_array($certInfo['subject'])) {
$cn = $certInfo['subject']['CN'] ?? '';
$o = $certInfo['subject']['O'] ?? '';
$ou = $certInfo['subject']['OU'] ?? '';
if ($cn) {
$subject .= $cn;
}
if ($subject && ($o || $ou)) {
$subject .= ' (' . trim($o . ' ' . $ou) . ')';
} else {
$subject .= trim($o . ' ' . $ou);
}
}
}
return $subject;
}
/**
* returns the key certificate in PEM format
* @return string
*/
public function getCertificatePem() {
return $this->_attestationFormat->getCertificatePem();
}
/**
* checks validity of the signature
* @param string $clientDataHash
* @return bool
* @throws WebAuthnException
*/
public function validateAttestation($clientDataHash) {
return $this->_attestationFormat->validateAttestation($clientDataHash);
}
/**
* validates the certificate against root certificates
* @param array $rootCas
* @return boolean
* @throws WebAuthnException
*/
public function validateRootCertificate($rootCas) {
return $this->_attestationFormat->validateRootCertificate($rootCas);
}
/**
* checks if the RpId-Hash is valid
* @param string$rpIdHash
* @return bool
*/
public function validateRpIdHash($rpIdHash) {
return $rpIdHash === $this->_authenticatorData->getRpIdHash();
}
}

481
src/server/cyberhex-code/test/Attestation/AuthenticatorData.php Normal file
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<?php
namespace lbuchs\WebAuthn\Attestation;
use lbuchs\WebAuthn\WebAuthnException;
use lbuchs\WebAuthn\CBOR\CborDecoder;
use lbuchs\WebAuthn\Binary\ByteBuffer;
/**
* @author Lukas Buchs
* @license https://github.com/lbuchs/WebAuthn/blob/master/LICENSE MIT
*/
class AuthenticatorData {
protected $_binary;
protected $_rpIdHash;
protected $_flags;
protected $_signCount;
protected $_attestedCredentialData;
protected $_extensionData;
// Cose encoded keys
private static $_COSE_KTY = 1;
private static $_COSE_ALG = 3;
// Cose curve
private static $_COSE_CRV = -1;
private static $_COSE_X = -2;
private static $_COSE_Y = -3;
// Cose RSA PS256
private static $_COSE_N = -1;
private static $_COSE_E = -2;
// EC2 key type
private static $_EC2_TYPE = 2;
private static $_EC2_ES256 = -7;
private static $_EC2_P256 = 1;
// RSA key type
private static $_RSA_TYPE = 3;
private static $_RSA_RS256 = -257;
// OKP key type
private static $_OKP_TYPE = 1;
private static $_OKP_ED25519 = 6;
private static $_OKP_EDDSA = -8;
/**
* Parsing the authenticatorData binary.
* @param string $binary
* @throws WebAuthnException
*/
public function __construct($binary) {
if (!\is_string($binary) || \strlen($binary) < 37) {
throw new WebAuthnException('Invalid authenticatorData input', WebAuthnException::INVALID_DATA);
}
$this->_binary = $binary;
// Read infos from binary
// https://www.w3.org/TR/webauthn/#sec-authenticator-data
// RP ID
$this->_rpIdHash = \substr($binary, 0, 32);
// flags (1 byte)
$flags = \unpack('Cflags', \substr($binary, 32, 1))['flags'];
$this->_flags = $this->_readFlags($flags);
// signature counter: 32-bit unsigned big-endian integer.
$this->_signCount = \unpack('Nsigncount', \substr($binary, 33, 4))['signcount'];
$offset = 37;
// https://www.w3.org/TR/webauthn/#sec-attested-credential-data
if ($this->_flags->attestedDataIncluded) {
$this->_attestedCredentialData = $this->_readAttestData($binary, $offset);
}
if ($this->_flags->extensionDataIncluded) {
$this->_readExtensionData(\substr($binary, $offset));
}
}
/**
* Authenticator Attestation Globally Unique Identifier, a unique number
* that identifies the model of the authenticator (not the specific instance
* of the authenticator)
* The aaguid may be 0 if the user is using a old u2f device and/or if
* the browser is using the fido-u2f format.
* @return string
* @throws WebAuthnException
*/
public function getAAGUID() {
if (!($this->_attestedCredentialData instanceof \stdClass)) {
throw new WebAuthnException('credential data not included in authenticator data', WebAuthnException::INVALID_DATA);
}
return $this->_attestedCredentialData->aaguid;
}
/**
* returns the authenticatorData as binary
* @return string
*/
public function getBinary() {
return $this->_binary;
}
/**
* returns the credentialId
* @return string
* @throws WebAuthnException
*/
public function getCredentialId() {
if (!($this->_attestedCredentialData instanceof \stdClass)) {
throw new WebAuthnException('credential id not included in authenticator data', WebAuthnException::INVALID_DATA);
}
return $this->_attestedCredentialData->credentialId;
}
/**
* returns the public key in PEM format
* @return string
*/
public function getPublicKeyPem() {
if (!($this->_attestedCredentialData instanceof \stdClass) || !isset($this->_attestedCredentialData->credentialPublicKey)) {
throw new WebAuthnException('credential data not included in authenticator data', WebAuthnException::INVALID_DATA);
}
$der = null;
switch ($this->_attestedCredentialData->credentialPublicKey->kty ?? null) {
case self::$_EC2_TYPE: $der = $this->_getEc2Der(); break;
case self::$_RSA_TYPE: $der = $this->_getRsaDer(); break;
case self::$_OKP_TYPE: $der = $this->_getOkpDer(); break;
default: throw new WebAuthnException('invalid key type', WebAuthnException::INVALID_DATA);
}
$pem = '-----BEGIN PUBLIC KEY-----' . "\n";
$pem .= \chunk_split(\base64_encode($der), 64, "\n");
$pem .= '-----END PUBLIC KEY-----' . "\n";
return $pem;
}
/**
* returns the public key in U2F format
* @return string
* @throws WebAuthnException
*/
public function getPublicKeyU2F() {
if (!($this->_attestedCredentialData instanceof \stdClass) || !isset($this->_attestedCredentialData->credentialPublicKey)) {
throw new WebAuthnException('credential data not included in authenticator data', WebAuthnException::INVALID_DATA);
}
if (($this->_attestedCredentialData->credentialPublicKey->kty ?? null) !== self::$_EC2_TYPE) {
throw new WebAuthnException('signature algorithm not ES256', WebAuthnException::INVALID_PUBLIC_KEY);
}
return "\x04" . // ECC uncompressed
$this->_attestedCredentialData->credentialPublicKey->x .
$this->_attestedCredentialData->credentialPublicKey->y;
}
/**
* returns the SHA256 hash of the relying party id (=hostname)
* @return string
*/
public function getRpIdHash() {
return $this->_rpIdHash;
}
/**
* returns the sign counter
* @return int
*/
public function getSignCount() {
return $this->_signCount;
}
/**
* returns true if the user is present
* @return boolean
*/
public function getUserPresent() {
return $this->_flags->userPresent;
}
/**
* returns true if the user is verified
* @return boolean
*/
public function getUserVerified() {
return $this->_flags->userVerified;
}
// -----------------------------------------------
// PRIVATE
// -----------------------------------------------
/**
* Returns DER encoded EC2 key
* @return string
*/
private function _getEc2Der() {
return $this->_der_sequence(
$this->_der_sequence(
$this->_der_oid("\x2A\x86\x48\xCE\x3D\x02\x01") . // OID 1.2.840.10045.2.1 ecPublicKey
$this->_der_oid("\x2A\x86\x48\xCE\x3D\x03\x01\x07") // 1.2.840.10045.3.1.7 prime256v1
) .
$this->_der_bitString($this->getPublicKeyU2F())
);
}
/**
* Returns DER encoded EdDSA key
* @return string
*/
private function _getOkpDer() {
return $this->_der_sequence(
$this->_der_sequence(
$this->_der_oid("\x2B\x65\x70") // OID 1.3.101.112 curveEd25519 (EdDSA 25519 signature algorithm)
) .
$this->_der_bitString($this->_attestedCredentialData->credentialPublicKey->x)
);
}
/**
* Returns DER encoded RSA key
* @return string
*/
private function _getRsaDer() {
return $this->_der_sequence(
$this->_der_sequence(
$this->_der_oid("\x2A\x86\x48\x86\xF7\x0D\x01\x01\x01") . // OID 1.2.840.113549.1.1.1 rsaEncryption
$this->_der_nullValue()
) .
$this->_der_bitString(
$this->_der_sequence(
$this->_der_unsignedInteger($this->_attestedCredentialData->credentialPublicKey->n) .
$this->_der_unsignedInteger($this->_attestedCredentialData->credentialPublicKey->e)
)
)
);
}
/**
* reads the flags from flag byte
* @param string $binFlag
* @return \stdClass
*/
private function _readFlags($binFlag) {
$flags = new \stdClass();
$flags->bit_0 = !!($binFlag & 1);
$flags->bit_1 = !!($binFlag & 2);
$flags->bit_2 = !!($binFlag & 4);
$flags->bit_3 = !!($binFlag & 8);
$flags->bit_4 = !!($binFlag & 16);
$flags->bit_5 = !!($binFlag & 32);
$flags->bit_6 = !!($binFlag & 64);
$flags->bit_7 = !!($binFlag & 128);
// named flags
$flags->userPresent = $flags->bit_0;
$flags->userVerified = $flags->bit_2;
$flags->attestedDataIncluded = $flags->bit_6;
$flags->extensionDataIncluded = $flags->bit_7;
return $flags;
}
/**
* read attested data
* @param string $binary
* @param int $endOffset
* @return \stdClass
* @throws WebAuthnException
*/
private function _readAttestData($binary, &$endOffset) {
$attestedCData = new \stdClass();
if (\strlen($binary) <= 55) {
throw new WebAuthnException('Attested data should be present but is missing', WebAuthnException::INVALID_DATA);
}
// The AAGUID of the authenticator
$attestedCData->aaguid = \substr($binary, 37, 16);
//Byte length L of Credential ID, 16-bit unsigned big-endian integer.
$length = \unpack('nlength', \substr($binary, 53, 2))['length'];
$attestedCData->credentialId = \substr($binary, 55, $length);
// set end offset
$endOffset = 55 + $length;
// extract public key
$attestedCData->credentialPublicKey = $this->_readCredentialPublicKey($binary, 55 + $length, $endOffset);
return $attestedCData;
}
/**
* reads COSE key-encoded elliptic curve public key in EC2 format
* @param string $binary
* @param int $endOffset
* @return \stdClass
* @throws WebAuthnException
*/
private function _readCredentialPublicKey($binary, $offset, &$endOffset) {
$enc = CborDecoder::decodeInPlace($binary, $offset, $endOffset);
// COSE key-encoded elliptic curve public key in EC2 format
$credPKey = new \stdClass();
$credPKey->kty = $enc[self::$_COSE_KTY];
$credPKey->alg = $enc[self::$_COSE_ALG];
switch ($credPKey->alg) {
case self::$_EC2_ES256: $this->_readCredentialPublicKeyES256($credPKey, $enc); break;
case self::$_RSA_RS256: $this->_readCredentialPublicKeyRS256($credPKey, $enc); break;
case self::$_OKP_EDDSA: $this->_readCredentialPublicKeyEDDSA($credPKey, $enc); break;
}
return $credPKey;
}
/**
* extract EDDSA informations from cose
* @param \stdClass $credPKey
* @param \stdClass $enc
* @throws WebAuthnException
*/
private function _readCredentialPublicKeyEDDSA(&$credPKey, $enc) {
$credPKey->crv = $enc[self::$_COSE_CRV];
$credPKey->x = $enc[self::$_COSE_X] instanceof ByteBuffer ? $enc[self::$_COSE_X]->getBinaryString() : null;
unset ($enc);
// Validation
if ($credPKey->kty !== self::$_OKP_TYPE) {
throw new WebAuthnException('public key not in OKP format', WebAuthnException::INVALID_PUBLIC_KEY);
}
if ($credPKey->alg !== self::$_OKP_EDDSA) {
throw new WebAuthnException('signature algorithm not EdDSA', WebAuthnException::INVALID_PUBLIC_KEY);
}
if ($credPKey->crv !== self::$_OKP_ED25519) {
throw new WebAuthnException('curve not Ed25519', WebAuthnException::INVALID_PUBLIC_KEY);
}
if (\strlen($credPKey->x) !== 32) {
throw new WebAuthnException('Invalid X-coordinate', WebAuthnException::INVALID_PUBLIC_KEY);
}
}
/**
* extract ES256 informations from cose
* @param \stdClass $credPKey
* @param \stdClass $enc
* @throws WebAuthnException
*/
private function _readCredentialPublicKeyES256(&$credPKey, $enc) {
$credPKey->crv = $enc[self::$_COSE_CRV];
$credPKey->x = $enc[self::$_COSE_X] instanceof ByteBuffer ? $enc[self::$_COSE_X]->getBinaryString() : null;
$credPKey->y = $enc[self::$_COSE_Y] instanceof ByteBuffer ? $enc[self::$_COSE_Y]->getBinaryString() : null;
unset ($enc);
// Validation
if ($credPKey->kty !== self::$_EC2_TYPE) {
throw new WebAuthnException('public key not in EC2 format', WebAuthnException::INVALID_PUBLIC_KEY);
}
if ($credPKey->alg !== self::$_EC2_ES256) {
throw new WebAuthnException('signature algorithm not ES256', WebAuthnException::INVALID_PUBLIC_KEY);
}
if ($credPKey->crv !== self::$_EC2_P256) {
throw new WebAuthnException('curve not P-256', WebAuthnException::INVALID_PUBLIC_KEY);
}
if (\strlen($credPKey->x) !== 32) {
throw new WebAuthnException('Invalid X-coordinate', WebAuthnException::INVALID_PUBLIC_KEY);
}
if (\strlen($credPKey->y) !== 32) {
throw new WebAuthnException('Invalid Y-coordinate', WebAuthnException::INVALID_PUBLIC_KEY);
}
}
/**
* extract RS256 informations from COSE
* @param \stdClass $credPKey
* @param \stdClass $enc
* @throws WebAuthnException
*/
private function _readCredentialPublicKeyRS256(&$credPKey, $enc) {
$credPKey->n = $enc[self::$_COSE_N] instanceof ByteBuffer ? $enc[self::$_COSE_N]->getBinaryString() : null;
$credPKey->e = $enc[self::$_COSE_E] instanceof ByteBuffer ? $enc[self::$_COSE_E]->getBinaryString() : null;
unset ($enc);
// Validation
if ($credPKey->kty !== self::$_RSA_TYPE) {
throw new WebAuthnException('public key not in RSA format', WebAuthnException::INVALID_PUBLIC_KEY);
}
if ($credPKey->alg !== self::$_RSA_RS256) {
throw new WebAuthnException('signature algorithm not ES256', WebAuthnException::INVALID_PUBLIC_KEY);
}
if (\strlen($credPKey->n) !== 256) {
throw new WebAuthnException('Invalid RSA modulus', WebAuthnException::INVALID_PUBLIC_KEY);
}
if (\strlen($credPKey->e) !== 3) {
throw new WebAuthnException('Invalid RSA public exponent', WebAuthnException::INVALID_PUBLIC_KEY);
}
}
/**
* reads cbor encoded extension data.
* @param string $binary
* @return array
* @throws WebAuthnException
*/
private function _readExtensionData($binary) {
$ext = CborDecoder::decode($binary);
if (!\is_array($ext)) {
throw new WebAuthnException('invalid extension data', WebAuthnException::INVALID_DATA);
}
return $ext;
}
// ---------------
// DER functions
// ---------------
private function _der_length($len) {
if ($len < 128) {
return \chr($len);
}
$lenBytes = '';
while ($len > 0) {
$lenBytes = \chr($len % 256) . $lenBytes;
$len = \intdiv($len, 256);
}
return \chr(0x80 | \strlen($lenBytes)) . $lenBytes;
}
private function _der_sequence($contents) {
return "\x30" . $this->_der_length(\strlen($contents)) . $contents;
}
private function _der_oid($encoded) {
return "\x06" . $this->_der_length(\strlen($encoded)) . $encoded;
}
private function _der_bitString($bytes) {
return "\x03" . $this->_der_length(\strlen($bytes) + 1) . "\x00" . $bytes;
}
private function _der_nullValue() {
return "\x05\x00";
}
private function _der_unsignedInteger($bytes) {
$len = \strlen($bytes);
// Remove leading zero bytes
for ($i = 0; $i < ($len - 1); $i++) {
if (\ord($bytes[$i]) !== 0) {
break;
}
}
if ($i !== 0) {
$bytes = \substr($bytes, $i);
}
// If most significant bit is set, prefix with another zero to prevent it being seen as negative number
if ((\ord($bytes[0]) & 0x80) !== 0) {
$bytes = "\x00" . $bytes;
}
return "\x02" . $this->_der_length(\strlen($bytes)) . $bytes;
}
}

96
src/server/cyberhex-code/test/Attestation/Format/AndroidKey.php Normal file
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<?php
namespace lbuchs\WebAuthn\Attestation\Format;
use lbuchs\WebAuthn\Attestation\AuthenticatorData;
use lbuchs\WebAuthn\WebAuthnException;
use lbuchs\WebAuthn\Binary\ByteBuffer;
class AndroidKey extends FormatBase {
private $_alg;
private $_signature;
private $_x5c;
public function __construct($AttestionObject, AuthenticatorData $authenticatorData) {
parent::__construct($AttestionObject, $authenticatorData);
// check u2f data
$attStmt = $this->_attestationObject['attStmt'];
if (!\array_key_exists('alg', $attStmt) || $this->_getCoseAlgorithm($attStmt['alg']) === null) {
throw new WebAuthnException('unsupported alg: ' . $attStmt['alg'], WebAuthnException::INVALID_DATA);
}
if (!\array_key_exists('sig', $attStmt) || !\is_object($attStmt['sig']) || !($attStmt['sig'] instanceof ByteBuffer)) {
throw new WebAuthnException('no signature found', WebAuthnException::INVALID_DATA);
}
if (!\array_key_exists('x5c', $attStmt) || !\is_array($attStmt['x5c']) || \count($attStmt['x5c']) < 1) {
throw new WebAuthnException('invalid x5c certificate', WebAuthnException::INVALID_DATA);
}
if (!\is_object($attStmt['x5c'][0]) || !($attStmt['x5c'][0] instanceof ByteBuffer)) {
throw new WebAuthnException('invalid x5c certificate', WebAuthnException::INVALID_DATA);
}
$this->_alg = $attStmt['alg'];
$this->_signature = $attStmt['sig']->getBinaryString();
$this->_x5c = $attStmt['x5c'][0]->getBinaryString();
if (count($attStmt['x5c']) > 1) {
for ($i=1; $i<count($attStmt['x5c']); $i++) {
$this->_x5c_chain[] = $attStmt['x5c'][$i]->getBinaryString();
}
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());
if ($publicKey === false) {
throw new WebAuthnException('invalid public key: ' . \openssl_error_string(), WebAuthnException::INVALID_PUBLIC_KEY);
}
// Verify that sig is a valid signature over the concatenation of authenticatorData and clientDataHash
// using the attestation public key in attestnCert with the algorithm specified in alg.
$dataToVerify = $this->_authenticatorData->getBinary();
$dataToVerify .= $clientDataHash;
$coseAlgorithm = $this->_getCoseAlgorithm($this->_alg);
// check certificate
return \openssl_verify($dataToVerify, $this->_signature, $publicKey, $coseAlgorithm->openssl) === 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;
}
}

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src/server/cyberhex-code/test/Attestation/Format/AndroidSafetyNet.php Normal file
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<?php
namespace lbuchs\WebAuthn\Attestation\Format;
use lbuchs\WebAuthn\Attestation\AuthenticatorData;
use lbuchs\WebAuthn\WebAuthnException;
use lbuchs\WebAuthn\Binary\ByteBuffer;
class AndroidSafetyNet extends FormatBase {
private $_signature;
private $_signedValue;
private $_x5c;
private $_payload;
public function __construct($AttestionObject, AuthenticatorData $authenticatorData) {
parent::__construct($AttestionObject, $authenticatorData);
// check data
$attStmt = $this->_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 (!isset($header->x5c) || !is_array($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; $i<count($header->x5c); $i++) {
$this->_x5c_chain[] = \base64_decode($header->x5c[$i]);
}
unset ($i);
}
}
/**
* ctsProfileMatch: A stricter verdict of device integrity.
* If the value of ctsProfileMatch is true, then the profile of the device running your app matches
* the profile of a device that has passed Android compatibility testing and
* has been approved as a Google-certified Android device.
* @return bool
*/
public function ctsProfileMatch() {
return isset($this->_payload->ctsProfileMatch) ? !!$this->_payload->ctsProfileMatch : false;
}
/*
* 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 (empty($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']['CN'] ?? '') !== 'attest.android.com') {
throw new WebAuthnException('invalid certificate CN in JWS (' . ($certInfo['subject']['CN'] ?? '-'). ')', WebAuthnException::INVALID_DATA);
}
// Verify that the basicIntegrity attribute in the payload of response is true.
if (empty($this->_payload->basicIntegrity)) {
throw new WebAuthnException('invalid basicIntegrity 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));
}
}

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src/server/cyberhex-code/test/Attestation/Format/Apple.php Normal file
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<?php
namespace lbuchs\WebAuthn\Attestation\Format;
use lbuchs\WebAuthn\Attestation\AuthenticatorData;
use lbuchs\WebAuthn\WebAuthnException;
use lbuchs\WebAuthn\Binary\ByteBuffer;
class Apple extends FormatBase {
private $_x5c;
public function __construct($AttestionObject, AuthenticatorData $authenticatorData) {
parent::__construct($AttestionObject, $authenticatorData);
// check packed data
$attStmt = $this->_attestationObject['attStmt'];
// certificate for validation
if (\array_key_exists('x5c', $attStmt) && \is_array($attStmt['x5c']) && \count($attStmt['x5c']) > 0) {
// The attestation certificate attestnCert MUST be the first element in the array
$attestnCert = array_shift($attStmt['x5c']);
if (!($attestnCert instanceof ByteBuffer)) {
throw new WebAuthnException('invalid x5c certificate', WebAuthnException::INVALID_DATA);
}
$this->_x5c = $attestnCert->getBinaryString();
// certificate chain
foreach ($attStmt['x5c'] as $chain) {
if ($chain instanceof ByteBuffer) {
$this->_x5c_chain[] = $chain->getBinaryString();
}
}
} else {
throw new WebAuthnException('invalid Apple attestation statement: missing x5c', WebAuthnException::INVALID_DATA);
}
}
/*
* returns the key certificate in PEM format
* @return string|null
*/
public function getCertificatePem() {
return $this->_createCertificatePem($this->_x5c);
}
/**
* @param string $clientDataHash
*/
public function validateAttestation($clientDataHash) {
return $this->_validateOverX5c($clientDataHash);
}
/**
* 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;
}
/**
* validate if x5c is present
* @param string $clientDataHash
* @return bool
* @throws WebAuthnException
*/
protected function _validateOverX5c($clientDataHash) {
$publicKey = \openssl_pkey_get_public($this->getCertificatePem());
if ($publicKey === false) {
throw new WebAuthnException('invalid public key: ' . \openssl_error_string(), WebAuthnException::INVALID_PUBLIC_KEY);
}
// Concatenate authenticatorData and clientDataHash to form nonceToHash.
$nonceToHash = $this->_authenticatorData->getBinary();
$nonceToHash .= $clientDataHash;
// Perform SHA-256 hash of nonceToHash to produce nonce
$nonce = hash('SHA256', $nonceToHash, true);
$credCert = openssl_x509_read($this->getCertificatePem());
if ($credCert === false) {
throw new WebAuthnException('invalid x5c certificate: ' . \openssl_error_string(), WebAuthnException::INVALID_DATA);
}
$keyData = openssl_pkey_get_details(openssl_pkey_get_public($credCert));
$key = is_array($keyData) && array_key_exists('key', $keyData) ? $keyData['key'] : null;
// Verify that nonce equals the value of the extension with OID ( 1.2.840.113635.100.8.2 ) in credCert.
$parsedCredCert = openssl_x509_parse($credCert);
$nonceExtension = $parsedCredCert['extensions']['1.2.840.113635.100.8.2'] ?? '';
// nonce padded by ASN.1 string: 30 24 A1 22 04 20
// 30 — type tag indicating sequence
// 24 — 36 byte following
// A1 — Enumerated [1]
// 22 — 34 byte following
// 04 — type tag indicating octet string
// 20 — 32 byte following
$asn1Padding = "\x30\x24\xA1\x22\x04\x20";
if (substr($nonceExtension, 0, strlen($asn1Padding)) === $asn1Padding) {
$nonceExtension = substr($nonceExtension, strlen($asn1Padding));
}
if ($nonceExtension !== $nonce) {
throw new WebAuthnException('nonce doesn\'t equal the value of the extension with OID 1.2.840.113635.100.8.2', WebAuthnException::INVALID_DATA);
}
// Verify that the credential public key equals the Subject Public Key of credCert.
$authKeyData = openssl_pkey_get_details(openssl_pkey_get_public($this->_authenticatorData->getPublicKeyPem()));
$authKey = is_array($authKeyData) && array_key_exists('key', $authKeyData) ? $authKeyData['key'] : null;
if ($key === null || $key !== $authKey) {
throw new WebAuthnException('credential public key doesn\'t equal the Subject Public Key of credCert', WebAuthnException::INVALID_DATA);
}
return true;
}
}

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src/server/cyberhex-code/test/Attestation/Format/FormatBase.php Normal file
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<?php
namespace lbuchs\WebAuthn\Attestation\Format;
use lbuchs\WebAuthn\WebAuthnException;
use lbuchs\WebAuthn\Attestation\AuthenticatorData;
abstract class FormatBase {
protected $_attestationObject = null;
protected $_authenticatorData = null;
protected $_x5c_chain = array();
protected $_x5c_tempFile = null;
/**
*
* @param Array $AttestionObject
* @param AuthenticatorData $authenticatorData
*/
public function __construct($AttestionObject, AuthenticatorData $authenticatorData) {
$this->_attestationObject = $AttestionObject;
$this->_authenticatorData = $authenticatorData;
}
/**
*
*/
public function __destruct() {
// delete X.509 chain certificate file after use
if ($this->_x5c_tempFile && \is_file($this->_x5c_tempFile)) {
\unlink($this->_x5c_tempFile);
}
}
/**
* returns the certificate chain in PEM format
* @return string|null
*/
public function getCertificateChain() {
if ($this->_x5c_tempFile && \is_file($this->_x5c_tempFile)) {
return \file_get_contents($this->_x5c_tempFile);
}
return null;
}
/**
* returns the key X.509 certificate in PEM format
* @return string
*/
public function getCertificatePem() {
// need to be overwritten
return null;
}
/**
* checks validity of the signature
* @param string $clientDataHash
* @return bool
* @throws WebAuthnException
*/
public function validateAttestation($clientDataHash) {
// need to be overwritten
return false;
}
/**
* validates the certificate against root certificates
* @param array $rootCas
* @return boolean
* @throws WebAuthnException
*/
public function validateRootCertificate($rootCas) {
// need to be overwritten
return false;
}
/**
* create a PEM encoded certificate with X.509 binary data
* @param string $x5c
* @return string
*/
protected function _createCertificatePem($x5c) {
$pem = '-----BEGIN CERTIFICATE-----' . "\n";
$pem .= \chunk_split(\base64_encode($x5c), 64, "\n");
$pem .= '-----END CERTIFICATE-----' . "\n";
return $pem;
}
/**
* creates a PEM encoded chain file
* @return type
*/
protected function _createX5cChainFile() {
$content = '';
if (\is_array($this->_x5c_chain) && \count($this->_x5c_chain) > 0) {
foreach ($this->_x5c_chain as $x5c) {
$certInfo = \openssl_x509_parse($this->_createCertificatePem($x5c));
// check if certificate is self signed
if (\is_array($certInfo) && \is_array($certInfo['issuer']) && \is_array($certInfo['subject'])) {
$selfSigned = false;
$subjectKeyIdentifier = $certInfo['extensions']['subjectKeyIdentifier'] ?? null;
$authorityKeyIdentifier = $certInfo['extensions']['authorityKeyIdentifier'] ?? null;
if ($authorityKeyIdentifier && substr($authorityKeyIdentifier, 0, 6) === 'keyid:') {
$authorityKeyIdentifier = substr($authorityKeyIdentifier, 6);
}
if ($subjectKeyIdentifier && substr($subjectKeyIdentifier, 0, 6) === 'keyid:') {
$subjectKeyIdentifier = substr($subjectKeyIdentifier, 6);
}
if (($subjectKeyIdentifier && !$authorityKeyIdentifier) || ($authorityKeyIdentifier && $authorityKeyIdentifier === $subjectKeyIdentifier)) {
$selfSigned = true;
}
if (!$selfSigned) {
$content .= "\n" . $this->_createCertificatePem($x5c) . "\n";
}
}
}
}
if ($content) {
$this->_x5c_tempFile = \tempnam(\sys_get_temp_dir(), 'x5c_');
if (\file_put_contents($this->_x5c_tempFile, $content) !== false) {
return $this->_x5c_tempFile;
}
}
return null;
}
/**
* returns the name and openssl key for provided cose number.
* @param int $coseNumber
* @return \stdClass|null
*/
protected function _getCoseAlgorithm($coseNumber) {
// https://www.iana.org/assignments/cose/cose.xhtml#algorithms
$coseAlgorithms = array(
array(
'hash' => 'SHA1',
'openssl' => OPENSSL_ALGO_SHA1,
'cose' => array(
-65535 // RS1
)),
array(
'hash' => 'SHA256',
'openssl' => OPENSSL_ALGO_SHA256,
'cose' => array(
-257, // RS256
-37, // PS256
-7, // ES256
5 // HMAC256
)),
array(
'hash' => 'SHA384',
'openssl' => OPENSSL_ALGO_SHA384,
'cose' => array(
-258, // RS384
-38, // PS384
-35, // ES384
6 // HMAC384
)),
array(
'hash' => 'SHA512',
'openssl' => OPENSSL_ALGO_SHA512,
'cose' => array(
-259, // RS512
-39, // PS512
-36, // ES512
7 // HMAC512
))
);
foreach ($coseAlgorithms as $coseAlgorithm) {
if (\in_array($coseNumber, $coseAlgorithm['cose'], true)) {
$return = new \stdClass();
$return->hash = $coseAlgorithm['hash'];
$return->openssl = $coseAlgorithm['openssl'];
return $return;
}
}
return null;
}
}

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src/server/cyberhex-code/test/Attestation/Format/None.php Normal file
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<?php
namespace lbuchs\WebAuthn\Attestation\Format;
use lbuchs\WebAuthn\Attestation\AuthenticatorData;
use lbuchs\WebAuthn\WebAuthnException;
class None extends FormatBase {
public function __construct($AttestionObject, AuthenticatorData $authenticatorData) {
parent::__construct($AttestionObject, $authenticatorData);
}
/*
* returns the key certificate in PEM format
* @return string
*/
public function getCertificatePem() {
return null;
}
/**
* @param string $clientDataHash
*/
public function validateAttestation($clientDataHash) {
return true;
}
/**
* validates the certificate against root certificates.
* Format 'none' does not contain any ca, so always false.
* @param array $rootCas
* @return boolean
* @throws WebAuthnException
*/
public function validateRootCertificate($rootCas) {
return false;
}
}

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src/server/cyberhex-code/test/Attestation/Format/Packed.php Normal file
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<?php
namespace lbuchs\WebAuthn\Attestation\Format;
use lbuchs\WebAuthn\Attestation\AuthenticatorData;
use lbuchs\WebAuthn\WebAuthnException;
use lbuchs\WebAuthn\Binary\ByteBuffer;
class Packed extends FormatBase {
private $_alg;
private $_signature;
private $_x5c;
public function __construct($AttestionObject, AuthenticatorData $authenticatorData) {
parent::__construct($AttestionObject, $authenticatorData);
// check packed data
$attStmt = $this->_attestationObject['attStmt'];
if (!\array_key_exists('alg', $attStmt) || $this->_getCoseAlgorithm($attStmt['alg']) === null) {
throw new WebAuthnException('unsupported alg: ' . $attStmt['alg'], WebAuthnException::INVALID_DATA);
}
if (!\array_key_exists('sig', $attStmt) || !\is_object($attStmt['sig']) || !($attStmt['sig'] instanceof ByteBuffer)) {
throw new WebAuthnException('no signature found', WebAuthnException::INVALID_DATA);
}
$this->_alg = $attStmt['alg'];
$this->_signature = $attStmt['sig']->getBinaryString();
// certificate for validation
if (\array_key_exists('x5c', $attStmt) && \is_array($attStmt['x5c']) && \count($attStmt['x5c']) > 0) {
// The attestation certificate attestnCert MUST be the first element in the array
$attestnCert = array_shift($attStmt['x5c']);
if (!($attestnCert instanceof ByteBuffer)) {
throw new WebAuthnException('invalid x5c certificate', WebAuthnException::INVALID_DATA);
}
$this->_x5c = $attestnCert->getBinaryString();
// certificate chain
foreach ($attStmt['x5c'] as $chain) {
if ($chain instanceof ByteBuffer) {
$this->_x5c_chain[] = $chain->getBinaryString();
}
}
}
}
/*
* returns the key certificate in PEM format
* @return string|null
*/
public function getCertificatePem() {
if (!$this->_x5c) {
return null;
}
return $this->_createCertificatePem($this->_x5c);
}
/**
* @param string $clientDataHash
*/
public function validateAttestation($clientDataHash) {
if ($this->_x5c) {
return $this->_validateOverX5c($clientDataHash);
} else {
return $this->_validateSelfAttestation($clientDataHash);
}
}
/**
* validates the certificate against root certificates
* @param array $rootCas
* @return boolean
* @throws WebAuthnException
*/
public function validateRootCertificate($rootCas) {
if (!$this->_x5c) {
return false;
}
$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;
}
/**
* validate if x5c is present
* @param string $clientDataHash
* @return bool
* @throws WebAuthnException
*/
protected function _validateOverX5c($clientDataHash) {
$publicKey = \openssl_pkey_get_public($this->getCertificatePem());
if ($publicKey === false) {
throw new WebAuthnException('invalid public key: ' . \openssl_error_string(), WebAuthnException::INVALID_PUBLIC_KEY);
}
// Verify that sig is a valid signature over the concatenation of authenticatorData and clientDataHash
// using the attestation public key in attestnCert with the algorithm specified in alg.
$dataToVerify = $this->_authenticatorData->getBinary();
$dataToVerify .= $clientDataHash;
$coseAlgorithm = $this->_getCoseAlgorithm($this->_alg);
// check certificate
return \openssl_verify($dataToVerify, $this->_signature, $publicKey, $coseAlgorithm->openssl) === 1;
}
/**
* validate if self attestation is in use
* @param string $clientDataHash
* @return bool
*/
protected function _validateSelfAttestation($clientDataHash) {
// Verify that sig is a valid signature over the concatenation of authenticatorData and clientDataHash
// using the credential public key with alg.
$dataToVerify = $this->_authenticatorData->getBinary();
$dataToVerify .= $clientDataHash;
$publicKey = $this->_authenticatorData->getPublicKeyPem();
// check certificate
return \openssl_verify($dataToVerify, $this->_signature, $publicKey, OPENSSL_ALGO_SHA256) === 1;
}
}

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src/server/cyberhex-code/test/Attestation/Format/Tpm.php Normal file
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<?php
namespace lbuchs\WebAuthn\Attestation\Format;
use lbuchs\WebAuthn\Attestation\AuthenticatorData;
use lbuchs\WebAuthn\WebAuthnException;
use lbuchs\WebAuthn\Binary\ByteBuffer;
class Tpm extends FormatBase {
private $_TPM_GENERATED_VALUE = "\xFF\x54\x43\x47";
private $_TPM_ST_ATTEST_CERTIFY = "\x80\x17";
private $_alg;
private $_signature;
private $_pubArea;
private $_x5c;
/**
* @var ByteBuffer
*/
private $_certInfo;
public function __construct($AttestionObject, AuthenticatorData $authenticatorData) {
parent::__construct($AttestionObject, $authenticatorData);
// check packed data
$attStmt = $this->_attestationObject['attStmt'];
if (!\array_key_exists('ver', $attStmt) || $attStmt['ver'] !== '2.0') {
throw new WebAuthnException('invalid tpm version: ' . $attStmt['ver'], WebAuthnException::INVALID_DATA);
}
if (!\array_key_exists('alg', $attStmt) || $this->_getCoseAlgorithm($attStmt['alg']) === null) {
throw new WebAuthnException('unsupported alg: ' . $attStmt['alg'], WebAuthnException::INVALID_DATA);
}
if (!\array_key_exists('sig', $attStmt) || !\is_object($attStmt['sig']) || !($attStmt['sig'] instanceof ByteBuffer)) {
throw new WebAuthnException('signature not found', WebAuthnException::INVALID_DATA);
}
if (!\array_key_exists('certInfo', $attStmt) || !\is_object($attStmt['certInfo']) || !($attStmt['certInfo'] instanceof ByteBuffer)) {
throw new WebAuthnException('certInfo not found', WebAuthnException::INVALID_DATA);
}
if (!\array_key_exists('pubArea', $attStmt) || !\is_object($attStmt['pubArea']) || !($attStmt['pubArea'] instanceof ByteBuffer)) {
throw new WebAuthnException('pubArea not found', WebAuthnException::INVALID_DATA);
}
$this->_alg = $attStmt['alg'];
$this->_signature = $attStmt['sig']->getBinaryString();
$this->_certInfo = $attStmt['certInfo'];
$this->_pubArea = $attStmt['pubArea'];
// certificate for validation
if (\array_key_exists('x5c', $attStmt) && \is_array($attStmt['x5c']) && \count($attStmt['x5c']) > 0) {
// The attestation certificate attestnCert MUST be the first element in the array
$attestnCert = array_shift($attStmt['x5c']);
if (!($attestnCert instanceof ByteBuffer)) {
throw new WebAuthnException('invalid x5c certificate', WebAuthnException::INVALID_DATA);
}
$this->_x5c = $attestnCert->getBinaryString();
// certificate chain
foreach ($attStmt['x5c'] as $chain) {
if ($chain instanceof ByteBuffer) {
$this->_x5c_chain[] = $chain->getBinaryString();
}
}
} else {
throw new WebAuthnException('no x5c certificate found', WebAuthnException::INVALID_DATA);
}
}
/*
* returns the key certificate in PEM format
* @return string|null
*/
public function getCertificatePem() {
if (!$this->_x5c) {
return null;
}
return $this->_createCertificatePem($this->_x5c);
}
/**
* @param string $clientDataHash
*/
public function validateAttestation($clientDataHash) {
return $this->_validateOverX5c($clientDataHash);
}
/**
* validates the certificate against root certificates
* @param array $rootCas
* @return boolean
* @throws WebAuthnException
*/
public function validateRootCertificate($rootCas) {
if (!$this->_x5c) {
return false;
}
$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;
}
/**
* validate if x5c is present
* @param string $clientDataHash
* @return bool
* @throws WebAuthnException
*/
protected function _validateOverX5c($clientDataHash) {
$publicKey = \openssl_pkey_get_public($this->getCertificatePem());
if ($publicKey === false) {
throw new WebAuthnException('invalid public key: ' . \openssl_error_string(), WebAuthnException::INVALID_PUBLIC_KEY);
}
// Concatenate authenticatorData and clientDataHash to form attToBeSigned.
$attToBeSigned = $this->_authenticatorData->getBinary();
$attToBeSigned .= $clientDataHash;
// Validate that certInfo is valid:
// Verify that magic is set to TPM_GENERATED_VALUE.
if ($this->_certInfo->getBytes(0, 4) !== $this->_TPM_GENERATED_VALUE) {
throw new WebAuthnException('tpm magic not TPM_GENERATED_VALUE', WebAuthnException::INVALID_DATA);
}
// Verify that type is set to TPM_ST_ATTEST_CERTIFY.
if ($this->_certInfo->getBytes(4, 2) !== $this->_TPM_ST_ATTEST_CERTIFY) {
throw new WebAuthnException('tpm type not TPM_ST_ATTEST_CERTIFY', WebAuthnException::INVALID_DATA);
}
$offset = 6;
$qualifiedSigner = $this->_tpmReadLengthPrefixed($this->_certInfo, $offset);
$extraData = $this->_tpmReadLengthPrefixed($this->_certInfo, $offset);
$coseAlg = $this->_getCoseAlgorithm($this->_alg);
// Verify that extraData is set to the hash of attToBeSigned using the hash algorithm employed in "alg".
if ($extraData->getBinaryString() !== \hash($coseAlg->hash, $attToBeSigned, true)) {
throw new WebAuthnException('certInfo:extraData not hash of attToBeSigned', WebAuthnException::INVALID_DATA);
}
// Verify the sig is a valid signature over certInfo using the attestation
// public key in aikCert with the algorithm specified in alg.
return \openssl_verify($this->_certInfo->getBinaryString(), $this->_signature, $publicKey, $coseAlg->openssl) === 1;
}
/**
* returns next part of ByteBuffer
* @param ByteBuffer $buffer
* @param int $offset
* @return ByteBuffer
*/
protected function _tpmReadLengthPrefixed(ByteBuffer $buffer, &$offset) {
$len = $buffer->getUint16Val($offset);
$data = $buffer->getBytes($offset + 2, $len);
$offset += (2 + $len);
return new ByteBuffer($data);
}
}

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src/server/cyberhex-code/test/Attestation/Format/U2f.php Normal file
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<?php
namespace lbuchs\WebAuthn\Attestation\Format;
use lbuchs\WebAuthn\Attestation\AuthenticatorData;
use lbuchs\WebAuthn\WebAuthnException;
use lbuchs\WebAuthn\Binary\ByteBuffer;
class U2f extends FormatBase {
private $_alg = -7;
private $_signature;
private $_x5c;
public function __construct($AttestionObject, AuthenticatorData $authenticatorData) {
parent::__construct($AttestionObject, $authenticatorData);
// check u2f data
$attStmt = $this->_attestationObject['attStmt'];
if (\array_key_exists('alg', $attStmt) && $attStmt['alg'] !== $this->_alg) {
throw new WebAuthnException('u2f only accepts algorithm -7 ("ES256"), but got ' . $attStmt['alg'], WebAuthnException::INVALID_DATA);
}
if (!\array_key_exists('sig', $attStmt) || !\is_object($attStmt['sig']) || !($attStmt['sig'] instanceof ByteBuffer)) {
throw new WebAuthnException('no signature found', WebAuthnException::INVALID_DATA);
}
if (!\array_key_exists('x5c', $attStmt) || !\is_array($attStmt['x5c']) || \count($attStmt['x5c']) !== 1) {
throw new WebAuthnException('invalid x5c certificate', WebAuthnException::INVALID_DATA);
}
if (!\is_object($attStmt['x5c'][0]) || !($attStmt['x5c'][0] instanceof ByteBuffer)) {
throw new WebAuthnException('invalid x5c certificate', WebAuthnException::INVALID_DATA);
}
$this->_signature = $attStmt['sig']->getBinaryString();
$this->_x5c = $attStmt['x5c'][0]->getBinaryString();
}
/*
* returns the key certificate in PEM format
* @return string
*/
public function getCertificatePem() {
$pem = '-----BEGIN CERTIFICATE-----' . "\n";
$pem .= \chunk_split(\base64_encode($this->_x5c), 64, "\n");
$pem .= '-----END CERTIFICATE-----' . "\n";
return $pem;
}
/**
* @param string $clientDataHash
*/
public function validateAttestation($clientDataHash) {
$publicKey = \openssl_pkey_get_public($this->getCertificatePem());
if ($publicKey === false) {
throw new WebAuthnException('invalid public key: ' . \openssl_error_string(), WebAuthnException::INVALID_PUBLIC_KEY);
}
// Let verificationData be the concatenation of (0x00 || rpIdHash || clientDataHash || credentialId || publicKeyU2F)
$dataToVerify = "\x00";
$dataToVerify .= $this->_authenticatorData->getRpIdHash();
$dataToVerify .= $clientDataHash;
$dataToVerify .= $this->_authenticatorData->getCredentialId();
$dataToVerify .= $this->_authenticatorData->getPublicKeyU2F();
$coseAlgorithm = $this->_getCoseAlgorithm($this->_alg);
// check certificate
return \openssl_verify($dataToVerify, $this->_signature, $publicKey, $coseAlgorithm->openssl) === 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;
}
}

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<?php
namespace lbuchs\WebAuthn\Binary;
use lbuchs\WebAuthn\WebAuthnException;
/**
* Modified version of https://github.com/madwizard-thomas/webauthn-server/blob/master/src/Format/ByteBuffer.php
* Copyright © 2018 Thomas Bleeker - MIT licensed
* Modified by Lukas Buchs
* Thanks Thomas for your work!
*/
class ByteBuffer implements \JsonSerializable, \Serializable {
/**
* @var bool
*/
public static $useBase64UrlEncoding = false;
/**
* @var string
*/
private $_data;
/**
* @var int
*/
private $_length;
public function __construct($binaryData) {
$this->_data = (string)$binaryData;
$this->_length = \strlen($binaryData);
}
// -----------------------
// PUBLIC STATIC
// -----------------------
/**
* create a ByteBuffer from a base64 url encoded string
* @param string $base64url
* @return ByteBuffer
*/
public static function fromBase64Url($base64url): ByteBuffer {
$bin = self::_base64url_decode($base64url);
if ($bin === false) {
throw new WebAuthnException('ByteBuffer: Invalid base64 url string', WebAuthnException::BYTEBUFFER);
}
return new ByteBuffer($bin);
}
/**
* create a ByteBuffer from a base64 url encoded string
* @param string $hex
* @return ByteBuffer
*/
public static function fromHex($hex): ByteBuffer {
$bin = \hex2bin($hex);
if ($bin === false) {
throw new WebAuthnException('ByteBuffer: Invalid hex string', WebAuthnException::BYTEBUFFER);
}
return new ByteBuffer($bin);
}
/**
* create a random ByteBuffer
* @param string $length
* @return ByteBuffer
*/
public static function randomBuffer($length): ByteBuffer {
if (\function_exists('random_bytes')) { // >PHP 7.0
return new ByteBuffer(\random_bytes($length));
} else if (\function_exists('openssl_random_pseudo_bytes')) {
return new ByteBuffer(\openssl_random_pseudo_bytes($length));
} else {
throw new WebAuthnException('ByteBuffer: cannot generate random bytes', WebAuthnException::BYTEBUFFER);
}
}
// -----------------------
// PUBLIC
// -----------------------
public function getBytes($offset, $length): string {
if ($offset < 0 || $length < 0 || ($offset + $length > $this->_length)) {
throw new WebAuthnException('ByteBuffer: Invalid offset or length', WebAuthnException::BYTEBUFFER);
}
return \substr($this->_data, $offset, $length);
}
public function getByteVal($offset): int {
if ($offset < 0 || $offset >= $this->_length) {
throw new WebAuthnException('ByteBuffer: Invalid offset', WebAuthnException::BYTEBUFFER);
}
return \ord(\substr($this->_data, $offset, 1));
}
public function getJson($jsonFlags=0) {
$data = \json_decode($this->getBinaryString(), null, 512, $jsonFlags);
if (\json_last_error() !== JSON_ERROR_NONE) {
throw new WebAuthnException(\json_last_error_msg(), WebAuthnException::BYTEBUFFER);
}
return $data;
}
public function getLength(): int {
return $this->_length;
}
public function getUint16Val($offset) {
if ($offset < 0 || ($offset + 2) > $this->_length) {
throw new WebAuthnException('ByteBuffer: Invalid offset', WebAuthnException::BYTEBUFFER);
}
return unpack('n', $this->_data, $offset)[1];
}
public function getUint32Val($offset) {
if ($offset < 0 || ($offset + 4) > $this->_length) {
throw new WebAuthnException('ByteBuffer: Invalid offset', WebAuthnException::BYTEBUFFER);
}
$val = unpack('N', $this->_data, $offset)[1];
// Signed integer overflow causes signed negative numbers
if ($val < 0) {
throw new WebAuthnException('ByteBuffer: Value out of integer range.', WebAuthnException::BYTEBUFFER);
}
return $val;
}
public function getUint64Val($offset) {
if (PHP_INT_SIZE < 8) {
throw new WebAuthnException('ByteBuffer: 64-bit values not supported by this system', WebAuthnException::BYTEBUFFER);
}
if ($offset < 0 || ($offset + 8) > $this->_length) {
throw new WebAuthnException('ByteBuffer: Invalid offset', WebAuthnException::BYTEBUFFER);
}
$val = unpack('J', $this->_data, $offset)[1];
// Signed integer overflow causes signed negative numbers
if ($val < 0) {
throw new WebAuthnException('ByteBuffer: Value out of integer range.', WebAuthnException::BYTEBUFFER);
}
return $val;
}
public function getHalfFloatVal($offset) {
//FROM spec pseudo decode_half(unsigned char *halfp)
$half = $this->getUint16Val($offset);
$exp = ($half >> 10) & 0x1f;
$mant = $half & 0x3ff;
if ($exp === 0) {
$val = $mant * (2 ** -24);
} elseif ($exp !== 31) {
$val = ($mant + 1024) * (2 ** ($exp - 25));
} else {
$val = ($mant === 0) ? INF : NAN;
}
return ($half & 0x8000) ? -$val : $val;
}
public function getFloatVal($offset) {
if ($offset < 0 || ($offset + 4) > $this->_length) {
throw new WebAuthnException('ByteBuffer: Invalid offset', WebAuthnException::BYTEBUFFER);
}
return unpack('G', $this->_data, $offset)[1];
}
public function getDoubleVal($offset) {
if ($offset < 0 || ($offset + 8) > $this->_length) {
throw new WebAuthnException('ByteBuffer: Invalid offset', WebAuthnException::BYTEBUFFER);
}
return unpack('E', $this->_data, $offset)[1];
}
/**
* @return string
*/
public function getBinaryString(): string {
return $this->_data;
}
/**
* @param string|ByteBuffer $buffer
* @return bool
*/
public function equals($buffer): bool {
if (is_object($buffer) && $buffer instanceof ByteBuffer) {
return $buffer->getBinaryString() === $this->getBinaryString();
} else if (is_string($buffer)) {
return $buffer === $this->getBinaryString();
}
return false;
}
/**
* @return string
*/
public function getHex(): string {
return \bin2hex($this->_data);
}
/**
* @return bool
*/
public function isEmpty(): bool {
return $this->_length === 0;
}
/**
* jsonSerialize interface
* return binary data in RFC 1342-Like serialized string
* @return string
*/
public function jsonSerialize(): string {
if (ByteBuffer::$useBase64UrlEncoding) {
return self::_base64url_encode($this->_data);
} else {
return '=?BINARY?B?' . \base64_encode($this->_data) . '?=';
}
}
/**
* Serializable-Interface
* @return string
*/
public function serialize(): string {
return \serialize($this->_data);
}
/**
* Serializable-Interface
* @param string $serialized
*/
public function unserialize($serialized) {
$this->_data = \unserialize($serialized);
$this->_length = \strlen($this->_data);
}
/**
* (PHP 8 deprecates Serializable-Interface)
* @return array
*/
public function __serialize(): array {
return [
'data' => \serialize($this->_data)
];
}
/**
* object to string
* @return string
*/
public function __toString(): string {
return $this->getHex();
}
/**
* (PHP 8 deprecates Serializable-Interface)
* @param array $data
* @return void
*/
public function __unserialize($data) {
if ($data && isset($data['data'])) {
$this->_data = \unserialize($data['data']);
$this->_length = \strlen($this->_data);
}
}
// -----------------------
// PROTECTED STATIC
// -----------------------
/**
* base64 url decoding
* @param string $data
* @return string
*/
protected static function _base64url_decode($data): string {
return \base64_decode(\strtr($data, '-_', '+/') . \str_repeat('=', 3 - (3 + \strlen($data)) % 4));
}
/**
* base64 url encoding
* @param string $data
* @return string
*/
protected static function _base64url_encode($data): string {
return \rtrim(\strtr(\base64_encode($data), '+/', '-_'), '=');
}
}

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src/server/cyberhex-code/test/CBOR/CborDecoder.php Normal file
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<?php
namespace lbuchs\WebAuthn\CBOR;
use lbuchs\WebAuthn\WebAuthnException;
use lbuchs\WebAuthn\Binary\ByteBuffer;
/**
* Modified version of https://github.com/madwizard-thomas/webauthn-server/blob/master/src/Format/CborDecoder.php
* Copyright © 2018 Thomas Bleeker - MIT licensed
* Modified by Lukas Buchs
* Thanks Thomas for your work!
*/
class CborDecoder {
const CBOR_MAJOR_UNSIGNED_INT = 0;
const CBOR_MAJOR_TEXT_STRING = 3;
const CBOR_MAJOR_FLOAT_SIMPLE = 7;
const CBOR_MAJOR_NEGATIVE_INT = 1;
const CBOR_MAJOR_ARRAY = 4;
const CBOR_MAJOR_TAG = 6;
const CBOR_MAJOR_MAP = 5;
const CBOR_MAJOR_BYTE_STRING = 2;
/**
* @param ByteBuffer|string $bufOrBin
* @return mixed
* @throws WebAuthnException
*/
public static function decode($bufOrBin) {
$buf = $bufOrBin instanceof ByteBuffer ? $bufOrBin : new ByteBuffer($bufOrBin);
$offset = 0;
$result = self::_parseItem($buf, $offset);
if ($offset !== $buf->getLength()) {
throw new WebAuthnException('Unused bytes after data item.', WebAuthnException::CBOR);
}
return $result;
}
/**
* @param ByteBuffer|string $bufOrBin
* @param int $startOffset
* @param int|null $endOffset
* @return mixed
*/
public static function decodeInPlace($bufOrBin, $startOffset, &$endOffset = null) {
$buf = $bufOrBin instanceof ByteBuffer ? $bufOrBin : new ByteBuffer($bufOrBin);
$offset = $startOffset;
$data = self::_parseItem($buf, $offset);
$endOffset = $offset;
return $data;
}
// ---------------------
// protected
// ---------------------
/**
* @param ByteBuffer $buf
* @param int $offset
* @return mixed
*/
protected static function _parseItem(ByteBuffer $buf, &$offset) {
$first = $buf->getByteVal($offset++);
$type = $first >> 5;
$val = $first & 0b11111;
if ($type === self::CBOR_MAJOR_FLOAT_SIMPLE) {
return self::_parseFloatSimple($val, $buf, $offset);
}
$val = self::_parseExtraLength($val, $buf, $offset);
return self::_parseItemData($type, $val, $buf, $offset);
}
protected static function _parseFloatSimple($val, ByteBuffer $buf, &$offset) {
switch ($val) {
case 24:
$val = $buf->getByteVal($offset);
$offset++;
return self::_parseSimple($val);
case 25:
$floatValue = $buf->getHalfFloatVal($offset);
$offset += 2;
return $floatValue;
case 26:
$floatValue = $buf->getFloatVal($offset);
$offset += 4;
return $floatValue;
case 27:
$floatValue = $buf->getDoubleVal($offset);
$offset += 8;
return $floatValue;
case 28:
case 29:
case 30:
throw new WebAuthnException('Reserved value used.', WebAuthnException::CBOR);
case 31:
throw new WebAuthnException('Indefinite length is not supported.', WebAuthnException::CBOR);
}
return self::_parseSimple($val);
}
/**
* @param int $val
* @return mixed
* @throws WebAuthnException
*/
protected static function _parseSimple($val) {
if ($val === 20) {
return false;
}
if ($val === 21) {
return true;
}
if ($val === 22) {
return null;
}
throw new WebAuthnException(sprintf('Unsupported simple value %d.', $val), WebAuthnException::CBOR);
}
protected static function _parseExtraLength($val, ByteBuffer $buf, &$offset) {
switch ($val) {
case 24:
$val = $buf->getByteVal($offset);
$offset++;
break;
case 25:
$val = $buf->getUint16Val($offset);
$offset += 2;
break;
case 26:
$val = $buf->getUint32Val($offset);
$offset += 4;
break;
case 27:
$val = $buf->getUint64Val($offset);
$offset += 8;
break;
case 28:
case 29:
case 30:
throw new WebAuthnException('Reserved value used.', WebAuthnException::CBOR);
case 31:
throw new WebAuthnException('Indefinite length is not supported.', WebAuthnException::CBOR);
}
return $val;
}
protected static function _parseItemData($type, $val, ByteBuffer $buf, &$offset) {
switch ($type) {
case self::CBOR_MAJOR_UNSIGNED_INT: // uint
return $val;
case self::CBOR_MAJOR_NEGATIVE_INT:
return -1 - $val;
case self::CBOR_MAJOR_BYTE_STRING:
$data = $buf->getBytes($offset, $val);
$offset += $val;
return new ByteBuffer($data); // bytes
case self::CBOR_MAJOR_TEXT_STRING:
$data = $buf->getBytes($offset, $val);
$offset += $val;
return $data; // UTF-8
case self::CBOR_MAJOR_ARRAY:
return self::_parseArray($buf, $offset, $val);
case self::CBOR_MAJOR_MAP:
return self::_parseMap($buf, $offset, $val);
case self::CBOR_MAJOR_TAG:
return self::_parseItem($buf, $offset); // 1 embedded data item
}
// This should never be reached
throw new WebAuthnException(sprintf('Unknown major type %d.', $type), WebAuthnException::CBOR);
}
protected static function _parseMap(ByteBuffer $buf, &$offset, $count) {
$map = array();
for ($i = 0; $i < $count; $i++) {
$mapKey = self::_parseItem($buf, $offset);
$mapVal = self::_parseItem($buf, $offset);
if (!\is_int($mapKey) && !\is_string($mapKey)) {
throw new WebAuthnException('Can only use strings or integers as map keys', WebAuthnException::CBOR);
}
$map[$mapKey] = $mapVal; // todo dup
}
return $map;
}
protected static function _parseArray(ByteBuffer $buf, &$offset, $count) {
$arr = array();
for ($i = 0; $i < $count; $i++) {
$arr[] = self::_parseItem($buf, $offset);
}
return $arr;
}
}

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src/server/cyberhex-code/test/WebAuthn.php Normal file
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<?php
namespace lbuchs\WebAuthn;
use lbuchs\WebAuthn\Binary\ByteBuffer;
require_once 'WebAuthnException.php';
require_once 'Binary/ByteBuffer.php';
require_once 'Attestation/AttestationObject.php';
require_once 'Attestation/AuthenticatorData.php';
require_once 'Attestation/Format/FormatBase.php';
require_once 'Attestation/Format/None.php';
require_once 'Attestation/Format/AndroidKey.php';
require_once 'Attestation/Format/AndroidSafetyNet.php';
require_once 'Attestation/Format/Apple.php';
require_once 'Attestation/Format/Packed.php';
require_once 'Attestation/Format/Tpm.php';
require_once 'Attestation/Format/U2f.php';
require_once 'CBOR/CborDecoder.php';
/**
* WebAuthn
* @author Lukas Buchs
* @license https://github.com/lbuchs/WebAuthn/blob/master/LICENSE MIT
*/
class WebAuthn {
// relying party
private $_rpName;
private $_rpId;
private $_rpIdHash;
private $_challenge;
private $_signatureCounter;
private $_caFiles;
private $_formats;
/**
* Initialize a new WebAuthn server
* @param string $rpName the relying party name
* @param string $rpId the relying party ID = the domain name
* @param bool $useBase64UrlEncoding true to use base64 url encoding for binary data in json objects. Default is a RFC 1342-Like serialized string.
* @throws WebAuthnException
*/
public function __construct($rpName, $rpId, $allowedFormats=null, $useBase64UrlEncoding=false) {
$this->_rpName = $rpName;
$this->_rpId = $rpId;
$this->_rpIdHash = \hash('sha256', $rpId, true);
ByteBuffer::$useBase64UrlEncoding = !!$useBase64UrlEncoding;
$supportedFormats = array('android-key', 'android-safetynet', 'apple', 'fido-u2f', 'none', 'packed', 'tpm');
if (!\function_exists('\openssl_open')) {
throw new WebAuthnException('OpenSSL-Module not installed');
}
if (!\in_array('SHA256', \array_map('\strtoupper', \openssl_get_md_methods()))) {
throw new WebAuthnException('SHA256 not supported by this openssl installation.');
}
// default: all format
if (!is_array($allowedFormats)) {
$allowedFormats = $supportedFormats;
}
$this->_formats = $allowedFormats;
// validate formats
$invalidFormats = \array_diff($this->_formats, $supportedFormats);
if (!$this->_formats || $invalidFormats) {
throw new WebAuthnException('invalid formats on construct: ' . implode(', ', $invalidFormats));
}
}
/**
* add a root certificate to verify new registrations
* @param string $path file path of / directory with root certificates
* @param array|null $certFileExtensions if adding a direction, all files with provided extension are added. default: pem, crt, cer, der
*/
public function addRootCertificates($path, $certFileExtensions=null) {
if (!\is_array($this->_caFiles)) {
$this->_caFiles = [];
}
if ($certFileExtensions === null) {
$certFileExtensions = array('pem', 'crt', 'cer', 'der');
}
$path = \rtrim(\trim($path), '\\/');
if (\is_dir($path)) {
foreach (\scandir($path) as $ca) {
if (\is_file($path . DIRECTORY_SEPARATOR . $ca) && \in_array(\strtolower(\pathinfo($ca, PATHINFO_EXTENSION)), $certFileExtensions)) {
$this->addRootCertificates($path . DIRECTORY_SEPARATOR . $ca);
}
}
} else if (\is_file($path) && !\in_array(\realpath($path), $this->_caFiles)) {
$this->_caFiles[] = \realpath($path);
}
}
/**
* Returns the generated challenge to save for later validation
* @return ByteBuffer
*/
public function getChallenge() {
return $this->_challenge;
}
/**
* generates the object for a key registration
* provide this data to navigator.credentials.create
* @param string $userId
* @param string $userName
* @param string $userDisplayName
* @param int $timeout timeout in seconds
* @param bool|string $requireResidentKey 'required', if the key should be stored by the authentication device
* Valid values:
* true = required
* false = preferred
* string 'required' 'preferred' 'discouraged'
* @param bool|string $requireUserVerification indicates that you require user verification and will fail the operation
* if the response does not have the UV flag set.
* Valid values:
* true = required
* false = preferred
* string 'required' 'preferred' 'discouraged'
* @param bool|null $crossPlatformAttachment true for cross-platform devices (eg. fido usb),
* false for platform devices (eg. windows hello, android safetynet),
* null for both
* @param array $excludeCredentialIds a array of ids, which are already registered, to prevent re-registration
* @return \stdClass
*/
public function getCreateArgs($userId, $userName, $userDisplayName, $timeout=20, $requireResidentKey=false, $requireUserVerification=false, $crossPlatformAttachment=null, $excludeCredentialIds=[]) {
$args = new \stdClass();
$args->publicKey = new \stdClass();
// relying party
$args->publicKey->rp = new \stdClass();
$args->publicKey->rp->name = $this->_rpName;
$args->publicKey->rp->id = $this->_rpId;
$args->publicKey->authenticatorSelection = new \stdClass();
$args->publicKey->authenticatorSelection->userVerification = 'preferred';
// validate User Verification Requirement
if (\is_bool($requireUserVerification)) {
$args->publicKey->authenticatorSelection->userVerification = $requireUserVerification ? 'required' : 'preferred';
} else if (\is_string($requireUserVerification) && \in_array(\strtolower($requireUserVerification), ['required', 'preferred', 'discouraged'])) {
$args->publicKey->authenticatorSelection->userVerification = \strtolower($requireUserVerification);
}
// validate Resident Key Requirement
if (\is_bool($requireResidentKey) && $requireResidentKey) {
$args->publicKey->authenticatorSelection->requireResidentKey = true;
$args->publicKey->authenticatorSelection->residentKey = 'required';
} else if (\is_string($requireResidentKey) && \in_array(\strtolower($requireResidentKey), ['required', 'preferred', 'discouraged'])) {
$requireResidentKey = \strtolower($requireResidentKey);
$args->publicKey->authenticatorSelection->residentKey = $requireResidentKey;
$args->publicKey->authenticatorSelection->requireResidentKey = $requireResidentKey === 'required';
}
// filte authenticators attached with the specified authenticator attachment modality
if (\is_bool($crossPlatformAttachment)) {
$args->publicKey->authenticatorSelection->authenticatorAttachment = $crossPlatformAttachment ? 'cross-platform' : 'platform';
}
// user
$args->publicKey->user = new \stdClass();
$args->publicKey->user->id = new ByteBuffer($userId); // binary
$args->publicKey->user->name = $userName;
$args->publicKey->user->displayName = $userDisplayName;
// supported algorithms
$args->publicKey->pubKeyCredParams = [];
if (function_exists('sodium_crypto_sign_verify_detached') || \in_array('ed25519', \openssl_get_curve_names(), true)) {
$tmp = new \stdClass();
$tmp->type = 'public-key';
$tmp->alg = -8; // EdDSA
$args->publicKey->pubKeyCredParams[] = $tmp;
unset ($tmp);
}
if (\in_array('prime256v1', \openssl_get_curve_names(), true)) {
$tmp = new \stdClass();
$tmp->type = 'public-key';
$tmp->alg = -7; // ES256
$args->publicKey->pubKeyCredParams[] = $tmp;
unset ($tmp);
}
$tmp = new \stdClass();
$tmp->type = 'public-key';
$tmp->alg = -257; // RS256
$args->publicKey->pubKeyCredParams[] = $tmp;
unset ($tmp);
// if there are root certificates added, we need direct attestation to validate
// against the root certificate. If there are no root-certificates added,
// anonymization ca are also accepted, because we can't validate the root anyway.
$attestation = 'indirect';
if (\is_array($this->_caFiles)) {
$attestation = 'direct';
}
$args->publicKey->attestation = \count($this->_formats) === 1 && \in_array('none', $this->_formats) ? 'none' : $attestation;
$args->publicKey->extensions = new \stdClass();
$args->publicKey->extensions->exts = true;
$args->publicKey->timeout = $timeout * 1000; // microseconds
$args->publicKey->challenge = $this->_createChallenge(); // binary
//prevent re-registration by specifying existing credentials
$args->publicKey->excludeCredentials = [];
if (is_array($excludeCredentialIds)) {
foreach ($excludeCredentialIds as $id) {
$tmp = new \stdClass();
$tmp->id = $id instanceof ByteBuffer ? $id : new ByteBuffer($id); // binary
$tmp->type = 'public-key';
$tmp->transports = array('usb', 'nfc', 'ble', 'hybrid', 'internal');
$args->publicKey->excludeCredentials[] = $tmp;
unset ($tmp);
}
}
return $args;
}
/**
* generates the object for key validation
* Provide this data to navigator.credentials.get
* @param array $credentialIds binary
* @param int $timeout timeout in seconds
* @param bool $allowUsb allow removable USB
* @param bool $allowNfc allow Near Field Communication (NFC)
* @param bool $allowBle allow Bluetooth
* @param bool $allowHybrid allow a combination of (often separate) data-transport and proximity mechanisms.
* @param bool $allowInternal allow client device-specific transport. These authenticators are not removable from the client device.
* @param bool|string $requireUserVerification indicates that you require user verification and will fail the operation
* if the response does not have the UV flag set.
* Valid values:
* true = required
* false = preferred
* string 'required' 'preferred' 'discouraged'
* @return \stdClass
*/
public function getGetArgs($credentialIds=[], $timeout=20, $allowUsb=true, $allowNfc=true, $allowBle=true, $allowHybrid=true, $allowInternal=true, $requireUserVerification=false) {
// validate User Verification Requirement
if (\is_bool($requireUserVerification)) {
$requireUserVerification = $requireUserVerification ? 'required' : 'preferred';
} else if (\is_string($requireUserVerification) && \in_array(\strtolower($requireUserVerification), ['required', 'preferred', 'discouraged'])) {
$requireUserVerification = \strtolower($requireUserVerification);
} else {
$requireUserVerification = 'preferred';
}
$args = new \stdClass();
$args->publicKey = new \stdClass();
$args->publicKey->timeout = $timeout * 1000; // microseconds
$args->publicKey->challenge = $this->_createChallenge(); // binary
$args->publicKey->userVerification = $requireUserVerification;
$args->publicKey->rpId = $this->_rpId;
if (\is_array($credentialIds) && \count($credentialIds) > 0) {
$args->publicKey->allowCredentials = [];
foreach ($credentialIds as $id) {
$tmp = new \stdClass();
$tmp->id = $id instanceof ByteBuffer ? $id : new ByteBuffer($id); // binary
$tmp->transports = [];
if ($allowUsb) {
$tmp->transports[] = 'usb';
}
if ($allowNfc) {
$tmp->transports[] = 'nfc';
}
if ($allowBle) {
$tmp->transports[] = 'ble';
}
if ($allowHybrid) {
$tmp->transports[] = 'hybrid';
}
if ($allowInternal) {
$tmp->transports[] = 'internal';
}
$tmp->type = 'public-key';
$args->publicKey->allowCredentials[] = $tmp;
unset ($tmp);
}
}
return $args;
}
/**
* returns the new signature counter value.
* returns null if there is no counter
* @return ?int
*/
public function getSignatureCounter() {
return \is_int($this->_signatureCounter) ? $this->_signatureCounter : null;
}
/**
* process a create request and returns data to save for future logins
* @param string $clientDataJSON binary from browser
* @param string $attestationObject binary from browser
* @param string|ByteBuffer $challenge binary used challange
* @param bool $requireUserVerification true, if the device must verify user (e.g. by biometric data or pin)
* @param bool $requireUserPresent false, if the device must NOT check user presence (e.g. by pressing a button)
* @param bool $failIfRootMismatch false, if there should be no error thrown if root certificate doesn't match
* @param bool $requireCtsProfileMatch false, if you don't want to check if the device is approved as a Google-certified Android device.
* @return \stdClass
* @throws WebAuthnException
*/
public function processCreate($clientDataJSON, $attestationObject, $challenge, $requireUserVerification=false, $requireUserPresent=true, $failIfRootMismatch=true, $requireCtsProfileMatch=true) {
$clientDataHash = \hash('sha256', $clientDataJSON, true);
$clientData = \json_decode($clientDataJSON);
$challenge = $challenge instanceof ByteBuffer ? $challenge : new ByteBuffer($challenge);
// security: https://www.w3.org/TR/webauthn/#registering-a-new-credential
// 2. Let C, the client data claimed as collected during the credential creation,
// be the result of running an implementation-specific JSON parser on JSONtext.
if (!\is_object($clientData)) {
throw new WebAuthnException('invalid client data', WebAuthnException::INVALID_DATA);
}
// 3. Verify that the value of C.type is webauthn.create.
if (!\property_exists($clientData, 'type') || $clientData->type !== 'webauthn.create') {
throw new WebAuthnException('invalid type', WebAuthnException::INVALID_TYPE);
}
// 4. Verify that the value of C.challenge matches the challenge that was sent to the authenticator in the create() call.
if (!\property_exists($clientData, 'challenge') || ByteBuffer::fromBase64Url($clientData->challenge)->getBinaryString() !== $challenge->getBinaryString()) {
throw new WebAuthnException('invalid challenge', WebAuthnException::INVALID_CHALLENGE);
}
// 5. Verify that the value of C.origin matches the Relying Party's origin.
if (!\property_exists($clientData, 'origin') || !$this->_checkOrigin($clientData->origin)) {
throw new WebAuthnException('invalid origin', WebAuthnException::INVALID_ORIGIN);
}
// Attestation
$attestationObject = new Attestation\AttestationObject($attestationObject, $this->_formats);
// 9. Verify that the RP ID hash in authData is indeed the SHA-256 hash of the RP ID expected by the RP.
if (!$attestationObject->validateRpIdHash($this->_rpIdHash)) {
throw new WebAuthnException('invalid rpId hash', WebAuthnException::INVALID_RELYING_PARTY);
}
// 14. Verify that attStmt is a correct attestation statement, conveying a valid attestation signature
if (!$attestationObject->validateAttestation($clientDataHash)) {
throw new WebAuthnException('invalid certificate signature', WebAuthnException::INVALID_SIGNATURE);
}
// Android-SafetyNet: if required, check for Compatibility Testing Suite (CTS).
if ($requireCtsProfileMatch && $attestationObject->getAttestationFormat() instanceof Attestation\Format\AndroidSafetyNet) {
if (!$attestationObject->getAttestationFormat()->ctsProfileMatch()) {
throw new WebAuthnException('invalid ctsProfileMatch: device is not approved as a Google-certified Android device.', WebAuthnException::ANDROID_NOT_TRUSTED);
}
}
// 15. If validation is successful, obtain a list of acceptable trust anchors
$rootValid = is_array($this->_caFiles) ? $attestationObject->validateRootCertificate($this->_caFiles) : null;
if ($failIfRootMismatch && is_array($this->_caFiles) && !$rootValid) {
throw new WebAuthnException('invalid root certificate', WebAuthnException::CERTIFICATE_NOT_TRUSTED);
}
// 10. Verify that the User Present bit of the flags in authData is set.
$userPresent = $attestationObject->getAuthenticatorData()->getUserPresent();
if ($requireUserPresent && !$userPresent) {
throw new WebAuthnException('user not present during authentication', WebAuthnException::USER_PRESENT);
}
// 11. If user verification is required for this registration, verify that the User Verified bit of the flags in authData is set.
$userVerified = $attestationObject->getAuthenticatorData()->getUserVerified();
if ($requireUserVerification && !$userVerified) {
throw new WebAuthnException('user not verified during authentication', WebAuthnException::USER_VERIFICATED);
}
$signCount = $attestationObject->getAuthenticatorData()->getSignCount();
if ($signCount > 0) {
$this->_signatureCounter = $signCount;
}
// prepare data to store for future logins
$data = new \stdClass();
$data->rpId = $this->_rpId;
$data->attestationFormat = $attestationObject->getAttestationFormatName();
$data->credentialId = $attestationObject->getAuthenticatorData()->getCredentialId();
$data->credentialPublicKey = $attestationObject->getAuthenticatorData()->getPublicKeyPem();
$data->certificateChain = $attestationObject->getCertificateChain();
$data->certificate = $attestationObject->getCertificatePem();
$data->certificateIssuer = $attestationObject->getCertificateIssuer();
$data->certificateSubject = $attestationObject->getCertificateSubject();
$data->signatureCounter = $this->_signatureCounter;
$data->AAGUID = $attestationObject->getAuthenticatorData()->getAAGUID();
$data->rootValid = $rootValid;
$data->userPresent = $userPresent;
$data->userVerified = $userVerified;
return $data;
}
/**
* process a get request
* @param string $clientDataJSON binary from browser
* @param string $authenticatorData binary from browser
* @param string $signature binary from browser
* @param string $credentialPublicKey string PEM-formated public key from used credentialId
* @param string|ByteBuffer $challenge binary from used challange
* @param int $prevSignatureCnt signature count value of the last login
* @param bool $requireUserVerification true, if the device must verify user (e.g. by biometric data or pin)
* @param bool $requireUserPresent true, if the device must check user presence (e.g. by pressing a button)
* @return boolean true if get is successful
* @throws WebAuthnException
*/
public function processGet($clientDataJSON, $authenticatorData, $signature, $credentialPublicKey, $challenge, $prevSignatureCnt=null, $requireUserVerification=false, $requireUserPresent=true) {
$authenticatorObj = new Attestation\AuthenticatorData($authenticatorData);
$clientDataHash = \hash('sha256', $clientDataJSON, true);
$clientData = \json_decode($clientDataJSON);
$challenge = $challenge instanceof ByteBuffer ? $challenge : new ByteBuffer($challenge);
// https://www.w3.org/TR/webauthn/#verifying-assertion
// 1. If the allowCredentials option was given when this authentication ceremony was initiated,
// verify that credential.id identifies one of the public key credentials that were listed in allowCredentials.
// -> TO BE VERIFIED BY IMPLEMENTATION
// 2. If credential.response.userHandle is present, verify that the user identified
// by this value is the owner of the public key credential identified by credential.id.
// -> TO BE VERIFIED BY IMPLEMENTATION
// 3. Using credentials id attribute (or the corresponding rawId, if base64url encoding is
// inappropriate for your use case), look up the corresponding credential public key.
// -> TO BE LOOKED UP BY IMPLEMENTATION
// 5. Let JSONtext be the result of running UTF-8 decode on the value of cData.
if (!\is_object($clientData)) {
throw new WebAuthnException('invalid client data', WebAuthnException::INVALID_DATA);
}
// 7. Verify that the value of C.type is the string webauthn.get.
if (!\property_exists($clientData, 'type') || $clientData->type !== 'webauthn.get') {
throw new WebAuthnException('invalid type', WebAuthnException::INVALID_TYPE);
}
// 8. Verify that the value of C.challenge matches the challenge that was sent to the
// authenticator in the PublicKeyCredentialRequestOptions passed to the get() call.
if (!\property_exists($clientData, 'challenge') || ByteBuffer::fromBase64Url($clientData->challenge)->getBinaryString() !== $challenge->getBinaryString()) {
throw new WebAuthnException('invalid challenge', WebAuthnException::INVALID_CHALLENGE);
}
// 9. Verify that the value of C.origin matches the Relying Party's origin.
if (!\property_exists($clientData, 'origin') || !$this->_checkOrigin($clientData->origin)) {
throw new WebAuthnException('invalid origin', WebAuthnException::INVALID_ORIGIN);
}
// 11. Verify that the rpIdHash in authData is the SHA-256 hash of the RP ID expected by the Relying Party.
if ($authenticatorObj->getRpIdHash() !== $this->_rpIdHash) {
throw new WebAuthnException('invalid rpId hash', WebAuthnException::INVALID_RELYING_PARTY);
}
// 12. Verify that the User Present bit of the flags in authData is set
if ($requireUserPresent && !$authenticatorObj->getUserPresent()) {
throw new WebAuthnException('user not present during authentication', WebAuthnException::USER_PRESENT);
}
// 13. If user verification is required for this assertion, verify that the User Verified bit of the flags in authData is set.
if ($requireUserVerification && !$authenticatorObj->getUserVerified()) {
throw new WebAuthnException('user not verificated during authentication', WebAuthnException::USER_VERIFICATED);
}
// 14. Verify the values of the client extension outputs
// (extensions not implemented)
// 16. Using the credential public key looked up in step 3, verify that sig is a valid signature
// over the binary concatenation of authData and hash.
$dataToVerify = '';
$dataToVerify .= $authenticatorData;
$dataToVerify .= $clientDataHash;
if (!$this->_verifySignature($dataToVerify, $signature, $credentialPublicKey)) {
throw new WebAuthnException('invalid signature', WebAuthnException::INVALID_SIGNATURE);
}
$signatureCounter = $authenticatorObj->getSignCount();
if ($signatureCounter !== 0) {
$this->_signatureCounter = $signatureCounter;
}
// 17. If either of the signature counter value authData.signCount or
// previous signature count is nonzero, and if authData.signCount
// less than or equal to previous signature count, it's a signal
// that the authenticator may be cloned
if ($prevSignatureCnt !== null) {
if ($signatureCounter !== 0 || $prevSignatureCnt !== 0) {
if ($prevSignatureCnt >= $signatureCounter) {
throw new WebAuthnException('signature counter not valid', WebAuthnException::SIGNATURE_COUNTER);
}
}
}
return true;
}
/**
* Downloads root certificates from FIDO Alliance Metadata Service (MDS) to a specific folder
* https://fidoalliance.org/metadata/
* @param string $certFolder Folder path to save the certificates in PEM format.
* @param bool $deleteCerts delete certificates in the target folder before adding the new ones.
* @return int number of cetificates
* @throws WebAuthnException
*/
public function queryFidoMetaDataService($certFolder, $deleteCerts=true) {
$url = 'https://mds.fidoalliance.org/';
$raw = null;
if (\function_exists('curl_init')) {
$ch = \curl_init($url);
\curl_setopt($ch, CURLOPT_HEADER, false);
\curl_setopt($ch, CURLOPT_RETURNTRANSFER, true);
\curl_setopt($ch, CURLOPT_FOLLOWLOCATION, true);
\curl_setopt($ch, CURLOPT_USERAGENT, 'github.com/lbuchs/WebAuthn - A simple PHP WebAuthn server library');
$raw = \curl_exec($ch);
\curl_close($ch);
} else {
$raw = \file_get_contents($url);
}
$certFolder = \rtrim(\realpath($certFolder), '\\/');
if (!is_dir($certFolder)) {
throw new WebAuthnException('Invalid folder path for query FIDO Alliance Metadata Service');
}
if (!\is_string($raw)) {
throw new WebAuthnException('Unable to query FIDO Alliance Metadata Service');
}
$jwt = \explode('.', $raw);
if (\count($jwt) !== 3) {
throw new WebAuthnException('Invalid JWT from FIDO Alliance Metadata Service');
}
if ($deleteCerts) {
foreach (\scandir($certFolder) as $ca) {
if (\substr($ca, -4) === '.pem') {
if (\unlink($certFolder . DIRECTORY_SEPARATOR . $ca) === false) {
throw new WebAuthnException('Cannot delete certs in folder for FIDO Alliance Metadata Service');
}
}
}
}
list($header, $payload, $hash) = $jwt;
$payload = Binary\ByteBuffer::fromBase64Url($payload)->getJson();
$count = 0;
if (\is_object($payload) && \property_exists($payload, 'entries') && \is_array($payload->entries)) {
foreach ($payload->entries as $entry) {
if (\is_object($entry) && \property_exists($entry, 'metadataStatement') && \is_object($entry->metadataStatement)) {
$description = $entry->metadataStatement->description ?? null;
$attestationRootCertificates = $entry->metadataStatement->attestationRootCertificates ?? null;
if ($description && $attestationRootCertificates) {
// create filename
$certFilename = \preg_replace('/[^a-z0-9]/i', '_', $description);
$certFilename = \trim(\preg_replace('/\_{2,}/i', '_', $certFilename),'_') . '.pem';
$certFilename = \strtolower($certFilename);
// add certificate
$certContent = $description . "\n";
$certContent .= \str_repeat('-', \mb_strlen($description)) . "\n";
foreach ($attestationRootCertificates as $attestationRootCertificate) {
$attestationRootCertificate = \str_replace(["\n", "\r", ' '], '', \trim($attestationRootCertificate));
$count++;
$certContent .= "\n-----BEGIN CERTIFICATE-----\n";
$certContent .= \chunk_split($attestationRootCertificate, 64, "\n");
$certContent .= "-----END CERTIFICATE-----\n";
}
if (\file_put_contents($certFolder . DIRECTORY_SEPARATOR . $certFilename, $certContent) === false) {
throw new WebAuthnException('unable to save certificate from FIDO Alliance Metadata Service');
}
}
}
}
}
return $count;
}
// -----------------------------------------------
// PRIVATE
// -----------------------------------------------
/**
* checks if the origin matchs the RP ID
* @param string $origin
* @return boolean
* @throws WebAuthnException
*/
private function _checkOrigin($origin) {
// https://www.w3.org/TR/webauthn/#rp-id
// The origin's scheme must be https
if ($this->_rpId !== 'localhost' && \parse_url($origin, PHP_URL_SCHEME) !== 'https') {
return false;
}
// extract host from origin
$host = \parse_url($origin, PHP_URL_HOST);
$host = \trim($host, '.');
// The RP ID must be equal to the origin's effective domain, or a registrable
// domain suffix of the origin's effective domain.
return \preg_match('/' . \preg_quote($this->_rpId) . '$/i', $host) === 1;
}
/**
* generates a new challange
* @param int $length
* @return string
* @throws WebAuthnException
*/
private function _createChallenge($length = 32) {
if (!$this->_challenge) {
$this->_challenge = ByteBuffer::randomBuffer($length);
}
return $this->_challenge;
}
/**
* check if the signature is valid.
* @param string $dataToVerify
* @param string $signature
* @param string $credentialPublicKey PEM format
* @return bool
*/
private function _verifySignature($dataToVerify, $signature, $credentialPublicKey) {
// Use Sodium to verify EdDSA 25519 as its not yet supported by openssl
if (\function_exists('sodium_crypto_sign_verify_detached') && !\in_array('ed25519', \openssl_get_curve_names(), true)) {
$pkParts = [];
if (\preg_match('/BEGIN PUBLIC KEY\-+(?:\s|\n|\r)+([^\-]+)(?:\s|\n|\r)*\-+END PUBLIC KEY/i', $credentialPublicKey, $pkParts)) {
$rawPk = \base64_decode($pkParts[1]);
// 30 = der sequence
// 2a = length 42 byte
// 30 = der sequence
// 05 = lenght 5 byte
// 06 = der OID
// 03 = OID length 3 byte
// 2b 65 70 = OID 1.3.101.112 curveEd25519 (EdDSA 25519 signature algorithm)
// 03 = der bit string
// 21 = length 33 byte
// 00 = null padding
// [...] = 32 byte x-curve
$okpPrefix = "\x30\x2a\x30\x05\x06\x03\x2b\x65\x70\x03\x21\x00";
if ($rawPk && \strlen($rawPk) === 44 && \substr($rawPk,0, \strlen($okpPrefix)) === $okpPrefix) {
$publicKeyXCurve = \substr($rawPk, \strlen($okpPrefix));
return \sodium_crypto_sign_verify_detached($signature, $dataToVerify, $publicKeyXCurve);
}
}
}
// verify with openSSL
$publicKey = \openssl_pkey_get_public($credentialPublicKey);
if ($publicKey === false) {
throw new WebAuthnException('public key invalid', WebAuthnException::INVALID_PUBLIC_KEY);
}
return \openssl_verify($dataToVerify, $signature, $publicKey, OPENSSL_ALGO_SHA256) === 1;
}
}

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src/server/cyberhex-code/test/WebAuthnException.php Normal file
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<?php
namespace lbuchs\WebAuthn;
/**
* @author Lukas Buchs
* @license https://github.com/lbuchs/WebAuthn/blob/master/LICENSE MIT
*/
class WebAuthnException extends \Exception {
const INVALID_DATA = 1;
const INVALID_TYPE = 2;
const INVALID_CHALLENGE = 3;
const INVALID_ORIGIN = 4;
const INVALID_RELYING_PARTY = 5;
const INVALID_SIGNATURE = 6;
const INVALID_PUBLIC_KEY = 7;
const CERTIFICATE_NOT_TRUSTED = 8;
const USER_PRESENT = 9;
const USER_VERIFICATED = 10;
const SIGNATURE_COUNTER = 11;
const CRYPTO_STRONG = 13;
const BYTEBUFFER = 14;
const CBOR = 15;
const ANDROID_NOT_TRUSTED = 16;
public function __construct($message = "", $code = 0, $previous = null) {
parent::__construct($message, $code, $previous);
}
}

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require_once '../src/WebAuthn.php';
try {
session_start();
// read get argument and post body
$fn = filter_input(INPUT_GET, 'fn');
$requireResidentKey = !!filter_input(INPUT_GET, 'requireResidentKey');
$userVerification = filter_input(INPUT_GET, 'userVerification', FILTER_SANITIZE_SPECIAL_CHARS);
$userId = filter_input(INPUT_GET, 'userId', FILTER_SANITIZE_SPECIAL_CHARS);
$userName = filter_input(INPUT_GET, 'userName', FILTER_SANITIZE_SPECIAL_CHARS);
$userDisplayName = filter_input(INPUT_GET, 'userDisplayName', FILTER_SANITIZE_SPECIAL_CHARS);
$userId = preg_replace('/[^0-9a-f]/i', '', $userId);
$userName = preg_replace('/[^0-9a-z]/i', '', $userName);
$userDisplayName = preg_replace('/[^0-9a-z öüäéèàÖÜÄÉÈÀÂÊÎÔÛâêîôû]/i', '', $userDisplayName);
$post = trim(file_get_contents('php://input'));
if ($post) {
$post = json_decode($post, null, 512, JSON_THROW_ON_ERROR);
}
if ($fn !== 'getStoredDataHtml') {
// Formats
$formats = [];
if (filter_input(INPUT_GET, 'fmt_android-key')) {
$formats[] = 'android-key';
}
if (filter_input(INPUT_GET, 'fmt_android-safetynet')) {
$formats[] = 'android-safetynet';
}
if (filter_input(INPUT_GET, 'fmt_apple')) {
$formats[] = 'apple';
}
if (filter_input(INPUT_GET, 'fmt_fido-u2f')) {
$formats[] = 'fido-u2f';
}
if (filter_input(INPUT_GET, 'fmt_none')) {
$formats[] = 'none';
}
if (filter_input(INPUT_GET, 'fmt_packed')) {
$formats[] = 'packed';
}
if (filter_input(INPUT_GET, 'fmt_tpm')) {
$formats[] = 'tpm';
}
$rpId = 'localhost';
if (filter_input(INPUT_GET, 'rpId')) {
$rpId = filter_input(INPUT_GET, 'rpId', FILTER_VALIDATE_DOMAIN);
if ($rpId === false) {
throw new Exception('invalid relying party ID');
}
}
// types selected on front end
$typeUsb = !!filter_input(INPUT_GET, 'type_usb');
$typeNfc = !!filter_input(INPUT_GET, 'type_nfc');
$typeBle = !!filter_input(INPUT_GET, 'type_ble');
$typeInt = !!filter_input(INPUT_GET, 'type_int');
$typeHyb = !!filter_input(INPUT_GET, 'type_hybrid');
// cross-platform: true, if type internal is not allowed
// false, if only internal is allowed
// null, if internal and cross-platform is allowed
$crossPlatformAttachment = null;
if (($typeUsb || $typeNfc || $typeBle || $typeHyb) && !$typeInt) {
$crossPlatformAttachment = true;
} else if (!$typeUsb && !$typeNfc && !$typeBle && !$typeHyb && $typeInt) {
$crossPlatformAttachment = false;
}
// new Instance of the server library.
// make sure that $rpId is the domain name.
$WebAuthn = new lbuchs\WebAuthn\WebAuthn('WebAuthn Library', $rpId, $formats);
// add root certificates to validate new registrations
if (filter_input(INPUT_GET, 'solo')) {
$WebAuthn->addRootCertificates('rootCertificates/solo.pem');
}
if (filter_input(INPUT_GET, 'apple')) {
$WebAuthn->addRootCertificates('rootCertificates/apple.pem');
}
if (filter_input(INPUT_GET, 'yubico')) {
$WebAuthn->addRootCertificates('rootCertificates/yubico.pem');
}
if (filter_input(INPUT_GET, 'hypersecu')) {
$WebAuthn->addRootCertificates('rootCertificates/hypersecu.pem');
}
if (filter_input(INPUT_GET, 'google')) {
$WebAuthn->addRootCertificates('rootCertificates/globalSign.pem');
$WebAuthn->addRootCertificates('rootCertificates/googleHardware.pem');
}
if (filter_input(INPUT_GET, 'microsoft')) {
$WebAuthn->addRootCertificates('rootCertificates/microsoftTpmCollection.pem');
}
if (filter_input(INPUT_GET, 'mds')) {
$WebAuthn->addRootCertificates('rootCertificates/mds');
}
}
// ------------------------------------
// request for create arguments
// ------------------------------------
if ($fn === 'getCreateArgs') {
$createArgs = $WebAuthn->getCreateArgs(\hex2bin($userId), $userName, $userDisplayName, 60*4, $requireResidentKey, $userVerification, $crossPlatformAttachment);
header('Content-Type: application/json');
print(json_encode($createArgs));
// save challange to session. you have to deliver it to processGet later.
$_SESSION['challenge'] = $WebAuthn->getChallenge();
// ------------------------------------
// request for get arguments
// ------------------------------------
} else if ($fn === 'getGetArgs') {
$ids = [];
if ($requireResidentKey) {
if (!isset($_SESSION['registrations']) || !is_array($_SESSION['registrations']) || count($_SESSION['registrations']) === 0) {
throw new Exception('we do not have any registrations in session to check the registration');
}
} else {
// load registrations from session stored there by processCreate.
// normaly you have to load the credential Id's for a username
// from the database.
if (isset($_SESSION['registrations']) && is_array($_SESSION['registrations'])) {
foreach ($_SESSION['registrations'] as $reg) {
if ($reg->userId === $userId) {
$ids[] = $reg->credentialId;
}
}
}
if (count($ids) === 0) {
throw new Exception('no registrations in session for userId ' . $userId);
}
}
$getArgs = $WebAuthn->getGetArgs($ids, 60*4, $typeUsb, $typeNfc, $typeBle, $typeHyb, $typeInt, $userVerification);
header('Content-Type: application/json');
print(json_encode($getArgs));
// save challange to session. you have to deliver it to processGet later.
$_SESSION['challenge'] = $WebAuthn->getChallenge();
// ------------------------------------
// process create
// ------------------------------------
} else if ($fn === 'processCreate') {
$clientDataJSON = base64_decode($post->clientDataJSON);
$attestationObject = base64_decode($post->attestationObject);
$challenge = $_SESSION['challenge'];
// processCreate returns data to be stored for future logins.
// in this example we store it in the php session.
// Normaly you have to store the data in a database connected
// with the user name.
$data = $WebAuthn->processCreate($clientDataJSON, $attestationObject, $challenge, $userVerification === 'required', true, false);
// add user infos
$data->userId = $userId;
$data->userName = $userName;
$data->userDisplayName = $userDisplayName;
if (!isset($_SESSION['registrations']) || !array_key_exists('registrations', $_SESSION) || !is_array($_SESSION['registrations'])) {
$_SESSION['registrations'] = [];
}
$_SESSION['registrations'][] = $data;
$msg = 'registration success.';
if ($data->rootValid === false) {
$msg = 'registration ok, but certificate does not match any of the selected root ca.';
}
$return = new stdClass();
$return->success = true;
$return->msg = $msg;
header('Content-Type: application/json');
print(json_encode($return));
// ------------------------------------
// proccess get
// ------------------------------------
} else if ($fn === 'processGet') {
$clientDataJSON = base64_decode($post->clientDataJSON);
$authenticatorData = base64_decode($post->authenticatorData);
$signature = base64_decode($post->signature);
$userHandle = base64_decode($post->userHandle);
$id = base64_decode($post->id);
$challenge = $_SESSION['challenge'] ?? '';
$credentialPublicKey = null;
// looking up correspondending public key of the credential id
// you should also validate that only ids of the given user name
// are taken for the login.
if (isset($_SESSION['registrations']) && is_array($_SESSION['registrations'])) {
foreach ($_SESSION['registrations'] as $reg) {
if ($reg->credentialId === $id) {
$credentialPublicKey = $reg->credentialPublicKey;
break;
}
}
}
if ($credentialPublicKey === null) {
throw new Exception('Public Key for credential ID not found!');
}
// if we have resident key, we have to verify that the userHandle is the provided userId at registration
if ($requireResidentKey && $userHandle !== hex2bin($reg->userId)) {
throw new \Exception('userId doesnt match (is ' . bin2hex($userHandle) . ' but expect ' . $reg->userId . ')');
}
// process the get request. throws WebAuthnException if it fails
$WebAuthn->processGet($clientDataJSON, $authenticatorData, $signature, $credentialPublicKey, $challenge, null, $userVerification === 'required');
$return = new stdClass();
$return->success = true;
header('Content-Type: application/json');
print(json_encode($return));
// ------------------------------------
// proccess clear registrations
// ------------------------------------
} else if ($fn === 'clearRegistrations') {
$_SESSION['registrations'] = null;
$_SESSION['challenge'] = null;
$return = new stdClass();
$return->success = true;
$return->msg = 'all registrations deleted';
header('Content-Type: application/json');
print(json_encode($return));
// ------------------------------------
// display stored data as HTML
// ------------------------------------
} else if ($fn === 'getStoredDataHtml') {
$html = '<!DOCTYPE html>' . "\n";
$html .= '<html><head><style>tr:nth-child(even){background-color: #f2f2f2;}</style></head>';
$html .= '<body style="font-family:sans-serif">';
if (isset($_SESSION['registrations']) && is_array($_SESSION['registrations'])) {
$html .= '<p>There are ' . count($_SESSION['registrations']) . ' registrations in this session:</p>';
foreach ($_SESSION['registrations'] as $reg) {
$html .= '<table style="border:1px solid black;margin:10px 0;">';
foreach ($reg as $key => $value) {
if (is_bool($value)) {
$value = $value ? 'yes' : 'no';
} else if (is_null($value)) {
$value = 'null';
} else if (is_object($value)) {
$value = chunk_split(strval($value), 64);
} else if (is_string($value) && strlen($value) > 0 && htmlspecialchars($value, ENT_QUOTES) === '') {
$value = chunk_split(bin2hex($value), 64);
}
$html .= '<tr><td>' . htmlspecialchars($key) . '</td><td style="font-family:monospace;">' . nl2br(htmlspecialchars($value)) . '</td>';
}
$html .= '</table>';
}
} else {
$html .= '<p>There are no registrations in this session.</p>';
}
$html .= '</body></html>';
header('Content-Type: text/html');
print $html;
// ------------------------------------
// get root certs from FIDO Alliance Metadata Service
// ------------------------------------
} else if ($fn === 'queryFidoMetaDataService') {
$mdsFolder = 'rootCertificates/mds';
$success = false;
$msg = null;
// fetch only 1x / 24h
$lastFetch = \is_file($mdsFolder . '/lastMdsFetch.txt') ? \strtotime(\file_get_contents($mdsFolder . '/lastMdsFetch.txt')) : 0;
if ($lastFetch + (3600*48) < \time()) {
$cnt = $WebAuthn->queryFidoMetaDataService($mdsFolder);
$success = true;
\file_put_contents($mdsFolder . '/lastMdsFetch.txt', date('r'));
$msg = 'successfully queried FIDO Alliance Metadata Service - ' . $cnt . ' certificates downloaded.';
} else {
$msg = 'Fail: last fetch was at ' . date('r', $lastFetch) . ' - fetch only 1x every 48h';
}
$return = new stdClass();
$return->success = $success;
$return->msg = $msg;
header('Content-Type: application/json');
print(json_encode($return));
}
} catch (Throwable $ex) {
$return = new stdClass();
$return->success = false;
$return->msg = $ex->getMessage();
header('Content-Type: application/json');
print(json_encode($return));
}
?>

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<html>
<head>
<title>lbuchs/WebAuthn Test</title>
<meta charset="UTF-8">
<script>
/**
* creates a new FIDO2 registration
* @returns {undefined}
*/
async function createRegistration() {
try {
// check browser support
if (!window.fetch || !navigator.credentials || !navigator.credentials.create) {
throw new Error('Browser not supported.');
}
// get create args
let rep = await window.fetch('server.php?fn=getCreateArgs' + getGetParams(), {method:'GET', cache:'no-cache'});
const createArgs = await rep.json();
// error handling
if (createArgs.success === false) {
throw new Error(createArgs.msg || 'unknown error occured');
}
// replace binary base64 data with ArrayBuffer. a other way to do this
// is the reviver function of JSON.parse()
recursiveBase64StrToArrayBuffer(createArgs);
// create credentials
const cred = await navigator.credentials.create(createArgs);
// create object
const authenticatorAttestationResponse = {
transports: cred.response.getTransports ? cred.response.getTransports() : null,
clientDataJSON: cred.response.clientDataJSON ? arrayBufferToBase64(cred.response.clientDataJSON) : null,
attestationObject: cred.response.attestationObject ? arrayBufferToBase64(cred.response.attestationObject) : null
};
// check auth on server side
rep = await window.fetch('server.php?fn=processCreate' + getGetParams(), {
method : 'POST',
body : JSON.stringify(authenticatorAttestationResponse),
cache : 'no-cache'
});
const authenticatorAttestationServerResponse = await rep.json();
// prompt server response
if (authenticatorAttestationServerResponse.success) {
reloadServerPreview();
window.alert(authenticatorAttestationServerResponse.msg || 'registration success');
} else {
throw new Error(authenticatorAttestationServerResponse.msg);
}
} catch (err) {
reloadServerPreview();
window.alert(err.message || 'unknown error occured');
}
}
/**
* checks a FIDO2 registration
* @returns {undefined}
*/
async function checkRegistration() {
try {
if (!window.fetch || !navigator.credentials || !navigator.credentials.create) {
throw new Error('Browser not supported.');
}
// get check args
let rep = await window.fetch('server.php?fn=getGetArgs' + getGetParams(), {method:'GET',cache:'no-cache'});
const getArgs = await rep.json();
// error handling
if (getArgs.success === false) {
throw new Error(getArgs.msg);
}
// replace binary base64 data with ArrayBuffer. a other way to do this
// is the reviver function of JSON.parse()
recursiveBase64StrToArrayBuffer(getArgs);
// check credentials with hardware
const cred = await navigator.credentials.get(getArgs);
// create object for transmission to server
const authenticatorAttestationResponse = {
id: cred.rawId ? arrayBufferToBase64(cred.rawId) : null,
clientDataJSON: cred.response.clientDataJSON ? arrayBufferToBase64(cred.response.clientDataJSON) : null,
authenticatorData: cred.response.authenticatorData ? arrayBufferToBase64(cred.response.authenticatorData) : null,
signature: cred.response.signature ? arrayBufferToBase64(cred.response.signature) : null,
userHandle: cred.response.userHandle ? arrayBufferToBase64(cred.response.userHandle) : null
};
// send to server
rep = await window.fetch('server.php?fn=processGet' + getGetParams(), {
method:'POST',
body: JSON.stringify(authenticatorAttestationResponse),
cache:'no-cache'
});
const authenticatorAttestationServerResponse = await rep.json();
// check server response
if (authenticatorAttestationServerResponse.success) {
reloadServerPreview();
window.alert(authenticatorAttestationServerResponse.msg || 'login success');
} else {
throw new Error(authenticatorAttestationServerResponse.msg);
}
} catch (err) {
reloadServerPreview();
window.alert(err.message || 'unknown error occured');
}
}
function clearRegistration() {
window.fetch('server.php?fn=clearRegistrations' + getGetParams(), {method:'GET',cache:'no-cache'}).then(function(response) {
return response.json();
}).then(function(json) {
if (json.success) {
reloadServerPreview();
window.alert(json.msg);
} else {
throw new Error(json.msg);
}
}).catch(function(err) {
reloadServerPreview();
window.alert(err.message || 'unknown error occured');
});
}
function queryFidoMetaDataService() {
window.fetch('server.php?fn=queryFidoMetaDataService' + getGetParams(), {method:'GET',cache:'no-cache'}).then(function(response) {
return response.json();
}).then(function(json) {
if (json.success) {
window.alert(json.msg);
} else {
throw new Error(json.msg);
}
}).catch(function(err) {
window.alert(err.message || 'unknown error occured');
});
}
/**
* convert RFC 1342-like base64 strings to array buffer
* @param {mixed} obj
* @returns {undefined}
*/
function recursiveBase64StrToArrayBuffer(obj) {
let prefix = '=?BINARY?B?';
let suffix = '?=';
if (typeof obj === 'object') {
for (let key in obj) {
if (typeof obj[key] === 'string') {
let str = obj[key];
if (str.substring(0, prefix.length) === prefix && str.substring(str.length - suffix.length) === suffix) {
str = str.substring(prefix.length, str.length - suffix.length);
let binary_string = window.atob(str);
let len = binary_string.length;
let bytes = new Uint8Array(len);
for (let i = 0; i < len; i++) {
bytes[i] = binary_string.charCodeAt(i);
}
obj[key] = bytes.buffer;
}
} else {
recursiveBase64StrToArrayBuffer(obj[key]);
}
}
}
}
/**
* Convert a ArrayBuffer to Base64
* @param {ArrayBuffer} buffer
* @returns {String}
*/
function arrayBufferToBase64(buffer) {
let binary = '';
let bytes = new Uint8Array(buffer);
let len = bytes.byteLength;
for (let i = 0; i < len; i++) {
binary += String.fromCharCode( bytes[ i ] );
}
return window.btoa(binary);
}
/**
* Get URL parameter
* @returns {String}
*/
function getGetParams() {
let url = '';
url += '&apple=' + (document.getElementById('cert_apple').checked ? '1' : '0');
url += '&yubico=' + (document.getElementById('cert_yubico').checked ? '1' : '0');
url += '&solo=' + (document.getElementById('cert_solo').checked ? '1' : '0');
url += '&hypersecu=' + (document.getElementById('cert_hypersecu').checked ? '1' : '0');
url += '&google=' + (document.getElementById('cert_google').checked ? '1' : '0');
url += '&microsoft=' + (document.getElementById('cert_microsoft').checked ? '1' : '0');
url += '&mds=' + (document.getElementById('cert_mds').checked ? '1' : '0');
url += '&requireResidentKey=' + (document.getElementById('requireResidentKey').checked ? '1' : '0');
url += '&type_usb=' + (document.getElementById('type_usb').checked ? '1' : '0');
url += '&type_nfc=' + (document.getElementById('type_nfc').checked ? '1' : '0');
url += '&type_ble=' + (document.getElementById('type_ble').checked ? '1' : '0');
url += '&type_int=' + (document.getElementById('type_int').checked ? '1' : '0');
url += '&type_hybrid=' + (document.getElementById('type_hybrid').checked ? '1' : '0');
url += '&fmt_android-key=' + (document.getElementById('fmt_android-key').checked ? '1' : '0');
url += '&fmt_android-safetynet=' + (document.getElementById('fmt_android-safetynet').checked ? '1' : '0');
url += '&fmt_apple=' + (document.getElementById('fmt_apple').checked ? '1' : '0');
url += '&fmt_fido-u2f=' + (document.getElementById('fmt_fido-u2f').checked ? '1' : '0');
url += '&fmt_none=' + (document.getElementById('fmt_none').checked ? '1' : '0');
url += '&fmt_packed=' + (document.getElementById('fmt_packed').checked ? '1' : '0');
url += '&fmt_tpm=' + (document.getElementById('fmt_tpm').checked ? '1' : '0');
url += '&rpId=' + encodeURIComponent(document.getElementById('rpId').value);
url += '&userId=' + encodeURIComponent(document.getElementById('userId').value);
url += '&userName=' + encodeURIComponent(document.getElementById('userName').value);
url += '&userDisplayName=' + encodeURIComponent(document.getElementById('userDisplayName').value);
if (document.getElementById('userVerification_required').checked) {
url += '&userVerification=required';
} else if (document.getElementById('userVerification_preferred').checked) {
url += '&userVerification=preferred';
} else if (document.getElementById('userVerification_discouraged').checked) {
url += '&userVerification=discouraged';
}
return url;
}
function reloadServerPreview() {
let iframe = document.getElementById('serverPreview');
iframe.src = iframe.src;
}
function setAttestation(attestation) {
let inputEls = document.getElementsByTagName('input');
for (const inputEl of inputEls) {
if (inputEl.id && inputEl.id.match(/^(fmt|cert)\_/)) {
inputEl.disabled = !attestation;
}
if (inputEl.id && inputEl.id.match(/^fmt\_/)) {
inputEl.checked = attestation ? inputEl.id !== 'fmt_none' : inputEl.id === 'fmt_none';
}
if (inputEl.id && inputEl.id.match(/^cert\_/)) {
inputEl.checked = attestation ? inputEl.id === 'cert_mds' : false;
}
}
}
/**
* force https on load
* @returns {undefined}
*/
window.onload = function() {
if (location.protocol !== 'https:' && location.host !== 'localhost') {
location.href = location.href.replace('http', 'https');
}
if (!document.getElementById('rpId').value) {
document.getElementById('rpId').value = location.hostname;
}
if (!document.getElementById('attestation_yes').checked) {
setAttestation(false);
}
}
</script>
<style>
body {
font-family:sans-serif;
margin: 0 20px;
padding: 0;
}
.splitter {
display: flex;
flex-direction: row;
flex-wrap: wrap;
margin: 0;
padding: 0;
}
.splitter > .form {
flex: 1;
min-width: 600px;
}
.splitter > .serverPreview {
width: 740px;
min-height: 700px;
margin: 0;
padding: 0;
border: 1px solid grey;
display: flex;
flex-direction: column;
}
.splitter > .serverPreview iframe {
width: 700px;
flex: 1;
border: 0;
}
</style>
</head>
<body>
<h1 style="margin: 40px 10px 2px 0;">lbuchs/WebAuthn</h1>
<div style="font-style: italic;">A simple PHP WebAuthn (FIDO2) server library.</div>
<div class="splitter">
<div class="form">
<div>&nbsp;</div>
<div>&nbsp;</div>
<div>Simple working demo for the <a href="https://github.com/lbuchs/WebAuthn">lbuchs/WebAuthn</a> library.</div>
<div>
<div>&nbsp;</div>
<table>
<tbody><tr>
<td>
<button type="button" onclick="createRegistration()">&#10133; new registration</button>
</td>
<td>
<button type="button" onclick="checkRegistration()">&#10068; check registration</button>
</td>
<td>
<button type="button" onclick="clearRegistration()">&#9249; clear all registrations</button>
</td>
</tr>
</tbody>
</table>
<div>&nbsp;</div>
<div>
<input type="checkbox" id="requireResidentKey" name="requireResidentKey">
<label for="requireResidentKey">Use Client-side discoverable Credentials / Passkeys
<i style="font-size: 0.8em;">Warning: most client-side modules and authenticators don't allow to delete single client side credentials.
You have to reset the full device to remove the credentials again.</i>
</label>
</div>
<div>&nbsp;</div>
<div style="font-weight: bold">Relying Party</div>
<p style="margin:0 0 5px 0;font-size:0.9em;font-style: italic;">A valid domain string that identifies the
WebAuthn Relying Party<br/>on whose behalf a given registration or authentication ceremony is being performed.</p>
<div>
<label for="rpId">RP ID:</label>
<input type="text" id="rpId" name="rpId" value="">
</div>
<div>&nbsp;</div>
<div style="font-weight: bold">User</div>
<div style="margin-bottom:12px">
<label for="userId">User ID (Hex):</label>
<input type="text" id="userId" name="userId" value="64656d6f64656d6f" required pattern="[0-9a-fA-F]{2,}">
<i style="font-size: 0.8em;">You get the user ID back when checking registration (as userHandle), if you're using client-side discoverable credentials.
You can identify with this ID the user who wants to login.
A user handle is an opaque byte sequence with a maximum size of 64 bytes, and is not meant to be displayed to the user.
The user handle MUST NOT contain personally identifying information about the user, such as a username or e-mail address.</i>
</div>
<div style="margin-bottom:12px">
<label for="userName">User Name:</label>
<input type="text" id="userName" name="userName" value="demo" required pattern="[0-9a-zA-Z]{2,}">
<i style="font-size: 0.8em;">only for display, i.e., aiding the user in determining the difference between user accounts with similar display names.</i>
</div>
<div style="margin-bottom:6px">
<label for="userDisplayName">User Display Name:</label>
<input type="text" id="userDisplayName" name="userDisplayName" value="Demo Demolin" required>
<i style="font-size: 0.8em;">A human-palatable name for the user account, intended only for display.</i>
</div>
<div>&nbsp;</div>
<div style="font-weight: bold">user verification</div>
<div>
<input type="radio" id="userVerification_required" name="userVerification">
<label for="userVerification_required">required <i style="font-size: 0.8em;">User verification is required (e.g. by pin), the operation will fail if the response does not have the UV flag.</i></label>
</div>
<div>
<input type="radio" id="userVerification_preferred" name="userVerification">
<label for="userVerification_preferred">preferred <i style="font-size: 0.8em;">user verification is prefered, the operation will not fail if the response does not have the UV flag.</i></label>
</div>
<div>
<input type="radio" id="userVerification_discouraged" name="userVerification" checked>
<label for="userVerification_discouraged">discouraged <i style="font-size: 0.8em;">user verification should not be employed as to minimize the user interaction during the process.</i></label>
</div>
<div>&nbsp;</div>
<div style="font-weight: bold">type of authenticator</div>
<div>
<input type="checkbox" id="type_usb" name="type_usb" checked>
<label for="type_usb">USB</label>
</div>
<div>
<input type="checkbox" id="type_nfc" name="type_nfc" checked>
<label for="type_nfc">NFC</label>
</div>
<div>
<input type="checkbox" id="type_ble" name="type_ble" checked>
<label for="type_ble">BLE</label>
</div>
<div>
<input type="checkbox" id="type_hybrid" name="type_hybrid" checked>
<label for="type_hybrid">hybrid <i style="font-size: 0.8em;">Passkeys via mobile device, ...</i></label>
</div>
<div>
<input type="checkbox" id="type_int" name="type_int" checked>
<label for="type_int">internal <i style="font-size: 0.8em;">Passkeys on the device, Windows Hello, Android SafetyNet, Apple, ...</i></label>
</div>
<div>&nbsp;</div>
<div style="font-weight: bold">attestation</div>
<div>
<input type="radio" id="attestation_yes" value="yes" name="attestation" onchange="setAttestation(this.value === 'yes')" checked>
<label for="attestation_yes">yes</label>
</div>
<div>
<input type="radio" id="attestation_no" value="no" name="attestation" onchange="setAttestation(this.value === 'yes')">
<label for="attestation_no">no</label>
</div>
<div>&nbsp;</div>
<div style="font-weight: bold">attestation statement format</div>
<div>
<input type="checkbox" id="fmt_android-key" name="fmt_android-key" checked>
<label for="fmt_android-key">android-key</label>
</div>
<div>
<input type="checkbox" id="fmt_android-safetynet" name="fmt_android-safetynet" checked>
<label for="fmt_android-safetynet">android-safetynet</label>
</div>
<div>
<input type="checkbox" id="fmt_apple" name="fmt_apple" checked>
<label for="fmt_apple">apple</label>
</div>
<div>
<input type="checkbox" id="fmt_fido-u2f" name="fmt_fido-u2f" checked>
<label for="fmt_fido-u2f">fido-u2f</label>
</div>
<div>
<input type="checkbox" id="fmt_none" name="fmt_none">
<label for="fmt_none">none</label>
</div>
<div>
<input type="checkbox" id="fmt_packed" name="fmt_packed" checked>
<label for="fmt_packed">packed</label>
</div>
<div>
<input type="checkbox" id="fmt_tpm" name="fmt_tpm" checked>
<label for="fmt_tpm">tpm</label>
</div>
<div>&nbsp;</div>
<div style="font-weight: bold">attestation root certificates</div>
<div>
<input type="checkbox" id="cert_mds" name="mds" checked>
<label for="cert_mds">Accept keys signed by <a href="https://fidoalliance.org/metadata/" target="_blank">FIDO Alliance Metadata Service</a></label>
</div>
<div>
<input type="checkbox" id="cert_apple" name="apple">
<label for="cert_apple">Accept keys signed by apple root ca</label>
</div>
<div>
<input type="checkbox" id="cert_yubico" name="yubico">
<label for="cert_yubico">Accept keys signed by yubico root ca</label>
</div>
<div>
<input type="checkbox" id="cert_solo" name="solo">
<label for="cert_solo">Accept keys signed by solokeys root ca</label>
</div>
<div>
<input type="checkbox" id="cert_hypersecu" name="hypersecu">
<label for="cert_hypersecu">Accept keys signed by hypersecu root ca</label>
</div>
<div>
<input type="checkbox" id="cert_google" name="google">
<label for="cert_google">Accept keys signed by google root ca</label>
</div>
<div>
<input type="checkbox" id="cert_microsoft" name="microsoft">
<label for="cert_microsoft">Accept keys signed by Microsofts collection of trusted TPM root ca</label>
</div>
<div style="font-size: 0.7em">(Nothing checked = accept all)</div>
<div>&nbsp;</div>
<div>
<button type="button" onclick="queryFidoMetaDataService()">&#128472; update root certificates from FIDO Alliance Metadata Service (MDS)</button>
</div>
<div>&nbsp;</div>
<div>If you select a root ca, direct attestation is required to validate your client with the root.<br>
The browser may warn you that he will provide informations about your device.<br>
When not checking against any root ca (deselect all certificates),
the client may change the assertion from the authenticator (for instance, using an anonymization CA),<br>
the browser may not warn about providing informations about your device.
</div>
<div style="margin-top:20px;font-size: 0.7em;font-style: italic">
Copyright &copy; 2023 Lukas Buchs - <a href="https://raw.githubusercontent.com/lbuchs/WebAuthn/master/LICENSE">license therms</a>
</div>
</div>
</div>
<div class="serverPreview">
<p style="margin-left:10px;font-weight: bold;">Here you can see what's saved on the server:</p>
<iframe src="server.php?fn=getStoredDataHtml" id="serverPreview"></iframe>
</div>
<div>
</body>
</html>