488 lines
22 KiB
PHP
488 lines
22 KiB
PHP
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<?php
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namespace WebAuthn;
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use WebAuthn\Binary\ByteBuffer;
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require_once 'WebAuthnException.php';
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require_once 'Binary/ByteBuffer.php';
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require_once 'Attestation/AttestationObject.php';
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require_once 'Attestation/AuthenticatorData.php';
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require_once 'Attestation/Format/FormatBase.php';
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require_once 'Attestation/Format/None.php';
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require_once 'Attestation/Format/AndroidKey.php';
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require_once 'Attestation/Format/AndroidSafetyNet.php';
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require_once 'Attestation/Format/Packed.php';
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require_once 'Attestation/Format/Tpm.php';
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require_once 'Attestation/Format/U2f.php';
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require_once 'CBOR/CborDecoder.php';
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/**
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* WebAuthn
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* @author Lukas Buchs
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* @license https://github.com/lbuchs/WebAuthn/blob/master/LICENSE MIT
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*/
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class WebAuthn {
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// relying party
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private $_rpName;
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private $_rpId;
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private $_rpIdHash;
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private $_challenge;
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private $_signatureCounter;
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private $_caFiles;
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private $_formats;
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/**
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* Initialize a new WebAuthn server
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* @param string $rpName the relying party name
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* @param string $rpId the relying party ID = the domain name
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* @param bool $useBase64UrlEncoding true to use base64 url encoding for binary data in json objects. Default is a RFC 1342-Like serialized string.
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* @throws WebAuthnException
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*/
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public function __construct($rpName, $rpId, $allowedFormats=null, $useBase64UrlEncoding=false) {
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$this->_rpName = $rpName;
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$this->_rpId = $rpId;
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$this->_rpIdHash = \hash('sha256', $rpId, true);
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ByteBuffer::$useBase64UrlEncoding = !!$useBase64UrlEncoding;
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if (!\function_exists('\openssl_open')) {
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throw new WebAuthnException('OpenSSL-Module not installed');;
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}
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if (!\in_array('SHA256', \array_map('\strtoupper', \openssl_get_md_methods()))) {
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throw new WebAuthnException('SHA256 not supported by this openssl installation.');
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}
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// default value
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if (!is_array($allowedFormats)) {
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$allowedFormats = array('android-key', 'fido-u2f', 'packed', 'tpm');
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}
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$this->_formats = $allowedFormats;
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// validate formats
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$invalidFormats = \array_diff($this->_formats, array('android-key', 'android-safetynet', 'fido-u2f', 'none', 'packed', 'tpm'));
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if (!$this->_formats || $invalidFormats) {
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throw new WebAuthnException('Invalid formats on construct: ' . implode(', ', $invalidFormats));
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}
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}
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/**
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* add a root certificate to verify new registrations
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* @param string $path file path of / directory with root certificates
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*/
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public function addRootCertificates($path) {
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if (!\is_array($this->_caFiles)) {
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$this->_caFiles = array();
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}
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$path = \rtrim(\trim($path), '\\/');
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if (\is_dir($path)) {
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foreach (\scandir($path) as $ca) {
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if (\is_file($path . '/' . $ca)) {
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$this->addRootCertificates($path . '/' . $ca);
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}
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}
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} else if (\is_file($path) && !\in_array(\realpath($path), $this->_caFiles)) {
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$this->_caFiles[] = \realpath($path);
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}
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}
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/**
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* Returns the generated challenge to save for later validation
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* @return ByteBuffer
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*/
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public function getChallenge() {
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return $this->_challenge;
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}
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/**
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* generates the object for a key registration
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* provide this data to navigator.credentials.create
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* @param string $userId
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* @param string $userName
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* @param string $userDisplayName
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* @param int $timeout timeout in seconds
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* @param bool $requireResidentKey true, if the key should be stored by the authentication device
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* @param bool|string $requireUserVerification indicates that you require user verification and will fail the operation
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* if the response does not have the UV flag set.
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* Valid values:
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* true = required
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* false = preferred
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* string 'required' 'preferred' 'discouraged'
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* @param array $excludeCredentialIds a array of ids, which are already registered, to prevent re-registration
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* @return \stdClass
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*/
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public function getCreateArgs($userId, $userName, $userDisplayName, $timeout=20, $requireResidentKey=false, $requireUserVerification=false, $excludeCredentialIds=array()) {
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// validate User Verification Requirement
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if (\is_bool($requireUserVerification)) {
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$requireUserVerification = $requireUserVerification ? 'required' : 'preferred';
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} else if (\is_string($requireUserVerification) && \in_array(\strtolower($requireUserVerification), ['required', 'preferred', 'discouraged'])) {
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$requireUserVerification = \strtolower($requireUserVerification);
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} else {
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$requireUserVerification = 'preferred';
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}
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$args = new \stdClass();
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$args->publicKey = new \stdClass();
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// relying party
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$args->publicKey->rp = new \stdClass();
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$args->publicKey->rp->name = $this->_rpName;
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$args->publicKey->rp->id = $this->_rpId;
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$args->publicKey->authenticatorSelection = new \stdClass();
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$args->publicKey->authenticatorSelection->userVerification = $requireUserVerification;
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if ($requireResidentKey) {
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$args->publicKey->authenticatorSelection->requireResidentKey = true;
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}
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// user
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$args->publicKey->user = new \stdClass();
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$args->publicKey->user->id = new ByteBuffer($userId); // binary
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$args->publicKey->user->name = $userName;
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$args->publicKey->user->displayName = $userDisplayName;
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$args->publicKey->pubKeyCredParams = array();
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$tmp = new \stdClass();
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$tmp->type = 'public-key';
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$tmp->alg = -7; // ES256
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$args->publicKey->pubKeyCredParams[] = $tmp;
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unset ($tmp);
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$tmp = new \stdClass();
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$tmp->type = 'public-key';
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$tmp->alg = -257; // RS256
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$args->publicKey->pubKeyCredParams[] = $tmp;
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unset ($tmp);
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// if there are root certificates added, we need direct attestation to validate
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// against the root certificate. If there are no root-certificates added,
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// anonymization ca are also accepted, because we can't validate the root anyway.
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$attestation = 'indirect';
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if (\is_array($this->_caFiles)) {
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$attestation = 'direct';
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}
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$args->publicKey->attestation = \count($this->_formats) === 1 && \in_array('none', $this->_formats) ? 'none' : $attestation;
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$args->publicKey->extensions = new \stdClass();
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$args->publicKey->extensions->exts = true;
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$args->publicKey->timeout = $timeout * 1000; // microseconds
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$args->publicKey->challenge = $this->_createChallenge(); // binary
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//prevent re-registration by specifying existing credentials
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$args->publicKey->excludeCredentials = array();
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if (is_array($excludeCredentialIds)) {
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foreach ($excludeCredentialIds as $id) {
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$tmp = new \stdClass();
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$tmp->id = $id instanceof ByteBuffer ? $id : new ByteBuffer($id); // binary
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$tmp->type = 'public-key';
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$tmp->transports = array('usb', 'ble', 'nfc', 'internal');
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$args->publicKey->excludeCredentials[] = $tmp;
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unset ($tmp);
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}
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}
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return $args;
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}
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/**
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* generates the object for key validation
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* Provide this data to navigator.credentials.get
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* @param array $credentialIds binary
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* @param int $timeout timeout in seconds
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* @param bool $allowUsb allow removable USB
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* @param bool $allowNfc allow Near Field Communication (NFC)
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* @param bool $allowBle allow Bluetooth
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* @param bool $allowInternal allow client device-specific transport. These authenticators are not removable from the client device.
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* @param bool|string $requireUserVerification indicates that you require user verification and will fail the operation
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* if the response does not have the UV flag set.
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* Valid values:
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* true = required
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* false = preferred
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* string 'required' 'preferred' 'discouraged'
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* @return \stdClass
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*/
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public function getGetArgs($credentialIds=array(), $timeout=20, $allowUsb=true, $allowNfc=true, $allowBle=true, $allowInternal=true, $requireUserVerification=false) {
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// validate User Verification Requirement
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if (\is_bool($requireUserVerification)) {
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$requireUserVerification = $requireUserVerification ? 'required' : 'preferred';
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} else if (\is_string($requireUserVerification) && \in_array(\strtolower($requireUserVerification), ['required', 'preferred', 'discouraged'])) {
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$requireUserVerification = \strtolower($requireUserVerification);
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} else {
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$requireUserVerification = 'preferred';
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}
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$args = new \stdClass();
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$args->publicKey = new \stdClass();
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$args->publicKey->timeout = $timeout * 1000; // microseconds
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$args->publicKey->challenge = $this->_createChallenge(); // binary
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$args->publicKey->userVerification = $requireUserVerification;
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$args->publicKey->rpId = $this->_rpId;
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if (\is_array($credentialIds) && \count($credentialIds) > 0) {
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$args->publicKey->allowCredentials = array();
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foreach ($credentialIds as $id) {
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$tmp = new \stdClass();
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$tmp->id = $id instanceof ByteBuffer ? $id : new ByteBuffer($id); // binary
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$tmp->transports = array();
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if ($allowUsb) {
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$tmp->transports[] = 'usb';
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}
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if ($allowNfc) {
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$tmp->transports[] = 'nfc';
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}
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if ($allowBle) {
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$tmp->transports[] = 'ble';
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}
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if ($allowInternal) {
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$tmp->transports[] = 'internal';
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}
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$tmp->type = 'public-key';
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$args->publicKey->allowCredentials[] = $tmp;
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unset ($tmp);
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}
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}
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return $args;
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}
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/**
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* returns the new signature counter value.
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* returns null if there is no counter
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* @return ?int
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*/
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public function getSignatureCounter() {
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return \is_int($this->_signatureCounter) ? $this->_signatureCounter : null;
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}
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/**
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* process a create request and returns data to save for future logins
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* @param string $clientDataJSON binary from browser
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* @param string $attestationObject binary from browser
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* @param string|ByteBuffer $challenge binary used challange
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* @param bool $requireUserVerification true, if the device must verify user (e.g. by biometric data or pin)
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* @param bool $requireUserPresent false, if the device must NOT check user presence (e.g. by pressing a button)
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* @return \stdClass
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* @throws WebAuthnException
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*/
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public function processCreate($clientDataJSON, $attestationObject, $challenge, $requireUserVerification=false, $requireUserPresent=true) {
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$clientDataHash = \hash('sha256', $clientDataJSON, true);
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$clientData = \json_decode($clientDataJSON);
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$challenge = $challenge instanceof ByteBuffer ? $challenge : new ByteBuffer($challenge);
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// security: https://www.w3.org/TR/webauthn/#registering-a-new-credential
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// 2. Let C, the client data claimed as collected during the credential creation,
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// be the result of running an implementation-specific JSON parser on JSONtext.
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if (!\is_object($clientData)) {
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throw new WebAuthnException('Invalid client data', WebAuthnException::INVALID_DATA);
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}
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// 3. Verify that the value of C.type is webauthn.create.
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if (!\property_exists($clientData, 'type') || $clientData->type !== 'webauthn.create') {
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throw new WebAuthnException('Invalid type', WebAuthnException::INVALID_TYPE);
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}
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// 4. Verify that the value of C.challenge matches the challenge that was sent to the authenticator in the create() call.
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if (!\property_exists($clientData, 'challenge') || ByteBuffer::fromBase64Url($clientData->challenge)->getBinaryString() !== $challenge->getBinaryString()) {
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throw new WebAuthnException('Invalid challenge', WebAuthnException::INVALID_CHALLENGE);
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}
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// 5. Verify that the value of C.origin matches the Relying Party's origin.
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if (!\property_exists($clientData, 'origin') || !$this->_checkOrigin($clientData->origin)) {
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throw new WebAuthnException('Invalid origin', WebAuthnException::INVALID_ORIGIN);
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}
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// Attestation
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$attestationObject = new Attestation\AttestationObject($attestationObject, $this->_formats);
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// 9. Verify that the RP ID hash in authData is indeed the SHA-256 hash of the RP ID expected by the RP.
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if (!$attestationObject->validateRpIdHash($this->_rpIdHash)) {
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throw new WebAuthnException('Invalid rpId hash', WebAuthnException::INVALID_RELYING_PARTY);
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}
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// 14. Verify that attStmt is a correct attestation statement, conveying a valid attestation signature
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if (!$attestationObject->validateAttestation($clientDataHash)) {
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throw new WebAuthnException('Invalid certificate signature', WebAuthnException::INVALID_SIGNATURE);
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}
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// 15. If validation is successful, obtain a list of acceptable trust anchors
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if (is_array($this->_caFiles) && !$attestationObject->validateRootCertificate($this->_caFiles)) {
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throw new WebAuthnException('Invalid root certificate', WebAuthnException::CERTIFICATE_NOT_TRUSTED);
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}
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// 10. Verify that the User Present bit of the flags in authData is set.
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if ($requireUserPresent && !$attestationObject->getAuthenticatorData()->getUserPresent()) {
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throw new WebAuthnException('User not present during authentication', WebAuthnException::USER_PRESENT);
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}
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// 11. If user verification is required for this registration, verify that the User Verified bit of the flags in authData is set.
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if ($requireUserVerification && !$attestationObject->getAuthenticatorData()->getUserVerified()) {
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throw new WebAuthnException('User not verificated during authentication', WebAuthnException::USER_VERIFICATED);
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}
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$signCount = $attestationObject->getAuthenticatorData()->getSignCount();
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if ($signCount > 0) {
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$this->_signatureCounter = $signCount;
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}
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// prepare data to store for future logins
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$data = new \stdClass();
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$data->rpId = $this->_rpId;
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$data->credentialId = $attestationObject->getAuthenticatorData()->getCredentialId();
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$data->credentialPublicKey = $attestationObject->getAuthenticatorData()->getPublicKeyPem();
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$data->certificateChain = $attestationObject->getCertificateChain();
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$data->certificate = $attestationObject->getCertificatePem();
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$data->certificateIssuer = $attestationObject->getCertificateIssuer();
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$data->certificateSubject = $attestationObject->getCertificateSubject();
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$data->signatureCounter = $this->_signatureCounter;
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$data->AAGUID = $attestationObject->getAuthenticatorData()->getAAGUID();
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return $data;
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}
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/**
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* process a get request
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* @param string $clientDataJSON binary from browser
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* @param string $authenticatorData binary from browser
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* @param string $signature binary from browser
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* @param string $credentialPublicKey string PEM-formated public key from used credentialId
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* @param string|ByteBuffer $challenge binary from used challange
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* @param int $prevSignatureCnt signature count value of the last login
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* @param bool $requireUserVerification true, if the device must verify user (e.g. by biometric data or pin)
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* @param bool $requireUserPresent true, if the device must check user presence (e.g. by pressing a button)
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* @return boolean true if get is successful
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* @throws WebAuthnException
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*/
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public function processGet($clientDataJSON, $authenticatorData, $signature, $credentialPublicKey, $challenge, $prevSignatureCnt=null, $requireUserVerification=false, $requireUserPresent=true) {
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$authenticatorObj = new Attestation\AuthenticatorData($authenticatorData);
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$clientDataHash = \hash('sha256', $clientDataJSON, true);
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$clientData = \json_decode($clientDataJSON);
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$challenge = $challenge instanceof ByteBuffer ? $challenge : new ByteBuffer($challenge);
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// https://www.w3.org/TR/webauthn/#verifying-assertion
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|
// 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 credential’s 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;
|
|||
|
|
|||
|
$publicKey = \openssl_pkey_get_public($credentialPublicKey);
|
|||
|
if ($publicKey === false) {
|
|||
|
throw new WebAuthnException('public key invalid', WebAuthnException::INVALID_PUBLIC_KEY);
|
|||
|
}
|
|||
|
|
|||
|
if (\openssl_verify($dataToVerify, $signature, $publicKey, OPENSSL_ALGO_SHA256) !== 1) {
|
|||
|
throw new WebAuthnException('Invalid signature', WebAuthnException::INVALID_SIGNATURE);
|
|||
|
}
|
|||
|
|
|||
|
// 17. If the signature counter value authData.signCount is nonzero,
|
|||
|
// if less than or equal to the signature counter value stored,
|
|||
|
// is a signal that the authenticator may be cloned
|
|||
|
$signatureCounter = $authenticatorObj->getSignCount();
|
|||
|
if ($signatureCounter > 0) {
|
|||
|
$this->_signatureCounter = $signatureCounter;
|
|||
|
if ($prevSignatureCnt !== null && $prevSignatureCnt >= $signatureCounter) {
|
|||
|
throw new WebAuthnException('signature counter not valid', WebAuthnException::SIGNATURE_COUNTER);
|
|||
|
}
|
|||
|
}
|
|||
|
|
|||
|
return true;
|
|||
|
}
|
|||
|
|
|||
|
// -----------------------------------------------
|
|||
|
// 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;
|
|||
|
}
|
|||
|
}
|