mailcow/data/web/inc/lib/WebAuthn/WebAuthn.php

594 lines
28 KiB
PHP
Raw Permalink Blame History

This file contains ambiguous Unicode characters!

This file contains ambiguous Unicode characters that may be confused with others in your current locale. If your use case is intentional and legitimate, you can safely ignore this warning. Use the Escape button to highlight these characters.

<?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)) {
$this->_caFiles = array();
}
if ($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 $requireResidentKey true, if the key should be stored by the authentication 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'
* @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, $excludeCredentialIds=array()) {
// validate User Verification Requirement
if (\is_bool($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();
// 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 = $requireUserVerification;
if ($requireResidentKey) {
$args->publicKey->authenticatorSelection->requireResidentKey = true;
}
if (is_bool($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;
$args->publicKey->pubKeyCredParams = array();
$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
$args->publicKey->excludeCredentials = array();
if (is_array($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', 'ble', 'nfc', '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 $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=array(), $timeout=20, $allowUsb=true, $allowNfc=true, $allowBle=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) {
$args->publicKey->allowCredentials = array();
foreach ($credentialIds as $id) {
$tmp = new \stdClass();
$tmp->id = $id instanceof ByteBuffer ? $id : new ByteBuffer($id); // binary
$tmp->transports = array();
if ($allowUsb) {
$tmp->transports[] = 'usb';
}
if ($allowNfc) {
$tmp->transports[] = 'nfc';
}
if ($allowBle) {
$tmp->transports[] = 'ble';
}
if ($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 $failIfRootMismatch false, if there should be no error thrown if root certificate doesn't match
* @return \stdClass
* @throws WebAuthnException
*/
public function processCreate($clientDataJSON, $attestationObject, $challenge, $requireUserVerification=false, $requireUserPresent=true, $failIfRootMismatch=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);
}
// 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;
$publicKey = \openssl_pkey_get_public($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;
}
/**
* 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 $deleteCerts=true
* @return int number of cetificates
* @throws WebAuthnException
*/
public function queryFidoMetaDataService($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) {
$count++;
$certContent .= "\n-----BEGIN CERTIFICATE-----\n";
$certContent .= \chunk_split(\trim($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;
}
}