SecureCibaAuthenticationRequestSigningAlgorithmExecutor.java
/*
* Copyright 2021 Red Hat, Inc. and/or its affiliates
* and other contributors as indicated by the @author tags.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.keycloak.protocol.oidc.grants.ciba.clientpolicy.executor;
import java.util.HashMap;
import java.util.Map;
import java.util.Optional;
import org.jboss.logging.Logger;
import org.keycloak.OAuthErrorException;
import org.keycloak.crypto.Algorithm;
import org.keycloak.models.CibaConfig;
import org.keycloak.models.KeycloakSession;
import org.keycloak.representations.idm.ClientPolicyExecutorConfigurationRepresentation;
import org.keycloak.representations.idm.ClientRepresentation;
import org.keycloak.services.clientpolicy.ClientPolicyContext;
import org.keycloak.services.clientpolicy.ClientPolicyException;
import org.keycloak.services.clientpolicy.context.AdminClientRegisterContext;
import org.keycloak.services.clientpolicy.context.AdminClientUpdateContext;
import org.keycloak.services.clientpolicy.context.DynamicClientRegisterContext;
import org.keycloak.services.clientpolicy.context.DynamicClientUpdateContext;
import org.keycloak.services.clientpolicy.executor.ClientPolicyExecutorProvider;
import org.keycloak.services.clientpolicy.executor.FapiConstant;
import com.fasterxml.jackson.annotation.JsonProperty;
/**
* @author <a href="mailto:takashi.norimatsu.ws@hitachi.com">Takashi Norimatsu</a>
*/
public class SecureCibaAuthenticationRequestSigningAlgorithmExecutor implements ClientPolicyExecutorProvider<SecureCibaAuthenticationRequestSigningAlgorithmExecutor.Configuration> {
private static final Logger logger = Logger.getLogger(SecureCibaAuthenticationRequestSigningAlgorithmExecutor.class);
private final KeycloakSession session;
private Configuration configuration;
private static final String sigTarget = CibaConfig.CIBA_BACKCHANNEL_AUTH_REQUEST_SIGNING_ALG;
private static final String DEFAULT_ALGORITHM_VALUE = Algorithm.PS256;
public SecureCibaAuthenticationRequestSigningAlgorithmExecutor(KeycloakSession session) {
this.session = session;
}
@Override
public String getProviderId() {
return SecureCibaAuthenticationRequestSigningAlgorithmExecutorFactory.PROVIDER_ID;
}
@Override
public void setupConfiguration(SecureCibaAuthenticationRequestSigningAlgorithmExecutor.Configuration config) {
this.configuration = Optional.ofNullable(config).orElse(createDefaultConfiguration());
if (config.getDefaultAlgorithm() == null || !isSecureAlgorithm(config.getDefaultAlgorithm())) config.setDefaultAlgorithm(DEFAULT_ALGORITHM_VALUE);
}
@Override
public Class<Configuration> getExecutorConfigurationClass() {
return Configuration.class;
}
public static class Configuration extends ClientPolicyExecutorConfigurationRepresentation {
@JsonProperty("default-algorithm")
protected String defaultAlgorithm;
public String getDefaultAlgorithm() {
return defaultAlgorithm;
}
public void setDefaultAlgorithm(String defaultAlgorithm) {
if (isSecureAlgorithm(defaultAlgorithm)) {
this.defaultAlgorithm = defaultAlgorithm;
} else {
logger.tracev("defaultAlgorithm = {0}, fall back to {1}.", defaultAlgorithm, DEFAULT_ALGORITHM_VALUE);
this.defaultAlgorithm = DEFAULT_ALGORITHM_VALUE;
}
}
}
@Override
public void executeOnEvent(ClientPolicyContext context) throws ClientPolicyException {
switch (context.getEvent()) {
case REGISTER:
if (context instanceof AdminClientRegisterContext) {
verifyAndEnforceSecureSigningAlgorithm(((AdminClientRegisterContext)context).getProposedClientRepresentation());
} else if (context instanceof DynamicClientRegisterContext) {
verifyAndEnforceSecureSigningAlgorithm(((DynamicClientRegisterContext)context).getProposedClientRepresentation());
} else {
throw new ClientPolicyException(OAuthErrorException.INVALID_REQUEST, "not allowed input format.");
}
break;
case UPDATE:
if (context instanceof AdminClientUpdateContext) {
verifyAndEnforceSecureSigningAlgorithm(((AdminClientUpdateContext)context).getProposedClientRepresentation());
} else if (context instanceof DynamicClientUpdateContext) {
verifyAndEnforceSecureSigningAlgorithm(((DynamicClientUpdateContext)context).getProposedClientRepresentation());
} else {
throw new ClientPolicyException(OAuthErrorException.INVALID_REQUEST, "not allowed input format.");
}
break;
default:
return;
}
}
private Configuration createDefaultConfiguration() {
Configuration conf = new Configuration();
conf.setDefaultAlgorithm(DEFAULT_ALGORITHM_VALUE);
return conf;
}
private void verifyAndEnforceSecureSigningAlgorithm(ClientRepresentation clientRep) throws ClientPolicyException {
Map<String, String> attributes = Optional.ofNullable(clientRep.getAttributes()).orElse(new HashMap<>());
String sigAlg = attributes.get(sigTarget);
if (sigAlg == null) {
logger.tracev("Signing algorithm not specified explicitly, signature target = {0}. set default algorithm = {1}.", sigTarget, configuration.getDefaultAlgorithm());
attributes.put(sigTarget, configuration.getDefaultAlgorithm());
clientRep.setAttributes(attributes);
return;
}
if (isSecureAlgorithm(sigAlg)) {
logger.tracev("Passed. signature target = {0}, signature algorithm = {1}", sigTarget, sigAlg);
return;
}
logger.tracev("NOT allowed signatureAlgorithm. signature target = {0}, signature algorithm = {1}", sigTarget, sigAlg);
throw new ClientPolicyException(OAuthErrorException.INVALID_REQUEST, "not allowed signature algorithm.");
}
private static boolean isSecureAlgorithm(String sigAlg) {
return FapiConstant.ALLOWED_ALGORITHMS.contains(sigAlg);
}
}