/**
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you 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.apache.wss4j.dom.handler;
import java.util.ArrayList;
import java.util.Base64;
import java.util.Collections;
import java.util.List;
import javax.crypto.KeyGenerator;
import javax.crypto.SecretKey;
import javax.security.auth.callback.CallbackHandler;
import javax.xml.crypto.dsig.SignatureMethod;
import org.apache.wss4j.common.EncryptionActionToken;
import org.apache.wss4j.common.SignatureActionToken;
import org.apache.wss4j.common.WSEncryptionPart;
import org.apache.wss4j.common.crypto.Crypto;
import org.apache.wss4j.common.crypto.CryptoFactory;
import org.apache.wss4j.common.ext.WSSecurityException;
import org.apache.wss4j.common.util.KeyUtils;
import org.apache.wss4j.common.util.XMLUtils;
import org.apache.wss4j.dom.WSConstants;
import org.apache.wss4j.dom.common.CombinedCallbackHandler;
import org.apache.wss4j.dom.common.CustomHandler;
import org.apache.wss4j.dom.common.KeystoreCallbackHandler;
import org.apache.wss4j.dom.common.SOAPUtil;
import org.apache.wss4j.dom.common.SecretKeyCallbackHandler;
import org.apache.wss4j.dom.common.SecurityTestUtil;
import org.apache.wss4j.dom.engine.WSSConfig;
import org.apache.wss4j.dom.engine.WSSecurityEngine;
import org.apache.xml.security.stax.impl.util.IDGenerator;
import org.junit.Before;
import org.junit.Test;
import org.w3c.dom.Document;
/**
* This is a set of tests for using SecurityActionTokens to configure various Actions.
*/
public class SecurityActionTokenTest extends org.junit.Assert {
private static final org.slf4j.Logger LOG =
org.slf4j.LoggerFactory.getLogger(SecurityActionTokenTest.class);
private WSSecurityEngine secEngine = new WSSecurityEngine();
private Crypto crypto;
private byte[] keyData;
@org.junit.AfterClass
public static void cleanup() throws Exception {
SecurityTestUtil.cleanup();
}
@Before
public void setUp() throws Exception {
KeyGenerator keyGen = KeyGenerator.getInstance("AES");
keyGen.init(128);
SecretKey key = keyGen.generateKey();
keyData = key.getEncoded();
}
public SecurityActionTokenTest() throws WSSecurityException {
WSSConfig.init();
crypto = CryptoFactory.getInstance("wss40.properties");
}
@Test
public void testAsymmetricSignature() throws Exception {
final WSSConfig cfg = WSSConfig.getNewInstance();
final RequestData reqData = new RequestData();
reqData.setWssConfig(cfg);
java.util.Map<String, Object> messageContext = new java.util.TreeMap<String, Object>();
messageContext.put(
WSHandlerConstants.PW_CALLBACK_REF, new KeystoreCallbackHandler()
);
reqData.setMsgContext(messageContext);
SignatureActionToken actionToken = new SignatureActionToken();
actionToken.setUser("wss40");
actionToken.setCryptoProperties("wss40.properties");
final Document doc = SOAPUtil.toSOAPPart(SOAPUtil.SAMPLE_SOAP_MSG);
CustomHandler handler = new CustomHandler();
List<HandlerAction> actions = new ArrayList<>();
actions.add(new HandlerAction(WSConstants.SIGN, actionToken));
handler.send(
doc,
reqData,
actions,
true
);
if (LOG.isDebugEnabled()) {
String outputString =
XMLUtils.prettyDocumentToString(doc);
LOG.debug(outputString);
}
verify(doc, null);
}
@Test
public void testSymmetricSignature() throws Exception {
final WSSConfig cfg = WSSConfig.getNewInstance();
final RequestData reqData = new RequestData();
reqData.setWssConfig(cfg);
java.util.Map<String, Object> messageContext = new java.util.TreeMap<String, Object>();
messageContext.put(
WSHandlerConstants.PW_CALLBACK_REF, new KeystoreCallbackHandler()
);
reqData.setMsgContext(messageContext);
SignatureActionToken actionToken = new SignatureActionToken();
actionToken.setKeyIdentifierId(WSConstants.ENCRYPTED_KEY_SHA1_IDENTIFIER);
actionToken.setKey(keyData);
actionToken.setSignatureAlgorithm(SignatureMethod.HMAC_SHA1);
final Document doc = SOAPUtil.toSOAPPart(SOAPUtil.SAMPLE_SOAP_MSG);
CustomHandler handler = new CustomHandler();
List<HandlerAction> actions = new ArrayList<>();
actions.add(new HandlerAction(WSConstants.SIGN, actionToken));
handler.send(
doc,
reqData,
actions,
true
);
if (LOG.isDebugEnabled()) {
String outputString =
XMLUtils.prettyDocumentToString(doc);
LOG.debug(outputString);
}
SecretKeyCallbackHandler secretKeyCallbackHandler = new SecretKeyCallbackHandler();
byte[] encodedBytes = KeyUtils.generateDigest(keyData);
String identifier = Base64.getMimeEncoder().encodeToString(encodedBytes);
secretKeyCallbackHandler.addSecretKey(identifier, keyData);
verify(doc, secretKeyCallbackHandler);
}
@Test
public void testAsymmetricDoubleSignature() throws Exception {
final WSSConfig cfg = WSSConfig.getNewInstance();
final RequestData reqData = new RequestData();
reqData.setWssConfig(cfg);
java.util.Map<String, Object> messageContext = new java.util.TreeMap<String, Object>();
messageContext.put(
WSHandlerConstants.PW_CALLBACK_REF, new KeystoreCallbackHandler()
);
reqData.setMsgContext(messageContext);
SignatureActionToken actionToken = new SignatureActionToken();
actionToken.setUser("wss40");
actionToken.setCryptoProperties("wss40.properties");
actionToken.setKeyIdentifierId(WSConstants.BST_DIRECT_REFERENCE);
SignatureActionToken actionToken2 = new SignatureActionToken();
actionToken2.setUser("16c73ab6-b892-458f-abf5-2f875f74882e");
actionToken2.setCryptoProperties("crypto.properties");
actionToken2.setIncludeToken(false);
WSEncryptionPart encP =
new WSEncryptionPart("Timestamp", WSConstants.WSU_NS, "");
actionToken2.setParts(Collections.singletonList(encP));
final Document doc = SOAPUtil.toSOAPPart(SOAPUtil.SAMPLE_SOAP_MSG);
CustomHandler handler = new CustomHandler();
List<HandlerAction> actions = new ArrayList<>();
actions.add(new HandlerAction(WSConstants.SIGN, actionToken));
actions.add(new HandlerAction(WSConstants.SIGN, actionToken2));
actions.add(new HandlerAction(WSConstants.TS, null));
handler.send(
doc,
reqData,
actions,
true
);
if (LOG.isDebugEnabled()) {
String outputString =
XMLUtils.prettyDocumentToString(doc);
LOG.debug(outputString);
}
// Not verifying due to two separate Crypto instances...
}
@Test
public void testMixedDoubleSignature() throws Exception {
final WSSConfig cfg = WSSConfig.getNewInstance();
final RequestData reqData = new RequestData();
reqData.setWssConfig(cfg);
java.util.Map<String, Object> messageContext = new java.util.TreeMap<String, Object>();
messageContext.put(
WSHandlerConstants.PW_CALLBACK_REF, new KeystoreCallbackHandler()
);
reqData.setMsgContext(messageContext);
SignatureActionToken actionToken = new SignatureActionToken();
actionToken.setUser("wss40");
actionToken.setCryptoProperties("wss40.properties");
actionToken.setKeyIdentifierId(WSConstants.BST_DIRECT_REFERENCE);
SignatureActionToken actionToken2 = new SignatureActionToken();
actionToken2.setKeyIdentifierId(WSConstants.ENCRYPTED_KEY_SHA1_IDENTIFIER);
actionToken2.setKey(keyData);
actionToken2.setSignatureAlgorithm(SignatureMethod.HMAC_SHA1);
WSEncryptionPart encP =
new WSEncryptionPart("Timestamp", WSConstants.WSU_NS, "");
actionToken2.setParts(Collections.singletonList(encP));
final Document doc = SOAPUtil.toSOAPPart(SOAPUtil.SAMPLE_SOAP_MSG);
CustomHandler handler = new CustomHandler();
List<HandlerAction> actions = new ArrayList<>();
actions.add(new HandlerAction(WSConstants.SIGN, actionToken));
actions.add(new HandlerAction(WSConstants.SIGN, actionToken2));
actions.add(new HandlerAction(WSConstants.TS, null));
handler.send(
doc,
reqData,
actions,
true
);
if (LOG.isDebugEnabled()) {
String outputString =
XMLUtils.prettyDocumentToString(doc);
LOG.debug(outputString);
}
SecretKeyCallbackHandler secretKeyCallbackHandler = new SecretKeyCallbackHandler();
byte[] encodedBytes = KeyUtils.generateDigest(keyData);
String identifier = Base64.getMimeEncoder().encodeToString(encodedBytes);
secretKeyCallbackHandler.addSecretKey(identifier, keyData);
verify(doc, secretKeyCallbackHandler);
}
@Test
public void testAsymmetricEncryption() throws Exception {
final WSSConfig cfg = WSSConfig.getNewInstance();
final RequestData reqData = new RequestData();
reqData.setWssConfig(cfg);
java.util.Map<String, Object> messageContext = new java.util.TreeMap<String, Object>();
messageContext.put(
WSHandlerConstants.PW_CALLBACK_REF, new KeystoreCallbackHandler()
);
reqData.setMsgContext(messageContext);
EncryptionActionToken actionToken = new EncryptionActionToken();
actionToken.setUser("wss40");
actionToken.setCryptoProperties("wss40.properties");
final Document doc = SOAPUtil.toSOAPPart(SOAPUtil.SAMPLE_SOAP_MSG);
CustomHandler handler = new CustomHandler();
List<HandlerAction> actions = new ArrayList<>();
actions.add(new HandlerAction(WSConstants.ENCR, actionToken));
handler.send(
doc,
reqData,
actions,
true
);
if (LOG.isDebugEnabled()) {
String outputString =
XMLUtils.prettyDocumentToString(doc);
LOG.debug(outputString);
}
verify(doc, new KeystoreCallbackHandler());
}
@Test
public void testAsymmetricEncryptionIncludeToken() throws Exception {
final WSSConfig cfg = WSSConfig.getNewInstance();
final RequestData reqData = new RequestData();
reqData.setWssConfig(cfg);
java.util.Map<String, Object> messageContext = new java.util.TreeMap<String, Object>();
messageContext.put(
WSHandlerConstants.PW_CALLBACK_REF, new KeystoreCallbackHandler()
);
reqData.setMsgContext(messageContext);
EncryptionActionToken actionToken = new EncryptionActionToken();
actionToken.setUser("wss40");
actionToken.setCryptoProperties("wss40.properties");
actionToken.setIncludeToken(true);
final Document doc = SOAPUtil.toSOAPPart(SOAPUtil.SAMPLE_SOAP_MSG);
CustomHandler handler = new CustomHandler();
List<HandlerAction> actions = new ArrayList<>();
actions.add(new HandlerAction(WSConstants.ENCR, actionToken));
handler.send(
doc,
reqData,
actions,
true
);
if (LOG.isDebugEnabled()) {
String outputString =
XMLUtils.prettyDocumentToString(doc);
LOG.debug(outputString);
}
verify(doc, new KeystoreCallbackHandler());
}
@Test
public void testSymmetricEncryption() throws Exception {
final WSSConfig cfg = WSSConfig.getNewInstance();
final RequestData reqData = new RequestData();
reqData.setWssConfig(cfg);
java.util.Map<String, Object> messageContext = new java.util.TreeMap<String, Object>();
messageContext.put(
WSHandlerConstants.PW_CALLBACK_REF, new KeystoreCallbackHandler()
);
reqData.setMsgContext(messageContext);
EncryptionActionToken actionToken = new EncryptionActionToken();
actionToken.setKeyIdentifierId(WSConstants.ENCRYPTED_KEY_SHA1_IDENTIFIER);
actionToken.setKey(keyData);
actionToken.setSymmetricAlgorithm(WSConstants.AES_128);
actionToken.setEncSymmetricEncryptionKey(false);
final Document doc = SOAPUtil.toSOAPPart(SOAPUtil.SAMPLE_SOAP_MSG);
CustomHandler handler = new CustomHandler();
List<HandlerAction> actions = new ArrayList<>();
actions.add(new HandlerAction(WSConstants.ENCR, actionToken));
handler.send(
doc,
reqData,
actions,
true
);
if (LOG.isDebugEnabled()) {
String outputString =
XMLUtils.prettyDocumentToString(doc);
LOG.debug(outputString);
}
SecretKeyCallbackHandler secretKeyCallbackHandler = new SecretKeyCallbackHandler();
byte[] encodedBytes = KeyUtils.generateDigest(keyData);
String identifier = Base64.getMimeEncoder().encodeToString(encodedBytes);
secretKeyCallbackHandler.addSecretKey(identifier, keyData);
verify(doc, secretKeyCallbackHandler);
}
@Test
public void testAsymmetricDoubleEncryption() throws Exception {
final WSSConfig cfg = WSSConfig.getNewInstance();
final RequestData reqData = new RequestData();
reqData.setWssConfig(cfg);
java.util.Map<String, Object> messageContext = new java.util.TreeMap<String, Object>();
messageContext.put(
WSHandlerConstants.PW_CALLBACK_REF, new KeystoreCallbackHandler()
);
reqData.setMsgContext(messageContext);
EncryptionActionToken actionToken = new EncryptionActionToken();
actionToken.setUser("wss40");
actionToken.setCryptoProperties("wss40.properties");
EncryptionActionToken actionToken2 = new EncryptionActionToken();
actionToken2.setUser("16c73ab6-b892-458f-abf5-2f875f74882e");
actionToken2.setCryptoProperties("crypto.properties");
WSEncryptionPart encP =
new WSEncryptionPart("Timestamp", WSConstants.WSU_NS, "");
actionToken2.setParts(Collections.singletonList(encP));
final Document doc = SOAPUtil.toSOAPPart(SOAPUtil.SAMPLE_SOAP_MSG);
CustomHandler handler = new CustomHandler();
List<HandlerAction> actions = new ArrayList<>();
actions.add(new HandlerAction(WSConstants.ENCR, actionToken));
actions.add(new HandlerAction(WSConstants.TS, null));
actions.add(new HandlerAction(WSConstants.ENCR, actionToken2));
handler.send(
doc,
reqData,
actions,
true
);
if (LOG.isDebugEnabled()) {
String outputString =
XMLUtils.prettyDocumentToString(doc);
LOG.debug(outputString);
}
// Not verifying due to two separate Crypto instances...
}
@Test
public void testMixedDoubleEncryption() throws Exception {
final WSSConfig cfg = WSSConfig.getNewInstance();
final RequestData reqData = new RequestData();
reqData.setWssConfig(cfg);
java.util.Map<String, Object> messageContext = new java.util.TreeMap<String, Object>();
messageContext.put(
WSHandlerConstants.PW_CALLBACK_REF, new KeystoreCallbackHandler()
);
reqData.setMsgContext(messageContext);
EncryptionActionToken actionToken = new EncryptionActionToken();
actionToken.setUser("wss40");
actionToken.setCryptoProperties("wss40.properties");
EncryptionActionToken actionToken2 = new EncryptionActionToken();
actionToken2.setKeyIdentifierId(WSConstants.ENCRYPTED_KEY_SHA1_IDENTIFIER);
actionToken2.setKey(keyData);
actionToken2.setSymmetricAlgorithm(WSConstants.AES_128);
actionToken2.setEncSymmetricEncryptionKey(false);
WSEncryptionPart encP =
new WSEncryptionPart("Timestamp", WSConstants.WSU_NS, "");
actionToken2.setParts(Collections.singletonList(encP));
final Document doc = SOAPUtil.toSOAPPart(SOAPUtil.SAMPLE_SOAP_MSG);
CustomHandler handler = new CustomHandler();
List<HandlerAction> actions = new ArrayList<>();
actions.add(new HandlerAction(WSConstants.ENCR, actionToken));
actions.add(new HandlerAction(WSConstants.TS, null));
actions.add(new HandlerAction(WSConstants.ENCR, actionToken2));
handler.send(
doc,
reqData,
actions,
true
);
if (LOG.isDebugEnabled()) {
String outputString =
XMLUtils.prettyDocumentToString(doc);
LOG.debug(outputString);
}
SecretKeyCallbackHandler secretKeyCallbackHandler = new SecretKeyCallbackHandler();
byte[] encodedBytes = KeyUtils.generateDigest(keyData);
String identifier = Base64.getMimeEncoder().encodeToString(encodedBytes);
secretKeyCallbackHandler.addSecretKey(identifier, keyData);
CombinedCallbackHandler combinedCallbackHandler =
new CombinedCallbackHandler(secretKeyCallbackHandler, new KeystoreCallbackHandler());
verify(doc, combinedCallbackHandler);
}
// Using the same key for signature + encryption here for convenience...
@Test
public void testAsymmetricSignatureEncryption() throws Exception {
final WSSConfig cfg = WSSConfig.getNewInstance();
final RequestData reqData = new RequestData();
reqData.setWssConfig(cfg);
java.util.Map<String, Object> messageContext = new java.util.TreeMap<String, Object>();
messageContext.put(
WSHandlerConstants.PW_CALLBACK_REF, new KeystoreCallbackHandler()
);
reqData.setMsgContext(messageContext);
SignatureActionToken actionToken = new SignatureActionToken();
actionToken.setUser("wss40");
actionToken.setCryptoProperties("wss40.properties");
actionToken.setKeyIdentifierId(WSConstants.BST_DIRECT_REFERENCE);
EncryptionActionToken actionToken2 = new EncryptionActionToken();
actionToken2.setUser("wss40");
actionToken2.setCryptoProperties("wss40.properties");
final Document doc = SOAPUtil.toSOAPPart(SOAPUtil.SAMPLE_SOAP_MSG);
CustomHandler handler = new CustomHandler();
List<HandlerAction> actions = new ArrayList<>();
actions.add(new HandlerAction(WSConstants.SIGN, actionToken));
actions.add(new HandlerAction(WSConstants.ENCR, actionToken2));
handler.send(
doc,
reqData,
actions,
true
);
if (LOG.isDebugEnabled()) {
String outputString =
XMLUtils.prettyDocumentToString(doc);
LOG.debug(outputString);
}
verify(doc, new KeystoreCallbackHandler());
}
@Test
public void testSymmetricSignatureEncryption() throws Exception {
final WSSConfig cfg = WSSConfig.getNewInstance();
final RequestData reqData = new RequestData();
reqData.setWssConfig(cfg);
java.util.Map<String, Object> messageContext = new java.util.TreeMap<String, Object>();
messageContext.put(
WSHandlerConstants.PW_CALLBACK_REF, new KeystoreCallbackHandler()
);
reqData.setMsgContext(messageContext);
EncryptionActionToken actionToken = new EncryptionActionToken();
actionToken.setKey(keyData);
actionToken.setSymmetricAlgorithm(WSConstants.AES_128);
actionToken.setKeyIdentifierId(WSConstants.SKI_KEY_IDENTIFIER);
actionToken.setUser("wss40");
actionToken.setCryptoProperties("wss40.properties");
actionToken.setTokenId(IDGenerator.generateID("EK-"));
SignatureActionToken actionToken2 = new SignatureActionToken();
actionToken2.setKeyIdentifierId(WSConstants.CUSTOM_SYMM_SIGNING);
actionToken2.setKey(keyData);
actionToken2.setSignatureAlgorithm(SignatureMethod.HMAC_SHA1);
actionToken2.setTokenType(WSConstants.WSS_ENC_KEY_VALUE_TYPE);
actionToken2.setTokenId(actionToken.getTokenId());
final Document doc = SOAPUtil.toSOAPPart(SOAPUtil.SAMPLE_SOAP_MSG);
CustomHandler handler = new CustomHandler();
List<HandlerAction> actions = new ArrayList<>();
actions.add(new HandlerAction(WSConstants.SIGN, actionToken2));
actions.add(new HandlerAction(WSConstants.ENCR, actionToken));
handler.send(
doc,
reqData,
actions,
true
);
if (LOG.isDebugEnabled()) {
String outputString =
XMLUtils.prettyDocumentToString(doc);
LOG.debug(outputString);
}
verify(doc, new KeystoreCallbackHandler());
}
@Test
public void testSymmetricSignatureEncryptionResponse() throws Exception {
final WSSConfig cfg = WSSConfig.getNewInstance();
final RequestData reqData = new RequestData();
reqData.setWssConfig(cfg);
java.util.Map<String, Object> messageContext = new java.util.TreeMap<String, Object>();
messageContext.put(
WSHandlerConstants.PW_CALLBACK_REF, new KeystoreCallbackHandler()
);
reqData.setMsgContext(messageContext);
EncryptionActionToken actionToken = new EncryptionActionToken();
actionToken.setKey(keyData);
actionToken.setSymmetricAlgorithm(WSConstants.AES_128);
actionToken.setKeyIdentifierId(WSConstants.ENCRYPTED_KEY_SHA1_IDENTIFIER);
actionToken.setEncSymmetricEncryptionKey(false);
SignatureActionToken actionToken2 = new SignatureActionToken();
actionToken2.setKeyIdentifierId(WSConstants.ENCRYPTED_KEY_SHA1_IDENTIFIER);
actionToken2.setKey(keyData);
actionToken2.setSignatureAlgorithm(SignatureMethod.HMAC_SHA1);
final Document doc = SOAPUtil.toSOAPPart(SOAPUtil.SAMPLE_SOAP_MSG);
CustomHandler handler = new CustomHandler();
List<HandlerAction> actions = new ArrayList<>();
actions.add(new HandlerAction(WSConstants.SIGN, actionToken2));
actions.add(new HandlerAction(WSConstants.ENCR, actionToken));
handler.send(
doc,
reqData,
actions,
true
);
if (LOG.isDebugEnabled()) {
String outputString =
XMLUtils.prettyDocumentToString(doc);
LOG.debug(outputString);
}
SecretKeyCallbackHandler secretKeyCallbackHandler = new SecretKeyCallbackHandler();
byte[] encodedBytes = KeyUtils.generateDigest(keyData);
String identifier = Base64.getMimeEncoder().encodeToString(encodedBytes);
secretKeyCallbackHandler.addSecretKey(identifier, keyData);
verify(doc, secretKeyCallbackHandler);
}
private WSHandlerResult verify(
Document doc, CallbackHandler callbackHandler
) throws Exception {
return secEngine.processSecurityHeader(doc, null, callbackHandler, crypto);
}
}