org.apache.ws.security.str.EncryptedKeySTRParser Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of wss4j Show documentation
Show all versions of wss4j Show documentation
The Apache WSS4J project provides a Java implementation of the primary security standards
for Web Services, namely the OASIS Web Services Security (WS-Security) specifications
from the OASIS Web Services Security TC.
The newest version!
/**
* 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.ws.security.str;
import org.apache.ws.security.WSConstants;
import org.apache.ws.security.WSDocInfo;
import org.apache.ws.security.WSSConfig;
import org.apache.ws.security.WSSecurityEngine;
import org.apache.ws.security.WSSecurityEngineResult;
import org.apache.ws.security.WSSecurityException;
import org.apache.ws.security.components.crypto.Crypto;
import org.apache.ws.security.handler.RequestData;
import org.apache.ws.security.message.token.BinarySecurity;
import org.apache.ws.security.message.token.SecurityTokenReference;
import org.apache.ws.security.message.token.X509Security;
import org.apache.ws.security.saml.SAMLKeyInfo;
import org.apache.ws.security.saml.SAMLUtil;
import org.apache.ws.security.saml.ext.AssertionWrapper;
import org.w3c.dom.Element;
import java.security.Principal;
import java.security.PublicKey;
import java.security.cert.X509Certificate;
import java.util.Map;
import javax.xml.namespace.QName;
/**
* This implementation of STRParser is for parsing a SecurityTokenReference element, found in the
* KeyInfo element associated with an EncryptedKey element
*/
public class EncryptedKeySTRParser implements STRParser {
private static final org.apache.commons.logging.Log LOG =
org.apache.commons.logging.LogFactory.getLog(EncryptedKeySTRParser.class);
private X509Certificate[] certs;
private REFERENCE_TYPE referenceType;
/**
* Parse a SecurityTokenReference element and extract credentials.
*
* @param strElement The SecurityTokenReference element
* @param data the RequestData associated with the request
* @param wsDocInfo The WSDocInfo object to access previous processing results
* @param parameters A set of implementation-specific parameters
* @throws WSSecurityException
*/
public void parseSecurityTokenReference(
Element strElement,
RequestData data,
WSDocInfo wsDocInfo,
Map parameters
) throws WSSecurityException {
Crypto crypto = data.getDecCrypto();
WSSConfig config = data.getWssConfig();
boolean bspCompliant = true;
if (config != null) {
bspCompliant = config.isWsiBSPCompliant();
}
SecurityTokenReference secRef = new SecurityTokenReference(strElement, bspCompliant);
String uri = null;
if (secRef.containsReference()) {
uri = secRef.getReference().getURI();
if (uri.charAt(0) == '#') {
uri = uri.substring(1);
}
referenceType = REFERENCE_TYPE.DIRECT_REF;
} else if (secRef.containsKeyIdentifier()) {
uri = secRef.getKeyIdentifierValue();
if (SecurityTokenReference.THUMB_URI.equals(secRef.getKeyIdentifierValueType())) {
referenceType = REFERENCE_TYPE.THUMBPRINT_SHA1;
} else {
referenceType = REFERENCE_TYPE.KEY_IDENTIFIER;
}
}
WSSecurityEngineResult result = wsDocInfo.getResult(uri);
if (result != null) {
processPreviousResult(result, secRef, data, wsDocInfo, bspCompliant);
} else if (secRef.containsKeyIdentifier()) {
if (WSConstants.WSS_SAML_KI_VALUE_TYPE.equals(secRef.getKeyIdentifierValueType())
|| WSConstants.WSS_SAML2_KI_VALUE_TYPE.equals(secRef.getKeyIdentifierValueType())) {
AssertionWrapper assertion =
SAMLUtil.getAssertionFromKeyIdentifier(
secRef, strElement, data, wsDocInfo
);
if (bspCompliant) {
BSPEnforcer.checkSamlTokenBSPCompliance(secRef, assertion);
}
SAMLKeyInfo samlKi =
SAMLUtil.getCredentialFromSubject(assertion,
data, wsDocInfo, bspCompliant);
certs = samlKi.getCerts();
} else {
if (bspCompliant) {
BSPEnforcer.checkBinarySecurityBSPCompliance(secRef, null);
}
certs = secRef.getKeyIdentifier(crypto);
}
} else if (secRef.containsX509Data() || secRef.containsX509IssuerSerial()) {
referenceType = REFERENCE_TYPE.ISSUER_SERIAL;
certs = secRef.getX509IssuerSerial(crypto);
} else if (secRef.containsReference()) {
Element bstElement =
secRef.getTokenElement(strElement.getOwnerDocument(), wsDocInfo, data.getCallbackHandler());
// at this point ... check token type: Binary
QName el = new QName(bstElement.getNamespaceURI(), bstElement.getLocalName());
if (el.equals(WSSecurityEngine.BINARY_TOKEN)) {
X509Security token = new X509Security(bstElement);
if (bspCompliant) {
BSPEnforcer.checkBinarySecurityBSPCompliance(secRef, token);
}
certs = new X509Certificate[]{token.getX509Certificate(crypto)};
} else {
throw new WSSecurityException(
WSSecurityException.UNSUPPORTED_SECURITY_TOKEN,
"unsupportedBinaryTokenType",
null
);
}
}
if (LOG.isDebugEnabled() && certs != null && certs[0] != null) {
LOG.debug("cert: " + certs[0]);
}
}
/**
* Get the X509Certificates associated with this SecurityTokenReference
* @return the X509Certificates associated with this SecurityTokenReference
*/
public X509Certificate[] getCertificates() {
return certs;
}
/**
* Get the Principal associated with this SecurityTokenReference
* @return the Principal associated with this SecurityTokenReference
*/
public Principal getPrincipal() {
return null;
}
/**
* Get the PublicKey associated with this SecurityTokenReference
* @return the PublicKey associated with this SecurityTokenReference
*/
public PublicKey getPublicKey() {
return null;
}
/**
* Get the Secret Key associated with this SecurityTokenReference
* @return the Secret Key associated with this SecurityTokenReference
*/
public byte[] getSecretKey() {
return null;
}
/**
* Get whether the returned credential is already trusted or not. This is currently
* applicable in the case of a credential extracted from a trusted HOK SAML Assertion,
* and a BinarySecurityToken that has been processed by a Validator. In these cases,
* the SignatureProcessor does not need to verify trust on the credential.
* @return true if trust has already been verified on the returned Credential
*/
public boolean isTrustedCredential() {
return false;
}
/**
* Get how the certificates were referenced
* @return how the certificates were referenced
*/
public REFERENCE_TYPE getCertificatesReferenceType() {
return referenceType;
}
/**
* Process a previous security result
*/
private void processPreviousResult(
WSSecurityEngineResult result,
SecurityTokenReference secRef,
RequestData data,
WSDocInfo wsDocInfo,
boolean bspCompliant
) throws WSSecurityException {
int action = ((Integer)result.get(WSSecurityEngineResult.TAG_ACTION)).intValue();
if (WSConstants.BST == action) {
if (bspCompliant) {
BinarySecurity token =
(BinarySecurity)result.get(
WSSecurityEngineResult.TAG_BINARY_SECURITY_TOKEN
);
BSPEnforcer.checkBinarySecurityBSPCompliance(secRef, token);
}
certs =
(X509Certificate[])result.get(
WSSecurityEngineResult.TAG_X509_CERTIFICATES
);
} else if (WSConstants.ST_UNSIGNED == action || WSConstants.ST_SIGNED == action) {
AssertionWrapper assertion =
(AssertionWrapper)result.get(WSSecurityEngineResult.TAG_SAML_ASSERTION);
if (bspCompliant) {
BSPEnforcer.checkSamlTokenBSPCompliance(secRef, assertion);
}
SAMLKeyInfo keyInfo =
SAMLUtil.getCredentialFromSubject(assertion,
data,
wsDocInfo, bspCompliant);
certs = keyInfo.getCerts();
} else {
throw new WSSecurityException(
WSSecurityException.UNSUPPORTED_SECURITY_TOKEN,
"unsupportedBinaryTokenType",
null
);
}
}
}