/*
* JBoss, Home of Professional Open Source. Copyright 2009, Red Hat Middleware LLC, and individual contributors as
* indicated by the @author tags. See the copyright.txt file in the distribution for a full listing of individual
* contributors.
*
* This is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any
* later version.
*
* This software is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied
* warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
* details.
*
* You should have received a copy of the GNU Lesser General Public License along with this software; if not, write to
* the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA, or see the FSF site:
* http://www.fsf.org.
*/
package org.picketlink.identity.federation.core.wstrust;
import java.net.URI;
import java.security.KeyPair;
import java.security.Principal;
import java.security.PublicKey;
import java.security.cert.Certificate;
import java.security.cert.X509Certificate;
import java.util.List;
import javax.crypto.SecretKey;
import javax.crypto.spec.SecretKeySpec;
import javax.xml.crypto.dsig.DigestMethod;
import javax.xml.crypto.dsig.SignatureMethod;
import javax.xml.namespace.QName;
import org.picketlink.identity.federation.core.util.SystemPropertiesUtil;
import org.picketlink.identity.federation.PicketLinkLogger;
import org.picketlink.identity.federation.PicketLinkLoggerFactory;
import org.picketlink.identity.federation.core.exceptions.ParsingException;
import org.picketlink.identity.federation.core.exceptions.ProcessingException;
import org.picketlink.identity.federation.core.saml.v1.SAML11Constants;
import org.picketlink.identity.federation.core.saml.v2.util.DocumentUtil;
import org.picketlink.identity.federation.core.sts.PicketLinkCoreSTS;
import org.picketlink.identity.federation.core.util.Base64;
import org.picketlink.identity.federation.core.util.XMLEncryptionUtil;
import org.picketlink.identity.federation.core.util.XMLSignatureUtil;
import org.picketlink.identity.federation.core.wstrust.wrappers.RequestSecurityToken;
import org.picketlink.identity.federation.core.wstrust.wrappers.RequestSecurityTokenResponse;
import org.picketlink.identity.federation.ws.policy.AppliesTo;
import org.picketlink.identity.federation.ws.trust.BinarySecretType;
import org.picketlink.identity.federation.ws.trust.ClaimsType;
import org.picketlink.identity.federation.ws.trust.ComputedKeyType;
import org.picketlink.identity.federation.ws.trust.EntropyType;
import org.picketlink.identity.federation.ws.trust.RequestedProofTokenType;
import org.picketlink.identity.federation.ws.trust.RequestedSecurityTokenType;
import org.picketlink.identity.federation.ws.trust.RequestedTokenCancelledType;
import org.picketlink.identity.federation.ws.trust.StatusType;
import org.picketlink.identity.federation.ws.trust.UseKeyType;
import org.picketlink.identity.xmlsec.w3.xmldsig.KeyInfoType;
import org.picketlink.identity.xmlsec.w3.xmldsig.KeyValueType;
import org.picketlink.identity.xmlsec.w3.xmldsig.X509DataType;
import org.picketlink.identity.federation.web.constants.GeneralConstants;
import org.w3c.dom.Document;
import org.w3c.dom.Element;
import org.w3c.dom.Node;
/**
* <p>
* Default implementation of the {@code WSTrustRequestHandler} interface. It creates the request context containing the original
* WS-Trust request as well as any information that may be relevant to the token processing, and delegates the actual token
* handling processing to the appropriate {@code SecurityTokenProvider}.
* </p>
*
* @author <a href="mailto:sguilhen@redhat.com">Stefan Guilhen</a>
* @author <a href="mailto:alessio.soldano@jboss.com">Alessio Soldano</a>
*/
public class StandardRequestHandler implements WSTrustRequestHandler {
private static final PicketLinkLogger logger = PicketLinkLoggerFactory.getLogger();
private static long KEY_SIZE = 128;
private STSConfiguration configuration;
private boolean base64EncodeSecretKey = Boolean.parseBoolean(SystemPropertiesUtil.getSystemProperty(GeneralConstants.BASE64_ENCODE_WSTRUST_SECRET_KEY, "false"));
/*
* (non-Javadoc)
*
* @see org.picketlink.identity.federation.core.wstrust.WSTrustRequestHandler#initialize(
* org.picketlink.identity.federation.core.wstrust.STSConfiguration)
*/
public void initialize(STSConfiguration configuration) {
this.configuration = configuration;
}
/*
* (non-Javadoc)
*
* @see org.picketlink.identity.federation.core.wstrust.WSTrustRequestHandler#issue(
* org.picketlink.identity.federation.core.wstrust.wrappers.RequestSecurityToken, java.security.Principal)
*/
public RequestSecurityTokenResponse issue(RequestSecurityToken request, Principal callerPrincipal) throws WSTrustException {
logger.trace("Issuing token for principal " + callerPrincipal);
// SecurityTokenProvider provider = null;
// first try to obtain the security token provider using the applies-to contents.
AppliesTo appliesTo = request.getAppliesTo();
X509Certificate providerCertificate = null;
PublicKey providerPublicKey = null;
if (appliesTo != null) {
String serviceName = WSTrustUtil.parseAppliesTo(appliesTo);
if (serviceName != null) {
String tokenTypeFromServiceName = configuration.getTokenTypeForService(serviceName);
if (request.getTokenType() == null && tokenTypeFromServiceName != null)
request.setTokenType(URI.create(tokenTypeFromServiceName));
providerCertificate = this.configuration.getServiceProviderCertificate(serviceName);
if(providerCertificate != null) {
providerPublicKey = providerCertificate.getPublicKey();
}
// provider = this.configuration.getProviderForService(serviceName);
/*
* if (provider != null) {
* request.setTokenType(URI.create(this.configuration.getTokenTypeForService(serviceName))); providerPublicKey =
* this.configuration.getServiceProviderPublicKey(serviceName); }
*/
}
}
// if applies-to is not available or if no provider was found for the service, use the token type.
/*
* if (provider == null && request.getTokenType() != null) { provider =
* this.configuration.getProviderForTokenType(request.getTokenType().toString()); } else if (appliesTo == null &&
* request.getTokenType() == null) throw new
* WSTrustException("Either AppliesTo or TokenType must be present in a security token request");
*
* if (provider != null) {
*/
// create the request context and delegate token generation to the provider.
WSTrustRequestContext requestContext = new WSTrustRequestContext(request, callerPrincipal);
requestContext.setTokenIssuer(this.configuration.getSTSName());
if (request.getLifetime() == null && this.configuration.getIssuedTokenTimeout() != 0) {
// if no lifetime has been specified, use the configured timeout value.
logger.stsTokenTimeoutNotSpecified();
request.setLifetime(WSTrustUtil.createDefaultLifetime(this.configuration.getIssuedTokenTimeout()));
}
requestContext.setServiceProviderPublicKey(providerPublicKey);
// process the claims if needed.
if (request.getClaims() != null) {
ClaimsType claims = request.getClaims();
ClaimsProcessor processor = this.configuration.getClaimsProcessor(claims.getDialect());
// if there is a processor, process the claims and set the resulting attributes in the context.
if (processor != null)
requestContext.setClaimedAttributes(processor.processClaims(claims, callerPrincipal));
else if (logger.isDebugEnabled())
logger.debug("Claims have been specified in the request but no processor was found for dialect " + claims.getDialect());
}
// get the OnBehalfOf principal, if one has been specified.
if (request.getOnBehalfOf() != null) {
Principal onBehalfOfPrincipal = WSTrustUtil.getOnBehalfOfPrincipal(request.getOnBehalfOf());
requestContext.setOnBehalfOfPrincipal(onBehalfOfPrincipal);
}
// get the key type and size from the request, setting default values if not specified.
URI keyType = request.getKeyType();
if (keyType == null) {
logger.debug("No key type could be found in the request. Using the default BEARER type.");
keyType = URI.create(WSTrustConstants.KEY_TYPE_BEARER);
request.setKeyType(keyType);
}
long keySize = request.getKeySize();
if (keySize == 0) {
logger.debug("No key size could be found in the request. Using the default size. (" + KEY_SIZE + ")");
keySize = KEY_SIZE;
request.setKeySize(keySize);
}
// get the key wrap algorithm.
URI keyWrapAlgo = request.getKeyWrapAlgorithm();
// create proof-of-possession token and server entropy (if needed).
RequestedProofTokenType requestedProofToken = null;
EntropyType serverEntropy = null;
if (WSTrustConstants.KEY_TYPE_SYMMETRIC.equalsIgnoreCase(keyType.toString())) {
// symmetric key case: if client entropy is found, compute a key. If not, generate a new key.
requestedProofToken = new RequestedProofTokenType();
byte[] serverSecret = WSTrustUtil.createRandomSecret((int) keySize / 8);
BinarySecretType serverBinarySecret = new BinarySecretType();
serverBinarySecret.setType(WSTrustConstants.BS_TYPE_NONCE);
serverBinarySecret.setValue(Base64.encodeBytes(serverSecret).getBytes());
byte[] clientSecret = null;
EntropyType clientEntropy = request.getEntropy();
if (clientEntropy != null) {
clientSecret = Base64.decode(new String(WSTrustUtil.getBinarySecret(clientEntropy)));
serverEntropy = new EntropyType();
serverEntropy.addAny(serverBinarySecret);
}
if (clientSecret != null && clientSecret.length != 0) {
// client secret has been specified - combine it with the sts secret.
requestedProofToken.add(new ComputedKeyType(WSTrustConstants.CK_PSHA1));
byte[] combinedSecret = null;
try {
if( base64EncodeSecretKey == true ) {
combinedSecret = Base64.encodeBytes(WSTrustUtil.P_SHA1(clientSecret, serverSecret, (int) keySize / 8))
.getBytes();
}
else {
combinedSecret = WSTrustUtil.P_SHA1(clientSecret, serverSecret, (int) keySize / 8);
}
} catch (Exception e) {
throw logger.wsTrustCombinedSecretKeyError(e);
}
requestContext.setProofTokenInfo(WSTrustUtil.createKeyInfo(combinedSecret, providerPublicKey, keyWrapAlgo, providerCertificate));
} else {
// client secret has not been specified - use the sts secret only.
requestedProofToken.add(serverBinarySecret);
requestContext.setProofTokenInfo(WSTrustUtil.createKeyInfo(serverSecret, providerPublicKey,
keyWrapAlgo, providerCertificate));
}
} else if (WSTrustConstants.KEY_TYPE_PUBLIC.equalsIgnoreCase(keyType.toString())) {
// try to locate the client cert in the keystore using the caller principal as the alias.
Certificate certificate = this.configuration.getCertificate(callerPrincipal.getName());
if (certificate != null)
requestContext.setProofTokenInfo(WSTrustUtil.createKeyInfo(certificate));
// if no certificate was found in the keystore, check the UseKey contents.
else if (request.getUseKey() != null) {
UseKeyType useKeyType = request.getUseKey();
List<Object> theList = useKeyType.getAny();
for (Object value : theList) {
if (value instanceof Element) {
Element keyElement = (Element) value;
String elementName = (keyElement).getLocalName();
// if the specified key is a X509 certificate we must insert it into a X509Data element.
if (elementName.equals("X509Certificate")) {
X509DataType data = new X509DataType();
data.add(value);
value = data;
} else if(elementName.equals("KeyValue")){
KeyValueType keyValue = null;
Element child = DocumentUtil.getChildElement(keyElement, new QName(WSTrustConstants.XMLDSig.RSA_KEYVALUE));
if(child != null){
try {
keyValue = XMLSignatureUtil.getRSAKeyValue(child);
} catch (ParsingException e) {
throw logger.stsError(e);
}
}
if(keyValue == null && child == null){
child = DocumentUtil.getChildElement(keyElement, new QName(WSTrustConstants.XMLDSig.DSA_KEYVALUE));
if(child != null){
try {
keyValue = XMLSignatureUtil.getDSAKeyValue(child);
} catch (ParsingException e) {
throw logger.stsError(e);
}
}
value = keyValue;
}
}
KeyInfoType keyInfo = new KeyInfoType();
keyInfo.addContent(value);
requestContext.setProofTokenInfo(keyInfo);
} else if (value instanceof KeyInfoType) {
requestContext.setProofTokenInfo((KeyInfoType) value);
} else
throw new WSTrustException(logger.unsupportedType(value.toString()));
}
} else
throw logger.wsTrustClientPublicKeyError();
}
// issue the security token using the constructed context.
try {
if (request.getTokenType() != null)
requestContext.setTokenType(request.getTokenType().toString());
PicketLinkCoreSTS sts = PicketLinkCoreSTS.instance();
sts.initialize(configuration);
sts.issueToken(requestContext);
// provider.issueToken(requestContext);
} catch (ProcessingException e) {
throw logger.stsError(e);
}
if (requestContext.getSecurityToken() == null)
throw new WSTrustException(logger.nullValueError("Token issued by STS"));
// construct the ws-trust security token response.
RequestedSecurityTokenType requestedSecurityToken = new RequestedSecurityTokenType();
SecurityToken contextSecurityToken = requestContext.getSecurityToken();
if (contextSecurityToken == null)
throw new WSTrustException(logger.nullValueError("Security Token from context"));
requestedSecurityToken.add(contextSecurityToken.getTokenValue());
RequestSecurityTokenResponse response = new RequestSecurityTokenResponse();
if (request.getContext() != null)
response.setContext(request.getContext());
response.setTokenType(request.getTokenType());
response.setLifetime(request.getLifetime());
response.setAppliesTo(appliesTo);
response.setKeySize(keySize);
response.setKeyType(keyType);
response.setRequestedSecurityToken(requestedSecurityToken);
if (requestedProofToken != null)
response.setRequestedProofToken(requestedProofToken);
if (serverEntropy != null)
response.setEntropy(serverEntropy);
// set the attached and unattached references.
if (requestContext.getAttachedReference() != null)
response.setRequestedAttachedReference(requestContext.getAttachedReference());
if (requestContext.getUnattachedReference() != null)
response.setRequestedUnattachedReference(requestContext.getUnattachedReference());
return response;
}
/*
* (non-Javadoc)
*
* @see org.picketlink.identity.federation.core.wstrust.WSTrustRequestHandler#renew(
* org.picketlink.identity.federation.core.wstrust.wrappers.RequestSecurityToken, java.security.Principal)
*/
public RequestSecurityTokenResponse renew(RequestSecurityToken request, Principal callerPrincipal) throws WSTrustException {
// first validate the provided token signature to make sure it has been issued by this STS and hasn't been
// tempered.
logger.trace("Validating token for renew request " + request.getContext());
if (request.getRenewTargetElement() == null)
throw new WSTrustException(logger.nullValueError("renew target"));
Node securityToken = request.getRenewTargetElement().getFirstChild();
if (securityToken == null)
throw new WSTrustException(logger.nullValueError("security token"));
/*
* SecurityTokenProvider provider = this.configuration.getProviderForTokenElementNS(securityToken.getLocalName(),
* securityToken.getNamespaceURI()); if (provider == null) throw new
* WSTrustException("No SecurityTokenProvider configured for " + securityToken.getNamespaceURI() + ":" +
* securityToken.getLocalName());
*/
setupIDAttribute(securityToken);
if (this.configuration.signIssuedToken() && this.configuration.getSTSKeyPair() != null) {
KeyPair keyPair = this.configuration.getSTSKeyPair();
try {
Document tokenDocument = DocumentUtil.createDocument();
Node importedNode = tokenDocument.importNode(securityToken, true);
tokenDocument.appendChild(importedNode);
XMLSignatureUtil.propagateIDAttributeSetup(securityToken, tokenDocument.getDocumentElement());
if (!XMLSignatureUtil.validate(tokenDocument, keyPair.getPublic()))
throw new WSTrustException(logger.signatureInvalidError("Validation failure during renewal", null));
} catch (Exception e) {
throw new WSTrustException(logger.signatureInvalidError("Validation failure during renewal:", e));
}
} else {
logger.stsSecurityTokenSignatureNotVerified();
}
// set default values where needed.
if (request.getLifetime() == null && this.configuration.getIssuedTokenTimeout() != 0) {
// if no lifetime has been specified, use the configured timeout value.
logger.stsTokenTimeoutNotSpecified();
request.setLifetime(WSTrustUtil.createDefaultLifetime(this.configuration.getIssuedTokenTimeout()));
}
// create a context and dispatch to the proper security token provider for renewal.
WSTrustRequestContext context = new WSTrustRequestContext(request, callerPrincipal);
context.setTokenIssuer(this.configuration.getSTSName());
// if the renew request was made on behalf of another identity, get the principal of that identity.
if (request.getOnBehalfOf() != null) {
Principal onBehalfOfPrincipal = WSTrustUtil.getOnBehalfOfPrincipal(request.getOnBehalfOf());
context.setOnBehalfOfPrincipal(onBehalfOfPrincipal);
}
try {
if (securityToken != null) {
String ns = securityToken.getNamespaceURI();
context.setQName(new QName(ns, securityToken.getLocalName()));
}
PicketLinkCoreSTS sts = PicketLinkCoreSTS.instance();
sts.initialize(configuration);
sts.renewToken(context);
// provider.renewToken(context);
} catch (ProcessingException e) {
throw new WSTrustException(e.getMessage(), e);
}
// create the WS-Trust response with the renewed token.
RequestedSecurityTokenType requestedSecurityToken = new RequestedSecurityTokenType();
SecurityToken contextSecurityToken = context.getSecurityToken();
if (contextSecurityToken == null)
throw new WSTrustException(logger.nullValueError("Security Token from context"));
requestedSecurityToken.add(contextSecurityToken.getTokenValue());
RequestSecurityTokenResponse response = new RequestSecurityTokenResponse();
if (request.getContext() != null)
response.setContext(request.getContext());
response.setTokenType(request.getTokenType());
response.setLifetime(request.getLifetime());
response.setRequestedSecurityToken(requestedSecurityToken);
if (context.getAttachedReference() != null)
response.setRequestedAttachedReference(context.getAttachedReference());
if (context.getUnattachedReference() != null)
response.setRequestedUnattachedReference(context.getUnattachedReference());
return response;
}
/*
* (non-Javadoc)
*
* @see org.picketlink.identity.federation.core.wstrust.WSTrustRequestHandler#validate(
* org.picketlink.identity.federation.core.wstrust.wrappers.RequestSecurityToken, java.security.Principal)
*/
public RequestSecurityTokenResponse validate(RequestSecurityToken request, Principal callerPrincipal)
throws WSTrustException {
logger.trace("Started validation for request " + request.getContext());
if (request.getValidateTargetElement() == null)
throw new WSTrustException(logger.nullValueError("request does not have a validate target. Unable to validate token"));
if (request.getTokenType() == null)
request.setTokenType(URI.create(WSTrustConstants.STATUS_TYPE));
Node securityToken = request.getValidateTargetElement().getFirstChild();
if (securityToken == null)
throw new WSTrustException(logger.nullValueError("security token:Unable to validate token"));
setupIDAttribute(securityToken);
WSTrustRequestContext context = new WSTrustRequestContext(request, callerPrincipal);
// if the validate request was made on behalf of another identity, get the principal of that identity.
if (request.getOnBehalfOf() != null) {
Principal onBehalfOfPrincipal = WSTrustUtil.getOnBehalfOfPrincipal(request.getOnBehalfOf());
context.setOnBehalfOfPrincipal(onBehalfOfPrincipal);
}
StatusType status = null;
// validate the security token digital signature.
if (this.configuration.signIssuedToken() && this.configuration.getSTSKeyPair() != null) {
KeyPair keyPair = this.configuration.getSTSKeyPair();
try {
if (logger.isTraceEnabled()) {
try {
logger.trace("Going to validate signature for: " + DocumentUtil.getNodeAsString(securityToken));
} catch (Exception e) {
}
}
Document tokenDocument = DocumentUtil.createDocument();
Node importedNode = tokenDocument.importNode(securityToken, true);
tokenDocument.appendChild(importedNode);
XMLSignatureUtil.propagateIDAttributeSetup(securityToken, tokenDocument.getDocumentElement());
if (!XMLSignatureUtil.validate(tokenDocument, keyPair.getPublic())) {
status = new StatusType();
status.setCode(WSTrustConstants.STATUS_CODE_INVALID);
status.setReason("Validation failure: digital signature is invalid");
}
} catch (Exception e) {
status = new StatusType();
status.setCode(WSTrustConstants.STATUS_CODE_INVALID);
status.setReason("Validation failure: unable to verify digital signature: " + e.getMessage());
}
} else {
logger.stsSecurityTokenSignatureNotVerified();
}
// if the signature is valid, then let the provider perform any additional validation checks.
if (status == null) {
logger.trace("Delegating token validation to token provider. Token NS: " + securityToken.getNamespaceURI() + " ::LocalName: " + securityToken.getLocalName());
try {
if (securityToken != null)
context.setQName(new QName(securityToken.getNamespaceURI(), securityToken.getLocalName()));
PicketLinkCoreSTS sts = PicketLinkCoreSTS.instance();
sts.initialize(configuration);
sts.validateToken(context);
// provider.validateToken(context);
} catch (ProcessingException e) {
throw logger.stsError(e);
}
status = context.getStatus();
}
// construct and return the response.
RequestSecurityTokenResponse response = new RequestSecurityTokenResponse();
if (request.getContext() != null)
response.setContext(request.getContext());
response.setTokenType(request.getTokenType());
response.setStatus(status);
return response;
}
/*
* (non-Javadoc)
*
* @see org.picketlink.identity.federation.core.wstrust.WSTrustRequestHandler#cancel(
* org.picketlink.identity.federation.core.wstrust.wrappers.RequestSecurityToken, java.security.Principal)
*/
public RequestSecurityTokenResponse cancel(RequestSecurityToken request, Principal callerPrincipal) throws WSTrustException {
// check if request contains all required elements.
if (request.getCancelTargetElement() == null)
throw new WSTrustException(logger.nullValueError("request does not have a cancel target. Unable to cancel token"));
// obtain the token provider that will handle the request.
Node securityToken = request.getCancelTargetElement().getFirstChild();
if (securityToken == null)
throw new WSTrustException(logger.nullValueError("security token. Unable to cancel token"));
/*
* SecurityTokenProvider provider = this.configuration.getProviderForTokenElementNS(securityToken.getLocalName(),
* securityToken.getNamespaceURI()); if (provider == null) throw new
* WSTrustException("No SecurityTokenProvider configured for " + securityToken.getNamespaceURI() + ":" +
* securityToken.getLocalName());
*/
// create a request context and dispatch to the provider.
WSTrustRequestContext context = new WSTrustRequestContext(request, callerPrincipal);
// if the cancel request was made on behalf of another identity, get the principal of that identity.
if (request.getOnBehalfOf() != null) {
Principal onBehalfOfPrincipal = WSTrustUtil.getOnBehalfOfPrincipal(request.getOnBehalfOf());
context.setOnBehalfOfPrincipal(onBehalfOfPrincipal);
}
try {
if (securityToken != null)
context.setQName(new QName(securityToken.getNamespaceURI(), securityToken.getLocalName()));
PicketLinkCoreSTS sts = PicketLinkCoreSTS.instance();
sts.initialize(configuration);
sts.cancelToken(context);
// provider.cancelToken(context);
} catch (ProcessingException e) {
throw logger.stsError(e);
}
// if no exception has been raised, the token has been successfully canceled.
RequestSecurityTokenResponse response = new RequestSecurityTokenResponse();
if (request.getContext() != null)
response.setContext(request.getContext());
response.setRequestedTokenCancelled(new RequestedTokenCancelledType());
return response;
}
public Document postProcess(Document rstrDocument, RequestSecurityToken request) throws WSTrustException {
if (WSTrustConstants.ISSUE_REQUEST.equals(request.getRequestType().toString())
|| WSTrustConstants.RENEW_REQUEST.equals(request.getRequestType().toString())) {
rstrDocument = DocumentUtil.normalizeNamespaces(rstrDocument);
// Sign the security token
if (this.configuration.signIssuedToken() && this.configuration.getSTSKeyPair() != null) {
KeyPair keyPair = this.configuration.getSTSKeyPair();
URI signatureURI = request.getSignatureAlgorithm();
String signatureMethod = signatureURI != null ? signatureURI.toString() : SignatureMethod.RSA_SHA1;
try {
Node rst = rstrDocument.getElementsByTagNameNS(WSTrustConstants.BASE_NAMESPACE, "RequestedSecurityToken")
.item(0);
Element tokenElement = (Element) rst.getFirstChild();
logger.trace("NamespaceURI of element to be signed: " + tokenElement.getNamespaceURI());
//Is there a certificate?
X509Certificate x509Certificate = null;
String signingCertificateAlias = this.configuration.getSigningCertificateAlias();
if(signingCertificateAlias != null){
x509Certificate = (X509Certificate) this.configuration.getCertificate(signingCertificateAlias);
}
// Set the CanonicalizationMethod if any
XMLSignatureUtil.setCanonicalizationMethodType(configuration.getXMLDSigCanonicalizationMethod());
rstrDocument = XMLSignatureUtil.sign(rstrDocument, tokenElement, keyPair, DigestMethod.SHA1,
signatureMethod, setupIDAttribute(tokenElement),x509Certificate);
if (logger.isTraceEnabled()) {
try {
Document tokenDocument = DocumentUtil.createDocument();
tokenDocument.appendChild(tokenDocument.importNode(tokenElement, true));
logger.trace("valid=" + XMLSignatureUtil.validate(tokenDocument, keyPair.getPublic()));
} catch (Exception ignore) {
}
}
} catch (Exception e) {
throw new WSTrustException(logger.signatureError(e));
}
}
// encrypt the security token if needed.
if (this.configuration.encryptIssuedToken()) {
// get the public key that will be used to encrypt the token.
PublicKey providerPublicKey = null;
if (request.getAppliesTo() != null) {
String serviceName = WSTrustUtil.parseAppliesTo(request.getAppliesTo());
logger.trace("Locating public key for " + serviceName);
if (serviceName != null)
providerPublicKey = this.configuration.getServiceProviderPublicKey(serviceName);
}
if (providerPublicKey == null) {
logger.stsSecurityTokenShouldBeEncrypted();
} else {
// generate the secret key.
long keySize = request.getKeySize();
byte[] secret = WSTrustUtil.createRandomSecret((int) keySize / 8);
SecretKey secretKey = new SecretKeySpec(secret, "AES");
// encrypt the security token.
Node rst = rstrDocument.getElementsByTagNameNS(WSTrustConstants.BASE_NAMESPACE, "RequestedSecurityToken")
.item(0);
Element tokenElement = (Element) rst.getFirstChild();
try {
XMLEncryptionUtil.encryptElement(rstrDocument, tokenElement, providerPublicKey, secretKey,
(int) keySize);
} catch (ProcessingException e) {
throw new WSTrustException(logger.encryptProcessError(e));
}
}
}
}
return rstrDocument;
}
/**
* Setup the ID attribute in the provided node if it's a SAML Assertion element.
*
* @param node The node representing the SAML Assertion
* @return A reference to the correct ID
*/
private static String setupIDAttribute(Node node) {
if (node instanceof Element) {
Element assertion = (Element) node;
if (assertion.getLocalName().equals("Assertion")) {
if (assertion.getNamespaceURI().equals(WSTrustConstants.SAML2_ASSERTION_NS) && assertion.hasAttribute("ID")) {
assertion.setIdAttribute("ID", true);
return "#" + assertion.getAttribute("ID");
} else if (assertion.getNamespaceURI().equals(SAML11Constants.ASSERTION_11_NSURI)
&& assertion.hasAttribute(SAML11Constants.ASSERTIONID)) {
assertion.setIdAttribute(SAML11Constants.ASSERTIONID, true);
return "#" + assertion.getAttribute(SAML11Constants.ASSERTIONID);
}
}
}
return "";
}
}