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/**
* 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.util;
import org.apache.ws.security.SOAP11Constants;
import org.apache.ws.security.SOAP12Constants;
import org.apache.ws.security.SOAPConstants;
import org.apache.ws.security.WSConstants;
import org.apache.ws.security.WSDataRef;
import org.apache.ws.security.WSEncryptionPart;
import org.apache.ws.security.WSSecurityEngineResult;
import org.apache.ws.security.WSSecurityException;
import org.apache.ws.security.WSSConfig;
import org.apache.ws.security.handler.WSHandlerConstants;
import org.apache.ws.security.message.CallbackLookup;
import org.apache.xml.security.algorithms.JCEMapper;
import org.w3c.dom.Attr;
import org.w3c.dom.Document;
import org.w3c.dom.Element;
import org.w3c.dom.NamedNodeMap;
import org.w3c.dom.Node;
import org.w3c.dom.Text;
import javax.crypto.Cipher;
import javax.crypto.NoSuchPaddingException;
import javax.crypto.SecretKey;
import javax.crypto.spec.SecretKeySpec;
import javax.xml.crypto.dom.DOMCryptoContext;
import javax.xml.namespace.QName;
import java.security.MessageDigest;
import java.security.NoSuchAlgorithmException;
import java.security.SecureRandom;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Set;
/**
* WS-Security Utility methods.
*
* @author Davanum Srinivas ([email protected]).
*/
public final class WSSecurityUtil {
private static org.apache.commons.logging.Log log =
org.apache.commons.logging.LogFactory.getLog(WSSecurityUtil.class);
/**
* A cached pseudo-random number generator
* NB. On some JVMs, caching this random number
* generator is required to overcome punitive
* overhead.
*/
private static SecureRandom random = null;
/**
* A cached MessageDigest object
*/
private static MessageDigest digest = null;
private WSSecurityUtil() {
// Complete
}
/**
* Returns the first WS-Security header element for a given actor. Only one
* WS-Security header is allowed for an actor.
*
* @param doc
* @param actor
* @return the wsse:Security element or null
* if not such element found
*/
public static Element getSecurityHeader(Document doc, String actor) throws WSSecurityException {
String soapNamespace = WSSecurityUtil.getSOAPNamespace(doc.getDocumentElement());
Element soapHeaderElement =
getDirectChildElement(
doc.getDocumentElement(),
WSConstants.ELEM_HEADER,
soapNamespace
);
if (soapHeaderElement == null) { // no SOAP header at all
return null;
}
String actorLocal = WSConstants.ATTR_ACTOR;
if (WSConstants.URI_SOAP12_ENV.equals(soapNamespace)) {
actorLocal = WSConstants.ATTR_ROLE;
}
//
// Iterate through the security headers
//
Element foundSecurityHeader = null;
for (
Node currentChild = soapHeaderElement.getFirstChild();
currentChild != null;
currentChild = currentChild.getNextSibling()
) {
if (Node.ELEMENT_NODE == currentChild.getNodeType()
&& WSConstants.WSSE_LN.equals(currentChild.getLocalName())
&& WSConstants.WSSE_NS.equals(currentChild.getNamespaceURI())) {
Element elem = (Element)currentChild;
Attr attr = elem.getAttributeNodeNS(soapNamespace, actorLocal);
String hActor = (attr != null) ? attr.getValue() : null;
if (WSSecurityUtil.isActorEqual(actor, hActor)) {
if (foundSecurityHeader != null) {
if (log.isDebugEnabled()) {
log.debug(
"Two or more security headers have the same actor name: " + actor
);
}
throw new WSSecurityException(WSSecurityException.INVALID_SECURITY);
}
foundSecurityHeader = elem;
}
}
}
return foundSecurityHeader;
}
/**
* Compares two actor strings and returns true if these are equal. Takes
* care of the null length strings and uses ignore case.
*
* @param actor
* @param hActor
* @return true is the actor arguments are equal
*/
public static boolean isActorEqual(String actor, String hActor) {
if (((hActor == null) || (hActor.length() == 0))
&& ((actor == null) || (actor.length() == 0))) {
return true;
}
if ((hActor != null) && (actor != null) && hActor.equalsIgnoreCase(actor)) {
return true;
}
return false;
}
/**
* Gets a direct child with specified localname and namespace.
*
* @param parentNode the node where to start the search
* @param localName local name of the child to get
* @param namespace the namespace of the child to get
* @return the node or null if not such node found
*/
public static Element getDirectChildElement(
Node parentNode,
String localName,
String namespace
) {
if (parentNode == null) {
return null;
}
for (
Node currentChild = parentNode.getFirstChild();
currentChild != null;
currentChild = currentChild.getNextSibling()
) {
if (Node.ELEMENT_NODE == currentChild.getNodeType()
&& localName.equals(currentChild.getLocalName())
&& namespace.equals(currentChild.getNamespaceURI())) {
return (Element)currentChild;
}
}
return null;
}
/**
* Gets all direct children with specified localname and namespace.
*
* @param fNode the node where to start the search
* @param localName local name of the children to get
* @param namespace the namespace of the children to get
* @return the list of nodes or null if not such nodes are found
*/
public static List getDirectChildElements(
Node fNode,
String localName,
String namespace
) {
List children = new ArrayList();
for (
Node currentChild = fNode.getFirstChild();
currentChild != null;
currentChild = currentChild.getNextSibling()
) {
if (Node.ELEMENT_NODE == currentChild.getNodeType()
&& localName.equals(currentChild.getLocalName())
&& namespace.equals(currentChild.getNamespaceURI())) {
children.add((Element)currentChild);
}
}
return children;
}
/**
* return the first soap "Body" element.
*
* @param doc
* @return the body element or null if document does not
* contain a SOAP body
*/
public static Element findBodyElement(Document doc) {
//
// Find the SOAP Envelope NS. Default to SOAP11 NS
//
Element docElement = doc.getDocumentElement();
String ns = docElement.getNamespaceURI();
return getDirectChildElement(docElement, WSConstants.ELEM_BODY, ns);
}
/**
* Find the DOM Element in the SOAP Envelope that is referenced by the
* WSEncryptionPart argument. The "Id" is used before the Element localname/namespace.
*
* @param part The WSEncryptionPart object corresponding to the DOM Element(s) we want
* @param callbackLookup The CallbackLookup object used to find Elements
* @param doc The owning document
* @return the DOM Element in the SOAP Envelope that is found
*/
public static List findElements(
WSEncryptionPart part, CallbackLookup callbackLookup, Document doc
) throws WSSecurityException {
// See if the DOM Element is stored in the WSEncryptionPart first
if (part.getElement() != null) {
return Collections.singletonList(part.getElement());
}
// Next try to find the Element via its wsu:Id
String id = part.getId();
if (id != null) {
Element foundElement = callbackLookup.getElement(id, null, false);
return Collections.singletonList(foundElement);
}
// Otherwise just lookup all elements with the localname/namespace
return callbackLookup.getElements(part.getName(), part.getNamespace());
}
/**
* Returns the first element that matches name and
* namespace. This is a replacement for a XPath lookup
* //name with the given namespace. It's somewhat faster than
* XPath, and we do not deal with prefixes, just with the real namespace URI
*
* @param startNode Where to start the search
* @param name Local name of the element
* @param namespace Namespace URI of the element
* @return The found element or null
*/
public static Element findElement(Node startNode, String name, String namespace) {
//
// Replace the formerly recursive implementation with a depth-first-loop
// lookup
//
if (startNode == null) {
return null;
}
Node startParent = startNode.getParentNode();
Node processedNode = null;
while (startNode != null) {
// start node processing at this point
if (startNode.getNodeType() == Node.ELEMENT_NODE
&& startNode.getLocalName().equals(name)) {
String ns = startNode.getNamespaceURI();
if (ns != null && ns.equals(namespace)) {
return (Element)startNode;
}
if ((namespace == null || namespace.length() == 0)
&& (ns == null || ns.length() == 0)) {
return (Element)startNode;
}
}
processedNode = startNode;
startNode = startNode.getFirstChild();
// no child, this node is done.
if (startNode == null) {
// close node processing, get sibling
startNode = processedNode.getNextSibling();
}
// no more siblings, get parent, all children
// of parent are processed.
while (startNode == null) {
processedNode = processedNode.getParentNode();
if (processedNode == startParent) {
return null;
}
// close parent node processing (processed node now)
startNode = processedNode.getNextSibling();
}
}
return null;
}
/**
* Returns all elements that match name and namespace.
* This is a replacement for a XPath lookup
* //name with the given namespace. It's somewhat faster than
* XPath, and we do not deal with prefixes, just with the real namespace URI
*
* @param startNode Where to start the search
* @param name Local name of the element
* @param namespace Namespace URI of the element
* @return The found elements (or an empty list)
*/
public static List findElements(Node startNode, String name, String namespace) {
//
// Replace the formerly recursive implementation with a depth-first-loop
// lookup
//
if (startNode == null) {
return null;
}
Node startParent = startNode.getParentNode();
Node processedNode = null;
List foundNodes = new ArrayList();
while (startNode != null) {
// start node processing at this point
if (startNode.getNodeType() == Node.ELEMENT_NODE
&& startNode.getLocalName().equals(name)) {
String ns = startNode.getNamespaceURI();
if (ns != null && ns.equals(namespace)) {
foundNodes.add((Element)startNode);
}
if ((namespace == null || namespace.length() == 0)
&& (ns == null || ns.length() == 0)) {
foundNodes.add((Element)startNode);
}
}
processedNode = startNode;
startNode = startNode.getFirstChild();
// no child, this node is done.
if (startNode == null) {
// close node processing, get sibling
startNode = processedNode.getNextSibling();
}
// no more siblings, get parent, all children
// of parent are processed.
while (startNode == null) {
processedNode = processedNode.getParentNode();
if (processedNode == startParent) {
return foundNodes;
}
// close parent node processing (processed node now)
startNode = processedNode.getNextSibling();
}
}
return foundNodes;
}
/**
* Returns the single SAMLAssertion element that contains an AssertionID/ID that
* matches the supplied parameter.
*
* @param startNode Where to start the search
* @param value Value of the AssertionID/ID attribute
* @return The found element if there was exactly one match, or
* null otherwise
*/
public static Element findSAMLAssertionElementById(Node startNode, String value) {
Element foundElement = null;
//
// Replace the formerly recursive implementation with a depth-first-loop
// lookup
//
if (startNode == null) {
return null;
}
Node startParent = startNode.getParentNode();
Node processedNode = null;
while (startNode != null) {
// start node processing at this point
if (startNode.getNodeType() == Node.ELEMENT_NODE) {
Element se = (Element) startNode;
if ((se.hasAttribute("ID") && value.equals(se.getAttributeNS(null, "ID")))
|| (se.hasAttribute("AssertionID")
&& value.equals(se.getAttributeNS(null, "AssertionID")))) {
if (foundElement == null) {
foundElement = se; // Continue searching to find duplicates
} else {
log.warn("Multiple elements with the same 'ID' attribute value!");
return null;
}
}
}
processedNode = startNode;
startNode = startNode.getFirstChild();
// no child, this node is done.
if (startNode == null) {
// close node processing, get sibling
startNode = processedNode.getNextSibling();
}
// no more siblings, get parent, all children
// of parent are processed.
while (startNode == null) {
processedNode = processedNode.getParentNode();
if (processedNode == startParent) {
return foundElement;
}
// close parent node processing (processed node now)
startNode = processedNode.getNextSibling();
}
}
return foundElement;
}
/**
* Returns the single element that contains an Id with value
* uri and namespace. The Id can be either a wsu:Id or an Id
* with no namespace. This is a replacement for a XPath Id lookup with the given namespace.
* It's somewhat faster than XPath, and we do not deal with prefixes, just with the real
* namespace URI
*
* If checkMultipleElements is true and there are multiple elements, we log a
* warning and return null as this can be used to get around the signature checking.
*
* @param startNode Where to start the search
* @param value Value of the Id attribute
* @param checkMultipleElements If true then go through the entire tree and return
* null if there are multiple elements with the same Id
* @return The found element if there was exactly one match, or
* null otherwise
*/
public static Element findElementById(
Node startNode, String value, boolean checkMultipleElements
) {
//
// Replace the formerly recursive implementation with a depth-first-loop lookup
//
Node startParent = startNode.getParentNode();
Node processedNode = null;
Element foundElement = null;
String id = getIDFromReference(value);
while (startNode != null) {
// start node processing at this point
if (startNode.getNodeType() == Node.ELEMENT_NODE) {
Element se = (Element) startNode;
// Try the wsu:Id first
String attributeNS = se.getAttributeNS(WSConstants.WSU_NS, "Id");
if ("".equals(attributeNS) || !id.equals(attributeNS)) {
attributeNS = se.getAttributeNS(null, "Id");
}
if (!"".equals(attributeNS) && id.equals(attributeNS)) {
if (!checkMultipleElements) {
return se;
} else if (foundElement == null) {
foundElement = se; // Continue searching to find duplicates
} else {
log.warn("Multiple elements with the same 'Id' attribute value!");
return null;
}
}
}
processedNode = startNode;
startNode = startNode.getFirstChild();
// no child, this node is done.
if (startNode == null) {
// close node processing, get sibling
startNode = processedNode.getNextSibling();
}
// no more siblings, get parent, all children
// of parent are processed.
while (startNode == null) {
processedNode = processedNode.getParentNode();
if (processedNode == startParent) {
return foundElement;
}
// close parent node processing (processed node now)
startNode = processedNode.getNextSibling();
}
}
return foundElement;
}
/**
* Set a namespace/prefix on an element if it is not set already. First off, it
* searches for the element for the prefix associated with the specified
* namespace. If the prefix isn't null, then this is returned. Otherwise, it
* creates a new attribute using the namespace/prefix passed as parameters.
*
* @param element
* @param namespace
* @param prefix
* @return the prefix associated with the set namespace
*/
public static String setNamespace(Element element, String namespace, String prefix) {
String pre = getPrefixNS(namespace, element);
if (pre != null) {
return pre;
}
element.setAttributeNS(WSConstants.XMLNS_NS, "xmlns:" + prefix, namespace);
return prefix;
}
/*
* The following methods were copied over from axis.utils.XMLUtils and adapted
*/
public static String getPrefixNS(String uri, Node e) {
while (e != null && (e.getNodeType() == Element.ELEMENT_NODE)) {
NamedNodeMap attrs = e.getAttributes();
for (int n = 0; n < attrs.getLength(); n++) {
Attr a = (Attr) attrs.item(n);
String name = a.getName();
if (name.startsWith("xmlns:") && a.getNodeValue().equals(uri)) {
return name.substring("xmlns:".length());
}
}
e = e.getParentNode();
}
return null;
}
public static String getNamespace(String prefix, Node e) {
while (e != null && (e.getNodeType() == Node.ELEMENT_NODE)) {
Attr attr = null;
if (prefix == null) {
attr = ((Element) e).getAttributeNodeNS(null, "xmlns");
} else {
attr = ((Element) e).getAttributeNodeNS(WSConstants.XMLNS_NS, prefix);
}
if (attr != null) {
return attr.getValue();
}
e = e.getParentNode();
}
return null;
}
/**
* Return a QName when passed a string like "foo:bar" by mapping the "foo"
* prefix to a namespace in the context of the given Node.
*
* @return a QName generated from the given string representation
*/
public static QName getQNameFromString(String str, Node e) {
return getQNameFromString(str, e, false);
}
/**
* Return a QName when passed a string like "foo:bar" by mapping the "foo"
* prefix to a namespace in the context of the given Node. If default
* namespace is found it is returned as part of the QName.
*
* @return a QName generated from the given string representation
*/
public static QName getFullQNameFromString(String str, Node e) {
return getQNameFromString(str, e, true);
}
private static QName getQNameFromString(String str, Node e, boolean defaultNS) {
if (str == null || e == null) {
return null;
}
int idx = str.indexOf(':');
if (idx > -1) {
String prefix = str.substring(0, idx);
String ns = getNamespace(prefix, e);
if (ns == null) {
return null;
}
return new QName(ns, str.substring(idx + 1));
} else {
if (defaultNS) {
String ns = getNamespace(null, e);
if (ns != null) {
return new QName(ns, str);
}
}
return new QName("", str);
}
}
/**
* Return a string for a particular QName, mapping a new prefix if
* necessary.
*/
public static String getStringForQName(QName qname, Element e) {
String uri = qname.getNamespaceURI();
String prefix = getPrefixNS(uri, e);
if (prefix == null) {
int i = 1;
prefix = "ns" + i;
while (getNamespace(prefix, e) != null) {
i++;
prefix = "ns" + i;
}
e.setAttributeNS(WSConstants.XMLNS_NS, "xmlns:" + prefix, uri);
}
return prefix + ":" + qname.getLocalPart();
}
/**
* Turn a reference (eg "#5") into an ID (eg "5").
*
* @param ref
* @return ref trimmed and with the leading "#" removed, or null if not
* correctly formed
*/
public static String getIDFromReference(String ref) {
String id = ref.trim();
if (id.length() == 0) {
return null;
}
if (id.charAt(0) == '#') {
id = id.substring(1);
}
return id;
}
/**
* create a new element in the same namespace
*
* @param parent for the new element
* @param localName of the new element
* @return the new element
*/
private static Element createElementInSameNamespace(Element parent, String localName) {
String qName = localName;
String prefix = parent.getPrefix();
if (prefix != null && prefix.length() > 0) {
qName = prefix + ":" + localName;
}
String nsUri = parent.getNamespaceURI();
return parent.getOwnerDocument().createElementNS(nsUri, qName);
}
/**
* prepend a child element
*
* @param parent element of this child element
* @param child the element to append
* @return the child element
*/
public static Element prependChildElement(
Element parent,
Element child
) {
Node firstChild = parent.getFirstChild();
if (firstChild == null) {
return (Element)parent.appendChild(child);
} else {
return (Element)parent.insertBefore(child, firstChild);
}
}
/**
* find the first ws-security header block
*
* @param doc the DOM document (SOAP request)
* @param envelope the SOAP envelope
* @param doCreate if true create a new WSS header block if none exists
* @return the WSS header or null if none found and doCreate is false
*/
public static Element findWsseSecurityHeaderBlock(
Document doc,
Element envelope,
boolean doCreate
) throws WSSecurityException {
return findWsseSecurityHeaderBlock(doc, envelope, null, doCreate);
}
/**
* find a WS-Security header block for a given actor
*
* @param doc the DOM document (SOAP request)
* @param envelope the SOAP envelope
* @param actor the actor (role) name of the WSS header
* @param doCreate if true create a new WSS header block if none exists
* @return the WSS header or null if none found and doCreate is false
*/
public static Element findWsseSecurityHeaderBlock(
Document doc,
Element envelope,
String actor,
boolean doCreate
) throws WSSecurityException {
String soapNamespace = WSSecurityUtil.getSOAPNamespace(doc.getDocumentElement());
Element header =
getDirectChildElement(
doc.getDocumentElement(),
WSConstants.ELEM_HEADER,
soapNamespace
);
if (header == null) { // no SOAP header at all
if (doCreate) {
header = createElementInSameNamespace(envelope, WSConstants.ELEM_HEADER);
header = prependChildElement(envelope, header);
} else {
return null;
}
}
String actorLocal = WSConstants.ATTR_ACTOR;
if (WSConstants.URI_SOAP12_ENV.equals(soapNamespace)) {
actorLocal = WSConstants.ATTR_ROLE;
}
//
// Iterate through the security headers
//
Element foundSecurityHeader = null;
for (
Node currentChild = header.getFirstChild();
currentChild != null;
currentChild = currentChild.getNextSibling()
) {
if (Node.ELEMENT_NODE == currentChild.getNodeType()
&& WSConstants.WSSE_LN.equals(currentChild.getLocalName())
&& WSConstants.WSSE_NS.equals(currentChild.getNamespaceURI())) {
Element elem = (Element)currentChild;
Attr attr = elem.getAttributeNodeNS(soapNamespace, actorLocal);
String hActor = (attr != null) ? attr.getValue() : null;
if (WSSecurityUtil.isActorEqual(actor, hActor)) {
if (foundSecurityHeader != null) {
if (log.isDebugEnabled()) {
log.debug(
"Two or more security headers have the same actor name: " + actor
);
}
throw new WSSecurityException(WSSecurityException.INVALID_SECURITY);
}
foundSecurityHeader = elem;
}
}
}
if (foundSecurityHeader != null) {
return foundSecurityHeader;
} else if (doCreate) {
foundSecurityHeader = doc.createElementNS(WSConstants.WSSE_NS, "wsse:Security");
foundSecurityHeader.setAttributeNS(WSConstants.XMLNS_NS, "xmlns:wsse", WSConstants.WSSE_NS);
return prependChildElement(header, foundSecurityHeader);
}
return null;
}
/**
* create a base64 test node
*
* @param doc the DOM document (SOAP request)
* @param data to encode
* @return a Text node containing the base64 encoded data
*/
public static Text createBase64EncodedTextNode(Document doc, byte data[]) {
return doc.createTextNode(Base64.encode(data));
}
public static SOAPConstants getSOAPConstants(Element startElement) {
Document doc = startElement.getOwnerDocument();
String ns = doc.getDocumentElement().getNamespaceURI();
if (WSConstants.URI_SOAP12_ENV.equals(ns)) {
return new SOAP12Constants();
}
return new SOAP11Constants();
}
public static String getSOAPNamespace(Element startElement) {
return getSOAPConstants(startElement).getEnvelopeURI();
}
/**
* Convert the raw key bytes into a SecretKey object of type symEncAlgo.
*/
public static SecretKey prepareSecretKey(String symEncAlgo, byte[] rawKey) {
// Do an additional check on the keysize required by the encryption algorithm
int size = 0;
try {
size = JCEMapper.getKeyLengthFromURI(symEncAlgo) / 8;
} catch (Exception e) {
// ignore - some unknown (to JCEMapper) encryption algorithm
if (log.isDebugEnabled()) {
log.debug(e.getMessage());
}
}
String keyAlgorithm = JCEMapper.getJCEKeyAlgorithmFromURI(symEncAlgo);
SecretKeySpec keySpec;
if (size > 0) {
keySpec =
new SecretKeySpec(
rawKey, 0, ((rawKey.length > size) ? size : rawKey.length), keyAlgorithm
);
} else {
keySpec = new SecretKeySpec(rawKey, keyAlgorithm);
}
return (SecretKey)keySpec;
}
/**
* Translate the "cipherAlgo" URI to a JCE ID, and return a javax.crypto.Cipher instance
* of this type.
*/
public static Cipher getCipherInstance(String cipherAlgo)
throws WSSecurityException {
try {
String keyAlgorithm = JCEMapper.translateURItoJCEID(cipherAlgo);
return Cipher.getInstance(keyAlgorithm);
} catch (NoSuchPaddingException ex) {
throw new WSSecurityException(
WSSecurityException.UNSUPPORTED_ALGORITHM, "unsupportedKeyTransp",
new Object[] { "No such padding: " + cipherAlgo }, ex
);
} catch (NoSuchAlgorithmException ex) {
// Check to see if an RSA OAEP MGF-1 with SHA-1 algorithm was requested
// Some JDKs don't support RSA/ECB/OAEPPadding
if (WSConstants.KEYTRANSPORT_RSAOEP.equals(cipherAlgo)) {
try {
return Cipher.getInstance("RSA/ECB/OAEPWithSHA1AndMGF1Padding");
} catch (Exception e) {
throw new WSSecurityException(
WSSecurityException.UNSUPPORTED_ALGORITHM, "unsupportedKeyTransp",
new Object[] { "No such algorithm: " + cipherAlgo }, e
);
}
} else {
throw new WSSecurityException(
WSSecurityException.UNSUPPORTED_ALGORITHM, "unsupportedKeyTransp",
new Object[] { "No such algorithm: " + cipherAlgo }, ex
);
}
}
}
/**
* Fetch the result of a given action from a given result list
*
* @param resultList The result list to fetch an action from
* @param action The action to fetch
* @return The last result fetched from the result list, null if the result
* could not be found
*/
public static WSSecurityEngineResult fetchActionResult(
List resultList,
int action
) {
WSSecurityEngineResult returnResult = null;
for (WSSecurityEngineResult result : resultList) {
//
// Check the result of every action whether it matches the given action
//
int resultAction =
((java.lang.Integer)result.get(WSSecurityEngineResult.TAG_ACTION)).intValue();
if (resultAction == action) {
returnResult = result;
}
}
return returnResult;
}
/**
* Fetch the result of a given action from a given result list.
*
* @param resultList The result list to fetch an action from
* @param action The action to fetch
* @param actionResultList where to store the found results data for the action
* @return The result fetched from the result list, null if the result
* could not be found
*/
public static List fetchAllActionResults(
List resultList,
int action,
List actionResultList
) {
for (WSSecurityEngineResult result : resultList) {
//
// Check the result of every action whether it matches the given action
//
int resultAction =
((java.lang.Integer)result.get(WSSecurityEngineResult.TAG_ACTION)).intValue();
if (resultAction == action) {
actionResultList.add(result);
}
}
return actionResultList;
}
public static int decodeAction(
String action,
List actions
) throws WSSecurityException {
int doAction = 0;
if (action == null) {
return doAction;
}
String single[] = StringUtil.split(action, ' ');
for (int i = 0; i < single.length; i++) {
if (single[i].equals(WSHandlerConstants.NO_SECURITY)) {
doAction = WSConstants.NO_SECURITY;
return doAction;
} else if (single[i].equals(WSHandlerConstants.USERNAME_TOKEN)) {
doAction |= WSConstants.UT;
actions.add(Integer.valueOf(WSConstants.UT));
} else if (single[i].equals(WSHandlerConstants.USERNAME_TOKEN_NO_PASSWORD)) {
doAction |= WSConstants.UT_NOPASSWORD;
actions.add(Integer.valueOf(WSConstants.UT_NOPASSWORD));
} else if (single[i].equals(WSHandlerConstants.SIGNATURE)) {
doAction |= WSConstants.SIGN;
actions.add(Integer.valueOf(WSConstants.SIGN));
} else if (single[i].equals(WSHandlerConstants.ENCRYPT)) {
doAction |= WSConstants.ENCR;
actions.add(Integer.valueOf(WSConstants.ENCR));
} else if (single[i].equals(WSHandlerConstants.SAML_TOKEN_UNSIGNED)) {
doAction |= WSConstants.ST_UNSIGNED;
actions.add(Integer.valueOf(WSConstants.ST_UNSIGNED));
} else if (single[i].equals(WSHandlerConstants.SAML_TOKEN_SIGNED)) {
doAction |= WSConstants.ST_SIGNED;
actions.add(Integer.valueOf(WSConstants.ST_SIGNED));
} else if (single[i].equals(WSHandlerConstants.TIMESTAMP)) {
doAction |= WSConstants.TS;
actions.add(Integer.valueOf(WSConstants.TS));
} else if (single[i].equals(WSHandlerConstants.SIGN_WITH_UT_KEY)) {
doAction |= WSConstants.UT_SIGN;
actions.add(Integer.valueOf(WSConstants.UT_SIGN));
} else if (single[i].equals(WSHandlerConstants.ENABLE_SIGNATURE_CONFIRMATION)) {
doAction |= WSConstants.SC;
actions.add(Integer.valueOf(WSConstants.SC));
} else {
throw new WSSecurityException(
"Unknown action defined: " + single[i]
);
}
}
return doAction;
}
/**
* Decode an action String. This method should only be called on the outbound side.
* @param action The initial String of actions to perform
* @param actions The list of created actions that will be performed
* @param wssConfig This object holds the list of custom actions to be performed.
* @return The or'd integer of all the actions (apart from the custom actions)
* @throws WSSecurityException
*/
public static int decodeAction(
String action,
List actions,
WSSConfig wssConfig
) throws WSSecurityException {
int doAction = 0;
if (action == null) {
return doAction;
}
String single[] = StringUtil.split(action, ' ');
for (int i = 0; i < single.length; i++) {
if (single[i].equals(WSHandlerConstants.NO_SECURITY)) {
doAction = WSConstants.NO_SECURITY;
return doAction;
} else if (single[i].equals(WSHandlerConstants.USERNAME_TOKEN)) {
doAction |= WSConstants.UT;
actions.add(Integer.valueOf(WSConstants.UT));
} else if (single[i].equals(WSHandlerConstants.SIGNATURE)) {
doAction |= WSConstants.SIGN;
actions.add(Integer.valueOf(WSConstants.SIGN));
} else if (single[i].equals(WSHandlerConstants.ENCRYPT)) {
doAction |= WSConstants.ENCR;
actions.add(Integer.valueOf(WSConstants.ENCR));
} else if (single[i].equals(WSHandlerConstants.SAML_TOKEN_UNSIGNED)) {
doAction |= WSConstants.ST_UNSIGNED;
actions.add(Integer.valueOf(WSConstants.ST_UNSIGNED));
} else if (single[i].equals(WSHandlerConstants.SAML_TOKEN_SIGNED)) {
doAction |= WSConstants.ST_SIGNED;
actions.add(Integer.valueOf(WSConstants.ST_SIGNED));
} else if (single[i].equals(WSHandlerConstants.TIMESTAMP)) {
doAction |= WSConstants.TS;
actions.add(Integer.valueOf(WSConstants.TS));
} else if (single[i].equals(WSHandlerConstants.SIGN_WITH_UT_KEY)) {
doAction |= WSConstants.UT_SIGN;
actions.add(Integer.valueOf(WSConstants.UT_SIGN));
} else if (single[i].equals(WSHandlerConstants.ENABLE_SIGNATURE_CONFIRMATION)) {
doAction |= WSConstants.SC;
actions.add(Integer.valueOf(WSConstants.SC));
} else {
try {
int parsedAction = Integer.parseInt(single[i]);
if (wssConfig.getAction(parsedAction) == null) {
throw new WSSecurityException(
"Unknown action defined: " + single[i]
);
}
actions.add(Integer.valueOf(parsedAction));
} catch (NumberFormatException ex) {
throw new WSSecurityException(
"Unknown action defined: " + single[i]
);
}
}
}
return doAction;
}
/**
* Returns the length of the key in # of bytes
*
* @param algorithm
* @return the key length
*/
public static int getKeyLength(String algorithm) throws WSSecurityException {
if (algorithm.equals(WSConstants.TRIPLE_DES)) {
return 24;
} else if (algorithm.equals(WSConstants.AES_128)) {
return 16;
} else if (algorithm.equals(WSConstants.AES_192)) {
return 24;
} else if (algorithm.equals(WSConstants.AES_256)) {
return 32;
} else if (WSConstants.HMAC_SHA1.equals(algorithm)) {
return 20;
} else if (WSConstants.HMAC_SHA256.equals(algorithm)) {
return 32;
} else if (WSConstants.HMAC_SHA384.equals(algorithm)) {
return 48;
} else if (WSConstants.HMAC_SHA512.equals(algorithm)) {
return 64;
} else if (WSConstants.HMAC_MD5.equals(algorithm)) {
return 16;
} else {
throw new WSSecurityException(
WSSecurityException.UNSUPPORTED_ALGORITHM, null, null, null
);
}
}
/**
* Generate a nonce of the given length using the SHA1PRNG algorithm. The SecureRandom
* instance that backs this method is cached for efficiency.
*
* @return a nonce of the given length
* @throws WSSecurityException
*/
public static synchronized byte[] generateNonce(int length) throws WSSecurityException {
try {
if (random == null) {
random = SecureRandom.getInstance("SHA1PRNG");
}
byte[] temp = new byte[length];
random.nextBytes(temp);
return temp;
} catch (Exception ex) {
throw new WSSecurityException(
"Error in generating nonce of length " + length, ex
);
}
}
/**
* Generate a (SHA1) digest of the input bytes. The MessageDigest instance that backs this
* method is cached for efficiency.
* @param inputBytes the bytes to digest
* @return the digest of the input bytes
* @throws WSSecurityException
*/
public static synchronized byte[] generateDigest(byte[] inputBytes) throws WSSecurityException {
try {
if (digest == null) {
digest = MessageDigest.getInstance("SHA-1");
}
return digest.digest(inputBytes);
} catch (Exception e) {
throw new WSSecurityException(
"Error in generating digest", e
);
}
}
/**
* Check that all of the QName[] requiredParts are protected by a specified action in the
* results list.
* @param results The List of WSSecurityEngineResults from processing
* @param action The action that is required (e.g. WSConstants.SIGN)
* @param requiredParts An array of QNames that correspond to the required elements
*/
@SuppressWarnings("unchecked")
public static void checkAllElementsProtected(
List results,
int action,
QName[] requiredParts
) throws WSSecurityException {
if (requiredParts != null) {
for (int i = 0; i < requiredParts.length; i++) {
QName requiredPart = requiredParts[i];
boolean found = false;
for (Iterator iter = results.iterator();
iter.hasNext() && !found;) {
WSSecurityEngineResult result = iter.next();
int resultAction =
((java.lang.Integer)result.get(WSSecurityEngineResult.TAG_ACTION)).intValue();
if (resultAction != action) {
continue;
}
List refList =
(List)result.get(WSSecurityEngineResult.TAG_DATA_REF_URIS);
if (refList != null) {
for (WSDataRef dataRef : refList) {
if (dataRef.getName().equals(requiredPart)) {
found = true;
break;
}
}
}
}
if (!found) {
throw new WSSecurityException(
WSSecurityException.FAILED_CHECK,
"requiredElementNotProtected",
new Object[] {requiredPart}
);
}
}
log.debug("All required elements are protected");
}
}
/**
* Ensure that this covers all required elements (identified by
* their wsu:Id attributes).
*
* @param resultItem the signature to check
* @param requiredIDs the list of wsu:Id values that must be covered
* @throws WSSecurityException if any required element is not included
*/
@SuppressWarnings("unchecked")
public static void checkSignsAllElements(
WSSecurityEngineResult resultItem,
String[] requiredIDs
) throws WSSecurityException {
int resultAction =
((java.lang.Integer)resultItem.get(WSSecurityEngineResult.TAG_ACTION)).intValue();
if (resultAction != WSConstants.SIGN) {
throw new IllegalArgumentException("Not a SIGN result");
}
List signedElemsRefList =
(List)resultItem.get(WSSecurityEngineResult.TAG_DATA_REF_URIS);
if (signedElemsRefList == null) {
throw new WSSecurityException(
"WSSecurityEngineResult does not contain any references to signed elements"
);
}
log.debug("Checking required elements are in the signature...");
for (int i = 0; i < requiredIDs.length; i++) {
boolean found = false;
for (int j = 0; j < signedElemsRefList.size(); j++) {
WSDataRef dataRef = (WSDataRef)signedElemsRefList.get(j);
String wsuId = dataRef.getWsuId();
if (wsuId.charAt(0) == '#') {
wsuId = wsuId.substring(1);
}
if (wsuId.equals(requiredIDs[i])) {
found = true;
}
}
if (!found) {
throw new WSSecurityException(
WSSecurityException.FAILED_CHECK,
"requiredElementNotSigned",
new Object[] {requiredIDs[i]}
);
}
log.debug("Element with ID " + requiredIDs[i] + " was correctly signed");
}
log.debug("All required elements are signed");
}
/**
* @return a list of child Nodes
*/
public static List
listChildren(
final Node parent
) {
final List ret = new ArrayList();
if (parent != null) {
Node node = parent.getFirstChild();
while (node != null) {
ret.add(node);
node = node.getNextSibling();
}
}
return ret;
}
/**
* @return a list of Nodes in b that are not in a
*/
public static List
newNodes(
final List a,
final List b
) {
if (a.size() == 0) {
return b;
}
final List ret = new ArrayList();
if (b.size() == 0) {
return ret;
}
for (
final Iterator bpos = b.iterator();
bpos.hasNext();
) {
final Node bnode = bpos.next();
final String bns = bnode.getNamespaceURI();
final String bln = bnode.getLocalName();
boolean found = false;
for (
final Iterator apos = a.iterator();
apos.hasNext() && !found;
) {
final Node anode = apos.next();
final String ans = anode.getNamespaceURI();
final String aln = anode.getLocalName();
final boolean nsmatch =
ans == null
? ((bns == null) ? true : false)
: ((bns == null) ? false : ans.equals(bns));
final boolean lnmatch =
aln == null
? ((bln == null) ? true : false)
: ((bln == null) ? false : aln.equals(bln));
if (nsmatch && lnmatch) {
found = true;
}
}
if (!found) {
ret.add(bnode);
}
}
return ret;
}
/**
* Store the element argument in the DOM Crypto Context if it has one of the standard
* "Id" attributes that matches the given uri
*/
public static void storeElementInContext(
DOMCryptoContext context,
String uri,
Element element
) {
String id = uri;
if (uri.charAt(0) == '#') {
id = id.substring(1);
}
if (element.hasAttributeNS(WSConstants.WSU_NS, "Id")
&& id.equals(element.getAttributeNS(WSConstants.WSU_NS, "Id"))) {
context.setIdAttributeNS(element, WSConstants.WSU_NS, "Id");
}
if (element.hasAttributeNS(null, "Id")
&& id.equals(element.getAttributeNS(null, "Id"))) {
context.setIdAttributeNS(element, null, "Id");
}
if (element.hasAttributeNS(null, "ID")
&& id.equals(element.getAttributeNS(null, "ID"))) {
context.setIdAttributeNS(element, null, "ID");
}
if (element.hasAttributeNS(null, "AssertionID")
&& id.equals(element.getAttributeNS(null, "AssertionID"))) {
context.setIdAttributeNS(element, null, "AssertionID");
}
}
/**
* Store the element argument in the DOM Crypto Context if it has one of the standard
* "Id" attributes.
*/
public static void storeElementInContext(
DOMCryptoContext context,
Element element
) {
if (element.hasAttributeNS(WSConstants.WSU_NS, "Id")) {
context.setIdAttributeNS(element, WSConstants.WSU_NS, "Id");
}
if (element.hasAttributeNS(null, "Id")) {
context.setIdAttributeNS(element, null, "Id");
}
if (element.hasAttributeNS(null, "ID")) {
context.setIdAttributeNS(element, null, "ID");
}
if (element.hasAttributeNS(null, "AssertionID")) {
context.setIdAttributeNS(element, null, "AssertionID");
}
}
public static void verifySignedElement(Element elem, Document doc, Element securityHeader)
throws WSSecurityException {
final Element envelope = doc.getDocumentElement();
final Set signatureRefIDs = getSignatureReferenceIDs(securityHeader);
if (!signatureRefIDs.isEmpty()) {
Node cur = elem;
while (!cur.isSameNode(envelope)) {
if (cur.getNodeType() == Node.ELEMENT_NODE) {
if (WSConstants.SIG_LN.equals(cur.getLocalName())
&& WSConstants.SIG_NS.equals(cur.getNamespaceURI())) {
throw new WSSecurityException(WSSecurityException.FAILED_CHECK,
"requiredElementNotSigned", new Object[] {elem});
} else if (isLinkedBySignatureRefs((Element)cur, signatureRefIDs)) {
return;
}
}
cur = cur.getParentNode();
}
}
throw new WSSecurityException(
WSSecurityException.FAILED_CHECK, "requiredElementNotSigned", new Object[] {elem});
}
private static boolean isLinkedBySignatureRefs(Element elem, Set allIDs) {
// Try the wsu:Id first
String attributeNS = elem.getAttributeNS(WSConstants.WSU_NS, "Id");
if (!"".equals(attributeNS) && allIDs.contains(attributeNS)) {
return true;
}
attributeNS = elem.getAttributeNS(null, "Id");
return (!"".equals(attributeNS) && allIDs.contains(attributeNS));
}
private static Set getSignatureReferenceIDs(Element wsseHeader) throws WSSecurityException {
final Set refs = new HashSet();
final List signatures = WSSecurityUtil.getDirectChildElements(wsseHeader, WSConstants.SIG_LN, WSConstants.SIG_NS);
for (Element signature : signatures) {
Element sigInfo = WSSecurityUtil.getDirectChildElement(signature, WSConstants.SIG_INFO_LN, WSConstants.SIG_NS);
List references = WSSecurityUtil.getDirectChildElements(sigInfo, WSConstants.REF_LN, WSConstants.SIG_NS);
for (Element reference : references) {
String uri = reference.getAttributeNS(null, "URI");
if (!"".equals(uri)) {
boolean added = refs.add(WSSecurityUtil.getIDFromReference(uri));
if (!added) {
log.warn("Duplicated reference uri: " + uri);
}
}
}
}
return refs;
}
}
