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Apache XML Security for Java supports XML-Signature Syntax and Processing,
W3C Recommendation 12 February 2002, and XML Encryption Syntax and
Processing, W3C Recommendation 10 December 2002. As of version 1.4,
the library supports the standard Java API JSR-105: XML Digital Signature APIs.
/**
* 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.xml.security.c14n.implementations;
import java.io.IOException;
import java.util.Iterator;
import java.util.Set;
import java.util.SortedSet;
import java.util.TreeSet;
import javax.xml.parsers.ParserConfigurationException;
import org.apache.xml.security.c14n.CanonicalizationException;
import org.apache.xml.security.c14n.helper.C14nHelper;
import org.apache.xml.security.signature.XMLSignatureInput;
import org.apache.xml.security.transforms.params.InclusiveNamespaces;
import org.apache.xml.security.utils.Constants;
import org.apache.xml.security.utils.XMLUtils;
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.xml.sax.SAXException;
/**
* Implements " Exclusive XML
* Canonicalization, Version 1.0 "
* Credits: During restructuring of the Canonicalizer framework, Ren??
* Kollmorgen from Software AG submitted an implementation of ExclC14n which
* fitted into the old architecture and which based heavily on my old (and slow)
* implementation of "Canonical XML". A big "thank you" to Ren?? for this.
*
* THIS implementation is a complete rewrite of the algorithm.
*
* @author Christian Geuer-Pollmann
* @version $Revision: 1720201 $
* @see
* XML Canonicalization, Version 1.0
*/
public abstract class Canonicalizer20010315Excl extends CanonicalizerBase {
private static final String XML_LANG_URI = Constants.XML_LANG_SPACE_SpecNS;
private static final String XMLNS_URI = Constants.NamespaceSpecNS;
/**
* This Set contains the names (Strings like "xmlns" or "xmlns:foo") of
* the inclusive namespaces.
*/
private SortedSet inclusiveNSSet;
private boolean propagateDefaultNamespace = false;
private final SortedSet result = new TreeSet(COMPARE);
/**
* Constructor Canonicalizer20010315Excl
*
* @param includeComments
*/
public Canonicalizer20010315Excl(boolean includeComments) {
super(includeComments);
}
/**
* Method engineCanonicalizeSubTree
* @inheritDoc
* @param rootNode
*
* @throws CanonicalizationException
*/
public byte[] engineCanonicalizeSubTree(Node rootNode)
throws CanonicalizationException {
return engineCanonicalizeSubTree(rootNode, "", null);
}
/**
* Method engineCanonicalizeSubTree
* @inheritDoc
* @param rootNode
* @param inclusiveNamespaces
*
* @throws CanonicalizationException
*/
public byte[] engineCanonicalizeSubTree(
Node rootNode, String inclusiveNamespaces
) throws CanonicalizationException {
return engineCanonicalizeSubTree(rootNode, inclusiveNamespaces, null);
}
/**
* Method engineCanonicalizeSubTree
* @inheritDoc
* @param rootNode
* @param inclusiveNamespaces
* @param propagateDefaultNamespace If true the default namespace will be propagated to the c14n-ized root element
*
* @throws CanonicalizationException
*/
public byte[] engineCanonicalizeSubTree(
Node rootNode, String inclusiveNamespaces, boolean propagateDefaultNamespace
) throws CanonicalizationException {
this.propagateDefaultNamespace = propagateDefaultNamespace;
return engineCanonicalizeSubTree(rootNode, inclusiveNamespaces, null);
}
/**
* Method engineCanonicalizeSubTree
* @param rootNode
* @param inclusiveNamespaces
* @param excl A element to exclude from the c14n process.
* @return the rootNode c14n.
* @throws CanonicalizationException
*/
public byte[] engineCanonicalizeSubTree(
Node rootNode, String inclusiveNamespaces, Node excl
) throws CanonicalizationException{
inclusiveNSSet = InclusiveNamespaces.prefixStr2Set(inclusiveNamespaces);
return super.engineCanonicalizeSubTree(rootNode, excl);
}
/**
*
* @param rootNode
* @param inclusiveNamespaces
* @return the rootNode c14n.
* @throws CanonicalizationException
*/
public byte[] engineCanonicalize(
XMLSignatureInput rootNode, String inclusiveNamespaces
) throws CanonicalizationException {
inclusiveNSSet = InclusiveNamespaces.prefixStr2Set(inclusiveNamespaces);
return super.engineCanonicalize(rootNode);
}
/**
* Method engineCanonicalizeXPathNodeSet
* @inheritDoc
* @param xpathNodeSet
* @param inclusiveNamespaces
* @throws CanonicalizationException
*/
public byte[] engineCanonicalizeXPathNodeSet(
Set xpathNodeSet, String inclusiveNamespaces
) throws CanonicalizationException {
inclusiveNSSet = InclusiveNamespaces.prefixStr2Set(inclusiveNamespaces);
return super.engineCanonicalizeXPathNodeSet(xpathNodeSet);
}
@Override
protected Iterator handleAttributesSubtree(Element element, NameSpaceSymbTable ns)
throws CanonicalizationException {
// result will contain the attrs which have to be output
final SortedSet result = this.result;
result.clear();
// The prefix visibly utilized (in the attribute or in the name) in
// the element
SortedSet visiblyUtilized = new TreeSet();
if (inclusiveNSSet != null && !inclusiveNSSet.isEmpty()) {
visiblyUtilized.addAll(inclusiveNSSet);
}
if (element.hasAttributes()) {
NamedNodeMap attrs = element.getAttributes();
int attrsLength = attrs.getLength();
for (int i = 0; i < attrsLength; i++) {
Attr attribute = (Attr) attrs.item(i);
String NName = attribute.getLocalName();
String NNodeValue = attribute.getNodeValue();
if (!XMLNS_URI.equals(attribute.getNamespaceURI())) {
// Not a namespace definition.
// The Element is output element, add the prefix (if used) to
// visiblyUtilized
String prefix = attribute.getPrefix();
if (prefix != null && !(prefix.equals(XML) || prefix.equals(XMLNS))) {
visiblyUtilized.add(prefix);
}
// Add to the result.
result.add(attribute);
} else if (!(XML.equals(NName) && XML_LANG_URI.equals(NNodeValue))
&& ns.addMapping(NName, NNodeValue, attribute)
&& C14nHelper.namespaceIsRelative(NNodeValue)) {
// The default mapping for xml must not be output.
// New definition check if it is relative.
Object exArgs[] = {element.getTagName(), NName, attribute.getNodeValue()};
throw new CanonicalizationException(
"c14n.Canonicalizer.RelativeNamespace", exArgs
);
}
}
}
if (propagateDefaultNamespace && ns.getLevel() == 1 &&
inclusiveNSSet.contains(XMLNS) &&
ns.getMappingWithoutRendered(XMLNS) == null) {
ns.removeMapping(XMLNS);
ns.addMapping(
XMLNS, "", getNullNode(element.getOwnerDocument()));
}
String prefix = null;
if (element.getNamespaceURI() != null
&& !(element.getPrefix() == null || element.getPrefix().length() == 0)) {
prefix = element.getPrefix();
} else {
prefix = XMLNS;
}
visiblyUtilized.add(prefix);
for (String s : visiblyUtilized) {
Attr key = ns.getMapping(s);
if (key != null) {
result.add(key);
}
}
return result.iterator();
}
/**
* @inheritDoc
* @param element
* @throws CanonicalizationException
*/
@Override
protected final Iterator handleAttributes(Element element, NameSpaceSymbTable ns)
throws CanonicalizationException {
// result will contain the attrs which have to be output
final SortedSet result = this.result;
result.clear();
// The prefix visibly utilized (in the attribute or in the name) in
// the element
Set visiblyUtilized = null;
// It's the output selected.
boolean isOutputElement = isVisibleDO(element, ns.getLevel()) == 1;
if (isOutputElement) {
visiblyUtilized = new TreeSet();
if (inclusiveNSSet != null && !inclusiveNSSet.isEmpty()) {
visiblyUtilized.addAll(inclusiveNSSet);
}
}
if (element.hasAttributes()) {
NamedNodeMap attrs = element.getAttributes();
int attrsLength = attrs.getLength();
for (int i = 0; i < attrsLength; i++) {
Attr attribute = (Attr) attrs.item(i);
String NName = attribute.getLocalName();
String NNodeValue = attribute.getNodeValue();
if (!XMLNS_URI.equals(attribute.getNamespaceURI())) {
if (isVisible(attribute) && isOutputElement) {
// The Element is output element, add the prefix (if used)
// to visibyUtilized
String prefix = attribute.getPrefix();
if (prefix != null && !(prefix.equals(XML) || prefix.equals(XMLNS))) {
visiblyUtilized.add(prefix);
}
// Add to the result.
result.add(attribute);
}
} else if (isOutputElement && !isVisible(attribute) && !XMLNS.equals(NName)) {
ns.removeMappingIfNotRender(NName);
} else {
if (!isOutputElement && isVisible(attribute)
&& inclusiveNSSet.contains(NName)
&& !ns.removeMappingIfRender(NName)) {
Node n = ns.addMappingAndRender(NName, NNodeValue, attribute);
if (n != null) {
result.add((Attr)n);
if (C14nHelper.namespaceIsRelative(attribute)) {
Object exArgs[] = { element.getTagName(), NName, attribute.getNodeValue() };
throw new CanonicalizationException(
"c14n.Canonicalizer.RelativeNamespace", exArgs
);
}
}
}
if (ns.addMapping(NName, NNodeValue, attribute)
&& C14nHelper.namespaceIsRelative(NNodeValue)) {
// New definition check if it is relative
Object exArgs[] = { element.getTagName(), NName, attribute.getNodeValue() };
throw new CanonicalizationException(
"c14n.Canonicalizer.RelativeNamespace", exArgs
);
}
}
}
}
if (isOutputElement) {
// The element is visible, handle the xmlns definition
Attr xmlns = element.getAttributeNodeNS(XMLNS_URI, XMLNS);
if (xmlns != null && !isVisible(xmlns)) {
// There is a definition but the xmlns is not selected by the
// xpath. then xmlns=""
ns.addMapping(XMLNS, "", getNullNode(xmlns.getOwnerDocument()));
}
String prefix = null;
if (element.getNamespaceURI() != null
&& !(element.getPrefix() == null || element.getPrefix().length() == 0)) {
prefix = element.getPrefix();
} else {
prefix = XMLNS;
}
visiblyUtilized.add(prefix);
for (String s : visiblyUtilized) {
Attr key = ns.getMapping(s);
if (key != null) {
result.add(key);
}
}
}
return result.iterator();
}
protected void circumventBugIfNeeded(XMLSignatureInput input)
throws CanonicalizationException, ParserConfigurationException,
IOException, SAXException {
if (!input.isNeedsToBeExpanded() || inclusiveNSSet.isEmpty() || inclusiveNSSet.isEmpty()) {
return;
}
Document doc = null;
if (input.getSubNode() != null) {
doc = XMLUtils.getOwnerDocument(input.getSubNode());
} else {
doc = XMLUtils.getOwnerDocument(input.getNodeSet());
}
XMLUtils.circumventBug2650(doc);
}
}