/*
* reserved comment block
* DO NOT REMOVE OR ALTER!
*/
/*
* Copyright 1999-2004 The Apache Software Foundation.
*
* Licensed 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.
*
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package com.sun.org.apache.xml.internal.security.signature;
import java.io.IOException;
import java.io.OutputStream;
import java.util.HashSet;
import java.util.Set;
import com.sun.org.apache.xml.internal.security.algorithms.MessageDigestAlgorithm;
import com.sun.org.apache.xml.internal.security.c14n.CanonicalizationException;
import com.sun.org.apache.xml.internal.security.c14n.InvalidCanonicalizerException;
import com.sun.org.apache.xml.internal.security.exceptions.Base64DecodingException;
import com.sun.org.apache.xml.internal.security.exceptions.XMLSecurityException;
import com.sun.org.apache.xml.internal.security.transforms.InvalidTransformException;
import com.sun.org.apache.xml.internal.security.transforms.Transform;
import com.sun.org.apache.xml.internal.security.transforms.TransformationException;
import com.sun.org.apache.xml.internal.security.transforms.Transforms;
import com.sun.org.apache.xml.internal.security.transforms.params.InclusiveNamespaces;
import com.sun.org.apache.xml.internal.security.utils.Base64;
import com.sun.org.apache.xml.internal.security.utils.Constants;
import com.sun.org.apache.xml.internal.security.utils.DigesterOutputStream;
import com.sun.org.apache.xml.internal.security.utils.IdResolver;
import com.sun.org.apache.xml.internal.security.utils.SignatureElementProxy;
import com.sun.org.apache.xml.internal.security.utils.UnsyncBufferedOutputStream;
import com.sun.org.apache.xml.internal.security.utils.XMLUtils;
import com.sun.org.apache.xml.internal.security.utils.resolver.ResourceResolver;
import com.sun.org.apache.xml.internal.security.utils.resolver.ResourceResolverException;
import org.w3c.dom.Attr;
import org.w3c.dom.Document;
import org.w3c.dom.Element;
import org.w3c.dom.Node;
import org.w3c.dom.Text;
/**
* Handles <code><ds:Reference></code> elements.
*
* This includes:
*
* Constuct a <CODE>ds:Reference</CODE> from an {@link org.w3c.dom.Element}.
*
* <p>Create a new reference</p>
* <pre>
* Document _doc;
* MessageDigestAlgorithm sha1 = MessageDigestAlgorithm.getInstance("http://#sha1");
* Reference ref = new Reference(new XMLSignatureInput(new FileInputStream("1.gif"),
* "http://localhost/1.gif",
* (Transforms) null, sha1);
* Element refElem = ref.toElement(_doc);
* </pre>
*
* <p>Verify a reference</p>
* <pre>
* Element refElem = _doc.getElement("Reference"); // PSEUDO
* Reference ref = new Reference(refElem);
* String url = ref.getURI();
* ref.setData(new XMLSignatureInput(new FileInputStream(url)));
* if (ref.verify()) {
* System.out.println("verified");
* }
* </pre>
*
* <pre>
* <element name="Reference" type="ds:ReferenceType"/>
* <complexType name="ReferenceType">
* <sequence>
* <element ref="ds:Transforms" minOccurs="0"/>
* <element ref="ds:DigestMethod"/>
* <element ref="ds:DigestValue"/>
* </sequence>
* <attribute name="Id" type="ID" use="optional"/>
* <attribute name="URI" type="anyURI" use="optional"/>
* <attribute name="Type" type="anyURI" use="optional"/>
* </complexType>
* </pre>
*
* @author Christian Geuer-Pollmann
* @see ObjectContainer
* @see Manifest
*/
public class Reference extends SignatureElementProxy {
/** {@link java.util.logging} logging facility */
static java.util.logging.Logger log =
java.util.logging.Logger.getLogger(Reference.class.getName());
/** Field OBJECT_URI */
public static final String OBJECT_URI = Constants.SignatureSpecNS
+ Constants._TAG_OBJECT;
/** Field MANIFEST_URI */
public static final String MANIFEST_URI = Constants.SignatureSpecNS
+ Constants._TAG_MANIFEST;
//J-
Manifest _manifest = null;
XMLSignatureInput _transformsOutput;
//J+
/**
* Constructor Reference
*
* @param doc the {@link Document} in which <code>XMLsignature</code> is placed
* @param BaseURI the URI of the resource where the XML instance will be stored
* @param ReferenceURI URI indicate where is data which will digested
* @param manifest
* @param transforms {@link Transforms} applied to data
* @param messageDigestAlgorithm {@link MessageDigestAlgorithm Digest algorithm} which is applied to the data
* TODO should we throw XMLSignatureException if MessageDigestAlgoURI is wrong?
* @throws XMLSignatureException
*/
protected Reference(Document doc, String BaseURI, String ReferenceURI, Manifest manifest, Transforms transforms, String messageDigestAlgorithm)
throws XMLSignatureException {
super(doc);
XMLUtils.addReturnToElement(this._constructionElement);
this._baseURI = BaseURI;
this._manifest = manifest;
this.setURI(ReferenceURI);
// important: The ds:Reference must be added to the associated ds:Manifest
// or ds:SignedInfo _before_ the this.resolverResult() is called.
// this._manifest.appendChild(this._constructionElement);
// this._manifest.appendChild(this._doc.createTextNode("\n"));
if (transforms != null) {
this._constructionElement.appendChild(transforms.getElement());
XMLUtils.addReturnToElement(this._constructionElement);
}
{
MessageDigestAlgorithm mda =
MessageDigestAlgorithm.getInstance(this._doc,
messageDigestAlgorithm);
this._constructionElement.appendChild(mda.getElement());
XMLUtils.addReturnToElement(this._constructionElement);
}
{
Element digestValueElement =
XMLUtils.createElementInSignatureSpace(this._doc,
Constants._TAG_DIGESTVALUE);
this._constructionElement.appendChild(digestValueElement);
XMLUtils.addReturnToElement(this._constructionElement);
}
}
/**
* Build a {@link Reference} from an {@link Element}
*
* @param element <code>Reference</code> element
* @param BaseURI the URI of the resource where the XML instance was stored
* @param manifest is the {@link Manifest} of {@link SignedInfo} in which the Reference occurs. We need this because the Manifest has the individual {@link ResourceResolver}s whcih have been set by the user
* @throws XMLSecurityException
*/
protected Reference(Element element, String BaseURI, Manifest manifest)
throws XMLSecurityException {
super(element, BaseURI);
this._manifest = manifest;
}
/**
* Returns {@link MessageDigestAlgorithm}
*
*
* @return {@link MessageDigestAlgorithm}
*
* @throws XMLSignatureException
*/
public MessageDigestAlgorithm getMessageDigestAlgorithm()
throws XMLSignatureException {
Element digestMethodElem = XMLUtils.selectDsNode(this._constructionElement.getFirstChild(),
Constants._TAG_DIGESTMETHOD,0);
if (digestMethodElem == null) {
return null;
}
String uri = digestMethodElem.getAttributeNS(null,
Constants._ATT_ALGORITHM);
if (uri == null) {
return null;
}
return MessageDigestAlgorithm.getInstance(this._doc, uri);
}
/**
* Sets the <code>URI</code> of this <code>Reference</code> element
*
* @param URI the <code>URI</code> of this <code>Reference</code> element
*/
public void setURI(String URI) {
if ((this._state == MODE_SIGN) && (URI != null)) {
this._constructionElement.setAttributeNS(null, Constants._ATT_URI,
URI);
}
}
/**
* Returns the <code>URI</code> of this <code>Reference</code> element
*
* @return URI the <code>URI</code> of this <code>Reference</code> element
*/
public String getURI() {
return this._constructionElement.getAttributeNS(null, Constants._ATT_URI);
}
/**
* Sets the <code>Id</code> attribute of this <code>Reference</code> element
*
* @param Id the <code>Id</code> attribute of this <code>Reference</code> element
*/
public void setId(String Id) {
if ((this._state == MODE_SIGN) && (Id != null)) {
this._constructionElement.setAttributeNS(null, Constants._ATT_ID, Id);
IdResolver.registerElementById(this._constructionElement, Id);
}
}
/**
* Returns the <code>Id</code> attribute of this <code>Reference</code> element
*
* @return Id the <code>Id</code> attribute of this <code>Reference</code> element
*/
public String getId() {
return this._constructionElement.getAttributeNS(null, Constants._ATT_ID);
}
/**
* Sets the <code>type</code> atttibute of the Reference indicate whether an <code>ds:Object</code>, <code>ds:SignatureProperty</code>, or <code>ds:Manifest</code> element
*
* @param Type the <code>type</code> attribute of the Reference
*/
public void setType(String Type) {
if ((this._state == MODE_SIGN) && (Type != null)) {
this._constructionElement.setAttributeNS(null, Constants._ATT_TYPE,
Type);
}
}
/**
* Return the <code>type</code> atttibute of the Reference indicate whether an <code>ds:Object</code>, <code>ds:SignatureProperty</code>, or <code>ds:Manifest</code> element
*
* @return the <code>type</code> attribute of the Reference
*/
public String getType() {
return this._constructionElement.getAttributeNS(null,
Constants._ATT_TYPE);
}
/**
* Method isReferenceToObject
*
* This returns true if the <CODE>Type</CODE> attribute of the
* <CODE>Refernce</CODE> element points to a <CODE>#Object</CODE> element
*
* @return true if the Reference type indicates that this Reference points to an <code>Object</code>
*/
public boolean typeIsReferenceToObject() {
if ((this.getType() != null)
&& this.getType().equals(Reference.OBJECT_URI)) {
return true;
}
return false;
}
/**
* Method isReferenceToManifest
*
* This returns true if the <CODE>Type</CODE> attribute of the
* <CODE>Refernce</CODE> element points to a <CODE>#Manifest</CODE> element
*
* @return true if the Reference type indicates that this Reference points to a {@link Manifest}
*/
public boolean typeIsReferenceToManifest() {
if ((this.getType() != null)
&& this.getType().equals(Reference.MANIFEST_URI)) {
return true;
}
return false;
}
/**
* Method setDigestValueElement
*
* @param digestValue
*/
private void setDigestValueElement(byte[] digestValue)
{
if (this._state == MODE_SIGN) {
Element digestValueElement =XMLUtils.selectDsNode(this._constructionElement.getFirstChild(),
Constants._TAG_DIGESTVALUE,0);
Node n=digestValueElement.getFirstChild();
while (n!=null) {
digestValueElement.removeChild(n);
n = n.getNextSibling();
}
String base64codedValue = Base64.encode(digestValue);
Text t = this._doc.createTextNode(base64codedValue);
digestValueElement.appendChild(t);
}
}
/**
* Method generateDigestValue
*
* @throws ReferenceNotInitializedException
* @throws XMLSignatureException
*/
public void generateDigestValue()
throws XMLSignatureException, ReferenceNotInitializedException {
if (this._state == MODE_SIGN) {
this.setDigestValueElement(this.calculateDigest());
}
}
/**
* Returns the XMLSignatureInput which is created by de-referencing the URI attribute.
* @return the XMLSignatureInput of the source of this reference
* @throws ReferenceNotInitializedException If the resolver found any
* problem resolving the reference
*/
public XMLSignatureInput getContentsBeforeTransformation()
throws ReferenceNotInitializedException {
try {
Attr URIAttr = this._constructionElement.getAttributeNodeNS(null,
Constants._ATT_URI);
String URI;
if (URIAttr == null) {
URI = null;
} else {
URI = URIAttr.getNodeValue();
}
ResourceResolver resolver = ResourceResolver.getInstance(URIAttr,
this._baseURI, this._manifest._perManifestResolvers);
if (resolver == null) {
Object exArgs[] = { URI };
throw new ReferenceNotInitializedException(
"signature.Verification.Reference.NoInput", exArgs);
}
resolver.addProperties(this._manifest._resolverProperties);
XMLSignatureInput input = resolver.resolve(URIAttr, this._baseURI);
return input;
} catch (ResourceResolverException ex) {
throw new ReferenceNotInitializedException("empty", ex);
} catch (XMLSecurityException ex) {
throw new ReferenceNotInitializedException("empty", ex);
}
}
/**
* Returns the data which is referenced by the URI attribute. This method
* only works works after a call to verify.
* @return a XMLSignature with a byte array.
* @throws ReferenceNotInitializedException
*
* @deprecated use getContentsBeforeTransformation
*/
public XMLSignatureInput getTransformsInput() throws ReferenceNotInitializedException
{
XMLSignatureInput input=getContentsBeforeTransformation();
XMLSignatureInput result;
try {
result = new XMLSignatureInput(input.getBytes());
} catch (CanonicalizationException ex) {
throw new ReferenceNotInitializedException("empty", ex);
} catch (IOException ex) {
throw new ReferenceNotInitializedException("empty", ex);
}
result.setSourceURI(input.getSourceURI());
return result;
}
private XMLSignatureInput getContentsAfterTransformation(XMLSignatureInput input, OutputStream os)
throws XMLSignatureException {
try {
Transforms transforms = this.getTransforms();
XMLSignatureInput output = null;
if (transforms != null) {
output = transforms.performTransforms(input,os);
this._transformsOutput = output;//new XMLSignatureInput(output.getBytes());
//this._transformsOutput.setSourceURI(output.getSourceURI());
} else {
output = input;
}
return output;
} catch (ResourceResolverException ex) {
throw new XMLSignatureException("empty", ex);
} catch (CanonicalizationException ex) {
throw new XMLSignatureException("empty", ex);
} catch (InvalidCanonicalizerException ex) {
throw new XMLSignatureException("empty", ex);
} catch (TransformationException ex) {
throw new XMLSignatureException("empty", ex);
} catch (XMLSecurityException ex) {
throw new XMLSignatureException("empty", ex);
}
}
/**
* Returns the XMLSignatureInput which is the result of the Transforms.
* @return a XMLSignatureInput with all transformations applied.
* @throws XMLSignatureException
*/
public XMLSignatureInput getContentsAfterTransformation()
throws XMLSignatureException {
XMLSignatureInput input = this.getContentsBeforeTransformation();
return this.getContentsAfterTransformation(input, null);
}
/**
* This method returns the XMLSignatureInput which represents the node set before
* some kind of canonicalization is applied for the first time.
* @return Gets a the node doing everything till the first c14n is needed
*
* @throws XMLSignatureException
*/
public XMLSignatureInput getNodesetBeforeFirstCanonicalization()
throws XMLSignatureException {
try {
XMLSignatureInput input = this.getContentsBeforeTransformation();
XMLSignatureInput output = input;
Transforms transforms = this.getTransforms();
if (transforms != null) {
doTransforms: for (int i = 0; i < transforms.getLength(); i++) {
Transform t = transforms.item(i);
String URI = t.getURI();
if (URI.equals(Transforms
.TRANSFORM_C14N_EXCL_OMIT_COMMENTS) || URI
.equals(Transforms
.TRANSFORM_C14N_EXCL_WITH_COMMENTS) || URI
.equals(Transforms
.TRANSFORM_C14N_OMIT_COMMENTS) || URI
.equals(Transforms
.TRANSFORM_C14N_WITH_COMMENTS)) {
break doTransforms;
}
output = t.performTransform(output, null);
}
output.setSourceURI(input.getSourceURI());
}
return output;
} catch (IOException ex) {
throw new XMLSignatureException("empty", ex);
} catch (ResourceResolverException ex) {
throw new XMLSignatureException("empty", ex);
} catch (CanonicalizationException ex) {
throw new XMLSignatureException("empty", ex);
} catch (InvalidCanonicalizerException ex) {
throw new XMLSignatureException("empty", ex);
} catch (TransformationException ex) {
throw new XMLSignatureException("empty", ex);
} catch (XMLSecurityException ex) {
throw new XMLSignatureException("empty", ex);
}
}
/**
* Method getHTMLRepresentation
* @return The HTML of the transformation
* @throws XMLSignatureException
*/
public String getHTMLRepresentation() throws XMLSignatureException {
try {
XMLSignatureInput nodes = this.getNodesetBeforeFirstCanonicalization();
Set inclusiveNamespaces = new HashSet();
{
Transforms transforms = this.getTransforms();
Transform c14nTransform = null;
if (transforms != null) {
doTransforms: for (int i = 0; i < transforms.getLength(); i++) {
Transform t = transforms.item(i);
String URI = t.getURI();
if (URI.equals(Transforms.TRANSFORM_C14N_EXCL_OMIT_COMMENTS)
|| URI.equals(
Transforms.TRANSFORM_C14N_EXCL_WITH_COMMENTS)) {
c14nTransform = t;
break doTransforms;
}
}
}
if (c14nTransform != null) {
if (c14nTransform
.length(InclusiveNamespaces
.ExclusiveCanonicalizationNamespace, InclusiveNamespaces
._TAG_EC_INCLUSIVENAMESPACES) == 1) {
// there is one InclusiveNamespaces element
InclusiveNamespaces in = new InclusiveNamespaces(
XMLUtils.selectNode(
c14nTransform.getElement().getFirstChild(),
InclusiveNamespaces.ExclusiveCanonicalizationNamespace,
InclusiveNamespaces._TAG_EC_INCLUSIVENAMESPACES,0), this.getBaseURI());
inclusiveNamespaces = InclusiveNamespaces.prefixStr2Set(
in.getInclusiveNamespaces());
}
}
}
return nodes.getHTMLRepresentation(inclusiveNamespaces);
} catch (TransformationException ex) {
throw new XMLSignatureException("empty", ex);
} catch (InvalidTransformException ex) {
throw new XMLSignatureException("empty", ex);
} catch (XMLSecurityException ex) {
throw new XMLSignatureException("empty", ex);
}
}
/**
* This method only works works after a call to verify.
* @return the transformed output(i.e. what is going to be digested).
*/
public XMLSignatureInput getTransformsOutput() {
return this._transformsOutput;
}
/**
* This method returns the {@link XMLSignatureInput} which is referenced by the
* <CODE>URI</CODE> Attribute.
* @param os where to write the transformation can be null.
* @return the element to digest
*
* @throws XMLSignatureException
* @see Manifest#verifyReferences()
*/
protected XMLSignatureInput dereferenceURIandPerformTransforms(OutputStream os)
throws XMLSignatureException {
try {
XMLSignatureInput input = this.getContentsBeforeTransformation();
XMLSignatureInput output = this.getContentsAfterTransformation(input, os);
/* at this stage, this._transformsInput and this._transformsOutput
* contain a huge amount of nodes. When we do not cache these nodes
* but only preserve the octets, the memory footprint is dramatically
* reduced.
*/
this._transformsOutput = output;
return output;
} catch (XMLSecurityException ex) {
throw new ReferenceNotInitializedException("empty", ex);
}
}
/**
* Method getTransforms
*
* @return The transforms that applied this reference.
* @throws InvalidTransformException
* @throws TransformationException
* @throws XMLSecurityException
* @throws XMLSignatureException
*/
public Transforms getTransforms()
throws XMLSignatureException, InvalidTransformException,
TransformationException, XMLSecurityException {
Element transformsElement = XMLUtils.selectDsNode(this._constructionElement.getFirstChild(),
Constants._TAG_TRANSFORMS,0);
if (transformsElement != null) {
Transforms transforms = new Transforms(transformsElement,
this._baseURI);
return transforms;
}
return null;
}
/**
* Method getReferencedBytes
*
* @return the bytes that will be used to generated digest.
* @throws ReferenceNotInitializedException
* @throws XMLSignatureException
*/
public byte[] getReferencedBytes()
throws ReferenceNotInitializedException, XMLSignatureException {
try {
XMLSignatureInput output=this.dereferenceURIandPerformTransforms(null);
byte[] signedBytes = output.getBytes();
return signedBytes;
} catch (IOException ex) {
throw new ReferenceNotInitializedException("empty", ex);
} catch (CanonicalizationException ex) {
throw new ReferenceNotInitializedException("empty", ex);
}
}
/**
* Method resolverResult
*
* @return reference Calculate the digest of this reference.
* @throws ReferenceNotInitializedException
* @throws XMLSignatureException
*/
private byte[] calculateDigest()
throws ReferenceNotInitializedException, XMLSignatureException {
try {
MessageDigestAlgorithm mda = this.getMessageDigestAlgorithm();
mda.reset();
DigesterOutputStream diOs=new DigesterOutputStream(mda);
OutputStream os=new UnsyncBufferedOutputStream(diOs);
XMLSignatureInput output=this.dereferenceURIandPerformTransforms(os);
output.updateOutputStream(os);
os.flush();
//this.getReferencedBytes(diOs);
//mda.update(data);
return diOs.getDigestValue();
} catch (XMLSecurityException ex) {
throw new ReferenceNotInitializedException("empty", ex);
} catch (IOException ex) {
throw new ReferenceNotInitializedException("empty", ex);
}
}
/**
* Returns the digest value.
*
* @return the digest value.
* @throws Base64DecodingException if Reference contains no proper base64 encoded data.
* @throws XMLSecurityException if the Reference does not contain a DigestValue element
*/
public byte[] getDigestValue() throws Base64DecodingException, XMLSecurityException {
Element digestValueElem = XMLUtils.selectDsNode(this._constructionElement.getFirstChild()
,Constants._TAG_DIGESTVALUE,0);
if (digestValueElem == null) {
// The required element is not in the XML!
Object[] exArgs ={ Constants._TAG_DIGESTVALUE,
Constants.SignatureSpecNS };
throw new XMLSecurityException(
"signature.Verification.NoSignatureElement",
exArgs);
}
byte[] elemDig = Base64.decode(digestValueElem);
return elemDig;
}
/**
* Tests reference valdiation is success or false
*
* @return true if reference valdiation is success, otherwise false
* @throws ReferenceNotInitializedException
* @throws XMLSecurityException
*/
public boolean verify()
throws ReferenceNotInitializedException, XMLSecurityException {
byte[] elemDig = this.getDigestValue();
byte[] calcDig = this.calculateDigest();
boolean equal = MessageDigestAlgorithm.isEqual(elemDig, calcDig);
if (!equal) {
log.log(java.util.logging.Level.WARNING, "Verification failed for URI \"" + this.getURI() + "\"");
} else {
if (log.isLoggable(java.util.logging.Level.INFO)) log.log(java.util.logging.Level.INFO, "Verification successful for URI \"" + this.getURI() + "\"");
}
return equal;
}
/**
* Method getBaseLocalName
* @inheritDoc
*
*/
public String getBaseLocalName() {
return Constants._TAG_REFERENCE;
}
}