There is an article shows demo code for making XMLSignature by using Java XML Digital Signature API
, where it actually uses org.jcp.xml.dsig.internal.dom.XMLDSigRI
to do DOM formation, and the first provider in the java.security
lookup order that will support SHA1
digestion, SHA1withRSA
signing to do algorithm jobs.
Firstly, just copy the code from the article,
// Create a DOM XMLSignatureFactory that will be used to
// generate the enveloped signature.
XMLSignatureFactory fac = XMLSignatureFactory.getInstance("DOM");
// Create a Reference to the enveloped document (in this case,
// you are signing the whole document, so a URI of "" signifies
// that, and also specify the SHA1 digest algorithm and
// the ENVELOPED Transform.
Reference ref = fac.newReference
("", fac.newDigestMethod(DigestMethod.SHA1, null),
Collections.singletonList
(fac.newTransform
(Transform.ENVELOPED, (TransformParameterSpec) null)),
null, null);
// Create the SignedInfo.
SignedInfo si = fac.newSignedInfo
(fac.newCanonicalizationMethod
(CanonicalizationMethod.INCLUSIVE,
(C14NMethodParameterSpec) null),
fac.newSignatureMethod(SignatureMethod.RSA_SHA1, null),
Collections.singletonList(ref));
// Load the KeyStore and get the signing key and certificate.
KeyStore ks = KeyStore.getInstance("JKS");
ks.load(new FileInputStream("mykeystore.jks"), "changeit".toCharArray());
KeyStore.PrivateKeyEntry keyEntry =
(KeyStore.PrivateKeyEntry) ks.getEntry
("mykey", new KeyStore.PasswordProtection("changeit".toCharArray()));
X509Certificate cert = (X509Certificate) keyEntry.getCertificate();
// Create the KeyInfo containing the X509Data.
KeyInfoFactory kif = fac.getKeyInfoFactory();
List x509Content = new ArrayList();
x509Content.add(cert.getSubjectX500Principal().getName());
x509Content.add(cert);
X509Data xd = kif.newX509Data(x509Content);
KeyInfo ki = kif.newKeyInfo(Collections.singletonList(xd));
// Instantiate the document to be signed.
DocumentBuilderFactory dbf = DocumentBuilderFactory.newInstance();
dbf.setNamespaceAware(true);
Document doc = dbf.newDocumentBuilder().parse
(new FileInputStream("purchaseOrder.xml"));
// Create a DOMSignContext and specify the RSA PrivateKey and
// location of the resulting XMLSignature's parent element.
DOMSignContext dsc = new DOMSignContext
(keyEntry.getPrivateKey(), doc.getDocumentElement());
// Create the XMLSignature, but don't sign it yet.
XMLSignature signature = fac.newXMLSignature(si, ki);
// Marshal, generate, and sign the enveloped signature.
signature.sign(dsc);
// Output the resulting document.
OutputStream os = new FileOutputStream("signedPurchaseOrder.xml");
TransformerFactory tf = TransformerFactory.newInstance();
Transformer trans = tf.newTransformer();
trans.transform(new DOMSource(doc), new StreamResult(os));
follow the code comments, it is clearly several parts to making the job done, the key line is signature.sign(dsc);
;
Secondly, debuging into the sign
method, you will notice such as,
digestReference
, digest
invocationsthat is for Message Digest
sign
invocationthat is for Signature signing.
If you want to supply another provider to do the signing, you will have to implements the interface SignatureMethod
, or extends the abstract class DOMSignatureMethod
. However, the sign
method in DOMSignatureMethod
as you will override, is a little more complicated, even coupled with org.jcp.xml.dsig.internal.dom.SignatureProvider
, and must take care of DOM structure yourself.
The apache xmlsec has supply boilerplate code to do XMLSignature, but in a more clearly style,
public String signWithKeyPair(String sourceXml, KeyPair kp) throws Exception {
PrivateKey privateKey = kp.getPrivate();
Document doc = null;
try (InputStream is = new ByteArrayInputStream(sourceXml.getBytes(Charset.forName("utf-8")))) {
doc = MyXMLUtils.read(is, false);
}
Element root = doc.getDocumentElement();
Element canonElem =
XMLUtils.createElementInSignatureSpace(doc, Constants._TAG_CANONICALIZATIONMETHOD);
canonElem.setAttributeNS(
null, Constants._ATT_ALGORITHM, Canonicalizer.ALGO_ID_C14N_OMIT_COMMENTS
);
SignatureAlgorithm signatureAlgorithm =
new SignatureAlgorithm(doc, XMLSignature.ALGO_ID_SIGNATURE_RSA_SHA1);
XMLSignature sig =
new XMLSignature(doc, null, signatureAlgorithm.getElement(), canonElem);
root.appendChild(sig.getElement());
Transforms transforms = new Transforms(doc);
transforms.addTransform(Transforms.TRANSFORM_ENVELOPED_SIGNATURE);
sig.addDocument("", transforms, Constants.ALGO_ID_DIGEST_SHA1);
sig.addKeyInfo(kp.getPublic());
sig.sign(privateKey);
ByteArrayOutputStream bos = new ByteArrayOutputStream();
XMLUtils.outputDOMc14nWithComments(doc, bos);
return new String(bos.toByteArray(), "utf-8");
}
If use xmlsec
and want to supply your own Provider to make signature, it will be less effort to hook into the Architecture. and also making more sense when you extends SignatureAlgorithm
class, supply your engine to override the following methods,
@Override
public void update(byte[] input) throws XMLSignatureException {
try {
engine.update(input);
} catch (SignatureException e) {
throw new XMLSignatureException(e);
}
}
@Override
public void update(byte input) throws XMLSignatureException {
try {
engine.update(input);
} catch (SignatureException e) {
throw new XMLSignatureException(e);
}
}
@Override
public void update(byte[] buf, int offset, int len) throws XMLSignatureException {
try {
engine.update(buf, offset, len);
} catch (SignatureException e) {
throw new XMLSignatureException(e);
}
}
@Override
public void initSign(Key signingKey) throws XMLSignatureException {
try {
engine.initSign((PrivateKey) signingKey);
} catch (InvalidKeyException e) {
throw new RuntimeException(e);
}
}
@Override
public void initSign(Key signingKey, SecureRandom secureRandom) throws XMLSignatureException {
try {
engine.initSign((PrivateKey) signingKey, secureRandom);
} catch (InvalidKeyException e) {
throw new RuntimeException(e);
}
}
@Override
public void initSign(Key signingKey, AlgorithmParameterSpec algorithmParameterSpec) throws XMLSignatureException {
throw new XMLSignatureException("unsupported operation");
}
@Override
public byte[] sign() throws XMLSignatureException {
try {
return engine.sign();
} catch (SignatureException e) {
throw new XMLSignatureException(e);
}
}
@Override
public void initVerify(Key verificationKey) throws XMLSignatureException {
try {
engine.initVerify((PublicKey) verificationKey);
} catch (InvalidKeyException e) {
throw new XMLSignatureException(e);
}
}
@Override
public boolean verify(byte[] signature) throws XMLSignatureException {
try {
return engine.verify(signature);
} catch (SignatureException e) {
throw new XMLSignatureException(e);
}
}
not need to take care of the DOM structure any more.
Making this post more specific, I will show more codes about extends SignatureAlgorithm
class along with using the engine from Bouncy Castle Provider.
public class BcSignatureAlgorithm extends AbstractSignatureAlgorithm {
protected Signature engine;
protected static BouncyCastleProvider provider = new BouncyCastleProvider();
public BcSignatureAlgorithm(Document doc, String algorithmURI) throws XMLSecurityException {
super(doc, algorithmURI);
initEngine();
}
public BcSignatureAlgorithm(Document doc, String algorithmURI, int hmacOutputLength) throws XMLSecurityException {
super(doc, algorithmURI, hmacOutputLength);
initEngine();
}
public BcSignatureAlgorithm(Element element, String baseURI) throws XMLSecurityException {
super(element, baseURI);
initEngine();
}
public BcSignatureAlgorithm(Element element, String baseURI, boolean secureValidation) throws XMLSecurityException {
super(element, baseURI, secureValidation);
initEngine();
}
protected void initEngine() throws XMLSecurityException {
try {
engine = Signature.getInstance("SHA1withRSA", provider);
} catch (NoSuchAlgorithmException e) {
throw new XMLSignatureException(e);
}
}
}
nothing more, call the SPI
getInstance method to get the engine object.
How to use the BcSignatureAlgorithm
?
public String signWithCert(String sourceXml, PrivateKey privateKey, X509Certificate signingCert) throws Exception {
Document doc = null;
try (InputStream is = new ByteArrayInputStream(sourceXml.getBytes(Charset.forName("utf-8")))) {
doc = MyXMLUtils.read(is, false);
}
Element root = doc.getDocumentElement();
Element canonElem =
XMLUtils.createElementInSignatureSpace(doc, Constants._TAG_CANONICALIZATIONMETHOD);
canonElem.setAttributeNS(
null, Constants._ATT_ALGORITHM, Canonicalizer.ALGO_ID_C14N_OMIT_COMMENTS
);
AbstractSignatureAlgorithm signatureAlgorithm =
new BcSignatureAlgorithm(doc, XMLSignature.ALGO_ID_SIGNATURE_RSA_SHA1);//use BcSignatureAlgorithm
XMLSignature sig =
new XMLSignature(doc, null, signatureAlgorithm.getElement(), canonElem);
root.appendChild(sig.getElement());
Transforms transforms = new Transforms(doc);
transforms.addTransform(Transforms.TRANSFORM_ENVELOPED_SIGNATURE);
sig.addDocument("", transforms, Constants.ALGO_ID_DIGEST_SHA1);
//sig.addKeyInfo(signingCert);
X509Data x509data = new X509Data(doc);
x509data.addCertificate(signingCert);
sig.getKeyInfo().addKeyName(signingCert.getSerialNumber().toString());
sig.getKeyInfo().add(x509data);
//sig.sign(privateKey);
signatureAlgorithm.doSign(privateKey,sig.getSignedInfo());
ByteArrayOutputStream bos = new ByteArrayOutputStream();
XMLUtils.outputDOMc14nWithComments(doc, bos);
return new String(bos.toByteArray(), "utf-8");
}
AbstractSignatureAlgorithm
will finished the jobs that XMLSignature.sign(PrivateKey)
used to do, actually doSign
method copy lines from it, and make sure the signature value should set to SignatureValue Element as a text node element. Last but not least, thought BcSignatureAlgorithm
is behind the sight, it has used the engine from the Bouncy Castle and produce the signature.