8234541: C1 emits an empty message when it inlines successfully
Summary: Use "inline" as the message when successfull
Reviewed-by: thartmann, mdoerr
Contributed-by: navy.xliu@gmail.com
/*
* Copyright (c) 2005, 2019, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code 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 General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
/**
* @test
* @bug 4635230 6283345 6303830 6824440 6867348 7094155 8038184 8038349 8046949
* 8046724 8079693 8177334 8205507 8210736 8217878
* @summary Basic unit tests for generating XML Signatures with JSR 105
* @modules java.base/sun.security.util
* java.base/sun.security.x509
* java.xml.crypto/org.jcp.xml.dsig.internal.dom
* jdk.httpserver/com.sun.net.httpserver
* @compile -XDignore.symbol.file KeySelectors.java SignatureValidator.java
* X509KeySelector.java GenerationTests.java
* @run main/othervm/timeout=300 -Dsun.net.httpserver.nodelay=true GenerationTests
* @author Sean Mullan
*/
import com.sun.net.httpserver.HttpExchange;
import com.sun.net.httpserver.HttpHandler;
import com.sun.net.httpserver.HttpServer;
import java.io.*;
import java.lang.reflect.Modifier;
import java.math.BigInteger;
import java.net.InetSocketAddress;
import java.security.Key;
import java.security.KeyFactory;
import java.security.KeyPair;
import java.security.KeyPairGenerator;
import java.security.KeyStore;
import java.security.NoSuchAlgorithmException;
import java.security.PrivateKey;
import java.security.PublicKey;
import java.security.cert.Certificate;
import java.security.cert.CertificateFactory;
import java.security.cert.X509CRL;
import java.security.spec.KeySpec;
import java.security.spec.DSAPrivateKeySpec;
import java.security.spec.DSAPublicKeySpec;
import java.security.spec.ECField;
import java.security.spec.ECFieldFp;
import java.security.spec.ECParameterSpec;
import java.security.spec.ECPoint;
import java.security.spec.ECPrivateKeySpec;
import java.security.spec.ECPublicKeySpec;
import java.security.spec.EllipticCurve;
import java.security.spec.RSAPrivateKeySpec;
import java.security.spec.RSAPublicKeySpec;
import java.util.*;
import java.util.stream.Stream;
import javax.crypto.KeyGenerator;
import javax.crypto.SecretKey;
import javax.xml.XMLConstants;
import javax.xml.parsers.*;
import javax.xml.crypto.Data;
import javax.xml.crypto.KeySelector;
import javax.xml.crypto.OctetStreamData;
import javax.xml.crypto.URIDereferencer;
import javax.xml.crypto.URIReference;
import javax.xml.crypto.URIReferenceException;
import javax.xml.crypto.XMLCryptoContext;
import javax.xml.crypto.XMLStructure;
import javax.xml.crypto.dsig.*;
import javax.xml.crypto.dom.*;
import javax.xml.crypto.dsig.dom.DOMSignContext;
import javax.xml.crypto.dsig.dom.DOMValidateContext;
import javax.xml.crypto.dsig.keyinfo.*;
import javax.xml.crypto.dsig.spec.*;
import javax.xml.transform.*;
import javax.xml.transform.dom.DOMSource;
import javax.xml.transform.stream.StreamResult;
import org.w3c.dom.*;
/**
* Test that recreates merlin-xmldsig-twenty-three test vectors (and more)
* but with different keys and X.509 data.
*/
public class GenerationTests {
private static XMLSignatureFactory fac;
private static KeyInfoFactory kifac;
private static DocumentBuilder db;
private static CanonicalizationMethod withoutComments;
private static SignatureMethod dsaSha1, dsaSha256,
rsaSha1, rsaSha224, rsaSha256, rsaSha384, rsaSha512,
ecdsaSha1, ecdsaSha224, ecdsaSha256, ecdsaSha384, ecdsaSha512,
hmacSha1, hmacSha224, hmacSha256, hmacSha384, hmacSha512,
rsaSha1mgf1, rsaSha224mgf1, rsaSha256mgf1, rsaSha384mgf1, rsaSha512mgf1;
private static DigestMethod sha1, sha224, sha256, sha384, sha512,
sha3_224, sha3_256, sha3_384, sha3_512;
private static KeyInfo dsa1024, dsa2048, rsa, rsa1024, rsa2048,
p256ki, p384ki, p521ki;
private static KeySelector kvks = new KeySelectors.KeyValueKeySelector();
private static KeySelector sks;
private static Key signingKey;
private static PublicKey validatingKey;
private static Certificate signingCert;
private static KeyStore ks;
private final static String DIR = System.getProperty("test.src", ".");
// private final static String DIR = ".";
private final static String DATA_DIR =
DIR + System.getProperty("file.separator") + "data";
private final static String KEYSTORE =
DATA_DIR + System.getProperty("file.separator") + "certs" +
System.getProperty("file.separator") + "test.jks";
private final static String CRL =
DATA_DIR + System.getProperty("file.separator") + "certs" +
System.getProperty("file.separator") + "crl";
// XML Document with a DOCTYPE declaration
private final static String ENVELOPE =
DATA_DIR + System.getProperty("file.separator") + "envelope.xml";
// XML Document without a DOCTYPE declaration
private final static String ENVELOPE2 =
DATA_DIR + System.getProperty("file.separator") + "envelope2.xml";
private static URIDereferencer httpUd = null;
private final static String STYLESHEET =
"http://www.w3.org/TR/xml-stylesheet";
private final static String STYLESHEET_B64 =
"http://www.w3.org/Signature/2002/04/xml-stylesheet.b64";
private final static String DSA_SHA256 =
"http://www.w3.org/2009/xmldsig11#dsa-sha256";
private static final String BOGUS = "bogus";
private static final String xslt = ""
+ "<xsl:stylesheet xmlns:xsl='http://www.w3.org/1999/XSL/Transform'\n"
+ " xmlns='http://www.w3.org/TR/xhtml1/strict' \n"
+ " exclude-result-prefixes='foo' \n"
+ " version='1.0'>\n"
+ " <xsl:output encoding='UTF-8' \n"
+ " indent='no' \n"
+ " method='xml' />\n"
+ " <xsl:template match='/'>\n"
+ " <html>\n"
+ " <head>\n"
+ " <title>Notaries</title>\n"
+ " </head>\n"
+ " <body>\n"
+ " <table>\n"
+ " <xsl:for-each select='Notaries/Notary'>\n"
+ " <tr>\n"
+ " <th>\n"
+ " <xsl:value-of select='@name' />\n"
+ " </th>\n"
+ " </tr>\n"
+ " </xsl:for-each>\n"
+ " </table>\n"
+ " </body>\n"
+ " </html>\n"
+ " </xsl:template>\n"
+ "</xsl:stylesheet>\n";
private static final String[] canonicalizationMethods = new String[] {
CanonicalizationMethod.EXCLUSIVE,
CanonicalizationMethod.EXCLUSIVE_WITH_COMMENTS,
CanonicalizationMethod.INCLUSIVE,
CanonicalizationMethod.INCLUSIVE_WITH_COMMENTS
};
private static final String[] xml_transforms = new String[] {
Transform.XSLT,
Transform.XPATH,
Transform.XPATH2,
CanonicalizationMethod.EXCLUSIVE,
CanonicalizationMethod.EXCLUSIVE_WITH_COMMENTS,
CanonicalizationMethod.INCLUSIVE,
CanonicalizationMethod.INCLUSIVE_WITH_COMMENTS,
};
private static final String[] non_xml_transforms = new String[] {
null, Transform.BASE64
};
// It will be too time consuming to test all combinations of
// all digest methods and signature methods. So we pick some
// majors one and only test a combination when a major method
// (either digest or signature) is included.
//
// * * *
// * * *
// * * *
// * * * * * * * * *
// * * * * * * * * *
// * * * * * * * * *
// * * *
// * * *
// * * *
private static List<String> majorSignatureMethods = List.of(
SignatureMethod.DSA_SHA256,
SignatureMethod.RSA_SHA256,
SignatureMethod.ECDSA_SHA256,
SignatureMethod.HMAC_SHA256,
SignatureMethod.SHA256_RSA_MGF1);
private static final String[] allSignatureMethods
= Stream.of(SignatureMethod.class.getDeclaredFields())
.filter(f -> Modifier.isStatic(f.getModifiers()))
.map(f -> {
try {
return (String)f.get(null);
} catch (Exception e) {
throw new Error("should not happen");
}
})
.toArray(String[]::new);
private static final List<String> majorDigestMethods = List.of(
DigestMethod.SHA1,
DigestMethod.SHA256,
DigestMethod.SHA3_256);
private static final String[] allDigestMethods
= Stream.of(DigestMethod.class.getDeclaredFields())
.filter(f -> Modifier.isStatic(f.getModifiers())
&& !f.getName().equals("RIPEMD160"))
.map(f -> {
try {
return (String)f.get(null);
} catch (Exception e) {
throw new Error("should not happen");
}
})
.toArray(String[]::new);
// As of JDK 11, the number of defined algorithms are...
static {
if (allSignatureMethods.length != 22
|| allDigestMethods.length != 9) {
System.out.println(Arrays.toString(allSignatureMethods));
System.out.println(Arrays.toString(allDigestMethods));
throw new AssertionError("Not all methods are counted");
}
}
private static enum Content {
Xml, Text, Base64, NotExisitng
}
private static enum KeyInfoType {
KeyValue, x509data, KeyName
}
// cached keys (for performance) used by test_create_detached_signature().
private static HashMap<String,Key[]> cachedKeys = new HashMap<>();
// Load cachedKeys persisted in a file to reproduce a failure.
// The keys are always saved to "cached-keys" but you can rename
// it to a different file name and load it here. Note: The keys will
// always be persisted so renaming is a good idea although the
// content might not change.
static {
String cacheFile = System.getProperty("use.cached.keys");
if (cacheFile != null) {
try (FileInputStream fis = new FileInputStream(cacheFile);
ObjectInputStream ois = new ObjectInputStream(fis)) {
cachedKeys = (HashMap<String,Key[]>) ois.readObject();
} catch (Exception e) {
throw new AssertionError("Cannot read " + cacheFile, e);
}
}
}
private static boolean result = true;
public static void main(String args[]) throws Exception {
setup();
test_create_signature_enveloped_dsa(1024);
test_create_signature_enveloped_dsa(2048);
test_create_signature_enveloping_b64_dsa();
test_create_signature_enveloping_dsa();
test_create_signature_enveloping_hmac_sha1_40();
test_create_signature_enveloping_hmac_sha256();
test_create_signature_enveloping_hmac_sha224();
test_create_signature_enveloping_hmac_sha384();
test_create_signature_enveloping_hmac_sha512();
test_create_signature_enveloping_rsa();
test_create_signature_enveloping_p256_sha1();
test_create_signature_enveloping_p256_sha224();
test_create_signature_enveloping_p256_sha256();
test_create_signature_enveloping_p256_sha384();
test_create_signature_enveloping_p256_sha512();
test_create_signature_enveloping_p384_sha1();
test_create_signature_enveloping_p521_sha1();
test_create_signature_external_b64_dsa();
test_create_signature_external_dsa();
test_create_signature_keyname();
test_create_signature_retrievalmethod_rawx509crt();
test_create_signature_x509_crt_crl();
test_create_signature_x509_crt();
test_create_signature_x509_is();
test_create_signature_x509_ski();
test_create_signature_x509_sn();
test_create_signature();
test_create_exc_signature();
test_create_sign_spec();
test_create_signature_enveloping_sha256_dsa();
test_create_signature_enveloping_sha384_rsa_sha256();
test_create_signature_enveloping_sha224_rsa_sha256();
test_create_signature_enveloping_sha3_224_rsa_sha256();
test_create_signature_enveloping_sha3_256_rsa_sha256();
test_create_signature_enveloping_sha3_384_rsa_sha256();
test_create_signature_enveloping_sha3_512_rsa_sha256();
test_create_signature_enveloping_sha512_rsa_sha384();
test_create_signature_enveloping_sha512_rsa_sha224();
test_create_signature_enveloping_sha512_rsa_sha512();
test_create_signature_enveloping_sha512_rsa_sha1_mgf1();
test_create_signature_enveloping_sha512_rsa_sha224_mgf1();
test_create_signature_enveloping_sha512_rsa_sha256_mgf1();
test_create_signature_enveloping_sha512_rsa_sha384_mgf1();
test_create_signature_enveloping_sha512_rsa_sha512_mgf1();
test_create_signature_reference_dependency();
test_create_signature_with_attr_in_no_namespace();
test_create_signature_with_empty_id();
test_create_signature_enveloping_over_doc(ENVELOPE, true);
test_create_signature_enveloping_over_doc(ENVELOPE2, true);
test_create_signature_enveloping_over_doc(ENVELOPE, false);
test_create_signature_enveloping_dom_level1();
// run tests for detached signatures with local http server
try (Http server = Http.startServer()) {
server.start();
System.out.println("\ntests for XML documents");
Arrays.stream(canonicalizationMethods).forEach(c ->
Arrays.stream(allSignatureMethods).forEach(s ->
Arrays.stream(allDigestMethods).forEach(d ->
Arrays.stream(xml_transforms).forEach(t ->
Arrays.stream(KeyInfoType.values()).forEach(k -> {
if (isMajor(s, d)) {
test_create_detached_signature(c, s, d, t, k,
Content.Xml, server.getPort(), false, null);
}
})))));
System.out.println("\ntests for text data with no transform");
Arrays.stream(canonicalizationMethods).forEach(c ->
Arrays.stream(allSignatureMethods).forEach(s ->
Arrays.stream(allDigestMethods).forEach(d ->
Arrays.stream(KeyInfoType.values()).forEach(k -> {
if (isMajor(s, d)) {
test_create_detached_signature(c, s, d, null, k,
Content.Text, server.getPort(), false, null);
}
}))));
System.out.println("\ntests for base64 data");
Arrays.stream(canonicalizationMethods).forEach(c ->
Arrays.stream(allSignatureMethods).forEach(s ->
Arrays.stream(allDigestMethods).forEach(d ->
Arrays.stream(non_xml_transforms).forEach(t ->
Arrays.stream(KeyInfoType.values()).forEach(k -> {
if (isMajor(s, d)) {
test_create_detached_signature(c, s, d, t, k,
Content.Base64, server.getPort(),
false, null);
}
})))));
// negative tests
System.out.println("\nunknown CanonicalizationMethod");
test_create_detached_signature(
CanonicalizationMethod.EXCLUSIVE + BOGUS,
SignatureMethod.DSA_SHA1,
DigestMethod.SHA1,
CanonicalizationMethod.INCLUSIVE,
KeyInfoType.KeyName,
Content.Xml,
server.getPort(),
true,
NoSuchAlgorithmException.class);
System.out.println("\nunknown SignatureMethod");
test_create_detached_signature(
CanonicalizationMethod.EXCLUSIVE,
SignatureMethod.DSA_SHA1 + BOGUS,
DigestMethod.SHA1,
CanonicalizationMethod.INCLUSIVE,
KeyInfoType.KeyName, Content.Xml,
server.getPort(),
true,
NoSuchAlgorithmException.class);
System.out.println("\nunknown DigestMethod");
test_create_detached_signature(
CanonicalizationMethod.EXCLUSIVE,
SignatureMethod.DSA_SHA1,
DigestMethod.SHA1 + BOGUS,
CanonicalizationMethod.INCLUSIVE,
KeyInfoType.KeyName, Content.Xml,
server.getPort(),
true,
NoSuchAlgorithmException.class);
System.out.println("\nunknown Transform");
test_create_detached_signature(
CanonicalizationMethod.EXCLUSIVE,
SignatureMethod.DSA_SHA1,
DigestMethod.SHA1,
CanonicalizationMethod.INCLUSIVE + BOGUS,
KeyInfoType.KeyName, Content.Xml,
server.getPort(),
true,
NoSuchAlgorithmException.class);
System.out.println("\nno source document");
test_create_detached_signature(
CanonicalizationMethod.EXCLUSIVE,
SignatureMethod.DSA_SHA1,
DigestMethod.SHA1,
CanonicalizationMethod.INCLUSIVE,
KeyInfoType.KeyName,
Content.NotExisitng,
server.getPort(),
true,
XMLSignatureException.class);
System.out.println("\nwrong transform for text data");
test_create_detached_signature(
CanonicalizationMethod.EXCLUSIVE,
SignatureMethod.DSA_SHA1,
DigestMethod.SHA1,
CanonicalizationMethod.INCLUSIVE,
KeyInfoType.KeyName,
Content.Text,
server.getPort(),
true,
XMLSignatureException.class);
}
// persist cached keys to a file.
try (FileOutputStream fos = new FileOutputStream("cached-keys", true);
ObjectOutputStream oos = new ObjectOutputStream(fos)) {
oos.writeObject(cachedKeys);
}
if (!result) {
throw new RuntimeException("At least one test case failed");
}
}
// Do not test on all combinations.
private static boolean isMajor(String signatureMethod, String digestMethod) {
return majorDigestMethods.contains(digestMethod)
|| majorSignatureMethods.contains(signatureMethod);
}
private static void setup() throws Exception {
fac = XMLSignatureFactory.getInstance();
kifac = fac.getKeyInfoFactory();
DocumentBuilderFactory dbf = DocumentBuilderFactory.newInstance();
dbf.setNamespaceAware(true);
db = dbf.newDocumentBuilder();
// get key & self-signed certificate from keystore
FileInputStream fis = new FileInputStream(KEYSTORE);
ks = KeyStore.getInstance("JKS");
ks.load(fis, "changeit".toCharArray());
signingKey = ks.getKey("user", "changeit".toCharArray());
signingCert = ks.getCertificate("user");
validatingKey = signingCert.getPublicKey();
// create common objects
withoutComments = fac.newCanonicalizationMethod
(CanonicalizationMethod.INCLUSIVE, (C14NMethodParameterSpec)null);
dsaSha1 = fac.newSignatureMethod(SignatureMethod.DSA_SHA1, null);
dsaSha256 = fac.newSignatureMethod(DSA_SHA256, null);
sha1 = fac.newDigestMethod(DigestMethod.SHA1, null);
sha224 = fac.newDigestMethod(DigestMethod.SHA224, null);
sha256 = fac.newDigestMethod(DigestMethod.SHA256, null);
sha384 = fac.newDigestMethod(DigestMethod.SHA384, null);
sha512 = fac.newDigestMethod(DigestMethod.SHA512, null);
sha3_224 = fac.newDigestMethod(DigestMethod.SHA3_224, null);
sha3_256 = fac.newDigestMethod(DigestMethod.SHA3_256, null);
sha3_384 = fac.newDigestMethod(DigestMethod.SHA3_384, null);
sha3_512 = fac.newDigestMethod(DigestMethod.SHA3_512, null);
dsa1024 = kifac.newKeyInfo(Collections.singletonList
(kifac.newKeyValue(validatingKey)));
dsa2048 = kifac.newKeyInfo(Collections.singletonList
(kifac.newKeyValue(getPublicKey("DSA", 2048))));
rsa = kifac.newKeyInfo(Collections.singletonList
(kifac.newKeyValue(getPublicKey("RSA", 512))));
rsa1024 = kifac.newKeyInfo(Collections.singletonList
(kifac.newKeyValue(getPublicKey("RSA", 1024))));
rsa2048 = kifac.newKeyInfo(Collections.singletonList
(kifac.newKeyValue(getPublicKey("RSA", 2048))));
p256ki = kifac.newKeyInfo(Collections.singletonList
(kifac.newKeyValue(getECPublicKey("P256"))));
p384ki = kifac.newKeyInfo(Collections.singletonList
(kifac.newKeyValue(getECPublicKey("P384"))));
p521ki = kifac.newKeyInfo(Collections.singletonList
(kifac.newKeyValue(getECPublicKey("P521"))));
rsaSha1 = fac.newSignatureMethod(SignatureMethod.RSA_SHA1, null);
rsaSha224 = fac.newSignatureMethod(SignatureMethod.RSA_SHA224, null);
rsaSha256 = fac.newSignatureMethod(SignatureMethod.RSA_SHA256, null);
rsaSha384 = fac.newSignatureMethod(SignatureMethod.RSA_SHA384, null);
rsaSha512 = fac.newSignatureMethod(SignatureMethod.RSA_SHA512, null);
rsaSha1mgf1 = fac.newSignatureMethod(SignatureMethod.SHA1_RSA_MGF1, null);
rsaSha224mgf1 = fac.newSignatureMethod(SignatureMethod.SHA224_RSA_MGF1, null);
rsaSha256mgf1 = fac.newSignatureMethod(SignatureMethod.SHA256_RSA_MGF1, null);
rsaSha384mgf1 = fac.newSignatureMethod(SignatureMethod.SHA384_RSA_MGF1, null);
rsaSha512mgf1 = fac.newSignatureMethod(SignatureMethod.SHA512_RSA_MGF1, null);
ecdsaSha1 = fac.newSignatureMethod(SignatureMethod.ECDSA_SHA1, null);
ecdsaSha224 = fac.newSignatureMethod(SignatureMethod.ECDSA_SHA224, null);
ecdsaSha256 = fac.newSignatureMethod(SignatureMethod.ECDSA_SHA256, null);
ecdsaSha384 = fac.newSignatureMethod(SignatureMethod.ECDSA_SHA384, null);
ecdsaSha512 = fac.newSignatureMethod(SignatureMethod.ECDSA_SHA512, null);
hmacSha1 = fac.newSignatureMethod(SignatureMethod.HMAC_SHA1, null);
hmacSha224 = fac.newSignatureMethod(SignatureMethod.HMAC_SHA224, null);
hmacSha256 = fac.newSignatureMethod(SignatureMethod.HMAC_SHA256, null);
hmacSha384 = fac.newSignatureMethod(SignatureMethod.HMAC_SHA384, null);
hmacSha512 = fac.newSignatureMethod(SignatureMethod.HMAC_SHA512, null);
sks = new KeySelectors.SecretKeySelector("secret".getBytes("ASCII"));
httpUd = new HttpURIDereferencer();
}
static void test_create_signature_enveloped_dsa(int size) throws Exception {
System.out.println("* Generating signature-enveloped-dsa-"
+ size + ".xml");
SignatureMethod sm = null;
KeyInfo ki = null;
Key privKey;
if (size == 1024) {
sm = dsaSha1;
ki = dsa1024;
privKey = signingKey;
} else if (size == 2048) {
sm = dsaSha256;
ki = dsa2048;
privKey = getPrivateKey("DSA", 2048);
} else throw new RuntimeException("unsupported keysize:" + size);
// create SignedInfo
SignedInfo si = fac.newSignedInfo
(withoutComments, sm, Collections.singletonList
(fac.newReference
("", sha1, Collections.singletonList
(fac.newTransform(Transform.ENVELOPED,
(TransformParameterSpec) null)),
null, null)));
// create XMLSignature
XMLSignature sig = fac.newXMLSignature(si, ki);
Document doc = db.newDocument();
Element envelope = doc.createElementNS
("http://example.org/envelope", "Envelope");
envelope.setAttributeNS(XMLConstants.XMLNS_ATTRIBUTE_NS_URI,
"xmlns", "http://example.org/envelope");
doc.appendChild(envelope);
DOMSignContext dsc = new DOMSignContext(privKey, envelope);
sig.sign(dsc);
// StringWriter sw = new StringWriter();
// dumpDocument(doc, sw);
// System.out.println(sw.toString());
DOMValidateContext dvc = new DOMValidateContext
(kvks, envelope.getFirstChild());
XMLSignature sig2 = fac.unmarshalXMLSignature(dvc);
if (sig.equals(sig2) == false) {
throw new Exception
("Unmarshalled signature is not equal to generated signature");
}
if (sig2.validate(dvc) == false) {
throw new Exception("Validation of generated signature failed");
}
System.out.println();
}
static void test_create_signature_enveloping_b64_dsa() throws Exception {
System.out.println("* Generating signature-enveloping-b64-dsa.xml");
test_create_signature_enveloping
(sha1, dsaSha1, dsa1024, signingKey, kvks, true);
System.out.println();
}
static void test_create_signature_enveloping_dsa() throws Exception {
System.out.println("* Generating signature-enveloping-dsa.xml");
test_create_signature_enveloping
(sha1, dsaSha1, dsa1024, signingKey, kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_sha256_dsa() throws Exception {
System.out.println("* Generating signature-enveloping-sha256-dsa.xml");
test_create_signature_enveloping
(sha256, dsaSha1, dsa1024, signingKey, kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_hmac_sha1_40()
throws Exception {
System.out.println("* Generating signature-enveloping-hmac-sha1-40.xml");
try {
test_create_signature_enveloping(sha1, hmacSha1, null,
getSecretKey("secret".getBytes("ASCII")), sks, false);
} catch (Exception e) {
if (!(e instanceof XMLSignatureException)) {
throw e;
}
}
System.out.println();
}
static void test_create_signature_enveloping_hmac_sha256()
throws Exception {
System.out.println("* Generating signature-enveloping-hmac-sha256.xml");
test_create_signature_enveloping(sha1, hmacSha256, null,
getSecretKey("secret".getBytes("ASCII")), sks, false);
System.out.println();
}
static void test_create_signature_enveloping_hmac_sha224()
throws Exception {
System.out.println("* Generating signature-enveloping-hmac-sha224.xml");
test_create_signature_enveloping(sha1, hmacSha224, null,
getSecretKey("secret".getBytes("ASCII")), sks, false);
System.out.println();
}
static void test_create_signature_enveloping_hmac_sha384()
throws Exception {
System.out.println("* Generating signature-enveloping-hmac-sha384.xml");
test_create_signature_enveloping(sha1, hmacSha384, null,
getSecretKey("secret".getBytes("ASCII")), sks, false);
System.out.println();
}
static void test_create_signature_enveloping_hmac_sha512()
throws Exception {
System.out.println("* Generating signature-enveloping-hmac-sha512.xml");
test_create_signature_enveloping(sha1, hmacSha512, null,
getSecretKey("secret".getBytes("ASCII")), sks, false);
System.out.println();
}
static void test_create_signature_enveloping_rsa() throws Exception {
System.out.println("* Generating signature-enveloping-rsa.xml");
test_create_signature_enveloping(sha1, rsaSha1, rsa,
getPrivateKey("RSA", 512), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_sha384_rsa_sha256()
throws Exception {
System.out.println("* Generating signature-enveloping-sha384-rsa_sha256.xml");
test_create_signature_enveloping(sha384, rsaSha256, rsa,
getPrivateKey("RSA", 512), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_sha224_rsa_sha256()
throws Exception {
System.out.println("* Generating signature-enveloping-sha224-rsa_sha256.xml");
test_create_signature_enveloping(sha224, rsaSha256, rsa,
getPrivateKey("RSA", 512), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_sha3_224_rsa_sha256()
throws Exception {
System.out.println("* Generating signature-enveloping-sha3_224-rsa_sha256.xml");
test_create_signature_enveloping(sha3_224, rsaSha256, rsa,
getPrivateKey("RSA", 512), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_sha3_256_rsa_sha256()
throws Exception {
System.out.println("* Generating signature-enveloping-sha3_256-rsa_sha256.xml");
test_create_signature_enveloping(sha3_256, rsaSha256, rsa,
getPrivateKey("RSA", 512), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_sha3_384_rsa_sha256()
throws Exception {
System.out.println("* Generating signature-enveloping-sha3_384-rsa_sha256.xml");
test_create_signature_enveloping(sha3_384, rsaSha256, rsa,
getPrivateKey("RSA", 512), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_sha3_512_rsa_sha256()
throws Exception {
System.out.println("* Generating signature-enveloping-sha3_512-rsa_sha256.xml");
test_create_signature_enveloping(sha3_512, rsaSha256, rsa,
getPrivateKey("RSA", 512), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_sha512_rsa_sha384()
throws Exception {
System.out.println("* Generating signature-enveloping-sha512-rsa_sha384.xml");
test_create_signature_enveloping(sha512, rsaSha384, rsa1024,
getPrivateKey("RSA", 1024), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_sha512_rsa_sha224()
throws Exception {
System.out.println("* Generating signature-enveloping-sha512-rsa_sha224.xml");
test_create_signature_enveloping(sha512, rsaSha224, rsa1024,
getPrivateKey("RSA", 1024), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_sha512_rsa_sha512()
throws Exception {
System.out.println("* Generating signature-enveloping-sha512-rsa_sha512.xml");
test_create_signature_enveloping(sha512, rsaSha512, rsa1024,
getPrivateKey("RSA", 1024), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_sha512_rsa_sha1_mgf1()
throws Exception {
System.out.println("* Generating signature-enveloping-sha512-rsa_sha1_mgf1.xml");
test_create_signature_enveloping(sha512, rsaSha1mgf1, rsa1024,
getPrivateKey("RSA", 1024), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_sha512_rsa_sha224_mgf1()
throws Exception {
System.out.println("* Generating signature-enveloping-sha512-rsa_sha224_mgf1.xml");
test_create_signature_enveloping(sha512, rsaSha224mgf1, rsa1024,
getPrivateKey("RSA", 1024), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_sha512_rsa_sha256_mgf1()
throws Exception {
System.out.println("* Generating signature-enveloping-sha512-rsa_sha256_mgf1.xml");
test_create_signature_enveloping(sha512, rsaSha256mgf1, rsa1024,
getPrivateKey("RSA", 1024), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_sha512_rsa_sha384_mgf1()
throws Exception {
System.out.println("* Generating signature-enveloping-sha512-rsa_sha384_mgf1.xml");
test_create_signature_enveloping(sha512, rsaSha384mgf1, rsa1024,
getPrivateKey("RSA", 1024), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_sha512_rsa_sha512_mgf1()
throws Exception {
System.out.println("* Generating signature-enveloping-sha512-rsa_sha512_mgf1.xml");
test_create_signature_enveloping(sha512, rsaSha512mgf1, rsa2048,
getPrivateKey("RSA", 2048), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_p256_sha1() throws Exception {
System.out.println("* Generating signature-enveloping-p256-sha1.xml");
test_create_signature_enveloping(sha1, ecdsaSha1, p256ki,
getECPrivateKey("P256"), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_p256_sha224() throws Exception {
System.out.println("* Generating signature-enveloping-p256-sha224.xml");
test_create_signature_enveloping(sha1, ecdsaSha224, p256ki,
getECPrivateKey("P256"), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_p256_sha256() throws Exception {
System.out.println("* Generating signature-enveloping-p256-sha256.xml");
test_create_signature_enveloping(sha1, ecdsaSha256, p256ki,
getECPrivateKey("P256"), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_p256_sha384() throws Exception {
System.out.println("* Generating signature-enveloping-p256-sha384.xml");
test_create_signature_enveloping(sha1, ecdsaSha384, p256ki,
getECPrivateKey("P256"), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_p256_sha512() throws Exception {
System.out.println("* Generating signature-enveloping-p256-sha512.xml");
test_create_signature_enveloping(sha1, ecdsaSha512, p256ki,
getECPrivateKey("P256"), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_p384_sha1() throws Exception {
System.out.println("* Generating signature-enveloping-p384-sha1.xml");
test_create_signature_enveloping(sha1, ecdsaSha1, p384ki,
getECPrivateKey("P384"), kvks, false);
System.out.println();
}
static void test_create_signature_enveloping_p521_sha1() throws Exception {
System.out.println("* Generating signature-enveloping-p521-sha1.xml");
test_create_signature_enveloping(sha1, ecdsaSha1, p521ki,
getECPrivateKey("P521"), kvks, false);
System.out.println();
}
static void test_create_signature_external_b64_dsa() throws Exception {
System.out.println("* Generating signature-external-b64-dsa.xml");
test_create_signature_external(dsaSha1, dsa1024, signingKey, kvks, true);
System.out.println();
}
static void test_create_signature_external_dsa() throws Exception {
System.out.println("* Generating signature-external-dsa.xml");
test_create_signature_external(dsaSha1, dsa1024, signingKey, kvks, false);
System.out.println();
}
static void test_create_signature_keyname() throws Exception {
System.out.println("* Generating signature-keyname.xml");
KeyInfo kn = kifac.newKeyInfo(Collections.singletonList
(kifac.newKeyName("user")));
test_create_signature_external(dsaSha1, kn, signingKey,
new X509KeySelector(ks), false);
System.out.println();
}
static void test_create_signature_retrievalmethod_rawx509crt()
throws Exception {
System.out.println(
"* Generating signature-retrievalmethod-rawx509crt.xml");
KeyInfo rm = kifac.newKeyInfo(Collections.singletonList
(kifac.newRetrievalMethod
("certs/user.crt", X509Data.RAW_X509_CERTIFICATE_TYPE, null)));
test_create_signature_external(dsaSha1, rm, signingKey,
new X509KeySelector(ks), false);
System.out.println();
}
static void test_create_signature_x509_crt_crl() throws Exception {
System.out.println("* Generating signature-x509-crt-crl.xml");
List<Object> xds = new ArrayList<>();
CertificateFactory cf = CertificateFactory.getInstance("X.509");
xds.add(signingCert);
FileInputStream fis = new FileInputStream(CRL);
X509CRL crl = (X509CRL) cf.generateCRL(fis);
fis.close();
xds.add(crl);
KeyInfo crt_crl = kifac.newKeyInfo(Collections.singletonList
(kifac.newX509Data(xds)));
test_create_signature_external(dsaSha1, crt_crl, signingKey,
new X509KeySelector(ks), false);
System.out.println();
}
static void test_create_signature_x509_crt() throws Exception {
System.out.println("* Generating signature-x509-crt.xml");
KeyInfo crt = kifac.newKeyInfo(Collections.singletonList
(kifac.newX509Data(Collections.singletonList(signingCert))));
test_create_signature_external(dsaSha1, crt, signingKey,
new X509KeySelector(ks), false);
System.out.println();
}
static void test_create_signature_x509_is() throws Exception {
System.out.println("* Generating signature-x509-is.xml");
KeyInfo is = kifac.newKeyInfo(Collections.singletonList
(kifac.newX509Data(Collections.singletonList
(kifac.newX509IssuerSerial
("CN=User", new BigInteger("45ef2729", 16))))));
test_create_signature_external(dsaSha1, is, signingKey,
new X509KeySelector(ks), false);
System.out.println();
}
static void test_create_signature_x509_ski() throws Exception {
System.out.println("* Generating signature-x509-ski.xml");
KeyInfo ski = kifac.newKeyInfo(Collections.singletonList
(kifac.newX509Data(Collections.singletonList
("keyid".getBytes("ASCII")))));
test_create_signature_external(dsaSha1, ski, signingKey,
KeySelector.singletonKeySelector(validatingKey), false);
System.out.println();
}
static void test_create_signature_x509_sn() throws Exception {
System.out.println("* Generating signature-x509-sn.xml");
KeyInfo sn = kifac.newKeyInfo(Collections.singletonList
(kifac.newX509Data(Collections.singletonList("CN=User"))));
test_create_signature_external(dsaSha1, sn, signingKey,
new X509KeySelector(ks), false);
System.out.println();
}
static void test_create_signature_reference_dependency() throws Exception {
System.out.println("* Generating signature-reference-dependency.xml");
// create references
List<Reference> refs = Collections.singletonList
(fac.newReference("#object-1", sha1));
// create SignedInfo
SignedInfo si = fac.newSignedInfo(withoutComments, rsaSha1, refs);
// create objects
List<XMLObject> objs = new ArrayList<>();
// Object 1
List<Reference> manRefs = Collections.singletonList
(fac.newReference("#object-2", sha1));
objs.add(fac.newXMLObject(Collections.singletonList
(fac.newManifest(manRefs, "manifest-1")), "object-1", null, null));
// Object 2
Document doc = db.newDocument();
Element nc = doc.createElementNS(null, "NonCommentandus");
nc.setAttributeNS("http://www.w3.org/2000/xmlns/", "xmlns", "");
nc.appendChild(doc.createComment(" Commentandum "));
objs.add(fac.newXMLObject(Collections.singletonList
(new DOMStructure(nc)), "object-2", null, null));
// create XMLSignature
XMLSignature sig = fac.newXMLSignature(si, rsa, objs, "signature", null);
DOMSignContext dsc = new DOMSignContext(getPrivateKey("RSA", 512), doc);
sig.sign(dsc);
// dumpDocument(doc, new PrintWriter(System.out));
DOMValidateContext dvc = new DOMValidateContext
(kvks, doc.getDocumentElement());
XMLSignature sig2 = fac.unmarshalXMLSignature(dvc);
if (sig.equals(sig2) == false) {
throw new Exception
("Unmarshalled signature is not equal to generated signature");
}
if (sig2.validate(dvc) == false) {
throw new Exception("Validation of generated signature failed");
}
System.out.println();
}
static void test_create_signature_with_attr_in_no_namespace()
throws Exception
{
System.out.println
("* Generating signature-with-attr-in-no-namespace.xml");
// create references
List<Reference> refs = Collections.singletonList
(fac.newReference("#unknown", sha1));
// create SignedInfo
SignedInfo si = fac.newSignedInfo(withoutComments, rsaSha1, refs);
// create object-1
Document doc = db.newDocument();
Element nc = doc.createElementNS(null, "NonCommentandus");
// add attribute with no namespace
nc.setAttribute("Id", "unknown");
XMLObject obj = fac.newXMLObject(Collections.singletonList
(new DOMStructure(nc)), "object-1", null, null);
// create XMLSignature
XMLSignature sig = fac.newXMLSignature(si, rsa,
Collections.singletonList(obj),
"signature", null);
DOMSignContext dsc = new DOMSignContext(getPrivateKey("RSA", 512), doc);
dsc.setIdAttributeNS(nc, null, "Id");
sig.sign(dsc);
// dumpDocument(doc, new PrintWriter(System.out));
DOMValidateContext dvc = new DOMValidateContext
(kvks, doc.getDocumentElement());
dvc.setIdAttributeNS(nc, null, "Id");
XMLSignature sig2 = fac.unmarshalXMLSignature(dvc);
if (sig.equals(sig2) == false) {
throw new Exception
("Unmarshalled signature is not equal to generated signature");
}
if (sig2.validate(dvc) == false) {
throw new Exception("Validation of generated signature failed");
}
System.out.println();
}
static void test_create_signature_with_empty_id() throws Exception {
System.out.println("* Generating signature-with-empty-id.xml");
// create references
List<Reference> refs = Collections.singletonList
(fac.newReference("#", sha1));
// create SignedInfo
SignedInfo si = fac.newSignedInfo(withoutComments, rsaSha1, refs);
// create object with empty id
Document doc = db.newDocument();
XMLObject obj = fac.newXMLObject(Collections.singletonList
(new DOMStructure(doc.createTextNode("I am the text."))),
"", "text/plain", null);
// create XMLSignature
XMLSignature sig = fac.newXMLSignature(si, rsa,
Collections.singletonList(obj),
"signature", null);
DOMSignContext dsc = new DOMSignContext(getPrivateKey("RSA", 512), doc);
sig.sign(dsc);
System.out.println();
}
static void test_create_signature_enveloping_over_doc(String filename,
boolean pass) throws Exception
{
System.out.println("* Generating signature-enveloping-over-doc.xml");
// create reference
Reference ref = fac.newReference("#object", sha256);
// create SignedInfo
SignedInfo si = fac.newSignedInfo(withoutComments, rsaSha256,
Collections.singletonList(ref));
// create object
Document doc = null;
try (FileInputStream fis = new FileInputStream(filename)) {
doc = db.parse(fis);
}
DOMStructure ds = pass ? new DOMStructure(doc.getDocumentElement())
: new DOMStructure(doc);
XMLObject obj = fac.newXMLObject(Collections.singletonList(ds),
"object", null, "UTF-8");
// This creates an enveloping signature over the entire XML Document
XMLSignature sig = fac.newXMLSignature(si, rsa,
Collections.singletonList(obj),
"signature", null);
DOMSignContext dsc = new DOMSignContext(getPrivateKey("RSA", 1024), doc);
try {
sig.sign(dsc);
if (!pass) {
// A Document node can only exist at the root of the doc so this
// should fail
throw new Exception("Test unexpectedly passed");
}
} catch (Exception e) {
if (!pass) {
System.out.println("Test failed as expected: " + e);
} else {
throw e;
}
}
if (pass) {
DOMValidateContext dvc = new DOMValidateContext
(getPublicKey("RSA", 1024), doc.getDocumentElement());
XMLSignature sig2 = fac.unmarshalXMLSignature(dvc);
if (sig.equals(sig2) == false) {
throw new Exception
("Unmarshalled signature is not equal to generated signature");
}
if (sig2.validate(dvc) == false) {
throw new Exception("Validation of generated signature failed");
}
}
System.out.println();
}
static void test_create_signature_enveloping_dom_level1() throws Exception {
System.out.println("* Generating signature-enveloping-dom-level1.xml");
// create reference
Reference ref = fac.newReference("#object", sha256);
// create SignedInfo
SignedInfo si = fac.newSignedInfo(withoutComments, rsaSha256,
Collections.singletonList(ref));
// create object using DOM Level 1 methods
Document doc = db.newDocument();
Element child = doc.createElement("Child");
child.setAttribute("Version", "1.0");
child.setAttribute("Id", "child");
child.setIdAttribute("Id", true);
child.appendChild(doc.createComment("Comment"));
XMLObject obj = fac.newXMLObject(
Collections.singletonList(new DOMStructure(child)),
"object", null, "UTF-8");
XMLSignature sig = fac.newXMLSignature(si, rsa,
Collections.singletonList(obj),
"signature", null);
DOMSignContext dsc = new DOMSignContext(getPrivateKey("RSA", 1024), doc);
sig.sign(dsc);
DOMValidateContext dvc = new DOMValidateContext
(getPublicKey("RSA", 1024), doc.getDocumentElement());
XMLSignature sig2 = fac.unmarshalXMLSignature(dvc);
if (sig.equals(sig2) == false) {
throw new Exception
("Unmarshalled signature is not equal to generated signature");
}
if (sig2.validate(dvc) == false) {
throw new Exception("Validation of generated signature failed");
}
System.out.println();
}
static void test_create_signature() throws Exception {
System.out.println("* Generating signature.xml");
// create references
List<Reference> refs = new ArrayList<>();
// Reference 1
refs.add(fac.newReference(STYLESHEET, sha1));
// Reference 2
refs.add(fac.newReference
(STYLESHEET_B64,
sha1, Collections.singletonList
(fac.newTransform(Transform.BASE64,
(TransformParameterSpec) null)), null, null));
// Reference 3
refs.add(fac.newReference("#object-1", sha1, Collections.singletonList
(fac.newTransform(Transform.XPATH,
new XPathFilterParameterSpec("self::text()"))),
XMLObject.TYPE, null));
// Reference 4
String expr = "\n"
+ " ancestor-or-self::dsig:SignedInfo " + "\n"
+ " and " + "\n"
+ " count(ancestor-or-self::dsig:Reference | " + "\n"
+ " here()/ancestor::dsig:Reference[1]) > " + "\n"
+ " count(ancestor-or-self::dsig:Reference) " + "\n"
+ " or " + "\n"
+ " count(ancestor-or-self::node() | " + "\n"
+ " id('notaries')) = " + "\n"
+ " count(ancestor-or-self::node()) " + "\n";
XPathFilterParameterSpec xfp = new XPathFilterParameterSpec(expr,
Collections.singletonMap("dsig", XMLSignature.XMLNS));
refs.add(fac.newReference("", sha1, Collections.singletonList
(fac.newTransform(Transform.XPATH, xfp)),
XMLObject.TYPE, null));
// Reference 5
refs.add(fac.newReference("#object-2", sha1, Collections.singletonList
(fac.newTransform
(Transform.BASE64, (TransformParameterSpec) null)),
XMLObject.TYPE, null));
// Reference 6
refs.add(fac.newReference
("#manifest-1", sha1, null, Manifest.TYPE, null));
// Reference 7
refs.add(fac.newReference("#signature-properties-1", sha1, null,
SignatureProperties.TYPE, null));
// Reference 8
List<Transform> transforms = new ArrayList<>();
transforms.add(fac.newTransform
(Transform.ENVELOPED, (TransformParameterSpec) null));
refs.add(fac.newReference("", sha1, transforms, null, null));
// Reference 9
transforms.add(fac.newTransform
(CanonicalizationMethod.INCLUSIVE_WITH_COMMENTS,
(TransformParameterSpec) null));
refs.add(fac.newReference("", sha1, transforms, null, null));
// Reference 10
Transform env = fac.newTransform
(Transform.ENVELOPED, (TransformParameterSpec) null);
refs.add(fac.newReference("#xpointer(/)",
sha1, Collections.singletonList(env), null, null));
// Reference 11
transforms.clear();
transforms.add(fac.newTransform
(Transform.ENVELOPED, (TransformParameterSpec) null));
transforms.add(fac.newTransform
(CanonicalizationMethod.INCLUSIVE_WITH_COMMENTS,
(TransformParameterSpec) null));
refs.add(fac.newReference("#xpointer(/)", sha1, transforms,
null, null));
// Reference 12
refs.add
(fac.newReference("#object-3", sha1, null, XMLObject.TYPE, null));
// Reference 13
Transform withComments = fac.newTransform
(CanonicalizationMethod.INCLUSIVE_WITH_COMMENTS,
(TransformParameterSpec) null);
refs.add(fac.newReference("#object-3", sha1,
Collections.singletonList(withComments), XMLObject.TYPE, null));
// Reference 14
refs.add(fac.newReference("#xpointer(id('object-3'))", sha1, null,
XMLObject.TYPE, null));
// Reference 15
withComments = fac.newTransform
(CanonicalizationMethod.INCLUSIVE_WITH_COMMENTS,
(TransformParameterSpec) null);
refs.add(fac.newReference("#xpointer(id('object-3'))", sha1,
Collections.singletonList(withComments), XMLObject.TYPE, null));
// Reference 16
refs.add(fac.newReference("#reference-2", sha1));
// Reference 17
refs.add(fac.newReference("#manifest-reference-1", sha1, null,
null, "reference-1"));
// Reference 18
refs.add(fac.newReference("#reference-1", sha1, null, null,
"reference-2"));
// create SignedInfo
SignedInfo si = fac.newSignedInfo(withoutComments, dsaSha1, refs);
// create keyinfo
XPathFilterParameterSpec xpf = new XPathFilterParameterSpec(
"ancestor-or-self::dsig:X509Data",
Collections.singletonMap("dsig", XMLSignature.XMLNS));
RetrievalMethod rm = kifac.newRetrievalMethod("#object-4",
X509Data.TYPE, Collections.singletonList(fac.newTransform
(Transform.XPATH, xpf)));
KeyInfo ki = kifac.newKeyInfo(Collections.singletonList(rm), null);
Document doc = db.newDocument();
// create objects
List<XMLObject> objs = new ArrayList<>();
// Object 1
objs.add(fac.newXMLObject(Collections.singletonList
(new DOMStructure(doc.createTextNode("I am the text."))),
"object-1", "text/plain", null));
// Object 2
objs.add(fac.newXMLObject(Collections.singletonList
(new DOMStructure(doc.createTextNode("SSBhbSB0aGUgdGV4dC4="))),
"object-2", "text/plain", Transform.BASE64));
// Object 3
Element nc = doc.createElementNS(null, "NonCommentandus");
nc.setAttributeNS("http://www.w3.org/2000/xmlns/", "xmlns", "");
nc.appendChild(doc.createComment(" Commentandum "));
objs.add(fac.newXMLObject(Collections.singletonList
(new DOMStructure(nc)), "object-3", null, null));
// Manifest
List<Reference> manRefs = new ArrayList<>();
// Manifest Reference 1
manRefs.add(fac.newReference(STYLESHEET,
sha1, null, null, "manifest-reference-1"));
// Manifest Reference 2
manRefs.add(fac.newReference("#reference-1", sha1));
// Manifest Reference 3
List<Transform> manTrans = new ArrayList<>();
Document docxslt = db.parse(new ByteArrayInputStream(xslt.getBytes()));
Node xslElem = docxslt.getDocumentElement();
manTrans.add(fac.newTransform(Transform.XSLT,
new XSLTTransformParameterSpec(new DOMStructure(xslElem))));
manTrans.add(fac.newTransform(CanonicalizationMethod.INCLUSIVE,
(TransformParameterSpec) null));
manRefs.add(fac.newReference("#notaries", sha1, manTrans, null, null));
objs.add(fac.newXMLObject(Collections.singletonList
(fac.newManifest(manRefs, "manifest-1")), null, null, null));
// SignatureProperties
Element sa = doc.createElementNS("urn:demo", "SignerAddress");
sa.setAttributeNS("http://www.w3.org/2000/xmlns/", "xmlns", "urn:demo");
Element ip = doc.createElementNS("urn:demo", "IP");
ip.appendChild(doc.createTextNode("192.168.21.138"));
sa.appendChild(ip);
SignatureProperty sp = fac.newSignatureProperty
(Collections.singletonList(new DOMStructure(sa)),
"#signature", null);
SignatureProperties sps = fac.newSignatureProperties
(Collections.singletonList(sp), "signature-properties-1");
objs.add(fac.newXMLObject(Collections.singletonList(sps), null,
null, null));
// Object 4
List<Object> xds = new ArrayList<>();
xds.add("CN=User");
xds.add(kifac.newX509IssuerSerial
("CN=User", new BigInteger("45ef2729", 16)));
xds.add(signingCert);
objs.add(fac.newXMLObject(Collections.singletonList
(kifac.newX509Data(xds)), "object-4", null, null));
// create XMLSignature
XMLSignature sig = fac.newXMLSignature(si, ki, objs, "signature", null);
DocumentBuilderFactory dbf = DocumentBuilderFactory.newInstance();
dbf.setNamespaceAware(true);
dbf.setValidating(false);
Document envDoc = dbf.newDocumentBuilder().parse
(new FileInputStream(ENVELOPE));
Element ys = (Element)
envDoc.getElementsByTagName("YoursSincerely").item(0);
DOMSignContext dsc = new DOMSignContext(signingKey, ys);
dsc.setURIDereferencer(httpUd);
sig.sign(dsc);
// StringWriter sw = new StringWriter();
// dumpDocument(envDoc, sw);
NodeList nl =
envDoc.getElementsByTagNameNS(XMLSignature.XMLNS, "Signature");
if (nl.getLength() == 0) {
throw new Exception("Couldn't find signature Element");
}
Element sigElement = (Element) nl.item(0);
DOMValidateContext dvc = new DOMValidateContext
(new X509KeySelector(ks), sigElement);
dvc.setURIDereferencer(httpUd);
File f = new File(
System.getProperty("dir.test.vector.baltimore") +
System.getProperty("file.separator") +
"merlin-xmldsig-twenty-three" +
System.getProperty("file.separator"));
dvc.setBaseURI(f.toURI().toString());
XMLSignature sig2 = fac.unmarshalXMLSignature(dvc);
if (sig.equals(sig2) == false) {
throw new Exception
("Unmarshalled signature is not equal to generated signature");
}
if (sig2.validate(dvc) == false) {
throw new Exception("Validation of generated signature failed");
}
System.out.println();
}
private static void dumpDocument(Document doc, Writer w) throws Exception {
TransformerFactory tf = TransformerFactory.newInstance();
Transformer trans = tf.newTransformer();
// trans.setOutputProperty(OutputKeys.INDENT, "yes");
trans.transform(new DOMSource(doc), new StreamResult(w));
}
private static void test_create_signature_external
(SignatureMethod sm, KeyInfo ki, Key signingKey, KeySelector ks,
boolean b64) throws Exception {
// create reference
Reference ref;
if (b64) {
ref = fac.newReference
(STYLESHEET_B64,
sha1, Collections.singletonList
(fac.newTransform(Transform.BASE64,
(TransformParameterSpec) null)), null, null);
} else {
ref = fac.newReference(STYLESHEET, sha1);
}
// create SignedInfo
SignedInfo si = fac.newSignedInfo(withoutComments, sm,
Collections.singletonList(ref));
Document doc = db.newDocument();
// create XMLSignature
XMLSignature sig = fac.newXMLSignature(si, ki);
DOMSignContext dsc = new DOMSignContext(signingKey, doc);
dsc.setURIDereferencer(httpUd);
sig.sign(dsc);
DOMValidateContext dvc = new DOMValidateContext
(ks, doc.getDocumentElement());
File f = new File(DATA_DIR);
dvc.setBaseURI(f.toURI().toString());
dvc.setURIDereferencer(httpUd);
XMLSignature sig2 = fac.unmarshalXMLSignature(dvc);
if (sig.equals(sig2) == false) {
throw new Exception
("Unmarshalled signature is not equal to generated signature");
}
if (sig2.validate(dvc) == false) {
throw new Exception("Validation of generated signature failed");
}
}
private static void test_create_signature_enveloping
(DigestMethod dm, SignatureMethod sm, KeyInfo ki, Key signingKey,
KeySelector ks, boolean b64) throws Exception {
// create reference
Reference ref;
if (b64) {
ref = fac.newReference("#object", dm, Collections.singletonList
(fac.newTransform(Transform.BASE64,
(TransformParameterSpec) null)), null, null);
} else {
ref = fac.newReference("#object", dm);
}
// create SignedInfo
SignedInfo si = fac.newSignedInfo(withoutComments, sm,
Collections.singletonList(ref));
Document doc = db.newDocument();
// create Objects
String text = b64 ? "c29tZSB0ZXh0" : "some text";
XMLObject obj = fac.newXMLObject(Collections.singletonList
(new DOMStructure(doc.createTextNode(text))),
"object", null, null);
// create XMLSignature
XMLSignature sig = fac.newXMLSignature
(si, ki, Collections.singletonList(obj), null, null);
DOMSignContext dsc = new DOMSignContext(signingKey, doc);
sig.sign(dsc);
// dumpDocument(doc, new FileWriter("/tmp/foo.xml"));
DOMValidateContext dvc = new DOMValidateContext
(ks, doc.getDocumentElement());
XMLSignature sig2 = fac.unmarshalXMLSignature(dvc);
if (sig.equals(sig2) == false) {
throw new Exception
("Unmarshalled signature is not equal to generated signature");
}
if (sig2.validate(dvc) == false) {
throw new Exception("Validation of generated signature failed");
}
}
static void test_create_exc_signature() throws Exception {
System.out.println("* Generating exc_signature.xml");
List<Reference> refs = new ArrayList<>(4);
// create reference 1
refs.add(fac.newReference
("#xpointer(id('to-be-signed'))", sha1,
Collections.singletonList
(fac.newTransform(CanonicalizationMethod.EXCLUSIVE,
(TransformParameterSpec) null)),
null, null));
// create reference 2
List<String> prefixList = new ArrayList<>(2);
prefixList.add("bar");
prefixList.add("#default");
ExcC14NParameterSpec params = new ExcC14NParameterSpec(prefixList);
refs.add(fac.newReference
("#xpointer(id('to-be-signed'))", sha1,
Collections.singletonList
(fac.newTransform(CanonicalizationMethod.EXCLUSIVE, params)),
null, null));
// create reference 3
refs.add(fac.newReference
("#xpointer(id('to-be-signed'))", sha1,
Collections.singletonList(fac.newTransform
(CanonicalizationMethod.EXCLUSIVE_WITH_COMMENTS,
(TransformParameterSpec) null)),
null, null));
// create reference 4
prefixList = new ArrayList<>(2);
prefixList.add("bar");
prefixList.add("#default");
params = new ExcC14NParameterSpec(prefixList);
refs.add(fac.newReference
("#xpointer(id('to-be-signed'))", sha1,
Collections.singletonList(fac.newTransform
(CanonicalizationMethod.EXCLUSIVE_WITH_COMMENTS, params)),
null, null));
// create SignedInfo
SignedInfo si = fac.newSignedInfo(
fac.newCanonicalizationMethod
(CanonicalizationMethod.EXCLUSIVE,
(C14NMethodParameterSpec) null),
dsaSha1, refs);
// create KeyInfo
List<XMLStructure> kits = new ArrayList<>(2);
kits.add(kifac.newKeyValue(validatingKey));
KeyInfo ki = kifac.newKeyInfo(kits);
// create Objects
Document doc = db.newDocument();
Element baz = doc.createElementNS("urn:bar", "bar:Baz");
Comment com = doc.createComment(" comment ");
baz.appendChild(com);
XMLObject obj = fac.newXMLObject(Collections.singletonList
(new DOMStructure(baz)), "to-be-signed", null, null);
// create XMLSignature
XMLSignature sig = fac.newXMLSignature
(si, ki, Collections.singletonList(obj), null, null);
Element foo = doc.createElementNS("urn:foo", "Foo");
foo.setAttributeNS("http://www.w3.org/2000/xmlns/", "xmlns", "urn:foo");
foo.setAttributeNS
("http://www.w3.org/2000/xmlns/", "xmlns:bar", "urn:bar");
doc.appendChild(foo);
DOMSignContext dsc = new DOMSignContext(signingKey, foo);
dsc.putNamespacePrefix(XMLSignature.XMLNS, "dsig");
sig.sign(dsc);
// dumpDocument(doc, new FileWriter("/tmp/foo.xml"));
DOMValidateContext dvc = new DOMValidateContext
(new KeySelectors.KeyValueKeySelector(), foo.getLastChild());
XMLSignature sig2 = fac.unmarshalXMLSignature(dvc);
if (sig.equals(sig2) == false) {
throw new Exception
("Unmarshalled signature is not equal to generated signature");
}
if (sig2.validate(dvc) == false) {
throw new Exception("Validation of generated signature failed");
}
System.out.println();
}
static void test_create_sign_spec() throws Exception {
System.out.println("* Generating sign-spec.xml");
List<Reference> refs = new ArrayList<>(2);
// create reference 1
List<XPathType> types = new ArrayList<>(3);
types.add(new XPathType(" //ToBeSigned ", XPathType.Filter.INTERSECT));
types.add(new XPathType(" //NotToBeSigned ",
XPathType.Filter.SUBTRACT));
types.add(new XPathType(" //ReallyToBeSigned ",
XPathType.Filter.UNION));
XPathFilter2ParameterSpec xp1 = new XPathFilter2ParameterSpec(types);
refs.add(fac.newReference("", sha1,
Collections.singletonList(fac.newTransform(Transform.XPATH2, xp1)),
null, null));
// create reference 2
List<Transform> trans2 = new ArrayList<>(2);
trans2.add(fac.newTransform(Transform.ENVELOPED,
(TransformParameterSpec) null));
XPathFilter2ParameterSpec xp2 = new XPathFilter2ParameterSpec
(Collections.singletonList
(new XPathType(" / ", XPathType.Filter.UNION)));
trans2.add(fac.newTransform(Transform.XPATH2, xp2));
refs.add(fac.newReference("#signature-value", sha1, trans2, null, null));
// create SignedInfo
SignedInfo si = fac.newSignedInfo(
fac.newCanonicalizationMethod
(CanonicalizationMethod.INCLUSIVE,
(C14NMethodParameterSpec) null),
dsaSha1, refs);
// create KeyInfo
List<XMLStructure> kits = new ArrayList<>(2);
kits.add(kifac.newKeyValue(validatingKey));
List<Object> xds = new ArrayList<>(2);
xds.add("CN=User");
xds.add(signingCert);
kits.add(kifac.newX509Data(xds));
KeyInfo ki = kifac.newKeyInfo(kits);
// create XMLSignature
XMLSignature sig = fac.newXMLSignature
(si, ki, null, null, "signature-value");
Document doc = db.newDocument();
Element tbs1 = doc.createElementNS(null, "ToBeSigned");
Comment tbs1Com = doc.createComment(" comment ");
Element tbs1Data = doc.createElementNS(null, "Data");
Element tbs1ntbs = doc.createElementNS(null, "NotToBeSigned");
Element tbs1rtbs = doc.createElementNS(null, "ReallyToBeSigned");
Comment tbs1rtbsCom = doc.createComment(" comment ");
Element tbs1rtbsData = doc.createElementNS(null, "Data");
tbs1rtbs.appendChild(tbs1rtbsCom);
tbs1rtbs.appendChild(tbs1rtbsData);
tbs1ntbs.appendChild(tbs1rtbs);
tbs1.appendChild(tbs1Com);
tbs1.appendChild(tbs1Data);
tbs1.appendChild(tbs1ntbs);
Element tbs2 = doc.createElementNS(null, "ToBeSigned");
Element tbs2Data = doc.createElementNS(null, "Data");
Element tbs2ntbs = doc.createElementNS(null, "NotToBeSigned");
Element tbs2ntbsData = doc.createElementNS(null, "Data");
tbs2ntbs.appendChild(tbs2ntbsData);
tbs2.appendChild(tbs2Data);
tbs2.appendChild(tbs2ntbs);
Element document = doc.createElementNS(null, "Document");
document.appendChild(tbs1);
document.appendChild(tbs2);
doc.appendChild(document);
DOMSignContext dsc = new DOMSignContext(signingKey, document);
sig.sign(dsc);
// dumpDocument(doc, new FileWriter("/tmp/foo.xml"));
DOMValidateContext dvc = new DOMValidateContext
(new KeySelectors.KeyValueKeySelector(), document.getLastChild());
XMLSignature sig2 = fac.unmarshalXMLSignature(dvc);
if (sig.equals(sig2) == false) {
throw new Exception
("Unmarshalled signature is not equal to generated signature");
}
if (sig2.validate(dvc) == false) {
throw new Exception("Validation of generated signature failed");
}
System.out.println();
}
// Only print if there is an error.
static void test_create_detached_signature(
String canonicalizationMethod, String signatureMethod,
String digestMethod, String transform, KeyInfoType keyInfo,
Content contentType, int port, boolean expectedFailure,
Class expectedException) {
String title = "\nTest detached signature:"
+ "\n Canonicalization method: " + canonicalizationMethod
+ "\n Signature method: " + signatureMethod
+ "\n Transform: " + transform
+ "\n Digest method: " + digestMethod
+ "\n KeyInfoType: " + keyInfo
+ "\n Content type: " + contentType
+ "\n Expected failure: " + (expectedFailure ? "yes" : "no")
+ "\n Expected exception: " + (expectedException == null ?
"no" : expectedException.getName());
try {
boolean success = test_create_detached_signature0(
canonicalizationMethod,
signatureMethod,
digestMethod,
transform,
keyInfo,
contentType,
port);
if (success && expectedFailure) {
System.out.println(title);
System.out.println("Signature validation unexpectedly passed");
result = false;
} else if (!success && !expectedFailure) {
System.out.println(title);
System.out.println("Signature validation unexpectedly failed");
result = false;
} else if (expectedException != null) {
System.out.println(title);
System.out.println("Expected " + expectedException
+ " not thrown");
result = false;
}
} catch (Exception e) {
if (expectedException == null
|| !e.getClass().isAssignableFrom(expectedException)) {
System.out.println(title);
System.out.println("Unexpected exception: " + e);
e.printStackTrace(System.out);
result = false;
}
}
}
// Print out as little as possible. This method will be called many times.
static boolean test_create_detached_signature0(String canonicalizationMethod,
String signatureMethod, String digestMethod, String transform,
KeyInfoType keyInfo, Content contentType, int port)
throws Exception {
System.out.print("-S");
System.out.flush();
DocumentBuilderFactory dbf = DocumentBuilderFactory.newInstance();
dbf.setNamespaceAware(true);
dbf.setValidating(false);
// Create SignedInfo
DigestMethod dm = fac.newDigestMethod(digestMethod, null);
List transformList = null;
if (transform != null) {
TransformParameterSpec params = null;
switch (transform) {
case Transform.XPATH:
params = new XPathFilterParameterSpec("//.");
break;
case Transform.XPATH2:
params = new XPathFilter2ParameterSpec(
Collections.singletonList(new XPathType("//.",
XPathType.Filter.INTERSECT)));
break;
case Transform.XSLT:
Element element = dbf.newDocumentBuilder()
.parse(new ByteArrayInputStream(xslt.getBytes()))
.getDocumentElement();
DOMStructure stylesheet = new DOMStructure(element);
params = new XSLTTransformParameterSpec(stylesheet);
break;
}
transformList = Collections.singletonList(fac.newTransform(
transform, params));
}
String url = String.format("http://localhost:%d/%s", port, contentType);
List refs = Collections.singletonList(fac.newReference(url, dm,
transformList, null, null));
CanonicalizationMethod cm = fac.newCanonicalizationMethod(
canonicalizationMethod, (C14NMethodParameterSpec) null);
SignatureMethod sm = fac.newSignatureMethod(signatureMethod, null);
Key[] pair = getCachedKeys(signatureMethod);
Key signingKey = pair[0];
Key validationKey = pair[1];
SignedInfo si = fac.newSignedInfo(cm, sm, refs, null);
// Create KeyInfo
KeyInfoFactory kif = fac.getKeyInfoFactory();
List list = null;
if (keyInfo == KeyInfoType.KeyValue) {
if (validationKey instanceof PublicKey) {
KeyValue kv = kif.newKeyValue((PublicKey) validationKey);
list = Collections.singletonList(kv);
}
} else if (keyInfo == KeyInfoType.x509data) {
list = Collections.singletonList(
kif.newX509Data(Collections.singletonList("cn=Test")));
} else if (keyInfo == KeyInfoType.KeyName) {
list = Collections.singletonList(kif.newKeyName("Test"));
} else {
throw new RuntimeException("Unexpected KeyInfo: " + keyInfo);
}
KeyInfo ki = list != null ? kif.newKeyInfo(list) : null;
// Create an empty doc for detached signature
Document doc = dbf.newDocumentBuilder().newDocument();
DOMSignContext xsc = new DOMSignContext(signingKey, doc);
// Generate signature
XMLSignature signature = fac.newXMLSignature(si, ki);
signature.sign(xsc);
// Save signature
String signatureString;
try (StringWriter writer = new StringWriter()) {
TransformerFactory tf = TransformerFactory.newInstance();
Transformer trans = tf.newTransformer();
Node parent = xsc.getParent();
trans.transform(new DOMSource(parent), new StreamResult(writer));
signatureString = writer.toString();
}
System.out.print("V");
System.out.flush();
try (ByteArrayInputStream bis = new ByteArrayInputStream(
signatureString.getBytes())) {
doc = dbf.newDocumentBuilder().parse(bis);
}
NodeList nodeLst = doc.getElementsByTagName("Signature");
Node node = nodeLst.item(0);
if (node == null) {
throw new RuntimeException("Couldn't find Signature element");
}
if (!(node instanceof Element)) {
throw new RuntimeException("Unexpected node type");
}
Element sig = (Element) node;
// Validate signature
DOMValidateContext vc = new DOMValidateContext(validationKey, sig);
vc.setProperty("org.jcp.xml.dsig.secureValidation", Boolean.FALSE);
signature = fac.unmarshalXMLSignature(vc);
boolean success = signature.validate(vc);
if (!success) {
System.out.print("x");
System.out.flush();
return false;
}
success = signature.getSignatureValue().validate(vc);
if (!success) {
System.out.print("X");
System.out.flush();
return false;
}
return true;
}
private static Key[] getCachedKeys(String signatureMethod) {
return cachedKeys.computeIfAbsent(signatureMethod, sm -> {
try {
System.out.print("<create keys for " + sm + ">");
System.out.flush();
if (sm.contains("#hmac-")) {
// http://...#hmac-sha1 -> hmac-sha1 -> hmacsha1
String algName = sm
.substring(sm.indexOf('#') + 1)
.replace("-", "");
KeyGenerator kg = KeyGenerator.getInstance(algName);
Key signingKey = kg.generateKey();
return new Key[] { signingKey, signingKey};
} else {
KeyPairGenerator kpg;
if (sm.contains("#rsa-")
|| sm.contains("-rsa-MGF1")) {
kpg = KeyPairGenerator.getInstance("RSA");
kpg.initialize(
sm.contains("#sha512-rsa-MGF1") ? 2048 : 1024);
} else if (sm.contains("#dsa-")) {
kpg = KeyPairGenerator.getInstance("DSA");
kpg.initialize(1024);
} else if (sm.contains("#ecdsa-")) {
kpg = KeyPairGenerator.getInstance("EC");
kpg.initialize(256);
} else {
throw new RuntimeException("Unsupported signature algorithm");
}
KeyPair kp = kpg.generateKeyPair();
return new Key[] { kp.getPrivate(), kp.getPublic()};
}
} catch (NoSuchAlgorithmException e) {
throw new AssertionError("Should not happen", e);
}
});
}
private static final String DSA_Y =
"070662842167565771936588335128634396171789331656318483584455493822" +
"400811200853331373030669235424928346190274044631949560438023934623" +
"71310375123430985057160";
private static final String DSA_P =
"013232376895198612407547930718267435757728527029623408872245156039" +
"757713029036368719146452186041204237350521785240337048752071462798" +
"273003935646236777459223";
private static final String DSA_Q =
"0857393771208094202104259627990318636601332086981";
private static final String DSA_G =
"054216440574364751416096484883257051280474283943804743768346673007" +
"661082626139005426812890807137245973106730741193551360857959820973" +
"90670890367185141189796";
private static final String DSA_X =
"0527140396812450214498055937934275626078768840117";
private static final String DSA_2048_Y =
"15119007057343785981993995134621348945077524760182795513668325877793414638620983617627033248732235626178802906346261435991040697338468329634416089753032362617771631199351767336660070462291411472735835843440140283101463231807789628656218830720378705090795271104661936237385140354825159080766174663596286149653433914842868551355716015585570827642835307073681358328172009941968323702291677280809277843998510864653406122348712345584706761165794179850728091522094227603562280855104749858249588234915206290448353957550635709520273178475097150818955098638774564910092913714625772708285992586894795017709678223469405896699928";
private static final String DSA_2048_P =
"18111848663142005571178770624881214696591339256823507023544605891411707081617152319519180201250440615163700426054396403795303435564101919053459832890139496933938670005799610981765220283775567361483662648340339405220348871308593627647076689407931875483406244310337925809427432681864623551598136302441690546585427193224254314088256212718983105131138772434658820375111735710449331518776858786793875865418124429269409118756812841019074631004956409706877081612616347900606555802111224022921017725537417047242635829949739109274666495826205002104010355456981211025738812433088757102520562459649777989718122219159982614304359";
private static final String DSA_2048_Q =
"19689526866605154788513693571065914024068069442724893395618704484701";
private static final String DSA_2048_G =
"2859278237642201956931085611015389087970918161297522023542900348087718063098423976428252369340967506010054236052095950169272612831491902295835660747775572934757474194739347115870723217560530672532404847508798651915566434553729839971841903983916294692452760249019857108409189016993380919900231322610083060784269299257074905043636029708121288037909739559605347853174853410208334242027740275688698461842637641566056165699733710043802697192696426360843173620679214131951400148855611740858610821913573088059404459364892373027492936037789337011875710759208498486908611261954026964574111219599568903257472567764789616958430";
private static final String DSA_2048_X =
"14562787764977288900757387442281559936279834964901963465277698843172";
private static final String RSA_MOD =
"010800185049102889923150759252557522305032794699952150943573164381" +
"936603255999071981574575044810461362008102247767482738822150129277" +
"490998033971789476107463";
private static final String RSA_PRIV =
"016116973584421969795445996229612671947635798429212816611707210835" +
"915586591340598683996088487065438751488342251960069575392056288063" +
"6800379454345804879553";
private static final String RSA_PUB = "065537";
private static final String RSA_1024_MOD = "098871307553789439961130765" +
"909423744508062468450669519128736624058048856940468016843888594585" +
"322862378444314635412341974900625010364163960238734457710620107530" +
"573945081856371709138380902553309075505688814637544923038853658690" +
"857672483016239697038853418682988686871489963827000080098971762923" +
"833614557257607521";
private static final String RSA_1024_PRIV = "03682574144968491431483287" +
"297021581096848810374110568017963075809477047466189822987258068867" +
"704855380407747867998863645890602646601140183818953428006646987710" +
"237008997971129772408397621801631622129297063463868593083106979716" +
"204903524890556839550490384015324575598723478554854070823335021842" +
"210112348400928769";
private static final String RSA_2048_MOD = "243987087691547796017401146540"
+ "9844666035826535295137885613771811531602666348704672255163984907599"
+ "4298308997053582963763109207465354916871136820987101812436158377530"
+ "6117270010853232249007544652859474372258057062943608962079402484091"
+ "8121307687901225514249308620012025884376216406019656605767311580224"
+ "4715304950770504195751384382230005665573033547124060755957932161045"
+ "7288008201789401237690181537646952377591671113513382933711547044631"
+ "6055957820531234310030119265612054594720774653570278810236807313332"
+ "5293876225940483622056721445101719346295263740434720907474414905706"
+ "086605825077661246082956613711071075569880930102141";
private static final String RSA_2048_PRIV = "12265063405401593206575340300"
+ "5824698296458954796982342251774894076489082263237675553422307220014"
+ "4395010131540855227949365446755185799985229111139387016816011165826"
+ "5498929552020323994756478872375078784799489891112924298115119573429"
+ "3677627114115546751555523555375278381312502020990154549150867571006"
+ "4470674155961982582802981649643127000520693025433874996570667724459"
+ "3395670697152709457274026580106078581585077146782827694403672461289"
+ "9143004401242754355097671446183871158504602884373174300123820136505"
+ "6449932139773607305129273545117363975014750743804523418307647791195"
+ "6408859873123458434820062206102268853256685162004893";
private static final String EC_P256_X =
"335863644451761614592446380116804721648611739647823420286081723541" +
"6166183710";
private static final String EC_P256_Y =
"951559601159729477487064127150143688502130342917782252098602422796" +
"95457910701";
private static final String EC_P256_S =
"425976209773168452211813225517384419928639977904006759709292218082" +
"7440083936";
private static final ECParameterSpec EC_P256_PARAMS = initECParams(
"FFFFFFFF00000001000000000000000000000000FFFFFFFFFFFFFFFFFFFFFFFF",
"FFFFFFFF00000001000000000000000000000000FFFFFFFFFFFFFFFFFFFFFFFC",
"5AC635D8AA3A93E7B3EBBD55769886BC651D06B0CC53B0F63BCE3C3E27D2604B",
"6B17D1F2E12C4247F8BCE6E563A440F277037D812DEB33A0F4A13945D898C296",
"4FE342E2FE1A7F9B8EE7EB4A7C0F9E162BCE33576B315ECECBB6406837BF51F5",
"FFFFFFFF00000000FFFFFFFFFFFFFFFFBCE6FAADA7179E84F3B9CAC2FC632551",
1
);
private static final String EC_P384_X =
"12144058647679082341340699736608428955270957565259459672517275506071643671835484144490620216582303669654008841724053";
private static final String EC_P384_Y =
"18287745972107701566600963632634101287058332546756092926848497481238534346489545826483592906634896557151987868614320";
private static final String EC_P384_S =
"10307785759830534742680442271492590599236624208247590184679565032330507874096079979152605984203102224450595283943382";
private static final ECParameterSpec EC_P384_PARAMS = initECParams(
"FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFFFF0000000000000000FFFFFFFF",
"FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFFFF0000000000000000FFFFFFFC",
"B3312FA7E23EE7E4988E056BE3F82D19181D9C6EFE8141120314088F5013875AC656398D8A2ED19D2A85C8EDD3EC2AEF",
"AA87CA22BE8B05378EB1C71EF320AD746E1D3B628BA79B9859F741E082542A385502F25DBF55296C3A545E3872760AB7",
"3617DE4A96262C6F5D9E98BF9292DC29F8F41DBD289A147CE9DA3113B5F0B8C00A60B1CE1D7E819D7A431D7C90EA0E5F",
"FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFC7634D81F4372DDF581A0DB248B0A77AECEC196ACCC52973",
1
);
private static final String EC_P521_X =
"4157918188927862838251799402582135611021257663417126086145819679867926857146776190737187582274664373117054717389603317411991660346043842712448912355335343997";
private static final String EC_P521_Y =
"4102838062751704796157456866854813794620023146924181568434486703918224542844053923233919899911519054998554969832861957437850996213216829205401947264294066288";
private static final String EC_P521_S =
"4857798533181496041050215963883119936300918353498701880968530610687256097257307590162398707429640390843595868713096292822034014722985178583665959048714417342";
private static final ECParameterSpec EC_P521_PARAMS = initECParams(
"01FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF",
"01FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFC",
"0051953EB9618E1C9A1F929A21A0B68540EEA2DA725B99B315F3B8B489918EF109E156193951EC7E937B1652C0BD3BB1BF073573DF883D2C34F1EF451FD46B503F00",
"00C6858E06B70404E9CD9E3ECB662395B4429C648139053FB521F828AF606B4D3DBAA14B5E77EFE75928FE1DC127A2FFA8DE3348B3C1856A429BF97E7E31C2E5BD66",
"011839296A789A3BC0045C8A5FB42C7D1BD998F54449579B446817AFBD17273E662C97EE72995EF42640C550B9013FAD0761353C7086A272C24088BE94769FD16650",
"01FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFA51868783BF2F966B7FCC0148F709A5D03BB5C9B8899C47AEBB6FB71E91386409",
1
);
private static ECParameterSpec initECParams(
String sfield, String a, String b, String gx, String gy,
String n, int h) {
ECField field = new ECFieldFp(bigInt(sfield));
EllipticCurve curve = new EllipticCurve(field,
bigInt(a), bigInt(b));
ECPoint g = new ECPoint(bigInt(gx), bigInt(gy));
return new ECParameterSpec(curve, g, bigInt(n), h);
}
private static BigInteger bigInt(String s) {
return new BigInteger(s, 16);
}
private static PublicKey getPublicKey(String algo, int keysize)
throws Exception {
KeyFactory kf = KeyFactory.getInstance(algo);
KeySpec kspec;
if (algo.equalsIgnoreCase("DSA")) {
if (keysize == 1024) {
kspec = new DSAPublicKeySpec(new BigInteger(DSA_Y),
new BigInteger(DSA_P),
new BigInteger(DSA_Q),
new BigInteger(DSA_G));
} else if (keysize == 2048) {
kspec = new DSAPublicKeySpec(new BigInteger(DSA_2048_Y),
new BigInteger(DSA_2048_P),
new BigInteger(DSA_2048_Q),
new BigInteger(DSA_2048_G));
} else throw new RuntimeException("Unsupported keysize:" + keysize);
} else if (algo.equalsIgnoreCase("RSA")) {
if (keysize == 512) {
kspec = new RSAPublicKeySpec(new BigInteger(RSA_MOD),
new BigInteger(RSA_PUB));
} else if (keysize == 1024) {
kspec = new RSAPublicKeySpec(new BigInteger(RSA_1024_MOD),
new BigInteger(RSA_PUB));
} else if (keysize == 2048) {
kspec = new RSAPublicKeySpec(new BigInteger(RSA_2048_MOD),
new BigInteger(RSA_PUB));
} else throw new RuntimeException("Unsupported keysize:" + keysize);
} else throw new RuntimeException("Unsupported key algorithm " + algo);
return kf.generatePublic(kspec);
}
private static PublicKey getECPublicKey(String curve) throws Exception {
KeyFactory kf = KeyFactory.getInstance("EC");
String x, y;
ECParameterSpec params;
switch (curve) {
case "P256":
x = EC_P256_X;
y = EC_P256_Y;
params = EC_P256_PARAMS;
break;
case "P384":
x = EC_P384_X;
y = EC_P384_Y;
params = EC_P384_PARAMS;
break;
case "P521":
x = EC_P521_X;
y = EC_P521_Y;
params = EC_P521_PARAMS;
break;
default:
throw new Exception("Unsupported curve: " + curve);
}
KeySpec kspec = new ECPublicKeySpec(new ECPoint(new BigInteger(x),
new BigInteger(y)),
params);
return kf.generatePublic(kspec);
}
private static PrivateKey getPrivateKey(String algo, int keysize)
throws Exception {
KeyFactory kf = KeyFactory.getInstance(algo);
KeySpec kspec;
if (algo.equalsIgnoreCase("DSA")) {
if (keysize == 1024) {
kspec = new DSAPrivateKeySpec
(new BigInteger(DSA_X), new BigInteger(DSA_P),
new BigInteger(DSA_Q), new BigInteger(DSA_G));
} else if (keysize == 2048) {
kspec = new DSAPrivateKeySpec
(new BigInteger(DSA_2048_X), new BigInteger(DSA_2048_P),
new BigInteger(DSA_2048_Q), new BigInteger(DSA_2048_G));
} else throw new RuntimeException("Unsupported keysize:" + keysize);
} else if (algo.equalsIgnoreCase("RSA")) {
if (keysize == 512) {
kspec = new RSAPrivateKeySpec
(new BigInteger(RSA_MOD), new BigInteger(RSA_PRIV));
} else if (keysize == 1024) {
kspec = new RSAPrivateKeySpec(new BigInteger(RSA_1024_MOD),
new BigInteger(RSA_1024_PRIV));
} else if (keysize == 2048) {
kspec = new RSAPrivateKeySpec(new BigInteger(RSA_2048_MOD),
new BigInteger(RSA_2048_PRIV));
} else throw new RuntimeException("Unsupported key algorithm " + algo);
} else throw new RuntimeException("Unsupported key algorithm " + algo);
return kf.generatePrivate(kspec);
}
private static PrivateKey getECPrivateKey(String curve) throws Exception {
String s;
ECParameterSpec params;
switch (curve) {
case "P256":
s = EC_P256_S;
params = EC_P256_PARAMS;
break;
case "P384":
s = EC_P384_S;
params = EC_P384_PARAMS;
break;
case "P521":
s = EC_P521_S;
params = EC_P521_PARAMS;
break;
default:
throw new Exception("Unsupported curve: " + curve);
}
KeyFactory kf = KeyFactory.getInstance("EC");
KeySpec kspec = new ECPrivateKeySpec(new BigInteger(s), params);
return kf.generatePrivate(kspec);
}
private static SecretKey getSecretKey(final byte[] secret) {
return new SecretKey() {
public String getFormat() { return "RAW"; }
public byte[] getEncoded() { return secret; }
public String getAlgorithm(){ return "SECRET"; }
};
}
/**
* This URIDereferencer returns locally cached copies of http content to
* avoid test failures due to network glitches, etc.
*/
private static class HttpURIDereferencer implements URIDereferencer {
private URIDereferencer defaultUd;
HttpURIDereferencer() {
defaultUd = XMLSignatureFactory.getInstance().getURIDereferencer();
}
public Data dereference(final URIReference ref, XMLCryptoContext ctx)
throws URIReferenceException {
String uri = ref.getURI();
if (uri.equals(STYLESHEET) || uri.equals(STYLESHEET_B64)) {
try {
FileInputStream fis = new FileInputStream(new File
(DATA_DIR, uri.substring(uri.lastIndexOf('/'))));
return new OctetStreamData(fis,ref.getURI(),ref.getType());
} catch (Exception e) { throw new URIReferenceException(e); }
}
// fallback on builtin deref
return defaultUd.dereference(ref, ctx);
}
}
// local http server
static class Http implements HttpHandler, AutoCloseable {
private final HttpServer server;
private Http(HttpServer server) {
this.server = server;
}
static Http startServer() throws IOException {
HttpServer server = HttpServer.create(new InetSocketAddress(0), 0);
return new Http(server);
}
void start() {
server.createContext("/", this);
server.start();
}
void stop() {
server.stop(0);
}
int getPort() {
return server.getAddress().getPort();
}
@Override
public void handle(HttpExchange t) throws IOException {
try {
String type;
String path = t.getRequestURI().getPath();
if (path.startsWith("/")) {
type = path.substring(1);
} else {
type = path;
}
String contentTypeHeader = "";
byte[] output = new byte[] {};
int code = 200;
Content testContentType = Content.valueOf(type);
switch (testContentType) {
case Base64:
contentTypeHeader = "application/octet-stream";
output = "VGVzdA==".getBytes();
break;
case Text:
contentTypeHeader = "text/plain";
output = "Text".getBytes();
break;
case Xml:
contentTypeHeader = "application/xml";
output = "<tag>test</tag>".getBytes();
break;
case NotExisitng:
code = 404;
break;
default:
throw new IOException("Unknown test content type");
}
t.getResponseHeaders().set("Content-Type", contentTypeHeader);
t.sendResponseHeaders(code, output.length);
t.getResponseBody().write(output);
} catch (IOException e) {
System.out.println("Exception: " + e);
t.sendResponseHeaders(500, 0);
}
t.close();
}
@Override
public void close() {
stop();
}
}
}