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org.openeuler.sun.security.ssl.DHServerKeyExchange Maven / Gradle / Ivy
/*
* Copyright (c) 2015, 2018, 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. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* 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.
*/
package org.openeuler.sun.security.ssl;
import java.io.IOException;
import java.math.BigInteger;
import java.nio.ByteBuffer;
import java.security.CryptoPrimitive;
import java.security.GeneralSecurityException;
import java.security.InvalidAlgorithmParameterException;
import java.security.InvalidKeyException;
import java.security.Key;
import java.security.KeyFactory;
import java.security.NoSuchAlgorithmException;
import java.security.PrivateKey;
import java.security.PublicKey;
import java.security.Signature;
import java.security.SignatureException;
import java.text.MessageFormat;
import java.util.EnumSet;
import java.util.Locale;
import java.util.Map;
import javax.crypto.interfaces.DHPublicKey;
import javax.crypto.spec.DHParameterSpec;
import javax.crypto.spec.DHPublicKeySpec;
import org.openeuler.sun.security.ssl.DHKeyExchange.DHECredentials;
import org.openeuler.sun.security.ssl.DHKeyExchange.DHEPossession;
import org.openeuler.sun.security.ssl.SSLHandshake.HandshakeMessage;
import org.openeuler.sun.security.ssl.SupportedGroupsExtension.NamedGroup;
import org.openeuler.sun.security.ssl.X509Authentication.X509Credentials;
import org.openeuler.sun.security.ssl.X509Authentication.X509Possession;
import org.openeuler.sun.misc.HexDumpEncoder;
import sun.security.util.KeyUtil;
/**
* Pack of the ServerKeyExchange handshake message.
*/
final class DHServerKeyExchange {
static final SSLConsumer dhHandshakeConsumer =
new DHServerKeyExchangeConsumer();
static final HandshakeProducer dhHandshakeProducer =
new DHServerKeyExchangeProducer();
/**
* The DiffieHellman ServerKeyExchange handshake message.
*/
private static final
class DHServerKeyExchangeMessage extends HandshakeMessage {
// public key encapsulated in this message
private final byte[] p; // 1 to 2^16 - 1 bytes
private final byte[] g; // 1 to 2^16 - 1 bytes
private final byte[] y; // 1 to 2^16 - 1 bytes
// the signature algorithm used by this ServerKeyExchange message
private final boolean useExplicitSigAlgorithm;
private final SignatureScheme signatureScheme;
// signature bytes, or null if anonymous
private final byte[] paramsSignature;
DHServerKeyExchangeMessage(
HandshakeContext handshakeContext) throws IOException {
super(handshakeContext);
// This happens in server side only.
ServerHandshakeContext shc =
(ServerHandshakeContext)handshakeContext;
DHEPossession dhePossession = null;
X509Possession x509Possession = null;
for (SSLPossession possession : shc.handshakePossessions) {
if (possession instanceof DHEPossession) {
dhePossession = (DHEPossession)possession;
if (x509Possession != null) {
break;
}
} else if (possession instanceof X509Possession) {
x509Possession = (X509Possession)possession;
if (dhePossession != null) {
break;
}
}
}
if (dhePossession == null) {
// unlikely
throw shc.conContext.fatal(Alert.ILLEGAL_PARAMETER,
"No DHE credentials negotiated for server key exchange");
}
DHPublicKey publicKey = dhePossession.publicKey;
DHParameterSpec params = publicKey.getParams();
this.p = Utilities.toByteArray(params.getP());
this.g = Utilities.toByteArray(params.getG());
this.y = Utilities.toByteArray(publicKey.getY());
if (x509Possession == null) {
// anonymous, no authentication, no signature
paramsSignature = null;
signatureScheme = null;
useExplicitSigAlgorithm = false;
} else {
useExplicitSigAlgorithm =
shc.negotiatedProtocol.useTLS12PlusSpec();
Signature signer = null;
if (useExplicitSigAlgorithm) {
Map.Entry schemeAndSigner =
SignatureScheme.getSignerOfPreferableAlgorithm(
shc.peerRequestedSignatureSchemes,
x509Possession,
shc.negotiatedProtocol);
if (schemeAndSigner == null) {
// Unlikely, the credentials generator should have
// selected the preferable signature algorithm properly.
throw shc.conContext.fatal(Alert.INTERNAL_ERROR,
"No supported signature algorithm for " +
x509Possession.popPrivateKey.getAlgorithm() +
" key");
} else {
signatureScheme = schemeAndSigner.getKey();
signer = schemeAndSigner.getValue();
}
} else {
signatureScheme = null;
try {
signer = getSignature(
x509Possession.popPrivateKey.getAlgorithm(),
x509Possession.popPrivateKey);
} catch (NoSuchAlgorithmException | InvalidKeyException e) {
throw shc.conContext.fatal(Alert.INTERNAL_ERROR,
"Unsupported signature algorithm: " +
x509Possession.popPrivateKey.getAlgorithm(), e);
}
}
byte[] signature = null;
try {
updateSignature(signer, shc.clientHelloRandom.randomBytes,
shc.serverHelloRandom.randomBytes);
signature = signer.sign();
} catch (SignatureException ex) {
throw shc.conContext.fatal(Alert.INTERNAL_ERROR,
"Failed to sign dhe parameters: " +
x509Possession.popPrivateKey.getAlgorithm(), ex);
}
paramsSignature = signature;
}
}
DHServerKeyExchangeMessage(HandshakeContext handshakeContext,
ByteBuffer m) throws IOException {
super(handshakeContext);
// This happens in client side only.
ClientHandshakeContext chc =
(ClientHandshakeContext)handshakeContext;
this.p = Record.getBytes16(m);
this.g = Record.getBytes16(m);
this.y = Record.getBytes16(m);
try {
KeyUtil.validate(new DHPublicKeySpec(
new BigInteger(1, y),
new BigInteger(1, p),
new BigInteger(1, p)));
} catch (InvalidKeyException ike) {
throw chc.conContext.fatal(Alert.HANDSHAKE_FAILURE,
"Invalid DH ServerKeyExchange: invalid parameters", ike);
}
X509Credentials x509Credentials = null;
for (SSLCredentials cd : chc.handshakeCredentials) {
if (cd instanceof X509Credentials) {
x509Credentials = (X509Credentials)cd;
break;
}
}
if (x509Credentials == null) {
// anonymous, no authentication, no signature
if (m.hasRemaining()) {
throw chc.conContext.fatal(Alert.HANDSHAKE_FAILURE,
"Invalid DH ServerKeyExchange: unknown extra data");
}
this.signatureScheme = null;
this.paramsSignature = null;
this.useExplicitSigAlgorithm = false;
return;
}
this.useExplicitSigAlgorithm =
chc.negotiatedProtocol.useTLS12PlusSpec();
if (useExplicitSigAlgorithm) {
int ssid = Record.getInt16(m);
signatureScheme = SignatureScheme.valueOf(ssid);
if (signatureScheme == null) {
throw chc.conContext.fatal(Alert.HANDSHAKE_FAILURE,
"Invalid signature algorithm (" + ssid +
") used in DH ServerKeyExchange handshake message");
}
if (!chc.localSupportedSignAlgs.contains(signatureScheme)) {
throw chc.conContext.fatal(Alert.HANDSHAKE_FAILURE,
"Unsupported signature algorithm (" +
signatureScheme.name +
") used in DH ServerKeyExchange handshake message");
}
} else {
this.signatureScheme = null;
}
// read and verify the signature
this.paramsSignature = Record.getBytes16(m);
Signature signer;
if (useExplicitSigAlgorithm) {
try {
signer = signatureScheme.getVerifier(
x509Credentials.popPublicKey);
} catch (NoSuchAlgorithmException | InvalidKeyException |
InvalidAlgorithmParameterException nsae) {
throw chc.conContext.fatal(Alert.INTERNAL_ERROR,
"Unsupported signature algorithm: " +
signatureScheme.name, nsae);
}
} else {
try {
signer = getSignature(
x509Credentials.popPublicKey.getAlgorithm(),
x509Credentials.popPublicKey);
} catch (NoSuchAlgorithmException | InvalidKeyException e) {
throw chc.conContext.fatal(Alert.INTERNAL_ERROR,
"Unsupported signature algorithm: " +
x509Credentials.popPublicKey.getAlgorithm(), e);
}
}
try {
updateSignature(signer,
chc.clientHelloRandom.randomBytes,
chc.serverHelloRandom.randomBytes);
if (!signer.verify(paramsSignature)) {
throw chc.conContext.fatal(Alert.HANDSHAKE_FAILURE,
"Invalid signature on DH ServerKeyExchange message");
}
} catch (SignatureException ex) {
throw chc.conContext.fatal(Alert.HANDSHAKE_FAILURE,
"Cannot verify DH ServerKeyExchange signature", ex);
}
}
@Override
public SSLHandshake handshakeType() {
return SSLHandshake.SERVER_KEY_EXCHANGE;
}
@Override
public int messageLength() {
int sigLen = 0;
if (paramsSignature != null) {
sigLen = 2 + paramsSignature.length;
if (useExplicitSigAlgorithm) {
sigLen += SignatureScheme.sizeInRecord();
}
}
return 6 + p.length + g.length + y.length + sigLen;
// 6: overhead for p, g, y values
}
@Override
public void send(HandshakeOutStream hos) throws IOException {
hos.putBytes16(p);
hos.putBytes16(g);
hos.putBytes16(y);
if (paramsSignature != null) {
if (useExplicitSigAlgorithm) {
hos.putInt16(signatureScheme.id);
}
hos.putBytes16(paramsSignature);
}
}
@Override
public String toString() {
if (paramsSignature == null) { // anonymous
MessageFormat messageFormat = new MessageFormat(
"\"DH ServerKeyExchange\": '{'\n" +
" \"parameters\": '{'\n" +
" \"dh_p\": '{'\n" +
"{0}\n" +
" '}',\n" +
" \"dh_g\": '{'\n" +
"{1}\n" +
" '}',\n" +
" \"dh_Ys\": '{'\n" +
"{2}\n" +
" '}',\n" +
" '}'\n" +
"'}'",
Locale.ENGLISH);
HexDumpEncoder hexEncoder = new HexDumpEncoder();
Object[] messageFields = {
Utilities.indent(
hexEncoder.encodeBuffer(p), " "),
Utilities.indent(
hexEncoder.encodeBuffer(g), " "),
Utilities.indent(
hexEncoder.encodeBuffer(y), " "),
};
return messageFormat.format(messageFields);
}
if (useExplicitSigAlgorithm) {
MessageFormat messageFormat = new MessageFormat(
"\"DH ServerKeyExchange\": '{'\n" +
" \"parameters\": '{'\n" +
" \"dh_p\": '{'\n" +
"{0}\n" +
" '}',\n" +
" \"dh_g\": '{'\n" +
"{1}\n" +
" '}',\n" +
" \"dh_Ys\": '{'\n" +
"{2}\n" +
" '}',\n" +
" '}',\n" +
" \"digital signature\": '{'\n" +
" \"signature algorithm\": \"{3}\"\n" +
" \"signature\": '{'\n" +
"{4}\n" +
" '}',\n" +
" '}'\n" +
"'}'",
Locale.ENGLISH);
HexDumpEncoder hexEncoder = new HexDumpEncoder();
Object[] messageFields = {
Utilities.indent(
hexEncoder.encodeBuffer(p), " "),
Utilities.indent(
hexEncoder.encodeBuffer(g), " "),
Utilities.indent(
hexEncoder.encodeBuffer(y), " "),
signatureScheme.name,
Utilities.indent(
hexEncoder.encodeBuffer(paramsSignature), " ")
};
return messageFormat.format(messageFields);
} else {
MessageFormat messageFormat = new MessageFormat(
"\"DH ServerKeyExchange\": '{'\n" +
" \"parameters\": '{'\n" +
" \"dh_p\": '{'\n" +
"{0}\n" +
" '}',\n" +
" \"dh_g\": '{'\n" +
"{1}\n" +
" '}',\n" +
" \"dh_Ys\": '{'\n" +
"{2}\n" +
" '}',\n" +
" '}',\n" +
" \"signature\": '{'\n" +
"{3}\n" +
" '}'\n" +
"'}'",
Locale.ENGLISH);
HexDumpEncoder hexEncoder = new HexDumpEncoder();
Object[] messageFields = {
Utilities.indent(
hexEncoder.encodeBuffer(p), " "),
Utilities.indent(
hexEncoder.encodeBuffer(g), " "),
Utilities.indent(
hexEncoder.encodeBuffer(y), " "),
Utilities.indent(
hexEncoder.encodeBuffer(paramsSignature), " ")
};
return messageFormat.format(messageFields);
}
}
private static Signature getSignature(String keyAlgorithm,
Key key) throws NoSuchAlgorithmException, InvalidKeyException {
Signature signer = null;
switch (keyAlgorithm) {
case "DSA":
signer = JsseJce.getSignature(JsseJce.SIGNATURE_DSA);
break;
case "RSA":
signer = RSASignature.getInstance();
break;
default:
throw new NoSuchAlgorithmException(
"neither an RSA or a DSA key : " + keyAlgorithm);
}
if (signer != null) {
if (key instanceof PublicKey) {
signer.initVerify((PublicKey)(key));
} else {
signer.initSign((PrivateKey)key);
}
}
return signer;
}
/*
* Update sig with nonces and Diffie-Hellman public key.
*/
private void updateSignature(Signature sig, byte[] clntNonce,
byte[] svrNonce) throws SignatureException {
int tmp;
sig.update(clntNonce);
sig.update(svrNonce);
sig.update((byte)(p.length >> 8));
sig.update((byte)(p.length & 0x0ff));
sig.update(p);
sig.update((byte)(g.length >> 8));
sig.update((byte)(g.length & 0x0ff));
sig.update(g);
sig.update((byte)(y.length >> 8));
sig.update((byte)(y.length & 0x0ff));
sig.update(y);
}
}
/**
* The DiffieHellman "ServerKeyExchange" handshake message producer.
*/
static final class DHServerKeyExchangeProducer
implements HandshakeProducer {
// Prevent instantiation of this class.
private DHServerKeyExchangeProducer() {
// blank
}
@Override
public byte[] produce(ConnectionContext context,
HandshakeMessage message) throws IOException {
// The producing happens in server side only.
ServerHandshakeContext shc = (ServerHandshakeContext)context;
DHServerKeyExchangeMessage skem =
new DHServerKeyExchangeMessage(shc);
if (SSLLogger.isOn && SSLLogger.isOn("ssl,handshake")) {
SSLLogger.fine(
"Produced DH ServerKeyExchange handshake message", skem);
}
// Output the handshake message.
skem.write(shc.handshakeOutput);
shc.handshakeOutput.flush();
// The handshake message has been delivered.
return null;
}
}
/**
* The DiffieHellman "ServerKeyExchange" handshake message consumer.
*/
static final class DHServerKeyExchangeConsumer implements SSLConsumer {
// Prevent instantiation of this class.
private DHServerKeyExchangeConsumer() {
// blank
}
@Override
public void consume(ConnectionContext context,
ByteBuffer message) throws IOException {
// The consuming happens in client side only.
ClientHandshakeContext chc = (ClientHandshakeContext)context;
DHServerKeyExchangeMessage skem =
new DHServerKeyExchangeMessage(chc, message);
if (SSLLogger.isOn && SSLLogger.isOn("ssl,handshake")) {
SSLLogger.fine(
"Consuming DH ServerKeyExchange handshake message", skem);
}
//
// validate
//
// check constraints of EC PublicKey
DHPublicKey publicKey;
try {
KeyFactory kf = JsseJce.getKeyFactory("DiffieHellman");
DHPublicKeySpec spec = new DHPublicKeySpec(
new BigInteger(1, skem.y),
new BigInteger(1, skem.p),
new BigInteger(1, skem.g));
publicKey = (DHPublicKey)kf.generatePublic(spec);
} catch (GeneralSecurityException gse) {
throw chc.conContext.fatal(Alert.INSUFFICIENT_SECURITY,
"Could not generate DHPublicKey", gse);
}
if (!chc.algorithmConstraints.permits(
EnumSet.of(CryptoPrimitive.KEY_AGREEMENT), publicKey)) {
throw chc.conContext.fatal(Alert.INSUFFICIENT_SECURITY,
"DH ServerKeyExchange does not comply to " +
"algorithm constraints");
}
//
// update
//
NamedGroup namedGroup = NamedGroup.valueOf(publicKey.getParams());
chc.handshakeCredentials.add(
new DHECredentials(publicKey, namedGroup));
//
// produce
//
// Need no new handshake message producers here.
}
}
}