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 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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 * 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.
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 * This code is distributed in the hope that it will be useful, but WITHOUT
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 * 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).
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package sun.security.ssl;

import java.io.IOException;
import java.nio.ByteBuffer;
import java.security.AlgorithmConstraints;
import java.security.CryptoPrimitive;
import java.security.GeneralSecurityException;
import java.text.MessageFormat;
import java.util.Arrays;
import java.util.EnumSet;
import java.util.LinkedList;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import javax.crypto.SecretKey;
import javax.crypto.spec.IvParameterSpec;
import javax.net.ssl.SSLException;
import javax.net.ssl.SSLHandshakeException;
import javax.net.ssl.SSLProtocolException;
import sun.security.ssl.CipherSuite.KeyExchange;
import sun.security.ssl.ClientHello.ClientHelloMessage;
import sun.security.ssl.SSLCipher.SSLReadCipher;
import sun.security.ssl.SSLCipher.SSLWriteCipher;
import sun.security.ssl.SSLHandshake.HandshakeMessage;
import sun.security.ssl.SupportedVersionsExtension.SHSupportedVersionsSpec;

import static sun.security.ssl.SSLExtension.SH_SESSION_TICKET;

Pack of the ServerHello/HelloRetryRequest handshake message.
/** * Pack of the ServerHello/HelloRetryRequest handshake message. */
final class ServerHello { static final SSLConsumer handshakeConsumer = new ServerHelloConsumer(); static final HandshakeProducer t12HandshakeProducer = new T12ServerHelloProducer(); static final HandshakeProducer t13HandshakeProducer = new T13ServerHelloProducer(); static final HandshakeProducer hrrHandshakeProducer = new T13HelloRetryRequestProducer(); static final HandshakeProducer hrrReproducer = new T13HelloRetryRequestReproducer(); private static final HandshakeConsumer t12HandshakeConsumer = new T12ServerHelloConsumer(); private static final HandshakeConsumer t13HandshakeConsumer = new T13ServerHelloConsumer(); private static final HandshakeConsumer d12HandshakeConsumer = new T12ServerHelloConsumer(); private static final HandshakeConsumer d13HandshakeConsumer = new T13ServerHelloConsumer(); private static final HandshakeConsumer t13HrrHandshakeConsumer = new T13HelloRetryRequestConsumer(); private static final HandshakeConsumer d13HrrHandshakeConsumer = new T13HelloRetryRequestConsumer();
The ServerHello handshake message.
/** * The ServerHello handshake message. */
static final class ServerHelloMessage extends HandshakeMessage { final ProtocolVersion serverVersion; // TLS 1.3 legacy final RandomCookie serverRandom; final SessionId sessionId; // TLS 1.3 legacy final CipherSuite cipherSuite; final byte compressionMethod; // TLS 1.3 legacy final SSLExtensions extensions; // The HelloRetryRequest producer needs to use the ClientHello message // for cookie generation. Please don't use this field for other // purpose unless it is really necessary. final ClientHelloMessage clientHello; // Reserved for HelloRetryRequest consumer. Please don't use this // field for other purpose unless it is really necessary. final ByteBuffer handshakeRecord; ServerHelloMessage(HandshakeContext context, ProtocolVersion serverVersion, SessionId sessionId, CipherSuite cipherSuite, RandomCookie serverRandom, ClientHelloMessage clientHello) { super(context); this.serverVersion = serverVersion; this.serverRandom = serverRandom; this.sessionId = sessionId; this.cipherSuite = cipherSuite; this.compressionMethod = 0x00; // Don't support compression. this.extensions = new SSLExtensions(this); // Reserve the ClientHello message for cookie generation. this.clientHello = clientHello; // The handshakeRecord field is used for HelloRetryRequest consumer // only. It's fine to set it to null for generating side of the // ServerHello/HelloRetryRequest message. this.handshakeRecord = null; } ServerHelloMessage(HandshakeContext context, ByteBuffer m) throws IOException { super(context); // Reserve for HelloRetryRequest consumer if needed. this.handshakeRecord = m.duplicate(); byte major = m.get(); byte minor = m.get(); this.serverVersion = ProtocolVersion.valueOf(major, minor); if (this.serverVersion == null) { // The client should only request for known protocol versions. throw context.conContext.fatal(Alert.PROTOCOL_VERSION, "Unsupported protocol version: " + ProtocolVersion.nameOf(major, minor)); } this.serverRandom = new RandomCookie(m); this.sessionId = new SessionId(Record.getBytes8(m)); try { sessionId.checkLength(serverVersion.id); } catch (SSLProtocolException ex) { throw handshakeContext.conContext.fatal( Alert.ILLEGAL_PARAMETER, ex); } int cipherSuiteId = Record.getInt16(m); this.cipherSuite = CipherSuite.valueOf(cipherSuiteId); if (cipherSuite == null || !context.isNegotiable(cipherSuite)) { throw context.conContext.fatal(Alert.ILLEGAL_PARAMETER, "Server selected improper ciphersuite " + CipherSuite.nameOf(cipherSuiteId)); } this.compressionMethod = m.get(); if (compressionMethod != 0) { throw context.conContext.fatal(Alert.ILLEGAL_PARAMETER, "compression type not supported, " + compressionMethod); } SSLExtension[] supportedExtensions; if (serverRandom.isHelloRetryRequest()) { supportedExtensions = context.sslConfig.getEnabledExtensions( SSLHandshake.HELLO_RETRY_REQUEST); } else { supportedExtensions = context.sslConfig.getEnabledExtensions( SSLHandshake.SERVER_HELLO); } if (m.hasRemaining()) { this.extensions = new SSLExtensions(this, m, supportedExtensions); } else { this.extensions = new SSLExtensions(this); } // The clientHello field is used for HelloRetryRequest producer // only. It's fine to set it to null for receiving side of // ServerHello/HelloRetryRequest message. this.clientHello = null; // not used, let it be null; } @Override public SSLHandshake handshakeType() { return serverRandom.isHelloRetryRequest() ? SSLHandshake.HELLO_RETRY_REQUEST : SSLHandshake.SERVER_HELLO; } @Override public int messageLength() { // almost fixed header size, except session ID and extensions: // major + minor = 2 // random = 32 // session ID len field = 1 // cipher suite = 2 // compression = 1 // extensions: if present, 2 + length of extensions // In TLS 1.3, use of certain extensions is mandatory. return 38 + sessionId.length() + extensions.length(); } @Override public void send(HandshakeOutStream hos) throws IOException { hos.putInt8(serverVersion.major); hos.putInt8(serverVersion.minor); hos.write(serverRandom.randomBytes); hos.putBytes8(sessionId.getId()); hos.putInt8((cipherSuite.id >> 8) & 0xFF); hos.putInt8(cipherSuite.id & 0xff); hos.putInt8(compressionMethod); extensions.send(hos); // In TLS 1.3, use of certain // extensions is mandatory. } @Override public String toString() { MessageFormat messageFormat = new MessageFormat( "\"{0}\": '{'\n" + " \"server version\" : \"{1}\",\n" + " \"random\" : \"{2}\",\n" + " \"session id\" : \"{3}\",\n" + " \"cipher suite\" : \"{4}\",\n" + " \"compression methods\" : \"{5}\",\n" + " \"extensions\" : [\n" + "{6}\n" + " ]\n" + "'}'", Locale.ENGLISH); Object[] messageFields = { serverRandom.isHelloRetryRequest() ? "HelloRetryRequest" : "ServerHello", serverVersion.name, Utilities.toHexString(serverRandom.randomBytes), sessionId.toString(), cipherSuite.name + "(" + Utilities.byte16HexString(cipherSuite.id) + ")", Utilities.toHexString(compressionMethod), Utilities.indent(extensions.toString(), " ") }; return messageFormat.format(messageFields); } }
The "ServerHello" handshake message producer.
/** * The "ServerHello" handshake message producer. */
private static final class T12ServerHelloProducer implements HandshakeProducer { // Prevent instantiation of this class. private T12ServerHelloProducer() { // blank } @Override public byte[] produce(ConnectionContext context, HandshakeMessage message) throws IOException { // The producing happens in server side only. ServerHandshakeContext shc = (ServerHandshakeContext)context; ClientHelloMessage clientHello = (ClientHelloMessage)message; // If client hasn't specified a session we can resume, start a // new one and choose its cipher suite and compression options, // unless new session creation is disabled for this connection! if (!shc.isResumption || shc.resumingSession == null) { if (!shc.sslConfig.enableSessionCreation) { throw new SSLException( "Not resumption, and no new session is allowed"); } if (shc.localSupportedSignAlgs == null) { shc.localSupportedSignAlgs = SignatureScheme.getSupportedAlgorithms( shc.algorithmConstraints, shc.activeProtocols); } SSLSessionImpl session = new SSLSessionImpl(shc, CipherSuite.C_NULL); session.setMaximumPacketSize(shc.sslConfig.maximumPacketSize); shc.handshakeSession = session; // consider the handshake extension impact SSLExtension[] enabledExtensions = shc.sslConfig.getEnabledExtensions( SSLHandshake.CLIENT_HELLO, shc.negotiatedProtocol); clientHello.extensions.consumeOnTrade(shc, enabledExtensions); // negotiate the cipher suite. KeyExchangeProperties credentials = chooseCipherSuite(shc, clientHello); if (credentials == null) { throw shc.conContext.fatal(Alert.HANDSHAKE_FAILURE, "no cipher suites in common"); } shc.negotiatedCipherSuite = credentials.cipherSuite; shc.handshakeKeyExchange = credentials.keyExchange; shc.handshakeSession.setSuite(credentials.cipherSuite); shc.handshakePossessions.addAll( Arrays.asList(credentials.possessions)); shc.handshakeHash.determine( shc.negotiatedProtocol, shc.negotiatedCipherSuite); // Check the incoming OCSP stapling extensions and attempt // to get responses. If the resulting stapleParams is non // null, it implies that stapling is enabled on the server side. shc.stapleParams = StatusResponseManager.processStapling(shc); shc.staplingActive = (shc.stapleParams != null); // update the responders SSLKeyExchange ke = credentials.keyExchange; if (ke != null) { for (Map.Entry<Byte, HandshakeProducer> me : ke.getHandshakeProducers(shc)) { shc.handshakeProducers.put( me.getKey(), me.getValue()); } } if ((ke != null) && (shc.sslConfig.clientAuthType != ClientAuthType.CLIENT_AUTH_NONE) && !shc.negotiatedCipherSuite.isAnonymous()) { for (SSLHandshake hs : ke.getRelatedHandshakers(shc)) { if (hs == SSLHandshake.CERTIFICATE) { shc.handshakeProducers.put( SSLHandshake.CERTIFICATE_REQUEST.id, SSLHandshake.CERTIFICATE_REQUEST); break; } } } shc.handshakeProducers.put(SSLHandshake.SERVER_HELLO_DONE.id, SSLHandshake.SERVER_HELLO_DONE); } else { // stateless and use the client session id (RFC 5077 3.4) if (shc.statelessResumption) { shc.resumingSession = new SSLSessionImpl(shc.resumingSession, (clientHello.sessionId.length() == 0) ? new SessionId(true, shc.sslContext.getSecureRandom()) : new SessionId(clientHello.sessionId.getId()) ); } shc.handshakeSession = shc.resumingSession; shc.negotiatedProtocol = shc.resumingSession.getProtocolVersion(); shc.negotiatedCipherSuite = shc.resumingSession.getSuite(); shc.handshakeHash.determine( shc.negotiatedProtocol, shc.negotiatedCipherSuite); } // Generate the ServerHello handshake message. ServerHelloMessage shm = new ServerHelloMessage(shc, shc.negotiatedProtocol, shc.handshakeSession.getSessionId(), shc.negotiatedCipherSuite, new RandomCookie(shc), clientHello); shc.serverHelloRandom = shm.serverRandom; // Produce extensions for ServerHello handshake message. SSLExtension[] serverHelloExtensions = shc.sslConfig.getEnabledExtensions( SSLHandshake.SERVER_HELLO, shc.negotiatedProtocol); shm.extensions.produce(shc, serverHelloExtensions); if (SSLLogger.isOn && SSLLogger.isOn("ssl,handshake")) { SSLLogger.fine("Produced ServerHello handshake message", shm); } // Output the handshake message. shm.write(shc.handshakeOutput); shc.handshakeOutput.flush(); if (shc.isResumption && shc.resumingSession != null) { SSLTrafficKeyDerivation kdg = SSLTrafficKeyDerivation.valueOf(shc.negotiatedProtocol); if (kdg == null) { // unlikely throw shc.conContext.fatal(Alert.INTERNAL_ERROR, "Not supported key derivation: " + shc.negotiatedProtocol); } else { shc.handshakeKeyDerivation = kdg.createKeyDerivation( shc, shc.resumingSession.getMasterSecret()); } // update the responders shc.handshakeProducers.put(SSLHandshake.FINISHED.id, SSLHandshake.FINISHED); } // The handshake message has been delivered. return null; } private static KeyExchangeProperties chooseCipherSuite( ServerHandshakeContext shc, ClientHelloMessage clientHello) throws IOException { List<CipherSuite> preferred; List<CipherSuite> proposed; if (shc.sslConfig.preferLocalCipherSuites) { preferred = shc.activeCipherSuites; proposed = clientHello.cipherSuites; } else { preferred = clientHello.cipherSuites; proposed = shc.activeCipherSuites; } List<CipherSuite> legacySuites = new LinkedList<>(); for (CipherSuite cs : preferred) { if (!HandshakeContext.isNegotiable( proposed, shc.negotiatedProtocol, cs)) { continue; } if (shc.sslConfig.clientAuthType == ClientAuthType.CLIENT_AUTH_REQUIRED) { if ((cs.keyExchange == KeyExchange.K_DH_ANON) || (cs.keyExchange == KeyExchange.K_ECDH_ANON)) { continue; } } SSLKeyExchange ke = SSLKeyExchange.valueOf( cs.keyExchange, shc.negotiatedProtocol); if (ke == null) { continue; } if (!ServerHandshakeContext.legacyAlgorithmConstraints.permits( EnumSet.of(CryptoPrimitive.KEY_AGREEMENT), cs.name, null)) { legacySuites.add(cs); continue; } SSLPossession[] hcds = ke.createPossessions(shc); if ((hcds == null) || (hcds.length == 0)) { continue; } // The cipher suite has been negotiated. if (SSLLogger.isOn && SSLLogger.isOn("ssl,handshake")) { SSLLogger.fine("use cipher suite " + cs.name); } return new KeyExchangeProperties(cs, ke, hcds); } for (CipherSuite cs : legacySuites) { SSLKeyExchange ke = SSLKeyExchange.valueOf( cs.keyExchange, shc.negotiatedProtocol); if (ke != null) { SSLPossession[] hcds = ke.createPossessions(shc); if ((hcds != null) && (hcds.length != 0)) { if (SSLLogger.isOn && SSLLogger.isOn("ssl,handshake")) { SSLLogger.warning( "use legacy cipher suite " + cs.name); } return new KeyExchangeProperties(cs, ke, hcds); } } } throw shc.conContext.fatal(Alert.HANDSHAKE_FAILURE, "no cipher suites in common"); } private static final class KeyExchangeProperties { final CipherSuite cipherSuite; final SSLKeyExchange keyExchange; final SSLPossession[] possessions; private KeyExchangeProperties(CipherSuite cipherSuite, SSLKeyExchange keyExchange, SSLPossession[] possessions) { this.cipherSuite = cipherSuite; this.keyExchange = keyExchange; this.possessions = possessions; } } }
The "ServerHello" handshake message producer.
/** * The "ServerHello" handshake message producer. */
private static final class T13ServerHelloProducer implements HandshakeProducer { // Prevent instantiation of this class. private T13ServerHelloProducer() { // blank } @Override public byte[] produce(ConnectionContext context, HandshakeMessage message) throws IOException { // The producing happens in server side only. ServerHandshakeContext shc = (ServerHandshakeContext)context; ClientHelloMessage clientHello = (ClientHelloMessage)message; SSLSessionContextImpl sessionCache = (SSLSessionContextImpl) shc.sslContext.engineGetServerSessionContext(); // If client hasn't specified a session we can resume, start a // new one and choose its cipher suite and compression options, // unless new session creation is disabled for this connection! if (!shc.isResumption || shc.resumingSession == null) { if (!shc.sslConfig.enableSessionCreation) { throw new SSLException( "Not resumption, and no new session is allowed"); } if (shc.localSupportedSignAlgs == null) { shc.localSupportedSignAlgs = SignatureScheme.getSupportedAlgorithms( shc.algorithmConstraints, shc.activeProtocols); } SSLSessionImpl session = new SSLSessionImpl(shc, CipherSuite.C_NULL); session.setMaximumPacketSize(shc.sslConfig.maximumPacketSize); shc.handshakeSession = session; // consider the handshake extension impact SSLExtension[] enabledExtensions = shc.sslConfig.getEnabledExtensions( SSLHandshake.CLIENT_HELLO, shc.negotiatedProtocol); clientHello.extensions.consumeOnTrade(shc, enabledExtensions); // negotiate the cipher suite. CipherSuite cipherSuite = chooseCipherSuite(shc, clientHello); if (cipherSuite == null) { throw shc.conContext.fatal(Alert.HANDSHAKE_FAILURE, "no cipher suites in common"); } shc.negotiatedCipherSuite = cipherSuite; shc.handshakeSession.setSuite(cipherSuite); shc.handshakeHash.determine( shc.negotiatedProtocol, shc.negotiatedCipherSuite); } else { shc.handshakeSession = shc.resumingSession; // consider the handshake extension impact SSLExtension[] enabledExtensions = shc.sslConfig.getEnabledExtensions( SSLHandshake.CLIENT_HELLO, shc.negotiatedProtocol); clientHello.extensions.consumeOnTrade(shc, enabledExtensions); shc.negotiatedProtocol = shc.resumingSession.getProtocolVersion(); shc.negotiatedCipherSuite = shc.resumingSession.getSuite(); shc.handshakeHash.determine( shc.negotiatedProtocol, shc.negotiatedCipherSuite); setUpPskKD(shc, shc.resumingSession.consumePreSharedKey()); // The session can't be resumed again---remove it from cache sessionCache.remove(shc.resumingSession.getSessionId()); } // update the responders shc.handshakeProducers.put(SSLHandshake.ENCRYPTED_EXTENSIONS.id, SSLHandshake.ENCRYPTED_EXTENSIONS); shc.handshakeProducers.put(SSLHandshake.FINISHED.id, SSLHandshake.FINISHED); // Generate the ServerHello handshake message. ServerHelloMessage shm = new ServerHelloMessage(shc, ProtocolVersion.TLS12, // use legacy version clientHello.sessionId, // echo back shc.negotiatedCipherSuite, new RandomCookie(shc), clientHello); shc.serverHelloRandom = shm.serverRandom; // Produce extensions for ServerHello handshake message. SSLExtension[] serverHelloExtensions = shc.sslConfig.getEnabledExtensions( SSLHandshake.SERVER_HELLO, shc.negotiatedProtocol); shm.extensions.produce(shc, serverHelloExtensions); if (SSLLogger.isOn && SSLLogger.isOn("ssl,handshake")) { SSLLogger.fine("Produced ServerHello handshake message", shm); } // Output the handshake message. shm.write(shc.handshakeOutput); shc.handshakeOutput.flush(); // Change client/server handshake traffic secrets. // Refresh handshake hash shc.handshakeHash.update(); // Change client/server handshake traffic secrets. SSLKeyExchange ke = shc.handshakeKeyExchange; if (ke == null) { // unlikely throw shc.conContext.fatal(Alert.INTERNAL_ERROR, "Not negotiated key shares"); } SSLKeyDerivation handshakeKD = ke.createKeyDerivation(shc); SecretKey handshakeSecret = handshakeKD.deriveKey( "TlsHandshakeSecret", null); SSLTrafficKeyDerivation kdg = SSLTrafficKeyDerivation.valueOf(shc.negotiatedProtocol); if (kdg == null) { // unlikely throw shc.conContext.fatal(Alert.INTERNAL_ERROR, "Not supported key derivation: " + shc.negotiatedProtocol); } SSLKeyDerivation kd = new SSLSecretDerivation(shc, handshakeSecret); // update the handshake traffic read keys. SecretKey readSecret = kd.deriveKey( "TlsClientHandshakeTrafficSecret", null); SSLKeyDerivation readKD = kdg.createKeyDerivation(shc, readSecret); SecretKey readKey = readKD.deriveKey( "TlsKey", null); SecretKey readIvSecret = readKD.deriveKey( "TlsIv", null); IvParameterSpec readIv = new IvParameterSpec(readIvSecret.getEncoded()); SSLReadCipher readCipher; try { readCipher = shc.negotiatedCipherSuite.bulkCipher.createReadCipher( Authenticator.valueOf(shc.negotiatedProtocol), shc.negotiatedProtocol, readKey, readIv, shc.sslContext.getSecureRandom()); } catch (GeneralSecurityException gse) { // unlikely throw shc.conContext.fatal(Alert.HANDSHAKE_FAILURE, "Missing cipher algorithm", gse); } if (readCipher == null) { throw shc.conContext.fatal(Alert.ILLEGAL_PARAMETER, "Illegal cipher suite (" + shc.negotiatedCipherSuite + ") and protocol version (" + shc.negotiatedProtocol + ")"); } shc.baseReadSecret = readSecret; shc.conContext.inputRecord.changeReadCiphers(readCipher); // update the handshake traffic write secret. SecretKey writeSecret = kd.deriveKey( "TlsServerHandshakeTrafficSecret", null); SSLKeyDerivation writeKD = kdg.createKeyDerivation(shc, writeSecret); SecretKey writeKey = writeKD.deriveKey( "TlsKey", null); SecretKey writeIvSecret = writeKD.deriveKey( "TlsIv", null); IvParameterSpec writeIv = new IvParameterSpec(writeIvSecret.getEncoded()); SSLWriteCipher writeCipher; try { writeCipher = shc.negotiatedCipherSuite.bulkCipher.createWriteCipher( Authenticator.valueOf(shc.negotiatedProtocol), shc.negotiatedProtocol, writeKey, writeIv, shc.sslContext.getSecureRandom()); } catch (GeneralSecurityException gse) { // unlikely throw shc.conContext.fatal(Alert.HANDSHAKE_FAILURE, "Missing cipher algorithm", gse); } if (writeCipher == null) { throw shc.conContext.fatal(Alert.ILLEGAL_PARAMETER, "Illegal cipher suite (" + shc.negotiatedCipherSuite + ") and protocol version (" + shc.negotiatedProtocol + ")"); } shc.baseWriteSecret = writeSecret; shc.conContext.outputRecord.changeWriteCiphers( writeCipher, (clientHello.sessionId.length() != 0)); // Update the context for master key derivation. shc.handshakeKeyDerivation = kd; // Check if the server supports stateless resumption if (sessionCache.statelessEnabled()) { shc.statelessResumption = true; } // The handshake message has been delivered. return null; } private static CipherSuite chooseCipherSuite( ServerHandshakeContext shc, ClientHelloMessage clientHello) throws IOException { List<CipherSuite> preferred; List<CipherSuite> proposed; if (shc.sslConfig.preferLocalCipherSuites) { preferred = shc.activeCipherSuites; proposed = clientHello.cipherSuites; } else { preferred = clientHello.cipherSuites; proposed = shc.activeCipherSuites; } CipherSuite legacySuite = null; AlgorithmConstraints legacyConstraints = ServerHandshakeContext.legacyAlgorithmConstraints; for (CipherSuite cs : preferred) { if (!HandshakeContext.isNegotiable( proposed, shc.negotiatedProtocol, cs)) { continue; } if ((legacySuite == null) && !legacyConstraints.permits( EnumSet.of(CryptoPrimitive.KEY_AGREEMENT), cs.name, null)) { legacySuite = cs; continue; } // The cipher suite has been negotiated. if (SSLLogger.isOn && SSLLogger.isOn("ssl,handshake")) { SSLLogger.fine("use cipher suite " + cs.name); } return cs; } if (legacySuite != null) { if (SSLLogger.isOn && SSLLogger.isOn("ssl,handshake")) { SSLLogger.warning( "use legacy cipher suite " + legacySuite.name); } return legacySuite; } // no cipher suites in common return null; } }
The "HelloRetryRequest" handshake message producer.
/** * The "HelloRetryRequest" handshake message producer. */
private static final class T13HelloRetryRequestProducer implements HandshakeProducer { // Prevent instantiation of this class. private T13HelloRetryRequestProducer() { // blank } @Override public byte[] produce(ConnectionContext context, HandshakeMessage message) throws IOException { ServerHandshakeContext shc = (ServerHandshakeContext) context; ClientHelloMessage clientHello = (ClientHelloMessage) message; // negotiate the cipher suite. CipherSuite cipherSuite = T13ServerHelloProducer.chooseCipherSuite(shc, clientHello); if (cipherSuite == null) { throw shc.conContext.fatal(Alert.HANDSHAKE_FAILURE, "no cipher suites in common for hello retry request"); } ServerHelloMessage hhrm = new ServerHelloMessage(shc, ProtocolVersion.TLS12, // use legacy version clientHello.sessionId, // echo back cipherSuite, RandomCookie.hrrRandom, clientHello ); shc.negotiatedCipherSuite = cipherSuite; shc.handshakeHash.determine( shc.negotiatedProtocol, shc.negotiatedCipherSuite); // Produce extensions for HelloRetryRequest handshake message. SSLExtension[] serverHelloExtensions = shc.sslConfig.getEnabledExtensions( SSLHandshake.HELLO_RETRY_REQUEST, shc.negotiatedProtocol); hhrm.extensions.produce(shc, serverHelloExtensions); if (SSLLogger.isOn && SSLLogger.isOn("ssl,handshake")) { SSLLogger.fine( "Produced HelloRetryRequest handshake message", hhrm); } // Output the handshake message. hhrm.write(shc.handshakeOutput); shc.handshakeOutput.flush(); // Stateless, shall we clean up the handshake context as well? shc.handshakeHash.finish(); // forgot about the handshake hash shc.handshakeExtensions.clear(); // What's the expected response? shc.handshakeConsumers.put( SSLHandshake.CLIENT_HELLO.id, SSLHandshake.CLIENT_HELLO); // The handshake message has been delivered. return null; } }
The "HelloRetryRequest" handshake message reproducer.
/** * The "HelloRetryRequest" handshake message reproducer. */
private static final class T13HelloRetryRequestReproducer implements HandshakeProducer { // Prevent instantiation of this class. private T13HelloRetryRequestReproducer() { // blank } @Override public byte[] produce(ConnectionContext context, HandshakeMessage message) throws IOException { ServerHandshakeContext shc = (ServerHandshakeContext) context; ClientHelloMessage clientHello = (ClientHelloMessage) message; // negotiate the cipher suite. CipherSuite cipherSuite = shc.negotiatedCipherSuite; ServerHelloMessage hhrm = new ServerHelloMessage(shc, ProtocolVersion.TLS12, // use legacy version clientHello.sessionId, // echo back cipherSuite, RandomCookie.hrrRandom, clientHello ); // Produce extensions for HelloRetryRequest handshake message. SSLExtension[] serverHelloExtensions = shc.sslConfig.getEnabledExtensions( SSLHandshake.MESSAGE_HASH, shc.negotiatedProtocol); hhrm.extensions.produce(shc, serverHelloExtensions); if (SSLLogger.isOn && SSLLogger.isOn("ssl,handshake")) { SSLLogger.fine( "Reproduced HelloRetryRequest handshake message", hhrm); } HandshakeOutStream hos = new HandshakeOutStream(null); hhrm.write(hos); return hos.toByteArray(); } }
The "ServerHello" handshake message consumer.
/** * The "ServerHello" handshake message consumer. */
private static final class ServerHelloConsumer implements SSLConsumer { // Prevent instantiation of this class. private ServerHelloConsumer() { // blank } @Override public void consume(ConnectionContext context, ByteBuffer message) throws IOException { // The consuming happens in client side only. ClientHandshakeContext chc = (ClientHandshakeContext)context; // clean up this consumer chc.handshakeConsumers.remove(SSLHandshake.SERVER_HELLO.id); if (!chc.handshakeConsumers.isEmpty()) { // DTLS 1.0/1.2 chc.handshakeConsumers.remove( SSLHandshake.HELLO_VERIFY_REQUEST.id); } if (!chc.handshakeConsumers.isEmpty()) { throw chc.conContext.fatal(Alert.UNEXPECTED_MESSAGE, "No more message expected before ServerHello is processed"); } ServerHelloMessage shm = new ServerHelloMessage(chc, message); if (SSLLogger.isOn && SSLLogger.isOn("ssl,handshake")) { SSLLogger.fine("Consuming ServerHello handshake message", shm); } if (shm.serverRandom.isHelloRetryRequest()) { onHelloRetryRequest(chc, shm); } else { onServerHello(chc, shm); } } private void onHelloRetryRequest(ClientHandshakeContext chc, ServerHelloMessage helloRetryRequest) throws IOException { // Negotiate protocol version. // // Check and launch SupportedVersions. SSLExtension[] extTypes = new SSLExtension[] { SSLExtension.HRR_SUPPORTED_VERSIONS }; helloRetryRequest.extensions.consumeOnLoad(chc, extTypes); ProtocolVersion serverVersion; SHSupportedVersionsSpec svs = (SHSupportedVersionsSpec)chc.handshakeExtensions.get( SSLExtension.HRR_SUPPORTED_VERSIONS); if (svs != null) { serverVersion = // could be null ProtocolVersion.valueOf(svs.selectedVersion); } else { serverVersion = helloRetryRequest.serverVersion; } if (!chc.activeProtocols.contains(serverVersion)) { throw chc.conContext.fatal(Alert.PROTOCOL_VERSION, "The server selected protocol version " + serverVersion + " is not accepted by client preferences " + chc.activeProtocols); } if (!serverVersion.useTLS13PlusSpec()) { throw chc.conContext.fatal(Alert.PROTOCOL_VERSION, "Unexpected HelloRetryRequest for " + serverVersion.name); } chc.negotiatedProtocol = serverVersion; if (SSLLogger.isOn && SSLLogger.isOn("ssl,handshake")) { SSLLogger.fine( "Negotiated protocol version: " + serverVersion.name); } // TLS 1.3 key share extension may have produced client // possessions for TLS 1.3 key exchanges. // // Clean up before producing new client key share possessions. chc.handshakePossessions.clear(); if (serverVersion.isDTLS) { d13HrrHandshakeConsumer.consume(chc, helloRetryRequest); } else { t13HrrHandshakeConsumer.consume(chc, helloRetryRequest); } } private void onServerHello(ClientHandshakeContext chc, ServerHelloMessage serverHello) throws IOException { // Negotiate protocol version. // // Check and launch SupportedVersions. SSLExtension[] extTypes = new SSLExtension[] { SSLExtension.SH_SUPPORTED_VERSIONS }; serverHello.extensions.consumeOnLoad(chc, extTypes); ProtocolVersion serverVersion; SHSupportedVersionsSpec svs = (SHSupportedVersionsSpec)chc.handshakeExtensions.get( SSLExtension.SH_SUPPORTED_VERSIONS); if (svs != null) { serverVersion = // could be null ProtocolVersion.valueOf(svs.selectedVersion); } else { serverVersion = serverHello.serverVersion; } if (!chc.activeProtocols.contains(serverVersion)) { throw chc.conContext.fatal(Alert.PROTOCOL_VERSION, "The server selected protocol version " + serverVersion + " is not accepted by client preferences " + chc.activeProtocols); } chc.negotiatedProtocol = serverVersion; if (!chc.conContext.isNegotiated) { chc.conContext.protocolVersion = chc.negotiatedProtocol; chc.conContext.outputRecord.setVersion(chc.negotiatedProtocol); } if (SSLLogger.isOn && SSLLogger.isOn("ssl,handshake")) { SSLLogger.fine( "Negotiated protocol version: " + serverVersion.name); } if (serverHello.serverRandom.isVersionDowngrade(chc)) { throw chc.conContext.fatal(Alert.ILLEGAL_PARAMETER, "A potential protocol version downgrade attack"); } // Consume the handshake message for the specific protocol version. if (serverVersion.isDTLS) { if (serverVersion.useTLS13PlusSpec()) { d13HandshakeConsumer.consume(chc, serverHello); } else { // TLS 1.3 key share extension may have produced client // possessions for TLS 1.3 key exchanges. chc.handshakePossessions.clear(); d12HandshakeConsumer.consume(chc, serverHello); } } else { if (serverVersion.useTLS13PlusSpec()) { t13HandshakeConsumer.consume(chc, serverHello); } else { // TLS 1.3 key share extension may have produced client // possessions for TLS 1.3 key exchanges. chc.handshakePossessions.clear(); t12HandshakeConsumer.consume(chc, serverHello); } } } } private static final class T12ServerHelloConsumer implements HandshakeConsumer { // Prevent instantiation of this class. private T12ServerHelloConsumer() { // blank } @Override public void consume(ConnectionContext context, HandshakeMessage message) throws IOException { // The consuming happens in client side only. ClientHandshakeContext chc = (ClientHandshakeContext)context; ServerHelloMessage serverHello = (ServerHelloMessage)message; if (!chc.isNegotiable(serverHello.serverVersion)) { throw chc.conContext.fatal(Alert.PROTOCOL_VERSION, "Server chose " + serverHello.serverVersion + ", but that protocol version is not enabled or " + "not supported by the client."); } // chc.negotiatedProtocol = serverHello.serverVersion; chc.negotiatedCipherSuite = serverHello.cipherSuite; chc.handshakeHash.determine( chc.negotiatedProtocol, chc.negotiatedCipherSuite); chc.serverHelloRandom = serverHello.serverRandom; if (chc.negotiatedCipherSuite.keyExchange == null) { throw chc.conContext.fatal(Alert.PROTOCOL_VERSION, "TLS 1.2 or prior version does not support the " + "server cipher suite: " + chc.negotiatedCipherSuite.name); } // // validate // // Check and launch the "renegotiation_info" extension. SSLExtension[] extTypes = new SSLExtension[] { SSLExtension.SH_RENEGOTIATION_INFO }; serverHello.extensions.consumeOnLoad(chc, extTypes); // Is it session resuming? if (chc.resumingSession != null) { // we tried to resume, let's see what the server decided if (serverHello.sessionId.equals( chc.resumingSession.getSessionId())) { // server resumed the session, let's make sure everything // checks out // Verify that the session ciphers are unchanged. CipherSuite sessionSuite = chc.resumingSession.getSuite(); if (chc.negotiatedCipherSuite != sessionSuite) { throw chc.conContext.fatal(Alert.PROTOCOL_VERSION, "Server returned wrong cipher suite for session"); } // verify protocol version match ProtocolVersion sessionVersion = chc.resumingSession.getProtocolVersion(); if (chc.negotiatedProtocol != sessionVersion) { throw chc.conContext.fatal(Alert.PROTOCOL_VERSION, "Server resumed with wrong protocol version"); } // looks fine; resume it. chc.isResumption = true; chc.resumingSession.setAsSessionResumption(true); chc.handshakeSession = chc.resumingSession; } else { // we wanted to resume, but the server refused // // Invalidate the session for initial handshake in case // of reusing next time. if (chc.resumingSession != null) { chc.resumingSession.invalidate(); chc.resumingSession = null; } chc.isResumption = false; if (!chc.sslConfig.enableSessionCreation) { throw chc.conContext.fatal(Alert.PROTOCOL_VERSION, "New session creation is disabled"); } } } // Check and launch ClientHello extensions. extTypes = chc.sslConfig.getEnabledExtensions( SSLHandshake.SERVER_HELLO); serverHello.extensions.consumeOnLoad(chc, extTypes); if (!chc.isResumption) { if (chc.resumingSession != null) { // in case the resumption happens next time. chc.resumingSession.invalidate(); chc.resumingSession = null; } if (!chc.sslConfig.enableSessionCreation) { throw chc.conContext.fatal(Alert.PROTOCOL_VERSION, "New session creation is disabled"); } if (serverHello.sessionId.length() == 0 && chc.statelessResumption) { SessionId newId = new SessionId(true, chc.sslContext.getSecureRandom()); chc.handshakeSession = new SSLSessionImpl(chc, chc.negotiatedCipherSuite, newId); if (SSLLogger.isOn && SSLLogger.isOn("ssl,handshake")) { SSLLogger.fine("Locally assigned Session Id: " + newId.toString()); } } else { chc.handshakeSession = new SSLSessionImpl(chc, chc.negotiatedCipherSuite, serverHello.sessionId); } chc.handshakeSession.setMaximumPacketSize( chc.sslConfig.maximumPacketSize); } // // update // serverHello.extensions.consumeOnTrade(chc, extTypes); // update the consumers and producers if (chc.isResumption) { SSLTrafficKeyDerivation kdg = SSLTrafficKeyDerivation.valueOf(chc.negotiatedProtocol); if (kdg == null) { // unlikely throw chc.conContext.fatal(Alert.INTERNAL_ERROR, "Not supported key derivation: " + chc.negotiatedProtocol); } else { chc.handshakeKeyDerivation = kdg.createKeyDerivation( chc, chc.resumingSession.getMasterSecret()); } if (chc.statelessResumption) { chc.handshakeConsumers.putIfAbsent( SSLHandshake.NEW_SESSION_TICKET.id, SSLHandshake.NEW_SESSION_TICKET); } chc.conContext.consumers.putIfAbsent( ContentType.CHANGE_CIPHER_SPEC.id, ChangeCipherSpec.t10Consumer); chc.handshakeConsumers.put( SSLHandshake.FINISHED.id, SSLHandshake.FINISHED); } else { SSLKeyExchange ke = SSLKeyExchange.valueOf( chc.negotiatedCipherSuite.keyExchange, chc.negotiatedProtocol); chc.handshakeKeyExchange = ke; if (ke != null) { for (SSLHandshake handshake : ke.getRelatedHandshakers(chc)) { chc.handshakeConsumers.put(handshake.id, handshake); } } chc.handshakeConsumers.put(SSLHandshake.SERVER_HELLO_DONE.id, SSLHandshake.SERVER_HELLO_DONE); } // // produce // // Need no new handshake message producers here. } } private static void setUpPskKD(HandshakeContext hc, SecretKey psk) throws SSLHandshakeException { if (SSLLogger.isOn && SSLLogger.isOn("ssl,handshake")) { SSLLogger.fine("Using PSK to derive early secret"); } try { CipherSuite.HashAlg hashAlg = hc.negotiatedCipherSuite.hashAlg; HKDF hkdf = new HKDF(hashAlg.name); byte[] zeros = new byte[hashAlg.hashLength]; SecretKey earlySecret = hkdf.extract(zeros, psk, "TlsEarlySecret"); hc.handshakeKeyDerivation = new SSLSecretDerivation(hc, earlySecret); } catch (GeneralSecurityException gse) { throw (SSLHandshakeException) new SSLHandshakeException( "Could not generate secret").initCause(gse); } } private static final class T13ServerHelloConsumer implements HandshakeConsumer { // Prevent instantiation of this class. private T13ServerHelloConsumer() { // blank } @Override public void consume(ConnectionContext context, HandshakeMessage message) throws IOException { // The consuming happens in client side only. ClientHandshakeContext chc = (ClientHandshakeContext)context; ServerHelloMessage serverHello = (ServerHelloMessage)message; if (serverHello.serverVersion != ProtocolVersion.TLS12) { throw chc.conContext.fatal(Alert.PROTOCOL_VERSION, "The ServerHello.legacy_version field is not TLS 1.2"); } chc.negotiatedCipherSuite = serverHello.cipherSuite; chc.handshakeHash.determine( chc.negotiatedProtocol, chc.negotiatedCipherSuite); chc.serverHelloRandom = serverHello.serverRandom; // // validate // // Check and launch ServerHello extensions. SSLExtension[] extTypes = chc.sslConfig.getEnabledExtensions( SSLHandshake.SERVER_HELLO); serverHello.extensions.consumeOnLoad(chc, extTypes); if (!chc.isResumption) { if (chc.resumingSession != null) { // in case the resumption happens next time. chc.resumingSession.invalidate(); chc.resumingSession = null; } if (!chc.sslConfig.enableSessionCreation) { throw chc.conContext.fatal(Alert.PROTOCOL_VERSION, "New session creation is disabled"); } chc.handshakeSession = new SSLSessionImpl(chc, chc.negotiatedCipherSuite, serverHello.sessionId); chc.handshakeSession.setMaximumPacketSize( chc.sslConfig.maximumPacketSize); } else { // The PSK is consumed to allow it to be deleted SecretKey psk = chc.resumingSession.consumePreSharedKey(); if(psk == null) { throw chc.conContext.fatal(Alert.INTERNAL_ERROR, "No PSK available. Unable to resume."); } chc.handshakeSession = chc.resumingSession; setUpPskKD(chc, psk); } // // update // serverHello.extensions.consumeOnTrade(chc, extTypes); // Change client/server handshake traffic secrets. // Refresh handshake hash chc.handshakeHash.update(); SSLKeyExchange ke = chc.handshakeKeyExchange; if (ke == null) { // unlikely throw chc.conContext.fatal(Alert.INTERNAL_ERROR, "Not negotiated key shares"); } SSLKeyDerivation handshakeKD = ke.createKeyDerivation(chc); SecretKey handshakeSecret = handshakeKD.deriveKey( "TlsHandshakeSecret", null); SSLTrafficKeyDerivation kdg = SSLTrafficKeyDerivation.valueOf(chc.negotiatedProtocol); if (kdg == null) { // unlikely throw chc.conContext.fatal(Alert.INTERNAL_ERROR, "Not supported key derivation: " + chc.negotiatedProtocol); } SSLKeyDerivation secretKD = new SSLSecretDerivation(chc, handshakeSecret); // update the handshake traffic read keys. SecretKey readSecret = secretKD.deriveKey( "TlsServerHandshakeTrafficSecret", null); SSLKeyDerivation readKD = kdg.createKeyDerivation(chc, readSecret); SecretKey readKey = readKD.deriveKey( "TlsKey", null); SecretKey readIvSecret = readKD.deriveKey( "TlsIv", null); IvParameterSpec readIv = new IvParameterSpec(readIvSecret.getEncoded()); SSLReadCipher readCipher; try { readCipher = chc.negotiatedCipherSuite.bulkCipher.createReadCipher( Authenticator.valueOf(chc.negotiatedProtocol), chc.negotiatedProtocol, readKey, readIv, chc.sslContext.getSecureRandom()); } catch (GeneralSecurityException gse) { // unlikely throw chc.conContext.fatal(Alert.HANDSHAKE_FAILURE, "Missing cipher algorithm", gse); } if (readCipher == null) { throw chc.conContext.fatal(Alert.ILLEGAL_PARAMETER, "Illegal cipher suite (" + chc.negotiatedCipherSuite + ") and protocol version (" + chc.negotiatedProtocol + ")"); } chc.baseReadSecret = readSecret; chc.conContext.inputRecord.changeReadCiphers(readCipher); // update the handshake traffic write keys. SecretKey writeSecret = secretKD.deriveKey( "TlsClientHandshakeTrafficSecret", null); SSLKeyDerivation writeKD = kdg.createKeyDerivation(chc, writeSecret); SecretKey writeKey = writeKD.deriveKey( "TlsKey", null); SecretKey writeIvSecret = writeKD.deriveKey( "TlsIv", null); IvParameterSpec writeIv = new IvParameterSpec(writeIvSecret.getEncoded()); SSLWriteCipher writeCipher; try { writeCipher = chc.negotiatedCipherSuite.bulkCipher.createWriteCipher( Authenticator.valueOf(chc.negotiatedProtocol), chc.negotiatedProtocol, writeKey, writeIv, chc.sslContext.getSecureRandom()); } catch (GeneralSecurityException gse) { // unlikely throw chc.conContext.fatal(Alert.HANDSHAKE_FAILURE, "Missing cipher algorithm", gse); } if (writeCipher == null) { throw chc.conContext.fatal(Alert.ILLEGAL_PARAMETER, "Illegal cipher suite (" + chc.negotiatedCipherSuite + ") and protocol version (" + chc.negotiatedProtocol + ")"); } chc.baseWriteSecret = writeSecret; chc.conContext.outputRecord.changeWriteCiphers( writeCipher, (serverHello.sessionId.length() != 0)); // Should use resumption_master_secret for TLS 1.3. // chc.handshakeSession.setMasterSecret(masterSecret); // Update the context for master key derivation. chc.handshakeKeyDerivation = secretKD; // update the consumers and producers // // The server sends a dummy change_cipher_spec record immediately // after its first handshake message. This may either be after a // ServerHello or a HelloRetryRequest. chc.conContext.consumers.putIfAbsent( ContentType.CHANGE_CIPHER_SPEC.id, ChangeCipherSpec.t13Consumer); chc.handshakeConsumers.put( SSLHandshake.ENCRYPTED_EXTENSIONS.id, SSLHandshake.ENCRYPTED_EXTENSIONS); // Support cert authentication only, when not PSK. chc.handshakeConsumers.put( SSLHandshake.CERTIFICATE_REQUEST.id, SSLHandshake.CERTIFICATE_REQUEST); chc.handshakeConsumers.put( SSLHandshake.CERTIFICATE.id, SSLHandshake.CERTIFICATE); chc.handshakeConsumers.put( SSLHandshake.CERTIFICATE_VERIFY.id, SSLHandshake.CERTIFICATE_VERIFY); chc.handshakeConsumers.put( SSLHandshake.FINISHED.id, SSLHandshake.FINISHED); // // produce // // Need no new handshake message producers here. } } private static final class T13HelloRetryRequestConsumer implements HandshakeConsumer { // Prevent instantiation of this class. private T13HelloRetryRequestConsumer() { // blank } @Override public void consume(ConnectionContext context, HandshakeMessage message) throws IOException { // The consuming happens in client side only. ClientHandshakeContext chc = (ClientHandshakeContext)context; ServerHelloMessage helloRetryRequest = (ServerHelloMessage)message; if (helloRetryRequest.serverVersion != ProtocolVersion.TLS12) { throw chc.conContext.fatal(Alert.PROTOCOL_VERSION, "The HelloRetryRequest.legacy_version is not TLS 1.2"); } chc.negotiatedCipherSuite = helloRetryRequest.cipherSuite; // // validate // // Check and launch ClientHello extensions. SSLExtension[] extTypes = chc.sslConfig.getEnabledExtensions( SSLHandshake.HELLO_RETRY_REQUEST); helloRetryRequest.extensions.consumeOnLoad(chc, extTypes); // // update // helloRetryRequest.extensions.consumeOnTrade(chc, extTypes); // Change client/server handshake traffic secrets. // Refresh handshake hash chc.handshakeHash.finish(); // reset the handshake hash // calculate the transcript hash of the 1st ClientHello message HandshakeOutStream hos = new HandshakeOutStream(null); try { chc.initialClientHelloMsg.write(hos); } catch (IOException ioe) { // unlikely throw chc.conContext.fatal(Alert.HANDSHAKE_FAILURE, "Failed to construct message hash", ioe); } chc.handshakeHash.deliver(hos.toByteArray()); chc.handshakeHash.determine( chc.negotiatedProtocol, chc.negotiatedCipherSuite); byte[] clientHelloHash = chc.handshakeHash.digest(); // calculate the message_hash // // Transcript-Hash(ClientHello1, HelloRetryRequest, ... Mn) = // Hash(message_hash || /* Handshake type */ // 00 00 Hash.length || /* Handshake message length (bytes) */ // Hash(ClientHello1) || /* Hash of ClientHello1 */ // HelloRetryRequest || ... || Mn) int hashLen = chc.negotiatedCipherSuite.hashAlg.hashLength; byte[] hashedClientHello = new byte[4 + hashLen]; hashedClientHello[0] = SSLHandshake.MESSAGE_HASH.id; hashedClientHello[1] = (byte)0x00; hashedClientHello[2] = (byte)0x00; hashedClientHello[3] = (byte)(hashLen & 0xFF); System.arraycopy(clientHelloHash, 0, hashedClientHello, 4, hashLen); chc.handshakeHash.finish(); // reset the handshake hash chc.handshakeHash.deliver(hashedClientHello); int hrrBodyLen = helloRetryRequest.handshakeRecord.remaining(); byte[] hrrMessage = new byte[4 + hrrBodyLen]; hrrMessage[0] = SSLHandshake.HELLO_RETRY_REQUEST.id; hrrMessage[1] = (byte)((hrrBodyLen >> 16) & 0xFF); hrrMessage[2] = (byte)((hrrBodyLen >> 8) & 0xFF); hrrMessage[3] = (byte)(hrrBodyLen & 0xFF); ByteBuffer hrrBody = helloRetryRequest.handshakeRecord.duplicate(); hrrBody.get(hrrMessage, 4, hrrBodyLen); chc.handshakeHash.receive(hrrMessage); // Update the initial ClientHello handshake message. chc.initialClientHelloMsg.extensions.reproduce(chc, new SSLExtension[] { SSLExtension.CH_COOKIE, SSLExtension.CH_KEY_SHARE, SSLExtension.CH_PRE_SHARED_KEY }); // // produce response handshake message // SSLHandshake.CLIENT_HELLO.produce(context, helloRetryRequest); } } }