org.openeuler.sun.security.ssl.HandshakeContext Maven / Gradle / Ivy
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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 org.openeuler.sun.security.ssl;
import java.io.IOException;
import java.nio.BufferOverflowException;
import java.nio.BufferUnderflowException;
import java.nio.ByteBuffer;
import java.security.AlgorithmConstraints;
import java.security.CryptoPrimitive;
import java.util.AbstractMap.SimpleImmutableEntry;
import java.util.ArrayList;
import java.util.Collections;
import java.util.EnumMap;
import java.util.EnumSet;
import java.util.HashMap;
import java.util.LinkedHashMap;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.Queue;
import javax.crypto.SecretKey;
import javax.net.ssl.SNIServerName;
import javax.net.ssl.SSLHandshakeException;
import javax.security.auth.x500.X500Principal;
import org.openeuler.sun.security.ssl.SupportedGroupsExtension.NamedGroup;
import org.openeuler.sun.security.ssl.SupportedGroupsExtension.NamedGroupType;
import static org.openeuler.sun.security.ssl.SupportedGroupsExtension.NamedGroupType.*;
import org.openeuler.sun.security.ssl.SupportedGroupsExtension.SupportedGroups;
abstract class HandshakeContext implements ConnectionContext {
// System properties
// By default, disable the unsafe legacy session renegotiation.
static final boolean allowUnsafeRenegotiation =
Utilities.getBooleanProperty(
"sun.security.ssl.allowUnsafeRenegotiation", false);
// For maximum interoperability and backward compatibility, RFC 5746
// allows server (or client) to accept ClientHello (or ServerHello)
// message without the secure renegotiation_info extension or SCSV.
//
// For maximum security, RFC 5746 also allows server (or client) to
// reject such message with a fatal "handshake_failure" alert.
//
// By default, allow such legacy hello messages.
static final boolean allowLegacyHelloMessages =
Utilities.getBooleanProperty(
"sun.security.ssl.allowLegacyHelloMessages", true);
// registered handshake message actors
LinkedHashMap handshakeConsumers;
final HashMap handshakeProducers;
// context
final SSLContextImpl sslContext;
final TransportContext conContext;
final SSLConfiguration sslConfig;
// consolidated parameters
final List activeProtocols;
final List activeCipherSuites;
final AlgorithmConstraints algorithmConstraints;
final ProtocolVersion maximumActiveProtocol;
// output stream
final HandshakeOutStream handshakeOutput;
// handshake transcript hash
final HandshakeHash handshakeHash;
// negotiated security parameters
SSLSessionImpl handshakeSession;
boolean handshakeFinished;
// boolean isInvalidated;
boolean kickstartMessageDelivered;
// Resumption
boolean isResumption;
SSLSessionImpl resumingSession;
final Queue> delegatedActions;
volatile boolean taskDelegated = false;
volatile Exception delegatedThrown = null;
ProtocolVersion negotiatedProtocol;
CipherSuite negotiatedCipherSuite;
boolean t12WithGMCipherSuite;
final List handshakePossessions;
final List handshakeCredentials;
SSLKeyDerivation handshakeKeyDerivation;
SSLKeyExchange handshakeKeyExchange;
SecretKey baseReadSecret;
SecretKey baseWriteSecret;
// protocol version being established
int clientHelloVersion;
String applicationProtocol;
RandomCookie clientHelloRandom;
RandomCookie serverHelloRandom;
byte[] certRequestContext;
////////////////////
// Extensions
// the extensions used in the handshake
final Map
handshakeExtensions;
// MaxFragmentLength
int maxFragmentLength;
// SignatureScheme
List localSupportedSignAlgs;
List peerRequestedSignatureSchemes;
List peerRequestedCertSignSchemes;
// Known authorities
X500Principal[] peerSupportedAuthorities = null;
// SupportedGroups
List clientRequestedNamedGroups;
// HelloRetryRequest
NamedGroup serverSelectedNamedGroup;
// if server name indicator is negotiated
//
// May need a public API for the indication in the future.
List requestedServerNames;
SNIServerName negotiatedServerName;
// OCSP Stapling info
boolean staplingActive = false;
protected HandshakeContext(SSLContextImpl sslContext,
TransportContext conContext) throws IOException {
this.sslContext = sslContext;
this.conContext = conContext;
this.sslConfig = (SSLConfiguration)conContext.sslConfig.clone();
this.algorithmConstraints = new SSLAlgorithmConstraints(
sslConfig.userSpecifiedAlgorithmConstraints);
this.activeProtocols = getActiveProtocols(sslConfig.enabledProtocols,
sslConfig.enabledCipherSuites, algorithmConstraints);
if (activeProtocols.isEmpty()) {
throw new SSLHandshakeException(
"No appropriate protocol (protocol is disabled or " +
"cipher suites are inappropriate)");
}
ProtocolVersion maximumVersion = ProtocolVersion.NONE;
for (ProtocolVersion pv : this.activeProtocols) {
if (maximumVersion == ProtocolVersion.NONE ||
pv.compare(maximumVersion) > 0) {
maximumVersion = pv;
}
}
this.maximumActiveProtocol = maximumVersion;
this.activeCipherSuites = getActiveCipherSuites(this.activeProtocols,
sslConfig.enabledCipherSuites, algorithmConstraints);
if (activeCipherSuites.isEmpty()) {
throw new SSLHandshakeException("No appropriate cipher suite");
}
this.handshakeConsumers = new LinkedHashMap<>();
this.handshakeProducers = new HashMap<>();
this.handshakeHash = conContext.inputRecord.handshakeHash;
this.handshakeOutput = new HandshakeOutStream(conContext.outputRecord);
this.handshakeFinished = false;
this.kickstartMessageDelivered = false;
this.delegatedActions = new LinkedList<>();
this.handshakeExtensions = new HashMap<>();
this.handshakePossessions = new LinkedList<>();
this.handshakeCredentials = new LinkedList<>();
this.requestedServerNames = null;
this.negotiatedServerName = null;
this.negotiatedCipherSuite = conContext.cipherSuite;
initialize();
}
/**
* Constructor for PostHandshakeContext
*/
protected HandshakeContext(TransportContext conContext) {
this.sslContext = conContext.sslContext;
this.conContext = conContext;
this.sslConfig = conContext.sslConfig;
this.negotiatedProtocol = conContext.protocolVersion;
this.negotiatedCipherSuite = conContext.cipherSuite;
this.handshakeOutput = new HandshakeOutStream(conContext.outputRecord);
this.delegatedActions = new LinkedList<>();
this.handshakeConsumers = new LinkedHashMap<>();
this.handshakeProducers = null;
this.handshakeHash = null;
this.activeProtocols = null;
this.activeCipherSuites = null;
this.algorithmConstraints = null;
this.maximumActiveProtocol = null;
this.handshakeExtensions = Collections.emptyMap(); // Not in TLS13
this.handshakePossessions = null;
this.handshakeCredentials = null;
}
// Initialize the non-final class variables.
private void initialize() {
ProtocolVersion inputHelloVersion;
ProtocolVersion outputHelloVersion;
if (conContext.isNegotiated) {
inputHelloVersion = conContext.protocolVersion;
outputHelloVersion = conContext.protocolVersion;
} else {
if (activeProtocols.contains(ProtocolVersion.SSL20Hello)) {
inputHelloVersion = ProtocolVersion.SSL20Hello;
// Per TLS 1.3 protocol, implementation MUST NOT send an SSL
// version 2.0 compatible CLIENT-HELLO.
if (maximumActiveProtocol.useTLS13PlusSpec()) {
outputHelloVersion = maximumActiveProtocol;
} else {
outputHelloVersion = ProtocolVersion.SSL20Hello;
}
} else {
inputHelloVersion = maximumActiveProtocol;
outputHelloVersion = maximumActiveProtocol;
}
}
conContext.inputRecord.setHelloVersion(inputHelloVersion);
conContext.outputRecord.setHelloVersion(outputHelloVersion);
if (!conContext.isNegotiated) {
conContext.protocolVersion = maximumActiveProtocol;
}
conContext.outputRecord.setVersion(conContext.protocolVersion);
}
private static List getActiveProtocols(
List enabledProtocols,
List enabledCipherSuites,
AlgorithmConstraints algorithmConstraints) {
boolean enabledSSL20Hello = false;
ArrayList protocols = new ArrayList<>(4);
for (ProtocolVersion protocol : enabledProtocols) {
if (!enabledSSL20Hello && protocol == ProtocolVersion.SSL20Hello) {
enabledSSL20Hello = true;
continue;
}
if (!algorithmConstraints.permits(
EnumSet.of(CryptoPrimitive.KEY_AGREEMENT),
protocol.name, null)) {
// Ignore disabled protocol.
continue;
}
boolean found = false;
Map cachedStatus =
new EnumMap<>(NamedGroupType.class);
for (CipherSuite suite : enabledCipherSuites) {
if (suite.isAvailable() && suite.supports(protocol)) {
if (isActivatable(suite,
algorithmConstraints, cachedStatus)) {
protocols.add(protocol);
found = true;
break;
}
} else if (SSLLogger.isOn && SSLLogger.isOn("verbose")) {
SSLLogger.fine(
"Ignore unsupported cipher suite: " + suite +
" for " + protocol);
}
}
if (!found && (SSLLogger.isOn) && SSLLogger.isOn("handshake")) {
SSLLogger.fine(
"No available cipher suite for " + protocol);
}
}
if (!protocols.isEmpty()) {
if (enabledSSL20Hello) {
protocols.add(ProtocolVersion.SSL20Hello);
}
Collections.sort(protocols);
}
return Collections.unmodifiableList(protocols);
}
private static List getActiveCipherSuites(
List enabledProtocols,
List enabledCipherSuites,
AlgorithmConstraints algorithmConstraints) {
List suites = new LinkedList<>();
if (enabledProtocols != null && !enabledProtocols.isEmpty()) {
Map cachedStatus =
new EnumMap<>(NamedGroupType.class);
for (CipherSuite suite : enabledCipherSuites) {
if (!suite.isAvailable()) {
continue;
}
boolean isSupported = false;
for (ProtocolVersion protocol : enabledProtocols) {
if (!suite.supports(protocol)) {
continue;
}
if (isActivatable(suite,
algorithmConstraints, cachedStatus)) {
suites.add(suite);
isSupported = true;
break;
}
}
if (!isSupported &&
SSLLogger.isOn && SSLLogger.isOn("verbose")) {
SSLLogger.finest(
"Ignore unsupported cipher suite: " + suite);
}
}
}
return Collections.unmodifiableList(suites);
}
/**
* Parse the handshake record and return the contentType
*/
static byte getHandshakeType(TransportContext conContext,
Plaintext plaintext) throws IOException {
// struct {
// HandshakeType msg_type; /* handshake type */
// uint24 length; /* bytes in message */
// select (HandshakeType) {
// ...
// } body;
// } Handshake;
if (plaintext.contentType != ContentType.HANDSHAKE.id) {
throw conContext.fatal(Alert.INTERNAL_ERROR,
"Unexpected operation for record: " + plaintext.contentType);
}
if (plaintext.fragment == null || plaintext.fragment.remaining() < 4) {
throw conContext.fatal(Alert.UNEXPECTED_MESSAGE,
"Invalid handshake message: insufficient data");
}
byte handshakeType = (byte)Record.getInt8(plaintext.fragment);
int handshakeLen = Record.getInt24(plaintext.fragment);
if (handshakeLen != plaintext.fragment.remaining()) {
throw conContext.fatal(Alert.UNEXPECTED_MESSAGE,
"Invalid handshake message: insufficient handshake body");
}
return handshakeType;
}
void dispatch(byte handshakeType, Plaintext plaintext) throws IOException {
if (conContext.transport.useDelegatedTask()) {
boolean hasDelegated = !delegatedActions.isEmpty();
if (hasDelegated ||
(handshakeType != SSLHandshake.FINISHED.id &&
handshakeType != SSLHandshake.KEY_UPDATE.id &&
handshakeType != SSLHandshake.NEW_SESSION_TICKET.id)) {
if (!hasDelegated) {
taskDelegated = false;
delegatedThrown = null;
}
// Clone the fragment for delegated actions.
//
// The plaintext may share the application buffers. It is
// fine to use shared buffers if no delegated actions.
// However, for delegated actions, the shared buffers may be
// polluted in application layer before the delegated actions
// executed.
ByteBuffer fragment = ByteBuffer.wrap(
new byte[plaintext.fragment.remaining()]);
fragment.put(plaintext.fragment);
fragment = (ByteBuffer)fragment.rewind();
delegatedActions.add(new SimpleImmutableEntry<>(
handshakeType,
fragment
));
} else {
dispatch(handshakeType, plaintext.fragment);
}
} else {
dispatch(handshakeType, plaintext.fragment);
}
}
void dispatch(byte handshakeType,
ByteBuffer fragment) throws IOException {
SSLConsumer consumer;
if (handshakeType == SSLHandshake.HELLO_REQUEST.id) {
// For TLS 1.2 and prior versions, the HelloRequest message MAY
// be sent by the server at any time.
consumer = SSLHandshake.HELLO_REQUEST;
} else {
consumer = handshakeConsumers.get(handshakeType);
}
if (consumer == null) {
throw conContext.fatal(Alert.UNEXPECTED_MESSAGE,
"Unexpected handshake message: " +
SSLHandshake.nameOf(handshakeType));
}
try {
consumer.consume(this, fragment);
} catch (UnsupportedOperationException unsoe) {
throw conContext.fatal(Alert.UNEXPECTED_MESSAGE,
"Unsupported handshake message: " +
SSLHandshake.nameOf(handshakeType), unsoe);
} catch (BufferUnderflowException | BufferOverflowException be) {
throw conContext.fatal(Alert.DECODE_ERROR,
"Illegal handshake message: " +
SSLHandshake.nameOf(handshakeType), be);
}
// update handshake hash after handshake message consumption.
handshakeHash.consume();
}
abstract void kickstart() throws IOException;
/**
* Check if the given cipher suite is enabled and available within
* the current active cipher suites.
*
* Does not check if the required server certificates are available.
*/
boolean isNegotiable(CipherSuite cs) {
return isNegotiable(activeCipherSuites, cs);
}
/**
* Check if the given cipher suite is enabled and available within
* the proposed cipher suite list.
*
* Does not check if the required server certificates are available.
*/
static final boolean isNegotiable(
List proposed, CipherSuite cs) {
return proposed.contains(cs) && cs.isNegotiable();
}
/**
* Check if the given cipher suite is enabled and available within
* the proposed cipher suite list and specific protocol version.
*
* Does not check if the required server certificates are available.
*/
static final boolean isNegotiable(List proposed,
ProtocolVersion protocolVersion, CipherSuite cs) {
return proposed.contains(cs) &&
cs.isNegotiable() && cs.supports(protocolVersion);
}
/**
* Check if the given protocol version is enabled and available.
*/
boolean isNegotiable(ProtocolVersion protocolVersion) {
return activeProtocols.contains(protocolVersion);
}
/**
* Set the active protocol version and propagate it to the SSLSocket
* and our handshake streams. Called from ClientHandshaker
* and ServerHandshaker with the negotiated protocol version.
*/
void setVersion(ProtocolVersion protocolVersion) {
this.conContext.protocolVersion = protocolVersion;
}
private static boolean isActivatable(CipherSuite suite,
AlgorithmConstraints algorithmConstraints,
Map cachedStatus) {
if (algorithmConstraints.permits(
EnumSet.of(CryptoPrimitive.KEY_AGREEMENT), suite.name, null)) {
if (suite.keyExchange == null) {
// TLS 1.3, no definition of key exchange in cipher suite.
return true;
}
boolean available;
NamedGroupType groupType = suite.keyExchange.groupType;
if (groupType != NAMED_GROUP_NONE) {
Boolean checkedStatus = cachedStatus.get(groupType);
if (checkedStatus == null) {
available = SupportedGroups.isActivatable(
algorithmConstraints, groupType);
cachedStatus.put(groupType, available);
if (!available &&
SSLLogger.isOn && SSLLogger.isOn("verbose")) {
SSLLogger.fine("No activated named group");
}
} else {
available = checkedStatus;
}
if (!available && SSLLogger.isOn && SSLLogger.isOn("verbose")) {
SSLLogger.fine(
"No active named group, ignore " + suite);
}
return available;
} else {
return true;
}
} else if (SSLLogger.isOn && SSLLogger.isOn("verbose")) {
SSLLogger.fine("Ignore disabled cipher suite: " + suite);
}
return false;
}
List getRequestedServerNames() {
if (requestedServerNames == null) {
return Collections.emptyList();
}
return requestedServerNames;
}
}
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