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package sun.security.ssl;
import java.net.Socket;
import javax.net.ssl.SSLSession;
import java.util.*;
import java.security.*;
import java.security.cert.*;
import javax.net.ssl.*;
import sun.security.validator.*;
import sun.security.util.HostnameChecker;
/**
* This class implements the SunJSSE X.509 trust manager using the internal
* validator API in J2SE core. The logic in this class is minimal.<p>
* <p>
* This class supports both the Simple validation algorithm from previous
* JSSE versions and PKIX validation. Currently, it is not possible for the
* application to specify PKIX parameters other than trust anchors. This will
* be fixed in a future release using new APIs. When that happens, it may also
* make sense to separate the Simple and PKIX trust managers into separate
* classes.
*
* @author Andreas Sterbenz
*/
final class X509TrustManagerImpl extends X509ExtendedTrustManager
implements X509TrustManager {
private final String validatorType;
/**
* The Set of trusted X509Certificates.
*/
private final Collection<X509Certificate> trustedCerts;
private final PKIXBuilderParameters pkixParams;
// note that we need separate validator for client and server due to
// the different extension checks. They are initialized lazily on demand.
private volatile Validator clientValidator, serverValidator;
private static final Debug debug = Debug.getInstance("ssl");
X509TrustManagerImpl(String validatorType, KeyStore ks)
throws KeyStoreException {
this.validatorType = validatorType;
this.pkixParams = null;
if (ks == null) {
trustedCerts = Collections.<X509Certificate>emptySet();
} else {
trustedCerts = KeyStores.getTrustedCerts(ks);
}
showTrustedCerts();
}
X509TrustManagerImpl(String validatorType, PKIXBuilderParameters params) {
this.validatorType = validatorType;
this.pkixParams = params;
// create server validator eagerly so that we can conveniently
// get the trusted certificates
// clients need it anyway eventually, and servers will not mind
// the little extra footprint
Validator v = getValidator(Validator.VAR_TLS_SERVER);
trustedCerts = v.getTrustedCertificates();
serverValidator = v;
showTrustedCerts();
}
@Override
public void checkClientTrusted(X509Certificate chain[], String authType)
throws CertificateException {
checkTrusted(chain, authType, (Socket)null, true);
}
@Override
public void checkServerTrusted(X509Certificate chain[], String authType)
throws CertificateException {
checkTrusted(chain, authType, (Socket)null, false);
}
@Override
public X509Certificate[] getAcceptedIssuers() {
X509Certificate[] certsArray = new X509Certificate[trustedCerts.size()];
trustedCerts.toArray(certsArray);
return certsArray;
}
@Override
public void checkClientTrusted(X509Certificate[] chain, String authType,
Socket socket) throws CertificateException {
checkTrusted(chain, authType, socket, true);
}
@Override
public void checkServerTrusted(X509Certificate[] chain, String authType,
Socket socket) throws CertificateException {
checkTrusted(chain, authType, socket, false);
}
@Override
public void checkClientTrusted(X509Certificate[] chain, String authType,
SSLEngine engine) throws CertificateException {
checkTrusted(chain, authType, engine, true);
}
@Override
public void checkServerTrusted(X509Certificate[] chain, String authType,
SSLEngine engine) throws CertificateException {
checkTrusted(chain, authType, engine, false);
}
private Validator checkTrustedInit(X509Certificate[] chain,
String authType, boolean isClient) {
if (chain == null || chain.length == 0) {
throw new IllegalArgumentException(
"null or zero-length certificate chain");
}
if (authType == null || authType.length() == 0) {
throw new IllegalArgumentException(
"null or zero-length authentication type");
}
Validator v = null;
if (isClient) {
v = clientValidator;
if (v == null) {
synchronized (this) {
v = clientValidator;
if (v == null) {
v = getValidator(Validator.VAR_TLS_CLIENT);
clientValidator = v;
}
}
}
} else {
// assume double checked locking with a volatile flag works
// (guaranteed under the new Tiger memory model)
v = serverValidator;
if (v == null) {
synchronized (this) {
v = serverValidator;
if (v == null) {
v = getValidator(Validator.VAR_TLS_SERVER);
serverValidator = v;
}
}
}
}
return v;
}
private void checkTrusted(X509Certificate[] chain, String authType,
Socket socket, boolean isClient) throws CertificateException {
Validator v = checkTrustedInit(chain, authType, isClient);
AlgorithmConstraints constraints = null;
if ((socket != null) && socket.isConnected() &&
(socket instanceof SSLSocket)) {
SSLSocket sslSocket = (SSLSocket)socket;
SSLSession session = sslSocket.getHandshakeSession();
if (session == null) {
throw new CertificateException("No handshake session");
}
// check endpoint identity
String identityAlg = sslSocket.getSSLParameters().
getEndpointIdentificationAlgorithm();
if (identityAlg != null && identityAlg.length() != 0) {
checkIdentity(session, chain[0], identityAlg, isClient,
getRequestedServerNames(socket));
}
// create the algorithm constraints
ProtocolVersion protocolVersion =
ProtocolVersion.valueOf(session.getProtocol());
if (protocolVersion.v >= ProtocolVersion.TLS12.v) {
if (session instanceof ExtendedSSLSession) {
ExtendedSSLSession extSession =
(ExtendedSSLSession)session;
String[] localSupportedSignAlgs =
extSession.getLocalSupportedSignatureAlgorithms();
constraints = new SSLAlgorithmConstraints(
sslSocket, localSupportedSignAlgs, false);
} else {
constraints =
new SSLAlgorithmConstraints(sslSocket, false);
}
} else {
constraints = new SSLAlgorithmConstraints(sslSocket, false);
}
}
X509Certificate[] trustedChain = null;
if (isClient) {
trustedChain = validate(v, chain, constraints, null);
} else {
trustedChain = validate(v, chain, constraints, authType);
}
if (debug != null && Debug.isOn("trustmanager")) {
System.out.println("Found trusted certificate:");
System.out.println(trustedChain[trustedChain.length - 1]);
}
}
private void checkTrusted(X509Certificate[] chain, String authType,
SSLEngine engine, boolean isClient) throws CertificateException {
Validator v = checkTrustedInit(chain, authType, isClient);
AlgorithmConstraints constraints = null;
if (engine != null) {
SSLSession session = engine.getHandshakeSession();
if (session == null) {
throw new CertificateException("No handshake session");
}
// check endpoint identity
String identityAlg = engine.getSSLParameters().
getEndpointIdentificationAlgorithm();
if (identityAlg != null && identityAlg.length() != 0) {
checkIdentity(session, chain[0], identityAlg, isClient,
getRequestedServerNames(engine));
}
// create the algorithm constraints
ProtocolVersion protocolVersion =
ProtocolVersion.valueOf(session.getProtocol());
if (protocolVersion.v >= ProtocolVersion.TLS12.v) {
if (session instanceof ExtendedSSLSession) {
ExtendedSSLSession extSession =
(ExtendedSSLSession)session;
String[] localSupportedSignAlgs =
extSession.getLocalSupportedSignatureAlgorithms();
constraints = new SSLAlgorithmConstraints(
engine, localSupportedSignAlgs, false);
} else {
constraints =
new SSLAlgorithmConstraints(engine, false);
}
} else {
constraints = new SSLAlgorithmConstraints(engine, false);
}
}
X509Certificate[] trustedChain = null;
if (isClient) {
trustedChain = validate(v, chain, constraints, null);
} else {
trustedChain = validate(v, chain, constraints, authType);
}
if (debug != null && Debug.isOn("trustmanager")) {
System.out.println("Found trusted certificate:");
System.out.println(trustedChain[trustedChain.length - 1]);
}
}
private void showTrustedCerts() {
if (debug != null && Debug.isOn("trustmanager")) {
for (X509Certificate cert : trustedCerts) {
System.out.println("adding as trusted cert:");
System.out.println(" Subject: "
+ cert.getSubjectX500Principal());
System.out.println(" Issuer: "
+ cert.getIssuerX500Principal());
System.out.println(" Algorithm: "
+ cert.getPublicKey().getAlgorithm()
+ "; Serial number: 0x"
+ cert.getSerialNumber().toString(16));
System.out.println(" Valid from "
+ cert.getNotBefore() + " until "
+ cert.getNotAfter());
System.out.println();
}
}
}
private Validator getValidator(String variant) {
Validator v;
if (pkixParams == null) {
v = Validator.getInstance(validatorType, variant, trustedCerts);
} else {
v = Validator.getInstance(validatorType, variant, pkixParams);
}
return v;
}
private static X509Certificate[] validate(Validator v,
X509Certificate[] chain, AlgorithmConstraints constraints,
String authType) throws CertificateException {
Object o = JsseJce.beginFipsProvider();
try {
return v.validate(chain, null, constraints, authType);
} finally {
JsseJce.endFipsProvider(o);
}
}
// Get string representation of HostName from a list of server names.
//
// We are only accepting host_name name type in the list.
private static String getHostNameInSNI(List<SNIServerName> sniNames) {
SNIHostName hostname = null;
for (SNIServerName sniName : sniNames) {
if (sniName.getType() != StandardConstants.SNI_HOST_NAME) {
continue;
}
if (sniName instanceof SNIHostName) {
hostname = (SNIHostName)sniName;
} else {
try {
hostname = new SNIHostName(sniName.getEncoded());
} catch (IllegalArgumentException iae) {
// unlikely to happen, just in case ...
if ((debug != null) && Debug.isOn("trustmanager")) {
System.out.println("Illegal server name: " + sniName);
}
}
}
// no more than server name of the same name type
break;
}
if (hostname != null) {
return hostname.getAsciiName();
}
return null;
}
// Also used by X509KeyManagerImpl
static List<SNIServerName> getRequestedServerNames(Socket socket) {
if (socket != null && socket.isConnected() &&
socket instanceof SSLSocket) {
SSLSocket sslSocket = (SSLSocket)socket;
SSLSession session = sslSocket.getHandshakeSession();
if (session != null && (session instanceof ExtendedSSLSession)) {
ExtendedSSLSession extSession = (ExtendedSSLSession)session;
return extSession.getRequestedServerNames();
}
}
return Collections.<SNIServerName>emptyList();
}
// Also used by X509KeyManagerImpl
static List<SNIServerName> getRequestedServerNames(SSLEngine engine) {
if (engine != null) {
SSLSession session = engine.getHandshakeSession();
if (session != null && (session instanceof ExtendedSSLSession)) {
ExtendedSSLSession extSession = (ExtendedSSLSession)session;
return extSession.getRequestedServerNames();
}
}
return Collections.<SNIServerName>emptyList();
}
/*
* Per RFC 6066, if an application negotiates a server name using an
* application protocol and then upgrades to TLS, and if a server_name
* extension is sent, then the extension SHOULD contain the same name
* that was negotiated in the application protocol. If the server_name
* is established in the TLS session handshake, the client SHOULD NOT
* attempt to request a different server name at the application layer.
*
* According to the above spec, we only need to check either the identity
* in server_name extension or the peer host of the connection. Peer host
* is not always a reliable fully qualified domain name. The HostName in
* server_name extension is more reliable than peer host. So we prefer
* the identity checking aginst the server_name extension if present, and
* may failove to peer host checking.
*/
private static void checkIdentity(SSLSession session,
X509Certificate cert,
String algorithm,
boolean isClient,
List<SNIServerName> sniNames) throws CertificateException {
boolean identifiable = false;
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