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/*
* Copyright (c) 2003, 2011, 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.
*/
//
// SunJSSE does not support dynamic system properties, no way to re-use
// system properties in samevm/agentvm mode.
//
/*
* @test
* @bug 4495742
* @summary Demonstrate SSLEngine switch from no client auth to client auth.
* @run main/othervm NoAuthClientAuth SSLv3
* @run main/othervm NoAuthClientAuth TLSv1
* @run main/othervm NoAuthClientAuth TLSv1.1
* @run main/othervm NoAuthClientAuth TLSv1.2
* @author Brad R. Wetmore
*/
/**
* A SSLEngine usage example which simplifies the presentation
* by removing the I/O and multi-threading concerns.
*
* The test creates two SSLEngines, simulating a client and server.
* The "transport" layer consists two byte buffers: think of them
* as directly connected pipes.
*
* Note, this is a *very* simple example: real code will be much more
* involved. For example, different threading and I/O models could be
* used, transport mechanisms could close unexpectedly, and so on.
*
* When this application runs, notice that several messages
* (wrap/unwrap) pass before any application data is consumed or
* produced. (For more information, please see the SSL/TLS
* specifications.) There may several steps for a successful handshake,
* so it's typical to see the following series of operations:
*
* client server message
* ====== ====== =======
* wrap() ... ClientHello
* ... unwrap() ClientHello
* ... wrap() ServerHello/Certificate
* unwrap() ... ServerHello/Certificate
* wrap() ... ClientKeyExchange
* wrap() ... ChangeCipherSpec
* wrap() ... Finished
* ... unwrap() ClientKeyExchange
* ... unwrap() ChangeCipherSpec
* ... unwrap() Finished
* ... wrap() ChangeCipherSpec
* ... wrap() Finished
* unwrap() ... ChangeCipherSpec
* unwrap() ... Finished
*
* In this example, we do a rehandshake and make sure that completes
* correctly.
*/
import javax.net.ssl.*;
import javax.net.ssl.SSLEngineResult.*;
import java.io.*;
import java.security.*;
import java.nio.*;
// Note that this test case depends on JSSE provider implementation details.
public class NoAuthClientAuth {
/*
* Enables logging of the SSLEngine operations.
*/
private static boolean logging = true;
/*
* Enables the JSSE system debugging system property:
*
* -Djavax.net.debug=all
*
* This gives a lot of low-level information about operations underway,
* including specific handshake messages, and might be best examined
* after gaining some familiarity with this application.
*/
private static boolean debug = true;
private SSLContext sslc;
private SSLEngine clientEngine; // client Engine
private ByteBuffer clientOut; // write side of clientEngine
private ByteBuffer clientIn; // read side of clientEngine
private SSLEngine serverEngine; // server Engine
private ByteBuffer serverOut; // write side of serverEngine
private ByteBuffer serverIn; // read side of serverEngine
/*
* For data transport, this example uses local ByteBuffers. This
* isn't really useful, but the purpose of this example is to show
* SSLEngine concepts, not how to do network transport.
*/
private ByteBuffer cTOs; // "reliable" transport client->server
private ByteBuffer sTOc; // "reliable" transport server->client
/*
* The following is to set up the keystores.
*/
private static String pathToStores = "../etc";
private static String keyStoreFile = "keystore";
private static String trustStoreFile = "truststore";
private static String passwd = "passphrase";
private static String keyFilename =
System.getProperty("test.src", ".") + "/" + pathToStores +
"/" + keyStoreFile;
private static String trustFilename =
System.getProperty("test.src", ".") + "/" + pathToStores +
"/" + trustStoreFile;
// the specified protocol
private static String tlsProtocol;
/*
* Main entry point for this test.
*/
public static void main(String args[]) throws Exception {
Security.setProperty("jdk.tls.disabledAlgorithms", "");
if (debug) {
System.setProperty("javax.net.debug", "all");
}
tlsProtocol = args[0];
NoAuthClientAuth test = new NoAuthClientAuth();
test.runTest();
System.out.println("Test Passed.");
}
/*
* Create an initialized SSLContext to use for these tests.
*/
public NoAuthClientAuth() throws Exception {
KeyStore ks = KeyStore.getInstance("JKS");
KeyStore ts = KeyStore.getInstance("JKS");
char[] passphrase = "passphrase".toCharArray();
ks.load(new FileInputStream(keyFilename), passphrase);
ts.load(new FileInputStream(trustFilename), passphrase);
KeyManagerFactory kmf = KeyManagerFactory.getInstance("SunX509");
kmf.init(ks, passphrase);
TrustManagerFactory tmf = TrustManagerFactory.getInstance("SunX509");
tmf.init(ts);
SSLContext sslCtx = SSLContext.getInstance("TLS");
sslCtx.init(kmf.getKeyManagers(), tmf.getTrustManagers(), null);
sslc = sslCtx;
}
/*
* Run the test.
*
* Sit in a tight loop, both engines calling wrap/unwrap regardless
* of whether data is available or not. We do this until both engines
* report back they are closed.
*
* The main loop handles all of the I/O phases of the SSLEngine's
* lifetime:
*
* initial handshaking
* application data transfer
* engine closing
*
* One could easily separate these phases into separate
* sections of code.
*/
private void runTest() throws Exception {
createSSLEngines();
createBuffers();
SSLEngineResult clientResult; // results from client's last operation
SSLEngineResult serverResult; // results from server's last operation
/*
* Examining the SSLEngineResults could be much more involved,
* and may alter the overall flow of the application.
*
* For example, if we received a BUFFER_OVERFLOW when trying
* to write to the output pipe, we could reallocate a larger
* pipe, but instead we wait for the peer to drain it.
*/
int hsCompleted = 0;
while (!isEngineClosed(clientEngine) ||
!isEngineClosed(serverEngine)) {
log("================");
clientResult = clientEngine.wrap(clientOut, cTOs);
log("client wrap: ", clientResult);
runDelegatedTasks(clientResult, clientEngine);
clientOut.rewind();
serverResult = serverEngine.wrap(serverOut, sTOc);
log("server wrap: ", serverResult);
runDelegatedTasks(serverResult, serverEngine);
serverOut.rewind();
// Jeanfrancois:
// Here is the main rehandshaking step.
if (serverResult.getHandshakeStatus() ==
HandshakeStatus.FINISHED) {
hsCompleted++;
log("\t" + hsCompleted + " handshake completed");
if (hsCompleted == 1) {
try {
serverEngine.getSession().getPeerCertificates();
throw new Exception("Should have got exception");
} catch (SSLPeerUnverifiedException e) {
System.out.println("Caught proper exception." + e);
}
log("\tInvalidating session, setting client auth, " +
" starting rehandshake");
serverEngine.getSession().invalidate();
serverEngine.setNeedClientAuth(true);
serverEngine.beginHandshake();
} else if (hsCompleted == 2) {
java.security.cert.Certificate [] certs =
serverEngine.getSession().getPeerCertificates();
System.out.println("Client Certificate(s) received");
for (java.security.cert.Certificate c : certs) {
System.out.println(c);
}
// log("Closing server.");
// serverEngine.closeOutbound();
} // nothing.
}
cTOs.flip();
sTOc.flip();
log("----");
if (!clientEngine.isInboundDone()) {
clientResult = clientEngine.unwrap(sTOc, clientIn);
log("client unwrap: ", clientResult);
runDelegatedTasks(clientResult, clientEngine);
clientIn.clear();
sTOc.compact();
} else {
sTOc.clear();
}
if (!serverEngine.isInboundDone()) {
serverResult = serverEngine.unwrap(cTOs, serverIn);
log("server unwrap: ", serverResult);
runDelegatedTasks(serverResult, serverEngine);
serverIn.clear();
cTOs.compact();
} else {
cTOs.clear();
}
if (hsCompleted == 2) {
log("Closing server.");
serverEngine.closeOutbound();
}
}
}
/*
* Using the SSLContext created during object creation,
* create/configure the SSLEngines we'll use for this test.
*/
private void createSSLEngines() throws Exception {
/*
* Configure the serverEngine to act as a server in the SSL/TLS
* handshake. Also, require SSL client authentication.
*/
serverEngine = sslc.createSSLEngine();
serverEngine.setUseClientMode(false);
serverEngine.setNeedClientAuth(false);
/*
* Similar to above, but using client mode instead.
*/
clientEngine = sslc.createSSLEngine("client", 80);
clientEngine.setUseClientMode(true);
clientEngine.setEnabledProtocols(new String[] { tlsProtocol });
}
/*
* Create and size the buffers appropriately.
*/
private void createBuffers() {
/*
* We'll assume the buffer sizes are the same
* between client and server.
*/
SSLSession session = clientEngine.getSession();
int appBufferMax = session.getApplicationBufferSize();
int netBufferMax = session.getPacketBufferSize();
/*
* We'll make the input buffers a bit bigger than the max needed
* size, so that unwrap()s following a successful data transfer
* won't generate BUFFER_OVERFLOWS.
*
* We'll use a mix of direct and indirect ByteBuffers for
* tutorial purposes only. In reality, only use direct
* ByteBuffers when they give a clear performance enhancement.
*/
clientIn = ByteBuffer.allocate(appBufferMax + 50);
serverIn = ByteBuffer.allocate(appBufferMax + 50);
cTOs = ByteBuffer.allocateDirect(netBufferMax);
sTOc = ByteBuffer.allocateDirect(netBufferMax);
clientOut = ByteBuffer.wrap("Hi Server, I'm Client".getBytes());
serverOut = ByteBuffer.wrap("Hello Client, I'm Server".getBytes());
}
/*
* If the result indicates that we have outstanding tasks to do,
* go ahead and run them in this thread.
*/
private static void runDelegatedTasks(SSLEngineResult result,
SSLEngine engine) throws Exception {
if (result.getHandshakeStatus() == HandshakeStatus.NEED_TASK) {
Runnable runnable;
while ((runnable = engine.getDelegatedTask()) != null) {
log("\trunning delegated task...");
runnable.run();
}
HandshakeStatus hsStatus = engine.getHandshakeStatus();
if (hsStatus == HandshakeStatus.NEED_TASK) {
throw new Exception(
"handshake shouldn't need additional tasks");
}
log("\tnew HandshakeStatus: " + hsStatus);
}
}
private static boolean isEngineClosed(SSLEngine engine) {
return (engine.isOutboundDone() && engine.isInboundDone());
}
/*
* Simple check to make sure everything came across as expected.
*/
private static void checkTransfer(ByteBuffer a, ByteBuffer b)
throws Exception {
a.flip();
b.flip();
if (!a.equals(b)) {
throw new Exception("Data didn't transfer cleanly");
} else {
log("\tData transferred cleanly");
}
a.position(a.limit());
b.position(b.limit());
a.limit(a.capacity());
b.limit(b.capacity());
}
/*
* Logging code
*/
private static boolean resultOnce = true;
private static void log(String str, SSLEngineResult result) {
if (!logging) {
return;
}
if (resultOnce) {
resultOnce = false;
System.out.println("The format of the SSLEngineResult is: \n" +
"\t\"getStatus() / getHandshakeStatus()\" +\n" +
"\t\"bytesConsumed() / bytesProduced()\"\n");
}
HandshakeStatus hsStatus = result.getHandshakeStatus();
log(str +
result.getStatus() + "/" + hsStatus + ", " +
result.bytesConsumed() + "/" + result.bytesProduced() +
" bytes");
if (hsStatus == HandshakeStatus.FINISHED) {
log("\t...ready for application data");
}
}
private static void log(String str) {
if (logging) {
System.out.println(str);
}
}
}
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