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Smack/test-unit/org/jivesoftware/smackx/bytestreams/socks5/Socks5ByteStreamManagerTest.java
Florian Schmaus b16f34f61e SMACK-458 Managers should be kept on disconnects
Smack's Managers should not remove itself when the connection is closed
or should re-add themselves if the connection get reconnected.

This should also fix some NPE's.

We are currently going with two different designs of Manager: 1. The one
with WeakReferences/WeakHashMaps (SDM, EntityCapsManager) and 2. the one
where the managers remove their listeners on connectionClosed() *and*
connectionClosedOnError(), and later add their listeners on
reconnectionSuccessful(). The first design has the Connection instance
only weak referenced. The other design does reference Connection
strongly (e.g. the 'managers' map in IBBManager/S5BManager), but removes
this references when connectionClosed(onError)() is called.

git-svn-id: http://svn.igniterealtime.org/svn/repos/smack/branches/smack_3_3_2@13788 b35dd754-fafc-0310-a699-88a17e54d16e
2013-10-26 11:17:16 +00:00

1095 lines
45 KiB
Java

/**
* All rights reserved. Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.jivesoftware.smackx.bytestreams.socks5;
import static org.junit.Assert.*;
import static org.mockito.Mockito.*;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.net.ConnectException;
import org.jivesoftware.smack.Connection;
import org.jivesoftware.smack.SmackConfiguration;
import org.jivesoftware.smack.XMPPException;
import org.jivesoftware.smack.packet.IQ;
import org.jivesoftware.smack.packet.XMPPError;
import org.jivesoftware.smack.packet.IQ.Type;
import org.jivesoftware.smackx.ServiceDiscoveryManager;
import org.jivesoftware.smackx.bytestreams.socks5.Socks5BytestreamManager;
import org.jivesoftware.smackx.bytestreams.socks5.Socks5Client;
import org.jivesoftware.smackx.bytestreams.socks5.Socks5Proxy;
import org.jivesoftware.smackx.bytestreams.socks5.Socks5Utils;
import org.jivesoftware.smackx.bytestreams.socks5.packet.Bytestream;
import org.jivesoftware.smackx.bytestreams.socks5.packet.Bytestream.StreamHost;
import org.jivesoftware.smackx.packet.DiscoverInfo;
import org.jivesoftware.smackx.packet.DiscoverItems;
import org.jivesoftware.smackx.packet.DiscoverInfo.Identity;
import org.jivesoftware.smackx.packet.DiscoverItems.Item;
import org.jivesoftware.util.ConnectionUtils;
import org.jivesoftware.util.Protocol;
import org.jivesoftware.util.Verification;
import org.junit.After;
import org.junit.Before;
import org.junit.Test;
/**
* Test for Socks5BytestreamManager.
*
* @author Henning Staib
*/
public class Socks5ByteStreamManagerTest {
// settings
String initiatorJID = "initiator@xmpp-server/Smack";
String targetJID = "target@xmpp-server/Smack";
String xmppServer = "xmpp-server";
String proxyJID = "proxy.xmpp-server";
String proxyAddress = "127.0.0.1";
String sessionID = "session_id";
// protocol verifier
Protocol protocol;
// mocked XMPP connection
Connection connection;
/**
* Initialize fields used in the tests.
*/
@Before
public void setup() {
// build protocol verifier
protocol = new Protocol();
// create mocked XMPP connection
connection = ConnectionUtils.createMockedConnection(protocol, initiatorJID, xmppServer);
}
/**
* Test that {@link Socks5BytestreamManager#getBytestreamManager(Connection)} returns one
* bytestream manager for every connection
*/
@Test
public void shouldHaveOneManagerForEveryConnection() {
// mock two connections
Connection connection1 = mock(Connection.class);
Connection connection2 = mock(Connection.class);
/*
* create service discovery managers for the connections because the
* ConnectionCreationListener is not called when creating mocked connections
*/
ServiceDiscoveryManager.getInstanceFor(connection1);
ServiceDiscoveryManager.getInstanceFor(connection2);
// get bytestream manager for the first connection twice
Socks5BytestreamManager conn1ByteStreamManager1 = Socks5BytestreamManager.getBytestreamManager(connection1);
Socks5BytestreamManager conn1ByteStreamManager2 = Socks5BytestreamManager.getBytestreamManager(connection1);
// get bytestream manager for second connection
Socks5BytestreamManager conn2ByteStreamManager1 = Socks5BytestreamManager.getBytestreamManager(connection2);
// assertions
assertEquals(conn1ByteStreamManager1, conn1ByteStreamManager2);
assertNotSame(conn1ByteStreamManager1, conn2ByteStreamManager1);
}
/**
* The SOCKS5 Bytestream feature should be removed form the service discovery manager if Socks5
* bytestream feature is disabled.
*/
@Test
public void shouldDisableService() {
Socks5BytestreamManager byteStreamManager = Socks5BytestreamManager.getBytestreamManager(connection);
ServiceDiscoveryManager discoveryManager = ServiceDiscoveryManager.getInstanceFor(connection);
assertTrue(discoveryManager.includesFeature(Socks5BytestreamManager.NAMESPACE));
byteStreamManager.disableService();
assertFalse(discoveryManager.includesFeature(Socks5BytestreamManager.NAMESPACE));
}
/**
* Invoking {@link Socks5BytestreamManager#establishSession(String)} should throw an exception
* if the given target does not support SOCKS5 Bytestream.
*/
@Test
public void shouldFailIfTargetDoesNotSupportSocks5() {
Socks5BytestreamManager byteStreamManager = Socks5BytestreamManager.getBytestreamManager(connection);
try {
// build empty discover info as reply if targets features are queried
DiscoverInfo discoverInfo = new DiscoverInfo();
protocol.addResponse(discoverInfo);
// start SOCKS5 Bytestream
byteStreamManager.establishSession(targetJID);
fail("exception should be thrown");
}
catch (XMPPException e) {
assertTrue(e.getMessage().contains("doesn't support SOCKS5 Bytestream"));
}
catch (IOException e) {
fail(e.getMessage());
}
catch (InterruptedException e) {
fail(e.getMessage());
}
}
/**
* Invoking {@link Socks5BytestreamManager#establishSession(String, String)} should fail if XMPP
* server doesn't return any proxies.
*/
@Test
public void shouldFailIfNoSocks5ProxyFound1() {
// disable clients local SOCKS5 proxy
SmackConfiguration.setLocalSocks5ProxyEnabled(false);
// get Socks5ByteStreamManager for connection
Socks5BytestreamManager byteStreamManager = Socks5BytestreamManager.getBytestreamManager(connection);
/**
* create responses in the order they should be queried specified by the XEP-0065
* specification
*/
// build discover info that supports the SOCKS5 feature
DiscoverInfo discoverInfo = Socks5PacketUtils.createDiscoverInfo(targetJID, initiatorJID);
discoverInfo.addFeature(Socks5BytestreamManager.NAMESPACE);
// return that SOCKS5 is supported if target is queried
protocol.addResponse(discoverInfo, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build discover items with no proxy items
DiscoverItems discoverItems = Socks5PacketUtils.createDiscoverItems(xmppServer,
initiatorJID);
// return the item with no proxy if XMPP server is queried
protocol.addResponse(discoverItems, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
try {
// start SOCKS5 Bytestream
byteStreamManager.establishSession(targetJID, sessionID);
fail("exception should be thrown");
}
catch (XMPPException e) {
protocol.verifyAll();
assertTrue(e.getMessage().contains("no SOCKS5 proxies available"));
}
catch (Exception e) {
fail(e.getMessage());
}
}
/**
* Invoking {@link Socks5BytestreamManager#establishSession(String, String)} should fail if no
* proxy is a SOCKS5 proxy.
*/
@Test
public void shouldFailIfNoSocks5ProxyFound2() {
// disable clients local SOCKS5 proxy
SmackConfiguration.setLocalSocks5ProxyEnabled(false);
// get Socks5ByteStreamManager for connection
Socks5BytestreamManager byteStreamManager = Socks5BytestreamManager.getBytestreamManager(connection);
/**
* create responses in the order they should be queried specified by the XEP-0065
* specification
*/
// build discover info that supports the SOCKS5 feature
DiscoverInfo discoverInfo = Socks5PacketUtils.createDiscoverInfo(targetJID, initiatorJID);
discoverInfo.addFeature(Socks5BytestreamManager.NAMESPACE);
// return that SOCKS5 is supported if target is queried
protocol.addResponse(discoverInfo, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build discover items containing a proxy item
DiscoverItems discoverItems = Socks5PacketUtils.createDiscoverItems(xmppServer,
initiatorJID);
Item item = new Item(proxyJID);
discoverItems.addItem(item);
// return the proxy item if XMPP server is queried
protocol.addResponse(discoverItems, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build discover info for proxy containing information about NOT being a Socks5
// proxy
DiscoverInfo proxyInfo = Socks5PacketUtils.createDiscoverInfo(proxyJID, initiatorJID);
Identity identity = new Identity("noproxy", proxyJID, "bytestreams");
proxyInfo.addIdentity(identity);
// return the proxy identity if proxy is queried
protocol.addResponse(proxyInfo, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
try {
// start SOCKS5 Bytestream
byteStreamManager.establishSession(targetJID, sessionID);
fail("exception should be thrown");
}
catch (XMPPException e) {
protocol.verifyAll();
assertTrue(e.getMessage().contains("no SOCKS5 proxies available"));
}
catch (Exception e) {
fail(e.getMessage());
}
}
/**
* Invoking {@link Socks5BytestreamManager#establishSession(String, String)} should fail if no
* SOCKS5 proxy can be found. If it turns out that a proxy is not a SOCKS5 proxy it should not
* be queried again.
*/
@Test
public void shouldBlacklistNonSocks5Proxies() {
// disable clients local SOCKS5 proxy
SmackConfiguration.setLocalSocks5ProxyEnabled(false);
// get Socks5ByteStreamManager for connection
Socks5BytestreamManager byteStreamManager = Socks5BytestreamManager.getBytestreamManager(connection);
/**
* create responses in the order they should be queried specified by the XEP-0065
* specification
*/
// build discover info that supports the SOCKS5 feature
DiscoverInfo discoverInfo = Socks5PacketUtils.createDiscoverInfo(targetJID, initiatorJID);
discoverInfo.addFeature(Socks5BytestreamManager.NAMESPACE);
// return that SOCKS5 is supported if target is queried
protocol.addResponse(discoverInfo, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build discover items containing a proxy item
DiscoverItems discoverItems = Socks5PacketUtils.createDiscoverItems(xmppServer,
initiatorJID);
Item item = new Item(proxyJID);
discoverItems.addItem(item);
// return the proxy item if XMPP server is queried
protocol.addResponse(discoverItems, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build discover info for proxy containing information about NOT being a Socks5
// proxy
DiscoverInfo proxyInfo = Socks5PacketUtils.createDiscoverInfo(proxyJID, initiatorJID);
Identity identity = new Identity("noproxy", proxyJID, "bytestreams");
proxyInfo.addIdentity(identity);
// return the proxy identity if proxy is queried
protocol.addResponse(proxyInfo, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
try {
// start SOCKS5 Bytestream
byteStreamManager.establishSession(targetJID, sessionID);
fail("exception should be thrown");
}
catch (XMPPException e) {
protocol.verifyAll();
assertTrue(e.getMessage().contains("no SOCKS5 proxies available"));
}
catch (Exception e) {
fail(e.getMessage());
}
/* retry to establish SOCKS5 Bytestream */
// add responses for service discovery again
protocol.addResponse(discoverInfo, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
protocol.addResponse(discoverItems, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
try {
// start SOCKS5 Bytestream
byteStreamManager.establishSession(targetJID, sessionID);
fail("exception should be thrown");
}
catch (XMPPException e) {
/*
* #verifyAll() tests if the number of requests and responses corresponds and should
* fail if the invalid proxy is queried again
*/
protocol.verifyAll();
assertTrue(e.getMessage().contains("no SOCKS5 proxies available"));
}
catch (Exception e) {
fail(e.getMessage());
}
}
/**
* Invoking {@link Socks5BytestreamManager#establishSession(String, String)} should fail if the
* target does not accept a SOCKS5 Bytestream. See <a
* href="http://xmpp.org/extensions/xep-0065.html#usecase-alternate">XEP-0065 Section 5.2 A2</a>
*/
@Test
public void shouldFailIfTargetDoesNotAcceptSocks5Bytestream() {
// disable clients local SOCKS5 proxy
SmackConfiguration.setLocalSocks5ProxyEnabled(false);
// get Socks5ByteStreamManager for connection
Socks5BytestreamManager byteStreamManager = Socks5BytestreamManager.getBytestreamManager(connection);
/**
* create responses in the order they should be queried specified by the XEP-0065
* specification
*/
// build discover info that supports the SOCKS5 feature
DiscoverInfo discoverInfo = Socks5PacketUtils.createDiscoverInfo(targetJID, initiatorJID);
discoverInfo.addFeature(Socks5BytestreamManager.NAMESPACE);
// return that SOCKS5 is supported if target is queried
protocol.addResponse(discoverInfo, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build discover items containing a proxy item
DiscoverItems discoverItems = Socks5PacketUtils.createDiscoverItems(xmppServer,
initiatorJID);
Item item = new Item(proxyJID);
discoverItems.addItem(item);
// return the proxy item if XMPP server is queried
protocol.addResponse(discoverItems, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build discover info for proxy containing information about being a SOCKS5 proxy
DiscoverInfo proxyInfo = Socks5PacketUtils.createDiscoverInfo(proxyJID, initiatorJID);
Identity identity = new Identity("proxy", proxyJID, "bytestreams");
proxyInfo.addIdentity(identity);
// return the socks5 bytestream proxy identity if proxy is queried
protocol.addResponse(proxyInfo, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build a socks5 stream host info containing the address and the port of the
// proxy
Bytestream streamHostInfo = Socks5PacketUtils.createBytestreamResponse(proxyJID,
initiatorJID);
streamHostInfo.addStreamHost(proxyJID, proxyAddress, 7778);
// return stream host info if it is queried
protocol.addResponse(streamHostInfo, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build error packet to reject SOCKS5 Bytestream
XMPPError xmppError = new XMPPError(XMPPError.Condition.no_acceptable);
IQ rejectPacket = new IQ() {
public String getChildElementXML() {
return null;
}
};
rejectPacket.setType(Type.ERROR);
rejectPacket.setFrom(targetJID);
rejectPacket.setTo(initiatorJID);
rejectPacket.setError(xmppError);
// return error packet as response to the bytestream initiation
protocol.addResponse(rejectPacket, Verification.correspondingSenderReceiver,
Verification.requestTypeSET);
try {
// start SOCKS5 Bytestream
byteStreamManager.establishSession(targetJID, sessionID);
fail("exception should be thrown");
}
catch (XMPPException e) {
protocol.verifyAll();
assertEquals(xmppError, e.getXMPPError());
}
catch (Exception e) {
fail(e.getMessage());
}
}
/**
* Invoking {@link Socks5BytestreamManager#establishSession(String, String)} should fail if the
* proxy used by target is invalid.
*/
@Test
public void shouldFailIfTargetUsesInvalidSocks5Proxy() {
// disable clients local SOCKS5 proxy
SmackConfiguration.setLocalSocks5ProxyEnabled(false);
// get Socks5ByteStreamManager for connection
Socks5BytestreamManager byteStreamManager = Socks5BytestreamManager.getBytestreamManager(connection);
/**
* create responses in the order they should be queried specified by the XEP-0065
* specification
*/
// build discover info that supports the SOCKS5 feature
DiscoverInfo discoverInfo = Socks5PacketUtils.createDiscoverInfo(targetJID, initiatorJID);
discoverInfo.addFeature(Socks5BytestreamManager.NAMESPACE);
// return that SOCKS5 is supported if target is queried
protocol.addResponse(discoverInfo, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build discover items containing a proxy item
DiscoverItems discoverItems = Socks5PacketUtils.createDiscoverItems(xmppServer,
initiatorJID);
Item item = new Item(proxyJID);
discoverItems.addItem(item);
// return the proxy item if XMPP server is queried
protocol.addResponse(discoverItems, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build discover info for proxy containing information about being a SOCKS5 proxy
DiscoverInfo proxyInfo = Socks5PacketUtils.createDiscoverInfo(proxyJID, initiatorJID);
Identity identity = new Identity("proxy", proxyJID, "bytestreams");
proxyInfo.addIdentity(identity);
// return the socks5 bytestream proxy identity if proxy is queried
protocol.addResponse(proxyInfo, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build a socks5 stream host info containing the address and the port of the
// proxy
Bytestream streamHostInfo = Socks5PacketUtils.createBytestreamResponse(proxyJID,
initiatorJID);
streamHostInfo.addStreamHost(proxyJID, proxyAddress, 7778);
// return stream host info if it is queried
protocol.addResponse(streamHostInfo, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build used stream host response with unknown proxy
Bytestream streamHostUsedPacket = Socks5PacketUtils.createBytestreamResponse(targetJID,
initiatorJID);
streamHostUsedPacket.setSessionID(sessionID);
streamHostUsedPacket.setUsedHost("invalid.proxy");
// return used stream host info as response to the bytestream initiation
protocol.addResponse(streamHostUsedPacket, Verification.correspondingSenderReceiver,
Verification.requestTypeSET);
try {
// start SOCKS5 Bytestream
byteStreamManager.establishSession(targetJID, sessionID);
fail("exception should be thrown");
}
catch (XMPPException e) {
protocol.verifyAll();
assertTrue(e.getMessage().contains("Remote user responded with unknown host"));
}
catch (Exception e) {
fail(e.getMessage());
}
}
/**
* Invoking {@link Socks5BytestreamManager#establishSession(String, String)} should fail if
* initiator can not connect to the SOCKS5 proxy used by target.
*/
@Test
public void shouldFailIfInitiatorCannotConnectToSocks5Proxy() {
// disable clients local SOCKS5 proxy
SmackConfiguration.setLocalSocks5ProxyEnabled(false);
// get Socks5ByteStreamManager for connection
Socks5BytestreamManager byteStreamManager = Socks5BytestreamManager.getBytestreamManager(connection);
/**
* create responses in the order they should be queried specified by the XEP-0065
* specification
*/
// build discover info that supports the SOCKS5 feature
DiscoverInfo discoverInfo = Socks5PacketUtils.createDiscoverInfo(targetJID, initiatorJID);
discoverInfo.addFeature(Socks5BytestreamManager.NAMESPACE);
// return that SOCKS5 is supported if target is queried
protocol.addResponse(discoverInfo, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build discover items containing a proxy item
DiscoverItems discoverItems = Socks5PacketUtils.createDiscoverItems(xmppServer,
initiatorJID);
Item item = new Item(proxyJID);
discoverItems.addItem(item);
// return the proxy item if XMPP server is queried
protocol.addResponse(discoverItems, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build discover info for proxy containing information about being a SOCKS5 proxy
DiscoverInfo proxyInfo = Socks5PacketUtils.createDiscoverInfo(proxyJID, initiatorJID);
Identity identity = new Identity("proxy", proxyJID, "bytestreams");
proxyInfo.addIdentity(identity);
// return the socks5 bytestream proxy identity if proxy is queried
protocol.addResponse(proxyInfo, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build a socks5 stream host info containing the address and the port of the
// proxy
Bytestream streamHostInfo = Socks5PacketUtils.createBytestreamResponse(proxyJID,
initiatorJID);
streamHostInfo.addStreamHost(proxyJID, proxyAddress, 7778);
// return stream host info if it is queried
protocol.addResponse(streamHostInfo, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build used stream host response
Bytestream streamHostUsedPacket = Socks5PacketUtils.createBytestreamResponse(targetJID,
initiatorJID);
streamHostUsedPacket.setSessionID(sessionID);
streamHostUsedPacket.setUsedHost(proxyJID);
// return used stream host info as response to the bytestream initiation
protocol.addResponse(streamHostUsedPacket, new Verification<Bytestream, Bytestream>() {
public void verify(Bytestream request, Bytestream response) {
// verify SOCKS5 Bytestream request
assertEquals(response.getSessionID(), request.getSessionID());
assertEquals(1, request.getStreamHosts().size());
StreamHost streamHost = (StreamHost) request.getStreamHosts().toArray()[0];
assertEquals(response.getUsedHost().getJID(), streamHost.getJID());
}
}, Verification.correspondingSenderReceiver, Verification.requestTypeSET);
try {
// start SOCKS5 Bytestream
byteStreamManager.establishSession(targetJID, sessionID);
fail("exception should be thrown");
}
catch (IOException e) {
// initiator can't connect to proxy because it is not running
protocol.verifyAll();
assertEquals(ConnectException.class, e.getClass());
}
catch (Exception e) {
fail(e.getMessage());
}
}
/**
* Invoking {@link Socks5BytestreamManager#establishSession(String, String)} should successfully
* negotiate and return a SOCKS5 Bytestream connection.
*
* @throws Exception should not happen
*/
@Test
public void shouldNegotiateSocks5BytestreamAndTransferData() throws Exception {
// disable clients local SOCKS5 proxy
SmackConfiguration.setLocalSocks5ProxyEnabled(false);
// get Socks5ByteStreamManager for connection
Socks5BytestreamManager byteStreamManager = Socks5BytestreamManager.getBytestreamManager(connection);
/**
* create responses in the order they should be queried specified by the XEP-0065
* specification
*/
// build discover info that supports the SOCKS5 feature
DiscoverInfo discoverInfo = Socks5PacketUtils.createDiscoverInfo(targetJID, initiatorJID);
discoverInfo.addFeature(Socks5BytestreamManager.NAMESPACE);
// return that SOCKS5 is supported if target is queried
protocol.addResponse(discoverInfo, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build discover items containing a proxy item
DiscoverItems discoverItems = Socks5PacketUtils.createDiscoverItems(xmppServer,
initiatorJID);
Item item = new Item(proxyJID);
discoverItems.addItem(item);
// return the proxy item if XMPP server is queried
protocol.addResponse(discoverItems, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build discover info for proxy containing information about being a SOCKS5 proxy
DiscoverInfo proxyInfo = Socks5PacketUtils.createDiscoverInfo(proxyJID, initiatorJID);
Identity identity = new Identity("proxy", proxyJID, "bytestreams");
proxyInfo.addIdentity(identity);
// return the socks5 bytestream proxy identity if proxy is queried
protocol.addResponse(proxyInfo, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build a socks5 stream host info containing the address and the port of the
// proxy
Bytestream streamHostInfo = Socks5PacketUtils.createBytestreamResponse(proxyJID,
initiatorJID);
streamHostInfo.addStreamHost(proxyJID, proxyAddress, 7778);
// return stream host info if it is queried
protocol.addResponse(streamHostInfo, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build used stream host response
Bytestream streamHostUsedPacket = Socks5PacketUtils.createBytestreamResponse(targetJID,
initiatorJID);
streamHostUsedPacket.setSessionID(sessionID);
streamHostUsedPacket.setUsedHost(proxyJID);
// return used stream host info as response to the bytestream initiation
protocol.addResponse(streamHostUsedPacket, new Verification<Bytestream, Bytestream>() {
public void verify(Bytestream request, Bytestream response) {
assertEquals(response.getSessionID(), request.getSessionID());
assertEquals(1, request.getStreamHosts().size());
StreamHost streamHost = (StreamHost) request.getStreamHosts().toArray()[0];
assertEquals(response.getUsedHost().getJID(), streamHost.getJID());
}
}, Verification.correspondingSenderReceiver, Verification.requestTypeSET);
// build response to proxy activation
IQ activationResponse = Socks5PacketUtils.createActivationConfirmation(proxyJID,
initiatorJID);
// return proxy activation response if proxy should be activated
protocol.addResponse(activationResponse, new Verification<Bytestream, IQ>() {
public void verify(Bytestream request, IQ response) {
assertEquals(targetJID, request.getToActivate().getTarget());
}
}, Verification.correspondingSenderReceiver, Verification.requestTypeSET);
// start a local SOCKS5 proxy
Socks5TestProxy socks5Proxy = Socks5TestProxy.getProxy(7778);
socks5Proxy.start();
// create digest to get the socket opened by target
String digest = Socks5Utils.createDigest(sessionID, initiatorJID, targetJID);
// finally call the method that should be tested
OutputStream outputStream = byteStreamManager.establishSession(targetJID, sessionID).getOutputStream();
// test the established bytestream
InputStream inputStream = socks5Proxy.getSocket(digest).getInputStream();
byte[] data = new byte[] { 1, 2, 3 };
outputStream.write(data);
byte[] result = new byte[3];
inputStream.read(result);
assertArrayEquals(data, result);
protocol.verifyAll();
}
/**
* If multiple network addresses are added to the local SOCKS5 proxy, all of them should be
* contained in the SOCKS5 Bytestream request.
*
* @throws Exception should not happen
*/
@Test
public void shouldUseMultipleAddressesForLocalSocks5Proxy() throws Exception {
// enable clients local SOCKS5 proxy on port 7778
SmackConfiguration.setLocalSocks5ProxyEnabled(true);
SmackConfiguration.setLocalSocks5ProxyPort(7778);
// start a local SOCKS5 proxy
Socks5Proxy socks5Proxy = Socks5Proxy.getSocks5Proxy();
socks5Proxy.start();
assertTrue(socks5Proxy.isRunning());
// get Socks5ByteStreamManager for connection
Socks5BytestreamManager byteStreamManager = Socks5BytestreamManager.getBytestreamManager(connection);
/**
* create responses in the order they should be queried specified by the XEP-0065
* specification
*/
// build discover info that supports the SOCKS5 feature
DiscoverInfo discoverInfo = Socks5PacketUtils.createDiscoverInfo(targetJID, initiatorJID);
discoverInfo.addFeature(Socks5BytestreamManager.NAMESPACE);
// return that SOCKS5 is supported if target is queried
protocol.addResponse(discoverInfo, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build discover items containing no proxy item
DiscoverItems discoverItems = Socks5PacketUtils.createDiscoverItems(xmppServer,
initiatorJID);
// return the discover item if XMPP server is queried
protocol.addResponse(discoverItems, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build used stream host response
Bytestream streamHostUsedPacket = Socks5PacketUtils.createBytestreamResponse(targetJID,
initiatorJID);
streamHostUsedPacket.setSessionID(sessionID);
streamHostUsedPacket.setUsedHost(initiatorJID); // local proxy used
// return used stream host info as response to the bytestream initiation
protocol.addResponse(streamHostUsedPacket, new Verification<Bytestream, Bytestream>() {
public void verify(Bytestream request, Bytestream response) {
assertEquals(response.getSessionID(), request.getSessionID());
assertEquals(2, request.getStreamHosts().size());
StreamHost streamHost1 = (StreamHost) request.getStreamHosts().toArray()[0];
assertEquals(response.getUsedHost().getJID(), streamHost1.getJID());
StreamHost streamHost2 = (StreamHost) request.getStreamHosts().toArray()[1];
assertEquals(response.getUsedHost().getJID(), streamHost2.getJID());
assertEquals("localAddress", streamHost2.getAddress());
}
}, Verification.correspondingSenderReceiver, Verification.requestTypeSET);
// create digest to get the socket opened by target
String digest = Socks5Utils.createDigest(sessionID, initiatorJID, targetJID);
// connect to proxy as target
socks5Proxy.addTransfer(digest);
StreamHost streamHost = new StreamHost(targetJID, socks5Proxy.getLocalAddresses().get(0));
streamHost.setPort(socks5Proxy.getPort());
Socks5Client socks5Client = new Socks5Client(streamHost, digest);
InputStream inputStream = socks5Client.getSocket(2000).getInputStream();
// add another network address before establishing SOCKS5 Bytestream
socks5Proxy.addLocalAddress("localAddress");
// finally call the method that should be tested
OutputStream outputStream = byteStreamManager.establishSession(targetJID, sessionID).getOutputStream();
// test the established bytestream
byte[] data = new byte[] { 1, 2, 3 };
outputStream.write(data);
byte[] result = new byte[3];
inputStream.read(result);
assertArrayEquals(data, result);
protocol.verifyAll();
// reset proxy settings
socks5Proxy.stop();
socks5Proxy.removeLocalAddress("localAddress");
SmackConfiguration.setLocalSocks5ProxyPort(7777);
}
/**
* Invoking {@link Socks5BytestreamManager#establishSession(String, String)} the first time
* should successfully negotiate a SOCKS5 Bytestream via the second SOCKS5 proxy and should
* prioritize this proxy for a second SOCKS5 Bytestream negotiation.
*
* @throws Exception should not happen
*/
@Test
public void shouldPrioritizeSecondSocks5ProxyOnSecondAttempt() throws Exception {
// disable clients local SOCKS5 proxy
SmackConfiguration.setLocalSocks5ProxyEnabled(false);
// get Socks5ByteStreamManager for connection
Socks5BytestreamManager byteStreamManager = Socks5BytestreamManager.getBytestreamManager(connection);
assertTrue(byteStreamManager.isProxyPrioritizationEnabled());
Verification<Bytestream, Bytestream> streamHostUsedVerification1 = new Verification<Bytestream, Bytestream>() {
public void verify(Bytestream request, Bytestream response) {
assertEquals(response.getSessionID(), request.getSessionID());
assertEquals(2, request.getStreamHosts().size());
// verify that the used stream host is the second in list
StreamHost streamHost = (StreamHost) request.getStreamHosts().toArray()[1];
assertEquals(response.getUsedHost().getJID(), streamHost.getJID());
}
};
createResponses(streamHostUsedVerification1);
// start a local SOCKS5 proxy
Socks5TestProxy socks5Proxy = Socks5TestProxy.getProxy(7778);
socks5Proxy.start();
// create digest to get the socket opened by target
String digest = Socks5Utils.createDigest(sessionID, initiatorJID, targetJID);
// call the method that should be tested
OutputStream outputStream = byteStreamManager.establishSession(targetJID, sessionID).getOutputStream();
// test the established bytestream
InputStream inputStream = socks5Proxy.getSocket(digest).getInputStream();
byte[] data = new byte[] { 1, 2, 3 };
outputStream.write(data);
byte[] result = new byte[3];
inputStream.read(result);
assertArrayEquals(data, result);
protocol.verifyAll();
Verification<Bytestream, Bytestream> streamHostUsedVerification2 = new Verification<Bytestream, Bytestream>() {
public void verify(Bytestream request, Bytestream response) {
assertEquals(response.getSessionID(), request.getSessionID());
assertEquals(2, request.getStreamHosts().size());
// verify that the used stream host is the first in list
StreamHost streamHost = (StreamHost) request.getStreamHosts().toArray()[0];
assertEquals(response.getUsedHost().getJID(), streamHost.getJID());
}
};
createResponses(streamHostUsedVerification2);
// call the method that should be tested again
outputStream = byteStreamManager.establishSession(targetJID, sessionID).getOutputStream();
// test the established bytestream
inputStream = socks5Proxy.getSocket(digest).getInputStream();
outputStream.write(data);
inputStream.read(result);
assertArrayEquals(data, result);
protocol.verifyAll();
}
/**
* Invoking {@link Socks5BytestreamManager#establishSession(String, String)} the first time
* should successfully negotiate a SOCKS5 Bytestream via the second SOCKS5 proxy. The second
* negotiation should run in the same manner if prioritization is disabled.
*
* @throws Exception should not happen
*/
@Test
public void shouldNotPrioritizeSocks5ProxyIfPrioritizationDisabled() throws Exception {
// disable clients local SOCKS5 proxy
SmackConfiguration.setLocalSocks5ProxyEnabled(false);
// get Socks5ByteStreamManager for connection
Socks5BytestreamManager byteStreamManager = Socks5BytestreamManager.getBytestreamManager(connection);
byteStreamManager.setProxyPrioritizationEnabled(false);
assertFalse(byteStreamManager.isProxyPrioritizationEnabled());
Verification<Bytestream, Bytestream> streamHostUsedVerification = new Verification<Bytestream, Bytestream>() {
public void verify(Bytestream request, Bytestream response) {
assertEquals(response.getSessionID(), request.getSessionID());
assertEquals(2, request.getStreamHosts().size());
// verify that the used stream host is the second in list
StreamHost streamHost = (StreamHost) request.getStreamHosts().toArray()[1];
assertEquals(response.getUsedHost().getJID(), streamHost.getJID());
}
};
createResponses(streamHostUsedVerification);
// start a local SOCKS5 proxy
Socks5TestProxy socks5Proxy = Socks5TestProxy.getProxy(7778);
socks5Proxy.start();
// create digest to get the socket opened by target
String digest = Socks5Utils.createDigest(sessionID, initiatorJID, targetJID);
// call the method that should be tested
OutputStream outputStream = byteStreamManager.establishSession(targetJID, sessionID).getOutputStream();
// test the established bytestream
InputStream inputStream = socks5Proxy.getSocket(digest).getInputStream();
byte[] data = new byte[] { 1, 2, 3 };
outputStream.write(data);
byte[] result = new byte[3];
inputStream.read(result);
assertArrayEquals(data, result);
protocol.verifyAll();
createResponses(streamHostUsedVerification);
// call the method that should be tested again
outputStream = byteStreamManager.establishSession(targetJID, sessionID).getOutputStream();
// test the established bytestream
inputStream = socks5Proxy.getSocket(digest).getInputStream();
outputStream.write(data);
inputStream.read(result);
assertArrayEquals(data, result);
protocol.verifyAll();
byteStreamManager.setProxyPrioritizationEnabled(true);
}
private void createResponses(Verification<Bytestream, Bytestream> streamHostUsedVerification) {
// build discover info that supports the SOCKS5 feature
DiscoverInfo discoverInfo = Socks5PacketUtils.createDiscoverInfo(targetJID, initiatorJID);
discoverInfo.addFeature(Socks5BytestreamManager.NAMESPACE);
// return that SOCKS5 is supported if target is queried
protocol.addResponse(discoverInfo, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build discover items containing a proxy item
DiscoverItems discoverItems = Socks5PacketUtils.createDiscoverItems(xmppServer,
initiatorJID);
discoverItems.addItem(new Item("proxy2.xmpp-server"));
discoverItems.addItem(new Item(proxyJID));
// return the proxy item if XMPP server is queried
protocol.addResponse(discoverItems, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
/*
* build discover info for proxy "proxy2.xmpp-server" containing information about being a
* SOCKS5 proxy
*/
DiscoverInfo proxyInfo1 = Socks5PacketUtils.createDiscoverInfo("proxy2.xmpp-server",
initiatorJID);
Identity identity1 = new Identity("proxy", "proxy2.xmpp-server", "bytestreams");
identity1.setType("bytestreams");
proxyInfo1.addIdentity(identity1);
// return the SOCKS5 bytestream proxy identity if proxy is queried
protocol.addResponse(proxyInfo1, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build discover info for proxy containing information about being a SOCKS5 proxy
DiscoverInfo proxyInfo2 = Socks5PacketUtils.createDiscoverInfo(proxyJID, initiatorJID);
Identity identity2 = new Identity("proxy", proxyJID, "bytestreams");
proxyInfo2.addIdentity(identity2);
// return the SOCKS5 bytestream proxy identity if proxy is queried
protocol.addResponse(proxyInfo2, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
/*
* build a SOCKS5 stream host info for "proxy2.xmpp-server" containing the address and the
* port of the proxy
*/
Bytestream streamHostInfo1 = Socks5PacketUtils.createBytestreamResponse(
"proxy2.xmpp-server", initiatorJID);
streamHostInfo1.addStreamHost("proxy2.xmpp-server", proxyAddress, 7778);
// return stream host info if it is queried
protocol.addResponse(streamHostInfo1, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build a SOCKS5 stream host info containing the address and the port of the proxy
Bytestream streamHostInfo2 = Socks5PacketUtils.createBytestreamResponse(proxyJID,
initiatorJID);
streamHostInfo2.addStreamHost(proxyJID, proxyAddress, 7778);
// return stream host info if it is queried
protocol.addResponse(streamHostInfo2, Verification.correspondingSenderReceiver,
Verification.requestTypeGET);
// build used stream host response
Bytestream streamHostUsedPacket = Socks5PacketUtils.createBytestreamResponse(targetJID,
initiatorJID);
streamHostUsedPacket.setSessionID(sessionID);
streamHostUsedPacket.setUsedHost(proxyJID);
// return used stream host info as response to the bytestream initiation
protocol.addResponse(streamHostUsedPacket, streamHostUsedVerification,
Verification.correspondingSenderReceiver, Verification.requestTypeSET);
// build response to proxy activation
IQ activationResponse = Socks5PacketUtils.createActivationConfirmation(proxyJID,
initiatorJID);
// return proxy activation response if proxy should be activated
protocol.addResponse(activationResponse, new Verification<Bytestream, IQ>() {
public void verify(Bytestream request, IQ response) {
assertEquals(targetJID, request.getToActivate().getTarget());
}
}, Verification.correspondingSenderReceiver, Verification.requestTypeSET);
}
/**
* Stop eventually started local SOCKS5 test proxy.
*/
@After
public void cleanUp() {
Socks5TestProxy.stopProxy();
SmackConfiguration.setLocalSocks5ProxyEnabled(true);
}
}