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Smack/test-unit/org/jivesoftware/smackx/bytestreams/ibb/InBandBytestreamSessionTest.java
Florian Schmaus 962bd277f1 SMACK-524 Use correct block-size definition for IBB transfers
Revert IBB related changes introduced by SMACK-349 to use the correct
block size for IBB transfers.

git-svn-id: http://svn.igniterealtime.org/svn/repos/smack/branches/smack_3_4_0@13863 b35dd754-fafc-0310-a699-88a17e54d16e
2014-01-17 11:24:07 +00:00

717 lines
24 KiB
Java

/**
* $RCSfile$
* $Revision$
* $Date$
*
* 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.ibb;
import static org.junit.Assert.*;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.util.Random;
import org.jivesoftware.smack.Connection;
import org.jivesoftware.smack.PacketListener;
import org.jivesoftware.smack.packet.IQ;
import org.jivesoftware.smack.packet.XMPPError;
import org.jivesoftware.smack.util.StringUtils;
import org.jivesoftware.smackx.bytestreams.ibb.InBandBytestreamManager;
import org.jivesoftware.smackx.bytestreams.ibb.InBandBytestreamSession;
import org.jivesoftware.smackx.bytestreams.ibb.packet.Data;
import org.jivesoftware.smackx.bytestreams.ibb.packet.DataPacketExtension;
import org.jivesoftware.smackx.bytestreams.ibb.packet.Open;
import org.jivesoftware.util.ConnectionUtils;
import org.jivesoftware.util.Protocol;
import org.jivesoftware.util.Verification;
import org.junit.Before;
import org.junit.Test;
import org.powermock.reflect.Whitebox;
/**
* Test for InBandBytestreamSession.
* <p>
* Tests the basic behavior of an In-Band Bytestream session along with sending data encapsulated in
* IQ stanzas.
*
* @author Henning Staib
*/
public class InBandBytestreamSessionTest {
// settings
String initiatorJID = "initiator@xmpp-server/Smack";
String targetJID = "target@xmpp-server/Smack";
String xmppServer = "xmpp-server";
String sessionID = "session_id";
int blockSize = 10;
// protocol verifier
Protocol protocol;
// mocked XMPP connection
Connection connection;
InBandBytestreamManager byteStreamManager;
Open initBytestream;
Verification<Data, IQ> incrementingSequence;
/**
* 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);
// initialize InBandBytestreamManager to get the InitiationListener
byteStreamManager = InBandBytestreamManager.getByteStreamManager(connection);
// create a In-Band Bytestream open packet
initBytestream = new Open(sessionID, blockSize);
initBytestream.setFrom(initiatorJID);
initBytestream.setTo(targetJID);
incrementingSequence = new Verification<Data, IQ>() {
long lastSeq = 0;
public void verify(Data request, IQ response) {
assertEquals(lastSeq++, request.getDataPacketExtension().getSeq());
}
};
}
/**
* Test the output stream write(byte[]) method.
*
* @throws Exception should not happen
*/
@Test
public void shouldSendThreeDataPackets1() throws Exception {
InBandBytestreamSession session = new InBandBytestreamSession(connection, initBytestream,
initiatorJID);
// set acknowledgments for the data packets
IQ resultIQ = IBBPacketUtils.createResultIQ(initiatorJID, targetJID);
protocol.addResponse(resultIQ, incrementingSequence);
protocol.addResponse(resultIQ, incrementingSequence);
protocol.addResponse(resultIQ, incrementingSequence);
byte[] controlData = new byte[blockSize * 3];
OutputStream outputStream = session.getOutputStream();
outputStream.write(controlData);
outputStream.flush();
protocol.verifyAll();
}
/**
* Test the output stream write(byte) method.
*
* @throws Exception should not happen
*/
@Test
public void shouldSendThreeDataPackets2() throws Exception {
InBandBytestreamSession session = new InBandBytestreamSession(connection, initBytestream,
initiatorJID);
// set acknowledgments for the data packets
IQ resultIQ = IBBPacketUtils.createResultIQ(initiatorJID, targetJID);
protocol.addResponse(resultIQ, incrementingSequence);
protocol.addResponse(resultIQ, incrementingSequence);
protocol.addResponse(resultIQ, incrementingSequence);
byte[] controlData = new byte[blockSize * 3];
OutputStream outputStream = session.getOutputStream();
for (byte b : controlData) {
outputStream.write(b);
}
outputStream.flush();
protocol.verifyAll();
}
/**
* Test the output stream write(byte[], int, int) method.
*
* @throws Exception should not happen
*/
@Test
public void shouldSendThreeDataPackets3() throws Exception {
InBandBytestreamSession session = new InBandBytestreamSession(connection, initBytestream,
initiatorJID);
// set acknowledgments for the data packets
IQ resultIQ = IBBPacketUtils.createResultIQ(initiatorJID, targetJID);
protocol.addResponse(resultIQ, incrementingSequence);
protocol.addResponse(resultIQ, incrementingSequence);
protocol.addResponse(resultIQ, incrementingSequence);
byte[] controlData = new byte[(blockSize * 3) - 2];
OutputStream outputStream = session.getOutputStream();
int off = 0;
for (int i = 1; i <= 7; i++) {
outputStream.write(controlData, off, i);
off += i;
}
outputStream.flush();
protocol.verifyAll();
}
/**
* Test the output stream flush() method.
*
* @throws Exception should not happen
*/
@Test
public void shouldSendThirtyDataPackets() throws Exception {
byte[] controlData = new byte[blockSize * 3];
InBandBytestreamSession session = new InBandBytestreamSession(connection, initBytestream,
initiatorJID);
// set acknowledgments for the data packets
IQ resultIQ = IBBPacketUtils.createResultIQ(initiatorJID, targetJID);
for (int i = 0; i < controlData.length; i++) {
protocol.addResponse(resultIQ, incrementingSequence);
}
OutputStream outputStream = session.getOutputStream();
for (byte b : controlData) {
outputStream.write(b);
outputStream.flush();
}
protocol.verifyAll();
}
/**
* Test successive calls to the output stream flush() method.
*
* @throws Exception should not happen
*/
@Test
public void shouldSendNothingOnSuccessiveCallsToFlush() throws Exception {
byte[] controlData = new byte[blockSize * 3];
InBandBytestreamSession session = new InBandBytestreamSession(connection, initBytestream,
initiatorJID);
// set acknowledgments for the data packets
IQ resultIQ = IBBPacketUtils.createResultIQ(initiatorJID, targetJID);
protocol.addResponse(resultIQ, incrementingSequence);
protocol.addResponse(resultIQ, incrementingSequence);
protocol.addResponse(resultIQ, incrementingSequence);
OutputStream outputStream = session.getOutputStream();
outputStream.write(controlData);
outputStream.flush();
outputStream.flush();
outputStream.flush();
protocol.verifyAll();
}
/**
* Test that the data is correctly chunked.
*
* @throws Exception should not happen
*/
@Test
public void shouldSendDataCorrectly() throws Exception {
// create random data
Random rand = new Random();
final byte[] controlData = new byte[256 * blockSize];
rand.nextBytes(controlData);
// compares the data of each packet with the control data
Verification<Data, IQ> dataVerification = new Verification<Data, IQ>() {
public void verify(Data request, IQ response) {
byte[] decodedData = request.getDataPacketExtension().getDecodedData();
int seq = (int) request.getDataPacketExtension().getSeq();
for (int i = 0; i < decodedData.length; i++) {
assertEquals(controlData[(seq * blockSize) + i], decodedData[i]);
}
}
};
// set acknowledgments for the data packets
IQ resultIQ = IBBPacketUtils.createResultIQ(initiatorJID, targetJID);
for (int i = 0; i < controlData.length / blockSize; i++) {
protocol.addResponse(resultIQ, incrementingSequence, dataVerification);
}
InBandBytestreamSession session = new InBandBytestreamSession(connection, initBytestream,
initiatorJID);
OutputStream outputStream = session.getOutputStream();
outputStream.write(controlData);
outputStream.flush();
protocol.verifyAll();
}
/**
* If the input stream is closed the output stream should not be closed as well.
*
* @throws Exception should not happen
*/
@Test
public void shouldNotCloseBothStreamsIfOutputStreamIsClosed() throws Exception {
InBandBytestreamSession session = new InBandBytestreamSession(connection, initBytestream,
initiatorJID);
OutputStream outputStream = session.getOutputStream();
outputStream.close();
// verify data packet confirmation is of type RESULT
protocol.addResponse(null, Verification.requestTypeRESULT);
// insert data to read
InputStream inputStream = session.getInputStream();
PacketListener listener = Whitebox.getInternalState(inputStream, PacketListener.class);
String base64Data = StringUtils.encodeBase64("Data");
DataPacketExtension dpe = new DataPacketExtension(sessionID, 0, base64Data);
Data data = new Data(dpe);
listener.processPacket(data);
// verify no packet send
protocol.verifyAll();
try {
outputStream.flush();
fail("should throw an exception");
}
catch (IOException e) {
assertTrue(e.getMessage().contains("closed"));
}
assertTrue(inputStream.read() != 0);
}
/**
* Valid data packets should be confirmed.
*
* @throws Exception should not happen
*/
@Test
public void shouldConfirmReceivedDataPacket() throws Exception {
// verify data packet confirmation is of type RESULT
protocol.addResponse(null, Verification.requestTypeRESULT);
InBandBytestreamSession session = new InBandBytestreamSession(connection, initBytestream,
initiatorJID);
InputStream inputStream = session.getInputStream();
PacketListener listener = Whitebox.getInternalState(inputStream, PacketListener.class);
String base64Data = StringUtils.encodeBase64("Data");
DataPacketExtension dpe = new DataPacketExtension(sessionID, 0, base64Data);
Data data = new Data(dpe);
listener.processPacket(data);
protocol.verifyAll();
}
/**
* If the data packet has a sequence that is already used an 'unexpected-request' error should
* be returned. See XEP-0047 Section 2.2.
*
* @throws Exception should not happen
*/
@Test
public void shouldReplyWithErrorIfAlreadyUsedSequenceIsReceived() throws Exception {
// verify reply to first valid data packet is of type RESULT
protocol.addResponse(null, Verification.requestTypeRESULT);
// verify reply to invalid data packet is an error
protocol.addResponse(null, Verification.requestTypeERROR, new Verification<IQ, IQ>() {
public void verify(IQ request, IQ response) {
assertEquals(XMPPError.Condition.unexpected_request.toString(),
request.getError().getCondition());
}
});
// get IBB sessions data packet listener
InBandBytestreamSession session = new InBandBytestreamSession(connection, initBytestream,
initiatorJID);
InputStream inputStream = session.getInputStream();
PacketListener listener = Whitebox.getInternalState(inputStream, PacketListener.class);
// build data packets
String base64Data = StringUtils.encodeBase64("Data");
DataPacketExtension dpe = new DataPacketExtension(sessionID, 0, base64Data);
Data data1 = new Data(dpe);
Data data2 = new Data(dpe);
// notify listener
listener.processPacket(data1);
listener.processPacket(data2);
protocol.verifyAll();
}
/**
* If the data packet contains invalid Base64 encoding an 'bad-request' error should be
* returned. See XEP-0047 Section 2.2.
*
* @throws Exception should not happen
*/
@Test
public void shouldReplyWithErrorIfDataIsInvalid() throws Exception {
// verify reply to invalid data packet is an error
protocol.addResponse(null, Verification.requestTypeERROR, new Verification<IQ, IQ>() {
public void verify(IQ request, IQ response) {
assertEquals(XMPPError.Condition.bad_request.toString(),
request.getError().getCondition());
}
});
// get IBB sessions data packet listener
InBandBytestreamSession session = new InBandBytestreamSession(connection, initBytestream,
initiatorJID);
InputStream inputStream = session.getInputStream();
PacketListener listener = Whitebox.getInternalState(inputStream, PacketListener.class);
// build data packets
DataPacketExtension dpe = new DataPacketExtension(sessionID, 0, "AA=BB");
Data data = new Data(dpe);
// notify listener
listener.processPacket(data);
protocol.verifyAll();
}
/**
* If a data packet is received out of order the session should be closed. See XEP-0047 Section
* 2.2.
*
* @throws Exception should not happen
*/
@Test
public void shouldSendCloseRequestIfInvalidSequenceReceived() throws Exception {
IQ resultIQ = IBBPacketUtils.createResultIQ(initiatorJID, targetJID);
// confirm data packet with invalid sequence
protocol.addResponse(resultIQ);
// confirm close request
protocol.addResponse(resultIQ, Verification.requestTypeSET,
Verification.correspondingSenderReceiver);
// get IBB sessions data packet listener
InBandBytestreamSession session = new InBandBytestreamSession(connection, initBytestream,
initiatorJID);
InputStream inputStream = session.getInputStream();
PacketListener listener = Whitebox.getInternalState(inputStream, PacketListener.class);
// build invalid packet with out of order sequence
String base64Data = StringUtils.encodeBase64("Data");
DataPacketExtension dpe = new DataPacketExtension(sessionID, 123, base64Data);
Data data = new Data(dpe);
// add data packets
listener.processPacket(data);
// read until exception is thrown
try {
inputStream.read();
fail("exception should be thrown");
}
catch (IOException e) {
assertTrue(e.getMessage().contains("Packets out of sequence"));
}
protocol.verifyAll();
}
/**
* Test the input stream read(byte[], int, int) method.
*
* @throws Exception should not happen
*/
@Test
public void shouldReadAllReceivedData1() throws Exception {
// create random data
Random rand = new Random();
byte[] controlData = new byte[3 * blockSize];
rand.nextBytes(controlData);
IQ resultIQ = IBBPacketUtils.createResultIQ(initiatorJID, targetJID);
// get IBB sessions data packet listener
InBandBytestreamSession session = new InBandBytestreamSession(connection, initBytestream,
initiatorJID);
InputStream inputStream = session.getInputStream();
PacketListener listener = Whitebox.getInternalState(inputStream, PacketListener.class);
// set data packet acknowledgment and notify listener
for (int i = 0; i < controlData.length / blockSize; i++) {
protocol.addResponse(resultIQ);
String base64Data = StringUtils.encodeBase64(controlData, i * blockSize, blockSize,
false);
DataPacketExtension dpe = new DataPacketExtension(sessionID, i, base64Data);
Data data = new Data(dpe);
listener.processPacket(data);
}
byte[] bytes = new byte[3 * blockSize];
int read = 0;
read = inputStream.read(bytes, 0, blockSize);
assertEquals(blockSize, read);
read = inputStream.read(bytes, 10, blockSize);
assertEquals(blockSize, read);
read = inputStream.read(bytes, 20, blockSize);
assertEquals(blockSize, read);
// verify data
for (int i = 0; i < bytes.length; i++) {
assertEquals(controlData[i], bytes[i]);
}
protocol.verifyAll();
}
/**
* Test the input stream read() method.
*
* @throws Exception should not happen
*/
@Test
public void shouldReadAllReceivedData2() throws Exception {
// create random data
Random rand = new Random();
byte[] controlData = new byte[3 * blockSize];
rand.nextBytes(controlData);
IQ resultIQ = IBBPacketUtils.createResultIQ(initiatorJID, targetJID);
// get IBB sessions data packet listener
InBandBytestreamSession session = new InBandBytestreamSession(connection, initBytestream,
initiatorJID);
InputStream inputStream = session.getInputStream();
PacketListener listener = Whitebox.getInternalState(inputStream, PacketListener.class);
// set data packet acknowledgment and notify listener
for (int i = 0; i < controlData.length / blockSize; i++) {
protocol.addResponse(resultIQ);
String base64Data = StringUtils.encodeBase64(controlData, i * blockSize, blockSize,
false);
DataPacketExtension dpe = new DataPacketExtension(sessionID, i, base64Data);
Data data = new Data(dpe);
listener.processPacket(data);
}
// read data
byte[] bytes = new byte[3 * blockSize];
for (int i = 0; i < bytes.length; i++) {
bytes[i] = (byte) inputStream.read();
}
// verify data
for (int i = 0; i < bytes.length; i++) {
assertEquals(controlData[i], bytes[i]);
}
protocol.verifyAll();
}
/**
* If the output stream is closed the input stream should not be closed as well.
*
* @throws Exception should not happen
*/
@Test
public void shouldNotCloseBothStreamsIfInputStreamIsClosed() throws Exception {
// acknowledgment for data packet
IQ resultIQ = IBBPacketUtils.createResultIQ(initiatorJID, targetJID);
protocol.addResponse(resultIQ);
// get IBB sessions data packet listener
InBandBytestreamSession session = new InBandBytestreamSession(connection, initBytestream,
initiatorJID);
InputStream inputStream = session.getInputStream();
PacketListener listener = Whitebox.getInternalState(inputStream, PacketListener.class);
// build data packet
String base64Data = StringUtils.encodeBase64("Data");
DataPacketExtension dpe = new DataPacketExtension(sessionID, 0, base64Data);
Data data = new Data(dpe);
// add data packets
listener.processPacket(data);
inputStream.close();
protocol.verifyAll();
try {
while (inputStream.read() != -1) {
}
inputStream.read();
fail("should throw an exception");
}
catch (IOException e) {
assertTrue(e.getMessage().contains("closed"));
}
session.getOutputStream().flush();
}
/**
* If the session is closed the input stream and output stream should be closed as well.
*
* @throws Exception should not happen
*/
@Test
public void shouldCloseBothStreamsIfSessionIsClosed() throws Exception {
// acknowledgment for data packet
IQ resultIQ = IBBPacketUtils.createResultIQ(initiatorJID, targetJID);
protocol.addResponse(resultIQ);
// acknowledgment for close request
protocol.addResponse(resultIQ, Verification.correspondingSenderReceiver,
Verification.requestTypeSET);
// get IBB sessions data packet listener
InBandBytestreamSession session = new InBandBytestreamSession(connection, initBytestream,
initiatorJID);
InputStream inputStream = session.getInputStream();
PacketListener listener = Whitebox.getInternalState(inputStream, PacketListener.class);
// build data packet
String base64Data = StringUtils.encodeBase64("Data");
DataPacketExtension dpe = new DataPacketExtension(sessionID, 0, base64Data);
Data data = new Data(dpe);
// add data packets
listener.processPacket(data);
session.close();
protocol.verifyAll();
try {
while (inputStream.read() != -1) {
}
inputStream.read();
fail("should throw an exception");
}
catch (IOException e) {
assertTrue(e.getMessage().contains("closed"));
}
try {
session.getOutputStream().flush();
fail("should throw an exception");
}
catch (IOException e) {
assertTrue(e.getMessage().contains("closed"));
}
}
/**
* If the input stream is closed concurrently there should be no deadlock.
*
* @throws Exception should not happen
*/
@Test
public void shouldNotDeadlockIfInputStreamIsClosed() throws Exception {
// acknowledgment for data packet
IQ resultIQ = IBBPacketUtils.createResultIQ(initiatorJID, targetJID);
protocol.addResponse(resultIQ);
// get IBB sessions data packet listener
InBandBytestreamSession session = new InBandBytestreamSession(connection, initBytestream,
initiatorJID);
final InputStream inputStream = session.getInputStream();
PacketListener listener = Whitebox.getInternalState(inputStream, PacketListener.class);
// build data packet
String base64Data = StringUtils.encodeBase64("Data");
DataPacketExtension dpe = new DataPacketExtension(sessionID, 0, base64Data);
Data data = new Data(dpe);
// add data packets
listener.processPacket(data);
Thread closer = new Thread(new Runnable() {
public void run() {
try {
Thread.sleep(200);
inputStream.close();
}
catch (Exception e) {
fail(e.getMessage());
}
}
});
closer.start();
try {
byte[] bytes = new byte[20];
while (inputStream.read(bytes) != -1) {
}
inputStream.read();
fail("should throw an exception");
}
catch (IOException e) {
assertTrue(e.getMessage().contains("closed"));
}
protocol.verifyAll();
}
}