public void process(String[] arg) { if (arg.length != 13 && arg.length != 14) { System.out.println("Invalid number of arguments! " + arg.length); printUsage(); System.exit(-1); } String sourceHost; String sourceUser; String sourcePass; int sourcePort; String queue; String targetHost; int targetPort; String targetUser; String targetPassword; String producingAddress; int commit; int waitTimeout; String filter = null; try { sourceHost = arg[1]; sourcePort = Integer.parseInt(arg[2]); sourceUser = arg[3]; sourcePass = arg[4]; queue = arg[5]; targetHost = arg[6]; targetPort = Integer.parseInt(arg[7]); targetUser = arg[8]; targetPassword = arg[9]; producingAddress = arg[10]; waitTimeout = Integer.parseInt(arg[11]); commit = Integer.parseInt(arg[12]); if (arg.length == 14) { filter = arg[13]; } } catch (Exception e) { e.printStackTrace(); printUsage(); System.exit(-1); return; // the compiler doesn't understand exit as leaving the VM } Map<String, Object> sourceParameters = new HashMap<String, Object>(); sourceParameters.put(TransportConstants.HOST_PROP_NAME, sourceHost); sourceParameters.put(TransportConstants.PORT_PROP_NAME, sourcePort); Map<String, Object> targetParameters = new HashMap<String, Object>(); sourceParameters.put(TransportConstants.HOST_PROP_NAME, targetHost); sourceParameters.put(TransportConstants.PORT_PROP_NAME, targetPort); try { TransportConfiguration configurationSource = new TransportConfiguration(NettyConnectorFactory.class.getName(), sourceParameters); ServerLocator locatorSource = ActiveMQClient.createServerLocator(false, configurationSource); ClientSessionFactory factorySource = locatorSource.createSessionFactory(); ClientSession sessionSource = factorySource.createSession(sourceUser, sourcePass, false, false, false, false, 0); ClientConsumer consumer; if (filter == null) { consumer = sessionSource.createConsumer(queue); } else { consumer = sessionSource.createConsumer(queue, filter); } TransportConfiguration configurationTarget = new TransportConfiguration(NettyConnectorFactory.class.getName(), targetParameters); ServerLocator locatorTarget = ActiveMQClient.createServerLocatorWithoutHA(configurationTarget); ClientSessionFactory factoryTarget = locatorTarget.createSessionFactory(); ClientSession sessionTarget = factoryTarget.createSession(targetUser, targetPassword, false, false, false, false, 0); ClientProducer producer = sessionTarget.createProducer(producingAddress); sessionSource.start(); int countMessage = 0; while (true) { ClientMessage message = consumer.receive(waitTimeout); if (message == null) { break; } message.acknowledge(); if (!message.containsProperty("_HQ_TOOL_original_address")) { message.putStringProperty("_HQ_TOOL_original_address", message.getAddress().toString()); } LinkedList<String> listToRemove = new LinkedList<String>(); for (SimpleString name : message.getPropertyNames()) { if (name.toString().startsWith("_HQ_ROUTE_TO")) { listToRemove.add(name.toString()); } } for (String str : listToRemove) { message.removeProperty(str); } producer.send(message); if (countMessage++ % commit == 0) { System.out.println("Sent " + countMessage + " messages"); sessionTarget.commit(); sessionSource.commit(); } } sessionTarget.commit(); sessionSource.commit(); consumer.close(); producer.close(); sessionSource.close(); sessionTarget.close(); locatorSource.close(); locatorTarget.close(); } catch (Exception e) { e.printStackTrace(); printUsage(); System.exit(-1); } }
public void onMessage(ClientMessage message) { try { message.acknowledge(); ClientMessage outmsg = session.createMessage(true); outmsg.putIntProperty("out_msg", message.getIntProperty("msg")); producer.send(outmsg); if (rollbackFirstMessage) { session.rollback(); rollbackFirstMessage = false; return; } if (counter.incrementAndGet() % 200 == 0) { System.out.println("rollback " + message); session.rollback(); } else { commitLatch.countDown(); session.commit(); } } catch (Exception e) { e.printStackTrace(); try { session.rollback(); } catch (Exception ignored) { ignored.printStackTrace(); } } }
/** * @param numberOfMessages * @param session * @throws Exception */ private void sendMessages(int numberOfMessages, ClientSession session) throws Exception { ClientProducer producer = session.createProducer(inQueue); for (int i = 0; i < numberOfMessages; i++) { ActiveMQTextMessage txt = new ActiveMQTextMessage(session); txt.setIntProperty("msg", i); txt.setText("Message Number (" + i + ")"); txt.doBeforeSend(); producer.send(txt.getCoreMessage()); } session.commit(); }
@Test public void testRollbackMultipleConsumers() throws Exception { int numberOfMessages = 3000; int numberOfConsumers = 10; ClientSession session = factory.createTransactedSession(); sendMessages(numberOfMessages, session); AtomicInteger count = new AtomicInteger(0); CountDownLatch commitLatch = new CountDownLatch(numberOfMessages); LocalConsumer[] consumers = new LocalConsumer[numberOfConsumers]; for (int i = 0; i < numberOfConsumers; i++) { consumers[i] = new LocalConsumer(count, commitLatch); consumers[i].start(); } commitLatch.await(2, TimeUnit.MINUTES); for (LocalConsumer consumer : consumers) { consumer.stop(); } ClientConsumer consumer = session.createConsumer(outQueue); session.start(); HashSet<Integer> values = new HashSet<Integer>(); for (int i = 0; i < numberOfMessages; i++) { ClientMessage msg = consumer.receive(1000); assertNotNull(msg); int value = msg.getIntProperty("out_msg"); msg.acknowledge(); assertFalse("msg " + value + " received in duplicate", values.contains(value)); values.add(value); } assertNull(consumer.receiveImmediate()); for (int i = 0; i < numberOfMessages; i++) { assertTrue(values.contains(i)); } assertEquals(numberOfMessages, values.size()); session.close(); }
public void start() throws Exception { consumerLocator = createNettyNonHALocator(); factoryLocator = createSessionFactory(consumerLocator); session = factoryLocator.createTransactedSession(); consumer = session.createConsumer(inQueue); producer = session.createProducer(outQueue); consumer.setMessageHandler(this); session.start(); }
/** * @param session * @param queueToRead * @param numberOfBytes * @throws org.apache.activemq.api.core.ActiveMQException * @throws FileNotFoundException * @throws IOException */ protected void readMessage( final ClientSession session, final SimpleString queueToRead, final int numberOfBytes) throws ActiveMQException, IOException { session.start(); ClientConsumer consumer = session.createConsumer(queueToRead); ClientMessage clientMessage = consumer.receive(5000); Assert.assertNotNull(clientMessage); clientMessage.acknowledge(); session.commit(); consumer.close(); }
protected ClientMessage createLargeClientMessage( final ClientSession session, final long numberOfBytes, final boolean persistent) throws Exception { ClientMessage clientMessage = session.createMessage(persistent); clientMessage.setBodyInputStream(UnitTestCase.createFakeLargeStream(numberOfBytes)); return clientMessage; }
@Before public void setUp() throws Exception { super.setUp(); server = createServer(true, true); AddressSettings settings = new AddressSettings(); settings.setRedeliveryDelay(100); server.getConfiguration().getAddressesSettings().put("#", settings); server.start(); locator = createNettyNonHALocator(); factory = createSessionFactory(locator); ClientSession session = factory.createTransactedSession(); session.createQueue(inQueue, inQueue, true); session.createQueue(outQueue, outQueue, true); session.close(); }
/** * @param numberOfMessages * @param numberOfBytes * @param delayDelivery * @param session * @param producer * @throws FileNotFoundException * @throws IOException * @throws org.apache.activemq.api.core.ActiveMQException */ private void sendMessages( final int numberOfMessages, final long numberOfBytes, final long delayDelivery, final ClientSession session, final ClientProducer producer) throws Exception { LargeMessageTestBase.log.debug("NumberOfBytes = " + numberOfBytes); for (int i = 0; i < numberOfMessages; i++) { ClientMessage message = session.createMessage(true); // If the test is using more than 1M, we will only use the Streaming, as it require too much // memory from the // test if (numberOfBytes > 1024 * 1024 || i % 2 == 0) { LargeMessageTestBase.log.debug("Sending message (stream)" + i); message.setBodyInputStream(UnitTestCase.createFakeLargeStream(numberOfBytes)); } else { LargeMessageTestBase.log.debug("Sending message (array)" + i); byte[] bytes = new byte[(int) numberOfBytes]; for (int j = 0; j < bytes.length; j++) { bytes[j] = UnitTestCase.getSamplebyte(j); } message.getBodyBuffer().writeBytes(bytes); } message.putIntProperty(new SimpleString("counter-message"), i); if (delayDelivery > 0) { long time = System.currentTimeMillis(); message.putLongProperty(new SimpleString("original-time"), time); message.putLongProperty(Message.HDR_SCHEDULED_DELIVERY_TIME, time + delayDelivery); producer.send(message); } else { producer.send(message); } } }
@Test public void testSendReceiveLargeMessages() throws Exception { SimpleString QUEUE = new SimpleString("jms.queue.somequeue"); ActiveMQConnectionFactory jbcf = ActiveMQJMSClient.createConnectionFactoryWithHA(JMSFactoryType.CF, livetc, backuptc); jbcf.setReconnectAttempts(-1); jbcf.setBlockOnDurableSend(true); jbcf.setBlockOnNonDurableSend(true); jbcf.setMinLargeMessageSize(1024); // jbcf.setConsumerWindowSize(0); // jbcf.setMinLargeMessageSize(1024); final CountDownLatch flagAlign = new CountDownLatch(1); final CountDownLatch waitToKill = new CountDownLatch(1); final AtomicBoolean killed = new AtomicBoolean(false); jbcf.getServerLocator() .addIncomingInterceptor( new Interceptor() { int count = 0; @Override public boolean intercept(Packet packet, RemotingConnection connection) throws ActiveMQException { if (packet instanceof SessionReceiveContinuationMessage) { if (count++ == 300 && !killed.get()) { System.out.println("sending countDown on latch waitToKill"); killed.set(true); waitToKill.countDown(); } } return true; } }); Connection conn = JMSUtil.createConnectionAndWaitForTopology(jbcf, 2, 5); Session sess = conn.createSession(true, Session.SESSION_TRANSACTED); final ClientSession coreSession = ((ActiveMQSession) sess).getCoreSession(); // The thread that will fail the server Thread spoilerThread = new Thread() { public void run() { flagAlign.countDown(); // a large timeout just to help in case of debugging try { waitToKill.await(120, TimeUnit.SECONDS); } catch (Exception e) { e.printStackTrace(); } try { System.out.println("Killing server..."); JMSUtil.crash(liveService, coreSession); } catch (Exception e) { e.printStackTrace(); } } }; coreSession.createQueue(QUEUE, QUEUE, true); Queue queue = sess.createQueue("somequeue"); MessageProducer producer = sess.createProducer(queue); producer.setDeliveryMode(DeliveryMode.PERSISTENT); for (int i = 0; i < 100; i++) { TextMessage message = sess.createTextMessage(new String(new byte[10 * 1024])); producer.send(message); if (i % 10 == 0) { sess.commit(); } } sess.commit(); conn.start(); spoilerThread.start(); assertTrue(flagAlign.await(10, TimeUnit.SECONDS)); MessageConsumer consumer = sess.createConsumer(queue); // We won't receive the whole thing here.. we just want to validate if message will arrive or // not... // this test is not meant to validate transactionality during Failover as that would require XA // and recovery for (int i = 0; i < 90; i++) { TextMessage message = null; int retryNrs = 0; do { retryNrs++; try { message = (TextMessage) consumer.receive(5000); assertNotNull(message); break; } catch (JMSException e) { new Exception("Exception on receive message", e).printStackTrace(); } } while (retryNrs < 10); assertNotNull(message); try { sess.commit(); } catch (Exception e) { new Exception("Exception during commit", e); sess.rollback(); } } conn.close(); spoilerThread.join(); }
@Test public void testManualFailover() throws Exception { ActiveMQConnectionFactory jbcfLive = ActiveMQJMSClient.createConnectionFactoryWithoutHA( JMSFactoryType.CF, new TransportConfiguration(INVM_CONNECTOR_FACTORY)); jbcfLive.setBlockOnNonDurableSend(true); jbcfLive.setBlockOnDurableSend(true); ActiveMQConnectionFactory jbcfBackup = ActiveMQJMSClient.createConnectionFactoryWithoutHA( JMSFactoryType.CF, new TransportConfiguration(INVM_CONNECTOR_FACTORY, backupParams)); jbcfBackup.setBlockOnNonDurableSend(true); jbcfBackup.setBlockOnDurableSend(true); jbcfBackup.setInitialConnectAttempts(-1); jbcfBackup.setReconnectAttempts(-1); Connection connLive = jbcfLive.createConnection(); MyExceptionListener listener = new MyExceptionListener(); connLive.setExceptionListener(listener); Session sessLive = connLive.createSession(false, Session.AUTO_ACKNOWLEDGE); ClientSession coreSessionLive = ((ActiveMQSession) sessLive).getCoreSession(); RemotingConnection coreConnLive = ((ClientSessionInternal) coreSessionLive).getConnection(); SimpleString jmsQueueName = new SimpleString(ActiveMQDestination.JMS_QUEUE_ADDRESS_PREFIX + "myqueue"); coreSessionLive.createQueue(jmsQueueName, jmsQueueName, null, true); Queue queue = sessLive.createQueue("myqueue"); final int numMessages = 1000; MessageProducer producerLive = sessLive.createProducer(queue); for (int i = 0; i < numMessages; i++) { TextMessage tm = sessLive.createTextMessage("message" + i); producerLive.send(tm); } // Note we block on P send to make sure all messages get to server before failover JMSUtil.crash(liveService, coreSessionLive); connLive.close(); // Now recreate on backup Connection connBackup = jbcfBackup.createConnection(); Session sessBackup = connBackup.createSession(false, Session.AUTO_ACKNOWLEDGE); MessageConsumer consumerBackup = sessBackup.createConsumer(queue); connBackup.start(); for (int i = 0; i < numMessages; i++) { TextMessage tm = (TextMessage) consumerBackup.receive(1000); Assert.assertNotNull(tm); Assert.assertEquals("message" + i, tm.getText()); } TextMessage tm = (TextMessage) consumerBackup.receiveNoWait(); Assert.assertNull(tm); connBackup.close(); }
@Test public void testAutomaticFailover() throws Exception { ActiveMQConnectionFactory jbcf = ActiveMQJMSClient.createConnectionFactoryWithHA(JMSFactoryType.CF, livetc); jbcf.setReconnectAttempts(-1); jbcf.setBlockOnDurableSend(true); jbcf.setBlockOnNonDurableSend(true); // Note we set consumer window size to a value so we can verify that consumer credit re-sending // works properly on failover // The value is small enough that credits will have to be resent several time final int numMessages = 10; final int bodySize = 1000; jbcf.setConsumerWindowSize(numMessages * bodySize / 10); Connection conn = JMSUtil.createConnectionAndWaitForTopology(jbcf, 2, 5); MyExceptionListener listener = new MyExceptionListener(); conn.setExceptionListener(listener); Session sess = conn.createSession(false, Session.AUTO_ACKNOWLEDGE); ClientSession coreSession = ((ActiveMQSession) sess).getCoreSession(); SimpleString jmsQueueName = new SimpleString(ActiveMQDestination.JMS_QUEUE_ADDRESS_PREFIX + "myqueue"); coreSession.createQueue(jmsQueueName, jmsQueueName, null, true); Queue queue = sess.createQueue("myqueue"); MessageProducer producer = sess.createProducer(queue); producer.setDeliveryMode(DeliveryMode.PERSISTENT); MessageConsumer consumer = sess.createConsumer(queue); byte[] body = RandomUtil.randomBytes(bodySize); for (int i = 0; i < numMessages; i++) { BytesMessage bm = sess.createBytesMessage(); bm.writeBytes(body); producer.send(bm); } conn.start(); JMSFailoverTest.log.info("sent messages and started connection"); Thread.sleep(2000); JMSUtil.crash(liveService, ((ActiveMQSession) sess).getCoreSession()); for (int i = 0; i < numMessages; i++) { JMSFailoverTest.log.info("got message " + i); BytesMessage bm = (BytesMessage) consumer.receive(1000); Assert.assertNotNull(bm); Assert.assertEquals(body.length, bm.getBodyLength()); } TextMessage tm = (TextMessage) consumer.receiveNoWait(); Assert.assertNull(tm); conn.close(); }
public void stop() throws Exception { session.close(); factoryLocator.close(); consumerLocator.close(); }
protected ClientMessage createLargeClientMessage( final ClientSession session, final byte[] buffer, final boolean durable) throws Exception { ClientMessage msgs = session.createMessage(durable); msgs.getBodyBuffer().writeBytes(buffer); return msgs; }
protected void testChunks( final boolean isXA, final boolean restartOnXA, final boolean rollbackFirstSend, final boolean useStreamOnConsume, final boolean realFiles, final boolean preAck, final boolean sendingBlocking, final boolean testBrowser, final boolean useMessageConsumer, final int numberOfMessages, final long numberOfBytes, final int waitOnConsumer, final long delayDelivery, final int producerWindow, final int minSize) throws Exception { clearDataRecreateServerDirs(); server = createServer(realFiles); server.start(); ServerLocator locator = createInVMNonHALocator(); try { if (sendingBlocking) { locator.setBlockOnNonDurableSend(true); locator.setBlockOnDurableSend(true); locator.setBlockOnAcknowledge(true); } if (producerWindow > 0) { locator.setConfirmationWindowSize(producerWindow); } locator.setMinLargeMessageSize(minSize); ClientSessionFactory sf = locator.createSessionFactory(); ClientSession session; Xid xid = null; session = sf.createSession(null, null, isXA, false, false, preAck, 0); if (isXA) { xid = newXID(); session.start(xid, XAResource.TMNOFLAGS); } session.createQueue(ADDRESS, ADDRESS, null, true); ClientProducer producer = session.createProducer(ADDRESS); if (rollbackFirstSend) { sendMessages(numberOfMessages, numberOfBytes, delayDelivery, session, producer); if (isXA) { session.end(xid, XAResource.TMSUCCESS); session.prepare(xid); session.close(); if (realFiles && restartOnXA) { server.stop(); server.start(); sf = locator.createSessionFactory(); } session = sf.createSession(null, null, isXA, false, false, preAck, 0); Xid[] xids = session.recover(XAResource.TMSTARTRSCAN); Assert.assertEquals(1, xids.length); Assert.assertEquals(xid, xids[0]); session.rollback(xid); producer = session.createProducer(ADDRESS); xid = newXID(); session.start(xid, XAResource.TMNOFLAGS); } else { session.rollback(); } validateNoFilesOnLargeDir(); } sendMessages(numberOfMessages, numberOfBytes, delayDelivery, session, producer); if (isXA) { session.end(xid, XAResource.TMSUCCESS); session.prepare(xid); session.close(); if (realFiles && restartOnXA) { server.stop(); server.start(); // we need to recreate sf's sf = locator.createSessionFactory(); } session = sf.createSession(null, null, isXA, false, false, preAck, 0); Xid[] xids = session.recover(XAResource.TMSTARTRSCAN); Assert.assertEquals(1, xids.length); Assert.assertEquals(xid, xids[0]); producer = session.createProducer(ADDRESS); session.commit(xid, false); xid = newXID(); session.start(xid, XAResource.TMNOFLAGS); } else { session.commit(); } session.close(); if (realFiles) { server.stop(); server = createServer(realFiles); server.start(); sf = locator.createSessionFactory(); } session = sf.createSession(null, null, isXA, false, false, preAck, 0); if (isXA) { xid = newXID(); session.start(xid, XAResource.TMNOFLAGS); } ClientConsumer consumer = null; for (int iteration = testBrowser ? 0 : 1; iteration < 2; iteration++) { session.stop(); // first time with a browser consumer = session.createConsumer(ADDRESS, null, iteration == 0); if (useMessageConsumer) { final CountDownLatch latchDone = new CountDownLatch(numberOfMessages); final AtomicInteger errors = new AtomicInteger(0); MessageHandler handler = new MessageHandler() { int msgCounter; public void onMessage(final ClientMessage message) { try { if (delayDelivery > 0) { long originalTime = (Long) message.getObjectProperty(new SimpleString("original-time")); Assert.assertTrue( System.currentTimeMillis() - originalTime + "<" + delayDelivery, System.currentTimeMillis() - originalTime >= delayDelivery); } if (!preAck) { message.acknowledge(); } Assert.assertNotNull(message); if (delayDelivery <= 0) { // right now there is no guarantee of ordered delivered on multiple // scheduledMessages with // the same // scheduled delivery time Assert.assertEquals( msgCounter, ((Integer) message.getObjectProperty(new SimpleString("counter-message"))) .intValue()); } if (useStreamOnConsume) { final AtomicLong bytesRead = new AtomicLong(0); message.saveToOutputStream( new OutputStream() { @Override public void write(final byte[] b) throws IOException { if (b[0] == UnitTestCase.getSamplebyte(bytesRead.get())) { bytesRead.addAndGet(b.length); LargeMessageTestBase.log.debug( "Read position " + bytesRead.get() + " on consumer"); } else { LargeMessageTestBase.log.warn( "Received invalid packet at position " + bytesRead.get()); } } @Override public void write(final int b) throws IOException { if (b == UnitTestCase.getSamplebyte(bytesRead.get())) { bytesRead.incrementAndGet(); } else { LargeMessageTestBase.log.warn("byte not as expected!"); } } }); Assert.assertEquals(numberOfBytes, bytesRead.get()); } else { ActiveMQBuffer buffer = message.getBodyBuffer(); buffer.resetReaderIndex(); for (long b = 0; b < numberOfBytes; b++) { if (b % (1024L * 1024L) == 0) { LargeMessageTestBase.log.debug("Read " + b + " bytes"); } Assert.assertEquals(UnitTestCase.getSamplebyte(b), buffer.readByte()); } try { buffer.readByte(); Assert.fail("Supposed to throw an exception"); } catch (Exception e) { } } } catch (Throwable e) { e.printStackTrace(); LargeMessageTestBase.log.warn("Got an error", e); errors.incrementAndGet(); } finally { latchDone.countDown(); msgCounter++; } } }; session.start(); consumer.setMessageHandler(handler); Assert.assertTrue(latchDone.await(waitOnConsumer, TimeUnit.SECONDS)); Assert.assertEquals(0, errors.get()); } else { session.start(); for (int i = 0; i < numberOfMessages; i++) { System.currentTimeMillis(); ClientMessage message = consumer.receive(waitOnConsumer + delayDelivery); Assert.assertNotNull(message); System.currentTimeMillis(); if (delayDelivery > 0) { long originalTime = (Long) message.getObjectProperty(new SimpleString("original-time")); Assert.assertTrue( System.currentTimeMillis() - originalTime + "<" + delayDelivery, System.currentTimeMillis() - originalTime >= delayDelivery); } if (!preAck) { message.acknowledge(); } Assert.assertNotNull(message); if (delayDelivery <= 0) { // right now there is no guarantee of ordered delivered on multiple scheduledMessages // with the same // scheduled delivery time Assert.assertEquals( i, ((Integer) message.getObjectProperty(new SimpleString("counter-message"))) .intValue()); } if (useStreamOnConsume) { final AtomicLong bytesRead = new AtomicLong(0); message.saveToOutputStream( new OutputStream() { @Override public void write(final byte[] b) throws IOException { if (b[0] == UnitTestCase.getSamplebyte(bytesRead.get())) { bytesRead.addAndGet(b.length); } else { LargeMessageTestBase.log.warn( "Received invalid packet at position " + bytesRead.get()); } } @Override public void write(final int b) throws IOException { if (bytesRead.get() % (1024L * 1024L) == 0) { LargeMessageTestBase.log.debug("Read " + bytesRead.get() + " bytes"); } if (b == (byte) 'a') { bytesRead.incrementAndGet(); } else { LargeMessageTestBase.log.warn("byte not as expected!"); } } }); Assert.assertEquals(numberOfBytes, bytesRead.get()); } else { ActiveMQBuffer buffer = message.getBodyBuffer(); buffer.resetReaderIndex(); for (long b = 0; b < numberOfBytes; b++) { if (b % (1024L * 1024L) == 0L) { LargeMessageTestBase.log.debug("Read " + b + " bytes"); } Assert.assertEquals(UnitTestCase.getSamplebyte(b), buffer.readByte()); } } } } consumer.close(); if (iteration == 0) { if (isXA) { session.end(xid, XAResource.TMSUCCESS); session.rollback(xid); xid = newXID(); session.start(xid, XAResource.TMNOFLAGS); } else { session.rollback(); } } else { if (isXA) { session.end(xid, XAResource.TMSUCCESS); session.commit(xid, true); xid = newXID(); session.start(xid, XAResource.TMNOFLAGS); } else { session.commit(); } } } session.close(); Assert.assertEquals( 0, ((Queue) server.getPostOffice().getBinding(ADDRESS).getBindable()).getDeliveringCount()); Assert.assertEquals( 0, getMessageCount((Queue) server.getPostOffice().getBinding(ADDRESS).getBindable())); validateNoFilesOnLargeDir(); } finally { locator.close(); try { server.stop(); } catch (Throwable ignored) { } } }