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Example 56 with HttpChunk

use of org.jboss.netty.handler.codec.http.HttpChunk in project databus by linkedin.

the class HttpResponseReplayer method run.

@Override
public void run() {
    try {
        _channel.startResponse(_response);
        if (null != _chunks) {
            for (HttpChunk chunk : _chunks) {
                _channel.addChunk(chunk);
            }
        }
        _channel.addTrailer(HttpChunk.LAST_CHUNK);
    } catch (TimeoutException e) {
        LOG.error("timeout sending chunks", e);
    }
}
Also used : DefaultHttpChunk(org.jboss.netty.handler.codec.http.DefaultHttpChunk) HttpChunk(org.jboss.netty.handler.codec.http.HttpChunk) TimeoutException(java.util.concurrent.TimeoutException)

Example 57 with HttpChunk

use of org.jboss.netty.handler.codec.http.HttpChunk in project databus by linkedin.

the class DummySuccessfulErrorCountingConsumer method testRelayFailoverPartialWindow1.

/**
   * Client switches from R1 to R2 on server close and from R2 to R3 on timeout while in the middle of the windows.
   *
   * <pre>
   * R1 EVB Boundaries --------------------------------------------------------------------------------
   *                   ^      ^        ^         ^         ^       ^       ^      ^     ^        ^
   *                   0      10       20        30        40      50      60     70    80       90
   *
   * R2 EVB Boundaries --------------------------------------------------------------------------------
   *                   ^               ^                   ^               ^            ^
   *                   0               20                  40              60           80
   *
   * R3 EVB Boundaries --------------------------------------------------------------------------------
   *                   ^                        ^                          ^                    ^
   *                   0                        30                         60                   90
   * </pre>
   *
   * Switch from R1 to R2 happens when windowScn = 10 and windowOffset = 8th event.
   * Switch from R2 to R3 happens when windowScn = 40 and windowOffset = 3rd event.
   *
   * @throws Exception
   */
@Test
public void testRelayFailoverPartialWindow1() throws Exception {
    final boolean debugOn = false;
    final Logger log = Logger.getLogger("TestDatabusHttpClient.testRelayFailoverPartialWindow1");
    log.setLevel(Level.INFO);
    final int eventsNum = 200;
    DbusEventInfo[] eventInfos = createSampleSchema1Events(eventsNum);
    final long timeoutMult = debugOn ? 100000 : 1;
    log.info("simulate relay buffers");
    DbusEventBuffer[] relayBuffer = new DbusEventBuffer[RELAY_PORT.length];
    List<List<Integer>> eventOfs = new ArrayList<List<Integer>>(3);
    List<List<DbusEventKey>> eventKeys = new ArrayList<List<DbusEventKey>>(3);
    for (int i = 0; i < RELAY_PORT.length; ++i) {
        relayBuffer[i] = new DbusEventBuffer(_bufCfg);
        relayBuffer[i].start(0);
        WriteEventsResult wrRes = writeEventsToBuffer(relayBuffer[i], eventInfos, (i + 1) * 10);
        List<Integer> ofs = wrRes.getOffsets();
        eventOfs.add(ofs);
        eventKeys.add(wrRes.getKeys());
    }
    List<DbusEventKey> key = eventKeys.get(0);
    for (int i = 1; i < RELAY_PORT.length; ++i) {
        assertEquals(" For Size index : " + i, key.size(), eventKeys.get(i).size());
        assertEquals(" For index : " + i, key, eventKeys.get(i));
        key = eventKeys.get(i);
    }
    int resp1EnfOfs = eventOfs.get(0).get(8);
    log.info("figure out an event offset inside a window:" + resp1EnfOfs);
    log.info("create client");
    _stdClientCfgBuilder.getContainer().setReadTimeoutMs(DEFAULT_READ_TIMEOUT_MS);
    final DatabusHttpClientImpl client = new DatabusHttpClientImpl(_stdClientCfgBuilder.build());
    final TestConsumer consumer = new TestConsumer();
    client.registerDatabusStreamListener(consumer, null, SOURCE1_NAME);
    client.start();
    try {
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                return client._relayConnections.size() == 1;
            }
        }, "sources connection present", 100, log);
        final DatabusSourcesConnection clientConn = client._relayConnections.get(0);
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                return null != clientConn.getRelayPullThread().getLastOpenConnection();
            }
        }, "relay connection present", 100, log);
        final NettyHttpDatabusRelayConnection relayConn = (NettyHttpDatabusRelayConnection) clientConn.getRelayPullThread().getLastOpenConnection();
        final NettyHttpDatabusRelayConnectionInspector relayConnInsp = new NettyHttpDatabusRelayConnectionInspector(relayConn);
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                return null != relayConnInsp.getChannel() && relayConnInsp.getChannel().isConnected();
            }
        }, "client connected", 200, log);
        log.info("figure out the connection to the relay");
        Channel clientChannel = relayConnInsp.getChannel();
        InetSocketAddress relayAddr = (InetSocketAddress) clientChannel.getRemoteAddress();
        SocketAddress clientAddr = clientChannel.getLocalAddress();
        int relayPort = relayAddr.getPort();
        log.info("relay selected: " + relayPort);
        SimpleTestServerConnection relay = null;
        for (int i = 0; i < RELAY_PORT.length; ++i) {
            if (relayPort == RELAY_PORT[i])
                relay = _dummyServer[i];
        }
        assertTrue(null != relay);
        final SocketAddress testClientAddr = clientAddr;
        final SimpleTestServerConnection testRelay = relay;
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                return null != testRelay.getChildChannel(testClientAddr);
            }
        }, "relay detects new connection", 1000, log);
        Channel serverChannel = relay.getChildChannel(clientAddr);
        assertTrue(null != serverChannel);
        ChannelPipeline serverPipeline = serverChannel.getPipeline();
        SimpleObjectCaptureHandler objCapture = (SimpleObjectCaptureHandler) serverPipeline.get("3");
        log.info("process the /sources request");
        NettyTestUtils.waitForHttpRequest(objCapture, SOURCES_REQUEST_REGEX, 1000);
        objCapture.clear();
        log.info("send back the /sources response");
        HttpResponse sourcesResp = new DefaultHttpResponse(HttpVersion.HTTP_1_1, HttpResponseStatus.OK);
        sourcesResp.setHeader(HttpHeaders.Names.CONNECTION, HttpHeaders.Values.KEEP_ALIVE);
        sourcesResp.setHeader(HttpHeaders.Names.TRANSFER_ENCODING, HttpHeaders.Values.CHUNKED);
        HttpChunk body = new DefaultHttpChunk(ChannelBuffers.wrappedBuffer(("[{\"id\":1,\"name\":\"" + SOURCE1_NAME + "\"}]").getBytes(Charset.defaultCharset())));
        NettyTestUtils.sendServerResponses(relay, clientAddr, sourcesResp, body);
        log.info("make sure the client processes the response correctly");
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                String idListString = clientConn.getRelayPullThread()._currentState.getSourcesIdListString();
                return "1".equals(idListString);
            }
        }, "client processes /sources response", 100, log);
        log.info("process the /register request");
        NettyTestUtils.waitForHttpRequest(objCapture, "/register.*", 1000);
        objCapture.clear();
        log.info("send back the /register response");
        RegisterResponseEntry entry = new RegisterResponseEntry(1L, (short) 1, SOURCE1_SCHEMA_STR);
        String responseStr = NettyTestUtils.generateRegisterResponse(entry);
        body = new DefaultHttpChunk(ChannelBuffers.wrappedBuffer(responseStr.getBytes(Charset.defaultCharset())));
        NettyTestUtils.sendServerResponses(relay, clientAddr, sourcesResp, body);
        log.info("make sure the client processes the response correctly");
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                DispatcherState dispState = clientConn.getRelayDispatcher().getDispatcherState();
                return null != dispState.getSchemaMap() && 1 == dispState.getSchemaMap().size();
            }
        }, "client processes /register response", 100, log);
        log.info("process /stream call and return a partial window");
        NettyTestUtils.waitForHttpRequest(objCapture, "/stream.*", 1000);
        objCapture.clear();
        log.info("send back the /stream response");
        final DbusEventsStatisticsCollector stats = new DbusEventsStatisticsCollector(1, "test1", true, false, null);
        Checkpoint cp = Checkpoint.createFlexibleCheckpoint();
        ChannelBuffer streamRes = NettyTestUtils.streamToChannelBuffer(relayBuffer[0], cp, resp1EnfOfs, stats);
        HttpResponse streamResp = new DefaultHttpResponse(HttpVersion.HTTP_1_1, HttpResponseStatus.OK);
        streamResp.setHeader(HttpHeaders.Names.CONNECTION, HttpHeaders.Values.KEEP_ALIVE);
        streamResp.setHeader(HttpHeaders.Names.TRANSFER_ENCODING, HttpHeaders.Values.CHUNKED);
        NettyTestUtils.sendServerResponses(relay, clientAddr, streamResp, new DefaultHttpChunk(streamRes));
        log.info("make sure the client processes the /stream response correctly");
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                log.debug("LastWritten SCN:" + clientConn.getDataEventsBuffer().lastWrittenScn());
                return clientConn.getDataEventsBuffer().lastWrittenScn() == 10;
            }
        }, "client receives /stream response", 1100, log);
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                log.debug("events num=" + consumer.getEventNum());
                return stats.getTotalStats().getNumDataEvents() == consumer.getEventNum();
            }
        }, "client processes /stream response", 110000, log);
        assertEquals(-1, consumer.getRollbackScn());
        int rollbackNum = 0;
        assertEquals(stats.getTotalStats().getNumSysEvents() + 1 + rollbackNum, consumer.getWinNum());
        List<DbusEventKey> expKeys = eventKeys.get(0).subList(0, (int) stats.getTotalStats().getNumDataEvents());
        List<Long> expSeqs = new ArrayList<Long>();
        for (int i = 0; i < stats.getTotalStats().getNumDataEvents(); i++) expSeqs.add(10L);
        long numEvents = stats.getTotalStats().getNumDataEvents();
        assertEquals("Keys", expKeys, consumer.getKeys());
        assertEquals("Sequences", expSeqs, consumer.getSequences());
        log.info("now kill the relay and wait for a failover");
        serverChannel.close();
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                return null != relayConnInsp.getChannel() && !relayConnInsp.getChannel().isConnected();
            }
        }, "client disconnected", 200, log);
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                return clientConn.getRelayPullThread().getLastOpenConnection() != relayConn;
            }
        }, "new netty connection", 200, log);
        log.info("/////////// FAKING CONNECTION TO NEW RELAY //////////////");
        final NettyHttpDatabusRelayConnection newRelayConn = (NettyHttpDatabusRelayConnection) clientConn.getRelayPullThread().getLastOpenConnection();
        final NettyHttpDatabusRelayConnectionInspector newRelayConnInsp = new NettyHttpDatabusRelayConnectionInspector(newRelayConn);
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                return null != newRelayConnInsp.getChannel() && newRelayConnInsp.getChannel().isConnected();
            }
        }, "client connected to new relay", 200, log);
        log.info("figure out the connection to the relay");
        clientChannel = newRelayConnInsp.getChannel();
        relayAddr = (InetSocketAddress) clientChannel.getRemoteAddress();
        clientAddr = clientChannel.getLocalAddress();
        relayPort = relayAddr.getPort();
        log.info("new relay selected: " + relayPort);
        relay = null;
        int relayIdx = 0;
        for (; relayIdx < RELAY_PORT.length; ++relayIdx) {
            if (relayPort == RELAY_PORT[relayIdx])
                relay = _dummyServer[relayIdx];
        }
        assertTrue(null != relay);
        serverChannel = relay.getChildChannel(clientAddr);
        assertTrue(null != serverChannel);
        serverPipeline = serverChannel.getPipeline();
        objCapture = (SimpleObjectCaptureHandler) serverPipeline.get("3");
        log.info("process the /sources request");
        NettyTestUtils.waitForHttpRequest(objCapture, SOURCES_REQUEST_REGEX, 1000);
        objCapture.clear();
        log.info("send back the /sources response");
        body = new DefaultHttpChunk(ChannelBuffers.wrappedBuffer(("[{\"id\":1,\"name\":\"" + SOURCE1_NAME + "\"}]").getBytes(Charset.defaultCharset())));
        NettyTestUtils.sendServerResponses(relay, clientAddr, sourcesResp, body);
        log.info("make sure the client processes the response correctly");
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                String idListString = clientConn.getRelayPullThread()._currentState.getSourcesIdListString();
                return "1".equals(idListString);
            }
        }, "client processes /sources response", 100, log);
        log.info("process the /register request");
        NettyTestUtils.waitForHttpRequest(objCapture, "/register.*", 1000);
        objCapture.clear();
        log.info("send back the /register response");
        body = new DefaultHttpChunk(ChannelBuffers.wrappedBuffer(responseStr.getBytes(Charset.defaultCharset())));
        NettyTestUtils.sendServerResponses(relay, clientAddr, sourcesResp, body);
        log.info("make sure the client processes the /register response correctly");
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                DispatcherState dispState = clientConn.getRelayDispatcher().getDispatcherState();
                return null != dispState.getSchemaMap() && 1 == dispState.getSchemaMap().size();
            }
        }, "client processes /register response", 100, log);
        log.info("process /stream call and return a partial window");
        Matcher streamMatcher = NettyTestUtils.waitForHttpRequest(objCapture, "/stream.*checkPoint=([^&]*)&.*", 1000);
        String cpString = streamMatcher.group(1);
        objCapture.clear();
        int respStartOfs = eventOfs.get(1).get(1);
        int respEndOfs = eventOfs.get(1).get(34);
        cp = new Checkpoint(cpString);
        //last window read was partial
        assertTrue(cp.getWindowOffset() > 0);
        streamRes = NettyTestUtils.streamToChannelBuffer(relayBuffer[1], cp, respEndOfs - respStartOfs, stats);
        NettyTestUtils.sendServerResponses(relay, clientAddr, streamResp, new DefaultHttpChunk(streamRes));
        log.info("make sure the client processes the response correctly");
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                log.debug("lastWrittenScn=" + clientConn.getDataEventsBuffer().lastWrittenScn());
                return clientConn.getDataEventsBuffer().lastWrittenScn() == 40;
            }
        }, "client receives /stream response", 1100, log);
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                log.debug("events num=" + consumer.getEventNum());
                return stats.getTotalStats().getNumDataEvents() == consumer.getEventNum();
            }
        }, "client processes /stream response", 11000, log);
        assertEquals(20, consumer.getRollbackScn());
        log.info("one more onStartDataEventSequence because of the rolback");
        ++rollbackNum;
        assertEquals(stats.getTotalStats().getNumSysEvents() + 1 + rollbackNum, consumer.getWinNum());
        assertEquals(clientConn.getRelayPullThread().getConnectionState().getDataEventsBuffer().isSCNRegress(), false);
        expKeys.addAll(eventKeys.get(1).subList(0, (int) (stats.getTotalStats().getNumDataEvents() - numEvents)));
        for (int i = 0; i < stats.getTotalStats().getNumDataEvents() - numEvents; i++) expSeqs.add((i / 20) * 20 + 20L);
        assertEquals("Keys", expKeys, consumer.getKeys());
        assertEquals("Sequences", expSeqs, consumer.getSequences());
        numEvents = stats.getTotalStats().getNumDataEvents();
        ///////////////////////////////////
        //simulate a timeout on the server; the client would have sent a /stream call and there
        //will be no response from the server, so eventually it should time out and switch servers
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                log.debug("Channel :" + newRelayConnInsp.getChannel());
                return (null != newRelayConnInsp.getChannel()) && (!newRelayConnInsp.getChannel().isConnected());
            }
        }, "waiting for a reconnect", (long) (DEFAULT_READ_TIMEOUT_MS * 1.5), log);
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                return clientConn.getRelayPullThread().getLastOpenConnection() != relayConn;
            }
        }, "new netty connection", 200, log);
        final NettyHttpDatabusRelayConnection new2RelayConn = (NettyHttpDatabusRelayConnection) clientConn.getRelayPullThread().getLastOpenConnection();
        final NettyHttpDatabusRelayConnectionInspector new2RelayConnInsp = new NettyHttpDatabusRelayConnectionInspector(new2RelayConn);
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                return null != new2RelayConnInsp.getChannel() && new2RelayConnInsp.getChannel().isConnected();
            }
        }, "client connected to third relay", 200, log);
        log.info("figure out the connection to the relay");
        clientChannel = new2RelayConnInsp.getChannel();
        relayAddr = (InetSocketAddress) clientChannel.getRemoteAddress();
        clientAddr = clientChannel.getLocalAddress();
        relayPort = relayAddr.getPort();
        log.info("third relay selected: " + relayPort);
        relay = null;
        relayIdx = 0;
        for (; relayIdx < RELAY_PORT.length; ++relayIdx) {
            if (relayPort == RELAY_PORT[relayIdx])
                relay = _dummyServer[relayIdx];
        }
        assertTrue(null != relay);
        serverChannel = relay.getChildChannel(clientAddr);
        assertTrue(null != serverChannel);
        serverPipeline = serverChannel.getPipeline();
        objCapture = (SimpleObjectCaptureHandler) serverPipeline.get("3");
        log.info("process the /sources request");
        NettyTestUtils.waitForHttpRequest(objCapture, SOURCES_REQUEST_REGEX, 1000);
        objCapture.clear();
        log.info("send back the /sources response");
        body = new DefaultHttpChunk(ChannelBuffers.wrappedBuffer(("[{\"id\":1,\"name\":\"" + SOURCE1_NAME + "\"}]").getBytes(Charset.defaultCharset())));
        NettyTestUtils.sendServerResponses(relay, clientAddr, sourcesResp, body);
        log.info("make sure the client processes the response correctly");
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                String idListString = clientConn.getRelayPullThread()._currentState.getSourcesIdListString();
                return "1".equals(idListString);
            }
        }, "client processes /sources response", 100, log);
        log.info("process the /register request");
        NettyTestUtils.waitForHttpRequest(objCapture, "/register.*", 1000);
        objCapture.clear();
        log.info("SEND BACK THE /register RESPONSE");
        //clientConn.getRelayDispatcher().getLog().setLevel(Level.DEBUG);
        //RangeBasedReaderWriterLock.LOG.setLevel(Level.DEBUG);
        body = new DefaultHttpChunk(ChannelBuffers.wrappedBuffer(responseStr.getBytes(Charset.defaultCharset())));
        NettyTestUtils.sendServerResponses(relay, clientAddr, sourcesResp, body);
        log.info("make sure the client processes the response correctly");
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                DispatcherState dispState = clientConn.getRelayDispatcher().getDispatcherState();
                return null != dispState.getSchemaMap() && 1 == dispState.getSchemaMap().size();
            }
        }, "client processes /register response", timeoutMult * 100, log);
        log.info("PROCESS the /stream CALL AND RETURN A PARTIAL WINDOW");
        streamMatcher = NettyTestUtils.waitForHttpRequest(objCapture, "/stream.*checkPoint=([^&]*)&.*", 1000);
        cpString = streamMatcher.group(1);
        objCapture.clear();
        respStartOfs = eventOfs.get(2).get(1);
        respEndOfs = eventOfs.get(2).get(84);
        log.debug("Checkpoint String is :" + cpString);
        cp = new Checkpoint(cpString);
        log.info("last window read was partial. So the client would have reset the windowOffset");
        assertTrue("Is WindowOffset Cleared", cp.getWindowOffset() == -1);
        assertEquals("WindowSCN == PrevSCN. Ckpt :" + cp, cp.getWindowScn(), cp.getPrevScn());
        streamRes = NettyTestUtils.streamToChannelBuffer(relayBuffer[2], cp, respEndOfs - respStartOfs, stats);
        NettyTestUtils.sendServerResponses(relay, clientAddr, streamResp, new DefaultHttpChunk(streamRes));
        log.debug("NumEvents already seen :" + numEvents);
        log.info("make sure the client processes the response correctly");
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                log.debug("lastWrittenScn=" + clientConn.getDataEventsBuffer().lastWrittenScn() + ", NumEvents :" + stats.getTotalStats().getNumDataEvents());
                return clientConn.getDataEventsBuffer().lastWrittenScn() == 90;
            }
        }, "client receives /stream response, Sequences :" + consumer.getSequences(), timeoutMult * 1100, log);
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                log.debug("events num=" + consumer.getEventNum());
                return stats.getTotalStats().getNumDataEvents() == consumer.getEventNum();
            }
        }, "client processes /stream response", timeoutMult * 1100, log);
        log.info("one more onStartDataEventSequence because of the rollback");
        assertEquals(30, consumer.getRollbackScn());
        ++rollbackNum;
        assertEquals(stats.getTotalStats().getNumSysEvents() + 1 + rollbackNum, consumer.getWinNum());
        expKeys.addAll(eventKeys.get(2).subList(0, (int) (stats.getTotalStats().getNumDataEvents() - numEvents)));
        for (int i = 0; i < stats.getTotalStats().getNumDataEvents() - numEvents; i++) expSeqs.add((i / 30) * 30 + 30L);
        assertEquals("Keys", expKeys, consumer.getKeys());
        assertEquals("Sequences", expSeqs, consumer.getSequences());
        numEvents = stats.getTotalStats().getNumDataEvents();
        assertEquals(clientConn.getRelayPullThread().getConnectionState().getDataEventsBuffer().isSCNRegress(), false);
    } finally {
        client.shutdown();
    }
}
Also used : NettyHttpDatabusRelayConnection(com.linkedin.databus.client.netty.NettyHttpDatabusRelayConnection) NettyHttpDatabusRelayConnectionInspector(com.linkedin.databus.client.netty.NettyHttpDatabusRelayConnectionInspector) DefaultHttpChunk(org.jboss.netty.handler.codec.http.DefaultHttpChunk) Matcher(java.util.regex.Matcher) InetSocketAddress(java.net.InetSocketAddress) ArrayList(java.util.ArrayList) DbusEventsStatisticsCollector(com.linkedin.databus.core.monitoring.mbean.DbusEventsStatisticsCollector) Logger(org.apache.log4j.Logger) ChannelBuffer(org.jboss.netty.buffer.ChannelBuffer) DbusEventInfo(com.linkedin.databus.core.DbusEventInfo) List(java.util.List) ArrayList(java.util.ArrayList) SocketAddress(java.net.SocketAddress) InetSocketAddress(java.net.InetSocketAddress) ConditionCheck(com.linkedin.databus2.test.ConditionCheck) Channel(org.jboss.netty.channel.Channel) SimpleTestServerConnection(com.linkedin.databus2.test.container.SimpleTestServerConnection) DefaultHttpResponse(org.jboss.netty.handler.codec.http.DefaultHttpResponse) HttpResponse(org.jboss.netty.handler.codec.http.HttpResponse) Checkpoint(com.linkedin.databus.core.Checkpoint) ChannelPipeline(org.jboss.netty.channel.ChannelPipeline) DbusEventBuffer(com.linkedin.databus.core.DbusEventBuffer) AtomicInteger(java.util.concurrent.atomic.AtomicInteger) Checkpoint(com.linkedin.databus.core.Checkpoint) SimpleObjectCaptureHandler(com.linkedin.databus2.test.container.SimpleObjectCaptureHandler) DefaultHttpResponse(org.jboss.netty.handler.codec.http.DefaultHttpResponse) RegisterResponseEntry(com.linkedin.databus2.core.container.request.RegisterResponseEntry) DbusEventKey(com.linkedin.databus.core.DbusEventKey) DefaultHttpChunk(org.jboss.netty.handler.codec.http.DefaultHttpChunk) HttpChunk(org.jboss.netty.handler.codec.http.HttpChunk) Test(org.testng.annotations.Test)

Example 58 with HttpChunk

use of org.jboss.netty.handler.codec.http.HttpChunk in project databus by linkedin.

the class TestHttpResponseProcessor method testHappyPathChunking.

@Test
public void testHappyPathChunking() throws DatabusException {
    Logger log = Logger.getLogger("GenericHttpResponseHandler.testHappyPathChunking");
    final GenericHttpResponseHandler responseHandler = new GenericHttpResponseHandler(KeepAliveType.KEEP_ALIVE);
    responseHandler.getLog().setLevel(_logLevel);
    TestHttpResponseProcessor respProcessor = new TestHttpResponseProcessor(log);
    TestConnectListener connectListener = new TestConnectListener(log);
    TestSendRequestListener requestListener = new TestSendRequestListener(log);
    TestCloseListener closeListener = new TestCloseListener(log);
    responseHandler.setConnectionListener(connectListener);
    Channel channel = createClientBootstrap(responseHandler);
    SocketAddress clientAddr = channel.getLocalAddress();
    try {
        setListeners(responseHandler, respProcessor, requestListener, closeListener);
        channel.write(new DefaultHttpRequest(HttpVersion.HTTP_1_1, HttpMethod.GET, "/test"));
        //It seems that there is a race condition between the writeFuture succeeding
        //and the writeComplete message getting to the handler. Make sure that the
        //writeComplete has got to the handler before we do anything else with
        //the channel.
        final GenericHttpResponseHandler handler = getResponseHandler(channel);
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                return handler._messageState.hasSentRequest();
            }
        }, "request sent", 1000, log);
        HttpResponse resp = new DefaultHttpResponse(HttpVersion.HTTP_1_1, HttpResponseStatus.OK);
        resp.setHeader(HttpHeaders.Names.TRANSFER_ENCODING, HttpHeaders.Values.CHUNKED);
        sendServerResponse(clientAddr, resp, 1000);
        HttpChunk chunk1 = new DefaultHttpChunk(ChannelBuffers.wrappedBuffer("chunk1".getBytes(Charset.defaultCharset())));
        sendServerResponse(clientAddr, chunk1, 1000);
        HttpChunk chunk2 = new DefaultHttpChunk(ChannelBuffers.wrappedBuffer("chunk2".getBytes(Charset.defaultCharset())));
        sendServerResponse(clientAddr, chunk2, 1000);
        sendServerResponse(clientAddr, new DefaultHttpChunkTrailer(), 1000);
        final List<String> callbacks = respProcessor.getCallbacks();
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                return callbacks.size() == 5;
            }
        }, "waiting for response processed", 1000, null);
        final List<String> connectCallbacks = connectListener.getCallbacks();
        final List<String> requestCallbacks = requestListener.getCallbacks();
        final List<String> closeCallbacks = closeListener.getCallbacks();
        stateSanityCheck(connectCallbacks, requestCallbacks, callbacks, closeCallbacks);
        Assert.assertEquals(callbacks.get(0), "startResponse");
        Assert.assertEquals(callbacks.get(1), "addChunk");
        Assert.assertEquals(callbacks.get(2), "addChunk");
        Assert.assertEquals(callbacks.get(3), "addTrailer");
        Assert.assertEquals(callbacks.get(4), "finishResponse");
        //make sure that no new callbacks have showed up
        Assert.assertEquals(callbacks.size(), 5);
    } finally {
        channel.close();
    }
}
Also used : ConditionCheck(com.linkedin.databus2.test.ConditionCheck) DefaultHttpChunk(org.jboss.netty.handler.codec.http.DefaultHttpChunk) Channel(org.jboss.netty.channel.Channel) DefaultHttpResponse(org.jboss.netty.handler.codec.http.DefaultHttpResponse) HttpResponse(org.jboss.netty.handler.codec.http.HttpResponse) Logger(org.apache.log4j.Logger) DefaultHttpRequest(org.jboss.netty.handler.codec.http.DefaultHttpRequest) DefaultHttpResponse(org.jboss.netty.handler.codec.http.DefaultHttpResponse) DefaultHttpChunkTrailer(org.jboss.netty.handler.codec.http.DefaultHttpChunkTrailer) SocketAddress(java.net.SocketAddress) InetSocketAddress(java.net.InetSocketAddress) DefaultHttpChunk(org.jboss.netty.handler.codec.http.DefaultHttpChunk) HttpChunk(org.jboss.netty.handler.codec.http.HttpChunk) Test(org.testng.annotations.Test)

Example 59 with HttpChunk

use of org.jboss.netty.handler.codec.http.HttpChunk in project databus by linkedin.

the class TestHttpResponseProcessor method testErrorServerResponseChunking.

@Test
public void testErrorServerResponseChunking() throws DatabusException {
    Logger log = Logger.getLogger("GenericHttpResponseHandler.testErrorServerResponseChunking");
    final GenericHttpResponseHandler responseHandler = new GenericHttpResponseHandler(KeepAliveType.KEEP_ALIVE);
    responseHandler.getLog().setLevel(_logLevel);
    TestHttpResponseProcessor respProcessor = new TestHttpResponseProcessor(log);
    TestConnectListener connectListener = new TestConnectListener(log);
    TestSendRequestListener requestListener = new TestSendRequestListener(log);
    TestCloseListener closeListener = new TestCloseListener(log);
    responseHandler.setConnectionListener(connectListener);
    Channel channel = createClientBootstrap(responseHandler);
    SocketAddress clientAddr = channel.getLocalAddress();
    try {
        setListeners(responseHandler, respProcessor, requestListener, closeListener);
        channel.write(new DefaultHttpRequest(HttpVersion.HTTP_1_1, HttpMethod.GET, "/test"));
        //It seems that there is a race condition between the writeFuture succeeding
        //and the writeComplete message getting to the handler. Make sure that the
        //writeComplete has got to the handler before we do anything else with
        //the channel.
        final GenericHttpResponseHandler handler = getResponseHandler(channel);
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                return handler._messageState.hasSentRequest();
            }
        }, "request sent", 1000, log);
        HttpResponse resp = new DefaultHttpResponse(HttpVersion.HTTP_1_1, HttpResponseStatus.SERVICE_UNAVAILABLE);
        resp.setHeader(HttpHeaders.Names.TRANSFER_ENCODING, HttpHeaders.Values.CHUNKED);
        sendServerResponse(clientAddr, resp, 2000);
        HttpChunk chunk1 = new DefaultHttpChunk(ChannelBuffers.wrappedBuffer("chunk1".getBytes(Charset.defaultCharset())));
        sendServerResponse(clientAddr, chunk1, 1000);
        sendServerResponse(clientAddr, new DefaultHttpChunkTrailer(), 1000);
        final List<String> callbacks = respProcessor.getCallbacks();
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                return 4 == callbacks.size();
            }
        }, "waiting for response processed", 1000, null);
        final List<String> connectCallbacks = connectListener.getCallbacks();
        final List<String> requestCallbacks = requestListener.getCallbacks();
        final List<String> closeCallbacks = closeListener.getCallbacks();
        stateSanityCheck(connectCallbacks, requestCallbacks, callbacks, closeCallbacks);
        Assert.assertEquals(callbacks.get(0), "startResponse");
        Assert.assertEquals(callbacks.get(1), "addChunk");
        Assert.assertEquals(callbacks.get(2), "addTrailer");
        Assert.assertEquals(callbacks.get(3), "finishResponse");
        TestUtil.sleep(500);
        //make sure that no new callbacks have showed up
        Assert.assertEquals(callbacks.size(), 4);
    } finally {
        channel.close();
    }
}
Also used : ConditionCheck(com.linkedin.databus2.test.ConditionCheck) DefaultHttpChunk(org.jboss.netty.handler.codec.http.DefaultHttpChunk) Channel(org.jboss.netty.channel.Channel) DefaultHttpResponse(org.jboss.netty.handler.codec.http.DefaultHttpResponse) HttpResponse(org.jboss.netty.handler.codec.http.HttpResponse) Logger(org.apache.log4j.Logger) DefaultHttpRequest(org.jboss.netty.handler.codec.http.DefaultHttpRequest) DefaultHttpResponse(org.jboss.netty.handler.codec.http.DefaultHttpResponse) DefaultHttpChunkTrailer(org.jboss.netty.handler.codec.http.DefaultHttpChunkTrailer) SocketAddress(java.net.SocketAddress) InetSocketAddress(java.net.InetSocketAddress) DefaultHttpChunk(org.jboss.netty.handler.codec.http.DefaultHttpChunk) HttpChunk(org.jboss.netty.handler.codec.http.HttpChunk) Test(org.testng.annotations.Test)

Example 60 with HttpChunk

use of org.jboss.netty.handler.codec.http.HttpChunk in project databus by linkedin.

the class TestHttpResponseProcessor method testEarlyServerCloseChunking.

@Test
public void testEarlyServerCloseChunking() throws DatabusException {
    Logger log = Logger.getLogger("GenericHttpResponseHandler.testEarlyServerCloseChunking");
    final GenericHttpResponseHandler responseHandler = new GenericHttpResponseHandler(KeepAliveType.KEEP_ALIVE);
    responseHandler.getLog().setLevel(_logLevel);
    TestHttpResponseProcessor respProcessor = new TestHttpResponseProcessor(log);
    TestConnectListener connectListener = new TestConnectListener(log);
    TestSendRequestListener requestListener = new TestSendRequestListener(log);
    TestCloseListener closeListener = new TestCloseListener(log);
    responseHandler.setConnectionListener(connectListener);
    Channel channel = createClientBootstrap(responseHandler);
    Assert.assertTrue(channel.isConnected());
    final SocketAddress clientAddr = channel.getLocalAddress();
    try {
        setListeners(responseHandler, respProcessor, requestListener, closeListener);
        channel.write(new DefaultHttpRequest(HttpVersion.HTTP_1_1, HttpMethod.GET, "/test"));
        //It seems that there is a race condition between the writeFuture succeeding
        //and the writeComplete message getting to the handler. Make sure that the
        //writeComplete has got to the handler before we do anything else with
        //the channel.
        final GenericHttpResponseHandler handler = getResponseHandler(channel);
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                return handler._messageState.hasSentRequest();
            }
        }, "request sent", 1000, log);
        HttpResponse resp = new DefaultHttpResponse(HttpVersion.HTTP_1_1, HttpResponseStatus.OK);
        resp.setHeader(HttpHeaders.Names.TRANSFER_ENCODING, HttpHeaders.Values.CHUNKED);
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                return null != _dummyServer.getChildChannel(clientAddr);
            }
        }, "make sure we have all tracking populated for client connection", 1000, log);
        sendServerResponse(clientAddr, resp, 1000);
        HttpChunk chunk1 = new DefaultHttpChunk(ChannelBuffers.wrappedBuffer("chunk1".getBytes(Charset.defaultCharset())));
        sendServerResponse(clientAddr, chunk1, 1000);
        TestUtil.sleep(200);
        sendServerClose(clientAddr, -1);
        final List<String> callbacks = respProcessor.getCallbacks();
        final List<String> closeCallbacks = closeListener.getCallbacks();
        TestUtil.assertWithBackoff(new ConditionCheck() {

            @Override
            public boolean check() {
                return 3 == callbacks.size() && 1 == closeCallbacks.size();
            }
        }, "waiting for response processed", 1000, null);
        final List<String> connectCallbacks = connectListener.getCallbacks();
        final List<String> requestCallbacks = requestListener.getCallbacks();
        stateSanityCheck(connectCallbacks, requestCallbacks, callbacks, closeCallbacks);
        Assert.assertEquals(callbacks.get(0), "startResponse");
        Assert.assertEquals(callbacks.get(1), "addChunk");
        // we get Exception, no ChannelClose
        Assert.assertTrue(callbacks.get(2).startsWith("channelException"));
        //make sure that no new callbacks have showed up
        Assert.assertEquals(callbacks.size(), 3);
    } finally {
        channel.close();
    }
}
Also used : ConditionCheck(com.linkedin.databus2.test.ConditionCheck) DefaultHttpChunk(org.jboss.netty.handler.codec.http.DefaultHttpChunk) Channel(org.jboss.netty.channel.Channel) DefaultHttpResponse(org.jboss.netty.handler.codec.http.DefaultHttpResponse) HttpResponse(org.jboss.netty.handler.codec.http.HttpResponse) Logger(org.apache.log4j.Logger) DefaultHttpRequest(org.jboss.netty.handler.codec.http.DefaultHttpRequest) DefaultHttpResponse(org.jboss.netty.handler.codec.http.DefaultHttpResponse) SocketAddress(java.net.SocketAddress) InetSocketAddress(java.net.InetSocketAddress) DefaultHttpChunk(org.jboss.netty.handler.codec.http.DefaultHttpChunk) HttpChunk(org.jboss.netty.handler.codec.http.HttpChunk) Test(org.testng.annotations.Test)

Aggregations

HttpChunk (org.jboss.netty.handler.codec.http.HttpChunk)65 DefaultHttpChunk (org.jboss.netty.handler.codec.http.DefaultHttpChunk)53 DefaultHttpResponse (org.jboss.netty.handler.codec.http.DefaultHttpResponse)51 HttpResponse (org.jboss.netty.handler.codec.http.HttpResponse)49 ChannelBuffer (org.jboss.netty.buffer.ChannelBuffer)46 Test (org.testng.annotations.Test)46 DefaultHttpChunkTrailer (org.jboss.netty.handler.codec.http.DefaultHttpChunkTrailer)38 HttpChunkTrailer (org.jboss.netty.handler.codec.http.HttpChunkTrailer)37 BootstrapDatabaseTooOldException (com.linkedin.databus2.core.container.request.BootstrapDatabaseTooOldException)25 Checkpoint (com.linkedin.databus.core.Checkpoint)22 ConditionCheck (com.linkedin.databus2.test.ConditionCheck)15 InetSocketAddress (java.net.InetSocketAddress)14 Channel (org.jboss.netty.channel.Channel)14 SocketAddress (java.net.SocketAddress)13 Logger (org.apache.log4j.Logger)12 HttpRequest (org.jboss.netty.handler.codec.http.HttpRequest)11 RegisterResponseEntry (com.linkedin.databus2.core.container.request.RegisterResponseEntry)8 SimpleObjectCaptureHandler (com.linkedin.databus2.test.container.SimpleObjectCaptureHandler)7 ChannelPipeline (org.jboss.netty.channel.ChannelPipeline)7 DatabusRelayConnectionStateMessage (com.linkedin.databus.client.DatabusRelayConnectionStateMessage)6