Esempio n. 1
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 public static string StopBrokerLeaderForPartition(Cluster cluster, string topic, int partition)
 {
     var brokerMeta = cluster.FindBrokerMetaForPartitionId(topic, partition);
     var brokerName = GetBrokerNameFromIp(brokerMeta.Host);
     StopBroker(brokerName);
     return brokerName;
 }
Esempio n. 2
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        public Producer(Cluster cluster, ProducerConfiguration producerConfiguration)
        {
            Configuration = producerConfiguration;
            _cluster = cluster;

            _cluster.OnThreadHang += e => 
            {
                if (OnPermError != null)
                    OnPermError(e, _allPartitionQueues.SelectMany(p => p.Value.Queue.ToArray()).ToArray());
            };
        }
Esempio n. 3
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        public Producer(Cluster cluster, ProducerConfiguration producerConfiguration)
        {
            Configuration = producerConfiguration;
            _cluster = cluster;

            _queueSizeEvents = new Subject<QueueResizeInfo>();
            QueueSizeEvents = _queueSizeEvents.ObserveOn(Scheduler.Default);

            _cluster.OnThreadHang += e => 
            {
                if (OnPermError != null)
                    OnPermError(e, _allPartitionQueues.SelectMany(p => p.Value.Queue.ToArray()).ToArray());
            };
        }
        public static void ReassignPartitions(Cluster cluster, string topic, int partition)
        {
            var brokerMeta = cluster.FindBrokerMetaForPartitionId(topic, partition);
            var brokerToMoveTo = brokerMeta.NodeId == 1 ? 2 : 1;

            var partitionsJson = string.Format("{{\"partitions\":[{{\"topic\":\"{0}\",\"partition\":{1},\"replicas\":[{2}]}}], \"version\":1}}",
                topic, partition, brokerToMoveTo);

            _log.Info(string.Format("Reassigning Partitions (topic {0}, partition {1}, from node {2} to node {3})", topic, partition, brokerMeta.NodeId, brokerToMoveTo));

            var generateJson = "ssh -c \"printf '" + partitionsJson.Replace("\"", @"\\\""") + "' >partitions-to-move.json\" broker1";
            Vagrant(generateJson);

            var reassignScript = "ssh -c '/opt/kafka_2.10-" + _kafkaVersion + "/bin/kafka-reassign-partitions.sh --zookeeper 192.168.56.2 --reassignment-json-file partitions-to-move.json --execute' broker1";
            Vagrant(reassignScript);

            _log.Info("Reassigned Partitions");
        }
Esempio n. 5
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        public async void ExplicitOffset()
        {
            kafka4net.Tracing.EtwTrace.Marker("ExplicitOffset");
            // create new topic with 3 partitions
            var topic = "part33." + _rnd.Next();
            VagrantBrokerUtil.CreateTopic(topic,3,3);

            // fill it out with 10K messages
            const int count = 10*1000;
            var producer = new Producer(_seed2Addresses, new ProducerConfiguration(topic));
            await producer.ConnectAsync();

            var sentMessagesObservable = Observable.FromEvent<Message[]>(evtHandler => producer.OnSuccess += evtHandler, evtHandler => { })
                .SelectMany(msgs=>msgs)
                .Take(count)
                .TakeUntil(DateTime.Now.AddSeconds(10))
                .ToList();

            _log.Info("Sending data");
            Enumerable.Range(1, count).
                Select(i => new Message { Value = BitConverter.GetBytes(i) }).
                ForEach(producer.Send);

            var sentMsgs = await sentMessagesObservable;
            _log.Info("Producer sent {0} messages.", sentMsgs.Count);

            _log.Debug("Closing producer");
            await producer.CloseAsync(TimeSpan.FromSeconds(5));

            var offsetFetchCluster = new Cluster(_seed2Addresses);
            await offsetFetchCluster.ConnectAsync();

            // consume tail-300 for each partition
            await Task.Delay(TimeSpan.FromSeconds(1));
            var offsets = new TopicPartitionOffsets(
                                topic, (await offsetFetchCluster.FetchPartitionOffsetsAsync(topic, ConsumerLocation.TopicEnd))
                                        .GetPartitionsOffset.Select(kv=>new KeyValuePair<int,long>(kv.Key,kv.Value-300)));
            _log.Info("Sum of offsets {0}. Raw: {1}",offsets.Partitions.Sum(p=>offsets.NextOffset(p)), offsets);
            
            var consumer = new Consumer(new ConsumerConfiguration(_seed2Addresses, topic, offsets));
            var messages = consumer.OnMessageArrived.
                GroupBy(m => m.Partition).Replay();
            messages.Connect();
            await consumer.IsConnected;

            var consumerSubscription = messages.Subscribe(p => p.Take(10).Subscribe(
                m => _log.Debug("Got message {0}/{1}", m.Partition, BitConverter.ToInt32(m.Value, 0)),
                e => _log.Error("Error", e),
                () => _log.Debug("Complete part {0}", p.Key)
            ));

            // wait for 3 partitions to arrrive and every partition to read at least 100 messages
            await messages.Select(g => g.Take(100)).Take(3).ToTask();

            consumerSubscription.Dispose();
            consumer.Dispose();

            kafka4net.Tracing.EtwTrace.Marker("/ExplicitOffset");
        }
Esempio n. 6
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        public async void ConsumerFollowsRebalancingPartitions()
        {
            kafka4net.Tracing.EtwTrace.Marker("ConsumerFollowsRebalancingPartitions");

            // create a topic
            var topic = "topic33." + _rnd.Next();
            VagrantBrokerUtil.CreateTopic(topic,11,3);

            // Stop two brokers to let leadership shift to broker1.
            VagrantBrokerUtil.StopBroker("broker2");
            VagrantBrokerUtil.StopBroker("broker3");

            await Task.Delay(TimeSpan.FromSeconds(5));

            // now start back up
            VagrantBrokerUtil.StartBroker("broker2");
            VagrantBrokerUtil.StartBroker("broker3");

            // wait a little for everything to start
            await Task.Delay(TimeSpan.FromSeconds(5));

            // we should have all of them with leader 1
            var cluster = new Cluster(_seed2Addresses);
            await cluster.ConnectAsync();
            var partitionMeta = await cluster.GetOrFetchMetaForTopicAsync(topic);

            // make sure they're all on a single leader
            Assert.AreEqual(1, partitionMeta.GroupBy(p=>p.Leader).Count());

            // now publish messages
            const int count = 25000;
            var producer = new Producer(cluster, new ProducerConfiguration(topic));
            _log.Debug("Connecting");
            await producer.ConnectAsync();

            _log.Debug("Filling out {0} with {1} messages", topic, count);
            var sentList = await Enumerable.Range(0, count)
                .Select(i => new Message { Value = BitConverter.GetBytes(i) })
                .ToObservable()
                .Do(producer.Send)
                .Select(msg => BitConverter.ToInt32(msg.Value, 0))
                .ToList();

            await Task.Delay(TimeSpan.FromSeconds(1));

            _log.Info("Done sending messages. Closing producer.");
            await producer.CloseAsync(TimeSpan.FromSeconds(5));
            _log.Info("Producer closed, starting consumer subscription.");

            await Task.Delay(TimeSpan.FromSeconds(1));
            var heads = await cluster.FetchPartitionOffsetsAsync(topic, ConsumerLocation.TopicStart);
            var tails = await cluster.FetchPartitionOffsetsAsync(topic, ConsumerLocation.TopicEnd);

            var messagesInTopic = (int)tails.MessagesSince(heads);
            _log.Info("Topic offsets indicate producer sent {0} messages.", messagesInTopic);


            var consumer = new Consumer(new ConsumerConfiguration(_seed2Addresses, topic, new StartPositionTopicStart(), maxBytesPerFetch: 4 * 8));
            var current = 0;
            var received = new ReplaySubject<ReceivedMessage>();
            Task rebalanceTask = null;
            var consumerSubscription = consumer.OnMessageArrived.
                Subscribe(async msg =>
                {
                    current++;
                    if (current == 18)
                    {
                        rebalanceTask = Task.Factory.StartNew(VagrantBrokerUtil.RebalanceLeadership, CancellationToken.None, TaskCreationOptions.None, TaskScheduler.Default);
                    }
                    received.OnNext(msg);
                    //_log.Info("Got: {0}", BitConverter.ToInt32(msg.Value, 0));
                });
            await consumer.IsConnected;

            _log.Info("Waiting for receiver complete");
            var receivedList = await received.Select(msg => BitConverter.ToInt32(msg.Value, 0)).
                Take(messagesInTopic).
                TakeUntil(DateTime.Now.AddMinutes(3)).
                ToList().
                ToTask();
            if (rebalanceTask != null)
            {
                _log.Info("Waiting for rebalance complete");
                await rebalanceTask;//.TimeoutAfter(TimeSpan.FromSeconds(10));
                _log.Info("Rebalance complete");
            }

            _log.Info("Receiver complete. Disposing Subscription");
            consumerSubscription.Dispose();
            _log.Info("Consumer subscription disposed. Closing consumer.");
            consumer.Dispose();
            _log.Info("Consumer closed.");

            tails = await cluster.FetchPartitionOffsetsAsync(topic, ConsumerLocation.TopicEnd);

            await cluster.CloseAsync(TimeSpan.FromSeconds(5));

            _log.Info("Sum of offsets: {0}", tails.MessagesSince(heads));
            _log.Info("Offsets: [{0}]", string.Join(",", tails.Partitions.Select(p => string.Format("{0}:{1}", p, tails.NextOffset(p)))));

            if (messagesInTopic != receivedList.Count)
            {
                // log some debug info.
                _log.Error("Did not receive all messages. Messages sent but NOT received: {0}", string.Join(",", sentList.Except(receivedList).OrderBy(i => i)));

            }

            Assert.AreEqual(messagesInTopic, receivedList.Count);


            kafka4net.Tracing.EtwTrace.Marker("/ConsumerFollowsRebalancingPartitions");
        }
Esempio n. 7
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        public async void ProducerRecoveryTest()
        {
            kafka4net.Tracing.EtwTrace.Marker("ProducerRecoveryTest");

            const int count = 200;
            var topic = "part62." + _rnd.Next();
            VagrantBrokerUtil.CreateTopic(topic, 6, 2);

            var producer = new Producer(_seed2Addresses, new ProducerConfiguration(topic));

            _log.Debug("Connecting");
            await producer.ConnectAsync();

            _log.Debug("Filling out {0}", topic);
            // when we get a confirm back, add to list actually sent.
            var actuallySentList = new List<int>(count);
            producer.OnSuccess += msgs => actuallySentList.AddRange(msgs.Select(msg => BitConverter.ToInt32(msg.Value, 0)));

            Task stopBrokerTask = null;
            var sentList = await Observable.Interval(TimeSpan.FromMilliseconds(100))
                .Select(l => (int)l)
                .Do(l => { if (l == 20) stopBrokerTask = Task.Factory.StartNew(() => VagrantBrokerUtil.StopBroker("broker2"), CancellationToken.None, TaskCreationOptions.None, TaskScheduler.Default); })
                .Select(i => new Message { Value = BitConverter.GetBytes(i) })
                .Take(count)
                .Do(producer.Send)
                .Select(msg => BitConverter.ToInt32(msg.Value, 0))
                .ToList();


            _log.Info("Done waiting for sending. Closing producer.");
            await producer.CloseAsync(TimeSpan.FromSeconds(30));
            _log.Info("Producer closed.");

            if (stopBrokerTask != null)
                await stopBrokerTask.TimeoutAfter(TimeSpan.FromSeconds(10));

            //
            // Check length of result topic
            //
            var c2 = new Cluster(_seed2Addresses);
            await c2.ConnectAsync();
            var heads = await c2.FetchPartitionOffsetsAsync(topic, ConsumerLocation.TopicStart);
            var tails = await c2.FetchPartitionOffsetsAsync(topic, ConsumerLocation.TopicEnd);

            _log.Info("Sum of offsets: {0}", tails.MessagesSince(heads));
            _log.Info("Offsets: [{0}]", string.Join(",", tails.Partitions.Select(p => string.Format("{0}:{1}", p, tails.NextOffset(p)))));

            //
            if (sentList.Count != actuallySentList.Count)
            {
                // log some debug info.
                _log.Error("Did not send all messages. Messages sent but NOT acknowledged: {0}", string.Join(",", sentList.Except(actuallySentList).OrderBy(i => i)));
            }

            Assert.AreEqual(sentList.Count, actuallySentList.Count, "Actually sent");
            Assert.AreEqual(sentList.Count, tails.MessagesSince(heads), "Offsets");
            
            kafka4net.Tracing.EtwTrace.Marker("/ProducerRecoveryTest");
        }
Esempio n. 8
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 public async void IfFirstBrokerIsDownThenNextOneWillConnect()
 {
     var badSeed = "192.168.56.111," + _seed2Addresses;
     var cluster = new Cluster(badSeed);
     await cluster.ConnectAsync();
     await cluster.GetAllTopicsAsync();
     //var producer = new Producer(cluster, new ProducerConfiguration("notopic"));
     //await producer.ConnectAsync();
     await cluster.CloseAsync(TimeSpan.FromSeconds(1));
 }
Esempio n. 9
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        public async void ProducerTestWhenPartitionReassignmentOccurs()
        {
            // Scenario: Broker gives away it's topic to another broker
            // See https://github.com/ntent-ad/kafka4net/issues/27

            var topic = "topic11." + _rnd.Next();

            // Create topic
            VagrantBrokerUtil.CreateTopic(topic, 1, 1);

            // Create cluster and producer
            var cluster = new Cluster(_seed2Addresses);
            //await cluster.ConnectAsync();
            //await cluster.GetOrFetchMetaForTopicAsync(topic);
            VagrantBrokerUtil.DescribeTopic(topic);
            var producer = new Producer(cluster, new ProducerConfiguration(topic, batchFlushSize: 1));
            var ctx = SynchronizationContext.Current;
            producer.OnPermError += (exception, messages) => ctx.Post(d => { throw exception; }, null);
            int successfullySent = 0;
            producer.OnSuccess += messages => successfullySent++;

            _log.Info("Connecting producer");
            await producer.ConnectAsync();

            _log.Info("Producer Send data before reassignment");
            producer.Send(new Message { Value = new byte[] { 0, 0, 0, 0 } });


            // Run the reassignment
            VagrantBrokerUtil.ReassignPartitions(cluster, topic, 0);
            _log.Info("Waiting for reassignment completion");
            await Task.Delay(5 * 1000);

            VagrantBrokerUtil.DescribeTopic(topic);

            _log.Info("Producer Send data after reassignment");
            producer.Send(new Message { Value = new byte[] { 1, 1, 1, 1 } });

            _log.Info("Waiting for producer to complete");
            await producer.CloseAsync(TimeSpan.FromSeconds(60));

            Assert.That(successfullySent, Is.EqualTo(2));
            _log.Info("Done");
        }
Esempio n. 10
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        public async void ProducerConnectWhenOneBrokerIsDownAndThanUp()
        {
            // Scenario: 1 broker is down, Producer connects. Broker is brought up and forced to become master.
            // See https://github.com/ntent-ad/kafka4net/issues/14

            var topic = "topic11." + _rnd.Next();

            // Create topic
            VagrantBrokerUtil.CreateTopic(topic, 1, 2);
            var cluster = new Cluster(_seed3Addresses);
            await cluster.ConnectAsync();
            await cluster.GetOrFetchMetaForTopicAsync(topic);
            VagrantBrokerUtil.DescribeTopic(topic);
            // Stop the leader
            //var partitionDown = cluster.PartitionStateChanges.FirstAsync(_ => _.ErrorCode.IsFailure());
            var preferredBroker = VagrantBrokerUtil.StopBrokerLeaderForPartition(cluster, topic, 0);
            //_log.Info("Waiting for partition to be down");
            //await partitionDown;
            await cluster.CloseAsync(TimeSpan.FromSeconds(3));
            await Task.Delay(30 * 1000);
            VagrantBrokerUtil.DescribeTopic(topic);

            // Create new cluster and publisher, while preferred leader is down
            cluster = new Cluster(_seed3Addresses);
            cluster.NewBrokers.Subscribe(b => _log.Info("Discovered new broker: {0}", b));
            _log.Info("Connecting cluster");
            await cluster.ConnectAsync();
            var producer = new Producer(cluster, new ProducerConfiguration(topic));
            _log.Info("Connecting producer");
            await producer.ConnectAsync();

            // Start preferred leader up
            _log.Info("Starting preferred broker");
            VagrantBrokerUtil.StartBroker(preferredBroker);
            _log.Info("Waiting for preferred broker ({0}) to start up", preferredBroker);
            await Task.Delay(30 * 1000);
            //VagrantBrokerUtil.RebalanceLeadership();
            _log.Info("Stopping 2nd leader broker");
            VagrantBrokerUtil.StopBrokerLeaderForPartition(cluster, topic, 0);
            _log.Info("Producer Send data");
            producer.Send(new Message() { Value = new byte[]{0,0,0,0}});
            _log.Info("Waiting for producer to complete");
            await producer.CloseAsync(TimeSpan.FromSeconds(60));

            _log.Info("Done");
        }
Esempio n. 11
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        public async void SchedulerThreadIsIsolatedFromUserCode()
        {
            kafka4net.Tracing.EtwTrace.Marker("SchedulerThreadIsIsolatedFromUserCode");

            const string threadName = "kafka-scheduler";
            _log.Info("Test Runner is using thread {0}", Thread.CurrentThread.Name);

            var topic = "topic." + _rnd.Next();
            VagrantBrokerUtil.CreateTopic(topic,6,3);

            var cluster = new Cluster(_seed2Addresses);
            await cluster.ConnectAsync();
            Assert.AreNotEqual(threadName, Thread.CurrentThread.Name);

            await cluster.FetchPartitionOffsetsAsync(topic, ConsumerLocation.TopicStart);
            Assert.AreNotEqual(threadName, Thread.CurrentThread.Name);

            var topics = await cluster.GetAllTopicsAsync();
            Assert.AreNotEqual(threadName, Thread.CurrentThread.Name);

            // now create a producer
            var producer = new Producer(cluster, new ProducerConfiguration(topic));
            await producer.ConnectAsync();
            Assert.AreNotEqual(threadName, Thread.CurrentThread.Name);

            // create a producer that also creates a cluster
            var producerWithCluster = new Producer(_seed2Addresses, new ProducerConfiguration(topic));
            await producerWithCluster.ConnectAsync();
            Assert.AreNotEqual(threadName, Thread.CurrentThread.Name);

            // TODO: Subscribe and check thread on notification observables!

            // run them both for a little while (~5 seconds)
            var msgs = await Observable.Interval(TimeSpan.FromMilliseconds(100))
                .Do(l =>
                {
                    producer.Send(new Message { Value = BitConverter.GetBytes(l) });
                    producerWithCluster.Send(new Message { Value = BitConverter.GetBytes(l) });
                    _log.Debug("After Producer Send using thread {0}", Thread.CurrentThread.Name);

                }).Take(50).ToArray();
            Assert.AreNotEqual(threadName, Thread.CurrentThread.Name);

            // now consumer(s)
            var consumer = new Consumer(new ConsumerConfiguration(_seed2Addresses, topic, new StartPositionTopicStart()));
            Assert.AreNotEqual(threadName, Thread.CurrentThread.Name);

            var msgsRcv = new List<long>();
            var messageSubscription = consumer.OnMessageArrived
                .Do(msg => Assert.AreEqual(threadName, Thread.CurrentThread.Name), exception => Assert.AreEqual(threadName, Thread.CurrentThread.Name), () => Assert.AreEqual(threadName, Thread.CurrentThread.Name))
                .Take(50)
                .TakeUntil(DateTime.Now.AddSeconds(500))
                .ObserveOn(System.Reactive.Concurrency.DefaultScheduler.Instance)
                .Do(msg => Assert.AreNotEqual(threadName, Thread.CurrentThread.Name), exception => Assert.AreNotEqual(threadName, Thread.CurrentThread.Name), () => Assert.AreNotEqual(threadName, Thread.CurrentThread.Name))
                .Subscribe(
                    msg=>
                    {
                        msgsRcv.Add(BitConverter.ToInt64(msg.Value,0));
                        Assert.AreNotEqual(threadName, Thread.CurrentThread.Name);
                        _log.Debug("In Consumer Subscribe OnNext using thread {0}", Thread.CurrentThread.Name);
                    }, exception =>
                    {
                        _log.Debug("In Consumer Subscribe OnError using thread {0} Error: {1}", Thread.CurrentThread.Name, exception.Message);
                        throw exception;
                    }, () =>
                    {
                        Assert.AreNotEqual(threadName, Thread.CurrentThread.Name);
                        _log.Debug("In Consumer Subscribe OnComplete using thread {0}", Thread.CurrentThread.Name);
                    });
            
            await consumer.IsConnected;

            _log.Info("Waitng for consumer to read");
            await Task.Delay(TimeSpan.FromSeconds(6));
            _log.Debug("After Consumer Subscribe using thread {0}", Thread.CurrentThread.Name);
            consumer.Dispose();
            Assert.AreNotEqual(threadName, Thread.CurrentThread.Name);

            Assert.AreEqual(msgs.Length, msgsRcv.Count);

            messageSubscription.Dispose();
            Assert.AreNotEqual(threadName, Thread.CurrentThread.Name);

            // now close down
            await producer.CloseAsync(TimeSpan.FromSeconds(5));
            _log.Debug("After Consumer Close using thread {0}", Thread.CurrentThread.Name);
            Assert.AreNotEqual(threadName, Thread.CurrentThread.Name);

            await producerWithCluster.CloseAsync(TimeSpan.FromSeconds(5));
            _log.Debug("After Producer Subscribe using thread {0}", Thread.CurrentThread.Name);
            Assert.AreNotEqual(threadName, Thread.CurrentThread.Name);

            Assert.AreNotEqual(threadName, Thread.CurrentThread.Name);

            await cluster.CloseAsync(TimeSpan.FromSeconds(5));
            _log.Debug("After Cluster Close using thread {0}", Thread.CurrentThread.Name);
            Assert.AreNotEqual(threadName, Thread.CurrentThread.Name);

            kafka4net.Tracing.EtwTrace.Marker("/SchedulerThreadIsIsolatedFromUserCode");
        }
Esempio n. 12
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        public async void MultipleProducersOneCluster()
        {
            kafka4net.Tracing.EtwTrace.Marker("MultipleProducersOneCluster");

            var cluster = new Cluster(_seed2Addresses);
            var topic1 = "topic." + _rnd.Next();
            var topic2 = "topic." + _rnd.Next();

            VagrantBrokerUtil.CreateTopic(topic1, 6, 3);
            VagrantBrokerUtil.CreateTopic(topic2, 6, 3);

            // declare two producers
            var producer1 = new Producer(cluster, new ProducerConfiguration(topic1));
            await producer1.ConnectAsync();

            var producer2 = new Producer(cluster, new ProducerConfiguration(topic2));
            await producer2.ConnectAsync();

            // run them both for a little while (~10 seconds)
            var msgs = await Observable.Interval(TimeSpan.FromMilliseconds(100))
                .Do(l =>
            {
                producer1.Send(new Message {Value = BitConverter.GetBytes(l)});
                producer2.Send(new Message {Value = BitConverter.GetBytes(l)});

            }).Take(100);

            _log.Info("Done Sending, await on producer close.");

            // now stop them.
            await Task.WhenAll(new [] { producer1.CloseAsync(TimeSpan.FromSeconds(5)), producer2.CloseAsync(TimeSpan.FromSeconds(5)) });

            await Task.Delay(TimeSpan.FromSeconds(2));

            // check we got all 100 on each topic.
            _log.Info("Closed Producers. Checking Offsets");
            var topic1Heads = await cluster.FetchPartitionOffsetsAsync(topic1, ConsumerLocation.TopicStart);
            var topic2Heads = await cluster.FetchPartitionOffsetsAsync(topic2, ConsumerLocation.TopicStart);
            var topic1Tails = await cluster.FetchPartitionOffsetsAsync(topic1, ConsumerLocation.TopicEnd);
            var topic2Tails = await cluster.FetchPartitionOffsetsAsync(topic2, ConsumerLocation.TopicEnd);

            Assert.AreEqual(100, topic1Tails.MessagesSince(topic1Heads));
            Assert.AreEqual(100, topic2Tails.MessagesSince(topic2Heads));
            
            kafka4net.Tracing.EtwTrace.Marker("/MultipleProducersOneCluster");
        }
Esempio n. 13
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        public async void ReadOffsets()
        {
            kafka4net.Tracing.EtwTrace.Marker("ReadOffsets");

            var sentEvents = new Subject<Message>();
            var topic = "part12." + _rnd.Next();
            VagrantBrokerUtil.CreateTopic(topic,1,1);

            var cluster = new Cluster(_seed2Addresses);
            await cluster.ConnectAsync();
            var producer = new Producer(cluster, new ProducerConfiguration(topic, maxMessageSetSizeInBytes: 1024*1024));
            producer.OnSuccess += e => e.ForEach(sentEvents.OnNext);

            await producer.ConnectAsync();

            // read offsets of empty queue
            var heads = await cluster.FetchPartitionOffsetsAsync(topic, ConsumerLocation.TopicStart);
            var tails = await cluster.FetchPartitionOffsetsAsync(topic, ConsumerLocation.TopicEnd);
            Assert.AreEqual(1, heads.Partitions.Count(), "Expected just one head partition");
            Assert.AreEqual(1, tails.Partitions.Count(), "Expected just one tail partition");
            Assert.AreEqual(0L, heads.NextOffset(heads.Partitions.First()), "Expected start at 0");
            Assert.AreEqual(0L, tails.NextOffset(tails.Partitions.First()), "Expected end at 0");

            // log the broker selected as master
            var brokerMeta = cluster.FindBrokerMetaForPartitionId(topic, heads.Partitions.First());
            _log.Info("Partition Leader is {0}", brokerMeta);


            // saw some inconsistency, so run this a few times.
            const int count = 1100;
            const int loops = 10;
            for (int i = 0; i < loops; i++)
            {
                // NOTE that the configuration for the test machines through vagrant are set to 1MB rolling file segments
                // so we need to generate large messages to force multiple segments to be created.

                // send count messages
                var t = sentEvents.Take(count).ToTask();
                Enumerable.Range(1, count).
                    Select(_ => new Message { Value = new byte[1024] }).
                    ForEach(producer.Send);
                _log.Info("Waiting for {0} sent messages", count);
                await t;

                // re-read offsets after messages published
                await Task.Delay(TimeSpan.FromSeconds(2)); // NOTE: There seems to be a race condition on the Kafka broker that the offsets are not immediately available after getting a successful produce response 
                tails = await cluster.FetchPartitionOffsetsAsync(topic, ConsumerLocation.TopicEnd);
                _log.Info("2:After loop {0} of {1} messages, Next Offset is {2}", i + 1, count, tails.NextOffset(tails.Partitions.First()));
                Assert.AreEqual(count * (i + 1), tails.NextOffset(tails.Partitions.First()), "Expected end at " + count * (i + 1));

            }

            _log.Info("Closing producer");
            await producer.CloseAsync(TimeSpan.FromSeconds(5));

            await Task.Delay(TimeSpan.FromSeconds(1));

            // re-read offsets after messages published
            heads = await cluster.FetchPartitionOffsetsAsync(topic, ConsumerLocation.TopicStart);
            tails = await cluster.FetchPartitionOffsetsAsync(topic, ConsumerLocation.TopicEnd);

            Assert.AreEqual(1, heads.Partitions.Count(), "Expected just one head partition");
            Assert.AreEqual(1, tails.Partitions.Count(), "Expected just one tail partition");
            Assert.AreEqual(0L, heads.NextOffset(heads.Partitions.First()), "Expected start at 0");
            Assert.AreEqual(count*loops, tails.NextOffset(tails.Partitions.First()), "Expected end at " + count);

            kafka4net.Tracing.EtwTrace.Marker("/ReadOffsets");
        }
Esempio n. 14
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        public async void StopAtExplicitOffsetOnEmptyTopic()
        {
            kafka4net.Tracing.EtwTrace.Marker("StopAtExplicitOffsetOnEmptyTopic");
            // create new topic with 3 partitions
            var topic = "part33." + _rnd.Next();
            VagrantBrokerUtil.CreateTopic(topic, 3, 3);

            var offsetFetchCluster = new Cluster(_seed2Addresses);
            await offsetFetchCluster.ConnectAsync();

            await Task.Delay(TimeSpan.FromSeconds(1));
            var offsets = (await offsetFetchCluster.FetchPartitionOffsetsAsync(topic, ConsumerLocation.TopicEnd));
            _log.Info("Sum of offsets {0}. Raw: {1}", offsets.Partitions.Sum(p => offsets.NextOffset(p)), offsets);

            var startStopProvider = new StartAndStopAtExplicitOffsets(offsets, offsets);

            _log.Info("Attempting to consume {0} messages and stop at {1}", 0, offsets);

            var consumer = new Consumer(new ConsumerConfiguration(_seed2Addresses, topic, startStopProvider, stopPosition: startStopProvider));
            var startTime = DateTime.Now;
            var timeout = startTime.AddSeconds(30);
            var messages = await consumer.OnMessageArrived.TakeUntil(timeout).ToList();
            _log.Info("Finished");
            Assert.IsTrue(DateTime.Now < timeout);
            Assert.AreEqual(0, messages.Count);
            consumer.Dispose();

            kafka4net.Tracing.EtwTrace.Marker("/StopAtExplicitOffsetOnEmptyTopic");
        }
Esempio n. 15
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        public async void StartAndStopAtExplicitOffset()
        {
            kafka4net.Tracing.EtwTrace.Marker("StartAndStopAtExplicitOffset");
            // create new topic with 3 partitions
            var topic = "part33." + _rnd.Next();
            VagrantBrokerUtil.CreateTopic(topic, 3, 3);

            // fill it out with 10K messages
            const int count = 10 * 1000;
            var producer = new Producer(_seed2Addresses, new ProducerConfiguration(topic));
            await producer.ConnectAsync();

            var sentMessagesObservable = Observable.FromEvent<Message[]>(evtHandler => producer.OnSuccess += evtHandler, evtHandler => { })
                .SelectMany(msgs => msgs)
                .Take(count)
                .TakeUntil(DateTime.Now.AddSeconds(10))
                .ToList();

            _log.Info("Sending data");
            Enumerable.Range(1, count).
                Select(i => new Message { Value = BitConverter.GetBytes(i) }).
                ForEach(producer.Send);

            var sentMsgs = await sentMessagesObservable;
            _log.Info("Producer sent {0} messages.", sentMsgs.Count);

            _log.Debug("Closing producer");
            await producer.CloseAsync(TimeSpan.FromSeconds(5));

            var offsetFetchCluster = new Cluster(_seed2Addresses);
            await offsetFetchCluster.ConnectAsync();

            await Task.Delay(TimeSpan.FromSeconds(1));
            var offsets = (await offsetFetchCluster.FetchPartitionOffsetsAsync(topic, ConsumerLocation.TopicEnd));
            _log.Info("Sum of offsets {0}. Raw: {1}", offsets.Partitions.Sum(p => offsets.NextOffset(p)), offsets);

            // consume first 300 for each partition
            var offsetStarts = new TopicPartitionOffsets(topic, offsets.GetPartitionsOffset.ToDictionary(pair => pair.Key, pair => pair.Value > 300 ? 300 : pair.Value));
            var offsetStops = new TopicPartitionOffsets(topic, offsets.GetPartitionsOffset.ToDictionary(pair => pair.Key, pair => pair.Value > 600 ? 600 : pair.Value));
            var numMessages = offsetStops.MessagesSince(offsetStarts);
            var startStopProvider = new StartAndStopAtExplicitOffsets(offsetStarts, offsetStops);
            _log.Info("Attempting to consume {0} messages and stop at {1}", numMessages, offsetStops);

            var consumer = new Consumer(new ConsumerConfiguration(_seed2Addresses, topic, startStopProvider, stopPosition: startStopProvider));
            var messages = await consumer.OnMessageArrived.ToList();

            consumer.Dispose();

            Assert.AreEqual(numMessages, messages.Count);

            kafka4net.Tracing.EtwTrace.Marker("/StartAndStopAtExplicitOffset");
        }
Esempio n. 16
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        /// <summary>
        /// Create a new consumer using the specified configuration. See @ConsumerConfiguration
        /// </summary>
        /// <param name="consumerConfig"></param>
        public Consumer(ConsumerConfiguration consumerConfig)
        {
            Configuration = consumerConfig;
            _cluster = new Cluster(consumerConfig.SeedBrokers);
            _cluster.OnThreadHang += e => OnMessageArrivedInput.OnError(e);


            // Low/high watermark implementation
            FlowControl = _flowControlInput.
                Scan(1, (last, current) =>
                {
                    if (current < Configuration.LowWatermark)
                        return 1;
                    if (current > Configuration.HighWatermark)
                        return -1;
                    return last; // While in between watermarks, carry over previous on/off state
                }).
                    DistinctUntilChanged().
                    Select(i => i > 0).
                    Do(f =>FlowControlEnabled = f).
                    Do(f => EtwTrace.Log.ConsumerFlowControl(f ? 1 : 0));

            var onMessage = Observable.Create<ReceivedMessage>(observer =>
            {
                if (Interlocked.CompareExchange(ref _haveSubscriber, 1, 0) == 1)
                    throw new InvalidOperationException("Only one subscriber is allowed. Use OnMessageArrived.Publish().RefCount()");

                // Relay messages from partition to consumer's output
                // Ensure that only single subscriber is allowed because it is important to count
                // outstanding messaged consumed by user
                OnMessageArrivedInput.Subscribe(observer);

                //
                // It is not possible to wait for completion of partition resolution process, so start it asynchronously.
                // This means that OnMessageArrived.Subscribe() will complete when consumer is not actually connected yet.
                //
                Task.Run(async () =>
                {
                    try 
                    {
                        await _cluster.ConnectAsync();
                        await SubscribeClient();
                        EtwTrace.Log.ConsumerStarted(GetHashCode(), Topic);
                        _connectionComplete.TrySetResult(true);

                        // check that we actually got any partitions subscribed
                        if (_topicPartitions.Count == 0)
                            OnMessageArrivedInput.OnCompleted();
                    }
                    catch (Exception e)
                    {
                        _connectionComplete.TrySetException(e);
                        OnMessageArrivedInput.OnError(e);
                    }
                });

                // upon unsubscribe
                return Disposable.Create(() => _partitionsSubscription.Values.ForEach(s=>s.Dispose()));
            });

            if (Configuration.UseFlowControl) { 
            // Increment counter of messages sent for processing
                onMessage = onMessage.Do(msg =>
                {
                    var count = Interlocked.Increment(ref _outstandingMessageProcessingCount);
                    _flowControlInput.OnNext(count);
                });
            }

            // handle stop condition
            onMessage = onMessage.Do(message =>
            {
                // check if this partition is done per the condition passed in configuration. If so, unsubscribe it.
                bool partitionDone = (Configuration.StopPosition.IsPartitionConsumingComplete(message));
                IDisposable partitionSubscription;
                if (partitionDone && _partitionsSubscription.TryGetValue(message.Partition, out partitionSubscription))
                {
                    _partitionsSubscription.Remove(message.Partition);
                    // calling Dispose here will cause the OnTopicPartitionComplete method to be called when it is completed.
                    partitionSubscription.Dispose();
                }
            });

            OnMessageArrived = onMessage.
                // isolate driver from user code misbehave
                ObserveOn(Configuration.OutgoingScheduler);

            // If permanent error within any single partition, fail the whole consumer (intentionally). 
            // Do not try to keep going (failfast principle).
            _cluster.PartitionStateChanges.
                Where(s => s.ErrorCode.IsPermanentFailure()).
                Subscribe(state => OnMessageArrivedInput.OnError(new PartitionFailedException(state.Topic, state.PartitionId, state.ErrorCode)));
        }