Class KafkaConsumer<K,​V>

  • All Implemented Interfaces:
    java.io.Closeable, java.lang.AutoCloseable, Consumer<K,​V>

    public class KafkaConsumer<K,​V>
    extends java.lang.Object
    implements Consumer<K,​V>
    A client that consumes records from a Kafka cluster.

    This client transparently handles the failure of Kafka brokers, and transparently adapts as topic partitions it fetches migrate within the cluster. This client also interacts with the broker to allow groups of consumers to load balance consumption using consumer groups.

    The consumer maintains TCP connections to the necessary brokers to fetch data. Failure to close the consumer after use will leak these connections. The consumer is not thread-safe. See Multi-threaded Processing for more details.

    Cross-Version Compatibility

    This client can communicate with brokers that are version 0.10.0 or newer. Older or newer brokers may not support certain features. For example, 0.10.0 brokers do not support offsetsForTimes, because this feature was added in version 0.10.1. You will receive an UnsupportedVersionException when invoking an API that is not available on the running broker version.

    Offsets and Consumer Position

    Kafka maintains a numerical offset for each record in a partition. This offset acts as a unique identifier of a record within that partition, and also denotes the position of the consumer in the partition. For example, a consumer which is at position 5 has consumed records with offsets 0 through 4 and will next receive the record with offset 5. There are actually two notions of position relevant to the user of the consumer:

    The position of the consumer gives the offset of the next record that will be given out. It will be one larger than the highest offset the consumer has seen in that partition. It automatically advances every time the consumer receives messages in a call to poll(Duration).

    The committed position is the last offset that has been stored securely. Should the process fail and restart, this is the offset that the consumer will recover to. The consumer can either automatically commit offsets periodically; or it can choose to control this committed position manually by calling one of the commit APIs (e.g. commitSync and commitAsync).

    This distinction gives the consumer control over when a record is considered consumed. It is discussed in further detail below.

    Consumer Groups and Topic Subscriptions

    Kafka uses the concept of consumer groups to allow a pool of processes to divide the work of consuming and processing records. These processes can either be running on the same machine or they can be distributed over many machines to provide scalability and fault tolerance for processing. All consumer instances sharing the same group.id will be part of the same consumer group.

    Each consumer in a group can dynamically set the list of topics it wants to subscribe to through one of the subscribe APIs. Kafka will deliver each message in the subscribed topics to one process in each consumer group. This is achieved by balancing the partitions between all members in the consumer group so that each partition is assigned to exactly one consumer in the group. So if there is a topic with four partitions, and a consumer group with two processes, each process would consume from two partitions.

    Membership in a consumer group is maintained dynamically: if a process fails, the partitions assigned to it will be reassigned to other consumers in the same group. Similarly, if a new consumer joins the group, partitions will be moved from existing consumers to the new one. This is known as rebalancing the group and is discussed in more detail below. Group rebalancing is also used when new partitions are added to one of the subscribed topics or when a new topic matching a subscribed regex is created. The group will automatically detect the new partitions through periodic metadata refreshes and assign them to members of the group.

    Conceptually you can think of a consumer group as being a single logical subscriber that happens to be made up of multiple processes. As a multi-subscriber system, Kafka naturally supports having any number of consumer groups for a given topic without duplicating data (additional consumers are actually quite cheap).

    This is a slight generalization of the functionality that is common in messaging systems. To get semantics similar to a queue in a traditional messaging system all processes would be part of a single consumer group and hence record delivery would be balanced over the group like with a queue. Unlike a traditional messaging system, though, you can have multiple such groups. To get semantics similar to pub-sub in a traditional messaging system each process would have its own consumer group, so each process would subscribe to all the records published to the topic.

    In addition, when group reassignment happens automatically, consumers can be notified through a ConsumerRebalanceListener, which allows them to finish necessary application-level logic such as state cleanup, manual offset commits, etc. See Storing Offsets Outside Kafka for more details.

    It is also possible for the consumer to manually assign specific partitions (similar to the older "simple" consumer) using assign(Collection). In this case, dynamic partition assignment and consumer group coordination will be disabled.

    Detecting Consumer Failures

    After subscribing to a set of topics, the consumer will automatically join the group when poll(Duration) is invoked. The poll API is designed to ensure consumer liveness. As long as you continue to call poll, the consumer will stay in the group and continue to receive messages from the partitions it was assigned. Underneath the covers, the consumer sends periodic heartbeats to the server. If the consumer crashes or is unable to send heartbeats for a duration of session.timeout.ms, then the consumer will be considered dead and its partitions will be reassigned.

    It is also possible that the consumer could encounter a "livelock" situation where it is continuing to send heartbeats, but no progress is being made. To prevent the consumer from holding onto its partitions indefinitely in this case, we provide a liveness detection mechanism using the max.poll.interval.ms setting. Basically if you don't call poll at least as frequently as the configured max interval, then the client will proactively leave the group so that another consumer can take over its partitions. When this happens, you may see an offset commit failure (as indicated by a CommitFailedException thrown from a call to commitSync()). This is a safety mechanism which guarantees that only active members of the group are able to commit offsets. So to stay in the group, you must continue to call poll.

    The consumer provides two configuration settings to control the behavior of the poll loop:

    1. max.poll.interval.ms: By increasing the interval between expected polls, you can give the consumer more time to handle a batch of records returned from poll(Duration). The drawback is that increasing this value may delay a group rebalance since the consumer will only join the rebalance inside the call to poll. You can use this setting to bound the time to finish a rebalance, but you risk slower progress if the consumer cannot actually call poll often enough.
    2. max.poll.records: Use this setting to limit the total records returned from a single call to poll. This can make it easier to predict the maximum that must be handled within each poll interval. By tuning this value, you may be able to reduce the poll interval, which will reduce the impact of group rebalancing.

    For use cases where message processing time varies unpredictably, neither of these options may be sufficient. The recommended way to handle these cases is to move message processing to another thread, which allows the consumer to continue calling poll while the processor is still working. Some care must be taken to ensure that committed offsets do not get ahead of the actual position. Typically, you must disable automatic commits and manually commit processed offsets for records only after the thread has finished handling them (depending on the delivery semantics you need). Note also that you will need to pause the partition so that no new records are received from poll until after thread has finished handling those previously returned.

    Usage Examples

    The consumer APIs offer flexibility to cover a variety of consumption use cases. Here are some examples to demonstrate how to use them.

    Automatic Offset Committing

    This example demonstrates a simple usage of Kafka's consumer api that relies on automatic offset committing.

         Properties props = new Properties();
         props.setProperty("bootstrap.servers", "localhost:9092");
         props.setProperty("group.id", "test");
         props.setProperty("enable.auto.commit", "true");
         props.setProperty("auto.commit.interval.ms", "1000");
         props.setProperty("key.deserializer", "org.apache.kafka.common.serialization.StringDeserializer");
         props.setProperty("value.deserializer", "org.apache.kafka.common.serialization.StringDeserializer");
         KafkaConsumer<String, String> consumer = new KafkaConsumer<>(props);
         consumer.subscribe(Arrays.asList("foo", "bar"));
         while (true) {
             ConsumerRecords<String, String> records = consumer.poll(Duration.ofMillis(100));
             for (ConsumerRecord<String, String> record : records)
                 System.out.printf("offset = %d, key = %s, value = %s%n", record.offset(), record.key(), record.value());
         }
     
    The connection to the cluster is bootstrapped by specifying a list of one or more brokers to contact using the configuration >bootstrap.servers. This list is just used to discover the rest of the brokers in the cluster and need not be an exhaustive list of servers in the cluster (though you may want to specify more than one in case there are servers down when the client is connecting).

    Setting enable.auto.commit means that offsets are committed automatically with a frequency controlled by the config auto.commit.interval.ms.

    In this example the consumer is subscribing to the topics foo and bar as part of a group of consumers called test as configured with group.id.

    The deserializer settings specify how to turn bytes into objects. For example, by specifying string deserializers, we are saying that our record's key and value will just be simple strings.

    Manual Offset Control

    Instead of relying on the consumer to periodically commit consumed offsets, users can also control when records should be considered as consumed and hence commit their offsets. This is useful when the consumption of the messages is coupled with some processing logic and hence a message should not be considered as consumed until it is completed processing.

         Properties props = new Properties();
         props.setProperty("bootstrap.servers", "localhost:9092");
         props.setProperty("group.id", "test");
         props.setProperty("enable.auto.commit", "false");
         props.setProperty("key.deserializer", "org.apache.kafka.common.serialization.StringDeserializer");
         props.setProperty("value.deserializer", "org.apache.kafka.common.serialization.StringDeserializer");
         KafkaConsumer<String, String> consumer = new KafkaConsumer<>(props);
         consumer.subscribe(Arrays.asList("foo", "bar"));
         final int minBatchSize = 200;
         List<ConsumerRecord<String, String>> buffer = new ArrayList<>();
         while (true) {
             ConsumerRecords<String, String> records = consumer.poll(Duration.ofMillis(100));
             for (ConsumerRecord<String, String> record : records) {
                 buffer.add(record);
             }
             if (buffer.size() >= minBatchSize) {
                 insertIntoDb(buffer);
                 consumer.commitSync();
                 buffer.clear();
             }
         }
     
    In this example we will consume a batch of records and batch them up in memory. When we have enough records batched, we will insert them into a database. If we allowed offsets to auto commit as in the previous example, records would be considered consumed after they were returned to the user in poll. It would then be possible for our process to fail after batching the records, but before they had been inserted into the database.

    To avoid this, we will manually commit the offsets only after the corresponding records have been inserted into the database. This gives us exact control of when a record is considered consumed. This raises the opposite possibility: the process could fail in the interval after the insert into the database but before the commit (even though this would likely just be a few milliseconds, it is a possibility). In this case the process that took over consumption would consume from last committed offset and would repeat the insert of the last batch of data. Used in this way Kafka provides what is often called "at-least-once" delivery guarantees, as each record will likely be delivered one time but in failure cases could be duplicated.

    Note: Using automatic offset commits can also give you "at-least-once" delivery, but the requirement is that you must consume all data returned from each call to poll(Duration) before any subsequent calls, or before closing the consumer. If you fail to do either of these, it is possible for the committed offset to get ahead of the consumed position, which results in missing records. The advantage of using manual offset control is that you have direct control over when a record is considered "consumed."

    The above example uses commitSync to mark all received records as committed. In some cases you may wish to have even finer control over which records have been committed by specifying an offset explicitly. In the example below we commit offset after we finish handling the records in each partition.

         try {
             while(running) {
                 ConsumerRecords<String, String> records = consumer.poll(Duration.ofMillis(Long.MAX_VALUE));
                 for (TopicPartition partition : records.partitions()) {
                     List<ConsumerRecord<String, String>> partitionRecords = records.records(partition);
                     for (ConsumerRecord<String, String> record : partitionRecords) {
                         System.out.println(record.offset() + ": " + record.value());
                     }
                     long lastOffset = partitionRecords.get(partitionRecords.size() - 1).offset();
                     consumer.commitSync(Collections.singletonMap(partition, new OffsetAndMetadata(lastOffset + 1)));
                 }
             }
         } finally {
           consumer.close();
         }
     
    Note: The committed offset should always be the offset of the next message that your application will read. Thus, when calling commitSync(offsets) you should add one to the offset of the last message processed.

    Manual Partition Assignment

    In the previous examples, we subscribed to the topics we were interested in and let Kafka dynamically assign a fair share of the partitions for those topics based on the active consumers in the group. However, in some cases you may need finer control over the specific partitions that are assigned. For example:

    • If the process is maintaining some kind of local state associated with that partition (like a local on-disk key-value store), then it should only get records for the partition it is maintaining on disk.
    • If the process itself is highly available and will be restarted if it fails (perhaps using a cluster management framework like YARN, Mesos, or AWS facilities, or as part of a stream processing framework). In this case there is no need for Kafka to detect the failure and reassign the partition since the consuming process will be restarted on another machine.

    To use this mode, instead of subscribing to the topic using subscribe, you just call assign(Collection) with the full list of partitions that you want to consume.

         String topic = "foo";
         TopicPartition partition0 = new TopicPartition(topic, 0);
         TopicPartition partition1 = new TopicPartition(topic, 1);
         consumer.assign(Arrays.asList(partition0, partition1));
     
    Once assigned, you can call poll in a loop, just as in the preceding examples to consume records. The group that the consumer specifies is still used for committing offsets, but now the set of partitions will only change with another call to assign. Manual partition assignment does not use group coordination, so consumer failures will not cause assigned partitions to be rebalanced. Each consumer acts independently even if it shares a groupId with another consumer. To avoid offset commit conflicts, you should usually ensure that the groupId is unique for each consumer instance.

    Note that it isn't possible to mix manual partition assignment (i.e. using assign) with dynamic partition assignment through topic subscription (i.e. using subscribe).

    Storing Offsets Outside Kafka

    The consumer application need not use Kafka's built-in offset storage, it can store offsets in a store of its own choosing. The primary use case for this is allowing the application to store both the offset and the results of the consumption in the same system in a way that both the results and offsets are stored atomically. This is not always possible, but when it is it will make the consumption fully atomic and give "exactly once" semantics that are stronger than the default "at-least once" semantics you get with Kafka's offset commit functionality.

    Here are a couple of examples of this type of usage:

    • If the results of the consumption are being stored in a relational database, storing the offset in the database as well can allow committing both the results and offset in a single transaction. Thus either the transaction will succeed and the offset will be updated based on what was consumed or the result will not be stored and the offset won't be updated.
    • If the results are being stored in a local store it may be possible to store the offset there as well. For example a search index could be built by subscribing to a particular partition and storing both the offset and the indexed data together. If this is done in a way that is atomic, it is often possible to have it be the case that even if a crash occurs that causes unsync'd data to be lost, whatever is left has the corresponding offset stored as well. This means that in this case the indexing process that comes back having lost recent updates just resumes indexing from what it has ensuring that no updates are lost.

    Each record comes with its own offset, so to manage your own offset you just need to do the following:

    This type of usage is simplest when the partition assignment is also done manually (this would be likely in the search index use case described above). If the partition assignment is done automatically special care is needed to handle the case where partition assignments change. This can be done by providing a ConsumerRebalanceListener instance in the call to subscribe(Collection, ConsumerRebalanceListener) and subscribe(Pattern, ConsumerRebalanceListener). For example, when partitions are taken from a consumer the consumer will want to commit its offset for those partitions by implementing ConsumerRebalanceListener.onPartitionsRevoked(Collection). When partitions are assigned to a consumer, the consumer will want to look up the offset for those new partitions and correctly initialize the consumer to that position by implementing ConsumerRebalanceListener.onPartitionsAssigned(Collection).

    Another common use for ConsumerRebalanceListener is to flush any caches the application maintains for partitions that are moved elsewhere.

    Controlling The Consumer's Position

    In most use cases the consumer will simply consume records from beginning to end, periodically committing its position (either automatically or manually). However Kafka allows the consumer to manually control its position, moving forward or backwards in a partition at will. This means a consumer can re-consume older records, or skip to the most recent records without actually consuming the intermediate records.

    There are several instances where manually controlling the consumer's position can be useful.

    One case is for time-sensitive record processing it may make sense for a consumer that falls far enough behind to not attempt to catch up processing all records, but rather just skip to the most recent records.

    Another use case is for a system that maintains local state as described in the previous section. In such a system the consumer will want to initialize its position on start-up to whatever is contained in the local store. Likewise if the local state is destroyed (say because the disk is lost) the state may be recreated on a new machine by re-consuming all the data and recreating the state (assuming that Kafka is retaining sufficient history).

    Kafka allows specifying the position using seek(TopicPartition, long) to specify the new position. Special methods for seeking to the earliest and latest offset the server maintains are also available ( seekToBeginning(Collection) and seekToEnd(Collection) respectively).

    Consumption Flow Control

    If a consumer is assigned multiple partitions to fetch data from, it will try to consume from all of them at the same time, effectively giving these partitions the same priority for consumption. However in some cases consumers may want to first focus on fetching from some subset of the assigned partitions at full speed, and only start fetching other partitions when these partitions have few or no data to consume.

    One of such cases is stream processing, where processor fetches from two topics and performs the join on these two streams. When one of the topics is long lagging behind the other, the processor would like to pause fetching from the ahead topic in order to get the lagging stream to catch up. Another example is bootstraping upon consumer starting up where there are a lot of history data to catch up, the applications usually want to get the latest data on some of the topics before consider fetching other topics.

    Kafka supports dynamic controlling of consumption flows by using pause(Collection) and resume(Collection) to pause the consumption on the specified assigned partitions and resume the consumption on the specified paused partitions respectively in the future poll(Duration) calls.

    Reading Transactional Messages

    Transactions were introduced in Kafka 0.11.0 wherein applications can write to multiple topics and partitions atomically. In order for this to work, consumers reading from these partitions should be configured to only read committed data. This can be achieved by setting the isolation.level=read_committed in the consumer's configuration.

    In read_committed mode, the consumer will read only those transactional messages which have been successfully committed. It will continue to read non-transactional messages as before. There is no client-side buffering in read_committed mode. Instead, the end offset of a partition for a read_committed consumer would be the offset of the first message in the partition belonging to an open transaction. This offset is known as the 'Last Stable Offset'(LSO).

    A read_committed consumer will only read up to the LSO and filter out any transactional messages which have been aborted. The LSO also affects the behavior of seekToEnd(Collection) and endOffsets(Collection) for read_committed consumers, details of which are in each method's documentation. Finally, the fetch lag metrics are also adjusted to be relative to the LSO for read_committed consumers.

    Partitions with transactional messages will include commit or abort markers which indicate the result of a transaction. There markers are not returned to applications, yet have an offset in the log. As a result, applications reading from topics with transactional messages will see gaps in the consumed offsets. These missing messages would be the transaction markers, and they are filtered out for consumers in both isolation levels. Additionally, applications using read_committed consumers may also see gaps due to aborted transactions, since those messages would not be returned by the consumer and yet would have valid offsets.

    Multi-threaded Processing

    The Kafka consumer is NOT thread-safe. All network I/O happens in the thread of the application making the call. It is the responsibility of the user to ensure that multi-threaded access is properly synchronized. Un-synchronized access will result in ConcurrentModificationException.

    The only exception to this rule is wakeup(), which can safely be used from an external thread to interrupt an active operation. In this case, a WakeupException will be thrown from the thread blocking on the operation. This can be used to shutdown the consumer from another thread. The following snippet shows the typical pattern:

     public class KafkaConsumerRunner implements Runnable {
         private final AtomicBoolean closed = new AtomicBoolean(false);
         private final KafkaConsumer consumer;
    
         public KafkaConsumerRunner(KafkaConsumer consumer) {
           this.consumer = consumer;
         }
    
         @Override
         public void run() {
             try {
                 consumer.subscribe(Arrays.asList("topic"));
                 while (!closed.get()) {
                     ConsumerRecords records = consumer.poll(Duration.ofMillis(10000));
                     // Handle new records
                 }
             } catch (WakeupException e) {
                 // Ignore exception if closing
                 if (!closed.get()) throw e;
             } finally {
                 consumer.close();
             }
         }
    
         // Shutdown hook which can be called from a separate thread
         public void shutdown() {
             closed.set(true);
             consumer.wakeup();
         }
     }
     
    Then in a separate thread, the consumer can be shutdown by setting the closed flag and waking up the consumer.

         closed.set(true);
         consumer.wakeup();
     

    Note that while it is possible to use thread interrupts instead of wakeup() to abort a blocking operation (in which case, InterruptException will be raised), we discourage their use since they may cause a clean shutdown of the consumer to be aborted. Interrupts are mainly supported for those cases where using wakeup() is impossible, e.g. when a consumer thread is managed by code that is unaware of the Kafka client.

    We have intentionally avoided implementing a particular threading model for processing. This leaves several options for implementing multi-threaded processing of records.

    1. One Consumer Per Thread

    A simple option is to give each thread its own consumer instance. Here are the pros and cons of this approach:
    • PRO: It is the easiest to implement
    • PRO: It is often the fastest as no inter-thread co-ordination is needed
    • PRO: It makes in-order processing on a per-partition basis very easy to implement (each thread just processes messages in the order it receives them).
    • CON: More consumers means more TCP connections to the cluster (one per thread). In general Kafka handles connections very efficiently so this is generally a small cost.
    • CON: Multiple consumers means more requests being sent to the server and slightly less batching of data which can cause some drop in I/O throughput.
    • CON: The number of total threads across all processes will be limited by the total number of partitions.

    2. Decouple Consumption and Processing

    Another alternative is to have one or more consumer threads that do all data consumption and hands off ConsumerRecords instances to a blocking queue consumed by a pool of processor threads that actually handle the record processing. This option likewise has pros and cons:
    • PRO: This option allows independently scaling the number of consumers and processors. This makes it possible to have a single consumer that feeds many processor threads, avoiding any limitation on partitions.
    • CON: Guaranteeing order across the processors requires particular care as the threads will execute independently an earlier chunk of data may actually be processed after a later chunk of data just due to the luck of thread execution timing. For processing that has no ordering requirements this is not a problem.
    • CON: Manually committing the position becomes harder as it requires that all threads co-ordinate to ensure that processing is complete for that partition.
    There are many possible variations on this approach. For example each processor thread can have its own queue, and the consumer threads can hash into these queues using the TopicPartition to ensure in-order consumption and simplify commit.
    • Constructor Detail

      • KafkaConsumer

        public KafkaConsumer​(java.util.Map<java.lang.String,​java.lang.Object> configs)
        A consumer is instantiated by providing a set of key-value pairs as configuration. Valid configuration strings are documented here. Values can be either strings or objects of the appropriate type (for example a numeric configuration would accept either the string "42" or the integer 42).

        Valid configuration strings are documented at ConsumerConfig.

        Note: after creating a KafkaConsumer you must always close() it to avoid resource leaks.

        Parameters:
        configs - The consumer configs
      • KafkaConsumer

        public KafkaConsumer​(java.util.Map<java.lang.String,​java.lang.Object> configs,
                             Deserializer<K> keyDeserializer,
                             Deserializer<V> valueDeserializer)
        A consumer is instantiated by providing a set of key-value pairs as configuration, and a key and a value Deserializer.

        Valid configuration strings are documented at ConsumerConfig.

        Note: after creating a KafkaConsumer you must always close() it to avoid resource leaks.

        Parameters:
        configs - The consumer configs
        keyDeserializer - The deserializer for key that implements Deserializer. The configure() method won't be called in the consumer when the deserializer is passed in directly.
        valueDeserializer - The deserializer for value that implements Deserializer. The configure() method won't be called in the consumer when the deserializer is passed in directly.
      • KafkaConsumer

        public KafkaConsumer​(java.util.Properties properties)
        A consumer is instantiated by providing a Properties object as configuration.

        Valid configuration strings are documented at ConsumerConfig.

        Note: after creating a KafkaConsumer you must always close() it to avoid resource leaks.

        Parameters:
        properties - The consumer configuration properties
      • KafkaConsumer

        public KafkaConsumer​(java.util.Properties properties,
                             Deserializer<K> keyDeserializer,
                             Deserializer<V> valueDeserializer)
        A consumer is instantiated by providing a Properties object as configuration, and a key and a value Deserializer.

        Valid configuration strings are documented at ConsumerConfig.

        Note: after creating a KafkaConsumer you must always close() it to avoid resource leaks.

        Parameters:
        properties - The consumer configuration properties
        keyDeserializer - The deserializer for key that implements Deserializer. The configure() method won't be called in the consumer when the deserializer is passed in directly.
        valueDeserializer - The deserializer for value that implements Deserializer. The configure() method won't be called in the consumer when the deserializer is passed in directly.
    • Method Detail

      • assignment

        public java.util.Set<TopicPartition> assignment()
        Get the set of partitions currently assigned to this consumer. If subscription happened by directly assigning partitions using assign(Collection) then this will simply return the same partitions that were assigned. If topic subscription was used, then this will give the set of topic partitions currently assigned to the consumer (which may be none if the assignment hasn't happened yet, or the partitions are in the process of getting reassigned).
        Specified by:
        assignment in interface Consumer<K,​V>
        Returns:
        The set of partitions currently assigned to this consumer
        See Also:
        assignment()
      • subscribe

        public void subscribe​(java.util.Collection<java.lang.String> topics,
                              ConsumerRebalanceListener listener)
        Subscribe to the given list of topics to get dynamically assigned partitions. Topic subscriptions are not incremental. This list will replace the current assignment (if there is one). Note that it is not possible to combine topic subscription with group management with manual partition assignment through assign(Collection). If the given list of topics is empty, it is treated the same as unsubscribe().

        As part of group management, the consumer will keep track of the list of consumers that belong to a particular group and will trigger a rebalance operation if any one of the following events are triggered:

        • Number of partitions change for any of the subscribed topics
        • A subscribed topic is created or deleted
        • An existing member of the consumer group is shutdown or fails
        • A new member is added to the consumer group

        When any of these events are triggered, the provided listener will be invoked first to indicate that the consumer's assignment has been revoked, and then again when the new assignment has been received. Note that rebalances will only occur during an active call to poll(Duration), so callbacks will also only be invoked during that time. The provided listener will immediately override any listener set in a previous call to subscribe. It is guaranteed, however, that the partitions revoked/assigned through this interface are from topics subscribed in this call. See ConsumerRebalanceListener for more details.

        Specified by:
        subscribe in interface Consumer<K,​V>
        Parameters:
        topics - The list of topics to subscribe to
        listener - Non-null listener instance to get notifications on partition assignment/revocation for the subscribed topics
        Throws:
        java.lang.IllegalArgumentException - If topics is null or contains null or empty elements, or if listener is null
        java.lang.IllegalStateException - If subscribe() is called previously with pattern, or assign is called previously (without a subsequent call to unsubscribe()), or if not configured at-least one partition assignment strategy
        See Also:
        subscribe(Collection, ConsumerRebalanceListener)
      • subscribe

        public void subscribe​(java.util.Collection<java.lang.String> topics)
        Subscribe to the given list of topics to get dynamically assigned partitions. Topic subscriptions are not incremental. This list will replace the current assignment (if there is one). It is not possible to combine topic subscription with group management with manual partition assignment through assign(Collection). If the given list of topics is empty, it is treated the same as unsubscribe().

        This is a short-hand for subscribe(Collection, ConsumerRebalanceListener), which uses a no-op listener. If you need the ability to seek to particular offsets, you should prefer subscribe(Collection, ConsumerRebalanceListener), since group rebalances will cause partition offsets to be reset. You should also provide your own listener if you are doing your own offset management since the listener gives you an opportunity to commit offsets before a rebalance finishes.

        Specified by:
        subscribe in interface Consumer<K,​V>
        Parameters:
        topics - The list of topics to subscribe to
        Throws:
        java.lang.IllegalArgumentException - If topics is null or contains null or empty elements
        java.lang.IllegalStateException - If subscribe() is called previously with pattern, or assign is called previously (without a subsequent call to unsubscribe()), or if not configured at-least one partition assignment strategy
        See Also:
        subscribe(Collection)
      • subscribe

        public void subscribe​(java.util.List<java.lang.String> topics)
        Retained for backward binary compatibility See subscribe(Collection)
        Specified by:
        subscribe in interface Consumer<K,​V>
      • subscribe

        public void subscribe​(java.util.regex.Pattern pattern,
                              ConsumerRebalanceListener listener)
        Subscribe to all topics matching specified pattern to get dynamically assigned partitions. The pattern matching will be done periodically against all topics existing at the time of check. This can be controlled through the metadata.max.age.ms configuration: by lowering the max metadata age, the consumer will refresh metadata more often and check for matching topics.

        See subscribe(Collection, ConsumerRebalanceListener) for details on the use of the ConsumerRebalanceListener. Generally rebalances are triggered when there is a change to the topics matching the provided pattern and when consumer group membership changes. Group rebalances only take place during an active call to poll(Duration).

        Specified by:
        subscribe in interface Consumer<K,​V>
        Parameters:
        pattern - Pattern to subscribe to
        listener - Non-null listener instance to get notifications on partition assignment/revocation for the subscribed topics
        Throws:
        java.lang.IllegalArgumentException - If pattern or listener is null
        java.lang.IllegalStateException - If subscribe() is called previously with topics, or assign is called previously (without a subsequent call to unsubscribe()), or if not configured at-least one partition assignment strategy
        See Also:
        subscribe(Pattern, ConsumerRebalanceListener)
      • subscribe

        public void subscribe​(java.util.regex.Pattern pattern)
        Subscribe to all topics matching specified pattern to get dynamically assigned partitions. The pattern matching will be done periodically against topics existing at the time of check.

        This is a short-hand for subscribe(Pattern, ConsumerRebalanceListener), which uses a no-op listener. If you need the ability to seek to particular offsets, you should prefer subscribe(Pattern, ConsumerRebalanceListener), since group rebalances will cause partition offsets to be reset. You should also provide your own listener if you are doing your own offset management since the listener gives you an opportunity to commit offsets before a rebalance finishes.

        Specified by:
        subscribe in interface Consumer<K,​V>
        Parameters:
        pattern - Pattern to subscribe to
        Throws:
        java.lang.IllegalArgumentException - If pattern is null
        java.lang.IllegalStateException - If subscribe() is called previously with topics, or assign is called previously (without a subsequent call to unsubscribe()), or if not configured at-least one partition assignment strategy
        See Also:
        subscribe(Pattern)
      • assign

        public void assign​(java.util.Collection<TopicPartition> partitions)
        Manually assign a list of partitions to this consumer. This interface does not allow for incremental assignment and will replace the previous assignment (if there is one).

        If the given list of topic partitions is empty, it is treated the same as unsubscribe().

        Manual topic assignment through this method does not use the consumer's group management functionality. As such, there will be no rebalance operation triggered when group membership or cluster and topic metadata change. Note that it is not possible to use both manual partition assignment with assign(Collection) and group assignment with subscribe(Collection, ConsumerRebalanceListener).

        If auto-commit is enabled, an async commit (based on the old assignment) will be triggered before the new assignment replaces the old one.

        Specified by:
        assign in interface Consumer<K,​V>
        Parameters:
        partitions - The list of partitions to assign this consumer
        Throws:
        java.lang.IllegalArgumentException - If partitions is null or contains null or empty topics
        java.lang.IllegalStateException - If subscribe() is called previously with topics or pattern (without a subsequent call to unsubscribe())
        See Also:
        assign(Collection)
      • poll

        @Deprecated
        public ConsumerRecords<K,​V> poll​(long timeoutMs)
        Deprecated.
        Since 2.0. Use poll(Duration), which does not block beyond the timeout awaiting partition assignment. See KIP-266 for more information.
        Fetch data for the topics or partitions specified using one of the subscribe/assign APIs. It is an error to not have subscribed to any topics or partitions before polling for data.

        On each poll, consumer will try to use the last consumed offset as the starting offset and fetch sequentially. The last consumed offset can be manually set through seek(TopicPartition, long) or automatically set as the last committed offset for the subscribed list of partitions

        Specified by:
        poll in interface Consumer<K,​V>
        Parameters:
        timeoutMs - The time, in milliseconds, spent waiting in poll if data is not available in the buffer. If 0, returns immediately with any records that are available currently in the buffer, else returns empty. Must not be negative.
        Returns:
        map of topic to records since the last fetch for the subscribed list of topics and partitions
        Throws:
        InvalidOffsetException - if the offset for a partition or set of partitions is undefined or out of range and no offset reset policy has been configured
        WakeupException - if wakeup() is called before or while this function is called
        InterruptException - if the calling thread is interrupted before or while this function is called
        AuthenticationException - if authentication fails. See the exception for more details
        AuthorizationException - if caller lacks Read access to any of the subscribed topics or to the configured groupId. See the exception for more details
        KafkaException - for any other unrecoverable errors (e.g. invalid groupId or session timeout, errors deserializing key/value pairs, or any new error cases in future versions)
        java.lang.IllegalArgumentException - if the timeout value is negative
        java.lang.IllegalStateException - if the consumer is not subscribed to any topics or manually assigned any partitions to consume from
        FencedInstanceIdException - if this consumer instance gets fenced by broker.
        See Also:
        poll(long)
      • poll

        public ConsumerRecords<K,​V> poll​(java.time.Duration timeout)
        Fetch data for the topics or partitions specified using one of the subscribe/assign APIs. It is an error to not have subscribed to any topics or partitions before polling for data.

        On each poll, consumer will try to use the last consumed offset as the starting offset and fetch sequentially. The last consumed offset can be manually set through seek(TopicPartition, long) or automatically set as the last committed offset for the subscribed list of partitions

        This method returns immediately if there are records available. Otherwise, it will await the passed timeout. If the timeout expires, an empty record set will be returned. Note that this method may block beyond the timeout in order to execute custom ConsumerRebalanceListener callbacks.

        Specified by:
        poll in interface Consumer<K,​V>
        Parameters:
        timeout - The maximum time to block (must not be greater than Long.MAX_VALUE milliseconds)
        Returns:
        map of topic to records since the last fetch for the subscribed list of topics and partitions
        Throws:
        InvalidOffsetException - if the offset for a partition or set of partitions is undefined or out of range and no offset reset policy has been configured
        WakeupException - if wakeup() is called before or while this function is called
        InterruptException - if the calling thread is interrupted before or while this function is called
        AuthenticationException - if authentication fails. See the exception for more details
        AuthorizationException - if caller lacks Read access to any of the subscribed topics or to the configured groupId. See the exception for more details
        KafkaException - for any other unrecoverable errors (e.g. invalid groupId or session timeout, errors deserializing key/value pairs, your rebalance callback thrown exceptions, or any new error cases in future versions)
        java.lang.IllegalArgumentException - if the timeout value is negative
        java.lang.IllegalStateException - if the consumer is not subscribed to any topics or manually assigned any partitions to consume from
        java.lang.ArithmeticException - if the timeout is greater than Long.MAX_VALUE milliseconds.
        InvalidTopicException - if the current subscription contains any invalid topic (per Topic.validate(String))
        UnsupportedVersionException - if the consumer attempts to fetch stable offsets when the broker doesn't support this feature
        FencedInstanceIdException - if this consumer instance gets fenced by broker.
        See Also:
        poll(Duration)
      • commitSync

        public void commitSync()
        Commit offsets returned on the last poll() for all the subscribed list of topics and partitions.

        This commits offsets only to Kafka. The offsets committed using this API will be used on the first fetch after every rebalance and also on startup. As such, if you need to store offsets in anything other than Kafka, this API should not be used.

        This is a synchronous commit and will block until either the commit succeeds, an unrecoverable error is encountered (in which case it is thrown to the caller), or the timeout specified by default.api.timeout.ms expires (in which case a TimeoutException is thrown to the caller).

        Note that asynchronous offset commits sent previously with the commitAsync(OffsetCommitCallback) (or similar) are guaranteed to have their callbacks invoked prior to completion of this method.

        Specified by:
        commitSync in interface Consumer<K,​V>
        Throws:
        CommitFailedException - if the commit failed and cannot be retried. This fatal error can only occur if you are using automatic group management with subscribe(Collection), or if there is an active group with the same group.id which is using group management. In such cases, when you are trying to commit to partitions that are no longer assigned to this consumer because the consumer is for example no longer part of the group this exception would be thrown.
        RebalanceInProgressException - if the consumer instance is in the middle of a rebalance so it is not yet determined which partitions would be assigned to the consumer. In such cases you can first complete the rebalance by calling poll(Duration) and commit can be reconsidered afterwards. NOTE when you reconsider committing after the rebalance, the assigned partitions may have changed, and also for those partitions that are still assigned their fetch positions may have changed too if more records are returned from the poll(Duration) call.
        WakeupException - if wakeup() is called before or while this function is called
        InterruptException - if the calling thread is interrupted before or while this function is called
        AuthenticationException - if authentication fails. See the exception for more details
        AuthorizationException - if not authorized to the topic or to the configured groupId. See the exception for more details
        KafkaException - for any other unrecoverable errors (e.g. if offset metadata is too large or if the topic does not exist).
        TimeoutException - if the timeout specified by default.api.timeout.ms expires before successful completion of the offset commit
        FencedInstanceIdException - if this consumer instance gets fenced by broker.
        See Also:
        commitSync()
      • commitSync

        public void commitSync​(java.time.Duration timeout)
        Commit offsets returned on the last poll() for all the subscribed list of topics and partitions.

        This commits offsets only to Kafka. The offsets committed using this API will be used on the first fetch after every rebalance and also on startup. As such, if you need to store offsets in anything other than Kafka, this API should not be used.

        This is a synchronous commit and will block until either the commit succeeds, an unrecoverable error is encountered (in which case it is thrown to the caller), or the passed timeout expires.

        Note that asynchronous offset commits sent previously with the commitAsync(OffsetCommitCallback) (or similar) are guaranteed to have their callbacks invoked prior to completion of this method.

        Specified by:
        commitSync in interface Consumer<K,​V>
        Throws:
        CommitFailedException - if the commit failed and cannot be retried. This can only occur if you are using automatic group management with subscribe(Collection), or if there is an active group with the same group.id which is using group management. In such cases, when you are trying to commit to partitions that are no longer assigned to this consumer because the consumer is for example no longer part of the group this exception would be thrown.
        RebalanceInProgressException - if the consumer instance is in the middle of a rebalance so it is not yet determined which partitions would be assigned to the consumer. In such cases you can first complete the rebalance by calling poll(Duration) and commit can be reconsidered afterwards. NOTE when you reconsider committing after the rebalance, the assigned partitions may have changed, and also for those partitions that are still assigned their fetch positions may have changed too if more records are returned from the poll(Duration) call.
        WakeupException - if wakeup() is called before or while this function is called
        InterruptException - if the calling thread is interrupted before or while this function is called
        AuthenticationException - if authentication fails. See the exception for more details
        AuthorizationException - if not authorized to the topic or to the configured groupId. See the exception for more details
        KafkaException - for any other unrecoverable errors (e.g. if offset metadata is too large or if the topic does not exist).
        TimeoutException - if the timeout expires before successful completion of the offset commit
        FencedInstanceIdException - if this consumer instance gets fenced by broker.
        See Also:
        commitSync(Duration)
      • commitSync

        public void commitSync​(java.util.Map<TopicPartition,​OffsetAndMetadata> offsets)
        Commit the specified offsets for the specified list of topics and partitions.

        This commits offsets to Kafka. The offsets committed using this API will be used on the first fetch after every rebalance and also on startup. As such, if you need to store offsets in anything other than Kafka, this API should not be used. The committed offset should be the next message your application will consume, i.e. lastProcessedMessageOffset + 1. If automatic group management with subscribe(Collection) is used, then the committed offsets must belong to the currently auto-assigned partitions.

        This is a synchronous commit and will block until either the commit succeeds or an unrecoverable error is encountered (in which case it is thrown to the caller), or the timeout specified by default.api.timeout.ms expires (in which case a TimeoutException is thrown to the caller).

        Note that asynchronous offset commits sent previously with the commitAsync(OffsetCommitCallback) (or similar) are guaranteed to have their callbacks invoked prior to completion of this method.

        Specified by:
        commitSync in interface Consumer<K,​V>
        Parameters:
        offsets - A map of offsets by partition with associated metadata
        Throws:
        CommitFailedException - if the commit failed and cannot be retried. This can only occur if you are using automatic group management with subscribe(Collection), or if there is an active group with the same group.id which is using group management. In such cases, when you are trying to commit to partitions that are no longer assigned to this consumer because the consumer is for example no longer part of the group this exception would be thrown.
        RebalanceInProgressException - if the consumer instance is in the middle of a rebalance so it is not yet determined which partitions would be assigned to the consumer. In such cases you can first complete the rebalance by calling poll(Duration) and commit can be reconsidered afterwards. NOTE when you reconsider committing after the rebalance, the assigned partitions may have changed, and also for those partitions that are still assigned their fetch positions may have changed too if more records are returned from the poll(Duration) call, so when you retry committing you should consider updating the passed in offset parameter.
        WakeupException - if wakeup() is called before or while this function is called
        InterruptException - if the calling thread is interrupted before or while this function is called
        AuthenticationException - if authentication fails. See the exception for more details
        AuthorizationException - if not authorized to the topic or to the configured groupId. See the exception for more details
        java.lang.IllegalArgumentException - if the committed offset is negative
        KafkaException - for any other unrecoverable errors (e.g. if offset metadata is too large or if the topic does not exist).
        TimeoutException - if the timeout expires before successful completion of the offset commit
        FencedInstanceIdException - if this consumer instance gets fenced by broker.
        See Also:
        commitSync(Map)
      • commitSync

        public void commitSync​(java.util.Map<TopicPartition,​OffsetAndMetadata> offsets,
                               java.time.Duration timeout)
        Commit the specified offsets for the specified list of topics and partitions.

        This commits offsets to Kafka. The offsets committed using this API will be used on the first fetch after every rebalance and also on startup. As such, if you need to store offsets in anything other than Kafka, this API should not be used. The committed offset should be the next message your application will consume, i.e. lastProcessedMessageOffset + 1. If automatic group management with subscribe(Collection) is used, then the committed offsets must belong to the currently auto-assigned partitions.

        This is a synchronous commit and will block until either the commit succeeds, an unrecoverable error is encountered (in which case it is thrown to the caller), or the timeout expires.

        Note that asynchronous offset commits sent previously with the commitAsync(OffsetCommitCallback) (or similar) are guaranteed to have their callbacks invoked prior to completion of this method.

        Specified by:
        commitSync in interface Consumer<K,​V>
        Parameters:
        offsets - A map of offsets by partition with associated metadata
        timeout - The maximum amount of time to await completion of the offset commit
        Throws:
        CommitFailedException - if the commit failed and cannot be retried. This can only occur if you are using automatic group management with subscribe(Collection), or if there is an active group with the same group.id which is using group management. In such cases, when you are trying to commit to partitions that are no longer assigned to this consumer because the consumer is for example no longer part of the group this exception would be thrown.
        RebalanceInProgressException - if the consumer instance is in the middle of a rebalance so it is not yet determined which partitions would be assigned to the consumer. In such cases you can first complete the rebalance by calling poll(Duration) and commit can be reconsidered afterwards. NOTE when you reconsider committing after the rebalance, the assigned partitions may have changed, and also for those partitions that are still assigned their fetch positions may have changed too if more records are returned from the poll(Duration) call, so when you retry committing you should consider updating the passed in offset parameter.
        WakeupException - if wakeup() is called before or while this function is called
        InterruptException - if the calling thread is interrupted before or while this function is called
        AuthenticationException - if authentication fails. See the exception for more details
        AuthorizationException - if not authorized to the topic or to the configured groupId. See the exception for more details
        java.lang.IllegalArgumentException - if the committed offset is negative
        KafkaException - for any other unrecoverable errors (e.g. if offset metadata is too large or if the topic does not exist).
        TimeoutException - if the timeout expires before successful completion of the offset commit
        FencedInstanceIdException - if this consumer instance gets fenced by broker.
        See Also:
        commitSync(Map, Duration)
      • commitAsync

        public void commitAsync​(OffsetCommitCallback callback)
        Commit offsets returned on the last poll() for the subscribed list of topics and partitions.

        This commits offsets only to Kafka. The offsets committed using this API will be used on the first fetch after every rebalance and also on startup. As such, if you need to store offsets in anything other than Kafka, this API should not be used.

        This is an asynchronous call and will not block. Any errors encountered are either passed to the callback (if provided) or discarded.

        Offsets committed through multiple calls to this API are guaranteed to be sent in the same order as the invocations. Corresponding commit callbacks are also invoked in the same order. Additionally note that offsets committed through this API are guaranteed to complete before a subsequent call to commitSync() (and variants) returns.

        Specified by:
        commitAsync in interface Consumer<K,​V>
        Parameters:
        callback - Callback to invoke when the commit completes
        Throws:
        FencedInstanceIdException - if this consumer instance gets fenced by broker.
        See Also:
        commitAsync(OffsetCommitCallback)
      • commitAsync

        public void commitAsync​(java.util.Map<TopicPartition,​OffsetAndMetadata> offsets,
                                OffsetCommitCallback callback)
        Commit the specified offsets for the specified list of topics and partitions to Kafka.

        This commits offsets to Kafka. The offsets committed using this API will be used on the first fetch after every rebalance and also on startup. As such, if you need to store offsets in anything other than Kafka, this API should not be used. The committed offset should be the next message your application will consume, i.e. lastProcessedMessageOffset + 1. If automatic group management with subscribe(Collection) is used, then the committed offsets must belong to the currently auto-assigned partitions.

        This is an asynchronous call and will not block. Any errors encountered are either passed to the callback (if provided) or discarded.

        Offsets committed through multiple calls to this API are guaranteed to be sent in the same order as the invocations. Corresponding commit callbacks are also invoked in the same order. Additionally note that offsets committed through this API are guaranteed to complete before a subsequent call to commitSync() (and variants) returns.

        Specified by:
        commitAsync in interface Consumer<K,​V>
        Parameters:
        offsets - A map of offsets by partition with associate metadata. This map will be copied internally, so it is safe to mutate the map after returning.
        callback - Callback to invoke when the commit completes
        Throws:
        FencedInstanceIdException - if this consumer instance gets fenced by broker.
        See Also:
        commitAsync(Map, OffsetCommitCallback)
      • seek

        public void seek​(TopicPartition partition,
                         long offset)
        Overrides the fetch offsets that the consumer will use on the next poll(timeout). If this API is invoked for the same partition more than once, the latest offset will be used on the next poll(). Note that you may lose data if this API is arbitrarily used in the middle of consumption, to reset the fetch offsets
        Specified by:
        seek in interface Consumer<K,​V>
        Throws:
        java.lang.IllegalArgumentException - if the provided offset is negative
        java.lang.IllegalStateException - if the provided TopicPartition is not assigned to this consumer
        See Also:
        seek(TopicPartition, long)
      • seek

        public void seek​(TopicPartition partition,
                         OffsetAndMetadata offsetAndMetadata)
        Overrides the fetch offsets that the consumer will use on the next poll(timeout). If this API is invoked for the same partition more than once, the latest offset will be used on the next poll(). Note that you may lose data if this API is arbitrarily used in the middle of consumption, to reset the fetch offsets. This method allows for setting the leaderEpoch along with the desired offset.
        Specified by:
        seek in interface Consumer<K,​V>
        Throws:
        java.lang.IllegalArgumentException - if the provided offset is negative
        java.lang.IllegalStateException - if the provided TopicPartition is not assigned to this consumer
        See Also:
        seek(TopicPartition, OffsetAndMetadata)
      • seekToBeginning

        public void seekToBeginning​(java.util.Collection<TopicPartition> partitions)
        Seek to the first offset for each of the given partitions. This function evaluates lazily, seeking to the first offset in all partitions only when poll(Duration) or position(TopicPartition) are called. If no partitions are provided, seek to the first offset for all of the currently assigned partitions.
        Specified by:
        seekToBeginning in interface Consumer<K,​V>
        Throws:
        java.lang.IllegalArgumentException - if partitions is null
        java.lang.IllegalStateException - if any of the provided partitions are not currently assigned to this consumer
        See Also:
        seekToBeginning(Collection)
      • seekToEnd

        public void seekToEnd​(java.util.Collection<TopicPartition> partitions)
        Seek to the last offset for each of the given partitions. This function evaluates lazily, seeking to the final offset in all partitions only when poll(Duration) or position(TopicPartition) are called. If no partitions are provided, seek to the final offset for all of the currently assigned partitions.

        If isolation.level=read_committed, the end offset will be the Last Stable Offset, i.e., the offset of the first message with an open transaction.

        Specified by:
        seekToEnd in interface Consumer<K,​V>
        Throws:
        java.lang.IllegalArgumentException - if partitions is null
        java.lang.IllegalStateException - if any of the provided partitions are not currently assigned to this consumer
        See Also:
        seekToEnd(Collection)
      • position

        public long position​(TopicPartition partition)
        Get the offset of the next record that will be fetched (if a record with that offset exists). This method may issue a remote call to the server if there is no current position for the given partition.

        This call will block until either the position could be determined or an unrecoverable error is encountered (in which case it is thrown to the caller), or the timeout specified by default.api.timeout.ms expires (in which case a TimeoutException is thrown to the caller).

        Specified by:
        position in interface Consumer<K,​V>
        Parameters:
        partition - The partition to get the position for
        Returns:
        The current position of the consumer (that is, the offset of the next record to be fetched)
        Throws:
        java.lang.IllegalStateException - if the provided TopicPartition is not assigned to this consumer
        InvalidOffsetException - if no offset is currently defined for the partition
        WakeupException - if wakeup() is called before or while this function is called
        InterruptException - if the calling thread is interrupted before or while this function is called
        AuthenticationException - if authentication fails. See the exception for more details
        AuthorizationException - if not authorized to the topic or to the configured groupId. See the exception for more details
        UnsupportedVersionException - if the consumer attempts to fetch stable offsets when the broker doesn't support this feature
        KafkaException - for any other unrecoverable errors
        TimeoutException - if the position cannot be determined before the timeout specified by default.api.timeout.ms expires
        See Also:
        position(TopicPartition)
      • position

        public long position​(TopicPartition partition,
                             java.time.Duration timeout)
        Get the offset of the next record that will be fetched (if a record with that offset exists). This method may issue a remote call to the server if there is no current position for the given partition.

        This call will block until the position can be determined, an unrecoverable error is encountered (in which case it is thrown to the caller), or the timeout expires.

        Specified by:
        position in interface Consumer<K,​V>
        Parameters:
        partition - The partition to get the position for
        timeout - The maximum amount of time to await determination of the current position
        Returns:
        The current position of the consumer (that is, the offset of the next record to be fetched)
        Throws:
        java.lang.IllegalStateException - if the provided TopicPartition is not assigned to this consumer
        InvalidOffsetException - if no offset is currently defined for the partition
        WakeupException - if wakeup() is called before or while this function is called
        InterruptException - if the calling thread is interrupted before or while this function is called
        TimeoutException - if the position cannot be determined before the passed timeout expires
        AuthenticationException - if authentication fails. See the exception for more details
        AuthorizationException - if not authorized to the topic or to the configured groupId. See the exception for more details
        KafkaException - for any other unrecoverable errors
        See Also:
        position(TopicPartition, Duration)
      • committed

        @Deprecated
        public OffsetAndMetadata committed​(TopicPartition partition)
        Deprecated.
        since 2.4 Use committed(Set) instead
        Get the last committed offset for the given partition (whether the commit happened by this process or another). This offset will be used as the position for the consumer in the event of a failure.

        This call will do a remote call to get the latest committed offset from the server, and will block until the committed offset is gotten successfully, an unrecoverable error is encountered (in which case it is thrown to the caller), or the timeout specified by default.api.timeout.ms expires (in which case a TimeoutException is thrown to the caller).

        Specified by:
        committed in interface Consumer<K,​V>
        Parameters:
        partition - The partition to check
        Returns:
        The last committed offset and metadata or null if there was no prior commit
        Throws:
        WakeupException - if wakeup() is called before or while this function is called
        InterruptException - if the calling thread is interrupted before or while this function is called
        AuthenticationException - if authentication fails. See the exception for more details
        AuthorizationException - if not authorized to the topic or to the configured groupId. See the exception for more details
        KafkaException - for any other unrecoverable errors
        TimeoutException - if the committed offset cannot be found before the timeout specified by default.api.timeout.ms expires.
        See Also:
        committed(TopicPartition)
      • committed

        @Deprecated
        public OffsetAndMetadata committed​(TopicPartition partition,
                                           java.time.Duration timeout)
        Deprecated.
        since 2.4 Use committed(Set, Duration) instead
        Get the last committed offset for the given partition (whether the commit happened by this process or another). This offset will be used as the position for the consumer in the event of a failure.

        This call will block until the position can be determined, an unrecoverable error is encountered (in which case it is thrown to the caller), or the timeout expires.

        Specified by:
        committed in interface Consumer<K,​V>
        Parameters:
        partition - The partition to check
        timeout - The maximum amount of time to await the current committed offset
        Returns:
        The last committed offset and metadata or null if there was no prior commit
        Throws:
        WakeupException - if wakeup() is called before or while this function is called
        InterruptException - if the calling thread is interrupted before or while this function is called
        AuthenticationException - if authentication fails. See the exception for more details
        AuthorizationException - if not authorized to the topic or to the configured groupId. See the exception for more details
        KafkaException - for any other unrecoverable errors
        TimeoutException - if the committed offset cannot be found before expiration of the timeout
        See Also:
        committed(TopicPartition, Duration)
      • committed

        public java.util.Map<TopicPartition,​OffsetAndMetadata> committed​(java.util.Set<TopicPartition> partitions)
        Get the last committed offsets for the given partitions (whether the commit happened by this process or another). The returned offsets will be used as the position for the consumer in the event of a failure.

        If any of the partitions requested do not exist, an exception would be thrown.

        This call will do a remote call to get the latest committed offsets from the server, and will block until the committed offsets are gotten successfully, an unrecoverable error is encountered (in which case it is thrown to the caller), or the timeout specified by default.api.timeout.ms expires (in which case a TimeoutException is thrown to the caller).

        Specified by:
        committed in interface Consumer<K,​V>
        Parameters:
        partitions - The partitions to check
        Returns:
        The latest committed offsets for the given partitions; null will be returned for the partition if there is no such message.
        Throws:
        WakeupException - if wakeup() is called before or while this function is called
        InterruptException - if the calling thread is interrupted before or while this function is called
        AuthenticationException - if authentication fails. See the exception for more details
        AuthorizationException - if not authorized to the topic or to the configured groupId. See the exception for more details
        UnsupportedVersionException - if the consumer attempts to fetch stable offsets when the broker doesn't support this feature
        KafkaException - for any other unrecoverable errors
        TimeoutException - if the committed offset cannot be found before the timeout specified by default.api.timeout.ms expires.
        See Also:
        committed(Set)
      • committed

        public java.util.Map<TopicPartition,​OffsetAndMetadata> committed​(java.util.Set<TopicPartition> partitions,
                                                                               java.time.Duration timeout)
        Get the last committed offsets for the given partitions (whether the commit happened by this process or another). The returned offsets will be used as the position for the consumer in the event of a failure.

        If any of the partitions requested do not exist, an exception would be thrown.

        This call will block to do a remote call to get the latest committed offsets from the server.

        Specified by:
        committed in interface Consumer<K,​V>
        Parameters:
        partitions - The partitions to check
        timeout - The maximum amount of time to await the latest committed offsets
        Returns:
        The latest committed offsets for the given partitions; null will be returned for the partition if there is no such message.
        Throws:
        WakeupException - if wakeup() is called before or while this function is called
        InterruptException - if the calling thread is interrupted before or while this function is called
        AuthenticationException - if authentication fails. See the exception for more details
        AuthorizationException - if not authorized to the topic or to the configured groupId. See the exception for more details
        KafkaException - for any other unrecoverable errors
        TimeoutException - if the committed offset cannot be found before expiration of the timeout
        See Also:
        committed(Set, Duration)
      • metrics

        public java.util.Map<MetricName,​? extends Metric> metrics()
        This API is not supported. Get the metrics kept by the consumer
        Specified by:
        metrics in interface Consumer<K,​V>
        See Also:
        metrics()
      • partitionsFor

        public java.util.List<PartitionInfo> partitionsFor​(java.lang.String topic)
        Get metadata about the partitions for a given topic. This method will issue a remote call to the server if it does not already have any metadata about the given topic.
        Specified by:
        partitionsFor in interface Consumer<K,​V>
        Parameters:
        topic - The topic to get partition metadata for
        Returns:
        The list of partitions
        Throws:
        WakeupException - if wakeup() is called before or while this function is called
        InterruptException - if the calling thread is interrupted before or while this function is called
        AuthenticationException - if authentication fails. See the exception for more details
        AuthorizationException - if not authorized to the specified topic. See the exception for more details
        KafkaException - for any other unrecoverable errors
        TimeoutException - if the offset metadata could not be fetched before the amount of time allocated by default.api.timeout.ms expires.
        See Also:
        partitionsFor(String)
      • partitionsFor

        public java.util.List<PartitionInfo> partitionsFor​(java.lang.String topic,
                                                           java.time.Duration timeout)
        Get metadata about the partitions for a given topic. This method will issue a remote call to the server if it does not already have any metadata about the given topic.
        Specified by:
        partitionsFor in interface Consumer<K,​V>
        Parameters:
        topic - The topic to get partition metadata for
        timeout - The maximum of time to await topic metadata
        Returns:
        The list of partitions
        Throws:
        WakeupException - if wakeup() is called before or while this function is called
        InterruptException - if the calling thread is interrupted before or while this function is called
        AuthenticationException - if authentication fails. See the exception for more details
        AuthorizationException - if not authorized to the specified topic. See the exception for more details
        TimeoutException - if topic metadata cannot be fetched before expiration of the passed timeout
        KafkaException - for any other unrecoverable errors
        See Also:
        partitionsFor(String, Duration)
      • listTopics

        public java.util.Map<java.lang.String,​java.util.List<PartitionInfo>> listTopics()
        Get metadata about partitions for all topics that the user is authorized to view. This method will issue a remote call to the server.
        Specified by:
        listTopics in interface Consumer<K,​V>
        Returns:
        The map of topics and its partitions
        Throws:
        WakeupException - if wakeup() is called before or while this function is called
        InterruptException - if the calling thread is interrupted before or while this function is called
        KafkaException - for any other unrecoverable errors
        TimeoutException - if the offset metadata could not be fetched before the amount of time allocated by default.api.timeout.ms expires.
        See Also:
        listTopics()
      • listTopics

        public java.util.Map<java.lang.String,​java.util.List<PartitionInfo>> listTopics​(java.time.Duration timeout)
        Get metadata about partitions for all topics that the user is authorized to view. This method will issue a remote call to the server.
        Specified by:
        listTopics in interface Consumer<K,​V>
        Parameters:
        timeout - The maximum time this operation will block to fetch topic metadata
        Returns:
        The map of topics and its partitions
        Throws:
        WakeupException - if wakeup() is called before or while this function is called
        InterruptException - if the calling thread is interrupted before or while this function is called
        TimeoutException - if the topic metadata could not be fetched before expiration of the passed timeout
        KafkaException - for any other unrecoverable errors
        See Also:
        listTopics(Duration)
      • listTopics

        public java.util.Map<java.lang.String,​java.util.List<PartitionInfo>> listTopics​(java.lang.String stream)
        Get metadata about partitions for all topics of the stream. This method will issue a remote call to the server.
        Specified by:
        listTopics in interface Consumer<K,​V>
        Returns:
        The map of topics and its partitions
        See Also:
        listTopics(String)
      • listTopics

        public java.util.Map<java.lang.String,​java.util.List<PartitionInfo>> listTopics​(java.lang.String stream,
                                                                                              java.time.Duration timeout)
        Get metadata about partitions for all topics of the stream. This method will issue a remote call to the server.
        Specified by:
        listTopics in interface Consumer<K,​V>
        Returns:
        The map of topics and its partitions
        See Also:
        listTopics(String, Duration)
      • listTopics

        public java.util.Map<java.lang.String,​java.util.List<PartitionInfo>> listTopics​(java.util.regex.Pattern pattern)
        Get metadata about partitions for all topics of the stream that matches the pattern. If the pattern does not contain a stream name, and the default stream name is specified, then the default stream is used.
        Specified by:
        listTopics in interface Consumer<K,​V>
        Returns:
        The map of topics and its partitions
        See Also:
        listTopics(Pattern)
      • pause

        public void pause​(java.util.Collection<TopicPartition> partitions)
        Suspend fetching from the requested partitions. Future calls to poll(Duration) will not return any records from these partitions until they have been resumed using resume(Collection). Note that this method does not affect partition subscription. In particular, it does not cause a group rebalance when automatic assignment is used.
        Specified by:
        pause in interface Consumer<K,​V>
        Parameters:
        partitions - The partitions which should be paused
        Throws:
        java.lang.IllegalStateException - if any of the provided partitions are not currently assigned to this consumer
        See Also:
        pause(Collection)
      • resume

        public void resume​(java.util.Collection<TopicPartition> partitions)
        Resume specified partitions which have been paused with pause(Collection). New calls to poll(Duration) will return records from these partitions if there are any to be fetched. If the partitions were not previously paused, this method is a no-op.
        Specified by:
        resume in interface Consumer<K,​V>
        Parameters:
        partitions - The partitions which should be resumed
        Throws:
        java.lang.IllegalStateException - if any of the provided partitions are not currently assigned to this consumer
        See Also:
        resume(Collection)
      • offsetsForTimes

        public java.util.Map<TopicPartition,​OffsetAndTimestamp> offsetsForTimes​(java.util.Map<TopicPartition,​java.lang.Long> timestampsToSearch)
        Look up the offsets for the given partitions by timestamp. The returned offset for each partition is the earliest offset whose timestamp is greater than or equal to the given timestamp in the corresponding partition. This is a blocking call. The consumer does not have to be assigned the partitions. If the message format version in a partition is before 0.10.0, i.e. the messages do not have timestamps, null will be returned for that partition.
        Specified by:
        offsetsForTimes in interface Consumer<K,​V>
        Parameters:
        timestampsToSearch - the mapping from partition to the timestamp to look up.
        Returns:
        a mapping from partition to the timestamp and offset of the first message with timestamp greater than or equal to the target timestamp. null will be returned for the partition if there is no such message.
        Throws:
        AuthenticationException - if authentication fails. See the exception for more details
        AuthorizationException - if not authorized to the topic(s). See the exception for more details
        java.lang.IllegalArgumentException - if the target timestamp is negative
        TimeoutException - if the offset metadata could not be fetched before the amount of time allocated by default.api.timeout.ms expires.
        UnsupportedVersionException - if the broker does not support looking up the offsets by timestamp
        See Also:
        offsetsForTimes(Map)
      • offsetsForTimes

        public java.util.Map<TopicPartition,​OffsetAndTimestamp> offsetsForTimes​(java.util.Map<TopicPartition,​java.lang.Long> timestampsToSearch,
                                                                                      java.time.Duration timeout)
        Look up the offsets for the given partitions by timestamp. The returned offset for each partition is the earliest offset whose timestamp is greater than or equal to the given timestamp in the corresponding partition. This is a blocking call. The consumer does not have to be assigned the partitions. If the message format version in a partition is before 0.10.0, i.e. the messages do not have timestamps, null will be returned for that partition.
        Specified by:
        offsetsForTimes in interface Consumer<K,​V>
        Parameters:
        timestampsToSearch - the mapping from partition to the timestamp to look up.
        timeout - The maximum amount of time to await retrieval of the offsets
        Returns:
        a mapping from partition to the timestamp and offset of the first message with timestamp greater than or equal to the target timestamp. null will be returned for the partition if there is no such message.
        Throws:
        AuthenticationException - if authentication fails. See the exception for more details
        AuthorizationException - if not authorized to the topic(s). See the exception for more details
        java.lang.IllegalArgumentException - if the target timestamp is negative
        TimeoutException - if the offset metadata could not be fetched before expiration of the passed timeout
        UnsupportedVersionException - if the broker does not support looking up the offsets by timestamp
        See Also:
        offsetsForTimes(Map, Duration)
      • beginningOffsets

        public java.util.Map<TopicPartition,​java.lang.Long> beginningOffsets​(java.util.Collection<TopicPartition> partitions)
        Get the first offset for the given partitions.

        This method does not change the current consumer position of the partitions.

        Specified by:
        beginningOffsets in interface Consumer<K,​V>
        Parameters:
        partitions - the partitions to get the earliest offsets.
        Returns:
        The earliest available offsets for the given partitions
        Throws:
        AuthenticationException - if authentication fails. See the exception for more details
        AuthorizationException - if not authorized to the topic(s). See the exception for more details
        TimeoutException - if the offset metadata could not be fetched before expiration of the configured default.api.timeout.ms
        See Also:
        seekToBeginning(Collection)
      • beginningOffsets

        public java.util.Map<TopicPartition,​java.lang.Long> beginningOffsets​(java.util.Collection<TopicPartition> partitions,
                                                                                   java.time.Duration timeout)
        Get the first offset for the given partitions.

        This method does not change the current consumer position of the partitions.

        Specified by:
        beginningOffsets in interface Consumer<K,​V>
        Parameters:
        partitions - the partitions to get the earliest offsets
        timeout - The maximum amount of time to await retrieval of the beginning offsets
        Returns:
        The earliest available offsets for the given partitions
        Throws:
        AuthenticationException - if authentication fails. See the exception for more details
        AuthorizationException - if not authorized to the topic(s). See the exception for more details
        TimeoutException - if the offset metadata could not be fetched before expiration of the passed timeout
        See Also:
        seekToBeginning(Collection)
      • endOffsets

        public java.util.Map<TopicPartition,​java.lang.Long> endOffsets​(java.util.Collection<TopicPartition> partitions)
        Get the end offsets for the given partitions. In the default read_uncommitted isolation level, the end offset is the high watermark (that is, the offset of the last successfully replicated message plus one). For read_committed consumers, the end offset is the last stable offset (LSO), which is the minimum of the high watermark and the smallest offset of any open transaction. Finally, if the partition has never been written to, the end offset is 0.

        This method does not change the current consumer position of the partitions.

        Specified by:
        endOffsets in interface Consumer<K,​V>
        Parameters:
        partitions - the partitions to get the end offsets.
        Returns:
        The end offsets for the given partitions.
        Throws:
        AuthenticationException - if authentication fails. See the exception for more details
        AuthorizationException - if not authorized to the topic(s). See the exception for more details
        TimeoutException - if the offset metadata could not be fetched before the amount of time allocated by request.timeout.ms expires
        See Also:
        seekToEnd(Collection)
      • endOffsets

        public java.util.Map<TopicPartition,​java.lang.Long> endOffsets​(java.util.Collection<TopicPartition> partitions,
                                                                             java.time.Duration timeout)
        Get the end offsets for the given partitions. In the default read_uncommitted isolation level, the end offset is the high watermark (that is, the offset of the last successfully replicated message plus one). For read_committed consumers, the end offset is the last stable offset (LSO), which is the minimum of the high watermark and the smallest offset of any open transaction. Finally, if the partition has never been written to, the end offset is 0.

        This method does not change the current consumer position of the partitions.

        Specified by:
        endOffsets in interface Consumer<K,​V>
        Parameters:
        partitions - the partitions to get the end offsets.
        timeout - The maximum amount of time to await retrieval of the end offsets
        Returns:
        The end offsets for the given partitions.
        Throws:
        AuthenticationException - if authentication fails. See the exception for more details
        AuthorizationException - if not authorized to the topic(s). See the exception for more details
        TimeoutException - if the offsets could not be fetched before expiration of the passed timeout
        See Also:
        seekToEnd(Collection)
      • enforceRebalance

        public void enforceRebalance()
        Alert the consumer to trigger a new rebalance by rejoining the group. This is a nonblocking call that forces the consumer to trigger a new rebalance on the next poll(Duration) call. Note that this API does not itself initiate the rebalance, so you must still call poll(Duration). If a rebalance is already in progress this call will be a no-op. If you wish to force an additional rebalance you must complete the current one by calling poll before retrying this API.

        You do not need to call this during normal processing, as the consumer group will manage itself automatically and rebalance when necessary. However there may be situations where the application wishes to trigger a rebalance that would otherwise not occur. For example, if some condition external and invisible to the Consumer and its group changes in a way that would affect the userdata encoded in the Subscription, the Consumer will not be notified and no rebalance will occur. This API can be used to force the group to rebalance so that the assignor can perform a partition reassignment based on the latest userdata. If your assignor does not use this userdata, or you do not use a custom ConsumerPartitionAssignor, you should not use this API.

        Specified by:
        enforceRebalance in interface Consumer<K,​V>
        Throws:
        java.lang.IllegalStateException - if the consumer does not use group subscription
        See Also:
        enforceRebalance()
      • close

        public void close()
        Close the consumer, waiting for up to the default timeout of 30 seconds for any needed cleanup. If auto-commit is enabled, this will commit the current offsets if possible within the default timeout. See close(Duration) for details. Note that wakeup() cannot be used to interrupt close.
        Specified by:
        close in interface java.lang.AutoCloseable
        Specified by:
        close in interface java.io.Closeable
        Specified by:
        close in interface Consumer<K,​V>
        Throws:
        InterruptException - if the calling thread is interrupted before or while this function is called
        KafkaException - for any other error during close
        See Also:
        close()
      • close

        @Deprecated
        public void close​(long timeout,
                          java.util.concurrent.TimeUnit timeUnit)
        Deprecated.
        Since 2.0. Use close(Duration) or close().
        Tries to close the consumer cleanly within the specified timeout. This method waits up to timeout for the consumer to complete pending commits and leave the group. If auto-commit is enabled, this will commit the current offsets if possible within the timeout. If the consumer is unable to complete offset commits and gracefully leave the group before the timeout expires, the consumer is force closed. Note that wakeup() cannot be used to interrupt close.
        Specified by:
        close in interface Consumer<K,​V>
        Parameters:
        timeout - The maximum time to wait for consumer to close gracefully. The value must be non-negative. Specifying a timeout of zero means do not wait for pending requests to complete.
        timeUnit - The time unit for the timeout
        Throws:
        java.lang.IllegalArgumentException - If the timeout is negative.
        InterruptException - If the thread is interrupted before or while this function is called
        KafkaException - for any other error during close
        See Also:
        close(long, TimeUnit)
      • close

        public void close​(java.time.Duration timeout)
        Tries to close the consumer cleanly within the specified timeout. This method waits up to timeout for the consumer to complete pending commits and leave the group. If auto-commit is enabled, this will commit the current offsets if possible within the timeout. If the consumer is unable to complete offset commits and gracefully leave the group before the timeout expires, the consumer is force closed. Note that wakeup() cannot be used to interrupt close.
        Specified by:
        close in interface Consumer<K,​V>
        Parameters:
        timeout - The maximum time to wait for consumer to close gracefully. The value must be non-negative. Specifying a timeout of zero means do not wait for pending requests to complete.
        Throws:
        java.lang.IllegalArgumentException - If the timeout is negative.
        InterruptException - If the thread is interrupted before or while this function is called
        KafkaException - for any other error during close
        See Also:
        close(Duration)
      • wakeup

        public void wakeup()
        Wakeup the consumer. This method is thread-safe and is useful in particular to abort a long poll. The thread which is blocking in an operation will throw WakeupException. If no thread is blocking in a method which can throw WakeupException, the next call to such a method will raise it instead.
        Specified by:
        wakeup in interface Consumer<K,​V>
        See Also:
        wakeup()