This project contains code examples that demonstrate how to implement real-time applications and event-driven microservices using the Streams API of Apache Kafka aka Kafka Streams.
For more information take a look at the latest Confluent documentation on the Kafka Streams API, notably the Developer Guide.
Table of Contents
- Available examples
- Requirements
- Packaging and running the examples
- Development
- Version Compatibility Matrix
- Docker
- Where to find help
This repository has several branches to help you find the correct code examples for the version of Apache Kafka and/or Confluent Platform that you are using. See Version Compatibility Matrix below for details.
There are two kinds of examples:
- Examples under src/main/: These examples are short and concise. Also, you can interactively test-drive these examples, e.g. against a local Kafka cluster. If you want to actually run these examples, then you must first install and run Apache Kafka and friends, which we describe in section Packaging and running the examples. Each example also states its exact requirements and instructions at the very top.
- Examples under src/test/: These examples are a bit longer because they implement integration tests that demonstrate end-to-end data pipelines. Here, we use a testing framework to automatically spawn embedded Kafka clusters, feed input data to them (using the standard Kafka producer client), process the data using Kafka Streams, and finally read and verify the output results (using the standard Kafka consumer client). These examples are also a good starting point to learn how to implement your own end-to-end integration tests.
Note: We use the label "Lambda" to denote examples that make use of lambda expressions and thus require Java 8+.
- WordCountLambdaExample -- demonstrates, using the Kafka Streams DSL, how to implement the WordCount program that computes a simple word occurrence histogram from an input text.
- MapFunctionLambdaExample -- demonstrates how to perform stateless transformations via map functions, using the Kafka Streams DSL (see also the Scala variant MapFunctionScalaExample)
- SessionWindowsExample -- demonstrates how to perform user behavior analysis through sessionization of user events
- SumLambdaExample
-- demonstrates how to perform stateful transformations via
reduce
, using the Kafka Streams DSL - PageViewRegionLambdaExample
-- demonstrates how to perform a join between a
KStream
and aKTable
, i.e. an example of a stateful computation- Variant: PageViewRegionExample, which implements the same example but without lambda expressions and thus works with Java 7+.
- Working with data in Apache Avro format (see also the end-to-end demos under integration tests below):
- Generic Avro: PageViewRegionLambdaExample (Java 8+) and PageViewRegionExample (Java 7+)
- Specific Avro: WikipediaFeedAvroLambdaExample (Java 8+) and WikipediaFeedAvroExample (Java 7+)
- SecureKafkaStreamsExample (Java 7+) -- demonstrates how to configure Kafka Streams for secure stream processing (here: encrypting data-in-transit and enabling client authentication so that the Kafka Streams application authenticates itself to the Kafka brokers)
- StateStoresInTheDSLIntegrationTest (Java 8+) -- demonstrates how to use state stores in the Kafka Streams DSL
- WordCountInteractiveQueriesExample (Java 8+) -- demonstrates the Interactive Queries feature to locate and query state stores of a Kafka Streams application from other applications; here, we opted to use a REST API to implement the required RPC layer to allow applications to talk to each other
- KafkaMusicExample (Java 8+) -- demonstrates the building of a simple music charts application. Uses the Interactive Queries feature to query the state stores to get the latest top five songs. Demonstrates locating the KafkaStreams instance for a store and key and retrieving the values via a REST API
- HandlingCorruptedInputRecordsIntegrationTest (Java 8+) -- demonstrates how to handle corrupt input records (think: poison pill messages)
- MixAndMatchLambdaIntegrationTest
(Java 8+) -- demonstrates how to mix and match the DSL and the Processor API via
KStream#transform()
andKStream#process()
, which allow you to include customTransformer
andProcessor
implementations, respectively, within topologies defined via the DSL - ApplicationResetExample (Java 8+)
-- demonstrates the usage of the application reset tool (
bin/kafka-streams-application-reset
) - GlobalKTablesExample (Java 8+)
-- demonstrates joining between
KStream
andGlobalKTable
. - And further examples.
We also provide several integration tests, which demonstrate end-to-end data pipelines. Here, we spawn embedded Kafka clusters and the Confluent Schema Registry, feed input data to them (using the standard Kafka producer client), process the data using Kafka Streams, and finally read and verify the output results (using the standard Kafka consumer client).
Tip: Run
mvn test
to launch the integration tests.
- WordCountLambdaIntegrationTest
- WordCountInteractiveQueriesExampleTest
- EventDeduplicationLambdaIntegrationTest
- GlobalKTableExampleTest
- HandlingCorruptedInputRecordsIntegrationTest
- KafkaMusicExampleTest
- MapFunctionLambdaIntegrationTest
- MixAndMatchLambdaIntegrationTest
- PassThroughIntegrationTest
- SessionWindowsExampleTest
- SumLambdaIntegrationTest
- StreamToStreamJoinIntegrationTest
- StreamToTableJoinIntegrationTest
- TableToTableJoinIntegrationTest
- UserCountsPerRegionLambdaIntegrationTest
- GenericAvroIntegrationTest
- SpecificAvroIntegrationTest
- ValidateStateWithInteractiveQueriesLambdaIntegrationTest
- MapFunctionScalaExample -- demonstrates how to perform simple, state-less transformations via map functions, using the Kafka Streams DSL (see also the Java variant MapFunctionLambdaExample)
We also provide several integration tests, which demonstrate end-to-end data pipelines. Here, we spawn embedded Kafka clusters and the Confluent Schema Registry, feed input data to them (using the standard Kafka producer client), process the data using Kafka Streams, and finally read and verify the output results (using the standard Kafka consumer client).
Tip: Run
mvn test
to launch the integration tests.
- StreamToTableJoinScalaIntegrationTest
- WordCountScalaIntegrationTest
- GenericAvroScalaIntegrationTest
- ProbabilisticCountingScalaIntegrationTest -- demonstrates how to probabilistically count items in an input stream by implementing a custom state store (CMSStore) that is backed by a Count-Min Sketch data structure (with the CMS implementation of Twitter Algebird)
- SpecificAvroScalaIntegrationTest
The code in this repository requires Apache Kafka 0.10+ because from this point onwards Kafka includes its Kafka Streams library. See Version Compatibility Matrix for further details, as different branches of this repository may have different Kafka requirements.
To add the Kafka Streams library to your application when using Confluent Platform and maven
(see pom.xml
and
Kafka Streams: libraries and maven artifacts
for details):
<!-- pom.xml -->
<repositories>
<repository>
<id>confluent</id>
<url>http://packages.confluent.io/maven/</url>
</repository>
</repositories>
<dependencies>
<dependency>
<groupId>org.apache.kafka</groupId>
<artifactId>kafka-streams</artifactId>
<version>0.11.0.0-cp1</version>
</dependency>
<dependency>
<groupId>org.apache.kafka</groupId>
<artifactId>kafka-clients</artifactId>
<version>0.11.0.0-cp1</version>
</dependency>
</dependencies>
To add the Kafka Streams library to your application when using Confluent Platform and gradle
:
repositories {
maven { url "http://packages.confluent.io/maven/" }
}
dependencies {
compile "org.apache.kafka:kafka-streams:0.11.0.0-cp1"
compile "org.apache.kafka:kafka-clients:0.11.0.0-cp1"
}
To add the Kafka Streams library to your application when using Confluent Platform and sbt
(Scala):
resolvers ++= Seq(
"confluent-repository" at "http://packages.confluent.io/maven/"
)
libraryDependencies ++= Seq(
"org.apache.kafka" % "kafka-streams" % "0.11.0.0-cp1",
"org.apache.kafka" % "kafka-clients" % "0.11.0.0-cp1"
)
The code in this repository requires Confluent Platform. See Version Compatibility Matrix for further details, as different branches of this repository may have different Confluent Platform requirements.
- Confluent Platform Quickstart (how to download and install)
- Confluent Platform documentation
If you just run the integration tests (mvn test
), then you do not need to install anything -- all maven artifacts
will be downloaded automatically for the build. However, if you want to interactively test-drive the examples under
src/main/
(such as WordCountLambdaExample), then you
do need to install Confluent Platform. See Packaging and running the examples below. Also,
each example states its exact requirements at the very top.
Some code examples require Java 8, primarily because of the usage of lambda expressions.
IntelliJ IDEA users:
- Open File > Project structure
- Select "Project" on the left.
- Set "Project SDK" to Java 1.8.
- Set "Project language level" to "8 - Lambdas, type annotations, etc."
Scala is required only for the Scala examples in this repository. If you are a Java developer you can safely ignore this section.
If you want to experiment with the Scala examples in this repository, you need a version of Scala that supports Java 8
and SAM / Java lambda (e.g. Scala 2.11 with -Xexperimental
compiler flag, or 2.12).
Tip: If you only want to run the integration tests (
mvn test
), then you do not need to package or install anything -- just runmvn test
. The instructions below are only needed if you want to interactively test-drive the examples under src/main/.
The first step is to install and run a Kafka cluster, which must consist of at least one Kafka broker as well as at least one ZooKeeper instance. Some examples may also require a running instance of Confluent schema registry. The Confluent Platform Quickstart guide provides the full details.
In a nutshell:
# Start ZooKeeper
$ ./bin/zookeeper-server-start ./etc/kafka/zookeeper.properties
# In a separate terminal, start Kafka broker
$ ./bin/kafka-server-start ./etc/kafka/server.properties
# In a separate terminal, start Confluent schema registry
$ ./bin/schema-registry-start ./etc/schema-registry/schema-registry.properties
# Again, please refer to the Confluent Platform Quickstart for details such as
# how to download Confluent Platform, how to stop the above three services, etc.
Tip: You can also run
mvn test
, which executes the included integration tests. These tests spawn embedded Kafka clusters to showcase the Kafka Streams functionality end-to-end. The benefit of the integration tests is that you don't need to install and run a Kafka cluster yourself.
If you want to run the examples against a Kafka cluster, you may want to create a standalone jar ("fat jar") of the Kafka Streams examples via:
# Create a standalone jar
#
# Tip: You can also disable the test suite (e.g. to speed up the packaging
# or to lower JVM memory usage) if needed:
#
# $ mvn -DskipTests=true clean package
#
$ mvn clean package
# >>> Creates target/kafka-streams-examples-3.3.0-standalone.jar
You can now run the example applications as follows:
# Run an example application from the standalone jar.
# Here: `WordCountLambdaExample`
$ java -cp target/kafka-streams-examples-3.3.0-standalone.jar \
io.confluent.examples.streams.WordCountLambdaExample
The application will try to read from the specified input topic (in the above example it is TextLinesTopic
),
execute the processing logic, and then try to write back to the specified output topic (in the above example it is WordsWithCountsTopic
).
In order to observe the expected output stream, you will need to start a console producer to send messages into the input topic
and start a console consumer to continuously read from the output topic. More details in how to run the examples can be found
in the java docs of each example code.
If you want to turn on log4j while running your example application, you can edit the log4j.properties file and then execute as follows:
# Run an example application from the standalone jar.
# Here: `WordCountLambdaExample`
$ java -cp target/kafka-streams-examples-3.3.0-standalone.jar \
-Dlog4j.configuration=file:src/main/resources/log4j.properties \
io.confluent.examples.streams.WordCountLambdaExample
Keep in mind that the machine on which you run the command above must have access to the Kafka/ZK clusters you
configured in the code examples. By default, the code examples assume the Kafka cluster is accessible via
localhost:9092
(aka Kafka's bootstrap.servers
parameter) and the ZooKeeper ensemble via localhost:2181
.
You can override the default bootstrap.servers
parameter through a command line argument.
This project uses the standard maven lifecycle and commands such as:
$ mvn compile # This also generates Java classes from the Avro schemas
$ mvn test # Runs unit and integration tests
Branch (this repo) | Apache Kafka | Confluent Platform | Notes |
---|---|---|---|
master | 1.0.0-SNAPSHOT | 4.0.0-SNAPSHOT | You must manually build the trunk version of Apache Kafka and the master version of Confluent Platform. See instructions above. |
3.3.x | 0.11.0.1-SNAPSHOT | 3.3.1-SNAPSHOT | You must manually build the 0.11.0 version of Apache Kafka and the 3.3.x version of Confluent Platform. See instructions above. |
3.3.0-post | 0.11.0.0(-cp1) | 3.3.0 | Works out of the box |
The master
branch of this repository represents active development, and may require additional steps on your side to
make it compile. Check this README as well as pom.xml for any such information.
This example launches:
- Confluent's Kafka Music demo application for the Kafka Streams API. This application demonstrates how to build of a simple music charts application. It uses Kafka's Interactive Queries feature to expose its latest processing results (e.g. latest Top 5 songs) via a REST API. Its input data is in Avro format, hence the use of Confluent Schema Registry (see below).
- a single-node Apache Kafka cluster with a single-node ZooKeeper ensemble
- a Confluent Schema Registry instance
The Kafka Music application demonstrates how to build of a simple music charts application that continuously computes, in real-time, the latest charts such as Top 5 songs per music genre. It exposes its latest processing results -- the latest charts -- via Kafka’s Interactive Queries feature and a REST API. The application's input data is in Avro format and comes from two sources: a stream of play events (think: "song X was played") and a stream of song metadata ("song X was written by artist Y").
More specifically, we will run the following services:
- Confluent's Kafka Music demo application
- a single-node Kafka cluster with a single-node ZooKeeper ensemble
- Confluent Schema Registry
You can find detailed documentation at http://docs.confluent.io/current/streams/kafka-streams-examples/docs/index.html
- Looking for documentation on Apache Kafka's Streams API?
- We recommend to read the Kafka Streams chapter in the Confluent Platform documentation.
- Watch our talk Rethinking Stream Processing with Apache Kafka
- Running into problems to use the demos and examples in this project?
- First, you should check our FAQ wiki.
- If the FAQ doesn't help you, create a new GitHub issue.
- Want to ask a question, report a bug in Kafka or its Kafka Streams API, request a new Kafka feature?
- For general questions about Apache Kafka and Confluent Platform, please head over to the Confluent mailing list or to the Apache Kafka mailing lists.
- For questions about the demos and examples in this repository:
- Please check our FAQ wiki for an answer first.
- If the FAQ doesn't help you, create a new GitHub issue.