Pipelining with Kafka Connect and Kafka Streams in Confluent Platform¶
Overview¶
This example shows users how to build pipelines with Apache Kafka® in Confluent Platform.
It showcases different ways to produce data to Kafka topics, with and without Kafka Connect, and various ways to serialize it for the Kafka Streams API and ksqlDB.
Example | Produce to Kafka Topic | Key | Value | Stream Processing |
---|---|---|---|---|
Confluent CLI Producer with String | CLI | String | String | Kafka Streams |
JDBC source connector with JSON | JDBC with SMT to add key | Long | Json | Kafka Streams |
JDBC source connector with SpecificAvro | JDBC with SMT to set namespace | null | SpecificAvro | Kafka Streams |
JDBC source connector with GenericAvro | JDBC | null | GenericAvro | Kafka Streams |
Java producer with SpecificAvro | Producer | Long | SpecificAvro | Kafka Streams |
JDBC source connector with Avro | JDBC | Long | Avro | ksqlDB |
Detailed walk-thru of this example is available in the whitepaper Kafka Serialization and Deserialization (SerDes) Examples and the blog post Building a Real-Time Streaming ETL Pipeline in 20 Minutes
Confluent Cloud¶
You can apply the same concepts explained in this example to Confluent Cloud. Confluent Cloud also has fully managed connectors that you can use, instead of self-managing your own, so that you can run 100% in the cloud. To try it out, create your own Confluent Cloud instance (see the ccloud-stack utility for Confluent Cloud for an easy way to spin up a new environment), deploy a connector, and then point your applications to Confluent Cloud.
Description of Data¶
The original data is a table of locations that resembles this.
id|name|sale
1|Raleigh|300
2|Dusseldorf|100
1|Raleigh|600
3|Moscow|800
4|Sydney|200
2|Dusseldorf|400
5|Chennai|400
3|Moscow|100
3|Moscow|200
1|Raleigh|700
It produces records to a Kafka topic:
The actual client application uses the methods count
and sum
to process this data, grouped by each city.
The output of count
is:
1|Raleigh|3
2|Dusseldorf|2
3|Moscow|3
4|Sydney|1
5|Chennai|1
The output of sum
is:
1|Raleigh|1600
2|Dusseldorf|500
3|Moscow|1100
4|Sydney|200
5|Chennai|400
Prerequisites¶
- This tutorial runs Confluent Platform in Docker. Before proceeding:
- Install Docker Desktop or Docker Engine (version 19.03.0 or later) if you don’t already have it
- Install the Docker Compose plugin if you don’t already have it. This isn’t necessary if you have Docker Desktop since it includes Docker Compose.
- Start Docker if it’s not already running, either by starting Docker Desktop or, if you manage Docker Engine with
systemd
, via systemctl - Verify that Docker is set up properly by ensuring no errors are output when you rundocker info
anddocker compose version
on the command line - Maven command
mvn
to compile Java code timeout
: used by the bash scripts to terminate a consumer process after a certain period of time.timeout
is available on most Linux distributions but not on macOS. macOS users can installtimeout
viabrew install coreutils
.
Run example¶
Clone the examples GitHub repository and check out the
7.8.0-post
branch.git clone https://github.com/confluentinc/examples cd examples git checkout 7.8.0-post
Change directory to the connect-streams-pipeline example.
cd connect-streams-pipeline
Run the examples end-to-end:
./start.sh
Open your browser and navigate to the Confluent Control Center web interface Management -> Connect tab to see the data in the Kafka topics and the deployed connectors.
Example 1: Kafka console producer -> Key:String and Value:String¶
- Command line
kafka-console-producer
producesString
keys andString
values to a Kafka topic. - Client application reads from the Kafka topic using
Serdes.String()
for both key and value.
Example 2: JDBC source connector with Single Message Transformations -> Key:Long and Value:JSON¶
- Kafka Connect JDBC source connector produces JSON values, and inserts the key using single message transformations, also known as
SMTs
. This is helpful because by default JDBC source connector does not insert a key. - This example uses a few SMTs including one to cast the key to an
int64
. The key uses theorg.apache.kafka.connect.converters.LongConverter
provided by KAFKA-6913.
{
"name": "test-source-sqlite-jdbc-autoincrement-jdbcjson",
"config": {
"connector.class": "io.confluent.connect.jdbc.JdbcSourceConnector",
"tasks.max": "1",
"key.converter": "org.apache.kafka.connect.converters.LongConverter",
"key.converter.schemas.enable": "false",
"value.converter": "org.apache.kafka.connect.json.JsonConverter",
"value.converter.schemas.enable": "false",
"transforms": "InsertKey, ExtractId, CastLong",
"transforms.InsertKey.type": "org.apache.kafka.connect.transforms.ValueToKey",
"transforms.InsertKey.fields": "id",
"transforms.ExtractId.type": "org.apache.kafka.connect.transforms.ExtractField$Key",
"transforms.ExtractId.field": "id",
"transforms.CastLong.type": "org.apache.kafka.connect.transforms.Cast$Key",
"transforms.CastLong.spec": "int64",
"connection.url": "jdbc:sqlite:/usr/local/lib/retail.db",
"mode": "incrementing",
"incrementing.column.name": "id",
"topic.prefix": "jdbcjson-",
"table.whitelist": "locations"
}
}
- Client application reads from the Kafka topic using
Serdes.Long()
for key and a custom JSON Serde for the value.
Example 3: JDBC source connector with SpecificAvro -> Key:String(null) and Value:SpecificAvro¶
- Kafka Connect JDBC source connector produces Avro values, and null
String
keys, to a Kafka topic. - This example uses a single message transformation (SMT) called
SetSchemaMetadata
with code that has a fix for KAFKA-5164, allowing the connector to set the namespace in the schema. If you do not have the fix for KAFKA-5164, see Example 4 that usesGenericAvro
instead ofSpecificAvro
.
{
"name": "test-source-sqlite-jdbc-autoincrement-jdbcspecificavro",
"config": {
"connector.class": "io.confluent.connect.jdbc.JdbcSourceConnector",
"tasks.max": "1",
"key.converter": "org.apache.kafka.connect.converters.LongConverter",
"key.converter.schemas.enable": "false",
"value.converter": "io.confluent.connect.avro.AvroConverter",
"value.converter.schema.registry.url": "http://schema-registry:8081",
"value.converter.schemas.enable": "true",
"transforms": "SetValueSchema",
"transforms.SetValueSchema.type": "org.apache.kafka.connect.transforms.SetSchemaMetadata$Value",
"transforms.SetValueSchema.schema.name": "io.confluent.examples.connectandstreams.avro.Location",
"connection.url": "jdbc:sqlite:/usr/local/lib/retail.db",
"mode": "incrementing",
"incrementing.column.name": "id",
"topic.prefix": "jdbcspecificavro-",
"table.whitelist": "locations"
}
}
- Client application reads from the Kafka topic using
SpecificAvroSerde
for the value and then themap
function to convert the stream of messages to haveLong
keys and custom class values.
Example 4: JDBC source connector with GenericAvro -> Key:String(null) and Value:GenericAvro¶
- Kafka Connect JDBC source connector produces Avro values, and null
String
keys, to a Kafka topic.
{
"name": "test-source-sqlite-jdbc-autoincrement-jdbcgenericavro",
"config": {
"connector.class": "io.confluent.connect.jdbc.JdbcSourceConnector",
"tasks.max": "1",
"key.converter": "org.apache.kafka.connect.converters.LongConverter",
"key.converter.schemas.enable": "false",
"value.converter": "io.confluent.connect.avro.AvroConverter",
"value.converter.schema.registry.url": "http://schema-registry:8081",
"value.converter.schemas.enable": "true",
"connection.url": "jdbc:sqlite:/usr/local/lib/retail.db",
"mode": "incrementing",
"incrementing.column.name": "id",
"topic.prefix": "jdbcgenericavro-",
"table.whitelist": "locations"
}
}
- Client application reads from the Kafka topic using
GenericAvroSerde
for the value and then themap
function to convert the stream of messages to haveLong
keys and custom class values. - This example currently uses
GenericAvroSerde
and notSpecificAvroSerde
for a specific reason. JDBC source connector currently doesn’t set a namespace when it generates a schema name for the data it is producing to Kafka. ForSpecificAvroSerde
, the lack of namespace is a problem when trying to match reader and writer schema because Avro uses the writer schema name and namespace to create a classname and tries to load this class, but without a namespace, the class will not be found.
Example 5: Java client producer with SpecificAvro -> Key:Long and Value:SpecificAvro¶
- Java client produces
Long
keys andSpecificAvro
values to a Kafka topic. - Client application reads from the Kafka topic using
Serdes.Long()
for key andSpecificAvroSerde
for the value.
Example 6: JDBC source connector with Avro to ksqlDB -> Key:Long and Value:Avro¶
- Kafka Connect JDBC source connector produces Avro values, and null keys, to a Kafka topic.
{
"name": "test-source-sqlite-jdbc-autoincrement-jdbcavroksql",
"config": {
"connector.class": "io.confluent.connect.jdbc.JdbcSourceConnector",
"tasks.max": "1",
"key.converter": "org.apache.kafka.connect.json.JsonConverter",
"key.converter.schemas.enable": "false",
"value.converter": "io.confluent.connect.avro.AvroConverter",
"value.converter.schema.registry.url": "http://schema-registry:8081",
"value.converter.schemas.enable": "true",
"connection.url": "jdbc:sqlite:/usr/local/lib/retail.db",
"mode": "incrementing",
"incrementing.column.name": "id",
"topic.prefix": "jdbcavroksql-",
"table.whitelist": "locations"
}
}
- ksqlDB reads from the Kafka topic and then uses
PARTITION BY
to create a new stream of messages withBIGINT
keys.
Technical Notes¶
- KAFKA-5245: one needs to provide the Serdes twice, (1) when calling
StreamsBuilder#stream()
and (2) when callingKStream#groupByKey()
- PR-531: Confluent distribution provides packages for
GenericAvroSerde
andSpecificAvroSerde
- KAFKA-2378: adds APIs to be able to embed Kafka Connect into client applications
- KAFKA-2526: one cannot use the
--key-serializer
argument inkafka-console-producer
to serialize the key as aLong
. As a result, in this example the key is serialized as aString
. As a workaround, you could write your own kafka.common.MessageReader (e.g. check out the default implementation of LineMessageReader) and then you can specify--line-reader
argument inkafka-console-producer
. - KAFKA-5164: allows the connector to set the namespace in the schema.