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Create a JDBC sink connector from Apache Kafka® to another database

The JDBC (Java Database Connectivity) sink connector enables you to move data from an Aiven for Apache Kafka® cluster to any relational database offering JDBC drivers like PostgreSQL® or MySQL.

warning

Since the JDBC sink connector is pushing data to relational databases, it can work only with topics having a schema, either defined in every message or in the schema registry features offered by Karapace.

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You can check the full set of available parameters and configuration options in the connector's documentation.

Prerequisites

To setup a JDBC sink connector, you need an Aiven for Apache Kafka service with Kafka Connect enabled or a dedicated Aiven for Apache Kafka Connect cluster.

Furthermore you need to collect the following information about the target database service upfront:

  • DB_CONNECTION_URL: The database JDBC connection URL, the following are few examples based on different technologies:
    • PostgreSQL: jdbc:postgresql://HOST:PORT/DB_NAME?sslmode=SSL_MODE
    • MySQL: jdbc:mysql://HOST:PORT/DB_NAME?ssl-mode=SSL_MODE
  • DB_USERNAME: The database username to connect
  • DB_PASSWORD: The password for the username selected
  • TOPIC_LIST: The list of topics to sink divided by comma
  • APACHE_KAFKA_HOST: The hostname of the Apache Kafka service, only needed when using Avro as data format
  • SCHEMA_REGISTRY_PORT: The Apache Kafka's schema registry port, only needed when using Avro as data format
  • SCHEMA_REGISTRY_USER: The Apache Kafka's schema registry username, only needed when using Avro as data format
  • SCHEMA_REGISTRY_PASSWORD: The Apache Kafka's schema registry user password, only needed when using Avro as data format
note

If you're using Aiven for PostgreSQL® and Aiven for MySQL® the above details are available in the Aiven console service Overview tab or via the dedicated avn service get command with the Aiven CLI.

The SCHEMA_REGISTRY related parameters are available in the Aiven for Apache Kafka® service page, Overview tab, and Schema Registry subtab

As of version 3.0, Aiven for Apache Kafka no longer supports Confluent Schema Registry. For more information, read the article describing the replacement, Karapace

Setup a JDBC sink connector with Aiven Console

The following example demonstrates how to setup a JDBC sink connector for Apache Kafka using the Aiven Console.

Define a Kafka Connect configuration file

Define the connector configurations in a file (we'll refer to it with the name jdbc_sink.json) with the following content:

{
"name":"CONNECTOR_NAME",
"connector.class": "io.aiven.connect.jdbc.JdbcSinkConnector",
"topics": "TOPIC_LIST",
"connection.url": "DB_CONNECTION_URL",
"connection.user": "DB_USERNAME",
"connection.password": "DB_PASSWORD",
"tasks.max":"1",
"auto.create": "true",
"auto.evolve": "true",
"insert.mode": "upsert",
"delete.enabled": "true",
"pk.mode": "record_key",
"pk.fields": "field1,field2",
"key.converter": "io.confluent.connect.avro.AvroConverter",
"key.converter.schema.registry.url": "https://APACHE_KAFKA_HOST:SCHEMA_REGISTRY_PORT",
"key.converter.basic.auth.credentials.source": "USER_INFO",
"key.converter.schema.registry.basic.auth.user.info": "SCHEMA_REGISTRY_USER:SCHEMA_REGISTRY_PASSWORD",
"value.converter": "io.confluent.connect.avro.AvroConverter",
"value.converter.schema.registry.url": "https://APACHE_KAFKA_HOST:SCHEMA_REGISTRY_PORT",
"value.converter.basic.auth.credentials.source": "USER_INFO",
"value.converter.schema.registry.basic.auth.user.info": "SCHEMA_REGISTRY_USER:SCHEMA_REGISTRY_PASSWORD"
}

The configuration file contains the following entries:

  • name: the connector name

  • connection.url, connection.username, connection.password: sink JDBC parameters collected in the prerequisite phase.

  • tasks.max: maximum number of tasks to execute in parallel. The maximum is 1 per topic and partition.

  • auto.create: boolean flag enabling the target table creation if it doesn't exists.

  • auto.evolve: boolean flag enabling the target table modification in cases of schema modification of the messages in the topic.

  • insert.mode: defines the insert mode, it can be:

    • insert: uses standard INSERT statements.
    • upsert: uses the upsert semantics supported by the target database, more information in the dedicated GitHub repository
    • update: uses the update semantics supported by the target database. for example, UPDATE, more information in the dedicated GitHub repository
  • delete.enabled: boolean flag enabling the deletion of rows in the target table on tombstone messages.

    note

    A tombstone message has:

    • a not null key

    • a null value

    In case of tombstone messages and delete.enabled set to true, the JDBC sink connector will delete the row referenced by the message key. If set to true, it requires the pk.mode to be record_key to be able to identify the rows to delete.

  • pk.mode: defines the fields to use as primary key. Allowed options are:

    • none: no primary key is used.
    • kafka: the Apache Kafka coordinates are used.
    • record_key: the entire (or part of the) message key is used.
    • record_value: the entire (or part of the) message value is used.

    More information are available in the dedicated GitHub repository.

  • pk.fields: defines which fields of the composite key or value to use as record key in the database.

  • key.converter and value.converter: defines the messages data format in the Apache Kafka topic. The io.confluent.connect.avro.AvroConverter converter translates messages from the Avro format. To retrieve the messages schema we use Aiven's Karapace schema registry as specified by the schema.registry.url parameter and related credentials.

note

The key.converter and value.converter sections define how the topic messages will be parsed and needs to be included in the connector configuration.

When using Avro as source data format, you need to set following parameters

  • value.converter.schema.registry.url: pointing to the Aiven for Apache Kafka schema registry URL in the form of https://APACHE_KAFKA_HOST:SCHEMA_REGISTRY_PORT with the APACHE_KAFKA_HOST and SCHEMA_REGISTRY_PORT parameters retrieved in the previous step.
  • value.converter.basic.auth.credentials.source: to the value USER_INFO, since you're going to login to the schema registry using username and password.
  • value.converter.schema.registry.basic.auth.user.info: passing the required schema registry credentials in the form of SCHEMA_REGISTRY_USER:SCHEMA_REGISTRY_PASSWORD with the SCHEMA_REGISTRY_USER and SCHEMA_REGISTRY_PASSWORD parameters retrieved in the previous step.

Create a Kafka Connect connector with the Aiven Console

To create a Kafka Connect connector, follow these steps:

  1. Log in to the Aiven Console and select the Aiven for Apache Kafka® or Aiven for Apache Kafka Connect® service where the connector needs to be defined.
  2. Select Connectors from the left sidebar.
  3. Select Create New Connector, the button is enabled only for services with Kafka Connect enabled.
  4. Select JDBC sink.
  5. In the Common tab, locate the Connector configuration text box and select on Edit.
  6. Paste the connector configuration (stored in the jdbc_sink.json file) in the form.
  7. Select Apply.
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The Aiven Console parses the configuration file and fills the relevant UI fields. You can review the UI fields across the various tab and change them if necessary. The changes will be reflected in JSON format in the Connector configuration text box.

  1. After all the settings are correctly configured, select Create connector.
  2. Verify the connector status under the Connectors screen.
  3. Verify the presence of the data in the target Database service, the table name is equal to the Apache Kafka topic name
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You can also create connectors using the Aiven CLI command.

tip

Check the dedicated blog post for an end-to-end example of the JDBC sink connector in action with MySQL.

Example: Create a JDBC sink connector to PostgreSQL® on a topic with a JSON schema

If you have a topic named iot_measurements containing the following data in JSON format, with a defined JSON schema:

{
"schema": {
"type":"struct",
"fields":[{
"type":"int64",
"optional": false,
"field": "iot_id"
},{
"type":"string",
"optional": false,
"field": "metric"
},{
"type":"int32",
"optional": false,
"field": "measurement"
}]
},
"payload":{ "iot_id":1, "metric":"Temperature", "measurement":14}
}
{
"schema": {
"type":"struct",
"fields":[{
"type":"int64",
"optional": false,
"field": "iot_id"
},{
"type":"string",
"optional": false,
"field": "metric"
},{
"type":"int32",
"optional": false,
"field": "measurement"
}]
},
"payload":{"iot_id":2, "metric":"Humidity", "measurement":60}
}
note

Since the JSON schema needs to be defined in every message, there is a big overhead to transmit the information. To achieve a better performance in term of information-message ratio you should use the Avro format together with the Karapace schema registry provided by Aiven

You can sink the iot_measurements topic to PostgreSQL with the following connector configuration, after replacing the placeholders for DB_HOST, DB_PORT, DB_NAME, DB_SSL_MODE, DB_USERNAME and DB_PASSWORD:

{
"name":"sink_iot_json_schema",
"connector.class": "io.aiven.connect.jdbc.JdbcSinkConnector",
"topics": "iot_measurements",
"connection.url": "jdbc:postgresql://DB_HOST:DB_PORT/DB_NAME?sslmode=DB_SSL_MODE",
"connection.user": "DB_USERNAME",
"connection.password": "DB_PASSWORD",
"tasks.max":"1",
"auto.create": "true",
"auto.evolve": "true",
"insert.mode": "upsert",
"delete.enabled": "false",
"pk.mode": "record_value",
"pk.fields": "iot_id",
"value.converter": "org.apache.kafka.connect.json.JsonConverter"
}

The configuration file contains the following peculiarities:

  • "topics": "iot_measurements": setting the topic to sink
  • "value.converter": "org.apache.kafka.connect.json.JsonConverter": the message value is in plain JSON format without a schema, there is not converter defined for the key since it's empty
  • "pk.mode": "record_value": the connector is using the message value to set the target database key
  • "pk.fields": "iot_id": the connector is using the field iot_id on the message value to set the target database key
  • "delete.enabled": "false": the connector is not enabling deletes on tombstones since they would require to have the valid record key and the pk.mode set to record_key

Example: Create a JDBC sink connector to MySQL on a topic using Avro and schema registry

If you have a topic named students containing data in Avro format with the schema stored in the schema registry provided by Karapace with the following structure:

key: {"student_id": 1234}
value: {"student_name": "Mary", "exam": "Math", "exam_result":"A"}

You can sink the students topic to MySQL with the following connector configuration, after replacing the placeholders for DB_HOST, DB_PORT, DB_NAME, DB_SSL_MODE, DB_USERNAME, DB_PASSWORD, APACHE_KAFKA_HOST, SCHEMA_REGISTRY_PORT, SCHEMA_REGISTRY_USER and SCHEMA_REGISTRY_PASSWORD:

{
"name": "sink_students_avro_schema",
"connector.class": "io.aiven.connect.jdbc.JdbcSinkConnector",
"topics": "my_pgnordics2022_pgsource.public.pasta",
"connection.url": "jdbc:mysql://DB_HOST:DB_PORT/DB_NAME?ssl-mode=DB_SSL_MODE",
"connection.user": "DB_USERNAME",
"connection.password": "DB_PASSWORD",
"insert.mode": "upsert",
"table.name.format": "students",
"pk.mode": "record_key",
"pk.fields": "student_id",
"auto.create": "true",
"auto.evolve": "true",
"delete.enabled": "true",
"key.converter": "io.confluent.connect.avro.AvroConverter",
"key.converter.schema.registry.url": "https://APACHE_KAFKA_HOST:SCHEMA_REGISTRY_PORT",
"key.converter.basic.auth.credentials.source": "USER_INFO",
"key.converter.schema.registry.basic.auth.user.info": "SCHEMA_REGISTRY_USER:SCHEMA_REGISTRY_PASSWORD",
"value.converter": "io.confluent.connect.avro.AvroConverter",
"value.converter.schema.registry.url": "https://APACHE_KAFKA_HOST:SCHEMA_REGISTRY_PORT",
"value.converter.basic.auth.credentials.source": "USER_INFO",
"value.converter.schema.registry.basic.auth.user.info": "SCHEMA_REGISTRY_USER:SCHEMA_REGISTRY_PASSWORD"
}

The configuration file contains the following peculiarities:

  • "topics": "students": setting the topic to sink
  • "pk.mode": "record_key": the connector is using the message key to set the target database key
  • "pk.fields": "student_id": the connector is using the field student_id on the message key to set the target database key
  • "delete.enabled": "true": the connector is enabling deletes on tombstones
  • key.converter and value.converter: defining the Avro data format with io.confluent.connect.avro.AvroConverter, the URL, and credentials to connect to the Karapace schema registry

The connector will automatically create "auto.create": "true" a table in the target MySQL database called students with student_id, student_name, exam and exam_result as columns and populate it with the data coming from the students Apache Kafka topic.