Confluent Avro

Confluent Avro Format #

Format: Serialization Schema Format: Deserialization Schema

The Avro Schema Registry (avro-confluent) format allows you to read records that were serialized by the io.confluent.kafka.serializers.KafkaAvroSerializer and to write records that can in turn be read by the io.confluent.kafka.serializers.KafkaAvroDeserializer.

When reading (deserializing) a record with this format the Avro writer schema is fetched from the configured Confluent Schema Registry based on the schema version id encoded in the record while the reader schema is inferred from table schema.

When writing (serializing) a record with this format the Avro schema is inferred from the table schema and used to retrieve a schema id to be encoded with the data. The lookup is performed with in the configured Confluent Schema Registry under the subject given in avro-confluent.subject.

The Avro Schema Registry format can only be used in conjunction with the Apache Kafka SQL connector or the Upsert Kafka SQL Connector.

Dependencies #

In order to use the Avro Schema Registry format the following dependencies are required for both projects using a build automation tool (such as Maven or SBT) and SQL Client with SQL JAR bundles.

Maven dependency SQL Client
Download

For Maven, SBT, Gradle, or other build automation tools, please also ensure that Confluent’s maven repository at https://packages.confluent.io/maven/ is configured in your project’s build files.

How to create tables with Avro-Confluent format #

Example of a table using raw UTF-8 string as Kafka key and Avro records registered in the Schema Registry as Kafka values:

CREATE TABLE user_created (

  -- one column mapped to the Kafka raw UTF-8 key
  the_kafka_key STRING,
  
  -- a few columns mapped to the Avro fields of the Kafka value
  id STRING,
  name STRING, 
  email STRING

) WITH (

  'connector' = 'kafka',
  'topic' = 'user_events_example1',
  'properties.bootstrap.servers' = 'localhost:9092',

  -- UTF-8 string as Kafka keys, using the 'the_kafka_key' table column
  'key.format' = 'raw',
  'key.fields' = 'the_kafka_key',

  'value.format' = 'avro-confluent',
  'value.avro-confluent.url' = 'http://localhost:8082',
  'value.fields-include' = 'EXCEPT_KEY'
)

We can write data into the kafka table as follows:

INSERT INTO user_created
SELECT
  -- replicating the user id into a column mapped to the kafka key
  id as the_kafka_key,

  -- all values
  id, name, email
FROM some_table

Example of a table with both the Kafka key and value registered as Avro records in the Schema Registry:

CREATE TABLE user_created (
  
  -- one column mapped to the 'id' Avro field of the Kafka key
  kafka_key_id STRING,
  
  -- a few columns mapped to the Avro fields of the Kafka value
  id STRING,
  name STRING, 
  email STRING
  
) WITH (

  'connector' = 'kafka',
  'topic' = 'user_events_example2',
  'properties.bootstrap.servers' = 'localhost:9092',

  -- Watch out: schema evolution in the context of a Kafka key is almost never backward nor
  -- forward compatible due to hash partitioning.
  'key.format' = 'avro-confluent',
  'key.avro-confluent.url' = 'http://localhost:8082',
  'key.fields' = 'kafka_key_id',

  -- In this example, we want the Avro types of both the Kafka key and value to contain the field 'id'
  -- => adding a prefix to the table column associated to the Kafka key field avoids clashes
  'key.fields-prefix' = 'kafka_key_',

  'value.format' = 'avro-confluent',
  'value.avro-confluent.url' = 'http://localhost:8082',
  'value.fields-include' = 'EXCEPT_KEY',
   
  -- subjects have a default value since Flink 1.13, though can be overridden:
  'key.avro-confluent.subject' = 'user_events_example2-key2',
  'value.avro-confluent.subject' = 'user_events_example2-value2'
)

Example of a table using the upsert-kafka connector with the Kafka value registered as an Avro record in the Schema Registry:

CREATE TABLE user_created (
  
  -- one column mapped to the Kafka raw UTF-8 key
  kafka_key_id STRING,
  
  -- a few columns mapped to the Avro fields of the Kafka value
  id STRING, 
  name STRING, 
  email STRING, 
  
  -- upsert-kafka connector requires a primary key to define the upsert behavior
  PRIMARY KEY (kafka_key_id) NOT ENFORCED

) WITH (

  'connector' = 'upsert-kafka',
  'topic' = 'user_events_example3',
  'properties.bootstrap.servers' = 'localhost:9092',

  -- UTF-8 string as Kafka keys
  -- We don't specify 'key.fields' in this case since it's dictated by the primary key of the table
  'key.format' = 'raw',
  
  -- In this example, we want the Avro types of both the Kafka key and value to contain the field 'id'
  -- => adding a prefix to the table column associated to the kafka key field avoids clashes
  'key.fields-prefix' = 'kafka_key_',

  'value.format' = 'avro-confluent',
  'value.avro-confluent.url' = 'http://localhost:8082',
  'value.fields-include' = 'EXCEPT_KEY'
)

Format Options #

Option Required Forwarded Default Type Description
format
required no (none) String Specify what format to use, here should be 'avro-confluent'.
avro-confluent.basic-auth.credentials-source
optional yes (none) String Basic auth credentials source for Schema Registry
avro-confluent.basic-auth.user-info
optional yes (none) String Basic auth user info for schema registry
avro-confluent.bearer-auth.credentials-source
optional yes (none) String Bearer auth credentials source for Schema Registry
avro-confluent.bearer-auth.token
optional yes (none) String Bearer auth token for Schema Registry
avro-confluent.properties
optional yes (none) Map Properties map that is forwarded to the underlying Schema Registry. This is useful for options that are not officially exposed via Flink config options. However, note that Flink options have higher precedence.
avro-confluent.ssl.keystore.location
optional yes (none) String Location / File of SSL keystore
avro-confluent.ssl.keystore.password
optional yes (none) String Password for SSL keystore
avro-confluent.ssl.truststore.location
optional yes (none) String Location / File of SSL truststore
avro-confluent.ssl.truststore.password
optional yes (none) String Password for SSL truststore
avro-confluent.schema
optional no (none) String The schema registered or to be registered in the Confluent Schema Registry. If no schema is provided Flink converts the table schema to avro schema. The schema provided must match the table schema.
avro-confluent.subject
optional yes (none) String The Confluent Schema Registry subject under which to register the schema used by this format during serialization. By default, 'kafka' and 'upsert-kafka' connectors use '<topic_name>-value' or '<topic_name>-key' as the default subject name if this format is used as the value or key format. But for other connectors (e.g. 'filesystem'), the subject option is required when used as sink.
avro-confluent.url
required yes (none) String The URL of the Confluent Schema Registry to fetch/register schemas.

Data Type Mapping #

Currently, Apache Flink always uses the table schema to derive the Avro reader schema during deserialization and Avro writer schema during serialization. Explicitly defining an Avro schema is not supported yet. See the Apache Avro Format for the mapping between Avro and Flink DataTypes.

In addition to the types listed there, Flink supports reading/writing nullable types. Flink maps nullable types to Avro union(something, null), where something is the Avro type converted from Flink type.

You can refer to Avro Specification for more information about Avro types.