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Data delivery in ksqlDB

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Updated at April 25, 2025

ksqlDB is a database designed for stream processing messages from Apache Kafka® topics. Working with message streams in ksqlDB is similar to working with tables in a regular database. The ksqlDB table is automatically updated with data from a topic, and the data that you add to the ksqlDB table is sent to the Apache Kafka® topic. You can learn more in the ksqlDB documentation.

To set up data delivery from Managed Service for Apache Kafka® to ksqlDB:

  1. Set up Apache Kafka® integration for the ksqlDB database.
  2. Review the format of the data coming from Managed Service for Apache Kafka®.
  3. Create a table in ksqlDB to capture the data stream from the Apache Kafka® topic.
  4. Get test data from the Managed Service for Apache Kafka® cluster.
  5. Write the test data to ksqlDB.
  6. Check that the test data is present in the Apache Kafka® topic.

If you no longer need the resources you created, delete them.

The support cost includes:

  • Managed Service for Apache Kafka® cluster fee: Using computing resources allocated to hosts (including ZooKeeper hosts) and disk space (see Apache Kafka® pricing).
  • Fee for using public IP addresses if public access is enabled for cluster hosts (see Virtual Private Cloud pricing).

Getting started

  1. Create a Managed Service for Apache Kafka® cluster in any suitable configuration.

    • If the ksqlDB server is hosted on the internet, create a Managed Service for Apache Kafka® cluster with public access.

    • If the ksqlDB server is hosted in Yandex Cloud, create a Managed Service for Apache Kafka® cluster on the same cloud network as ksqlDB.

  2. Create topics in a Managed Service for Apache Kafka® cluster:

    1. Service topic named _confluent-ksql-default__command_topic set up as follows:
      • Replication factor: 1
      • Number of partitions: 1
      • Log cleanup policy: Delete
      • Log segment lifetime, ms: -1
      • Minimum number of in-sync replicas: 1
    2. Service topic named default_ksql_processing_log to write ksqlDB logs to. Use any settings.
    3. Data storage topic named locations. Use any settings.

  3. Create a user named ksql and assign them the ACCESS_ROLE_ADMIN role for all topics.

  4. Check that you can connect to the ksqlDB server.

  5. Install the kafkacat utility on the ksqlDB server and check that you can use it to connect to a Managed Service for Apache Kafka® cluster over SSL.

  6. Install the jq utility for stream processing JSON files on the ksqlDB server.

Set up Apache Kafka® integration for the ksqlDB database

  1. Connect to the ksqlDB server.

  2. Add the server's SSL certificate to the Java trusted certificate store (Java Key Store) so that ksqlDB can use this certificate for secure connections to the cluster hosts. Set a password in the -storepass parameter for additional storage protection:

    cd /etc/ksqldb && \
sudo keytool -importcert -alias YandexCA -file /usr/local/share/ca-certificates/Yandex/YandexInternalRootCA.crt \
-keystore ssl -storepass <certificate_store_password> \
--noprompt

  3. In the /etc/ksqldb/ksql-server.properties ksqlDB configuration file, specify the credentials for authentication in the Managed Service for Apache Kafka® cluster:

    bootstrap.servers=<broker_FQDN_1>:9091,...,<broker_FQDN_N>:9091
sasl.mechanism=SCRAM-SHA-512
security.protocol=SASL_SSL
ssl.truststore.location=/etc/ksqldb/ssl
ssl.truststore.password=<certificate_store_password>
sasl.jaas.config=org.apache.kafka.common.security.scram.ScramLoginModule required username="ksql" password="<ksql_user_password>";

    For info on how to get a broker host's FQDN, see this guide.

    You can request the cluster name with the list of clusters in the folder.

  4. In the ksqlDB logging configuration file named /etc/ksqldb/log4j.properties, configure logging to a Managed Service for Apache Kafka® cluster topic:

    log4j.appender.kafka_appender=org.apache.kafka.log4jappender.KafkaLog4jAppender
log4j.appender.kafka_appender.layout=io.confluent.common.logging.log4j.StructuredJsonLayout
log4j.appender.kafka_appender.BrokerList=<broker_FQDN_1>:9091,...,<broker_FQDN_N>:9091
log4j.appender.kafka_appender.Topic=default_ksql_processing_log
log4j.logger.io.confluent.ksql=INFO,kafka_appender

log4j.appender.kafka_appender.clientJaasConf=org.apache.kafka.common.security.scram.ScramLoginModule required username="ksql" password="<ksql_user_password>";
log4j.appender.kafka_appender.SecurityProtocol=SASL_SSL
log4j.appender.kafka_appender.SaslMechanism=SCRAM-SHA-512
log4j.appender.kafka_appender.SslTruststoreLocation=/etc/ksqldb/ssl
log4j.appender.kafka_appender.SslTruststorePassword=<certificate_store_password>

  5. Restart the ksqlDB service with the command below:

    sudo systemctl restart confluent-ksqldb.service

Review the format of the data coming from Managed Service for Apache Kafka®

The processing of the Managed Service for Apache Kafka® data stream depends on the Apache Kafka® message view format.

In the example, geodata is written to the locations Apache Kafka® topic in JSON format:

  • profileId: ID
  • latitude: Latitude
  • longitude: Longitude

This data will be transmitted as Apache Kafka® messages. Each message will contain a JSON object as a string in the following format:

{"profileId": "c2309eec", "latitude": 37.7877, "longitude": -122.4205}

ksqlDB stores the values of the corresponding parameters from Apache Kafka® messages in a three-column table.

Next, we are going to configure the fields of a ksqlDB data stream table.

Create a table in ksqlDB to capture the data stream from the Apache Kafka® topic

Create a table in ksqlDB for writing data from the Apache Kafka® topic. The table structure matches the format of the data from Managed Service for Apache Kafka®:

  1. Connect to the ksqlDB server.

  2. Run the ksql client using this command:

    ksql http://0.0.0.0:8088

  3. Run this request:

    CREATE STREAM riderLocations 
(
  profileId VARCHAR,
  latitude DOUBLE,
  longitude DOUBLE
) WITH 
(
  kafka_topic='locations', 
  value_format='json', 
  partitions=<number_of_"locations”_topic_sections>
);

    This data stream table will be automatically populated with messages from the Managed Service for Apache Kafka® cluster's locations topic. ksqlDB uses the ksql user's settings to read messages.

    For more information about creating a data stream table in the ksqlDB engine, see the ksqlDB documentation.

  4. Run this request:

    SELECT * FROM riderLocations WHERE 
         GEO_DISTANCE(latitude, longitude, 37.4133, -122.1162) <= 5 
         EMIT CHANGES;

    The query waits for real-time data to appear in the table.

Get test data from the Managed Service for Apache Kafka® cluster

  1. Connect to the ksqlDB server.

  2. Create a file named sample.json with the following test data:

    {
  "profileId": "c2309eec", 
  "latitude": 37.7877,
  "longitude": -122.4205
}

{
  "profileId": "4ab5cbad", 
  "latitude": 37.3952,
  "longitude": -122.0813
}

{
  "profileId": "4a7c7b41", 
  "latitude": 37.4049,
  "longitude": -122.0822
}

  3. Send a file named sample.json to the Managed Service for Apache Kafka® cluster's locations topic using jq and kafkacat:

    jq -rc . sample.json | kafkacat -P \
   -b <broker_FQDN_1>:9091,...,<broker_FQDN_N>:9091> \
   -t locations \
   -X security.protocol=SASL_SSL \
   -X sasl.mechanisms=SCRAM-SHA-512 \
   -X sasl.username=ksql \
   -X sasl.password="<ksql_user_password>" \
   -X ssl.ca.location=/usr/local/share/ca-certificates/Yandex/YandexInternalRootCA.crt -Z

    The information is sent using the ksql user. To learn more about setting up an SSL certificate and working with kafkacat, see Connecting to a Apache Kafka® cluster from applications.

  4. Make sure that the session displays the data sent to the topic:

    +--------------------------+--------------------------+------------------------+
|PROFILEID                 |LATITUDE                  |LONGITUDE               |
+--------------------------+--------------------------+------------------------+
|4ab5cbad                  |37.3952                   |-122.0813               | 
|4a7c7b41                  |37.4049                   |-122.0822               |

The data is read using the ksql user.

Write the test data to ksqlDB

  1. Connect to the ksqlDB server.

  2. Run the ksql client using this command:

    ksql http://0.0.0.0:8088

  3. Insert the test data into the riderLocations table:

    INSERT INTO riderLocations (profileId, latitude, longitude) VALUES ('18f4ea86', 37.3903, -122.0643);
INSERT INTO riderLocations (profileId, latitude, longitude) VALUES ('8b6eae59', 37.3944, -122.0813);
INSERT INTO riderLocations (profileId, latitude, longitude) VALUES ('4ddad000', 37.7857, -122.4011);

    This data is sent synchronously to the locations Apache Kafka® topic using the ksql user.

Check for records in Apache Kafka® topics

  1. Check messages in the Managed Service for Apache Kafka® cluster's locations topic using kafkacat and the ksql user:

    kafkacat -C \
 -b <broker_FQDN_1>:9091,...,<broker_FQDN_N>:9091 \
 -t locations \
 -X security.protocol=SASL_SSL \
 -X sasl.mechanisms=SCRAM-SHA-512 \
 -X sasl.username=ksql \
 -X sasl.password="<ksql_user_password>" \
 -X ssl.ca.location=/usr/local/share/ca-certificates/Yandex/YandexInternalRootCA.crt -Z -K:

  2. Make sure that the console displays the messages you inserted into the table.

  3. Check messages in the Managed Service for Apache Kafka® cluster's default_ksql_processing_log topic using kafkacat and the ksql user:

    kafkacat -C \
 -b <broker_FQDN_1>:9091,...,<broker_FQDN_N>:9091 \
 -t default_ksql_processing_log \
 -X security.protocol=SASL_SSL \
 -X sasl.mechanisms=SCRAM-SHA-512 \
 -X sasl.username=ksql \
 -X sasl.password="<ksql_user_password>" \
 -X ssl.ca.location=/usr/local/share/ca-certificates/Yandex/YandexInternalRootCA.crt -Z -K:

  4. Make sure the console displays ksqlDB log records.

Delete the resources you created

Some resources are not free of charge. To avoid paying for them, delete the resources you no longer need:

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