Knative Kafka Broker

The Knative Kafka Broker is an Apache Kafka native implementation of the Knative Broker API that reduces network hops, supports any Kafka version, and has a better integration with Kafka for the Broker and Trigger model.

Notable features are:

Prerequisites

  1. Installing Eventing using YAML files.
  2. An Apache Kafka cluster (if you’re just getting started you can follow Strimzi Quickstart page).

Installation

  1. Install the Kafka controller by entering the following command:

    1. kubectl apply --filename https://github.com/knative-sandbox/eventing-kafka-broker/releases/download/knative-v1.5.2/eventing-kafka-controller.yaml

  2. Install the Kafka Broker data plane by entering the following command:

    1. kubectl apply --filename https://github.com/knative-sandbox/eventing-kafka-broker/releases/download/knative-v1.5.2/eventing-kafka-broker.yaml

  3. Verify that kafka-controller, kafka-broker-receiver and kafka-broker-dispatcher are running, by entering the following command:

    1. kubectl get deployments.apps -n knative-eventing

    Example output:

    1. NAME                           READY   UP-TO-DATE   AVAILABLE   AGE
    2. eventing-controller            1/1     1            1           10s
    3. eventing-webhook               1/1     1            1           9s
    4. kafka-controller               1/1     1            1           3s
    5. kafka-broker-dispatcher        1/1     1            1           4s
    6. kafka-broker-receiver          1/1     1            1           5s

Create a Kafka Broker

A Kafka Broker object looks like this:

  1. apiVersion: eventing.knative.dev/v1
  2. kind: Broker
  3. metadata:
  4.   annotations:
  5.     # case-sensitive
  6.     eventing.knative.dev/broker.class: Kafka
  7.     # Optional annotation to point to an externally managed kafka topic:
  8.     # kafka.eventing.knative.dev/external.topic: <topic-name>
  9.   name: default
  10.   namespace: default
  11. spec:
  12.   # Configuration specific to this broker.
  13.   config:
  14.     apiVersion: v1
  15.     kind: ConfigMap
  16.     name: kafka-broker-config
  17.     namespace: knative-eventing
  18.   # Optional dead letter sink, you can specify either:
  19.   #  - deadLetterSink.ref, which is a reference to a Callable
  20.   #  - deadLetterSink.uri, which is an absolute URI to a Callable (It can potentially be out of the Kubernetes cluster)
  21.   delivery:
  22.     deadLetterSink:
  23.       ref:
  24.         apiVersion: serving.knative.dev/v1
  25.         kind: Service
  26.         name: dlq-service

spec.config should reference any ConfigMap that looks like the following:

  1. apiVersion: v1
  2. kind: ConfigMap
  3. metadata:
  4.   name: kafka-broker-config
  5.   namespace: knative-eventing
  6. data:
  7.   # Number of topic partitions
  8.   default.topic.partitions: "10"
  9.   # Replication factor of topic messages.
  10.   default.topic.replication.factor: "1"
  11.   # A comma separated list of bootstrap servers. (It can be in or out the k8s cluster)
  12.   bootstrap.servers: "my-cluster-kafka-bootstrap.kafka:9092"

This ConfigMap is installed in the cluster. You can edit the configuration or create a new one with the same values depending on your needs.

Note

The default.topic.replication.factor value must be less than or equal to the number of Kafka broker instances in your cluster. For example, if you only have one Kafka broker, the default.topic.replication.factor value should not be more than 1.

Set as default broker implementation

To set the Kafka broker as the default implementation for all brokers in the Knative deployment, you can apply global settings by modifying the config-br-defaults ConfigMap in the knative-eventing namespace.

This allows you to avoid configuring individual or per-namespace settings for each broker, such as metadata.annotations.eventing.knative.dev/broker.class or spec.config.

The following YAML is an example of a config-br-defaults ConfigMap using Kafka broker as the default implementation.

  1. apiVersion: v1
  2. kind: ConfigMap
  3. metadata:
  4.   name: config-br-defaults
  5.   namespace: knative-eventing
  6. data:
  7.   default-br-config: |
  8.     clusterDefault:
  9.       brokerClass: Kafka
  10.       apiVersion: v1
  11.       kind: ConfigMap
  12.       name: kafka-broker-config
  13.       namespace: knative-eventing
  14.     namespaceDefaults:
  15.       namespace1:
  16.         brokerClass: Kafka
  17.         apiVersion: v1
  18.         kind: ConfigMap
  19.         name: kafka-broker-config
  20.         namespace: knative-eventing
  21.       namespace2:
  22.         brokerClass: Kafka
  23.         apiVersion: v1
  24.         kind: ConfigMap
  25.         name: kafka-broker-config
  26.         namespace: knative-eventing

Security

Apache Kafka supports different security features, Knative supports the followings:

To enable security features, in the ConfigMap referenced by broker.spec.config, we can reference a Secret:

  1. apiVersion: v1
  2. kind: ConfigMap
  3. metadata:
  4.    name: kafka-broker-config
  5.    namespace: knative-eventing
  6. data:
  7.    # Other configurations
  8.    # ...
  10.    # Reference a Secret called my_secret
  11.    auth.secret.ref.name: my_secret

The Secret my_secret must exist in the same namespace of the ConfigMap referenced by broker.spec.config, in this case: knative-eventing.

Note

Certificates and keys must be in PEM format.

Authentication using SASL

Knative supports the following SASL mechanisms:

  • PLAIN
  • SCRAM-SHA-256
  • SCRAM-SHA-512

To use a specific SASL mechanism replace <sasl_mechanism> with the mechanism of your choice.

Authentication using SASL without encryption

  1. kubectl create secret --namespace <namespace> generic <my_secret> \
  2.   --from-literal=protocol=SASL_PLAINTEXT \
  3.   --from-literal=sasl.mechanism=<sasl_mechanism> \
  4.   --from-literal=user=<my_user> \
  5.   --from-literal=password=<my_password>

Authentication using SASL and encryption using SSL

  1. kubectl create secret --namespace <namespace> generic <my_secret> \
  2.   --from-literal=protocol=SASL_SSL \
  3.   --from-literal=sasl.mechanism=<sasl_mechanism> \
  4.   --from-file=ca.crt=caroot.pem \
  5.   --from-literal=user=<my_user> \
  6.   --from-literal=password=<my_password>

Encryption using SSL without client authentication

  1. kubectl create secret --namespace <namespace> generic <my_secret> \
  2.   --from-literal=protocol=SSL \
  3.   --from-file=ca.crt=<my_caroot.pem_file_path> \
  4.   --from-literal=user.skip=true

Authentication and encryption using SSL

  1. kubectl create secret --namespace <namespace> generic <my_secret> \
  2.   --from-literal=protocol=SSL \
  3.   --from-file=ca.crt=<my_caroot.pem_file_path> \
  4.   --from-file=user.crt=<my_cert.pem_file_path> \
  5.   --from-file=user.key=<my_key.pem_file_path>

Note

ca.crt can be omitted to fallback to use system’s root CA set.

Bring your own topic

By default the Knative Kafka Broker creates its own internal topic, however it is possible to point to an externally managed topic, using the kafka.eventing.knative.dev/external.topic annotation:

  1. apiVersion: eventing.knative.dev/v1
  2. kind: Broker
  3. metadata:
  4.   annotations:
  5.     # case-sensitive
  6.     eventing.knative.dev/broker.class: Kafka
  7.     kafka.eventing.knative.dev/external.topic: <my-topic-name>
  8.   name: default
  9.   namespace: default
  10. spec:
  11.   # other spec fields ...

Note

When using an external topic, the Knative Kafka Broker does not own the topic and is not responsible for managing the topic. This includes the topic lifecycle or its general validity. Other restrictions for general access to the topic may apply. See the documentation about using Access Control Lists (ACLs).

Consumer Offsets Commit Interval

Kafka consumers keep track of the last successfully sent events by committing offsets.

Knative Kafka Broker commits the offset every auto.commit.interval.ms milliseconds.

Note

To prevent negative impacts to performance, it is not recommended committing offsets every time an event is successfully sent to a subscriber.

The interval can be changed by changing the config-kafka-broker-data-plane ConfigMap in the knative-eventing namespace by modifying the parameter auto.commit.interval.ms as follows:

  1. apiVersion: v1
  2. kind: ConfigMap
  3. metadata:
  4.   name: config-kafka-broker-data-plane
  5.   namespace: knative-eventing
  6. data:
  7.   # Some configurations omitted ...
  8.   config-kafka-broker-consumer.properties: |
  9.     # Some configurations omitted ...
  11.     # Commit the offset every 5000 millisecods (5 seconds)
  12.     auto.commit.interval.ms=5000

Note

Knative Kafka Broker guarantees at least once delivery, which means that your applications may receive duplicate events. A higher commit interval means that there is a higher probability of receiving duplicate events, because when a Consumer restarts, it restarts from the last committed offset.

Kafka Producer and Consumer configurations

Knative exposes all available Kafka producer and consumer configurations that can be modified to suit your workloads.

You can change these configurations by modifying the config-kafka-broker-data-plane ConfigMap in the knative-eventing namespace.

Documentation for the settings available in this ConfigMap is available on the Apache Kafka website, in particular, Producer configurations and Consumer configurations.

Enable debug logging for data plane components

The following YAML shows the default logging configuration for data plane components, that is created during the installation step:

  1. apiVersion: v1
  2. kind: ConfigMap
  3. metadata:
  4.   name: kafka-config-logging
  5.   namespace: knative-eventing
  6. data:
  7.   config.xml: |
  8.     <configuration>
  9.       <appender name="jsonConsoleAppender" class="ch.qos.logback.core.ConsoleAppender">
  10.         <encoder class="net.logstash.logback.encoder.LogstashEncoder"/>
  11.       </appender>
  12.       <root level="INFO">
  13.         <appender-ref ref="jsonConsoleAppender"/>
  14.       </root>
  15.     </configuration>

To change the logging level to DEBUG, you must:

  1. Apply the following kafka-config-logging ConfigMap or replace level="INFO" with level="DEBUG" to the ConfigMap kafka-config-logging:

    1. apiVersion: v1
    2. kind: ConfigMap
    3. metadata:
    4.   name: kafka-config-logging
    5.   namespace: knative-eventing
    6. data:
    7.   config.xml: |
    8.     <configuration>
    9.       <appender name="jsonConsoleAppender" class="ch.qos.logback.core.ConsoleAppender">
    10.         <encoder class="net.logstash.logback.encoder.LogstashEncoder"/>
    11.       </appender>
    12.       <root level="DEBUG">
    13.         <appender-ref ref="jsonConsoleAppender"/>
    14.       </root>
    15.     </configuration>

  2. Restart the kafka-broker-receiver and the kafka-broker-dispatcher, by entering the following commands:

    1. kubectl rollout restart deployment -n knative-eventing kafka-broker-receiver
    2. kubectl rollout restart deployment -n knative-eventing kafka-broker-dispatcher

Configuring the order of delivered events

When dispatching events, the Kafka broker can be configured to support different delivery ordering guarantees.

You can configure the delivery order of events using the kafka.eventing.knative.dev/delivery.order annotation on the Trigger object:

  1. apiVersion: eventing.knative.dev/v1
  2. kind: Trigger
  3. metadata:
  4.   name: my-service-trigger
  5.   annotations:
  6.      kafka.eventing.knative.dev/delivery.order: ordered
  7. spec:
  8.   broker: my-kafka-broker
  9.   subscriber:
  10.     ref:
  11.       apiVersion: serving.knative.dev/v1
  12.       kind: Service
  13.       name: my-service

The supported consumer delivery guarantees are:

  • unordered: An unordered consumer is a non-blocking consumer that delivers messages unordered, while preserving proper offset management.
  • ordered: An ordered consumer is a per-partition blocking consumer that waits for a successful response from the CloudEvent subscriber before it delivers the next message of the partition.

unordered is the default ordering guarantee, while ordered is considered unstable, use with caution.

Additional information