Event registry
Overview
The Event Registry maintains a catalog of the event types that can be consumed from the different Brokers. It introduces a new EventType CRD in order to persist the event type’s information in the cluster’s data store.
Before you begin
- Read about the Broker and Trigger objects.
- Be familiar with the CloudEvents spec, particularly the Context Attributes section.
- Be familiar with the Eventing sources.
Discovering events with the registry
Using the registry, you can discover the different types of events you can consume from the Brokers’ event meshes. The registry is designed for use with the Broker/Trigger model and aims to help you create Triggers.
To see the event types available to subscribe to, enter the following command:
kubectl get eventtypes -n <namespace>
Below, we show an example output of executing the above command using the default
namespace in a testing cluster. We will address the question of how this registry was populated in a later section.
NAME TYPE SOURCE SCHEMA BROKER DESCRIPTION READY REASON
dev.knative.source.github.push-34cnb dev.knative.source.github.push https://github.com/knative/eventing default True
dev.knative.source.github.push-44svn dev.knative.source.github.push https://github.com/knative/serving default True
dev.knative.source.github.pullrequest-86jhv dev.knative.source.github.pull_request https://github.com/knative/eventing default True
dev.knative.source.github.pullrequest-97shf dev.knative.source.github.pull_request https://github.com/knative/serving default True
dev.knative.kafka.event-cjvcr dev.knative.kafka.event /apis/v1/namespaces/default/kafkasources/kafka-sample#news default True
dev.knative.kafka.event-tdt48 dev.knative.kafka.event /apis/v1/namespaces/default/kafkasources/kafka-sample#knative-demo default True
google.pubsub.topic.publish-hrxhh google.pubsub.topic.publish //pubsub.googleapis.com/knative/topics/testing dev False BrokerIsNotReady
We can see that there are seven different EventTypes in the registry of the default
namespace. Let’s pick the first one and see what the EventType yaml looks like:
kubectl get eventtype dev.knative.source.github.push-34cnb -o yaml
Omitting irrelevant fields:
apiVersion: eventing.knative.dev/v1
kind: EventType
metadata:
name: dev.knative.source.github.push-34cnb
namespace: default
generateName: dev.knative.source.github.push-
spec:
type: dev.knative.source.github.push
source: https://github.com/knative/eventing
schema:
description:
broker: default
status:
conditions:
- status: "True"
type: BrokerExists
- status: "True"
type: BrokerReady
- status: "True"
type: Ready
From a consumer standpoint, the fields that matter the most are the spec
fields as well as the status
.
The name
is advisory (i.e., non-authoritative), and we typically generate it (generateName
) to avoid naming collisions (e.g., two EventTypes listening to pull requests on two different Github repositories). As name
nor generateName
are needed for consumers to create Triggers, we defer their discussion for later on.
Regarding status
, its main purpose it to tell consumers (or cluster operators) whether the EventType is ready for consumption or not. That readiness is based on the Broker being ready. We can see from the example output that the PubSub EventType is not ready, as its dev
Broker isn’t.
Let’s talk in more details about the spec
fields:
type
: is authoritative. This refers to the CloudEvent type as it enters into the event mesh. It is mandatory. Event consumers can (and in most cases would) create Triggers filtering on this attribute.source
: refers to the CloudEvent source as it enters into the event mesh. It is mandatory. Event consumers can (and in most cases would) create Triggers filtering on this attribute.schema
: is a valid URI with the EventType schema. It may be a JSON schema, a protobuf schema, etc. It is optional.description
: is a string describing what the EventType is about. It is optional.broker
refers to the Broker that can provide the EventType. It is mandatory.
Subscribing to events
Now that you know what events can be consumed from the Brokers’ event meshes, you can create Triggers to subscribe to particular events.
Here are a few example Triggers that subscribe to events using exact matching on type
and/or source
, based on the above registry output:
Subscribes to GitHub pushes from any source.
apiVersion: eventing.knative.dev/v1
kind: Trigger
metadata:
name: push-trigger
namespace: default
spec:
broker: default
filter:
attributes:
type: dev.knative.source.github.push
subscriber:
ref:
apiVersion: serving.knative.dev/v1
kind: Service
name: push-service
As per the registry output above, only two sources exist for that particular type of event (knative’s eventing and serving repositories). If later on new sources are registered for GitHub pushes, this trigger will be able to consume them.
Subscribes to GitHub pull requests from knative’s eventing repository.
apiVersion: eventing.knative.dev/v1
kind: Trigger
metadata:
name: gh-knative-eventing-pull-trigger
namespace: default
spec:
broker: default
filter:
attributes:
type: dev.knative.source.github.pull_request
source: https://github.com/knative/eventing
subscriber:
ref:
apiVersion: serving.knative.dev/v1
kind: Service
name: gh-knative-eventing-pull-service
Subscribes to Kafka messages sent to the knative-demo topic
apiVersion: eventing.knative.dev/v1
kind: Trigger
metadata:
name: kafka-knative-demo-trigger
namespace: default
spec:
broker: default
filter:
attributes:
type: dev.knative.kafka.event
source: /apis/v1/namespaces/default/kafkasources/kafka-sample#knative-demo
subscriber:
ref:
apiVersion: serving.knative.dev/v1
kind: Service
name: kafka-knative-demo-service
Subscribes to PubSub messages from GCP’s knative project sent to the testing topic
apiVersion: eventing.knative.dev/v1
kind: Trigger
metadata:
name: gcp-pubsub-knative-testing-trigger
namespace: default
spec:
broker: dev
filter:
attributes:
source: //pubsub.googleapis.com/knative/topics/testing
subscriber:
ref:
apiVersion: serving.knative.dev/v1
kind: Service
name: gcp-pubsub-knative-testing-service
Note that events won’t be able to be consumed by this Trigger’s subscriber until the Broker becomes ready.
Populating the registry
Now that we know how to discover events using the registry and how we can leverage that information to subscribe to events of interest, let’s move on to the next topic: How do we actually populate the registry in the first place?
Manual Registration
In order to populate the registry, a cluster configurator can manually register the EventTypes. This means that the configurator can simply apply EventTypes yaml files, just as with any other Kubernetes resource:
kubectl apply -f <event_type.yaml>
Automatic Registration
As Manual Registration might be tedious and error-prone, we also support automatic registration of EventTypes. The creation of the EventTypes is done upon instantiation of an Event Source. We currently support automatic registration of EventTypes for the following Event Sources:
- CronJobSource
- ApiServerSource
- GithubSource
- GcpPubSubSource
- KafkaSource
- AwsSqsSource
Let’s look at an example, in particular, the KafkaSource sample we used to populate the registry in our testing cluster. Below is what the yaml looks like.
apiVersion: sources.knative.dev/v1beta1
kind: KafkaSource
metadata:
name: kafka-sample
namespace: default
spec:
bootstrapServers:
- my-cluster-kafka-bootstrap.kafka:9092
topics:
- knative-demo
- news
sink:
apiVersion: eventing.knative.dev/v1
kind: Broker
name: default
If you are interested in more information regarding configuration options of a KafkaSource, please refer to the KafKaSource sample.
For this discussion, the relevant information from the yaml above are the
sink
and thetopics
. We observe that thesink
is of kindBroker
. We currently only support automatic creation of EventTypes for Sources instances that point to Brokers. Regardingtopics
, this is what we use to generate the EventTypessource
field, which is equal to the CloudEvent source attribute.When you
kubectl apply
this yaml, the KafkaSourcekafka-source-sample
will be instantiated, and two EventTypes will be added to the registry (as there are two topics). You can see that in the registry example output from the previous sections.
What’s next
To get started, install Knative Eventing if you haven’t yet, and try experimenting with different Event Sources in your Knative cluster.
- Installing Knative in case you haven’t already done so.
- Getting started with eventing in case you haven’t read it.
- Knative code samples is a useful resource to better understand some of the Event Sources (remember to point them to a Broker if you want automatic registration of EventTypes in the registry).
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