NATS Jetstream
NATS Jetstream connector is available in Fission 1.17 or higher.
This tutorial will demonstrate how to use a NATS Jetstream trigger to invoke a function. We’ll assume you have Fission and Kubernetes installed. If not, please head over to the install guide.
You will also need NATS server setup which is reachable from the Fission Kubernetes cluster.
Installation
If you want to set up NATS Jetstream server on the Kubernetes cluster, you can use the information here or you can check the documentation for nats jetstream docs. You can also set up NATS jetstream server with this yaml file.(Monitoring is already configured)
NATS jetstream keda connector uses NATS monitoring to scale the deployment, to enable monitoring in nats we need to pass flags as below, you can get more information here
-m, --http_port PORT HTTP PORT for monitoring -ms,--https_port PORT Use HTTPS PORT for monitoring
$ kubectl apply -f jetstream-server.yaml
$ kubectl apply -f jetstream-server.yaml
deployment.apps/nats-jetstream-deployment created
service/nats-jetstream created
$ kubectl get po
NAME READY STATUS RESTARTS AGE
nats-jetstream-deployment-9b588f5d-vb2fv 1/1 Running 1 5h40m
You can find the above file here.
Verify if monitoring endpoint is reachable by exec into any container
$ kubectl create deployment test --image=nginx
$ kubectl exec -it test-844b65666c-8kppc /bin/bash
$ curl nats-jetstream.default.svc.cluster.local:8222
the response should be a success response code.
Overview
Before we dive into details, let’s walk through overall flow of event and functions involved.
- A Go producer function (producer) which acts as a producer creates a stream named
input
and stream subject namedinput.created
. It then pushes some message to the created stream. - Fission NATS Jetstream trigger activates and invokes another function (consumer) with message received from producer. In our example we have named the function -
helloworld
. - The consumer function (helloworld) gets body of message and returns a response.
- Fission NATS jetstream trigger takes the response of consumer function (helloworld) and drops the message in a response stream’s subject named
output.response-topic
. If there is an error, the message is dropped in error stream’s subject namederroutput.error-topic
.
Building the app
Producer Function
The producer function is a go program which creates a message and drops into a NATS jetstream stream input
.
For brevity all values have been hard coded in the code itself.
There are different ways of loading this function into cluster. We have created fission function here.
All the files required are present here.
Steps for deploying producer function:
fission environment create --name go --image fission/go-env-1.16 --builder fission/go-builder-1.16
fission fn create --name producer --env go --src "producer/*" --entrypoint Handler
the above step creates an environment go
and creates a producer
function in it.
The go file mentioned above-
- creates a NATS connection and gets the Jetstream context
- creates the input stream, response and error response stream which are later required by the consumer
- publishes some data to the input stream
Consumer function
The consumer function is golang function which takes the body of the request, appends a “Hello” and returns the resulting string. The file is present here.
Let’s create function:
fission fn create --name helloworld --env go --src hello.go --entrypoint Handler
Connecting via trigger
We have both the functions ready but the connection between them is the missing glue.
Let’s create a message queue trigger which will invoke the consumer func every time there is a message in input
stream.
The response will be sent to output
stream and in case of consumerfunc invocation fails, the error is written to erroutput
stream.
fission mqt create --name jetstreamtest --function helloworld --mqtype nats-jetstream --mqtkind keda --topic input.created --resptopic output.response-topic --errortopic erroutput.error-topic --maxretries 3 --metadata stream=input --metadata natsServerMonitoringEndpoint=nats-jetstream.default.svc.cluster.local:8222 --metadata natsServer=nats://nats-jetstream.default.svc.cluster.local:4222 --metadata consumer=fission_consumer
Parameter list:
- topic - Subject from which messages are read. It is generally of form -
streamname.subjectname
- resptopic - Subject to write responses on success response. It is generally of form -
response_stream_name.response_subject_name
where streamname should be different than input stream. - errortopic - Subject to write errors on failure. It is generally of form -
err_response_stream_name.error_subject_name
- maxretries - Maximum number of times an http endpoint will be retried upon failure.
- stream - stream from which connector will read messages.
- natsServerMonitoringEndpoint - Location of the Nats Jetstream Monitoring
- natsServer- Location of the Nats Jetstream
- consumer - consumer is through which our system keeps monitoring the request. And creates resources(like pods) accordingly
Testing it out
Let’s invoke the producer function to insert some messages in input
stream.
$ fission fn test --name=producer
sample output-
Order with OrderID:1 has been published
Order with OrderID:2 has been published
Order with OrderID:3 has been published
Successfully sent to request-topic
There are multiple ways to verify that the consumer function received the messages from input stream. Two are mentioned below-
- check for logs in the fission
helloworld
function’s pod
$ fission fn pod --name=helloworld
NAME NAMESPACE READY STATUS IP EXECUTORTYPE MANAGED
poolmgr-go-default-6312601-6d6b85ff4f-b8m7g fission-function 2/2 Running 10.244.0.188 poolmgr false
or
$ kubectl -n fission-function get pod -l functionName=helloworld
NAME READY STATUS RESTARTS AGE
poolmgr-go-default-6312601-6d6b85ff4f-b8m7g 2/2 Terminating 0 30m
Sample output:
$ kubectl -n fission-function logs -f -c go poolmgr-go-default-6312601-6d6b85ff4f-b8m7g
2022/08/24 06:16:17 listening on 8888 ...
2022/08/24 06:42:23 specializing ...
2022/08/24 06:42:23 loading plugin from /userfunc/deployarchive/helloworld-eb3f240a-d6bb-4728-b806-f426ce0e255a-vyh8tf-oa1sgs
2022/08/24 06:42:23 done
Hello: Test1
Hello: Test2
Hello: Test3
- check jetstream pods logs-
$ kubectl logs deploy/jetstreamtest
{"level":"info","ts":1661322333.8198879,"caller":"app/main.go:90","msg":"Done processing message","messsage":"Hello Test1"}
{"level":"info","ts":1661322333.8208282,"caller":"app/main.go:90","msg":"Done processing message","messsage":"Hello Test2"}
{"level":"info","ts":1661322333.8217056,"caller":"app/main.go:90","msg":"Done processing message","messsage":"Hello Test3"}
Note
- Jetstream connector creates a push based subscriber to get the data. Make sure the
consumer
provided inmqt
is of type pull. Also if the consumer is not present the connector will create it. - The connector needs all the stream mentioned(topic,respTopic,errTopic streams) to be present otherwise it will fail. For this example we have created all these streams in producer function. So before publisher publishes the messages it also creates the required stream if not present.