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This sample project is inspired from Yugabyte's IOT fleet management demo. The original example was built using microservice, this demo will transform that into an example which uses Fission functions.
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IOT Data Producer: This function generates data about a fleet of vehicles and their lattitude, longitude, speed, fuel level etc. This function can be trigerred every N seconds resembling a sensor sending the data. This function sends this data to the a Kafka topic: iotdata (Configured in environment variable of IOT data Producer function).
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IOT Data Consumer: Second function retrieves data from Kafka topics, runs some transformations and persists into Redis. This function is trigerred for every message in the Kafka topic.
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There are 4 more functions which read the data stored in Redis and expose them at REST endpoints: count, fuelavg, data & speedavg
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The Kafka consumer & 4 rest endpoint functions are all in same Spring project and form a single jar archive. The entrypoint for each function is different.
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IOT Web: The last queries the data from rest endpoints and renders using chart.js, HTML & jQuery. This dashboard page itself is a function rendered using python flask & HTML.
The resulting dashboard shows various trends. It also provides a way to invoke the IOT Data producer function which sends data to Kafka. Sample screen:
- A Kubernetes cluster with latest version of Fission
- Fission installation should have Kafka MQT installed with address of Kafka brokers.
- Docker and Fission-CLI on local machine
Easiest way to install Kafka is to start with Quickstart of Strimzi Kafka Operator.
$ kubectl create namespace kafka
$ kubectl apply -f 'https://strimzi.io/install/latest?namespace=kafka' -n kafka
$ kubectl apply -f https://strimzi.io/examples/latest/kafka/kafka-persistent-single.yaml -n kafka
We will setup redis without persistence and as a single instance (i.e. no master & slave). You can customize the command as per your needs based on instrcutions from here. Also note that for simplicity - Redis has been setup without a password.
$ kubectl create namespace redis
$ helm repo add bitnami https://charts.bitnami.com/bitnami
$ helm install redis-single --namespace redis \
--set usePassword=false \
--set cluster.enabled=false \
--set master.persistence.enabled=false \
--set master.disableCommands={"FLUSHALL"} \
bitnami/redis
Note: The parameter --set master.disableCommands={"FLUSHALL"} enables the FLUSHDB command in Redis, which allows to delete everything in a database. This is needed for the Flush Redis Data action in this example, but should be used carefully. To disbale the FLUSHDB command, just remove the line --set master.disableCommands={"FLUSHALL"} \
Some key configuration need to be checked for having proper values:
- You will also need to update the Fission installation if not already to enable the Kafka MQT trigger with appropriate configuration of broker address etc.
## Kafka: enable and configure the details
kafka:
enabled: true
# note: below link is only for reference.
# Please use the brokers link for your kafka here.
brokers: 'my-cluster-kafka-0.my-cluster-kafka-brokers.kafka.svc:9092' # or your-bootstrap-server.kafka:9092/9093
authentication:
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In specs/env-java.yaml check
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KAFKA_ADDR is pointing to appropriate address of Kafka cluster created in earlier section (Current default to my-cluster-kafka-0.my-cluster-kafka-brokers.kafka.svc:9092)
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REDIS_ADDR is pointing to correct Redis address within cluster (Default "redis-single-master.redis")
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CONSUMER_SLEEP_DELAY - is right now set to 300 second. This is delay which consumer function introduces before consuming a message.
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PRODUCER_MSG_PER_SECOND - is set to 300 and is number of Kafka messages that producer produces every second.
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The functions are built inside the cluster after the fission spec apply command.
- All the environment, package and function definitions are in specs directory. To create all of them run command:
$ fission spec apply
- You can check details of deployed functions:
$ fission fn list
- To generate some sample data, you can run the Kafka producer (kp) function a few times or create a trigger which invokes the function every N minutes:
# Creating trigger to produce data every 5 minutes
$ fission tt create --name kptrigger --function kp --cron '@every 5m'
trigger 'kptrigger' created
Current Server Time: 2018-08-09T10:58:38Z
Next 1 invocation: 2018-08-09T11:03:38Z
$ fission tt list
NAME CRON FUNCTION_NAME
kptrigger @every 5m kp
# Calling the producer function directly.
$ fission fn test --name kp
- After the Kafka producer function has trigerred at least once, you can open the dashboard function in browser:
http://$FISSION_ROUTER/iot/index.html