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Monitoring Kafka Using Prometheus operator
Prometheus operator provides simple and Kubernetes native way to deploy and configure Prometheus server. This tutorial will show you how to use Prometheus operator to monitor Kafka database deployed with KubeDB.
Before You Begin
At first, you need to have a Kubernetes cluster, and the kubectl command-line tool must be configured to communicate with your cluster. If you do not already have a cluster, you can create one locally by using kind.
To learn how Prometheus monitoring works with KubeDB in general, please visit here.
We need a Prometheus operator instance running. If you don’t already have a running instance, you can deploy one using this helm chart here.
To keep Prometheus resources isolated, we are going to use a separate namespace called
monitoring
to deploy the prometheus operator helm chart. Alternatively, you can use--create-namespace
flag while deploying prometheus. We are going to deploy database indemo
namespace.$ kubectl create ns monitoring namespace/monitoring created $ kubectl create ns demo namespace/demo created
Note: YAML files used in this tutorial are stored in docs/examples/kafka folder in GitHub repository kubedb/docs.
Find out required labels for ServiceMonitor
We need to know the labels used to select ServiceMonitor
by a Prometheus
crd. We are going to provide these labels in spec.monitor.prometheus.serviceMonitor.labels
field of Kafka crd so that KubeDB creates ServiceMonitor
object accordingly.
At first, let’s find out the available Prometheus server in our cluster.
$ kubectl get prometheus --all-namespaces
NAMESPACE NAME VERSION DESIRED READY RECONCILED AVAILABLE AGE
monitoring prometheus-kube-prometheus-prometheus v2.42.0 1 1 True True 2d23h
If you don’t have any Prometheus server running in your cluster, deploy one following the guide specified in Before You Begin section.
Now, let’s view the YAML of the available Prometheus server prometheus
in monitoring
namespace.
$ kubectl get prometheus -n monitoring prometheus-kube-prometheus-prometheus -o yaml
apiVersion: monitoring.coreos.com/v1
kind: Prometheus
metadata:
annotations:
meta.helm.sh/release-name: prometheus
meta.helm.sh/release-namespace: monitoring
creationTimestamp: "2023-03-27T07:56:04Z"
generation: 1
labels:
app: kube-prometheus-stack-prometheus
app.kubernetes.io/instance: prometheus
app.kubernetes.io/managed-by: Helm
app.kubernetes.io/part-of: kube-prometheus-stack
app.kubernetes.io/version: 45.7.1
chart: kube-prometheus-stack-45.7.1
heritage: Helm
release: prometheus
name: prometheus-kube-prometheus-prometheus
namespace: monitoring
resourceVersion: "638797"
uid: 0d1e7b8a-44ae-4794-ab45-95a5d7ae7f91
spec:
alerting:
alertmanagers:
- apiVersion: v2
name: prometheus-kube-prometheus-alertmanager
namespace: monitoring
pathPrefix: /
port: http-web
enableAdminAPI: false
evaluationInterval: 30s
externalUrl: http://prometheus-kube-prometheus-prometheus.monitoring:9090
hostNetwork: false
image: quay.io/prometheus/prometheus:v2.42.0
listenLocal: false
logFormat: logfmt
logLevel: info
paused: false
podMonitorNamespaceSelector: {}
podMonitorSelector:
matchLabels:
release: prometheus
portName: http-web
probeNamespaceSelector: {}
probeSelector:
matchLabels:
release: prometheus
replicas: 1
retention: 10d
routePrefix: /
ruleNamespaceSelector: {}
ruleSelector:
matchLabels:
release: prometheus
scrapeInterval: 30s
securityContext:
fsGroup: 2000
runAsGroup: 2000
runAsNonRoot: true
runAsUser: 1000
serviceAccountName: prometheus-kube-prometheus-prometheus
serviceMonitorNamespaceSelector: {}
serviceMonitorSelector:
matchLabels:
release: prometheus
shards: 1
version: v2.42.0
walCompression: true
status:
availableReplicas: 1
conditions:
- lastTransitionTime: "2023-03-27T07:56:23Z"
observedGeneration: 1
status: "True"
type: Available
- lastTransitionTime: "2023-03-30T03:39:18Z"
observedGeneration: 1
status: "True"
type: Reconciled
paused: false
replicas: 1
shardStatuses:
- availableReplicas: 1
replicas: 1
shardID: "0"
unavailableReplicas: 0
updatedReplicas: 1
unavailableReplicas: 0
updatedReplicas: 1
Notice the spec.serviceMonitorSelector
section. Here, release: prometheus
label is used to select ServiceMonitor
crd. So, we are going to use this label in spec.monitor.prometheus.serviceMonitor.labels
field of Kafka crd.
Deploy Kafka with Monitoring Enabled
At first, let’s deploy a Kafka database with monitoring enabled. Below is the Kafka object that we are going to create.
apiVersion: kubedb.com/v1alpha2
kind: Kafka
metadata:
name: kafka
namespace: demo
spec:
enableSSL: true
tls:
issuerRef:
apiGroup: cert-manager.io
name: kafka-ca-issuer
kind: Issuer
replicas: 3
version: 3.4.0
storage:
accessModes:
- ReadWriteOnce
resources:
requests:
storage: 1Gi
storageClassName: standard
monitor:
agent: prometheus.io/operator
prometheus:
exporter:
port: 9091
serviceMonitor:
labels:
release: prometheus
interval: 10s
storageType: Durable
terminationPolicy: WipeOut
Here,
monitor.agent: prometheus.io/operator
indicates that we are going to monitor this server using Prometheus operator.monitor.prometheus.serviceMonitor.labels
specifies that KubeDB should createServiceMonitor
with these labels.monitor.prometheus.interval
indicates that the Prometheus server should scrape metrics from this database with 10 seconds interval.
Let’s create the kafka object that we have shown above,
$ kubectl create -f https://github.com/kubedb/docs/raw/v2024.2.14/docs/examples/kafka/monitoring/kf-with-monirtoring.yaml
kafkas.kubedb.com/kafka created
Now, wait for the database to go into Running
state.
$ kubectl get kf -n demo kafka
NAME TYPE VERSION STATUS AGE
kafka kubedb.com/v1alpha2 3.4.0 Ready 2m24s
KubeDB will create a separate stats service with name {Kafka crd name}-stats
for monitoring purpose.
$ kubectl get svc -n demo --selector="app.kubernetes.io/instance=kafka"
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
kafka-pods ClusterIP None <none> 9092/TCP,9093/TCP,29092/TCP 3m22s
kafka-stats ClusterIP 10.96.235.251 <none> 9091/TCP 3m19s
Here, kafka-stats
service has been created for monitoring purpose.
Let’s describe this stats service.
$ kubectl describe svc -n demo kafka-stats
Name: kafka-stats
Namespace: demo
Labels: app.kubernetes.io/component=database
app.kubernetes.io/instance=kafka
app.kubernetes.io/managed-by=kubedb.com
app.kubernetes.io/name=kafkas.kubedb.com
kubedb.com/role=stats
Annotations: monitoring.appscode.com/agent: prometheus.io/operator
Selector: app.kubernetes.io/instance=kafka,app.kubernetes.io/managed-by=kubedb.com,app.kubernetes.io/name=kafkas.kubedb.com
Type: ClusterIP
IP Family Policy: SingleStack
IP Families: IPv4
IP: 10.96.235.251
IPs: 10.96.235.251
Port: metrics 9091/TCP
TargetPort: metrics/TCP
Endpoints: 10.244.0.117:56790,10.244.0.119:56790,10.244.0.121:56790
Session Affinity: None
Events: <none>
Notice the Labels
and Port
fields. ServiceMonitor
will use this information to target its endpoints.
KubeDB will also create a ServiceMonitor
crd in demo
namespace that select the endpoints of kafka-stats
service. Verify that the ServiceMonitor
crd has been created.
$ kubectl get servicemonitor -n demo
NAME AGE
kafka-stats 4m49s
Let’s verify that the ServiceMonitor
has the label that we had specified in spec.monitor
section of Kafka crd.
apiVersion: monitoring.coreos.com/v1
kind: ServiceMonitor
metadata:
creationTimestamp: "2023-03-30T07:59:49Z"
generation: 1
labels:
app.kubernetes.io/component: database
app.kubernetes.io/instance: kafka
app.kubernetes.io/managed-by: kubedb.com
app.kubernetes.io/name: kafkas.kubedb.com
release: prometheus
name: kafka-stats
namespace: demo
ownerReferences:
- apiVersion: v1
blockOwnerDeletion: true
controller: true
kind: Service
name: kafka-stats
uid: 4a95fc65-fe2c-4d9c-afdd-aa748642d6bc
resourceVersion: "668351"
uid: de76712d-4f51-4bab-a625-73966f4bd9f7
spec:
endpoints:
- bearerTokenSecret:
key: ""
honorLabels: true
interval: 10s
path: /metrics
port: metrics
namespaceSelector:
matchNames:
- demo
selector:
matchLabels:
app.kubernetes.io/component: database
app.kubernetes.io/instance: kafka
app.kubernetes.io/managed-by: kubedb.com
app.kubernetes.io/name: kafkas.kubedb.com
kubedb.com/role: stats
Notice that the ServiceMonitor
has label release: prometheus
that we had specified in Kafka crd.
Also notice that the ServiceMonitor
has selector which match the labels we have seen in the kafka-stats
service. It also, target the metrics
port that we have seen in the stats service.
Verify Monitoring Metrics
At first, let’s find out the respective Prometheus pod for prometheus
Prometheus server.
$ kubectl get pod -n monitoring -l=app.kubernetes.io/name=prometheus
NAME READY STATUS RESTARTS AGE
prometheus-prometheus-kube-prometheus-prometheus-0 2/2 Running 8 (4h27m ago) 3d
Prometheus server is listening to port 9090
of prometheus-prometheus-kube-prometheus-prometheus-0
pod. We are going to use port forwarding to access Prometheus dashboard.
Run following command on a separate terminal to forward the port 9090 of prometheus-kube-prometheus-prometheus
service which is pointing to the prometheus pod,
$ kubectl port-forward -n monitoring svc/prometheus-kube-prometheus-prometheus 9090
Forwarding from 127.0.0.1:9090 -> 9090
Forwarding from [::1]:9090 -> 9090
Now, we can access the dashboard at localhost:9090
. Open http://localhost:9090 in your browser. You should see metrics
endpoint of kafka-stats
service as one of the targets.
Check the endpoint
and service
labels. It verifies that the target is our expected database. Now, you can view the collected metrics and create a graph from homepage of this Prometheus dashboard. You can also use this Prometheus server as data source for Grafana and create a beautiful dashboard with collected metrics.
Cleaning up
To clean up the Kubernetes resources created by this tutorial, run following commands
kubectl delete -n demo kf/kafka
kubectl delete ns demo
Next Steps
- Learn how to use KubeDB to run a Apache Kafka cluster here.
- Deploy dedicated topology cluster for Apache Kafka
- Deploy combined cluster for Apache Kafka
- Detail concepts of KafkaVersion object.
- Learn to use KubeDB managed Kafka objects using CLIs.
- Want to hack on KubeDB? Check our contribution guidelines.