New to KubeVault? Please start here.
CoreOS prometheus-operator provides simple and Kubernetes native way to deploy and configure Prometheus server. This tutorial will show you how to use CoreOS Prometheus operator for monitoring Vault CSI driver.
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 by using Minikube.
To keep Prometheus resources isolated, we are going to use a separate namespace to deploy Prometheus operator and respective resources.
$ kubectl create ns monitoring namespace/monitoring created
Enable Prometheus monitoring using
prometheus.io/coreos-operator agent while installing Vault CSI driver. To know details about how to enable monitoring see here
Here, we are going to enable monitoring for
$ helm install appscode/csi-vault --name csi-vault --version 0.2.0 --namespace kube-system \ --set monitoring.agent=prometheus.io/coreos-operator \ --set monitoring.attacher=true \ --set monitoring.plugin=true \ --set monitoring.provisioner=true \ --set monitoring.prometheus.namespace=monitoring \ --set monitoring.serviceMonitor.labels.k8s-app=prometheus
$ curl -fsSL https://raw.githubusercontent.com/kubevault/csi-driver/0.2.0/hack/deploy/install.sh | bash -s -- \ --monitoring-agent=prometheus.io/coreos-operator \ --monitor-attacher=true \ --monitor-plugin=true \ --monitor-provisioner=true \ --prometheus-namespace=monitoring \ --servicemonitor-label=k8s-app=prometheus
This will create two
ServiceMonitor crds with name
monitoring namespace for monitoring endpoints of corresponding services. These ServiceMonitor will have label
k8s-app: prometheus provided by
--servicemonitor-label flag. This label will be used by Prometheus crd to select this ServiceMonitor.
Let’s check the ServiceMonitor crd using following command,
$ kubectl get servicemonitors -n monitoring NAME AGE csi-vault-controller-servicemonitor 18h csi-vault-node-servicemonitor 18h
Vault CSI driver exports driver metrics via TLS secured
api endpoint. So, Prometheus server need to provide certificate while scrapping metrics from this endpoint. Vault CSI driver has created a secret named
csi-vault-apiserver-cert with this certificate in
monitoring namespace as we have specified that we are going to deploy Prometheus in that namespace through
--prometheus-namespace flag. We have to specify this secret in Prometheus crd through
spec.secrets field. Prometheus operator will mount this secret at
/etc/prometheus/secrets/csi-vault-apiserver-cert directory of respective Prometheus pod. So, we need to configure
tlsConfig field to use that certificate. Here,
caFile indicates the certificate to use and serverName is used to verify hostname. In our case, the certificate is valid for hostname server,
Let’s check secret csi-vault-apiserver-cert has been created in monitoring namespace.
$ kubectl get secrets -n monitoring -l=app=csi-vault NAME TYPE DATA AGE csi-vault-apiserver-cert kubernetes.io/tls 2 23m
Also note that, there is a bearerTokenFile field. This file is token for the serviceaccount that will be created while creating RBAC stuff for Prometheus crd. This is required for authorizing Prometheus to scrape Vault CSI driver.
Now, we are ready to deploy Prometheus server.
In order to deploy Prometheus server, we have to create Prometheus crd. Prometheus crd defines a desired Prometheus server setup. For more details about Prometheus crd, please visit here.
If you are using a RBAC enabled cluster, you have to give necessary permissions to Prometheus. Check the documentation to see required RBAC permission from here.
Below is the YAML of Prometheus crd that we are going to create for this tutorial,
apiVersion: monitoring.coreos.com/v1 kind: Prometheus metadata: name: prometheus namespace: monitoring labels: k8s-app: prometheus spec: replicas: 1 serviceAccountName: prometheus serviceMonitorSelector: matchLabels: k8s-app: prometheus secrets: - csi-vault-apiserver-cert resources: requests: memory: 400Mi
spec.serviceMonitorSelector is used to select the ServiceMonitor crd that is created by Vault CSI driver. We have provided
csi-vault-apiserver-cert secret in
spec.secrets field. This will be mounted in Prometheus pod.
Let’s create the Prometheus object we have shown above,
$ kubectl apply -f https://raw.githubusercontent.com/kubevault/docs/master/docs/examples/monitoring/csi-driver/prom-coreos-crd.yaml prometheus.monitoring.coreos.com/prometheus created
Prometheus operator watches for Prometheus
crd. Once a Prometheus crd is created, Prometheus operator generates respective configuration and creates a
StatefulSet to run Prometheus server.
StatefulSet has been created,
$ kubectl get statefulset -n monitoring NAME READY AGE prometheus-prometheus 1/1 31m
Check StatefulSet’s pod is running,
$ kubectl get pod prometheus-prometheus-0 -n monitoring NAME READY STATUS RESTARTS AGE prometheus-prometheus-0 3/3 Running 1 31m
Now, we are ready to access Prometheus dashboard.
Prometheus server is running on port 9090. We are going to use port forwarding to access Prometheus dashboard. Run following commands on a separate terminal,
$ kubectl port-forward -n monitoringprometheus-prometheus-0 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 the configured jobs as target and they are in UP state which means Prometheus is able collect metrics from them.
To uninstall Vault CSI driver follow this.
To cleanup the Kubernetes resources created by this tutorial, run:
# cleanup Prometheus resources kubectl delete -n monitoring prometheus prometheus kubectl delete -n monitoring secret csi-vault-apiserver-cert $ kubectl delete ns monitoring