The Prometheus Operator for Kubernetes provides easy monitoring definitions for Kubernetes services and deployment and management of Prometheus instances.
This have been tested on a hybrid ARM64 / X84-64 Kubernetes cluster deployed as [this article](https://medium.com/@carlosedp/building-a-hybrid-x86-64-and-arm-kubernetes-cluster-e7f94ff6e51d).
This repository collects Kubernetes manifests, Grafana dashboards, and Prometheus rules combined with documentation and scripts to provide easy to operate end-to-end Kubernetes cluster monitoring with Prometheus using the Prometheus Operator. The container images support AMD64, ARM64, ARM and PPC64le architectures.
The content of this project is written in jsonnet and is an extension of the fantastic [kube-prometheus](https://github.com/coreos/prometheus-operator/blob/master/contrib/kube-prometheus) project.
If you like this project and others I've been contributing and would like to support me, please check-out my [Patreon page](https://www.patreon.com/carlosedp)!
There are additional modules (disabled by default) to monitor other components of the infra-structure. These can be enabled or disabled on `vars.jsonnet` file by setting the module `enabled` flag in `modules` to `true` or `false`.
The ingresses can use TLS with the default self-signed certificate from your Ingress controller by setting `TLSingress` to `true` and use a custom certificate by creating the files `server.crt` and `server.key` and enabling the `UseProvidedCerts` parameter at `vars.jsonnet`.
Persistence for Prometheus and Grafana can be enabled in the `enablePersistence` section. Setting each to `true`, creates the volume PVCs. If no PV names are defined in `prometheusPV` and `grafanaPV`, the default StorageClass will be used to dynamically create the PVs The sizes can be adjusted in `prometheusSizePV` and `grafanaSizePV`.
Changing these parameters require a rebuild of the manifests with `make` followed by `make deploy`.
If you only need the default features and adjust your cluster URL for the ingress, there is no need to rebuild the manifests(and install all tools). Use the `change_suffix` target with argument `suffix=[suffixURL]` with the URL of your cluster ingress controller. If you have a local cluster, use the nip.io domain resolver passing `your_cluster_ip.nip.io` to the `suffix` argument. After this, just run `make deploy`.
If you get an error from applying the manifests, run the `make deploy` or `kubectl apply -f manifests/` again. Sometimes the resources required to apply the CRDs are not deployed yet.
If you enable the SMTP relay for Gmail in `vars.jsonnet`, the pod will be in an error state after deployed since it would not find the user and password on the "smtp-account" secret. To generate, run the `scripts/create_gmail_auth.sh` script.
You can also test and develop the monitoring stack on Minikube. First install minikube by following the instructions [here](https://kubernetes.io/docs/tasks/tools/install-minikube/) for your platform. Then, follow the instructions similar to the non-K3s deployment:
If you get an error from applying the manifests, run the `make deploy` or `kubectl apply -f manifests/` again. Sometimes the resources required to apply the CRDs are not deployed yet.
If you enable the SMTP relay for Gmail in `vars.jsonnet`, the pod will be in an error state after deployed since it would not find the user and password on the "smtp-account" secret. To generate, run the `scripts/create_gmail_auth.sh` script.
To list the created ingresses, run `kubectl get ingress --all-namespaces`, if you added your cluster IP or URL suffix in `vars.jsonnet` before rebuilding the manifests, the applications will be exposed on:
To avoid rebuilding all manifests, there is a make target to update the Ingress URL suffix to a different suffix. Run `make change_suffix suffix="[clusterURL]"` to change the ingress route IP for Grafana, Prometheus and Alertmanager and reapply the manifests.
The project requires json-bundler and the jsonnet compiler. The Makefile does the heavy-lifting of installing them. You need [Go](https://golang.org/dl/) already installed:
*Obs.* This image is a clone of [AMD64](https://console.cloud.google.com/gcr/images/google-containers/GLOBAL/addon-resizer-amd64), [ARM64](https://console.cloud.google.com/gcr/images/google-containers/GLOBAL/addon-resizer-arm64) and [ARM](https://console.cloud.google.com/gcr/images/google-containers/GLOBAL/addon-resizer-arm64) with a manifest. It's cloned and generated by the `build_images.sh` script