Skip to main content

Your submission was sent successfully! Close

Thank you for signing up for our newsletter!
In these regular emails you will find the latest updates from Canonical and upcoming events where you can meet our team.Close

Thank you for contacting us. A member of our team will be in touch shortly. Close

  1. Blog
  2. Article

Galem KAYO
on 29 July 2019


This blog demonstrates how to easily deploy monitoring tools at the edge using Kubernetes. In IoT scenarios, such a deployment brings the benefits of privacy, latency and minimal bandwidth cost.

Luckily, MicroK8s the single node Kubernetes, caters for such use cases. The beauty of MicroK8s is that deployment can be done in a couple of commands and in under a minute. MicroK8s can even fit on a Raspberry Pi. It is possible to build a monitoring stack on MicroK8s, deployable anywhere, even at the extreme edge. From a technical perspective, this simple solution is created using some of the popular open source components that are delivered out of the box with MicroK8s. These are: 

  • Grafana for the front-end analytics dashboard
  • Prometheus for the back-end time-series database (ideal for sensor data)

To get up and running, follow these steps:

Installing MicroK8s, Grafana and Prometheus

First, install the MicroK8s snap

sudo snap install microk8s --classic

Once installed, it is possible to list all the add-ons that are delivered with MicroK8s.

microk8s.status

(alternatively)

 microk8s.enable --help

None of the MicroK8s add-ons are enabled by default. Therefore Grafana and Prometheus will need to be enabled upon installation. Here is how to launch these applications:

microk8s.enable dashboard prometheus

There is no specific command to enable Grafana. It is launched automatically when the Kubernetes dashboard is enabled.

Accessing the Kubernetes dashboard

For the next steps, the kubectl command will be invoked. It is possible to alias this command because it is namespaced in Microk8s. This step is simple to reverse if it loses convenience.

sudo snap alias microk8s.kubectl kubectl

The access token for the Kubernetes dashboard can then be retrieved by invoking kubectl as shown below:

export TOKEN=$(kubectl describe secret $(kubectl get secret | awk '/^dashboard-token-/{print $1}') | awk '$1=="token:"{print $2}') && echo -e "\n--- Copy and paste this token for dashboard access --\n$TOKEN\n---"

To access the Kubernetes dashboard, it will be necessary to create a secure channel to the cluster with the command below:

kubectl proxy &

The dashboard will then be accessible at:

http://localhost:8001/api/v1/namespaces/kube-system/services/https:kubernetes-dashboard:/proxy/

Copying and pasting the token generated above will grant you access to the web based command interface to your cluster.

Accessing Grafana and Prometheus

As an initial step, we can confirm that Grafana and Prometheus are running on the cluster.

kubectl cluster-info

Once confirmed, you can view these services in the Kubernetes dashboard by selecting ‘monitoring’ under ‘Namespaces’, and then clicking ‘Services’. The list of monitoring services running on the cluster will then be displayed, along with the associated cluster IP addresses, internal endpoints and ports.

The Grafana and Prometheus UIs can then be simply accessed by entering the service IP and ports in the browser, according to the following format:

<cluster IP>:<port>

For Grafana, the username and password will be: admin/admin.

Grafana comes pre-configured with Prometheus as a data source.

The Prometheus UI can be accessed in a similar manner. No username and password will be required.

Going further

Further to this easy setup, it is possible to feed sensor data to the Prometheus database. Prometheus has several client libraries for exporting sensor measurements. Additionally, panels and custom dashboards will be created in Grafana according to the metrics that are tracked for a particular use case.

Resources

MicroK8s

Running Microk8s on Raspberry Pi

Prometheus client libraries

Grafana basic concepts

Related posts


Marcin "Perk" Stożek
14 March 2024

How should a great K8s distro feel? Try the new Canonical Kubernetes, now in beta

Kubernetes Article

Try the new Canonical Kubernetes beta, our new distribution that combines ZeroOps for small clusters and intelligent automation for larger production environments that also want to benefit from the latest community innovations ...


Gabriel Aguiar Noury
21 November 2024

EdgeIQ and Ubuntu Core; bringing security and scalability to device management 

Internet of Things Article

Today, EdgeIQ and Canonical announced the release of the EdgeIQ Coda snap and official support of Ubuntu Core on the EdgeIQ Symphony platform. EdgeIQ Symphony helps you simplify and scale workflows for device fleet operations, data consumption and delivery, and application orchestration. Distributing EdgeIQ Coda as a snap brings the power ...


Canonical
19 November 2024

Canonical provides the ideal platform for Microsoft Azure IoT Operations

IoT Article

London, 19 November 2024. Canonical has collaborated with Microsoft as an early adopter partner and tested Microsoft Azure IoT Operations on Ubuntu Core and Kubernetes, which is notable as Microsoft today released Azure IoT Operations, a unified data plane providing significant improvements in node data capture, edge-based telemetry proce ...