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Kubernetes seems to be all about deploying containers to a cloud of clusters. What it doesn't seem to touch is development and staging environments (or such).

During development you want to be as close as possible to production environment with some important changes:

  • Deployed locally (or at least somewhere where you and only you can access)
  • Use latest source code on page refresh (supposing its a website; ideally page auto-refresh on local file save which can be done if you mount source code and use some stuff like Yeoman).

Similarly one may want a non-public environment to do continuous integration.

Does Kubernetes support such kind of development environment or is it something one has to build, hoping that during production it'll still work?

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  • Take a look at Openshift Origin. It's the next version of Openshift and is built on top of Kubernetes. Runs standalone in a Docker container. Apr 20, 2015 at 14:35
  • @MarkO'Connor I was more looking to deploy also on Google Cloud but those are more deployment solutions. If you have a solution with OpenShift Origin that allows local development (mostly the reload latest local file) then please share as an answer, I'd be interested.
    – Wernight
    Apr 21, 2015 at 9:12
  • Have you found a solution to this? I've got kubernetes running on top of mesos in my local development cluster. I am planning to build microservices in go that will be deployed in containers on kubernetes. I would love to be able to save my changes and have it automatically build the binary and relaunch the pods. Haven't really had a change to test it out, but I think building in the binary on the vms and then relaunching the pod can be a bit slow.
    – F21
    Jul 23, 2015 at 11:08
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    @F21 It's been more that an year since this was posted. Is there any good local development workflow with kubernetes?
    – Jatin
    Jul 15, 2016 at 6:29
  • You could look at the microk8s, it is lightweight k8s installation for your local machine. I have posted answer for the same, how to install it. It's installation only take around a minute. Jan 4, 2019 at 11:20

12 Answers 12

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Update (2016-07-15)

With the release of Kubernetes 1.3, Minikube is now the recommended way to run Kubernetes on your local machine for development.


You can run Kubernetes locally via Docker. Once you have a node running you can launch a pod that has a simple web server and mounts a volume from your host machine. When you hit the web server it will read from the volume and if you've changed the file on your local disk it can serve the latest version.

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  • 3
    Docs say it's not the recommended method method anymore and that "Minikube is the recommended method of running Kubernetes on your local machine."
    – Jatin
    Jul 15, 2016 at 6:09
  • I don't think minikube is suitable for developing k8s itself, am I right?
    – harryz
    Nov 1, 2016 at 7:42
  • It depends on what you are developing. There are many parts of k8s where it's reasonable to use minikube for development. If you are working on pod networking security policies or CNI plugins though it wouldn't make much sense. Nov 9, 2016 at 9:06
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    "Kubernetes locally via Docker" link is broken. Anyone have an update?
    – Pwnosaurus
    Dec 19, 2017 at 21:47
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    Minikube replaced the local docker setup a while back and the documentation for the local docker version has subsequently been removed. Does Minikube work for your needs? You can also use kubeadm inside of a VM to instantiate a local single node cluster. Dec 20, 2017 at 5:31
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We've been working on a tool to do this. Basic idea is you have remote Kubernetes cluster, effectively a staging environment, and then you run code locally and it gets proxied to the remote cluster. You get transparent network access, environment variables copied over, access to volumes... as close as feasible to remote environment, but with your code running locally and under your full control.

So you can do live development, say. Docs at http://telepresence.io

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The sort of "hot reload" is something we have plans to add, but is not as easy as it could be today. However, if you're feeling adventurous you can use rsync with docker exec, kubectl exec, or osc exec (all do the same thing roughly) to sync a local directory into a container whenever it changes. You can use rsync with kubectl or osc exec like so:

# rsync using osc as netcat
$ rsync -av -e 'osc exec -ip test -- /bin/bash' mylocalfolder/ /tmp/remote/folder
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  • By itself hot reload is and should be handled by the web framework you use, here yeoman usually sets that up. What is missing is how to enable it. It requires a local volume to be mounted. If @Robert's answser works it should be a valid solution.
    – Wernight
    Apr 23, 2015 at 13:40
4

I've just started with Skaffold

It's really useful to apply changes in the code automatically to a local cluster.

To deploy a local cluster, the best way is Minikube or just Docker for Mac and Windows, both includes a Kubernetes interface.

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EDIT 2022: By now, there are obviously dozens of way to provision k8s, unlike 2015 when we started using it. kubeadm, microk8s, k3s, kube-spray, etc.

My advice: (If your cluster can't fit on your workstation/laptop,) Rent a Hetzner server for 40 euro a month, and run WSL2 if on Windows.

Set up k8s cluster on the remote machine (with any of the above, I prefer microk8s these days). Set up Docker and Telepresence on your local Linux/Mac/WSL2 env. Install kubectl and connect it to the remote cluster.

Telepresence will let you replace a remote pod with a local docker pod, with access to local files (hopefully the same git repo that's used to build the pod you're developing/replacing), and possibly nodemon (or other language-specific auto-source-code-reload system).

Write bash functions. I cannot stress this enough, this will save you hundreds of hours of time. If replacing the pod and starting to develop isn't one line / two words, then you're doing it not-well-enough.


2016 answer below:

Another great starting point is this Vagrant setup, esp. if your host OS is Windows. The obvious advantages being

  • quick and painless setup
  • easy to destroy / recreate the machine
  • implicit limit on resources
  • ability to test horizontal scaling by creating multiple nodes

The disadvantages - you need lot of RAM, and VirtualBox is VirtualBox... for better or worse.

A mixed advantage / disadvantage is mapping files through NFS. In our setup, we created two sets of RC definitions - one that just download a docker image of our application servers; the other with 7 extra lines that set up file mapping from HostOS -> Vagrant -> VirtualBox -> CoreOS -> Kubernetes pod; overwriting the source code from the Docker image.

The downside of this is NFS file cache - with it, it's problematic, without it, it's problematically slow. Even setting mount_options: 'nolock,vers=3,udp,noac' doesn't get rid of caching problems completely, but it works most of the time. Some Gulp tasks ran in a container can take 5 minutes when they take 8 seconds on host OS. A good compromise seems to be mount_options: 'nolock,vers=3,udp,ac,hard,noatime,nodiratime,acregmin=2,acdirmin=5,acregmax=15,acdirmax=15'.

As for automatic code reload, that's language specific, but we're happy with Django's devserver for Python, and Nodemon for Node.js. For frontend projects, you can of course do a lot with something like gulp+browserSync+watch, but for many developers it's not difficult to serve from Apache and just do traditional hard refresh.

We keep 4 sets of yaml files for Kubernetes. Dev, "devstable", stage, prod. The differences between those are

  • env variables explicitly setting the environment (dev/stage/prod)
  • number of replicas
  • devstable, stage, prod uses docker images
  • dev uses docker images, and maps NFS folder with source code over them.

It's very useful to create a lot of bash aliases and autocomplete - I can just type rec users and it will do kubectl delete -f ... ; kubectl create -f .... If I want the whole set up started, I type recfo, and it recreates a dozen services, pulling the latest docker images, importing the latest db dump from Staging env and cleaning up old Docker files to save space.

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See https://github.com/kubernetes/kubernetes/issues/12278 for how to mount a volume from the host machine, the equivalent of:

docker run -v hostPath:ContainerPath
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Having a nice local development feedback loop is a topic of rapid development in the Kubernetes ecosystem.

Breaking this question down, there are a few tools that I believe support this goal well.

Docker for Mac Kubernetes

Docker for Mac Kubernetes (Docker Desktop is the generic cross platform name) provides an excellent option for local development. For virtualization, it uses HyperKit which is built on the native Hypervisor framework in macOS instead of VirtualBox.

The Kubernetes feature was first released as beta on the edge channel in January 2018 and has come a long way since, becoming a certified Kubernetes in April 2018, and graduating to the stable channel in July 2018.

In my experience, it's much easier to work with than Minikube, particularly on macOS, and especially when it comes to issues like RBAC, Helm, hypervisor, private registry, etc.

Helm

As far as distributing your code and pulling updates locally, Helm is one of the most popular options. You can publish your applications via CI/CD as Helm charts (and also the underlying Docker images which they reference). Then you can pull these charts from your Helm chart registry locally and upgrade on your local cluster.

Azure Draft

You can also use a tool like Azure Draft to do simple local deploys and generate basic Helm charts from common language templates, sort of like buildpacks, to automate that piece of the puzzle.

Skaffold

Skaffold is like Azure Draft but more mature, much broader in scope, and made by Google. It has a very pluggable architecture. I think in the future more people will use it for local app development for Kubernetes.

If you have used React, I think of Skaffold as "Create React App for Kubernetes".

Kompose or Compose on Kubernetes

Docker Compose, while unrelated to Kubernetes, is one alternative that some companies use to provide a simple, easy, and portable local development environment analogous to the Kubernetes environment that they run in production. However, going this route means diverging your production and local development setups.

Kompose is a Docker Compose to Kubernetes converter. This could be a useful path for someone already running their applications as collections of containers locally.

Compose on Kubernetes is a recently open sourced (December 2018) offering from Docker which allows deploying Docker Compose files directly to a Kubernetes cluster via a custom controller.

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Kubespary is helpful setting up local clusters. Mostly, I used vagrant based cluster on local machine.

Kubespray configuration You could tweak these variables to have the desired kubernetes version.

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The disadvantage of using minkube is that it spawns another virtual machine over your machine. Also, with latest minikube version it minimum requires to have 2 CPU and 2GB of RAM from your system, which makes it pretty heavy If you do not have the system with enough resources.

This is the reason I switched to microk8s for development on kubernetes and I love it. microk8s supports the DNS, local-storage, dashboard, istio, ingress and many more, everything you need to test your microservices.

It is designed to be a fast and lightweight upstream Kubernetes installation isolated from your local environment. This isolation is achieved by packaging all the binaries for Kubernetes, Docker.io, iptables, and CNI in a single snap package.

A single node kubernetes cluster can be installed within a minute with a single command:

snap install microk8s --classic

Make sure your system doesn't have any docker or kubelet service running. Microk8s will install all the required services automatically.

Please have a look at the following link to enable other add ons in microk8s.

https://github.com/ubuntu/microk8s

You can check the status using:

velotio@velotio-ThinkPad-E470:~/PycharmProjects/k8sClient$ microk8s.status
microk8s is running
addons:
ingress: disabled
dns: disabled
metrics-server: disabled
istio: disabled
gpu: disabled
storage: disabled
dashboard: disabled
registry: disabled
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    > Make sure your system doesn't have any docker or kubelet service running. But I already have Docker installed locally, and I'm running containers apart from Kubernetes. Does that mean I can't install microk8s locally? Jun 2, 2020 at 18:34
  • it has been more than a year now, does it still stand ? I want to get started to kubernetes, looking forward for a solution, i like those properties of microk8s. But I dont want to make my life harder than needed to get the job done.
    – user4466350
    Feb 7, 2022 at 10:07
  • Yes it still stands and microk8s has released support for windows and macos as well. You can check it out here microk8s.io Feb 10, 2022 at 3:16
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Have a look at https://github.com/okteto/okteto and Okteto Cloud. The value proposition is to have the classical development experience than working locally, prior to docker, where you can have hot-reloads, incremental builds, debuggers... but all your local changes are immediately synchronized to a remote container. Remote containers give you access to the speed of cloud, allow a new level of collaboration, and integrates development in a production-like environment. Also, it eliminates the burden of local installations.

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As specified before by Robert, minikube is the way to go.

Here is a quick guide to get started with minikube. The general steps are:

  • Install minikube

  • Create minikube cluster (in a Virtual Machine which can be VirtualBox or Docker for Mac or HyperV in case of Windows)

  • Create Docker image of your application file (by using Dockerfile)

  • Run the image by creating a Deployment

  • Create a service which exposes your application so that you can access it.

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Here is the way I did a local set up for Kubernetes in Windows 10: -

  • Use Docker Desktop

  • Enable Kubernetes in the settings option of Docker Desktop

  • In Docker Desktop by default resource allocated for Memory is 2GB so to use Kubernetes with Docker Desktop increase the memory.

  • Install kubectl as a client to talk to Kubernetes cluster

  • Run command kubectl config get-contexts to get the available cluster

  • Run command kubectl config use-context docker-desktop to use the docker desktop

  • Build a docker image of your application

  • Write a YAML file (descriptive method to create your deployment in Kubernetes) pointing to the image created in above step cluster

  • Expose a service of type node port for each of your deployment to make it available to the outside world

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