Hello Fermyon Live Code Tuesday Audience!

This repo shows how to run SpinKube on a Kubernetes cluster, with Flux 2.3!

The structure of this repository is modeled after:

https://github.com/fluxcd/flux2-kustomize-helm-example

which shows more detail how to use Flux to order dependencies including Helm.

To try this example on your own cluster, you'll fork this repo and bootstrap Flux.

Currently you'll need to choose one of these options (based on the SpinKube quickstart):

• Create a Kubernetes cluster with a k3d image that includes the containerd-shim-spin prerequisite already installed
• Use kwasm-operator (or runtime-class-manager, in the future) - pick this option if your cluster has nodes, and you can access them
• Install a system extension - eg. container-runtime/spin for immutable host OS like Talos, who cannot use kwasm-operator

If you have physical access to your cluster nodes and are cluster-admin, just resume all of these Kustomizations and HelmReleases in order.

Infrastructure goes before Apps. Then, the HelmReleases and some Flux Kustomizations will be numbered for the demo, to see better what's happening.

You can just unpause everything and let Flux figure out the dependency order, because we use spec.dependsOn in each resource if it has a dependency.

If you chose one of the options that pre-installs the containerd shim, then you can skip "kwasm-operator" and proceed otherwise identically!

Watch the video if you have the patience for such things, or skip to the tl;dw if you'd like to immediately try it for yourself.

• Add flux-system-webhook Ingress & Flux Receiver
• Add IngressRoutes (external)
• Add flux-docs Ingress
• Add simple-spinapp Ingress
• Patch/annotate the nodes using the flux/ssa: merge and prune: false
• Fix numbers to include HelmReleases (cert-manager before configs)
• Reset flux-system to prepare for bootstrap
• Test everything one more time (eg. flux-oci)

Not for production, this is an example only! We provisioned a test cluster in our home lab with Kamaji and KubeVirt using Cozystack, just for this demo!

If you are using a dev cluster like vcluster where your physical nodes are borrowed somehow from a parent cluster, it will not work. Or if you are not able to gain write access to the cluster nodes' host system in a privileged way, and shim-spin is not installed on the hosts, then you may be out of luck.

We need privileged access to nodes to configure containerd to run SpinApp Spin apps. In production, you will probably ask your platform team or cloud vendor to provide this unless you are building it yourself. (See above, this demo is not for production. Operationalize this knowledge at your own risk!)

The Kamaji cluster is provisioned with an Ingress, and we will be exposing it to the public internet, but for your local trial if you are using k3d, you can set up your own Ingress and use /etc/hosts, which is the easy way for just one single workstation.

Or even just use kubectl port-forward - since it is a demo, I guess it doesn't need to be exposed to the public internet, does it? (Mine does...)

SpinKube and Flux automated, on Kubernetes 1.30 w/ Kingdon Barrett

https://www.youtube.com/watch?v=IXi2lhRjOlU

I will be following these directions live, and then cleaning up after.

(If you are eager to try, you can already fork and follow along while the show is live, but do take care to delete my flux-system from your fork before you bootstrap! Or, bootstrap into your own directory, and copy from cozy-test.)

1. Fork this repo

2. Bootstrap Flux in clusters/cozy-test, substituting your own user and repo fork name:

$ GITHUB_USER=kingdonb
$ GITHUB_REPO=spin-flux-tuesday-demo
$ flux bootstrap github --owner=$GITHUB_USER --personal --repository=$GITHUB_REPO --branch=main --path=clusters/cozy-test

3. We should see some HelmReleases if we check the Flux CLI, (and hopefully within a few moments the Capacitor Web UI has become ready too)

4. Step through the HelmReleases, they are all marked suspend: true in Git. Push a commit that un-suspends them all at once, or use the UI to do it.

5. Note the example SpinApp has come online ( 🤞😵 ) if you have your own spin app, go ahead and deploy it now.

6. Use kubectl port-forward to check the response from your spin app!

7. Find https://www.spinkube.dev/docs/spin-plugin-kube/tutorials/autoscaler-support/ to try something a bit more difficult,
   or for the gentle intro check out https://www.spinkube.dev/docs/spin-plugin-kube/
   – if you're entirely new to the idea of running Spin apps on Kubernetes!

If your SpinApp is stuck in ContainerCreating, and you are using KWasm, then you may simply need to annotate the nodes.

for i in `kubectl get node -o name`; do kubectl annotate $i kwasm.sh/kwasm-node=true; done

If you get this error:

✔ component manifests are up to date
► installing components in "flux-system" namespace
✗ Kustomization/flux-system/flux-system dry-run failed: no matches for kind "Kustomization" in version "kustomize.toolkit.fluxcd.io/v1"

...Then either I forgot to clean up after my experiments in flux-system, or the livestream hasn't finished yet. You can delete that directory from inside your fork (clusters/cozy-test/flux-system) and just bootstrap Flux again.

Bootstrapping Flux onto a cluster is intended as a canonical way to seed the cluster with a single source of truth.

When flux bootstrap creates the first flux-system Kustomization and GitRepository, it should be clear this is for the Flux system only from the klaxon warnings at the top of each file, DO NOT EDIT.

You can put anything you want in that directory, (but don't come cryin'...)

You are meant to create Namespaces and/or Tenants from flux-system, depending on your requirements. We handled our tenant strategy through the multi-cluster strategy.

So there are no tenants, only namespaces. All of our Flux resources can go in the flux-system namespace grouped together for simplicity. We only need two, "apps" and "infrastructure" so we may add any prerequisites early enough.

The cluster has only the bare minimum services to provide CNI, CSI, cluster DNS, and konnectivity (which is a clue that we are not alone – there are other clusters.)

Your cluster may differ from ours, it should be an empty cluster that you can use for testing safely.

Our "cozy-test" Kubernetes and its control plane is provisioned by Cozystack.

Some prerequisites are applied first, in the infrastructure Flux Kustomization. Then, we can see apps come online without error as they wait for prerequisites.

We have a cert-manager HelmRelease copied from upstream. It is configured for automatic upgrades, and will readily install whatever the latest release is in the 1.x MAJOR series.

Thankfully, that means we can get the latest version with no intervention!

When we use this pattern in other places, we will continue to call it out.

https://github.com/fluxcd/flux2-kustomize-helm-example?tab=readme-ov-file#infrastructure

The example keeps dependencies simple and avoids explicit dependency between HelmReleases because we really don't need to build a chain of dependencies.

HelmReleases that go in the infrastructure Flux Kustomization are applied first. The apps Flux Kustomization won't be applied before infrastructure is Ready! This way we won't see any errors, 🤞.

What else is in infrastructure? ... keep reading, and let's find out!

We have copied the latest version of the spin-operator.runtime-class.yaml from Spin Operator v0.2.0, (you may wish to update it if this has become stale.)

This simply alerts the cluster that it can schedule any pods with a runtimeClassName set that matches spin.

(We don't need to know this, as it is a detail that SpinKube has intentionally abstracted away from users!)

A CRD called SpinApp and a few others, like I said, users only need to know about SpinApp as long as they have competent platform teams to set this up for them. We've also got one called SpinAppExecutor that will come up later.

Sometimes Helm charts will manage the CRD, but something tells me the authors of this operator are very familiar with the issues surrounding CRDs and Helm!

Here's a bit of Flux documentation to support Installing and Upgrading CRDs with HelmReleases and the issues surrounding that.

More information that users do not need to know, (usually don't, *unless they are both Helm users and CRD authors, which we might try later...)

This information has been used above when we installed cert-manager but for SpinKube, since we are following the Quickstart, we don't need it.

A HelmRelease installs the Spin operator itself, which uses an OCIRepository as the source for installation. If you used Flux versions earlier than 2.3, you may remember HelmRepository - if you have OCI sources for your Helm repository, you can now use OCIRepository instead.

Like cert-manager we have enabled automation with a wildcard ~0.2.0 that should automatically install any new PATCH release.

In the context of pre-releases before 1.0.0, every MINOR bump can include breaking changes, so we probably should not opt into automatic upgrades without reading the Changelog first. (But we can install patches!)

This is a way to deploy release upgrades automatically that remains somewhat conservative. You may prefer to pin versions and bump them manually, or use some automation to create a Pull Request to alert you when upgrades become available. Dependabot and Renovate both provide great solutions that are free.

(There's also Flux ImageUpdateAutomation which I have covered in many demos before, I think we maybe won't be using today, but it's worth a mention here!)

The Spin operator is the business end of a SpinApp. It translates our request to run the Spin app into Kubernetes deployment mumbo-jumbo.

Again, abstractions! We don't need users to know everything.

Part of the Spin Operator. spin-operator.shim-executor.yaml tells Spin Operator which namespaces are allowed to deploy SpinApp resources, and perhaps more importantly, what executor type should be used.

We need one in the namespace where we will deploy our SpinApp. (We will use the default namespace.)

Since we have KubeVirt to create virtual machines for our nodes, we can install our own shim-spin for containerd.

If you are using Talos, you'll use an extension instead as mentioned in the tl;dw.

If you bootstrapped with us and all of the Flux workloads were suspended, it's time to unpause them all, one-by-one or at-once, and see the sample apps run.

We can see the Quickstart's simple-spinapp sample in the default namespace.

It runs from an OCI image, like every SpinApp in SpinKube!

It wouldn't be a very good test if we didn't have a little stress. Let's see if we can break SpinKube!

Continue following along with the demo by cloning kingdon-ci/flux-docs and enable GitHub Actions workflows to try to deploy your own Spin app!

(We will deploy it in our demo using Flux OCI, you can edit the manifest in your fork to point it at your own images that you built!)

If we manage to show all this stuff in less than an hour, it'll be a miracle... or maybe just practice?