434 lines
13 KiB
Markdown
434 lines
13 KiB
Markdown
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---
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title: Dhall for Kubernetes
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date: 2020-01-25
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tags:
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- dhall
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- kubernetes
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- witchcraft
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---
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Kubernetes is a surprisingly complicated software package. Arguably, it has to
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be that complicated as a result of the problems it solves being complicated; but
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managing yaml configuration files for Kubernetes is a complicated task. [YAML][yaml]
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doesn't have support for variables or type metadata. This means that the
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validity (or sensibility) of a given Kubernetes configuration file (or files)
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isn't easy to figure out without using a Kubernetes server.
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[yaml]: https://yaml.org
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In my [last post][cultk8s] about Kubernetes, I mentioned I had developed a tool
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named [dyson][dyson] in order to help me manage Terraform as well as create
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Kubernetes manifests from [a template][template]. This works for the majority of
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my apps, but it is difficult to extend at this point for a few reasons:
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[cultk8s]: https://christine.website/blog/the-cult-of-kubernetes-2019-09-07
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[dyson]: https://github.com/Xe/within-terraform/tree/master/dyson
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[template]: https://github.com/Xe/within-terraform/blob/master/dyson/src/dysonPkg/deployment_with_ingress.yaml
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- It assumes that everything passed to it are already valid yaml terms
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- It doesn't assert the type of any values passed to it
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- It is difficult to add another container to a given deployment
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- Environment variables implicitly depend on the presence of a private git repo
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- It depends on the template being correct more than the output being correct
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So, this won't scale. People in the community have created other solutions for
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this like [Helm][helm], but a lot of them have some of the same basic problems.
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Helm also assumes that your template is correct. [Kustomize][kustomize] does
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help with a lot of the type-safe variable replacements, but it doesn't have the
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ability to ensure your manifest is valid.
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[helm]: https://helm.sh
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[kustomize]: https://kustomize.io
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I looked around for alternate solutions for a while and eventually found
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[Dhall][dhall] thanks to a friend. Dhall is a _statically typed_ configuration
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language. This means that you can ensure that inputs are _always_ the correct
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type or the configuration file won't load. There's also a built-in
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[dhall-to-yaml][dhallyaml] tool that can be used with the [Kubernetes
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package][dhallk8s] in order to declare Kubernetes manifests in a type-safe way.
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[dhall]: https://dhall-lang.org
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[dhallyaml]: https://github.com/dhall-lang/dhall-haskell/tree/master/dhall-yaml#dhall-yaml
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[dhallk8s]: https://github.com/dhall-lang/dhall-kubernetes
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Here's a small example of Dhall and the yaml it generates:
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```dhall
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-- Mastodon usernames
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[ { name = "Cadey", mastodon = "@cadey@mst3k.interlinked.me" }
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, { name = "Nicole", mastodon = "@sharkgirl@mst3k.interlinked.me" }
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]
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```
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Which produces:
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```yaml
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- mastodon: "@cadey@mst3k.interlinked.me"
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name: Cadey
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- mastodon: "@sharkgirl@mst3k.interlinked.me"
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name: Nicole
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```
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Which is fine, but we still have the type-safety problem that you would have in
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normal yaml. Dhall lets us define [record types][dhallrecord] for this data like
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this:
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[dhallrecord]: http://www.haskellforall.com/2020/01/dhall-year-in-review-2019-2020.html
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```dhall
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let User =
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{ Type = { name : Text, mastodon : Optional Text }
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, default = { name = "", mastodon = None }
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}
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let users =
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[ User::{ name = "Cadey", mastodon = Some "@cadey@mst3k.interlinked.me" }
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, User::{
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, name = "Nicole"
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, mastodon = Some "@sharkgirl@mst3k.interlinked.me"
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}
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]
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in users
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```
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Which produces:
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```yaml
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- mastodon: "@cadey@mst3k.interlinked.me"
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name: Cadey
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- mastodon: "@sharkgirl@mst3k.interlinked.me"
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name: Nicole
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```
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This is type-safe because you cannot add arbitrary fields to User instances
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without the compiler rejecting it. Let's add an invalid "preferred_language"
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field to Cadey's instance:
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```
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-- ...
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let users =
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[ User::{
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, name = "Cadey"
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, mastodon = Some "@cadey@mst3k.interlinked.me"
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, preferred_language = "en-US"
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}
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-- ...
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]
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```
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Which gives us:
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```
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$ dhall-to-yaml --file example.dhall
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Error: Expression doesn't match annotation
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{ + preferred_language : …
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, …
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}
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4│ User::{ name = "Cadey", mastodon = Some "@cadey@mst3k.interlinked.me",
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5│ preferred_language = "en-US" }
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example.dhall:4:9
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```
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Or [this more detailed explanation][explanation] if you add the `--explain` flag
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to the `dhall-to-yaml` call.
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[explanation]: https://clbin.com/JtVWT
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We tried to do something that violated the contract that the type specified.
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This means that it's an invalid configuration and is therefore rejected and no
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yaml file is created.
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The Dhall Kubernetes package specifies record types for _every_ object available
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by default in Kubernetes. This does mean that the package is incredibly large,
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but it also makes sure that _everything_ you could possibly want to do in
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Kubernetes matches what it expects. In the [package
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documentation][k8sdhalldocs], they give an example where a
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[Deployment][k8sdeployment] is created.
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[k8sdhalldocs]: https://github.com/dhall-lang/dhall-kubernetes/tree/master/1.15#quickstart---a-simple-deployment
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[k8sdeployment]: https://kubernetes.io/docs/concepts/workloads/controllers/deployment/
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``` dhall
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-- examples/deploymentSimple.dhall
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-- Importing other files is done by specifying the HTTPS URL/disk location of
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-- the file. Attaching a sha256 hash (obtained with `dhall freeze`) allows
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-- the Dhall compiler to cache these files and speed up configuration loads
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-- drastically.
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let kubernetes =
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https://raw.githubusercontent.com/dhall-lang/dhall-kubernetes/1.15/master/package.dhall
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sha256:4bd5939adb0a5fc83d76e0d69aa3c5a30bc1a5af8f9df515f44b6fc59a0a4815
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let deployment =
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kubernetes.Deployment::{
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, metadata = kubernetes.ObjectMeta::{ name = "nginx" }
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, spec =
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Some
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kubernetes.DeploymentSpec::{
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, replicas = Some 2
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, template =
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kubernetes.PodTemplateSpec::{
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, metadata = kubernetes.ObjectMeta::{ name = "nginx" }
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, spec =
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Some
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kubernetes.PodSpec::{
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, containers =
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[ kubernetes.Container::{
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, name = "nginx"
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, image = Some "nginx:1.15.3"
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, ports =
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[ kubernetes.ContainerPort::{
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, containerPort = 80
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}
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]
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}
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]
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}
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}
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}
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}
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in deployment
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```
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Which creates the following yaml:
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```
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apiVersion: apps/v1
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kind: Deployment
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metadata:
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name: nginx
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spec:
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replicas: 2
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template:
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metadata:
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name: nginx
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spec:
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containers:
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- image: nginx:1.15.3
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name: nginx
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ports:
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- containerPort: 80
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```
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Dhall's lambda functions can help you break this into manageable chunks. For
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example, here's a Dhall function that helps create a docker image reference:
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```
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let formatImage
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: Text -> Text -> Text
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= \(repository : Text) -> \(tag : Text) ->
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"${repository}:${tag}"
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in formatImage "xena/christinewebsite" "latest"
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```
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Which outputs `xena/christinewebsite:latest` when passed to `dhall text`.
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All of this adds up into a powerful toolset that lets you express Kubernetes
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configuration in a way that does what you want without as many headaches.
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Most of my apps on Kubernetes need only a few generic bits of configuration:
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- Their name
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- What port should be exposed
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- The domain that this service should be exposed on
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- How many replicas of the service are needed
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- Which Let's Encrypt Issuer to use (currently only `"prod"` or `"staging"`)
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- The [configuration variables of the service][12factorconfig]
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- Any other containers that may be needed for the service
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[12factorconfig]: https://12factor.net/config
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From here, I defined all of the [bits and pieces][kubermemeshttp] for the
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Kubernetes manifests that Dyson produces and then created a `Config` type that
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helps to template them out. Here's my [`Config` type
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definition][configdefinition]:
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[kubermemeshttp]: https://tulpa.dev/cadey/kubermemes/src/branch/master/k8s/http
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[configdefinition]: https://tulpa.dev/cadey/kubermemes/src/branch/master/k8s/app/config.dhall
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```dhall
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let kubernetes = ../kubernetes.dhall
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in { Type =
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{ name : Text
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, appPort : Natural
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, image : Text
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, domain : Text
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, replicas : Natural
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, leIssuer : Text
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, envVars : List kubernetes.EnvVar.Type
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, otherContainers : List kubernetes.Container.Type
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}
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, default =
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{ name = ""
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, appPort = 5000
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, image = ""
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, domain = ""
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, replicas = 1
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, leIssuer = "staging"
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, envVars = [] : List kubernetes.EnvVar.Type
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, otherContainers = [] : List kubernetes.Container.Type
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}
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}
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```
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Then I defined a `makeApp` function that creates everything I need to deploy my
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stuff on Kubernetes:
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```dhall
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let Prelude = ../Prelude.dhall
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let kubernetes = ../kubernetes.dhall
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let typesUnion = ../typesUnion.dhall
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let deployment = ../http/deployment.dhall
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let ingress = ../http/ingress.dhall
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let service = ../http/service.dhall
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let Config = ../app/config.dhall
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let K8sList = ../app/list.dhall
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let buildService =
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\(config : Config.Type)
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-> let myService = service config
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let myDeployment = deployment config
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let myIngress = ingress config
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in K8sList::{
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, items =
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[ typesUnion.Service myService
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, typesUnion.Deployment myDeployment
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, typesUnion.Ingress myIngress
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]
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}
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in buildService
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```
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And used it to deploy the [h language website][hlang]:
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[hlang]: https://h.christine.website
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```dhall
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let makeApp = ../app/make.dhall
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let Config = ../app/config.dhall
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let cfg =
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Config::{
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, name = "hlang"
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, appPort = 5000
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, image = "xena/hlang:latest"
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, domain = "h.christine.website"
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, leIssuer = "prod"
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}
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in makeApp cfg
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```
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Which produces the following Kubernetes config:
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```yaml
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apiVersion: v1
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items:
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- apiVersion: v1
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kind: Service
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metadata:
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annotations:
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external-dns.alpha.kubernetes.io/cloudflare-proxied: "false"
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external-dns.alpha.kubernetes.io/hostname: h.christine.website
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external-dns.alpha.kubernetes.io/ttl: "120"
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labels:
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app: hlang
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name: hlang
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namespace: apps
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spec:
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ports:
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- port: 5000
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targetPort: 5000
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selector:
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app: hlang
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type: ClusterIP
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- apiVersion: apps/v1
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kind: Deployment
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metadata:
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name: hlang
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namespace: apps
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spec:
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replicas: 1
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selector:
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matchLabels:
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app: hlang
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template:
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metadata:
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labels:
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app: hlang
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name: hlang
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spec:
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containers:
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- image: xena/hlang:latest
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imagePullPolicy: Always
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name: web
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ports:
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- containerPort: 5000
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imagePullSecrets:
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- name: regcred
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- apiVersion: networking.k8s.io/v1beta1
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kind: Ingress
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metadata:
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annotations:
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certmanager.k8s.io/cluster-issuer: letsencrypt-prod
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kubernetes.io/ingress.class: nginx
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labels:
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app: hlang
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name: hlang
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namespace: apps
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spec:
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rules:
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- host: h.christine.website
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http:
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paths:
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- backend:
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serviceName: hlang
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servicePort: 5000
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tls:
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- hosts:
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- h.christine.website
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secretName: prod-certs-hlang
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kind: List
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```
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And when I applied it on my Kubernetes cluster, it worked the first time and had
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absolutely no effect on the existing configuration.
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In the future, I hope to expand this to allow for multiple deployments (IE: a
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chatbot running in a separate deployment than a web API the chatbot depends on
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or non-web projects in general) as well as supporting multiple Kubernetes
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namespaces.
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Dhall is probably the most viable replacement to Helm or other Kubernetes
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templating tools I have found in recent memory. I hope that it will be used by
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more people to help with configuration management, but I can understand that
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that may not happen. At least it works for me.
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If you want to learn more about Dhall, I suggest checking out the following
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links:
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- [The Dhall Language homepage](https://dhall-lang.org)
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- [Learn Dhall in Y Minutes](https://learnxinyminutes.com/docs/dhall/)
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- [The Dhall Language GitHub Organization](https://github.com/dhall-lang)
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I hope this was helpful and interesting. Be well.
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