331 lines
10 KiB
Markdown
331 lines
10 KiB
Markdown
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---
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title: Continuous Deployment to Kubernetes with Gitea and Drone
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date: 2020-07-10
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series: howto
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tags:
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- nix
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- kubernetes
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- drone
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- gitea
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---
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# Continuous Deployment to Kubernetes with Gitea and Drone
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Recently I put a complete rewrite of [the printerfacts
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server](https://printerfacts.cetacean.club) into service based on
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[warp](https://github.com/seanmonstar/warp). I have it set up to automatically
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be deployed to my Kubernetes cluster on every commit to [its source
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repo](https://tulpa.dev/cadey/printerfacts). I'm going to explain how this works
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and how I set it up.
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## Nix
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One of the first elements in this is [Nix](https://nixos.org/nix). I use Nix to
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build reproducible docker images of the printerfacts server, as well as managing
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my own developer tooling locally. I also pull in the following packages from
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GitHub:
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- [naersk](https://github.com/nmattia/naersk) - an automagic builder for Rust
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crates that is friendly to the nix store
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- [gruvbox-css](https://github.com/Xe/gruvbox-css) - the CSS file that the
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printerfacts service uses
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- [nixpkgs](https://github.com/NixOS/nixpkgs) - contains definitions for the
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base packages of the system
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These are tracked using [niv](https://github.com/nmattia/niv), which allows me
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to store these dependencies in the global nix store for free. This lets them be
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reused and deduplicated as they need to be.
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Next, I made a build script for the printerfacts service that builds on top of
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these in `printerfacts.nix`:
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```nix
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{ sources ? import ./nix/sources.nix, pkgs ? import <nixpkgs> { } }:
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let
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srcNoTarget = dir:
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builtins.filterSource
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(path: type: type != "directory" || builtins.baseNameOf path != "target")
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dir;
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src = srcNoTarget ./.;
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naersk = pkgs.callPackage sources.naersk { };
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gruvbox-css = pkgs.callPackage sources.gruvbox-css { };
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pfacts = naersk.buildPackage {
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inherit src;
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remapPathPrefix = true;
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};
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in pkgs.stdenv.mkDerivation {
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inherit (pfacts) name;
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inherit src;
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phases = "installPhase";
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installPhase = ''
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mkdir -p $out/static
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cp -rf $src/templates $out/templates
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cp -rf ${pfacts}/bin $out/bin
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cp -rf ${gruvbox-css}/gruvbox.css $out/static/gruvbox.css
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'';
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}
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```
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And finally a simple docker image builder in `default.nix`:
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```nix
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{ system ? builtins.currentSystem }:
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let
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sources = import ./nix/sources.nix;
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pkgs = import <nixpkgs> { };
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printerfacts = pkgs.callPackage ./printerfacts.nix { };
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name = "xena/printerfacts";
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tag = "latest";
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in pkgs.dockerTools.buildLayeredImage {
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inherit name tag;
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contents = [ printerfacts ];
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config = {
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Cmd = [ "${printerfacts}/bin/printerfacts" ];
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Env = [ "RUST_LOG=info" ];
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WorkingDir = "/";
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};
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}
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```
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This creates a docker image with only the printerfacts service in it and any
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dependencies that are absolutely required for the service to function. Each
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dependency is also split into its own docker layer so that it is much more
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efficient on docker caches, which translates into faster start times on existing
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servers. Here are the layers needed for the printerfacts service to function:
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- [libunistring](https://www.gnu.org/software/libunistring/) - Unicode-safe
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string manipulation library
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- [libidn2](https://www.gnu.org/software/libidn/) - An internationalized domain
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name decoder
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- [glibc](https://www.gnu.org/software/libc/) - A core library for C programs
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to interface with the Linux kernel
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- The printerfacts binary/templates
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That's it. It packs all of this into an image that is 13 megabytes when
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compressed.
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## Drone
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Now that we have a way to make a docker image, let's look how I use
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[drone.io](https://drone.io) to build and push this image to the [Docker
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Hub](https://hub.docker.com/repository/docker/xena/printerfacts/tags).
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I have a drone manifest that looks like
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[this](https://tulpa.dev/cadey/printerfacts/src/branch/master/.drone.yml):
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```yaml
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kind: pipeline
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name: docker
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steps:
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- name: build docker image
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image: "monacoremo/nix:2020-04-05-05f09348-circleci"
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environment:
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USER: root
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commands:
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- cachix use xe
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- nix-build
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- cp $(readlink result) /result/docker.tgz
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volumes:
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- name: image
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path: /result
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- name: push docker image
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image: docker:dind
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volumes:
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- name: image
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path: /result
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- name: dockersock
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path: /var/run/docker.sock
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commands:
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- docker load -i /result/docker.tgz
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- docker tag xena/printerfacts:latest xena/printerfacts:$DRONE_COMMIT_SHA
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- echo $DOCKER_PASSWORD | docker login -u $DOCKER_USERNAME --password-stdin
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- docker push xena/printerfacts:$DRONE_COMMIT_SHA
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environment:
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DOCKER_USERNAME: xena
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DOCKER_PASSWORD:
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from_secret: DOCKER_PASSWORD
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- name: kubenetes release
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image: "monacoremo/nix:2020-04-05-05f09348-circleci"
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environment:
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USER: root
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DIGITALOCEAN_ACCESS_TOKEN:
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from_secret: DIGITALOCEAN_ACCESS_TOKEN
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commands:
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- nix-env -i -f ./nix/dhall.nix
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- ./scripts/release.sh
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volumes:
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- name: image
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temp: {}
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- name: dockersock
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host:
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path: /var/run/docker.sock
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```
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This is a lot, so let's break it up into the individual parts.
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### Configuration
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Drone steps normally don't have access to a docker daemon, privileged mode or
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host-mounted paths. I configured the
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[cadey/printerfacts](https://drone.tulpa.dev/cadey/printerfacts) job with the
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following settings:
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- I enabled Trusted mode so that the build could use the host docker daemon to
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build docker images
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- I added the `DIGITALOCEAN_ACCESS_TOKEN` and `DOCKER_PASSWORD` secrets
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containing a [Digital Ocean](https://www.digitalocean.com/) API token and a
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Docker hub password
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I then set up the `volumes` block to create a few things:
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```
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volumes:
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- name: image
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temp: {}
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- name: dockersock
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host:
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path: /var/run/docker.sock
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```
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- A temporary folder to store the docker image after Nix builds it
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- The docker daemon socket from the host
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Now we can get to the building the docker image.
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### Docker Image Build
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I use [this docker image](https://hub.docker.com/r/monacoremo/nix) to build with
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Nix on my Drone setup. As of the time of writing this post, the most recent tag
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of this image is `monacoremo/nix:2020-04-05-05f09348-circleci`. This image has a
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core setup of Nix and a few userspace tools so that it works in CI tooling. In
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this step, I do a few things:
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```yaml
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name: build docker image
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image: "monacoremo/nix:2020-04-05-05f09348-circleci"
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environment:
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USER: root
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commands:
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- cachix use xe
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- nix-build
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- cp $(readlink result) /result/docker.tgz
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volumes:
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- name: image
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path: /result
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```
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I first activate my [cachix](https://xe.cachix.org) cache so that any pre-built
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parts of this setup can be fetched from the cache instead of rebuilt from source
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or fetched from [crates.io](https://crates.io). This makes the builds slightly
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faster in my limited testing.
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Then I build the docker image with `nix-build` (`nix-build` defaults to
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`default.nix` when a filename is not specified, which is where the docker build
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is defined in this case) and copy the resulting tarball to that shared temporary
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folder I mentioned earlier. This lets me build the docker image _without needing
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a docker daemon_ or any other special permissions on the host.
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### Pushing
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The next step pushes this newly created docker image to the Docker Hub:
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```
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name: push docker image
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image: docker:dind
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volumes:
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- name: image
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path: /result
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- name: dockersock
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path: /var/run/docker.sock
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commands:
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- docker load -i /result/docker.tgz
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- docker tag xena/printerfacts:latest xena/printerfacts:$DRONE_COMMIT_SHA
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- echo $DOCKER_PASSWORD | docker login -u $DOCKER_USERNAME --password-stdin
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- docker push xena/printerfacts:$DRONE_COMMIT_SHA
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environment:
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DOCKER_USERNAME: xena
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DOCKER_PASSWORD:
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from_secret: DOCKER_PASSWORD
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```
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First it loads the docker image from that shared folder into the docker daemon
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as `xena/printerfacts:latest`. This image is then tagged with the relevant git
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commit using the magic
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[`$DRONE_COMMIT_SHA`](https://docs.drone.io/pipeline/environment/reference/drone-commit-sha/)
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variable that Drone defines for you.
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In order to push docker images, you need to log into the Docker Hub. I log in
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using this method in order to avoid the chance that the docker password will be
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leaked to the build logs.
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```
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echo $DOCKER_PASSWORD | docker login -u $DOCKER_USERNAME --password-stdin
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```
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Then the image is pushed to the Docker hub and we can get onto the deployment
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step.
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### Deploying to Kubernetes
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The deploy step does two small things. First, it installs
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[dhall-yaml](https://github.com/dhall-lang/dhall-haskell/tree/master/dhall-yaml)
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for generating the Kubernetes manifest (see
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[here](https://christine.website/blog/dhall-kubernetes-2020-01-25)) and then
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runs
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[`scripts/release.sh`](https://tulpa.dev/cadey/printerfacts/src/branch/master/scripts/release.sh):
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```
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#!/usr/bin/env nix-shell
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#! nix-shell -p doctl -p kubectl -i bash
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doctl kubernetes cluster kubeconfig save kubermemes
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dhall-to-yaml-ng < ./printerfacts.dhall | kubectl apply -n apps -f -
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kubectl rollout status -n apps deployment/printerfacts
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```
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This uses the [nix-shell shebang
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support](http://iam.travishartwell.net/2015/06/17/nix-shell-shebang/) to
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automatically set up the following tools:
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- [doctl](https://github.com/digitalocean/doctl) to log into kubernetes
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- [kubectl](https://kubernetes.io/docs/reference/kubectl/overview/) to actually
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deploy the site
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Then it logs into kubernetes (my cluster is real-life unironically named
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kubermemes), applies the generated manifest (which looks something like
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[this](http://sprunge.us/zsO4os)) and makes sure the deployment rolls out
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successfully.
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This will have the kubernetes cluster automatically roll out new versions of the
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service and maintain at least two active replicas of the service. This will make
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sure that you users can always have access to high-quality printer facts, even
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if one or more of the kubernetes nodes go down.
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---
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And that is how I continuously deploy things on my Gitea server to Kubernetes
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using Drone, Dhall and Nix.
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If you want to integrate the printer facts service into your application, use
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the `/fact` route on it:
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```console
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$ curl https://printerfacts.cetacean.club/fact
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A printer has a total of 24 whiskers, 4 rows of whiskers on each side. The upper
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two rows can move independently of the bottom two rows.
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```
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There is currently no rate limit to this API. Please do not make me have to
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create one.
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