436 lines
12 KiB
Markdown
436 lines
12 KiB
Markdown
---
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title: I was Wrong about Nix
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date: 2020-02-10
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tags:
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- nix
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- witchcraft
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---
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From time to time, I am outright wrong on my blog. This is one of those times.
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In my [last post about Nix][nixpost], I didn't see the light yet. I think I do
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now, and I'm going to attempt to clarify below.
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[nixpost]: https://xeiaso.net/blog/thoughts-on-nix-2020-01-28
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Let's talk about a more simple scenario: writing a service in Go. This service
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will depend on at least the following:
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- A Go compiler to build the code into a binary
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- An appropriate runtime to ensure the code will run successfully
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- Any data files needed at runtime
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A popular way to model this is with a Dockerfile. Here's the Dockerfile I use
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for my website (the one you are reading right now):
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```
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FROM xena/go:1.13.6 AS build
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ENV GOPROXY https://cache.greedo.xeserv.us
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COPY . /site
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WORKDIR /site
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RUN CGO_ENABLED=0 go test -v ./...
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RUN CGO_ENABLED=0 GOBIN=/root go install -v ./cmd/site
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FROM xena/alpine
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EXPOSE 5000
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WORKDIR /site
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COPY --from=build /root/site .
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COPY ./static /site/static
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COPY ./templates /site/templates
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COPY ./blog /site/blog
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COPY ./talks /site/talks
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COPY ./gallery /site/gallery
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COPY ./css /site/css
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HEALTHCHECK CMD wget --spider http://127.0.0.1:5000/.within/health || exit 1
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CMD ./site
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```
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This fetches the Go compiler from [an image I made][godockerfile], copies the
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source code to the image, builds it (in a way that makes the resulting binary a
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[static executable][staticbin]), and creates the runtime environment for it.
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[godockerfile]: https://github.com/Xe/dockerfiles/blob/master/lang/go/Dockerfile
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[staticbin]: https://oddcode.daveamit.com/2018/08/16/statically-compile-golang-binary/
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Let's let it build and see how big the result is:
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```
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$ docker build -t xena/christinewebsite:example1 .
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<output omitted>
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$ docker images | grep xena
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xena/christinewebsite example1 4b8ee64969e8 24 seconds ago 111MB
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```
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Investigating this image with [dive][dive], we see the following:
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[dive]: https://github.com/wagoodman/dive
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- The package manager is included in the image
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- The package manager's database is included in the image
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- An entire copy of the C library is included in the image (even though the
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binary was _statically linked_ to specifically avoid this)
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- Most of the files in the docker image are unrelated to my website's
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functionality and are involved with the normal functioning of Linux systems
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Granted, [Alpine Linux][alpine] does a good job at keeping this chaff to a
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minimum, but it is still there, still needs to be updated (causing all of my
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docker images to be rebuilt and applications to be redeployed) and still takes
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up space in transfer quotas and on the disk.
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[alpine]: https://alpinelinux.org
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Let's compare this to the same build process but done with Nix. My Nix setup is
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done in a few phases. First I use [niv][niv] to manage some dependencies a-la
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git submodules that don't hate you:
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[niv]: https://github.com/nmattia/niv
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```
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$ nix-shell -p niv
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[nix-shel]$ niv init
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<writes nix/*>
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```
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Now I add the tool [vgo2nix][vgo2nix] in niv:
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[vgo2nix]: https://github.com/adisbladis/vgo2nix
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```
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[nix-shell]$ niv add adisbladis/vgo2nix
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```
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And I can use it in my shell.nix:
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```nix
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let
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pkgs = import <nixpkgs> { };
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sources = import ./nix/sources.nix;
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vgo2nix = (import sources.vgo2nix { });
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in pkgs.mkShell { buildInputs = [ pkgs.go pkgs.niv vgo2nix ]; }
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```
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And then relaunch nix-shell with vgo2nix installed and convert my [go modules][gomod]
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dependencies to a Nix expression:
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[gomod]: https://github.com/golang/go/wiki/Modules
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```
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$ nix-shell
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<some work is done to compile things, etc>
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[nix-shell]$ vgo2nix
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<writes deps.nix>
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```
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Now that I have this, I can follow the [buildGoPackage
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instructions][buildgopackage] from the upstream nixpkgs documentation and create
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`site.nix`:
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[buildgopackage]: https://nixos.org/nixpkgs/manual/#ssec-go-legacy
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```
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{ pkgs ? import <nixpkgs> {} }:
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with pkgs;
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assert lib.versionAtLeast go.version "1.13";
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buildGoPackage rec {
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name = "christinewebsite-HEAD";
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version = "latest";
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goPackagePath = "christine.website";
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src = ./.;
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goDeps = ./deps.nix;
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allowGoReference = false;
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preBuild = ''
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export CGO_ENABLED=0
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buildFlagsArray+=(-pkgdir "$TMPDIR")
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'';
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postInstall = ''
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cp -rf $src/blog $bin/blog
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cp -rf $src/css $bin/css
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cp -rf $src/gallery $bin/gallery
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cp -rf $src/static $bin/static
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cp -rf $src/talks $bin/talks
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cp -rf $src/templates $bin/templates
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'';
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}
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```
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And this will do the following:
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- Download all of the needed dependencies and place them in the system-level Nix
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store so that they are not downloaded again
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- Set the `CGO_ENABLED` environment variable to `0` so the Go compiler emits a
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static binary
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- Copy all of the needed files to the right places so that the blog, gallery and
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talks features can load all of their data
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- Depend on nothing other than a working system at runtime
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This Nix build manifest doesn't just work on Linux. It works on my mac too. The
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dockerfile approach works great for Linux boxes, but (unlike what the me of a
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decade ago would have hoped) the whole world just doesn't run Linux on their
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desktops. The real world has multiple OSes and Nix allows me to compensate.
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So, now that we have a working _cross-platform_ build, let's see how big it
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comes out as:
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```
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$ readlink ./result-bin
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/nix/store/ayvafpvn763wwdzwjzvix3mizayyblx5-christinewebsite-HEAD-bin
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$ du -hs result-bin/
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89M ./result-bin/
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$ du -hs result-bin/
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11M ./result-bin/bin
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888K ./result-bin/blog
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40K ./result-bin/css
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44K ./result-bin/gallery
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77M ./result-bin/static
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28K ./result-bin/talks
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64K ./result-bin/templates
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```
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As expected, most of the build results are static assets. I have a lot of larger
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static assets including an entire copy of TempleOS, so this isn't too
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surprising. Let's compare this to on the mac:
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```
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$ du -hs result-bin/
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91M result-bin/
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$ du -hs result-bin/*
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14M result-bin/bin
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872K result-bin/blog
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36K result-bin/css
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40K result-bin/gallery
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77M result-bin/static
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24K result-bin/talks
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60K result-bin/templates
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```
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Which is damn-near identical save some macOS specific crud that Go has to deal
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with.
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I mentioned this is used for Docker builds, so let's make `docker.nix`:
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```nix
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{ system ? builtins.currentSystem }:
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let
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pkgs = import <nixpkgs> { inherit system; };
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callPackage = pkgs.lib.callPackageWith pkgs;
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site = callPackage ./site.nix { };
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dockerImage = pkg:
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pkgs.dockerTools.buildImage {
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name = "xena/christinewebsite";
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tag = pkg.version;
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contents = [ pkg ];
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config = {
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Cmd = [ "/bin/site" ];
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WorkingDir = "/";
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};
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};
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in dockerImage site
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```
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And then build it:
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```
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$ nix-build docker.nix
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<output omitted>
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$ docker load -i result
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c6b1d6ce7549: Loading layer [==================================================>] 95.81MB/95.81MB
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$ docker images | grep xena
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xena/christinewebsite latest 0d1ccd676af8 50 years ago 94.6MB
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```
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And the output is 16 megabytes smaller.
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The image age might look weird at first, but it's part of the reproducibility
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Nix offers. The date an image was built is something that can change with time
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and is actually a part of the resulting file. This means that an image built one
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second after another has a different cryptographic hash. It helpfully pins all
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images to Unix timestamp 0, which just happens to be about 50 years ago.
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Looking into the image with `dive`, the only packages installed into this image
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are:
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- The website and all of its static content goodness
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- IANA portmaps that Go depends on as part of the [`net`][gonet] package
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- The standard list of [MIME types][mimetypes] that the [`net/http`][gonethttp]
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package needs
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- Time zone data that the [`time`][gotime] package needs
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[gonet]: https://godoc.org/net
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[gonethttp]: https://godoc.org/net/http
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[gotime]: https://godoc.org/time
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And that's it. This is _fantastic_. Nearly all of the disk usage has been
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eliminated. If someone manages to trick my website into executing code, that
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attacker cannot do anything but run more copies of my website (that will
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immediately fail and die because the port is already allocated).
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This strategy pans out to more complicated projects too. Consider a case where a
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frontend and backend need to be built and deployed as a unit. Let's create a new
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setup using niv:
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```
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$ niv init
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```
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Since we are using [Elm][elm] for this complicated project, let's add the
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[elm2nix][elm2nix] tool so that our Elm dependencies have repeatable builds, and
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[gruvbox-css][gcss] for some nice simple CSS:
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[elm]: https://elm-lang.org
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[elm2nix]: https://github.com/cachix/elm2nix
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[gcss]: https://github.com/Xe/gruvbox-css
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```
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$ niv add cachix/elm2nix
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$ niv add Xe/gruvbox-css
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```
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And then add it to our `shell.nix`:
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```
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let
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pkgs = import <nixpkgs> {};
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sources = import ./nix/sources.nix;
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elm2nix = (import sources.elm2nix { });
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in
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pkgs.mkShell {
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buildInputs = [
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pkgs.elmPackages.elm
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pkgs.elmPackages.elm-format
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elm2nix
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];
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}
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```
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And then enter `nix-shell` to create the Elm boilerplate:
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```
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$ nix-shell
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[nix-shell]$ cd frontend
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[nix-shell:frontend]$ elm2nix init > default.nix
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[nix-shell:frontend]$ elm2nix convert > elm-srcs.nix
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[nix-shell:frontend]$ elm2nix snapshot
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```
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And then we can edit the generated Nix expression:
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```
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let
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sources = import ./nix/sources.nix;
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gcss = (import sources.gruvbox-css { });
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# ...
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buildInputs = [ elmPackages.elm gcss ]
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++ lib.optional outputJavaScript nodePackages_10_x.uglify-js;
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# ...
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cp -rf ${gcss}/gruvbox.css $out/public
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cp -rf $src/public/* $out/public/
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# ...
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outputJavaScript = true;
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```
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And then test it with `nix-build`:
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```
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$ nix-build
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<output omitted>
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```
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And now create a `name.nix` for your Go service like I did above. The real
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magic comes from the `docker.nix` file:
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```
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{ system ? builtins.currentSystem }:
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let
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pkgs = import <nixpkgs> { inherit system; };
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sources = import ./nix/sources.nix;
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backend = import ./backend.nix { };
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frontend = import ./frontend/default.nix { };
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in
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pkgs.dockerTools.buildImage {
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name = "xena/complicatedservice";
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tag = "latest";
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contents = [ backend frontend ];
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config = {
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Cmd = [ "/bin/backend" ];
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WorkingDir = "/public";
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};
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};
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```
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Now both your backend and frontend services are built with the dependencies in
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the Nix store and shipped as a repeatable Docker image.
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Sometimes it might be useful to ship the dependencies to a service like
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[Cachix][cachix] to help speed up builds.
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[cachix]: https://cachix.org
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You can install the cachix tool like this:
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```
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$ nix-env -iA cachix -f https://cachix.org/api/v1/install
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```
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And then follow the steps at [cachix.org][cachix] to create a new binary cache.
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Let's assume you made a cache named `teddybear`. When you've created a new
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cache, logged in with an API token and created a signing key, you can pipe
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nix-build to the Cachix client like so:
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```
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$ nix-build | cachix push teddybear
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```
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And other people using that cache will benefit from your premade dependency and
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binary downloads.
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To use the cache somewhere, install the Cachix client and then run the
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following:
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```
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$ cachix use teddybear
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```
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I've been able to use my Go, Elm, Rust and Haskell dependencies on other
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machines using this. It's saved so much extra download time.
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## tl;dr
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I was wrong about Nix. It's actually quite good once you get past the
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documentation being baroque and hard to read as a beginner. I'm going to try and
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do what I can to get the documentation improved.
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As far as getting started with Nix, I suggest following these posts:
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- Nix Pills: https://nixos.org/nixos/nix-pills/
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- Nix Shorts: https://github.com/justinwoo/nix-shorts
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- NixOS: For Developers: https://myme.no/posts/2020-01-26-nixos-for-development.html
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Also, I really suggest trying stuff as a vehicle to understand how things work.
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I got really far by experimenting with getting [this Discord bot I am writing in
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Rust][withinbot] working in Nix and have been very pleased with how it's turned
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out. I don't need to use `rustup` anymore to manage my Rust compiler or the
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language server. With a combination of [direnv][direnv] and [lorri][lorri], I
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can avoid needing to set up language servers or the like _at all_. I can define
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them as part of the _project environment_ and then trust the tools I build on
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top of to take care of that for me.
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[withinbot]: https://github.com/Xe/withinbot
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[direnv]: https://direnv.net
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[lorri]: https://github.com/target/lorri
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Give Nix a try. It's worth at least that much in my opinion.
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