nixpkgs/pkgs/applications/networking/cluster/k3s/default.nix
2022-02-27 15:05:51 -08:00

318 lines
12 KiB
Nix

{ stdenv
, lib
, makeWrapper
, socat
, iptables
, iproute2
, bridge-utils
, btrfs-progs
, conntrack-tools
, buildGoModule
, runc
, rsync
, kmod
, libseccomp
, pkg-config
, ethtool
, util-linux
, fetchFromGitHub
, fetchurl
, fetchzip
, fetchgit
, zstd
, yq-go
, nixosTests
}:
with lib;
# k3s is a kinda weird derivation. One of the main points of k3s is the
# simplicity of it being one binary that can perform several tasks.
# However, when you have a good package manager (like nix), that doesn't
# actually make much of a difference; you don't really care if it's one binary
# or 10 since with a good package manager, installing and running it is
# identical.
# Since upstream k3s packages itself as one large binary with several
# "personalities" (in the form of subcommands like 'k3s agent' and 'k3s
# kubectl'), it ends up being easiest to mostly mimic upstream packaging, with
# some exceptions.
# K3s also carries patches to some packages (such as containerd and cni
# plugins), so we intentionally use the k3s versions of those binaries for k3s,
# even if the upstream version of those binaries exist in nixpkgs already. In
# the end, that means we have a thick k3s binary that behaves like the upstream
# one for the most part.
# However, k3s also bundles several pieces of unpatched software, from the
# strongswan vpn software, to iptables, to socat, conntrack, busybox, etc.
# Those pieces of software we entirely ignore upstream's handling of, and just
# make sure they're in the path if desired.
let
k3sVersion = "1.23.3+k3s1"; # k3s git tag
k3sCommit = "6f4217a3405d16a1a51bbb40872d7dcb87207bb9"; # k3s git commit at the above version
k3sRepoSha256 = "sha256-0dRusG1vL+1KbmViIUNCZK1b+FEgV6otcVUyFonHmm4=";
k3sVendorSha256 = "sha256-8Yp9csyRNSYi9wo8E8mF8cu92wG1t3l18wJ8Y4L7HEA=";
k3sServerVendorSha256 = "sha256-9+2k/ipAOhc8JJU+L2dwaM01Dkw+0xyrF5kt6mL19G0=";
# taken from ./manifests/traefik.yaml, extracted from '.spec.chart' https://github.com/k3s-io/k3s/blob/v1.23.3%2Bk3s1/scripts/download#L9
# The 'patch' and 'minor' versions are currently hardcoded as single digits only, so ignore the trailing two digits. Weird, I know.
traefikChartVersion = "10.9.1";
traefikChartSha256 = "sha256-XM1DLofU1zEEFeB5bNQ7cgv102gXsToPP7SFh87QuGQ=";
# taken from ./scripts/version.sh VERSION_ROOT https://github.com/k3s-io/k3s/blob/v1.23.3%2Bk3s1/scripts/version.sh#L47
k3sRootVersion = "0.9.1";
k3sRootSha256 = "0r2cj4l50cxkrvszpzxfk36lvbjf9vcmp6d5lvxg8qsah8lki3x8";
# taken from ./scripts/version.sh VERSION_CNIPLUGINS https://github.com/k3s-io/k3s/blob/v1.23.3%2Bk3s1/scripts/version.sh#L45
k3sCNIVersion = "0.9.1-k3s1";
k3sCNISha256 = "1327vmfph7b8i14q05c2xdfzk60caflg1zhycx0mrf3d59f4zsz5";
# taken from go.mod, the 'github.com/containerd/containerd' line
# run `grep github.com/containerd/containerd go.mod | head -n1 | awk '{print $4}'`
containerdVersion = "1.5.9-k3s1";
containerdSha256 = "sha256-7xlhBA6KuwFlw+jyThygv4Ow9F3xjjIUtS6x8YHwjic=";
# run `grep github.com/kubernetes-sigs/cri-tools go.mod | head -n1 | awk '{print $4}'` in the k3s repo at the tag
criCtlVersion = "1.22.0-k3s1";
baseMeta = {
description = "A lightweight Kubernetes distribution";
license = licenses.asl20;
homepage = "https://k3s.io";
maintainers = with maintainers; [ euank mic92 superherointj ];
platforms = platforms.linux;
};
# https://github.com/k3s-io/k3s/blob/5fb370e53e0014dc96183b8ecb2c25a61e891e76/scripts/build#L19-L40
versionldflags = [
"-X github.com/rancher/k3s/pkg/version.Version=v${k3sVersion}"
"-X github.com/rancher/k3s/pkg/version.GitCommit=${lib.substring 0 8 k3sCommit}"
"-X k8s.io/client-go/pkg/version.gitVersion=v${k3sVersion}"
"-X k8s.io/client-go/pkg/version.gitCommit=${k3sCommit}"
"-X k8s.io/client-go/pkg/version.gitTreeState=clean"
"-X k8s.io/client-go/pkg/version.buildDate=1970-01-01T01:01:01Z"
"-X k8s.io/component-base/version.gitVersion=v${k3sVersion}"
"-X k8s.io/component-base/version.gitCommit=${k3sCommit}"
"-X k8s.io/component-base/version.gitTreeState=clean"
"-X k8s.io/component-base/version.buildDate=1970-01-01T01:01:01Z"
"-X github.com/kubernetes-sigs/cri-tools/pkg/version.Version=v${criCtlVersion}"
"-X github.com/containerd/containerd/version.Version=v${containerdVersion}"
"-X github.com/containerd/containerd/version.Package=github.com/k3s-io/containerd"
];
# bundled into the k3s binary
traefikChart = fetchurl {
url = "https://helm.traefik.io/traefik/traefik-${traefikChartVersion}.tgz";
sha256 = traefikChartSha256;
};
# so, k3s is a complicated thing to package
# This derivation attempts to avoid including any random binaries from the
# internet. k3s-root is _mostly_ binaries built to be bundled in k3s (which
# we don't care about doing, we can add those as build or runtime
# dependencies using a real package manager).
# In addition to those binaries, it's also configuration though (right now
# mostly strongswan configuration), and k3s does use those files.
# As such, we download it in order to grab 'etc' and bundle it into the final
# k3s binary.
k3sRoot = fetchzip {
# Note: marked as apache 2.0 license
url = "https://github.com/k3s-io/k3s-root/releases/download/v${k3sRootVersion}/k3s-root-amd64.tar";
sha256 = k3sRootSha256;
stripRoot = false;
};
k3sCNIPlugins = buildGoModule rec {
pname = "k3s-cni-plugins";
version = k3sCNIVersion;
vendorSha256 = null;
subPackages = [ "." ];
src = fetchFromGitHub {
owner = "rancher";
repo = "plugins";
rev = "v${version}";
sha256 = k3sCNISha256;
};
postInstall = ''
mv $out/bin/plugins $out/bin/cni
'';
meta = baseMeta // {
description = "CNI plugins, as patched by rancher for k3s";
};
};
# Grab this separately from a build because it's used by both stages of the
# k3s build.
k3sRepo = fetchgit {
url = "https://github.com/k3s-io/k3s";
rev = "v${k3sVersion}";
sha256 = k3sRepoSha256;
};
# Stage 1 of the k3s build:
# Let's talk about how k3s is structured.
# One of the ideas of k3s is that there's the single "k3s" binary which can
# do everything you need, from running a k3s server, to being a worker node,
# to running kubectl.
# The way that actually works is that k3s is a single go binary that contains
# a bunch of bindata that it unpacks at runtime into directories (either the
# user's home directory or /var/lib/rancher if run as root).
# This bindata includes both binaries and configuration.
# In order to let nixpkgs do all its autostripping/patching/etc, we split this into two derivations.
# First, we build all the binaries that get packed into the thick k3s binary
# (and output them from one derivation so they'll all be suitably patched up).
# Then, we bundle those binaries into our thick k3s binary and use that as
# the final single output.
# This approach was chosen because it ensures the bundled binaries all are
# correctly built to run with nix (we can lean on the existing buildGoModule
# stuff), and we can again lean on that tooling for the final k3s binary too.
# Other alternatives would be to manually run the
# strip/patchelf/remove-references step ourselves in the installPhase of the
# derivation when we've built all the binaries, but haven't bundled them in
# with generated bindata yet.
k3sServer = buildGoModule rec {
pname = "k3s-server";
version = k3sVersion;
src = k3sRepo;
vendorSha256 = k3sServerVendorSha256;
nativeBuildInputs = [ pkg-config ];
buildInputs = [ libseccomp ];
subPackages = [ "cmd/server" ];
ldflags = versionldflags;
# create the multicall symlinks for k3s
postInstall = ''
mv $out/bin/server $out/bin/k3s
pushd $out
# taken verbatim from https://github.com/k3s-io/k3s/blob/v1.23.3%2Bk3s1/scripts/build#L105-L113
ln -s k3s ./bin/k3s-agent
ln -s k3s ./bin/k3s-server
ln -s k3s ./bin/k3s-etcd-snapshot
ln -s k3s ./bin/k3s-secrets-encrypt
ln -s k3s ./bin/k3s-certificate
ln -s k3s ./bin/kubectl
ln -s k3s ./bin/crictl
ln -s k3s ./bin/ctr
popd
'';
meta = baseMeta // {
description = "The various binaries that get packaged into the final k3s binary";
};
};
k3sContainerd = buildGoModule {
pname = "k3s-containerd";
version = containerdVersion;
src = fetchFromGitHub {
owner = "k3s-io";
repo = "containerd";
rev = "v${containerdVersion}";
sha256 = containerdSha256;
};
vendorSha256 = null;
buildInputs = [ btrfs-progs ];
subPackages = [ "cmd/containerd" "cmd/containerd-shim-runc-v2" ];
ldflags = versionldflags;
};
in
buildGoModule rec {
pname = "k3s";
version = k3sVersion;
src = k3sRepo;
proxyVendor = true;
vendorSha256 = k3sVendorSha256;
patches = [
./patches/0001-scrips-download-strip-downloading-just-package-CRD.patch
./patches/0002-Don-t-build-a-static-binary-in-package-cli.patch
];
# Important utilities used by the kubelet, see
# https://github.com/kubernetes/kubernetes/issues/26093#issuecomment-237202494
# Note the list in that issue is stale and some aren't relevant for k3s.
k3sRuntimeDeps = [
kmod
socat
iptables
iproute2
bridge-utils
ethtool
util-linux # kubelet wants 'nsenter' from util-linux: https://github.com/kubernetes/kubernetes/issues/26093#issuecomment-705994388
conntrack-tools
];
buildInputs = k3sRuntimeDeps;
nativeBuildInputs = [
makeWrapper
rsync
yq-go
zstd
];
# embedded in the final k3s cli
propagatedBuildInputs = [
k3sCNIPlugins
k3sContainerd
k3sServer
runc
];
# We override most of buildPhase due to peculiarities in k3s's build.
# Specifically, it has a 'go generate' which runs part of the package. See
# this comment:
# https://github.com/NixOS/nixpkgs/pull/158089#discussion_r799965694
# So, why do we use buildGoModule at all? For the `vendorSha256` / `go mod download` stuff primarily.
buildPhase = ''
patchShebangs ./scripts/package-cli ./scripts/download ./scripts/build-upload
# copy needed 'go generate' inputs into place
mkdir -p ./bin/aux
rsync -a --no-perms ${k3sServer}/bin/ ./bin/
ln -vsf ${runc}/bin/runc ./bin/runc
ln -vsf ${k3sCNIPlugins}/bin/cni ./bin/cni
ln -vsf ${k3sContainerd}/bin/* ./bin/
rsync -a --no-perms --chmod u=rwX ${k3sRoot}/etc/ ./etc/
mkdir -p ./build/static/charts
# Note, upstream's chart has a 00 suffix. This seems to not matter though, so we're ignoring that naming detail.
export TRAEFIK_CHART_FILE=${traefikChart}
# place the traefik chart using their code since it's complicated
# We trim the actual download, see patches
./scripts/download
export ARCH=$GOARCH
export DRONE_TAG="v${k3sVersion}"
export DRONE_COMMIT="${k3sCommit}"
# use ./scripts/package-cli to run 'go generate' + 'go build'
./scripts/package-cli
mkdir -p $out/bin
'';
# Otherwise it depends on 'getGoDirs', which is normally set in buildPhase
doCheck = false;
installPhase = ''
# wildcard to match the arm64 build too
install -m 0755 dist/artifacts/k3s* -D $out/bin/k3s
wrapProgram $out/bin/k3s \
--prefix PATH : ${lib.makeBinPath k3sRuntimeDeps} \
--prefix PATH : "$out/bin"
'';
doInstallCheck = true;
installCheckPhase = ''
$out/bin/k3s --version | grep -F "v${k3sVersion}" >/dev/null
'';
passthru.updateScript = ./update.sh;
passthru.tests = { inherit (nixosTests) k3s-single-node k3s-single-node-docker; };
meta = baseMeta;
}