{
system ? builtins.currentSystem,
config ? { },
pkgs ? import ../.. { inherit system config; },
}:
with import ../lib/testing-python.nix { inherit system pkgs; };
with pkgs.lib;
let
# A testScript fragment that prepares a disk with some empty, unpartitioned
# space. and uses it to boot the test with. Takes a single argument `machine`
# from which the diskImage is extracted.
useDiskImage = machine: ''
import os
import shutil
import subprocess
import tempfile
tmp_disk_image = tempfile.NamedTemporaryFile()
shutil.copyfile("${machine.system.build.diskImage}/nixos.img", tmp_disk_image.name)
subprocess.run([
"${machine.config.virtualisation.qemu.package}/bin/qemu-img",
"resize",
"-f",
"raw",
tmp_disk_image.name,
"+32M",
])
# Set NIX_DISK_IMAGE so that the qemu script finds the right disk image.
os.environ['NIX_DISK_IMAGE'] = tmp_disk_image.name
'';
common =
config,
pkgs,
lib,
...
virtualisation.useDefaultFilesystems = false;
virtualisation.fileSystems = {
"/" = {
device = "/dev/vda2";
fsType = "ext4";
};
# systemd-repart operates on disks with a partition table. The qemu module,
# however, creates separate filesystem images without a partition table, so
# we have to create a disk image manually.
#
# This creates two partitions, an ESP available as /dev/vda1 and the root
# partition available as /dev/vda2.
system.build.diskImage = import ../lib/make-disk-image.nix {
inherit config pkgs lib;
# Use a raw format disk so that it can be resized before starting the
# test VM.
format = "raw";
# Keep the image as small as possible but leave some room for changes.
bootSize = "32M";
additionalSpace = "0M";
# GPT with an EFI System Partition is the typical use case for
# systemd-repart because it does not support MBR.
partitionTableType = "efi";
# We do not actually care much about the content of the partitions, so we
# do not need a bootloader installed.
installBootLoader = false;
# Improve determinism by not copying a channel.
copyChannel = false;
in
basic = makeTest {
name = "systemd-repart";
meta.maintainers = with maintainers; [ nikstur ];
nodes.machine =
{ config, pkgs, ... }:
imports = [ common ];
boot.initrd.systemd.enable = true;
boot.initrd.systemd.repart.enable = true;
systemd.repart.partitions = {
"10-root" = {
Type = "linux-generic";
testScript =
{ nodes, ... }:
''
${useDiskImage nodes.machine}
machine.start()
machine.wait_for_unit("multi-user.target")
systemd_repart_logs = machine.succeed("journalctl --boot --unit systemd-repart.service")
assert "Growing existing partition 1." in systemd_repart_logs
after-initrd = makeTest {
name = "systemd-repart-after-initrd";
systemd.repart.enable = true;
systemd_repart_logs = machine.succeed("journalctl --unit systemd-repart.service")
create-root = makeTest {
name = "systemd-repart-create-root";
device = "/dev/disk/by-partlabel/created-root";
"/nix/store" = {
# Create an image containing only the Nix store. This enables creating
# the root partition with systemd-repart and then successfully booting
# into a working system.
# This creates two partitions, an ESP available as /dev/vda1 and the Nix
# store available as /dev/vda2.
onlyNixStore = true;
boot.initrd.systemd.repart.device = "/dev/vda";
Type = "root";
Label = "created-root";
Format = "ext4";
assert "Adding new partition 2 to partition table." in systemd_repart_logs
}