nixpkgs/nixos/tests/appliance-repart-image.nix
Jared Baur 0bf5f3be25
appliance-repart-image: fix OVMF not detecting disk
With the update of systemd to v255, the repart tool switched to use 4K
sector sizes by default. This change sets the appliance-repart-image
test to use a sector size of 512B to fit in with the existing NixOS VM
test infrastructure using qemu disks with 512B sector sizes.
2024-01-27 17:20:04 -08:00

112 lines
3.3 KiB
Nix

# Tests building and running a GUID Partition Table (GPT) appliance image.
# "Appliance" here means that the image does not contain the normal NixOS
# infrastructure of a system profile and cannot be re-built via
# `nixos-rebuild`.
{ lib, ... }:
let
rootPartitionLabel = "root";
imageId = "nixos-appliance";
imageVersion = "1-rc1";
in
{
name = "appliance-gpt-image";
meta.maintainers = with lib.maintainers; [ nikstur ];
nodes.machine = { config, lib, pkgs, ... }: {
imports = [ ../modules/image/repart.nix ];
virtualisation.directBoot.enable = false;
virtualisation.mountHostNixStore = false;
virtualisation.useEFIBoot = true;
# Disable boot loaders because we install one "manually".
# TODO(raitobezarius): revisit this when #244907 lands
boot.loader.grub.enable = false;
system.image.id = imageId;
system.image.version = imageVersion;
virtualisation.fileSystems = lib.mkForce {
"/" = {
device = "/dev/disk/by-partlabel/${rootPartitionLabel}";
fsType = "ext4";
};
};
image.repart = {
name = "appliance-gpt-image";
# OVMF does not work with the default repart sector size of 4096
sectorSize = 512;
partitions = {
"esp" = {
contents =
let
efiArch = config.nixpkgs.hostPlatform.efiArch;
in
{
"/EFI/BOOT/BOOT${lib.toUpper efiArch}.EFI".source =
"${pkgs.systemd}/lib/systemd/boot/efi/systemd-boot${efiArch}.efi";
"/EFI/Linux/${config.system.boot.loader.ukiFile}".source =
"${config.system.build.uki}/${config.system.boot.loader.ukiFile}";
};
repartConfig = {
Type = "esp";
Format = "vfat";
# Minimize = "guess" seems to not work very vell for vfat
# partitons. It's better to set a sensible default instead. The
# aarch64 kernel seems to generally be a little bigger than the
# x86_64 kernel. To stay on the safe side, leave some more slack
# for every platform other than x86_64.
SizeMinBytes = if config.nixpkgs.hostPlatform.isx86_64 then "64M" else "96M";
};
};
"root" = {
storePaths = [ config.system.build.toplevel ];
repartConfig = {
Type = "root";
Format = config.fileSystems."/".fsType;
Label = rootPartitionLabel;
Minimize = "guess";
};
};
};
};
};
testScript = { nodes, ... }: ''
import os
import subprocess
import tempfile
tmp_disk_image = tempfile.NamedTemporaryFile()
subprocess.run([
"${nodes.machine.virtualisation.qemu.package}/bin/qemu-img",
"create",
"-f",
"qcow2",
"-b",
"${nodes.machine.system.build.image}/${nodes.machine.image.repart.imageFile}",
"-F",
"raw",
tmp_disk_image.name,
])
# Set NIX_DISK_IMAGE so that the qemu script finds the right disk image.
os.environ['NIX_DISK_IMAGE'] = tmp_disk_image.name
os_release = machine.succeed("cat /etc/os-release")
assert 'IMAGE_ID="${imageId}"' in os_release
assert 'IMAGE_VERSION="${imageVersion}"' in os_release
bootctl_status = machine.succeed("bootctl status")
assert "Boot Loader Specification Type #2 (.efi)" in bootctl_status
'';
}