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nomicon/nixos/tests/installer.nix

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{ system ? builtins.currentSystem,
config ? {},
pkgs ? import ../.. { inherit system config; },
systemdStage1 ? false
}:
with import ../lib/testing-python.nix { inherit system pkgs; };
with pkgs.lib;
let
# The configuration to install.
makeConfig = { bootLoader, grubVersion, grubDevice, grubIdentifier, grubUseEfi
, extraConfig, forceGrubReinstallCount ? 0
}:
pkgs.writeText "configuration.nix" ''
{ config, lib, pkgs, modulesPath, ... }:
{ imports =
[ ./hardware-configuration.nix
<nixpkgs/nixos/modules/testing/test-instrumentation.nix>
];
# To ensure that we can rebuild the grub configuration on the nixos-rebuild
system.extraDependencies = with pkgs; [ stdenvNoCC ];
${optionalString systemdStage1 "boot.initrd.systemd.enable = true;"}
${optionalString (bootLoader == "grub") ''
boot.loader.grub.version = ${toString grubVersion};
${optionalString (grubVersion == 1) ''
boot.loader.grub.splashImage = null;
''}
boot.loader.grub.extraConfig = "serial; terminal_output serial";
${if grubUseEfi then ''
boot.loader.grub.device = "nodev";
boot.loader.grub.efiSupport = true;
boot.loader.grub.efiInstallAsRemovable = true; # XXX: needed for OVMF?
'' else ''
boot.loader.grub.device = "${grubDevice}";
boot.loader.grub.fsIdentifier = "${grubIdentifier}";
''}
boot.loader.grub.configurationLimit = 100 + ${toString forceGrubReinstallCount};
''}
${optionalString (bootLoader == "systemd-boot") ''
boot.loader.systemd-boot.enable = true;
''}
users.users.alice = {
isNormalUser = true;
home = "/home/alice";
description = "Alice Foobar";
};
hardware.enableAllFirmware = lib.mkForce false;
${replaceChars ["\n"] ["\n "] extraConfig}
}
'';
# The test script boots a NixOS VM, installs NixOS on an empty hard
# disk, and then reboot from the hard disk. It's parameterized with
# a test script fragment `createPartitions', which must create
# partitions and filesystems.
testScriptFun = { bootLoader, createPartitions, grubVersion, grubDevice, grubUseEfi
, grubIdentifier, preBootCommands, postBootCommands, extraConfig
, testSpecialisationConfig
}:
let iface = if grubVersion == 1 then "ide" else "virtio";
isEfi = bootLoader == "systemd-boot" || (bootLoader == "grub" && grubUseEfi);
bios = if pkgs.stdenv.isAarch64 then "QEMU_EFI.fd" else "OVMF.fd";
in if !isEfi && !pkgs.stdenv.hostPlatform.isx86 then
throw "Non-EFI boot methods are only supported on i686 / x86_64"
else ''
def assemble_qemu_flags():
flags = "-cpu max"
${if (system == "x86_64-linux" || system == "i686-linux")
then ''flags += " -m 1024"''
else ''flags += " -m 768 -enable-kvm -machine virt,gic-version=host"''
}
return flags
qemu_flags = {"qemuFlags": assemble_qemu_flags()}
hd_flags = {
"hdaInterface": "${iface}",
"hda": "vm-state-machine/machine.qcow2",
}
${optionalString isEfi ''
hd_flags.update(
bios="${pkgs.OVMF.fd}/FV/${bios}"
)''
}
default_flags = {**hd_flags, **qemu_flags}
def create_machine_named(name):
return create_machine({**default_flags, "name": name})
machine.start()
with subtest("Assert readiness of login prompt"):
machine.succeed("echo hello")
with subtest("Wait for hard disks to appear in /dev"):
machine.succeed("udevadm settle")
${createPartitions}
with subtest("Create the NixOS configuration"):
machine.succeed("nixos-generate-config --root /mnt")
machine.succeed("cat /mnt/etc/nixos/hardware-configuration.nix >&2")
machine.copy_from_host(
"${ makeConfig {
inherit bootLoader grubVersion grubDevice grubIdentifier
grubUseEfi extraConfig;
}
}",
"/mnt/etc/nixos/configuration.nix",
)
with subtest("Perform the installation"):
machine.succeed("nixos-install < /dev/null >&2")
with subtest("Do it again to make sure it's idempotent"):
machine.succeed("nixos-install < /dev/null >&2")
with subtest("Shutdown system after installation"):
machine.succeed("umount /mnt/boot || true")
machine.succeed("umount /mnt")
machine.succeed("sync")
machine.shutdown()
# Now see if we can boot the installation.
machine = create_machine_named("boot-after-install")
# For example to enter LUKS passphrase.
${preBootCommands}
with subtest("Assert that /boot get mounted"):
machine.wait_for_unit("local-fs.target")
${if bootLoader == "grub"
then ''machine.succeed("test -e /boot/grub")''
else ''machine.succeed("test -e /boot/loader/loader.conf")''
}
with subtest("Check whether /root has correct permissions"):
assert "700" in machine.succeed("stat -c '%a' /root")
with subtest("Assert swap device got activated"):
# uncomment once https://bugs.freedesktop.org/show_bug.cgi?id=86930 is resolved
machine.wait_for_unit("swap.target")
machine.succeed("cat /proc/swaps | grep -q /dev")
with subtest("Check that the store is in good shape"):
machine.succeed("nix-store --verify --check-contents >&2")
with subtest("Check whether the channel works"):
machine.succeed("nix-env -iA nixos.procps >&2")
assert ".nix-profile" in machine.succeed("type -tP ps | tee /dev/stderr")
with subtest(
"Check that the daemon works, and that non-root users can run builds "
"(this will build a new profile generation through the daemon)"
):
machine.succeed("su alice -l -c 'nix-env -iA nixos.procps' >&2")
with subtest("Configure system with writable Nix store on next boot"):
# we're not using copy_from_host here because the installer image
# doesn't know about the host-guest sharing mechanism.
machine.copy_from_host_via_shell(
"${ makeConfig {
inherit bootLoader grubVersion grubDevice grubIdentifier
grubUseEfi extraConfig;
forceGrubReinstallCount = 1;
}
}",
"/etc/nixos/configuration.nix",
)
with subtest("Check whether nixos-rebuild works"):
machine.succeed("nixos-rebuild switch >&2")
# FIXME: Nix 2.4 broke nixos-option, someone has to fix it.
# with subtest("Test nixos-option"):
# kernel_modules = machine.succeed("nixos-option boot.initrd.kernelModules")
# assert "virtio_console" in kernel_modules
# assert "List of modules" in kernel_modules
# assert "qemu-guest.nix" in kernel_modules
machine.shutdown()
# Check whether a writable store build works
machine = create_machine_named("rebuild-switch")
${preBootCommands}
machine.wait_for_unit("multi-user.target")
# we're not using copy_from_host here because the installer image
# doesn't know about the host-guest sharing mechanism.
machine.copy_from_host_via_shell(
"${ makeConfig {
inherit bootLoader grubVersion grubDevice grubIdentifier
grubUseEfi extraConfig;
forceGrubReinstallCount = 2;
}
}",
"/etc/nixos/configuration.nix",
)
machine.succeed("nixos-rebuild boot >&2")
machine.shutdown()
# And just to be sure, check that the machine still boots after
# "nixos-rebuild switch".
machine = create_machine_named("boot-after-rebuild-switch")
${preBootCommands}
machine.wait_for_unit("network.target")
${postBootCommands}
machine.shutdown()
# Tests for validating clone configuration entries in grub menu
''
+ optionalString testSpecialisationConfig ''
# Reboot Machine
machine = create_machine_named("clone-default-config")
${preBootCommands}
machine.wait_for_unit("multi-user.target")
with subtest("Booted configuration name should be 'Home'"):
# This is not the name that shows in the grub menu.
# The default configuration is always shown as "Default"
machine.succeed("cat /run/booted-system/configuration-name >&2")
assert "Home" in machine.succeed("cat /run/booted-system/configuration-name")
with subtest("We should **not** find a file named /etc/gitconfig"):
machine.fail("test -e /etc/gitconfig")
with subtest("Set grub to boot the second configuration"):
machine.succeed("grub-reboot 1")
${postBootCommands}
machine.shutdown()
# Reboot Machine
machine = create_machine_named("clone-alternate-config")
${preBootCommands}
machine.wait_for_unit("multi-user.target")
with subtest("Booted configuration name should be Work"):
machine.succeed("cat /run/booted-system/configuration-name >&2")
assert "Work" in machine.succeed("cat /run/booted-system/configuration-name")
with subtest("We should find a file named /etc/gitconfig"):
machine.succeed("test -e /etc/gitconfig")
${postBootCommands}
machine.shutdown()
'';
makeInstallerTest = name:
{ createPartitions, preBootCommands ? "", postBootCommands ? "", extraConfig ? ""
, extraInstallerConfig ? {}
, bootLoader ? "grub" # either "grub" or "systemd-boot"
, grubVersion ? 2, grubDevice ? "/dev/vda", grubIdentifier ? "uuid", grubUseEfi ? false
, enableOCR ? false, meta ? {}
, testSpecialisationConfig ? false
}:
makeTest {
inherit enableOCR;
name = "installer-" + name;
meta = with pkgs.lib.maintainers; {
# put global maintainers here, individuals go into makeInstallerTest fkt call
maintainers = (meta.maintainers or []);
};
nodes = {
# The configuration of the machine used to run "nixos-install".
machine = { pkgs, ... }: {
imports = [
../modules/profiles/installation-device.nix
../modules/profiles/base.nix
extraInstallerConfig
];
# builds stuff in the VM, needs more juice
virtualisation.diskSize = 8 * 1024;
virtualisation.cores = 8;
virtualisation.memorySize = 1536;
boot.initrd.systemd.enable = systemdStage1;
# Use a small /dev/vdb as the root disk for the
# installer. This ensures the target disk (/dev/vda) is
# the same during and after installation.
virtualisation.emptyDiskImages = [ 512 ];
virtualisation.bootDevice =
if grubVersion == 1 then "/dev/disk/by-id/scsi-0QEMU_QEMU_HARDDISK_drive2" else "/dev/vdb";
virtualisation.qemu.diskInterface =
if grubVersion == 1 then "scsi" else "virtio";
# We don't want to have any networking in the guest whatsoever.
# Also, if any vlans are enabled, the guest will reboot
# (with a different configuration for legacy reasons),
# and spend 5 minutes waiting for the vlan interface to show up
# (which will never happen).
virtualisation.vlans = [];
boot.loader.systemd-boot.enable = mkIf (bootLoader == "systemd-boot") true;
hardware.enableAllFirmware = mkForce false;
# The test cannot access the network, so any packages we
# need must be included in the VM.
system.extraDependencies = with pkgs; [
brotli
brotli.dev
brotli.lib
desktop-file-utils
docbook5
docbook_xsl_ns
kmod.dev
libarchive.dev
libxml2.bin
libxslt.bin
nixos-artwork.wallpapers.simple-dark-gray-bottom
ntp
perlPackages.ListCompare
perlPackages.XMLLibXML
python3Minimal
shared-mime-info
sudo
texinfo
unionfs-fuse
xorg.lndir
# add curl so that rather than seeing the test attempt to download
# curl's tarball, we see what it's trying to download
curl
]
++ optional (bootLoader == "grub" && grubVersion == 1) pkgs.grub
++ optionals (bootLoader == "grub" && grubVersion == 2) (let
zfsSupport = lib.any (x: x == "zfs")
(extraInstallerConfig.boot.supportedFilesystems or []);
in [
(pkgs.grub2.override { inherit zfsSupport; })
(pkgs.grub2_efi.override { inherit zfsSupport; })
]);
nix.settings = {
substituters = mkForce [];
hashed-mirrors = null;
connect-timeout = 1;
};
};
};
testScript = testScriptFun {
inherit bootLoader createPartitions preBootCommands postBootCommands
grubVersion grubDevice grubIdentifier grubUseEfi extraConfig
testSpecialisationConfig;
};
};
makeLuksRootTest = name: luksFormatOpts: makeInstallerTest name {
createPartitions = ''
machine.succeed(
"flock /dev/vda parted --script /dev/vda -- mklabel msdos"
+ " mkpart primary ext2 1M 100MB" # /boot
+ " mkpart primary linux-swap 100M 1024M"
+ " mkpart primary 1024M -1s", # LUKS
"udevadm settle",
"mkswap /dev/vda2 -L swap",
"swapon -L swap",
"modprobe dm_mod dm_crypt",
"echo -n supersecret | cryptsetup luksFormat ${luksFormatOpts} -q /dev/vda3 -",
"echo -n supersecret | cryptsetup luksOpen --key-file - /dev/vda3 cryptroot",
"mkfs.ext3 -L nixos /dev/mapper/cryptroot",
"mount LABEL=nixos /mnt",
"mkfs.ext3 -L boot /dev/vda1",
"mkdir -p /mnt/boot",
"mount LABEL=boot /mnt/boot",
)
'';
extraConfig = ''
boot.kernelParams = lib.mkAfter [ "console=tty0" ];
'';
enableOCR = true;
preBootCommands = ''
machine.start()
machine.wait_for_text("Passphrase for")
machine.send_chars("supersecret\n")
'';
};
# The (almost) simplest partitioning scheme: a swap partition and
# one big filesystem partition.
simple-test-config = {
createPartitions = ''
machine.succeed(
"flock /dev/vda parted --script /dev/vda -- mklabel msdos"
+ " mkpart primary linux-swap 1M 1024M"
+ " mkpart primary ext2 1024M -1s",
"udevadm settle",
"mkswap /dev/vda1 -L swap",
"swapon -L swap",
"mkfs.ext3 -L nixos /dev/vda2",
"mount LABEL=nixos /mnt",
)
'';
};
simple-uefi-grub-config = {
createPartitions = ''
machine.succeed(
"flock /dev/vda parted --script /dev/vda -- mklabel gpt"
+ " mkpart ESP fat32 1M 100MiB" # /boot
+ " set 1 boot on"
+ " mkpart primary linux-swap 100MiB 1024MiB"
+ " mkpart primary ext2 1024MiB -1MiB", # /
"udevadm settle",
"mkswap /dev/vda2 -L swap",
"swapon -L swap",
"mkfs.ext3 -L nixos /dev/vda3",
"mount LABEL=nixos /mnt",
"mkfs.vfat -n BOOT /dev/vda1",
"mkdir -p /mnt/boot",
"mount LABEL=BOOT /mnt/boot",
)
'';
bootLoader = "grub";
grubUseEfi = true;
};
specialisation-test-extraconfig = {
extraConfig = ''
environment.systemPackages = [ pkgs.grub2 ];
boot.loader.grub.configurationName = "Home";
specialisation.work.configuration = {
boot.loader.grub.configurationName = lib.mkForce "Work";
environment.etc = {
"gitconfig".text = "
[core]
gitproxy = none for work.com
";
};
};
'';
testSpecialisationConfig = true;
};
in {
# !!! `parted mkpart' seems to silently create overlapping partitions.
# The (almost) simplest partitioning scheme: a swap partition and
# one big filesystem partition.
simple = makeInstallerTest "simple" simple-test-config;
# Test cloned configurations with the simple grub configuration
simpleSpecialised = makeInstallerTest "simpleSpecialised" (simple-test-config // specialisation-test-extraconfig);
# Simple GPT/UEFI configuration using systemd-boot with 3 partitions: ESP, swap & root filesystem
simpleUefiSystemdBoot = makeInstallerTest "simpleUefiSystemdBoot" {
createPartitions = ''
machine.succeed(
"flock /dev/vda parted --script /dev/vda -- mklabel gpt"
+ " mkpart ESP fat32 1M 100MiB" # /boot
+ " set 1 boot on"
+ " mkpart primary linux-swap 100MiB 1024MiB"
+ " mkpart primary ext2 1024MiB -1MiB", # /
"udevadm settle",
"mkswap /dev/vda2 -L swap",
"swapon -L swap",
"mkfs.ext3 -L nixos /dev/vda3",
"mount LABEL=nixos /mnt",
"mkfs.vfat -n BOOT /dev/vda1",
"mkdir -p /mnt/boot",
"mount LABEL=BOOT /mnt/boot",
)
'';
bootLoader = "systemd-boot";
};
simpleUefiGrub = makeInstallerTest "simpleUefiGrub" simple-uefi-grub-config;
# Test cloned configurations with the uefi grub configuration
simpleUefiGrubSpecialisation = makeInstallerTest "simpleUefiGrubSpecialisation" (simple-uefi-grub-config // specialisation-test-extraconfig);
# Same as the previous, but now with a separate /boot partition.
separateBoot = makeInstallerTest "separateBoot" {
createPartitions = ''
machine.succeed(
"flock /dev/vda parted --script /dev/vda -- mklabel msdos"
+ " mkpart primary ext2 1M 100MB" # /boot
+ " mkpart primary linux-swap 100MB 1024M"
+ " mkpart primary ext2 1024M -1s", # /
"udevadm settle",
"mkswap /dev/vda2 -L swap",
"swapon -L swap",
"mkfs.ext3 -L nixos /dev/vda3",
"mount LABEL=nixos /mnt",
"mkfs.ext3 -L boot /dev/vda1",
"mkdir -p /mnt/boot",
"mount LABEL=boot /mnt/boot",
)
'';
};
# Same as the previous, but with fat32 /boot.
separateBootFat = makeInstallerTest "separateBootFat" {
createPartitions = ''
machine.succeed(
"flock /dev/vda parted --script /dev/vda -- mklabel msdos"
+ " mkpart primary ext2 1M 100MB" # /boot
+ " mkpart primary linux-swap 100MB 1024M"
+ " mkpart primary ext2 1024M -1s", # /
"udevadm settle",
"mkswap /dev/vda2 -L swap",
"swapon -L swap",
"mkfs.ext3 -L nixos /dev/vda3",
"mount LABEL=nixos /mnt",
"mkfs.vfat -n BOOT /dev/vda1",
"mkdir -p /mnt/boot",
"mount LABEL=BOOT /mnt/boot",
)
'';
};
# zfs on / with swap
zfsroot = makeInstallerTest "zfs-root" {
extraInstallerConfig = {
boot.supportedFilesystems = [ "zfs" ];
};
extraConfig = ''
boot.supportedFilesystems = [ "zfs" ];
# Using by-uuid overrides the default of by-id, and is unique
# to the qemu disks, as they don't produce by-id paths for
# some reason.
boot.zfs.devNodes = "/dev/disk/by-uuid/";
networking.hostId = "00000000";
'';
createPartitions = ''
machine.succeed(
"flock /dev/vda parted --script /dev/vda -- mklabel msdos"
+ " mkpart primary linux-swap 1M 1024M"
+ " mkpart primary 1024M -1s",
"udevadm settle",
"mkswap /dev/vda1 -L swap",
"swapon -L swap",
"zpool create rpool /dev/vda2",
"zfs create -o mountpoint=legacy rpool/root",
"mount -t zfs rpool/root /mnt",
"udevadm settle",
)
'';
};
# Create two physical LVM partitions combined into one volume group
# that contains the logical swap and root partitions.
lvm = makeInstallerTest "lvm" {
createPartitions = ''
machine.succeed(
"flock /dev/vda parted --script /dev/vda -- mklabel msdos"
+ " mkpart primary 1M 2048M" # PV1
+ " set 1 lvm on"
+ " mkpart primary 2048M -1s" # PV2
+ " set 2 lvm on",
"udevadm settle",
"pvcreate /dev/vda1 /dev/vda2",
"vgcreate MyVolGroup /dev/vda1 /dev/vda2",
"lvcreate --size 1G --name swap MyVolGroup",
"lvcreate --size 6G --name nixos MyVolGroup",
"mkswap -f /dev/MyVolGroup/swap -L swap",
"swapon -L swap",
"mkfs.xfs -L nixos /dev/MyVolGroup/nixos",
"mount LABEL=nixos /mnt",
)
'';
};
# Boot off an encrypted root partition with the default LUKS header format
luksroot = makeLuksRootTest "luksroot-format1" "";
# Boot off an encrypted root partition with LUKS1 format
luksroot-format1 = makeLuksRootTest "luksroot-format1" "--type=LUKS1";
# Boot off an encrypted root partition with LUKS2 format
luksroot-format2 = makeLuksRootTest "luksroot-format2" "--type=LUKS2";
# Test whether opening encrypted filesystem with keyfile
# Checks for regression of missing cryptsetup, when no luks device without
# keyfile is configured
encryptedFSWithKeyfile = makeInstallerTest "encryptedFSWithKeyfile" {
createPartitions = ''
machine.succeed(
"flock /dev/vda parted --script /dev/vda -- mklabel msdos"
+ " mkpart primary ext2 1M 100MB" # /boot
+ " mkpart primary linux-swap 100M 1024M"
+ " mkpart primary 1024M 1280M" # LUKS with keyfile
+ " mkpart primary 1280M -1s",
"udevadm settle",
"mkswap /dev/vda2 -L swap",
"swapon -L swap",
"mkfs.ext3 -L nixos /dev/vda4",
"mount LABEL=nixos /mnt",
"mkfs.ext3 -L boot /dev/vda1",
"mkdir -p /mnt/boot",
"mount LABEL=boot /mnt/boot",
"modprobe dm_mod dm_crypt",
"echo -n supersecret > /mnt/keyfile",
"cryptsetup luksFormat -q /dev/vda3 --key-file /mnt/keyfile",
"cryptsetup luksOpen --key-file /mnt/keyfile /dev/vda3 crypt",
"mkfs.ext3 -L test /dev/mapper/crypt",
"cryptsetup luksClose crypt",
"mkdir -p /mnt/test",
)
'';
extraConfig = ''
fileSystems."/test" = {
device = "/dev/disk/by-label/test";
fsType = "ext3";
encrypted.enable = true;
encrypted.blkDev = "/dev/vda3";
encrypted.label = "crypt";
encrypted.keyFile = "/mnt-root/keyfile";
};
'';
};
swraid = makeInstallerTest "swraid" {
createPartitions = ''
machine.succeed(
"flock /dev/vda parted --script /dev/vda --"
+ " mklabel msdos"
+ " mkpart primary ext2 1M 100MB" # /boot
+ " mkpart extended 100M -1s"
+ " mkpart logical 102M 3102M" # md0 (root), first device
+ " mkpart logical 3103M 6103M" # md0 (root), second device
+ " mkpart logical 6104M 6360M" # md1 (swap), first device
+ " mkpart logical 6361M 6617M", # md1 (swap), second device
"udevadm settle",
"ls -l /dev/vda* >&2",
"cat /proc/partitions >&2",
"udevadm control --stop-exec-queue",
"mdadm --create --force /dev/md0 --metadata 1.2 --level=raid1 "
+ "--raid-devices=2 /dev/vda5 /dev/vda6",
"mdadm --create --force /dev/md1 --metadata 1.2 --level=raid1 "
+ "--raid-devices=2 /dev/vda7 /dev/vda8",
"udevadm control --start-exec-queue",
"udevadm settle",
"mkswap -f /dev/md1 -L swap",
"swapon -L swap",
"mkfs.ext3 -L nixos /dev/md0",
"mount LABEL=nixos /mnt",
"mkfs.ext3 -L boot /dev/vda1",
"mkdir /mnt/boot",
"mount LABEL=boot /mnt/boot",
"udevadm settle",
)
'';
preBootCommands = ''
machine.start()
machine.fail("dmesg | grep 'immediate safe mode'")
'';
};
bcache = makeInstallerTest "bcache" {
createPartitions = ''
machine.succeed(
"flock /dev/vda parted --script /dev/vda --"
+ " mklabel msdos"
+ " mkpart primary ext2 1M 100MB" # /boot
+ " mkpart primary 100MB 512MB " # swap
+ " mkpart primary 512MB 1024MB" # Cache (typically SSD)
+ " mkpart primary 1024MB -1s ", # Backing device (typically HDD)
"modprobe bcache",
"udevadm settle",
"make-bcache -B /dev/vda4 -C /dev/vda3",
"udevadm settle",
"mkfs.ext3 -L nixos /dev/bcache0",
"mount LABEL=nixos /mnt",
"mkfs.ext3 -L boot /dev/vda1",
"mkdir /mnt/boot",
"mount LABEL=boot /mnt/boot",
"mkswap -f /dev/vda2 -L swap",
"swapon -L swap",
)
'';
};
bcachefsSimple = makeInstallerTest "bcachefs-simple" {
extraInstallerConfig = {
boot.supportedFilesystems = [ "bcachefs" ];
};
createPartitions = ''
machine.succeed(
"flock /dev/vda parted --script /dev/vda -- mklabel msdos"
+ " mkpart primary ext2 1M 100MB" # /boot
+ " mkpart primary linux-swap 100M 1024M" # swap
+ " mkpart primary 1024M -1s", # /
"udevadm settle",
"mkswap /dev/vda2 -L swap",
"swapon -L swap",
"mkfs.bcachefs -L root /dev/vda3",
"mount -t bcachefs /dev/vda3 /mnt",
"mkfs.ext3 -L boot /dev/vda1",
"mkdir -p /mnt/boot",
"mount /dev/vda1 /mnt/boot",
)
'';
};
bcachefsEncrypted = makeInstallerTest "bcachefs-encrypted" {
extraInstallerConfig = {
boot.supportedFilesystems = [ "bcachefs" ];
environment.systemPackages = with pkgs; [ keyutils ];
};
# We don't want to use the normal way of unlocking bcachefs defined in tasks/filesystems/bcachefs.nix.
# So, override initrd.postDeviceCommands completely and simply unlock with the predefined password.
extraConfig = ''
boot.initrd.postDeviceCommands = lib.mkForce "echo password | bcachefs unlock /dev/vda3";
'';
createPartitions = ''
machine.succeed(
"flock /dev/vda parted --script /dev/vda -- mklabel msdos"
+ " mkpart primary ext2 1M 100MB" # /boot
+ " mkpart primary linux-swap 100M 1024M" # swap
+ " mkpart primary 1024M -1s", # /
"udevadm settle",
"mkswap /dev/vda2 -L swap",
"swapon -L swap",
"keyctl link @u @s",
"echo password | mkfs.bcachefs -L root --encrypted /dev/vda3",
"echo password | bcachefs unlock /dev/vda3",
"mount -t bcachefs /dev/vda3 /mnt",
"mkfs.ext3 -L boot /dev/vda1",
"mkdir -p /mnt/boot",
"mount /dev/vda1 /mnt/boot",
)
'';
};
bcachefsMulti = makeInstallerTest "bcachefs-multi" {
extraInstallerConfig = {
boot.supportedFilesystems = [ "bcachefs" ];
};
createPartitions = ''
machine.succeed(
"flock /dev/vda parted --script /dev/vda -- mklabel msdos"
+ " mkpart primary ext2 1M 100MB" # /boot
+ " mkpart primary linux-swap 100M 1024M" # swap
+ " mkpart primary 1024M 4096M" # /
+ " mkpart primary 4096M -1s", # /
"udevadm settle",
"mkswap /dev/vda2 -L swap",
"swapon -L swap",
"mkfs.bcachefs -L root --metadata_replicas 2 --foreground_target ssd --promote_target ssd --background_target hdd --label ssd /dev/vda3 --label hdd /dev/vda4",
"mount -t bcachefs /dev/vda3:/dev/vda4 /mnt",
"mkfs.ext3 -L boot /dev/vda1",
"mkdir -p /mnt/boot",
"mount /dev/vda1 /mnt/boot",
)
'';
};
# Test a basic install using GRUB 1.
grub1 = makeInstallerTest "grub1" rec {
createPartitions = ''
machine.succeed(
"flock ${grubDevice} parted --script ${grubDevice} -- mklabel msdos"
+ " mkpart primary linux-swap 1M 1024M"
+ " mkpart primary ext2 1024M -1s",
"udevadm settle",
"mkswap ${grubDevice}-part1 -L swap",
"swapon -L swap",
"mkfs.ext3 -L nixos ${grubDevice}-part2",
"mount LABEL=nixos /mnt",
"mkdir -p /mnt/tmp",
)
'';
grubVersion = 1;
# /dev/sda is not stable, even when the SCSI disk number is.
grubDevice = "/dev/disk/by-id/scsi-0QEMU_QEMU_HARDDISK_drive1";
};
# Test using labels to identify volumes in grub
simpleLabels = makeInstallerTest "simpleLabels" {
createPartitions = ''
machine.succeed(
"sgdisk -Z /dev/vda",
"sgdisk -n 1:0:+1M -n 2:0:+1G -N 3 -t 1:ef02 -t 2:8200 -t 3:8300 -c 3:root /dev/vda",
"mkswap /dev/vda2 -L swap",
"swapon -L swap",
"mkfs.ext4 -L root /dev/vda3",
"mount LABEL=root /mnt",
)
'';
grubIdentifier = "label";
};
# Test using the provided disk name within grub
# TODO: Fix udev so the symlinks are unneeded in /dev/disks
simpleProvided = makeInstallerTest "simpleProvided" {
createPartitions = ''
uuid = "$(blkid -s UUID -o value /dev/vda2)"
machine.succeed(
"sgdisk -Z /dev/vda",
"sgdisk -n 1:0:+1M -n 2:0:+100M -n 3:0:+1G -N 4 -t 1:ef02 -t 2:8300 "
+ "-t 3:8200 -t 4:8300 -c 2:boot -c 4:root /dev/vda",
"mkswap /dev/vda3 -L swap",
"swapon -L swap",
"mkfs.ext4 -L boot /dev/vda2",
"mkfs.ext4 -L root /dev/vda4",
)
machine.execute(f"ln -s ../../vda2 /dev/disk/by-uuid/{uuid}")
machine.execute("ln -s ../../vda4 /dev/disk/by-label/root")
machine.succeed(
"mount /dev/disk/by-label/root /mnt",
"mkdir /mnt/boot",
f"mount /dev/disk/by-uuid/{uuid} /mnt/boot",
)
'';
grubIdentifier = "provided";
};
# Simple btrfs grub testing
btrfsSimple = makeInstallerTest "btrfsSimple" {
createPartitions = ''
machine.succeed(
"sgdisk -Z /dev/vda",
"sgdisk -n 1:0:+1M -n 2:0:+1G -N 3 -t 1:ef02 -t 2:8200 -t 3:8300 -c 3:root /dev/vda",
"mkswap /dev/vda2 -L swap",
"swapon -L swap",
"mkfs.btrfs -L root /dev/vda3",
"mount LABEL=root /mnt",
)
'';
};
# Test to see if we can detect /boot and /nix on subvolumes
btrfsSubvols = makeInstallerTest "btrfsSubvols" {
createPartitions = ''
machine.succeed(
"sgdisk -Z /dev/vda",
"sgdisk -n 1:0:+1M -n 2:0:+1G -N 3 -t 1:ef02 -t 2:8200 -t 3:8300 -c 3:root /dev/vda",
"mkswap /dev/vda2 -L swap",
"swapon -L swap",
"mkfs.btrfs -L root /dev/vda3",
"btrfs device scan",
"mount LABEL=root /mnt",
"btrfs subvol create /mnt/boot",
"btrfs subvol create /mnt/nixos",
"btrfs subvol create /mnt/nixos/default",
"umount /mnt",
"mount -o defaults,subvol=nixos/default LABEL=root /mnt",
"mkdir /mnt/boot",
"mount -o defaults,subvol=boot LABEL=root /mnt/boot",
)
'';
};
# Test to see if we can detect default and aux subvolumes correctly
btrfsSubvolDefault = makeInstallerTest "btrfsSubvolDefault" {
createPartitions = ''
machine.succeed(
"sgdisk -Z /dev/vda",
"sgdisk -n 1:0:+1M -n 2:0:+1G -N 3 -t 1:ef02 -t 2:8200 -t 3:8300 -c 3:root /dev/vda",
"mkswap /dev/vda2 -L swap",
"swapon -L swap",
"mkfs.btrfs -L root /dev/vda3",
"btrfs device scan",
"mount LABEL=root /mnt",
"btrfs subvol create /mnt/badpath",
"btrfs subvol create /mnt/badpath/boot",
"btrfs subvol create /mnt/nixos",
"btrfs subvol set-default "
+ "$(btrfs subvol list /mnt | grep 'nixos' | awk '{print $2}') /mnt",
"umount /mnt",
"mount -o defaults LABEL=root /mnt",
"mkdir -p /mnt/badpath/boot", # Help ensure the detection mechanism
# is actually looking up subvolumes
"mkdir /mnt/boot",
"mount -o defaults,subvol=badpath/boot LABEL=root /mnt/boot",
)
'';
};
}