This allows for correct highlighting and maybe future automatic formatting. The AST was verified to work with nixfmt only.
4 KiB
LUKS-Encrypted File Systems
NixOS supports file systems that are encrypted using LUKS (Linux
Unified Key Setup). For example, here is how you create an encrypted
Ext4 file system on the device
/dev/disk/by-uuid/3f6b0024-3a44-4fde-a43a-767b872abe5d
:
# cryptsetup luksFormat /dev/disk/by-uuid/3f6b0024-3a44-4fde-a43a-767b872abe5d
WARNING!
========
This will overwrite data on /dev/disk/by-uuid/3f6b0024-3a44-4fde-a43a-767b872abe5d irrevocably.
Are you sure? (Type uppercase yes): YES
Enter LUKS passphrase: ***
Verify passphrase: ***
# cryptsetup luksOpen /dev/disk/by-uuid/3f6b0024-3a44-4fde-a43a-767b872abe5d crypted
Enter passphrase for /dev/disk/by-uuid/3f6b0024-3a44-4fde-a43a-767b872abe5d: ***
# mkfs.ext4 /dev/mapper/crypted
The LUKS volume should be automatically picked up by
nixos-generate-config
, but you might want to verify that your
hardware-configuration.nix
looks correct. To manually ensure that the
system is automatically mounted at boot time as /
, add the following
to configuration.nix
:
{
boot.initrd.luks.devices.crypted.device = "/dev/disk/by-uuid/3f6b0024-3a44-4fde-a43a-767b872abe5d";
fileSystems."/".device = "/dev/mapper/crypted";
}
Should grub be used as bootloader, and /boot
is located on an
encrypted partition, it is necessary to add the following grub option:
{
boot.loader.grub.enableCryptodisk = true;
}
FIDO2
NixOS also supports unlocking your LUKS-Encrypted file system using a FIDO2 compatible token.
Without systemd in initrd
In the following example, we will create a new
FIDO2 credential and add it as a new key to our existing device
/dev/sda2
:
# export FIDO2_LABEL="/dev/sda2 @ $HOSTNAME"
# fido2luks credential "$FIDO2_LABEL"
f1d00200108b9d6e849a8b388da457688e3dd653b4e53770012d8f28e5d3b269865038c346802f36f3da7278b13ad6a3bb6a1452e24ebeeaa24ba40eef559b1b287d2a2f80b7
# fido2luks -i add-key /dev/sda2 f1d00200108b9d6e849a8b388da457688e3dd653b4e53770012d8f28e5d3b269865038c346802f36f3da7278b13ad6a3bb6a1452e24ebeeaa24ba40eef559b1b287d2a2f80b7
Password:
Password (again):
Old password:
Old password (again):
Added to key to device /dev/sda2, slot: 2
To ensure that this file system is decrypted using the FIDO2 compatible
key, add the following to configuration.nix
:
{
boot.initrd.luks.fido2Support = true;
boot.initrd.luks.devices."/dev/sda2".fido2.credential = "f1d00200108b9d6e849a8b388da457688e3dd653b4e53770012d8f28e5d3b269865038c346802f36f3da7278b13ad6a3bb6a1452e24ebeeaa24ba40eef559b1b287d2a2f80b7";
}
You can also use the FIDO2 passwordless setup, but for security reasons, you might want to enable it only when your device is PIN protected, such as Trezor.
{
boot.initrd.luks.devices."/dev/sda2".fido2.passwordLess = true;
}
systemd Stage 1
If systemd stage 1 is enabled, it handles unlocking of LUKS-enrypted volumes
during boot. The following example enables systemd stage1 and adds support for
unlocking the existing LUKS2 volume root
using any enrolled FIDO2 compatible
tokens.
{
boot.initrd = {
luks.devices.root = {
crypttabExtraOpts = [ "fido2-device=auto" ];
device = "/dev/sda2";
};
systemd.enable = true;
};
}
All tokens that should be used for unlocking the LUKS2-encrypted volume must first be enrolled using systemd-cryptenroll. In the following example, a new key slot for the first discovered token is added to the LUKS volume.
# systemd-cryptenroll --fido2-device=auto /dev/sda2
Existing key slots are left intact, unless --wipe-slot=
is specified. It is
recommened to add a recovery key that should be stored in a secure physical
location and can be entered wherever a password would be entered.
# systemd-cryptenroll --recovery-key /dev/sda2