mirror of
https://github.com/ItsDrike/nixdots
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248 lines
10 KiB
Markdown
248 lines
10 KiB
Markdown
# Impermanence
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The word impermanence means temporary or short-lived. When you see this term in NixOS, it refers to the practice
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of automatically resetting/wiping your system after each reboot.
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This will mean that your root directory will be wiped after every reboot. Such a setup is possible because
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NixOS only needs `/boot` and `/nix` in order to boot, all other system files are simply links to files in `/nix`.
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This guide assumes you're following from the [INSTALLATION](./01_INSTALLATION.md) guide, which means you have a working
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setup with BTRFS file-system. Note that you will need the `/persist` and `/var/log` (and `/root`) subvolumes if you want
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to proceed with this guide.
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Note that setting up impermanence is completely optional, and if you do not wish to do so, you can simply skip this
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guide and move on to the next one. If you're unsure whether impermanence is worth setting up, check out the
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[Why section](#why).
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## Auto-wipe root partition
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To reset the root subvolume on every boot, we can simply delete it and create a new one in its place. We will be doing
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this from initrd, which runs in a temporary file-system, before the actual file-system is properly mounted (following
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fstab). This makes it a perfect place to run a script, which will wipe the root subvolume before each boot.
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I will set this up using a systemd-based initrd, because I will need systemd for TPM unlocking later on. If you don't
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care about that, it is also possible to do this without systemd. You can a guide for such setup
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[here](https://mt-caret.github.io/blog/posts/2020-06-29-optin-state.html#darling-erasure). That said, I find this to be
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a cleaner setup than the non-systemd one anyway, so it might be worth it for you to follow this regardless. However, do
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note that using systemd in initrd may result in slightly slower boot times.
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To achieve this, let's add the following to our `configuration.nix`:
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```nix
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boot.initrd.systemd = {
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enable = true; # This enables systemd support in stage 1 - required for below setup
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services.rollback = {
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description = "Rollback BTRFS root subvolume to a pristine state";
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wantedBy = [ "initrd.target" ];
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# make sure it's done after decryption (i.e. LUKS/TPM process)
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after = [ "systemd-cryptsetup@cryptfs.service" ];
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# mount the root fs before clearing
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before = [ "sysroot.mount" ];
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unitConfig.DefaultDependencies = "no";
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serviceConfig.Type = "oneshot";
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script = ''
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# Mount the BTRFS root to /mnt so we can manipulate btrfs subvolumes
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mount --mkdir /dev/mapper/cryptfs /mnt
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# Simply deleting a subvolume with btrfs subvolume delete will not work,
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# if that subvolume contains other btrfs subvolumes. Because of that, we
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# instead use this function to delete subvolumes, whihc will first perform
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# a recursive deletion of any nested subvolumes.
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#
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# This is necessary, because the root subvolume will actually usually contain
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# other subvolumes, even if the user haven't created those explicitly. It seems
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# that NixOS creates these automatically. Namely, I observed these in root subvol:
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# - root/srv
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# - root/var/lib/portables
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# - root/var/lib/machines
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# - root/var/tmp
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delete_subvolume_recursively() {
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IFS=$'\n'
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for x in $(btrfs subvolume list -o "$1" | cut -f 9- -d ' '); do
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delete_subvolume_recursively "/mnt/$x"
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done
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echo "Deleting subvolume $1"
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btrfs subvolume delete "$1"
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}
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# Recreate the root subvolume
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delete_subvolume_recursively "/mnt/root"
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echo "Re-creating root subvolume"
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btrfs subvolume create "/mnt/root"
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# we can now unmount /mnt and continue on the boot process.
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umount /mnt
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'';
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};
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};
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```
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## Impermanence
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What this implies is that certain files, such as saved networks for network-manager will be deleted on each reboot.
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While a little clunky, [Impermanence](https://github.com/nix-community/impermanence) is a great solution to our problem.
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Impermanence adds a `environment.persistence."<dirName>"` option, that we can use to make certain directories or files
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permanent. A sample configuration module for this can look like so:
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```nix
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{ config, pkgs, ... }:
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let
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impermanence = builtins.fetchTarball "https://github.com/nix-community/impermanence/archive/master.tar.gz";
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in
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{
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imports = [ "${impermanence}/nixos.nix" ];
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# Some people use /nix/persist/system instead, leaving the persistent files in /nix subvolume
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# I much prefer using a standalone subvolume for this though.
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environment.persistence."/persist/system" = {
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hideMounts = true;
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directories = [
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"/etc/nixos" # nixos configuration source
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"/etc/NetworkManager/system-connections" # saved network connections
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"/var/db/sudo" # keeps track of who got the sudo lecture already
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"/var/lib/systemd/coredump" # recorded coredumps
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];
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files = [
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"/etc/machine-id"
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];
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};
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# For some reason, NetworkManager needs this instead of the impermanence mode to not get screwed up
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systemd.tmpfiles.rules = [
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"L /var/lib/NetworkManager/secret_key - - - - /persist/system/var/lib/NetworkManager/secret_key"
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"L /var/lib/NetworkManager/seen-bssids - - - - /persist/system/var/lib/NetworkManager/seen-bssids"
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"L /var/lib/NetworkManager/timestamps - - - - /persist/system/var/lib/NetworkManager/timestamps"
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];
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# Define host key paths in the persistent mount point instead of using impermanence for these.
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# This works better, because these keys also get auto-created if they don't already exist.
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services.openssh.hostKeys = mkForce [
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{
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bits = 4096;
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path = "/persist/system/etc/ssh/ssh_host_rsa_key";
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type = "rsa";
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}
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{
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bits = 4096;
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path = "/persist/system/etc/ssh/ssh_host_ed25519_key";
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type = "ed25519";
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}
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];
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}
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```
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You can put this module in `/etc/nixos/impermanence.nix`, and add it to your `imports` in `configuration.nix`.
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Additionally, you may also want to move the `boot.initrd.systemd` configuration to this file.
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Alternatively, you can of course also extend your `configuration.nix` adding this in directly, and keeping
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everything in the same place.
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### User configuration
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Note that with impermanence, your user passwords will get erased too (with the `/etc/shadow` file). To avoid this,
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you can create password files, which will contain the password hashes for each user:
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```shell
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mkdir -p /persist/passwords
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chmod 700 /persist/passwords
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mkpasswd -m sha-512 > /persist/passwords/root
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mkpasswd -m sha-512 > /persist/passwords/itsdrike
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chmod 600 /persist/passwords/*
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```
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And declare these in our `configuration.nix` or `impermanence.nix`
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```nix
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users = {
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# This option makes it that users are not mutable outside of our configuration.
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# If you're using root impermanence, this will actually be the case regardless
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# of this setting, however, setting this explicitly is a good idea, because nix
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# will warn us if our users don't have passwords set, preventing lock outs.
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mutableUsers = false;
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# Each existing user needs to have a password file defined here, otherwise
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# they will not be available to login. These password files can be generated with:
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# mkpasswd -m sha-512 > /persist/passwords/myuser
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users = {
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root = {
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# password file needs to be in a volume marked `neededForBoot = true`
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hashedPasswordFile = "/persist/passwords/root";
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};
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itsdrike = {
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hashedPasswordFile = "/persist/passwords/itsdrike";
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};
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};
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};
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```
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### Copy the configuration
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While NixOS will take care of creating the specified symlinks, you will want to move the relevant files and directories
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to where the symlinks are pointing at before rebooting.
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```shell
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mkdir -p /persist/system/etc
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cp -r {,/persist/system}/etc/nixos
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cp {,/persist/system}/etc/machine-id
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mkdir -p /persist/system/var/db
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cp -r {,/persist/system}/var/db/sudo
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mkdir -p /persist/system/var/lib/systemd
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cp -r {,/persist/system}/var/lib/systemd/coredump
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mkdir -p /persist/system/etc/NetworkManager
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cp -r {,/persist/system}/etc/NetworkManager/system-connections
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sudo mkdir -p /persist/system/var/lib/NetworkManager
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sudo cp {,/persist/system}/var/lib/NetworkManager/secret_key
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sudo cp {,/persist/system}/var/lib/NetworkManager/timestamps
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sudo cp {,/persist/system}/var/lib/NetworkManager/seen-bssids # if this fails, read the note below and repeat
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... # Copy any other files/dirs you have configured
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```
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> [!NOTE]
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> In case `/var/lib/NetworkManager/seen-bssids` doesn't (yet) exist, you can just create a file
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> like this in it's place:
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> `echo "[seen-bssids]" > /persist/system/var/lib/NetworkManager/seen-bssids`
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## Rebuild
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Once you have declared all the files that you wish to persist, you can now rebuild your configuration for the next boot,
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and reboot.
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> [!TIP]
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> If you want to test out whether it worked, you can create a file somewhere on the root subvolume
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> and make sure that it will no longer be there after the reboot: `touch /test_flag`
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```shell
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nixos-rebuild boot
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reboot
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```
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You should now be back in your system, with the root subvolume wiped and auto-reconstructed by NixOS.
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You can now move on to the next file: [SECURE_BOOT](./03_SECURE_BOOT.md).
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## Why?
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Honestly, why not?
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Automatic root partition wiping will force you into declaring all of your files which you actually care about
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persisting, which allows you to create incredibly small backups of only those files which actually matter. No more
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creating backups of the entire file-system for absolutely no reason.
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Additionally, doing this is just a great practice in general, as it will mean recreating your entire system from a clean
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slate, from an immutable `/nix/store`, which means even in the unlikely case, that your system got affected by some kind
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of malware, it will simply be gone after the next reboot. (Unless it affected the images in `/boot`, at which point all
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bets are off.)
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## Sources / Attribution
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- <https://nixos.wiki/wiki/Impermanence>
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- <https://mt-caret.github.io/blog/posts/2020-06-29-optin-state.html>
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- <https://git.notashelf.dev/NotAShelf/nyx/src/branch/main/docs/notes/2023-03-14-impermanence.md>
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