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# NixOS configuration

## Structure

 * `machines`: Machine-specific configuration
   + `README.md`: Short overview of the hardware and usage of the machine
   + `configuration.nix`: Main configuration
   + `hardware-configuration.nix`: Hardware-specific configuration. It should
     not depend on any modules or files from this repository, since it is used
     for initial setup.
   + `services`: Non-trivial machine-specific configuration related to a
     specific service the machine provides.
   + `secrets`: Nix expressions that include information that is not meant to
     be visible to everyone (e.g. accounts, password hashes, private
     information etc.) or secrets for services that don’t provide any other
     (easy) way of specifying them and whose secrets leaking does not pose a
     huge threat
 * `modules`: Custom modules. Many are activated by default, since I want them
   on all systems.
 * `pkgs`: My nixpkgs overlay
 * `users/simon`: [home-manager](https://github.com/nix-community/home-manager)
   configuration

Secrets are managed with [sops-nix](https://github.com/Mic92/sops-nix).

Machines can be deployed with `nix run .#deploy/hostname`, LUKS encrypted
systems can be unlocked over network with `nix run .#unlock/hostname`.

## How to install

This guide describes how to install this configuration with GPT and BIOS boot.
It is not a one-fits-all guide, but the base for what I use for interactive
systems. Servers and specialised systems may need a different setup (e. g. swap
with random luks passphrase and no LVM).

Set up wifi if no wired connection is available:

    systemctl start wpa_supplicant
    wpa-cli
      add_network
      set_network 0 ssid "SSID"
      set_network 0 psk "PSK"
      set_network 0 key_mgmt WPA-PSK
      enable_network 0

Create the partition table (enter the indented lines in the repl):

    parted /dev/nvmeXnY
      mktable GPT
      mkpart ESP 1MiB 512MiB
      mkpart root 512MiB 100%
      set 1 esp on
      quit

On MBR:

    parted /dev/sdX
      mktable GPT
      mkpart primary 1MiB 2MiB
      mkpart primary 2MiB 512MiB
      mkpart primary 512MiB 100%
      set 1 bios_grub on
      disk_toggle pmbr_boot
      quit

Format encrypted partition and open it:

    cryptsetup luksFormat --type luks2 /dev/nvmeXnYp2
    cryptsetup open /dev/nvmeXnYp2 HOSTNAME-pv

Create LVM (replace `8G` with desired swap size):

    pvcreate /dev/mapper/HOSTNAME-pv
    vgcreate HOSTNAME-vg /dev/mapper/HOSTNAME-pv
    lvcreate -L 8G -n swap HOSTNAME-vg
    lvcreate -l '100%FREE' -n root HOSTNAME-vg

**Hint**: If you have to reboot to the installation system later because
something went wrong and you need access to the LVM (but don’t know LVM), do
the following after opening the luks partition: `vgchange -ay`.

Create filesystems:

    mkfs.fat -F 32 -n boot /dev/nvmeXnYpZ
    mkfs.btrfs -L root /dev/HOSTNAME-vg/root
    mkswap -L swap /dev/HOSTNAME-vg/swap

On MBR:

    mkfs.ext2 /dev/sdX2
    mkfs.btrfs -L root /dev/HOSTNAME-vg/root
    mkswap -L swap /dev/HOSTNAME-vg/swap

Mount the file systems and activate swap:

    mount -o compress=zstd /dev/HOSTNAME-vg/root /mnt
    mkdir /mnt/boot
    mount /dev/nvmeXnYp1 /mnt/boot
    swapon /dev/HOSTNAME-vg/swap

Generate hardware configuration and copy hardware configuration to machine
configuration (skip this step if you already have a hardware-configuration for
this machine):

    nixos-generate-config --root /mnt/

Modify the hardware configuration as needed and add it to the machine
configuration in this repository. If necessary, create the machine
configuration first by basing it on an already existing configuration and
adding an entry to `machines/default.nix`. Then copy this repository to the
target machine and run (`--impure` is needed since `/mnt/nix/store` is not in
`/nix/store`):

    nixos-install --no-channel-copy --impure --flake /path/to/repository#hostname

Add the krops sentinel file:

    mkdir -p /mnt/var/src
    touch /mnt/var/src/.populate

Reboot.

## License

This repository is [REUSE](https://reuse.software/) compliant.
To get the most correct licensing information,
please consult the [REUSE specification](https://reuse.software/spec/)
or use a tool that parses it.

As a rule of thumb,
most code files are released under the `AGPL-3.0-or-later`,
most generated files are specified as `CC0-1.0` (as they are not copyrightable)
and small independent scripts are licensed under `Apache-2.0`.
However, there are deviations from this,
so always consult the file header and other resources as specified in the REUSE specification.

Please note that those licensing terms only apply to the source files in this repository,
not any build outputs, like system or package closures.
They might be licensed differently, depending on their source.

If you think you have a compelling reason
why you should be able to use part of this repository under a more permissive license,
please contact me,
so we can figure something out.
Please note, that I can only offer this for files that are solely authored by me,
as I do not own the rights to other people’s code.