forked from extern/nixos-installer
afc4c9ab9a
other fixes
6.2 KiB
6.2 KiB
/*
Example Host Configuration
Just to provide an example of what a host configuration using this set of libraries can look like.
Installation
To install the system to a (set of) virtual machine disk images, with $hostname
as any of the instances
below, run in ..
:
nix run .'#'$hostname -- install-system /tmp/$hostname/
Then to boot the system in a qemu VM with KVM:
nix run .'#'$hostname -- run-qemu /tmp/$hostname/
See nix run .#$hostname -- --help
for options and more commands.
Implementation
#*/# end of MarkDown, beginning of NixOS config flake input:
dirname: inputs: { config, pkgs, lib, name, ... }: let lib = inputs.self.lib.__internal__; in let
#suffix = builtins.head (builtins.match ''example-(.*)'' name); # make differences in config based on this when using »preface.instances«
hash = builtins.substring 0 8 (builtins.hashString "sha256" name);
in { preface = { # (any »preface« options have to be defined here)
instances = [ "example-explicit" "example" "example-minimal" "example-raidz" ]; # Generate multiple variants of this host, with these »name«s.
}; imports = [ ({ ## Hardware
nixpkgs.hostPlatform = "x86_64-linux"; system.stateVersion = "22.05";
## What follows is a whole bunch of boilerplate-ish stuff, most of which multiple hosts would have in common and which would thus be moved to one or more modules:
boot.loader.extlinux.enable = true;
# Example of adding and/or overwriting setup/maintenance functions:
#installer.scripts.install-overwrite = { path = ../example/install.sh.md; order = 1500; };
}) (lib.mkIf (name == "example-explicit") { ## Minimal explicit FS setup
# Declare a boot and system partition.
setup.disks.partitions."boot-${hash}" = { type = "ef00"; size = "64M"; index = 1; order = 1500; };
setup.disks.partitions."system-${hash}" = { type = "8300"; size = null; order = 500; };
# Though not required for EFI, make the boot part visible to boot loaders supporting only MBR.
setup.disks.devices = { primary = { mbrParts = "1"; extraFDiskCommands = ''
t;1;c # set type ; part1 ; W95 FAT32 (LBA)
a;1 # set as active/bootable ; part1
''; }; };
setup.bootpart.enable = false; # (enabled by the bootloader)
# Put everything except for /boot and /nix/store on a tmpfs. This is the absolute minimum, most usable systems require some more paths that are persistent (e.g. all of /nix and /home).
fileSystems."/" = { fsType = "tmpfs"; device = "tmpfs"; neededForBoot = true; options = [ "mode=755" ]; };
fileSystems."/boot" = { fsType = "vfat"; device = "/dev/disk/by-partlabel/boot-${hash}"; neededForBoot = true; options = [ "noatime" ]; formatArgs = [ "-F" "32" ]; };
fileSystems."/system" = { fsType = "ext4"; device = "/dev/disk/by-partlabel/system-${hash}"; neededForBoot = true; options = [ "noatime" ]; formatArgs = [ "-O" "inline_data" "-E" "nodiscard" "-F" ]; };
fileSystems."/nix/store" = { options = ["bind,ro"]; device = "/system/nix/store"; neededForBoot = true; };
}) (lib.mkIf (name == "example") { ## More complex but automatic FS setup
#setup.disks.devices.primary.size = "16G"; # (default)
setup.bootpart.enable = true; setup.bootpart.size = "512M";
setup.keystore.enable = true;
setup.temproot.enable = true;
setup.temproot.swap.size = "2G";
setup.temproot.swap.asPartition = true;
setup.temproot.swap.encrypted = true;
setup.temproot.temp.type = "tmpfs";
setup.temproot.local.type = "bind";
setup.temproot.local.bind.base = "f2fs-encrypted"; # creates partition and FS
#setup.keystore.keys."luks/local-${hash}/0" = "random"; # (implied by the »-encrypted« suffix above)
#setup.disks.partitions."local-${hash}".size = "50%"; # (default)
setup.temproot.remote.type = "zfs";
setup.keystore.keys."luks/rpool-${hash}/0" = "random";
#setup.keystore.keys."zfs/rpool-${hash}/remote" = "random"; # (default)
#setup.zfs.pools."rpool-${hash}".vdevArgs = [ "rpool-${hash}" ]; # (default)
#setup.disks.partitions."rpool-${hash}" = { type = "bf00"; size = null; order = 500; }; # (default)
setup.temproot.local.mounts."/var/log" = lib.mkForce null; # example: don't keep logs
}) (lib.mkIf (name == "example-minimal") { ## Minimal automatic FS setup
setup.bootpart.enable = true; # (also set by »boot.loader.extlinux.enable«)
setup.temproot.enable = true;
setup.temproot.temp.type = "tmpfs"; # (default)
setup.temproot.local.type = "bind"; # (default)
setup.temproot.local.bind.base = "f2fs";
setup.temproot.remote.type = "none";
}) (lib.mkIf (name == "example-raidz") { ## Multi-disk ZFS setup
boot.loader.extlinux.enable = lib.mkForce false; # use UEFI boot this time
boot.loader.systemd-boot.enable = true; boot.loader.grub.enable = false;
setup.disks.devices = lib.genAttrs ([ "primary" "raidz1" "raidz2" "raidz3" ]) (name: { size = "16G"; });
setup.bootpart.enable = true; setup.bootpart.size = "512M";
setup.keystore.enable = true;
setup.temproot.enable = true;
setup.temproot.temp.type = "zfs";
setup.temproot.local.type = "zfs";
setup.temproot.remote.type = "zfs";
setup.zfs.pools."rpool-${hash}".vdevArgs = [ "raidz1" "rpool-rz1-${hash}" "rpool-rz2-${hash}" "rpool-rz3-${hash}" "log" "rpool-zil-${hash}" "cache" "rpool-arc-${hash}" ];
setup.disks.partitions."rpool-rz1-${hash}" = { type = "bf00"; disk = "raidz1"; };
setup.disks.partitions."rpool-rz2-${hash}" = { type = "bf00"; disk = "raidz2"; };
setup.disks.partitions."rpool-rz3-${hash}" = { type = "bf00"; disk = "raidz3"; };
setup.disks.partitions."rpool-zil-${hash}" = { type = "bf00"; size = "2G"; };
setup.disks.partitions."rpool-arc-${hash}" = { type = "bf00"; };
}) ({ ## Base Config
# Some base config:
documentation.enable = false; # sometimes takes quite long to build
}) ({ ## Actual Config
## And here would go the things that actually make the host unique (and do something productive). For now just some debugging things:
environment.systemPackages = [ pkgs.curl pkgs.htop pkgs.tree ];
services.getty.autologinUser = "root"; users.users.root.password = "root";
boot.kernelParams = [ /* "console=tty1" */ "console=ttyS0" "boot.shell_on_fail" ];
}) ]; }