forked from extern/nixos-installer
1a47c3fa75
disable ZFS hibernation (workaround), enable (very very slow) cross-ISA VM installation
4.1 KiB
4.1 KiB
/*
NixOS Installer Composition
This module allows for the composition of the installer from multiple script, which can be overridden for specific projects and be adjusted per host.
writeSystemScripts
in ../lib/nixos.nix
wraps the result such that the commands can be called from the command line, with options, arguments, and help output.
mkSystemsFlake
exposes the individual host's installers as flake apps
.
Implementation
#*/# end of MarkDown, beginning of NixOS module:
dirname: inputs: moduleArgs@{ config, options, pkgs, lib, ... }: let lib = inputs.self.lib.__internal__; in let
inherit (inputs.config.rename) installer;
cfg = config.${installer};
in {
options = { ${installer} = {
scripts = lib.mkOption {
description = ''
Attrset of bash scripts defining functions that do installation and maintenance operations.
The functions should expect the bash options `pipefail` and `nounset` (`-u`) to be set.
See »./setup-scripts/README.md« for more information.
'';
type = lib.types.attrsOf (lib.types.nullOr (lib.types.submodule ({ name, config, ... }: { options = {
name = lib.mkOption { description = "Symbolic name of the script."; type = lib.types.str; default = name; readOnly = true; };
path = lib.mkOption { description = "Path of file for ».text« to be loaded from."; type = lib.types.nullOr lib.types.path; default = null; };
text = lib.mkOption { description = "Script text to process."; type = lib.types.str; default = builtins.readFile config.path; };
order = lib.mkOption { description = "Inclusion order of the scripts. Higher orders will be sourced later, and can thus overwrite earlier definitions."; type = lib.types.int; default = 1000; };
}; })));
apply = lib.filterAttrs (k: v: v != null);
};
commands = let desc = when: mounted: ''
Bash commands that are executed during the system installation, ${when}.
Note that these commands are executed without any further sandboxing (i.e. when not using the VM installation mode, as root on the host).
Partitions may be used via `/dev/disk/by-partlabel/`.${lib.optionalString mounted '' The target system is mounted at `$mnt`.''}
''; in {
postPartition = lib.mkOption { description = desc "after partitioning the disks" false; type = lib.types.lines; default = ""; };
postFormat = lib.mkOption { description = desc "after formatting the partitions with filesystems" false; type = lib.types.lines; default = ""; };
postMount = lib.mkOption { description = desc "after mounting all filesystems" true; type = lib.types.lines; default = ""; };
preInstall = lib.mkOption { description = desc "before installing the bootloader" true; type = lib.types.lines; default = ""; };
postInstall = lib.mkOption { description = desc "just before unmounting the new system" true; type = lib.types.lines; default = ""; };
};
outputName = lib.mkOption {
description = ''The name this system is (/ should be) exported as by its defining flake (as »nixosConfigurations.''${outputName}« and »apps.*-linux.''${outputName}«).'';
type = lib.types.nullOr lib.types.str; default = null;
};
build.scripts = lib.mkOption {
type = lib.types.functionTo lib.types.str; internal = true; readOnly = true;
default = context: lib.fun.substituteImplicit { # This replaces the `@{}` references in the scripts with normal bash variables that hold serializations of the Nix values they refer to.
inherit pkgs; scripts = lib.sort (a: b: a.order < b.order) (lib.attrValues cfg.scripts);
context = { inherit config options pkgs; inherit (moduleArgs) inputs; } // context;
# inherit (builtins) trace;
};
};
}; };
config = {
${installer} = {
scripts = lib.mapAttrs (name: path: lib.mkOptionDefault { inherit path; }) (lib.self.setup-scripts);
};
};
}