{ config, lib, pkgs, utils, ... }: let cfg = config.systemd.repart; initrdCfg = config.boot.initrd.systemd.repart; format = pkgs.formats.ini { }; definitionsDirectory = utils.systemdUtils.lib.definitions "repart.d" format (lib.mapAttrs (_n: v: { Partition = v; }) cfg.partitions); in { options = { boot.initrd.systemd.repart = { enable = lib.mkEnableOption (lib.mdDoc "systemd-repart") // { description = lib.mdDoc '' Grow and add partitions to a partition table at boot time in the initrd. systemd-repart only works with GPT partition tables. To run systemd-repart after the initrd, see `options.systemd.repart.enable`. ''; }; device = lib.mkOption { type = with lib.types; nullOr str; description = lib.mdDoc '' The device to operate on. If `device == null`, systemd-repart will operate on the device backing the root partition. So in order to dynamically *create* the root partition in the initrd you need to set a device. ''; default = null; example = "/dev/vda"; }; }; systemd.repart = { enable = lib.mkEnableOption (lib.mdDoc "systemd-repart") // { description = lib.mdDoc '' Grow and add partitions to a partition table. systemd-repart only works with GPT partition tables. To run systemd-repart while in the initrd, see `options.boot.initrd.systemd.repart.enable`. ''; }; partitions = lib.mkOption { type = with lib.types; attrsOf (attrsOf (oneOf [ str int bool ])); default = { }; example = { "10-root" = { Type = "root"; }; "20-home" = { Type = "home"; SizeMinBytes = "512M"; SizeMaxBytes = "2G"; }; }; description = lib.mdDoc '' Specify partitions as a set of the names of the definition files as the key and the partition configuration as its value. The partition configuration can use all upstream options. See for all available options. ''; }; }; }; config = lib.mkIf (cfg.enable || initrdCfg.enable) { assertions = [ { assertion = initrdCfg.enable -> config.boot.initrd.systemd.enable; message = '' 'boot.initrd.systemd.repart.enable' requires 'boot.initrd.systemd.enable' to be enabled. ''; } ]; # systemd-repart uses loopback devices for partition creation boot.initrd.availableKernelModules = lib.optional initrdCfg.enable "loop"; boot.initrd.systemd = lib.mkIf initrdCfg.enable { additionalUpstreamUnits = [ "systemd-repart.service" ]; storePaths = [ "${config.boot.initrd.systemd.package}/bin/systemd-repart" ]; contents."/etc/repart.d".source = definitionsDirectory; # Override defaults in upstream unit. services.systemd-repart = let deviceUnit = "${utils.escapeSystemdPath initrdCfg.device}.device"; in { # systemd-repart tries to create directories in /var/tmp by default to # store large temporary files that benefit from persistence on disk. In # the initrd, however, /var/tmp does not provide more persistence than # /tmp, so we re-use it here. environment."TMPDIR" = "/tmp"; serviceConfig = { ExecStart = [ " " # required to unset the previous value. # When running in the initrd, systemd-repart by default searches # for definition files in /sysroot or /sysusr. We tell it to look # in the initrd itself. ''${config.boot.initrd.systemd.package}/bin/systemd-repart \ --definitions=/etc/repart.d \ --dry-run=no ${lib.optionalString (initrdCfg.device != null) initrdCfg.device} '' ]; }; # systemd-repart needs to run after /sysroot (or /sysuser, but we # don't have it) has been mounted because otherwise it cannot # determine the device (i.e disk) to operate on. If you want to run # systemd-repart without /sysroot (i.e. to create the root # partition), you have to explicitly tell it which device to operate # on. The service then needs to be ordered to run after this device # is available. requires = lib.mkIf (initrdCfg.device != null) [ deviceUnit ]; after = if initrdCfg.device == null then [ "sysroot.mount" ] else [ deviceUnit ]; }; }; environment.etc = lib.mkIf cfg.enable { "repart.d".source = definitionsDirectory; }; systemd = lib.mkIf cfg.enable { additionalUpstreamSystemUnits = [ "systemd-repart.service" ]; }; }; meta.maintainers = with lib.maintainers; [ nikstur ]; }