{ config, lib, pkgs, ... }:
with lib;
let
cfg = config.dconf;
toDconfIni = generators.toINI { mkKeyValue = mkIniKeyValue; };
mkIniKeyValue = key: value: "${key}=${toString (hm.gvariant.mkValue value)}";
# The dconf keys managed by this configuration. We store this as part of the
# generation state to be able to reset keys that become unmanaged during
# switch.
stateDconfKeys = pkgs.writeText "dconf-keys.json" (builtins.toJSON
(concatLists (mapAttrsToList
(dir: entries: mapAttrsToList (key: _: "/${dir}/${key}") entries)
cfg.settings)));
in {
meta.maintainers = [ maintainers.rycee ];
options = {
dconf = {
enable = mkOption {
type = types.bool;
# While technically dconf on darwin could work, our activation step
# requires dbus, which only *lightly* supports Darwin in general, and
# not at all in the way it's packaged in nixpkgs. Because of this, we
# just disable dconf for darwin hosts by default.
# In the future, if someone gets dbus working, this _could_ be
# re-enabled, unclear whether there's actual value in it though.
default = !pkgs.stdenv.hostPlatform.isDarwin;
visible = false;
description = ''
Whether to enable dconf settings.
Note, if you use NixOS then you must add
programs.dconf.enable = true
to your system configuration. Otherwise you will see a systemd error
message when your configuration is activated.
'';
};
settings = mkOption {
type = with types; attrsOf (attrsOf hm.types.gvariant);
default = { };
example = literalExpression ''
{
"org/gnome/calculator" = {
button-mode = "programming";
show-thousands = true;
base = 10;
word-size = 64;
window-position = lib.hm.gvariant.mkTuple [100 100];
};
}
'';
description = ''
Settings to write to the dconf configuration system.
Note that the database is strongly-typed so you need to use the same types
as described in the GSettings schema. For example, if an option is of type
uint32 (u), you need to wrap the number
using the lib.hm.gvariant.mkUint32 constructor.
Otherwise, since Nix integers are implicitly coerced to int32
(i), it would get stored in the database as such, and GSettings
might be confused when loading the setting.
You might want to use dconf2nix
to convert dconf database dumps into compatible Nix expression.
'';
};
};
};
config = mkIf (cfg.enable && cfg.settings != { }) {
# Make sure the dconf directory exists.
xdg.configFile."dconf/.keep".source = builtins.toFile "keep" "";
home.extraBuilderCommands = ''
mkdir -p $out/state/
ln -s ${stateDconfKeys} $out/state/${stateDconfKeys.name}
'';
home.activation.dconfSettings = hm.dag.entryAfter [ "installPackages" ] (let
iniFile = pkgs.writeText "hm-dconf.ini" (toDconfIni cfg.settings);
statePath = "state/${stateDconfKeys.name}";
cleanup = pkgs.writeShellScript "dconf-cleanup" ''
set -euo pipefail
${config.lib.bash.initHomeManagerLib}
PATH=${makeBinPath [ pkgs.dconf pkgs.jq ]}''${PATH:+:}$PATH
oldState="$1"
newState="$2"
# Can't do cleanup if we don't know the old state.
if [[ ! -f $oldState ]]; then
exit 0
fi
# Reset all keys that are present in the old generation but not the new
# one.
jq -r -n \
--slurpfile old "$oldState" \
--slurpfile new "$newState" \
'($old[] - $new[])[]' \
| while read -r key; do
$VERBOSE_ECHO "Resetting dconf key \"$key\""
$DRY_RUN_CMD $DCONF_DBUS_RUN_SESSION dconf reset "$key"
done
'';
in ''
if [[ -v DBUS_SESSION_BUS_ADDRESS ]]; then
export DCONF_DBUS_RUN_SESSION=""
else
export DCONF_DBUS_RUN_SESSION="${pkgs.dbus}/bin/dbus-run-session --dbus-daemon=${pkgs.dbus}/bin/dbus-daemon"
fi
if [[ -v oldGenPath ]]; then
${cleanup} \
"$oldGenPath/${statePath}" \
"$newGenPath/${statePath}"
fi
$DRY_RUN_CMD $DCONF_DBUS_RUN_SESSION ${pkgs.dconf}/bin/dconf load / < ${iniFile}
unset DCONF_DBUS_RUN_SESSION
'');
};
}