Option Declarations
An option declaration specifies the name, type and description
of a NixOS configuration option. It is invalid to define an option
that hasn’t been declared in any module. An option declaration
generally looks like this:
options = {
name = mkOption {
type = type specification;
default = default value;
example = example value;
description = "Description for use in the NixOS manual.";
};
};
The function mkOption accepts the following arguments.
type
The type of the option (see ).
It may be omitted, but that’s not advisable since it may lead to errors
that are hard to diagnose.
default
The default value used if no value is defined by any
module. A default is not required; but if a default is not given,
then users of the module will have to define the value of the
option, otherwise an error will be thrown.
example
An example value that will be shown in the NixOS manual.
description
A textual description of the option, in DocBook format,
that will be included in the NixOS manual.
Extensible Option
Types
Extensible option types is a feature that allow to extend certain types
declaration through multiple module files.
This feature only work with a restricted set of types, namely
enum and submodules and any composed
forms of them.
Extensible option types can be used for enum options
that affects multiple modules, or as an alternative to related
enable options.
As an example, we will take the case of display managers. There is a
central display manager module for generic display manager options and a
module file per display manager backend (slim, sddm, gdm ...).
There are two approach to this module structure:
Managing the display managers independently by adding an
enable option to every display manager module backend. (NixOS)
Managing the display managers in the central module by
adding an option to select which display manager backend to use.
Both approaches have problems.
Making backends independent can quickly become hard to manage. For
display managers, there can be only one enabled at a time, but the type
system can not enforce this restriction as there is no relation between
each backend enable option. As a result, this restriction
has to be done explicitely by adding assertions in each display manager
backend module.
On the other hand, managing the display managers backends in the
central module will require to change the central module option every time
a new backend is added or removed.
By using extensible option types, it is possible to create a placeholder
option in the central module (), and to extend it in each backend module (, ).
As a result, displayManager.enable option values can
be added without changing the main service module file and the type system
automatically enforce that there can only be a single display manager
enabled.
Extensible type
placeholder in the service module
services.xserver.displayManager.enable = mkOption {
description = "Display manager to use";
type = with types; nullOr (enum [ ]);
};
Extending
services.xserver.displayManager.enable in the
slim module
services.xserver.displayManager.enable = mkOption {
type = with types; nullOr (enum [ "slim" ]);
};
Extending
services.xserver.displayManager.enable in the
sddm module
services.xserver.displayManager.enable = mkOption {
type = with types; nullOr (enum [ "sddm" ]);
};
The placeholder declaration is a standard mkOption
declaration, but it is important that extensible option declarations only use
the type argument.
Extensible option types work with any of the composed variants of
enum such as
with types; nullOr (enum [ "foo" "bar" ])
or with types; listOf (enum [ "foo" "bar" ]).