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Configuration
#############
Liminix uses the Nix language to provide congruent configuration
management. This means that to change anything about the way in
which a Liminix system works, you make that change in
your :file:`configuration.nix` (or one of the other files it references),
and rerun :command:`nix-build` or :command:`liminix-rebuild` to action
the change. It is not possible (at least, without shenanigans) to make
changes by logging into the device and running imperative commands
whose effects may later be overridden: :file:`configuration.nix`
always describes the entire system and can be used to recreate that
system at any time. You can usefully keep it under version control.
If you are familiar with NixOS, you will notice some similarities
between NixOS and Liminix configuration, and also some
differences. Sometimes the differences are due to the
resource-constrained devices we deploy onto, sometimes due to
differences in the uses these devices are put to.
Configuration taxonomy
**********************
There are many things you can specify in a configuration, but these
are the ones you most commonly need to change:
* which services (processes) to run
* what packages to install
* permitted users and groups
* Linux kernel configuration options
* Busybox applets
* filesystem layout
Modules
*******
**Modules** are a means of abstraction which allow "bundling"
of configuration options related to a common purpose or theme. For
example, the ``dnsmasq`` module defines a template for a dnsmasq
service, ensures that the dnsmasq package is installed, and provides a
dnsmasq user and group for the service to run as. The ``ppp`` module
defines a service template and also enables various PPP-related kernel
configuration.
Not all modules are included in the configuration by default, because
that would mean that the kernel (and the Busybox binary providing
common CLI tools) was compiled with many unnecessary bells and whistles
and therefore be bigger than needed. (This is not purely an academic concern
if your device has little flash storage). Therefore, specifying a
service is usually a two-step process. For example, to add an NTP
service you first add :file:`modules/ntp` to your ``imports`` list,
then you create a service by calling
:code:`config.system.service.ntp.build { .... }` with the appropriate
service-dependent configuration parameters.
.. code-block:: nix
let svc = config.system.service;
in {
# ...
imports = [
./modules/ntp
# ....
];
config.services.ntp = svc.ntp.build {
pools = { "pool.ntp.org" = ["iburst"]; };
makestep = { threshold = 1.0; limit = 3; };
};
Merely including the module won't define the service on its own: it
only creates the template in ``config.system.service.foo`` and you
have to create an actual service using the template. This is an
intentional choice to allow the creation of multiple
differently-configured services based on the same template - perhaps
e.g. when you have multiple networks (VPNs etc) in different trust
domains, or you want to run two SSH daemons on different ports.
(For the background to this, please refer to the :doc:`architecture decision record <adr/module-system>`)
.. tip:: Liminix modules should be quite familiar (but also different)
if you already know how to use NixOS modules. We use the
NixOS module infrastructure code, meaning that you should
recognise the syntax, the type system, the rules for
combining configuration values from different sources. We
don't use the NixOS modules themselves, because the
underlying system is not similar enough for them to work.
Services
********
We use the `s6-rc service manager <https://www.skarnet.org/software/s6-rc/overview.html>`_ to start/stop/restart services and handle
service dependencies. Any attribute in `config.services` will become
part of the default set of services that s6-rc will try to bring up on
boot.
For the most part, for common use cases, hopefully the services you
need will be defined by modules and you will only have to pass the
right parameters to ``build``.
Should you need to create a custom service of your own devising, use
the `oneshot` or `longrun` functions:
* a "longrun" service is the "normal" service concept: it has a
``run`` action which describes the process to start, and it watches
that process to restart it if it exits. The process should not
attempt to daemonize or "background" itself, otherwise s6-rc will think
it died. Whatever it prints to standard output/standard error
will be logged.
.. code-block:: nix
config.services.cowsayd = pkgs.liminix.services.longrun {
name = "cowsayd";
run = "${pkgs.cowsayd}/bin/cowsayd --port 3001 --breed hereford";
# don't start this until the lan interface is ready
dependencies = [ config.services.lan ];
}
* a "oneshot" service doesn't have a process attached. It consists of
``up`` and ``down`` actions which are bits of shell script that
are run at the appropriate points in the service lifecycle
.. code-block:: nix
config.services.greenled = pkgs.liminix.services.oneshot {
name = "greenled";
up = ''
echo 17 > /sys/class/gpio/export
echo out > /sys/class/gpio/gpio17/direction
echo 0 > /sys/class/gpio/gpio17/value
'';
down = ''
echo 0 > /sys/class/gpio/gpio17/value
'';
}
Services may have dependencies: as you see above in the ``cowsayd``
example, it depends on some service called ``config.services.lan``,
meaning that it won't be started until that other service is up.
..
TODO: explain service outputs
..
TODO: outputs that change, and services that poll other services
Module implementation
*********************
Modules in Liminix conventionally live in
:file:`modules/somename/default.nix`. If you want or need to
write your own, you may wish to refer to the
examples there in conjunction with reading this section.
A module is a function that accepts ``{lib, pkgs, config, ... }`` and
returns an attrset with keys ``imports, options config``.
* ``imports`` is a list of paths to the other modules required by this one
* ``options`` is a nested set of option declarations
* ``config`` is a nested set of option definitions
The NixOS manual section `Writing NixOS Modules
<https://nixos.org/manual/nixos/stable/#sec-writing-modules>`_ is a
quite comprehensive reference to writing NixOS modules, which is also
mostly applicable to Liminix except that it doesn't cover
service templates.
Service templates
=================
To expose a service template in a module, it needs the following:
* an option declaration for ``system.service.myservicename`` with the
type of ``liminix.lib.types.serviceDefn``
.. code-block:: nix
options = {
system.service.cowsay = mkOption {
type = liminix.lib.types.serviceDefn;
};
};
* an option definition for the same key, which specifies where to
import the service template from (often :file:`./service.nix`)
and the types of its parameters.
.. code-block:: nix
config.system.service.cowsay = liminix.callService ./service.nix {
address = mkOption {
type = types.str;
default = "0.0.0.0";
description = "Listen on specified address";
example = "127.0.0.1";
};
port = mkOption {
type = types.port;
default = 22;
description = "Listen on specified TCP port";
};
breed = mkOption {
type = types.str;
default = "British Friesian"
description = "Breed of the cow";
};
};
Then you need to provide the service template itself, probably in
:file:`./service.nix`:
.. code-block:: nix
{
# any nixpkgs package can be named here
liminix
, cowsayd
, serviceFns
, lib
}:
# these are the parameters declared in the callService invocation
{ address, port, breed} :
let
inherit (liminix.services) longrun;
inherit (lib.strings) escapeShellArg;
in longrun {
name = "cowsayd";
run = "${cowsayd}/bin/cowsayd --address ${address} --port ${builtins.toString port} --breed ${escapeShellArg breed}";
}
.. tip::
Not relevant to module-based services specifically, but a common
gotcha when specifiying services is forgetting to transform "rich"
parameter values into text when composing a command for the shell
to execute. Note here that the port number, an integer, is
stringified with ``toString``, and the name of the breed,
which may contain spaces, is
escaped with ``escapeShellArg``
Types
=====
All of the NixOS module types are available in Liminix. These
Liminix-specific types also exist in ``pkgs.liminix.lib.types``:
* ``service``: an s6-rc service
* ``interface``: an s6-rc service which specifies a network
interface
* ``serviceDefn``: a service "template" definition
In the future it is likely that we will extend this to include other
useful types in the networking domain: for example; IP address,
network prefix or netmask, protocol family and others as we find them.