3
0
Fork 0
forked from mirrors/nixpkgs
nixpkgs/nixos/modules/services/monitoring/ups.nix
pennae 2e751c0772 treewide: automatically md-convert option descriptions
the conversion procedure is simple:

 - find all things that look like options, ie calls to either `mkOption`
   or `lib.mkOption` that take an attrset. remember the attrset as the
   option
 - for all options, find a `description` attribute who's value is not a
   call to `mdDoc` or `lib.mdDoc`
 - textually convert the entire value of the attribute to MD with a few
   simple regexes (the set from mdize-module.sh)
 - if the change produced a change in the manual output, discard
 - if the change kept the manual unchanged, add some text to the
   description to make sure we've actually found an option. if the
   manual changes this time, keep the converted description

this procedure converts 80% of nixos options to markdown. around 2000
options remain to be inspected, but most of those fail the "does not
change the manual output check": currently the MD conversion process
does not faithfully convert docbook tags like <code> and <package>, so
any option using such tags will not be converted at all.
2022-07-30 15:16:34 +02:00

264 lines
7.7 KiB
Nix

{ config, lib, pkgs, ... }:
# TODO: This is not secure, have a look at the file docs/security.txt inside
# the project sources.
with lib;
let
cfg = config.power.ups;
in
let
upsOptions = {name, config, ...}:
{
options = {
# This can be infered from the UPS model by looking at
# /nix/store/nut/share/driver.list
driver = mkOption {
type = types.str;
description = lib.mdDoc ''
Specify the program to run to talk to this UPS. apcsmart,
bestups, and sec are some examples.
'';
};
port = mkOption {
type = types.str;
description = lib.mdDoc ''
The serial port to which your UPS is connected. /dev/ttyS0 is
usually the first port on Linux boxes, for example.
'';
};
shutdownOrder = mkOption {
default = 0;
type = types.int;
description = lib.mdDoc ''
When you have multiple UPSes on your system, you usually need to
turn them off in a certain order. upsdrvctl shuts down all the
0s, then the 1s, 2s, and so on. To exclude a UPS from the
shutdown sequence, set this to -1.
'';
};
maxStartDelay = mkOption {
default = null;
type = types.uniq (types.nullOr types.int);
description = lib.mdDoc ''
This can be set as a global variable above your first UPS
definition and it can also be set in a UPS section. This value
controls how long upsdrvctl will wait for the driver to finish
starting. This keeps your system from getting stuck due to a
broken driver or UPS.
'';
};
description = mkOption {
default = "";
type = types.str;
description = lib.mdDoc ''
Description of the UPS.
'';
};
directives = mkOption {
default = [];
type = types.listOf types.str;
description = lib.mdDoc ''
List of configuration directives for this UPS.
'';
};
summary = mkOption {
default = "";
type = types.lines;
description = lib.mdDoc ''
Lines which would be added inside ups.conf for handling this UPS.
'';
};
};
config = {
directives = mkOrder 10 ([
"driver = ${config.driver}"
"port = ${config.port}"
''desc = "${config.description}"''
"sdorder = ${toString config.shutdownOrder}"
] ++ (optional (config.maxStartDelay != null)
"maxstartdelay = ${toString config.maxStartDelay}")
);
summary =
concatStringsSep "\n "
(["[${name}]"] ++ config.directives);
};
};
in
{
options = {
# powerManagement.powerDownCommands
power.ups = {
enable = mkOption {
default = false;
type = with types; bool;
description = lib.mdDoc ''
Enables support for Power Devices, such as Uninterruptible Power
Supplies, Power Distribution Units and Solar Controllers.
'';
};
# This option is not used yet.
mode = mkOption {
default = "standalone";
type = types.str;
description = ''
The MODE determines which part of the NUT is to be started, and
which configuration files must be modified.
The values of MODE can be:
- none: NUT is not configured, or use the Integrated Power
Management, or use some external system to startup NUT
components. So nothing is to be started.
- standalone: This mode address a local only configuration, with 1
UPS protecting the local system. This implies to start the 3 NUT
layers (driver, upsd and upsmon) and the matching configuration
files. This mode can also address UPS redundancy.
- netserver: same as for the standalone configuration, but also
need some more ACLs and possibly a specific LISTEN directive in
upsd.conf. Since this MODE is opened to the network, a special
care should be applied to security concerns.
- netclient: this mode only requires upsmon.
'';
};
schedulerRules = mkOption {
example = "/etc/nixos/upssched.conf";
type = types.str;
description = lib.mdDoc ''
File which contains the rules to handle UPS events.
'';
};
maxStartDelay = mkOption {
default = 45;
type = types.int;
description = lib.mdDoc ''
This can be set as a global variable above your first UPS
definition and it can also be set in a UPS section. This value
controls how long upsdrvctl will wait for the driver to finish
starting. This keeps your system from getting stuck due to a
broken driver or UPS.
'';
};
ups = mkOption {
default = {};
# see nut/etc/ups.conf.sample
description = lib.mdDoc ''
This is where you configure all the UPSes that this system will be
monitoring directly. These are usually attached to serial ports,
but USB devices are also supported.
'';
type = with types; attrsOf (submodule upsOptions);
};
};
};
config = mkIf cfg.enable {
environment.systemPackages = [ pkgs.nut ];
systemd.services.upsmon = {
description = "Uninterruptible Power Supplies (Monitor)";
after = [ "network.target" ];
wantedBy = [ "multi-user.target" ];
serviceConfig.Type = "forking";
script = "${pkgs.nut}/sbin/upsmon";
environment.NUT_CONFPATH = "/etc/nut/";
environment.NUT_STATEPATH = "/var/lib/nut/";
};
systemd.services.upsd = {
description = "Uninterruptible Power Supplies (Daemon)";
after = [ "network.target" "upsmon.service" ];
wantedBy = [ "multi-user.target" ];
serviceConfig.Type = "forking";
# TODO: replace 'root' by another username.
script = "${pkgs.nut}/sbin/upsd -u root";
environment.NUT_CONFPATH = "/etc/nut/";
environment.NUT_STATEPATH = "/var/lib/nut/";
};
systemd.services.upsdrv = {
description = "Uninterruptible Power Supplies (Register all UPS)";
after = [ "upsd.service" ];
wantedBy = [ "multi-user.target" ];
# TODO: replace 'root' by another username.
script = "${pkgs.nut}/bin/upsdrvctl -u root start";
serviceConfig = {
Type = "oneshot";
RemainAfterExit = true;
};
environment.NUT_CONFPATH = "/etc/nut/";
environment.NUT_STATEPATH = "/var/lib/nut/";
};
environment.etc = {
"nut/nut.conf".source = pkgs.writeText "nut.conf"
''
MODE = ${cfg.mode}
'';
"nut/ups.conf".source = pkgs.writeText "ups.conf"
''
maxstartdelay = ${toString cfg.maxStartDelay}
${flip concatStringsSep (forEach (attrValues cfg.ups) (ups: ups.summary)) "
"}
'';
"nut/upssched.conf".source = cfg.schedulerRules;
# These file are containing private informations and thus should not
# be stored inside the Nix store.
/*
"nut/upsd.conf".source = "";
"nut/upsd.users".source = "";
"nut/upsmon.conf".source = "";
*/
};
power.ups.schedulerRules = mkDefault "${pkgs.nut}/etc/upssched.conf.sample";
system.activationScripts.upsSetup = stringAfter [ "users" "groups" ]
''
# Used to store pid files of drivers.
mkdir -p /var/state/ups
'';
/*
users.users.nut =
{ uid = 84;
home = "/var/lib/nut";
createHome = true;
group = "nut";
description = "UPnP A/V Media Server user";
};
users.groups."nut" =
{ gid = 84; };
*/
};
}