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nixpkgs/nixos/modules/services/audio/jack.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

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{ config, lib, pkgs, ... }:
with lib;
let
cfg = config.services.jack;
pcmPlugin = cfg.jackd.enable && cfg.alsa.enable;
loopback = cfg.jackd.enable && cfg.loopback.enable;
enable32BitAlsaPlugins = cfg.alsa.support32Bit && pkgs.stdenv.isx86_64 && pkgs.pkgsi686Linux.alsa-lib != null;
umaskNeeded = versionOlder cfg.jackd.package.version "1.9.12";
bridgeNeeded = versionAtLeast cfg.jackd.package.version "1.9.12";
in {
options = {
services.jack = {
jackd = {
enable = mkEnableOption ''
JACK Audio Connection Kit. You need to add yourself to the "jackaudio" group
'';
package = mkOption {
# until jack1 promiscuous mode is fixed
internal = true;
type = types.package;
default = pkgs.jack2;
defaultText = literalExpression "pkgs.jack2";
example = literalExpression "pkgs.jack1";
description = ''
The JACK package to use.
'';
};
extraOptions = mkOption {
type = types.listOf types.str;
default = [
"-dalsa"
];
example = literalExpression ''
[ "-dalsa" "--device" "hw:1" ];
'';
description = lib.mdDoc ''
Specifies startup command line arguments to pass to JACK server.
'';
};
session = mkOption {
type = types.lines;
description = lib.mdDoc ''
Commands to run after JACK is started.
'';
};
};
alsa = {
enable = mkOption {
type = types.bool;
default = true;
description = lib.mdDoc ''
Route audio to/from generic ALSA-using applications using ALSA JACK PCM plugin.
'';
};
support32Bit = mkOption {
type = types.bool;
default = false;
description = lib.mdDoc ''
Whether to support sound for 32-bit ALSA applications on 64-bit system.
'';
};
};
loopback = {
enable = mkOption {
type = types.bool;
default = false;
description = lib.mdDoc ''
Create ALSA loopback device, instead of using PCM plugin. Has broader
application support (things like Steam will work), but may need fine-tuning
for concrete hardware.
'';
};
index = mkOption {
type = types.int;
default = 10;
description = lib.mdDoc ''
Index of an ALSA loopback device.
'';
};
config = mkOption {
type = types.lines;
description = lib.mdDoc ''
ALSA config for loopback device.
'';
};
dmixConfig = mkOption {
type = types.lines;
default = "";
example = ''
period_size 2048
periods 2
'';
description = lib.mdDoc ''
For music production software that still doesn't support JACK natively you
would like to put buffer/period adjustments here
to decrease dmix device latency.
'';
};
session = mkOption {
type = types.lines;
description = lib.mdDoc ''
Additional commands to run to setup loopback device.
'';
};
};
};
};
config = mkMerge [
(mkIf pcmPlugin {
sound.extraConfig = ''
pcm_type.jack {
libs.native = ${pkgs.alsa-plugins}/lib/alsa-lib/libasound_module_pcm_jack.so ;
${lib.optionalString enable32BitAlsaPlugins
"libs.32Bit = ${pkgs.pkgsi686Linux.alsa-plugins}/lib/alsa-lib/libasound_module_pcm_jack.so ;"}
}
pcm.!default {
@func getenv
vars [ PCM ]
default "plug:jack"
}
'';
})
(mkIf loopback {
boot.kernelModules = [ "snd-aloop" ];
boot.kernelParams = [ "snd-aloop.index=${toString cfg.loopback.index}" ];
sound.extraConfig = cfg.loopback.config;
})
(mkIf cfg.jackd.enable {
services.jack.jackd.session = ''
${lib.optionalString bridgeNeeded "${pkgs.a2jmidid}/bin/a2jmidid -e &"}
'';
# https://alsa.opensrc.org/Jack_and_Loopback_device_as_Alsa-to-Jack_bridge#id06
services.jack.loopback.config = ''
pcm.loophw00 {
type hw
card ${toString cfg.loopback.index}
device 0
subdevice 0
}
pcm.amix {
type dmix
ipc_key 219345
slave {
pcm loophw00
${cfg.loopback.dmixConfig}
}
}
pcm.asoftvol {
type softvol
slave.pcm "amix"
control { name Master }
}
pcm.cloop {
type hw
card ${toString cfg.loopback.index}
device 1
subdevice 0
format S32_LE
}
pcm.loophw01 {
type hw
card ${toString cfg.loopback.index}
device 0
subdevice 1
}
pcm.ploop {
type hw
card ${toString cfg.loopback.index}
device 1
subdevice 1
format S32_LE
}
pcm.aduplex {
type asym
playback.pcm "asoftvol"
capture.pcm "loophw01"
}
pcm.!default {
type plug
slave.pcm aduplex
}
'';
services.jack.loopback.session = ''
alsa_in -j cloop -dcloop &
alsa_out -j ploop -dploop &
while [ "$(jack_lsp cloop)" == "" ] || [ "$(jack_lsp ploop)" == "" ]; do sleep 1; done
jack_connect cloop:capture_1 system:playback_1
jack_connect cloop:capture_2 system:playback_2
jack_connect system:capture_1 ploop:playback_1
jack_connect system:capture_2 ploop:playback_2
'';
assertions = [
{
assertion = !(cfg.alsa.enable && cfg.loopback.enable);
message = "For JACK both alsa and loopback options shouldn't be used at the same time.";
}
];
users.users.jackaudio = {
group = "jackaudio";
extraGroups = [ "audio" ];
description = "JACK Audio system service user";
isSystemUser = true;
};
# http://jackaudio.org/faq/linux_rt_config.html
security.pam.loginLimits = [
{ domain = "@jackaudio"; type = "-"; item = "rtprio"; value = "99"; }
{ domain = "@jackaudio"; type = "-"; item = "memlock"; value = "unlimited"; }
];
users.groups.jackaudio = {};
environment = {
systemPackages = [ cfg.jackd.package ];
etc."alsa/conf.d/50-jack.conf".source = "${pkgs.alsa-plugins}/etc/alsa/conf.d/50-jack.conf";
variables.JACK_PROMISCUOUS_SERVER = "jackaudio";
};
services.udev.extraRules = ''
ACTION=="add", SUBSYSTEM=="sound", ATTRS{id}!="Loopback", TAG+="systemd", ENV{SYSTEMD_WANTS}="jack.service"
'';
systemd.services.jack = {
description = "JACK Audio Connection Kit";
serviceConfig = {
User = "jackaudio";
SupplementaryGroups = lib.optional
(config.hardware.pulseaudio.enable
&& !config.hardware.pulseaudio.systemWide) "users";
ExecStart = "${cfg.jackd.package}/bin/jackd ${lib.escapeShellArgs cfg.jackd.extraOptions}";
LimitRTPRIO = 99;
LimitMEMLOCK = "infinity";
} // optionalAttrs umaskNeeded {
UMask = "007";
};
path = [ cfg.jackd.package ];
environment = {
JACK_PROMISCUOUS_SERVER = "jackaudio";
JACK_NO_AUDIO_RESERVATION = "1";
};
restartIfChanged = false;
};
systemd.services.jack-session = {
description = "JACK session";
script = ''
jack_wait -w
${cfg.jackd.session}
${lib.optionalString cfg.loopback.enable cfg.loopback.session}
'';
serviceConfig = {
RemainAfterExit = true;
User = "jackaudio";
StateDirectory = "jack";
LimitRTPRIO = 99;
LimitMEMLOCK = "infinity";
};
path = [ cfg.jackd.package ];
environment = {
JACK_PROMISCUOUS_SERVER = "jackaudio";
HOME = "/var/lib/jack";
};
wantedBy = [ "jack.service" ];
partOf = [ "jack.service" ];
after = [ "jack.service" ];
restartIfChanged = false;
};
})
];
meta.maintainers = [ ];
}
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