PipeWire

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Revision as of 16:36, 24 April 2021 by imported>Fufexan

PipeWire is a new low-level multimedia framework. It aims to offer capture and playback for both audio and video with minimal latency and support for PulseAudio-, JACK-, ALSA- and GStreamer-based applications.

The daemon based on the framework can be configured to be both an audio server (with PulseAudio and JACK features) and a video capture server.

Enabling PipeWire

Add to your configuration:

# Remove sound.enable or turn it off if you had it set previously, it seems to cause conflicts with pipewire
#sound.enable = false;

# rtkit is optional but recommended
security.rtkit.enable = true;
services.pipewire = {
  enable = true;
  alsa.enable = true;
  alsa.support32Bit = true;
  pulse.enable = true;
  # If you want to use JACK applications, uncomment this
  #jack.enable = true;

  # use the example session manager (no others are packaged yet so this is enabled by default,
  # no need to redefine it in your config for now)
  #media-session.enable = true;
};

Some useful knobs if you want to finetune or debug your setup:

services.pipewire = {
  config.pipewire = {
    "context.properties" = {
      #"link.max-buffers" = 64;
      "link.max-buffers" = 16; # version < 3 clients can't handle more than this
      "log.level" = 2; # https://docs.pipewire.org/#Logging
      #"default.clock.rate" = 48000;
      #"default.clock.quantum" = 1024;
      #"default.clock.min-quantum" = 32;
      #"default.clock.max-quantum" = 8192;
  };
};

Bluetooth Configuration

PipeWire handles Bluetooth very well, and it can be configured to use specific codecs. The mSBC codec provides slightly better sound quality in calls than regular HFP/HSP.

services.pipewire  = {
  media-session.config.bluez-monitor.rules = [
    {
      # Matches all cards
      matches = [ { "device.name" = "~bluez_card.*"; } ];
      actions = {
        "update-props" = {
          "bluez5.reconnect-profiles" = [ "hfp_hf" "hsp_hs" "a2dp_sink" ];
          # mSBC is not expected to work on all headset + adapter combinations.
          "bluez5.msbc-support" = true;
        };
      };
    }
    {
      matches = [
        # Matches all sources
        { "node.name" = "~bluez_input.*"; }
        # Matches all outputs
        { "node.name" = "~bluez_output.*"; }
      ];
      actions = {
        "node.pause-on-idle" = false;
      };
    }
  ];
};

Advanced Configuration

PipeWire can be extensively configured to fit the users' needs. Should the user want to do some fancy routing with null sinks, these can be defined directly in the config as shown below.

This is especially convenient if the user has a multi-channel (8+, or something "weird" like 2x2, 3x2) soundcard that keeps confusing applications with too many channels or a bad channel layout.

Note: those cards can be set to the "Pro Audio" profile with pavucontrol so PipeWire doesn't try to guess a wrong channel layout for them.

Arrays are replaced rather than merged with defaults, so in order to keep any default items needing to be kept here, they have to be listed (the dummy driver for JACK applications, if JACK support is enabled).

services.pipewire = {
  config.pipewire = {
    "context.objects" = [
      {
        # A default dummy driver. This handles nodes marked with the "node.always-driver"
        # properyty when no other driver is currently active. JACK clients need this.
        factory = "spa-node-factory";
        args = {
          "factory.name"     = "support.node.driver";
          "node.name"        = "Dummy-Driver";
          "priority.driver"  = 8000;
        };
      }
      {
        factory = "adapter";
        args = {
          "factory.name"     = "support.null-audio-sink";
          "node.name"        = "Microphone-Proxy";
          "node.description" = "Microphone";
          "media.class"      = "Audio/Source/Virtual";
          "audio.position"   = "MONO";
        };
      }
      {
        factory = "adapter";
        args = {
          "factory.name"     = "support.null-audio-sink";
          "node.name"        = "Main-Output-Proxy";
          "node.description" = "Main Output";
          "media.class"      = "Audio/Sink";
          "audio.position"   = "FL,FR";
        };
      }
    ];
  };
};

Linking nodes

The config does not currently cover linking nodes together, but this can be fixed with a script. Soundcard names and ports should be replaced with the ones from the user's configuration:

#!/usr/bin/env bash

## Names are found with
# jack_lsp -c

pw-link "Main Output Monitor:monitor_FL" "Komplete Audio 6 Pro:playback_1"
pw-link "Main Output Monitor:monitor_FR" "Komplete Audio 6 Pro:playback_2"

pw-link "M-Audio Fast Track MKII Pro:capture_1" "Microphone:input_MONO"

Low-latency setup

Audio production and rhythm games require lower latency audio than general applications. PipeWire can achieve the required latency with much less CPU usage compared to PulseAudio, with the appropriate configuration. The minimum period size controls how small a buffer can be. The lower it is, the less latency there is. PipeWire has a value of 32 by default, which amounts to 1.33ms. It can be brought lower if needed:

services.pipewire = {
  config.pipewire = {
    "context.properties" = {
      "default.clock.min-quantum" = 16 # going lower may cause crackles and distorted audio
    };
  };
};

PulseAudio backend

Applications using the Pulse backend have a separate configuration. The default minimum value is 1024, so it needs to be tweaked if low-latency audio is desired.

services.pipewire = {
  config.pipewire-pulse = {
    "context.modules" = [
      {
        name = "libpipewire-module-protocol-pulse";
        args = {
          "pulse.min.quantum" = 16; # controls minimum playback quant
          "pulse.min.req" = 16; # controls minimum recording quant
          "pulse.min.frag" = 16; # controls minimum fragment size
          "server.address" = [ "unix:native" ]; # the default address of the server
        };
      };
    ];
  };
};

As a general rule, the values in pipewire-pulse should not be lower than the ones in pipewire.

Controlling the ALSA devices

It is possible to configure various aspects of soundcards through PipeWire, including format, period size and batch mode:

services.pipewire = {
  media-session.config.alsa-monitor = {
    rules = [
      {
        matches = [ { "node.name" = "alsa_output.*" } ];
        actions = {
          update-props = {
            "audio.format" = "S16LE";
            "audio.rate" = 48000;
            "api.alsa.period-size" = 160; # defaults to 1024, tweak by trial-and-error
            #"api.alsa.disable-batch" = true; # generally, USB soundcards use the batch mode
          };
        };
      };
    ];
  };
};

The matches attribute applies the actions to the devices/properties listed there. It is usually used with soundcard names, like shown in the config above. <alsa_device> can be one of the outputs of

$ pw-dump | grep node.name | grep alsa

See also