PipeWire Module: Protocol Pulse

This module implements a complete PulseAudio server on top of PipeWire.

This is only the server implementation, client are expected to use the original PulseAudio client library. This provides a high level of compatibility with existing applications; in fact, all usual PulseAudio tools such as pavucontrol, pactl, pamon, paplay should continue to work as they did before.

This module is usually loaded as part of a standalone pipewire process, called pipewire-pulse, with the pipewire-pulse.conf config file.

The pulse server implements a sample cache that is otherwise not available in PipeWire.

Module Options

The module arguments can be the contents of the pulse.properties but it is recommended to make a separate pulse.properties section in the config file so that overrides can be done.

pulse.properties

A config section with server properties can be given.

pulse.properties = {
    # the addresses this server listens on
    server.address = [
        "unix:native"
        #"unix:/tmp/something"              # absolute paths may be used
        #"tcp:4713"                         # IPv4 and IPv6 on all addresses
        #"tcp:[::]:9999"                    # IPv6 on all addresses
        #"tcp:127.0.0.1:8888"               # IPv4 on a single address
        #
        #{ address = "tcp:4713"             # address
        #  max-clients = 64                 # maximum number of clients
        #  listen-backlog = 32              # backlog in the server listen queue
        #  client.access = "restricted"     # permissions for clients
        #}
    ]
    #pulse.min.req          = 256/48000     # 5ms
    #pulse.default.req      = 960/48000     # 20 milliseconds
    #pulse.min.frag         = 256/48000     # 5ms
    #pulse.default.frag     = 96000/48000   # 2 seconds
    #pulse.default.tlength  = 96000/48000   # 2 seconds
    #pulse.min.quantum      = 256/48000     # 5ms
    #pulse.default.format   = F32
    #pulse.default.position = [ FL FR ]
    # These overrides are only applied when running in a vm.
    vm.overrides = {
        pulse.min.quantum = 1024/48000      # 22ms
    }
}

Connection options

...
server.address = [
    "unix:native"
    # "tcp:4713"
]
...

The addresses the server listens on when starting. Uncomment the tcp:4713 entry to also make the server listen on a tcp socket. This is equivalent to loading module-native-protocol-tcp.

There is also a slightly more verbose syntax with more options:

....
server.address = [
  {  address = "tcp:4713"             # address
     max-clients = 64                 # maximum number of clients
     listen-backlog = 32              # backlog in the server listen queue
     client.access = "restricted"     # permissions for clients
  }
....

Use client.access to use one of the access methods to restrict the permissions given to clients connected via this address.

By default network access is given the "restricted" permissions. The session manager is responsible for assigning permission to clients with restricted permissions (usually read-only permissions).

Playback buffering options

pulse.min.req = 256/48000              # 5ms

The minimum amount of data to request for clients. The client requested values will be clamped to this value. Lowering this value together with tlength can decrease latency if the client wants this, but increase CPU overhead.

pulse.default.req = 960/48000          # 20 milliseconds

The default amount of data to request for clients. If the client does not specify any particular value, this default will be used. Lowering this value together with tlength can decrease latency but increase CPU overhead.

pulse.default.tlength = 96000/48000    # 2 seconds

The target amount of data to buffer on the server side. If the client did not specify a value, this default will be used. Lower values can decrease the latency.

Record buffering options

pulse.min.frag = 256/48000             # 5ms

The minimum allowed size of the capture buffer before it is sent to a client. The requested value of the client will be clamped to this. Lowering this value can reduce latency at the expense of more CPU usage.

pulse.default.frag = 96000/48000       # 2 seconds

The default size of the capture buffer before it is sent to a client. If the client did not specify any value, this default will be used. Lowering this value can reduce latency at the expense of more CPU usage.

Scheduling options

pulse.min.quantum = 256/48000          # 5ms

The minimum quantum (buffer size in samples) to use for pulseaudio clients. This value is calculated based on the frag and req/tlength for record and playback streams respectively and then clamped to this value to ensure no pulseaudio client asks for too small quantums. Lowering this value might decrease latency at the expense of more CPU usage.

Format options

pulse.default.format = F32

Some modules will default to this format when no other format was given. This is equivalent to the PulseAudio default-sample-format option in /etc/pulse/daemon.conf.

pulse.default.position = [ FL FR ]

Some modules will default to this channelmap (with its number of channels). This is equivalent to the PulseAudio default-sample-channels and default-channel-map options in /etc/pulse/daemon.conf.

VM options

vm.overrides = {
    pulse.min.quantum = 1024/48000      # 22ms
}

When running in a VM, the vm.override section will override the properties in pulse.properties with the given values. This might be interesting because VMs usually can't support the low latency settings that are possible on real hardware.

Stream settings and rules

Streams created by module-protocol-pulse will use the stream.properties section and stream.rules sections as usual.

Application settings (Rules)

The pulse protocol module supports generic config rules. It supports a pulse.rules section with a quirks and an update-props action.

pulse.rules = [
    {
        # skype does not want to use devices that don't have an S16 sample format.
        matches = [
             { application.process.binary = "teams" }
             { application.process.binary = "teams-insiders" }
             { application.process.binary = "skypeforlinux" }
        ]
        actions = { quirks = [ force-s16-info ] }
    }
    {
        # speech dispatcher asks for too small latency and then underruns.
        matches = [ { application.name = "~speech-dispatcher*" } ]
        actions = {
            update-props = {
                pulse.min.req          = 1024/48000     # 21ms
                pulse.min.quantum      = 1024/48000     # 21ms
            }
        }
    }
]

Quirks

The quirks action takes an array of quirks to apply for the client.

• force-s16-info makes the sink and source introspect code pretend that the sample format is S16 (16 bits) samples. Some application refuse the sink/source if this is not the case.
• remove-capture-dont-move Removes the DONT_MOVE flag on capture streams. Some applications set this flag so that the stream can't be moved anymore with tools such as pavucontrol.

update-props

Takes an object with the properties to update on the client. Common actions are to tweak the quantum values.

Example configuration

context.modules = [
{   name = libpipewire-module-protocol-pulse
    args = { }
}
]
 
pulse.properties = {
    server.address = [ "unix:native" ]
}
 
pulse.rules = [
    {
       # skype does not want to use devices that don't have an S16 sample format.
       matches = [
            { application.process.binary = "teams" }
            { application.process.binary = "teams-insiders" }
            { application.process.binary = "skypeforlinux" }
       ]
       actions = { quirks = [ force-s16-info ] }
   }
   {
       # speech dispatcher asks for too small latency and then underruns.
       matches = [ { application.name = "~speech-dispatcher*" } ]
       actions = {
           update-props = {
               pulse.min.req          = 1024/48000     # 21ms
               pulse.min.quantum      = 1024/48000     # 21ms
           }
       }
   }
]