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added pipewire. cleaned up profile.

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iceyrazor
2025-05-31 08:06:08 -05:00
parent b849f59fe3
commit 1531d84d91
13 changed files with 1653 additions and 28 deletions
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148
env/.config/pipewire/client.conf vendored Normal file
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# Client config file for PipeWire version "1.4.2" #
#
# Copy and edit this file in /etc/pipewire for system-wide changes
# or in ~/.config/pipewire for local changes.
#
# It is also possible to place a file with an updated section in
# /etc/pipewire/client.conf.d/ for system-wide changes or in
# ~/.config/pipewire/client.conf.d/ for local changes.
#
context.properties = {
## Configure properties in the system.
#mem.warn-mlock = false
#mem.allow-mlock = true
#mem.mlock-all = false
log.level = 0
#default.clock.quantum-limit = 8192
}
context.spa-libs = {
#<factory-name regex> = <library-name>
#
# Used to find spa factory names. It maps an spa factory name
# regular expression to a library name that should contain
# that factory.
#
audio.convert.* = audioconvert/libspa-audioconvert
support.* = support/libspa-support
video.convert.* = videoconvert/libspa-videoconvert
}
context.modules = [
#{ name = <module-name>
# ( args = { <key> = <value> ... } )
# ( flags = [ ( ifexists ) ( nofail ) ] )
# ( condition = [ { <key> = <value> ... } ... ] )
#}
#
# Loads a module with the given parameters.
# If ifexists is given, the module is ignored when it is not found.
# If nofail is given, module initialization failures are ignored.
#
# Uses realtime scheduling to boost the audio thread priorities
{ name = libpipewire-module-rt
args = {
#rt.prio = 83
#rt.time.soft = -1
#rt.time.hard = -1
}
flags = [ ifexists nofail ]
condition = [ { module.rt = !false } ]
}
# The native communication protocol.
{ name = libpipewire-module-protocol-native }
# Allows creating nodes that run in the context of the
# client. Is used by all clients that want to provide
# data to PipeWire.
{ name = libpipewire-module-client-node
condition = [ { module.client-node = !false } ]
}
# Allows creating devices that run in the context of the
# client. Is used by the session manager.
{ name = libpipewire-module-client-device
condition = [ { module.client-device = !false } ]
}
# Makes a factory for wrapping nodes in an adapter with a
# converter and resampler.
{ name = libpipewire-module-adapter
condition = [ { module.adapter = !false } ]
}
# Allows applications to create metadata objects. It creates
# a factory for Metadata objects.
{ name = libpipewire-module-metadata
condition = [ { module.metadata = !false } ]
}
# Provides factories to make session manager objects.
{ name = libpipewire-module-session-manager
condition = [ { module.session-manager = !false } ]
}
]
filter.properties = {
#node.latency = 1024/48000
}
stream.properties = {
#node.latency = 1024/48000
#node.autoconnect = true
#resample.quality = 4
#channelmix.normalize = false
#channelmix.mix-lfe = true
#channelmix.upmix = true
#channelmix.upmix-method = psd # none, simple
#channelmix.lfe-cutoff = 150
#channelmix.fc-cutoff = 12000
#channelmix.rear-delay = 12.0
#channelmix.stereo-widen = 0.0
#channelmix.hilbert-taps = 0
#dither.noise = 0
}
stream.rules = [
{ matches = [
{
# all keys must match the value. ! negates. ~ starts regex.
#application.name = "pw-cat"
#node.name = "~Google Chrome$"
}
]
actions = {
update-props = {
#node.latency = 512/48000
}
}
}
]
alsa.properties = {
#alsa.deny = false
# ALSA params take a single value, an array [] of values
# or a range { min=.. max=... }
#alsa.access = [ MMAP_INTERLEAVED MMAP_NONINTERLEAVED RW_INTERLEAVED RW_NONINTERLEAVED ]
#alsa.format = [ FLOAT S32 S24 S24_3 S16 U8 ]
#alsa.rate = { min=1 max=384000 } # or [ 44100 48000 .. ]
#alsa.channels = { min=1 max=64 } # or [ 2 4 6 .. ]
#alsa.period-bytes = { min=128 max=2097152 } # or [ 128 256 1024 .. ]
#alsa.buffer-bytes = { min=256 max=4194304 } # or [ 256 512 4096 .. ]
#alsa.volume-method = cubic # linear, cubic
}
# client specific properties
alsa.rules = [
{ matches = [ { application.process.binary = "resolve" } ]
actions = {
update-props = {
alsa.buffer-bytes = 131072
}
}
}
]

63
env/.config/pipewire/filter-chain.conf vendored Normal file
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# Filter-chain config file for PipeWire version "1.4.2" #
#
# This is a base config file for running filters.
#
# Place filter fragments in /etc/pipewire/filter-chain.conf.d/
# for system-wide changes or in ~/.config/pipewire/filter-chain.conf.d/
# for local changes.
#
# Run the filters with pipewire -c filter-chain.conf
#
context.properties = {
## Configure properties in the system.
#mem.warn-mlock = false
#mem.allow-mlock = true
#mem.mlock-all = false
log.level = 0
}
context.spa-libs = {
#<factory-name regex> = <library-name>
#
# Used to find spa factory names. It maps an spa factory name
# regular expression to a library name that should contain
# that factory.
#
audio.convert.* = audioconvert/libspa-audioconvert
support.* = support/libspa-support
}
context.modules = [
#{ name = <module-name>
# ( args = { <key> = <value> ... } )
# ( flags = [ ( ifexists ) ( nofail ) ] )
# ( condition = [ { <key> = <value> ... } ... ] )
#}
#
# Loads a module with the given parameters.
# If ifexists is given, the module is ignored when it is not found.
# If nofail is given, module initialization failures are ignored.
#
# Uses realtime scheduling to boost the audio thread priorities
{ name = libpipewire-module-rt
args = {
#rt.prio = 83
#rt.time.soft = -1
#rt.time.hard = -1
}
flags = [ ifexists nofail ]
}
# The native communication protocol.
{ name = libpipewire-module-protocol-native }
# Allows creating nodes that run in the context of the
# client. Is used by all clients that want to provide
# data to PipeWire.
{ name = libpipewire-module-client-node }
# Makes a factory for wrapping nodes in an adapter with a
# converter and resampler.
{ name = libpipewire-module-adapter }
]

140
env/.config/pipewire/jack.conf vendored Normal file
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# JACK client config file for PipeWire version "1.4.2" #
#
# Copy and edit this file in /etc/pipewire for system-wide changes
# or in ~/.config/pipewire for local changes.
#
# It is also possible to place a file with an updated section in
# /etc/pipewire/jack.conf.d/ for system-wide changes or in
# ~/.config/pipewire/jack.conf.d/ for local changes.
#
context.properties = {
## Configure properties in the system.
#mem.warn-mlock = false
#mem.allow-mlock = true
#mem.mlock-all = false
log.level = 0
#default.clock.quantum-limit = 8192
}
context.spa-libs = {
#<factory-name regex> = <library-name>
#
# Used to find spa factory names. It maps an spa factory name
# regular expression to a library name that should contain
# that factory.
#
support.* = support/libspa-support
}
context.modules = [
#{ name = <module-name>
# ( args = { <key> = <value> ... } )
# ( flags = [ ( ifexists ) ( nofail ) ] )
# ( condition = [ { <key> = <value> ... } ... ] )
#}
#
# Loads a module with the given parameters.
# If ifexists is given, the module is ignored when it is not found.
# If nofail is given, module initialization failures are ignored.
#
#
# Boost the data thread priority.
{ name = libpipewire-module-rt
args = {
#rt.prio = 83
#rt.time.soft = -1
#rt.time.hard = -1
}
flags = [ ifexists nofail ]
}
# The native communication protocol.
{ name = libpipewire-module-protocol-native }
# Allows creating nodes that run in the context of the
# client. Is used by all clients that want to provide
# data to PipeWire.
{ name = libpipewire-module-client-node }
# Allows applications to create metadata objects. It creates
# a factory for Metadata objects.
{ name = libpipewire-module-metadata }
]
# global properties for all jack clients
jack.properties = {
#node.latency = 1024/48000
#node.rate = 1/48000
#node.quantum = 1024/48000
#node.lock-quantum = true
#node.force-quantum = 0
#jack.show-monitor = true
#jack.merge-monitor = true
#jack.show-midi = true
#jack.short-name = false
#jack.filter-name = false
#jack.filter-char = " "
#
# allow: Don't restrict self connect requests
# fail-external: Fail self connect requests to external ports only
# ignore-external: Ignore self connect requests to external ports only
# fail-all: Fail all self connect requests
# ignore-all: Ignore all self connect requests
#jack.self-connect-mode = allow
#
# allow: Allow connect request of other ports
# fail: Fail connect requests of other ports
# ignore: Ignore connect requests of other ports
#jack.other-connect-mode = allow
#jack.locked-process = true
#jack.default-as-system = false
#jack.fix-midi-events = true
#jack.global-buffer-size = false
#jack.max-client-ports = 768
#jack.fill-aliases = false
#jack.writable-input = true
#jack.flag-midi2 = false
}
# client specific properties
jack.rules = [
{ matches = [
{
# all keys must match the value. ! negates. ~ starts regex.
#client.name = "Carla"
#application.process.binary = "jack_simple_client"
#application.name = "~jack_simple_client.*"
}
]
actions = {
update-props = {
#node.latency = 512/48000
}
}
}
{ matches = [ { application.process.binary = "jack_bufsize" } ]
actions = {
update-props = {
jack.global-buffer-size = true # quantum set globally using metadata
}
}
}
{ matches = [ { application.process.binary = "qsynth" } ]
actions = {
update-props = {
node.always-process = false # makes qsynth idle
node.pause-on-idle = false # makes audio fade out when idle
node.passive = out # makes the sink and qsynth suspend
}
}
}
{ matches = [ { client.name = "Mixxx" } ]
actions = {
update-props = {
jack.merge-monitor = false
}
}
}
]

476
env/.config/pipewire/minimal.conf vendored Normal file
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# Simple daemon config file for PipeWire version "1.4.2" #
#
# Copy and edit this file in /etc/pipewire for system-wide changes
# or in ~/.config/pipewire for local changes.
#
# It is also possible to place a file with an updated section in
# /etc/pipewire/minimal.conf.d/ for system-wide changes or in
# ~/.config/pipewire/minimal.conf.d/ for local changes.
#
context.properties = {
## Configure properties in the system.
#library.name.system = support/libspa-support
#context.data-loop.library.name.system = support/libspa-support
#support.dbus = true
#link.max-buffers = 64
link.max-buffers = 16 # version < 3 clients can't handle more
#mem.warn-mlock = false
#mem.allow-mlock = true
#mem.mlock-all = false
#clock.power-of-two-quantum = true
#log.level = 2
#cpu.zero.denormals = false
core.daemon = true # listening for socket connections
core.name = pipewire-0 # core name and socket name
## Properties for the DSP configuration.
#default.clock.rate = 48000
#default.clock.allowed-rates = [ 48000 ]
#default.clock.quantum = 1024
#default.clock.min-quantum = 32
#default.clock.max-quantum = 2048
#default.clock.quantum-limit = 8192
#default.clock.quantum-floor = 4
#default.video.width = 640
#default.video.height = 480
#default.video.rate.num = 25
#default.video.rate.denom = 1
#
settings.check-quantum = true
settings.check-rate = true
# This config can use udev or hardcoded ALSA devices. Make sure to
# change the alsa device below when disabling udev
minimal.use-udev = true
# Load the pulseaudio emulation daemon
minimal.use-pulse = true
}
context.properties.rules = [
{ matches = [ { cpu.vm.name = !null } ]
actions = {
update-props = {
# These overrides are only applied when running in a vm.
default.clock.min-quantum = 1024
}
}
}
]
context.spa-libs = {
#<factory-name regex> = <library-name>
#
# Used to find spa factory names. It maps an spa factory name
# regular expression to a library name that should contain
# that factory.
#
audio.convert.* = audioconvert/libspa-audioconvert
audio.adapt = audioconvert/libspa-audioconvert
api.alsa.* = alsa/libspa-alsa
support.* = support/libspa-support
}
context.modules = [
#{ name = <module-name>
# ( args = { <key> = <value> ... } )
# ( flags = [ ( ifexists ) ( nofail ) ] )
# ( condition = [ { <key> = <value> ... } ... ] )
#}
#
# Loads a module with the given parameters.
# If ifexists is given, the module is ignored when it is not found.
# If nofail is given, module initialization failures are ignored.
#
# Uses realtime scheduling to boost the audio thread priorities. This uses
# RTKit if the user doesn't have permission to use regular realtime
# scheduling.
{ name = libpipewire-module-rt
args = {
nice.level = -11
rt.prio = 88
#rt.time.soft = -1
#rt.time.hard = -1
}
flags = [ ifexists nofail ]
}
# The native communication protocol.
{ name = libpipewire-module-protocol-native }
# The profile module. Allows application to access profiler
# and performance data. It provides an interface that is used
# by pw-top and pw-profiler.
{ name = libpipewire-module-profiler }
# Allows applications to create metadata objects. It creates
# a factory for Metadata objects.
{ name = libpipewire-module-metadata }
# Creates a factory for making nodes that run in the
# context of the PipeWire server.
{ name = libpipewire-module-spa-node-factory }
{ name = libpipewire-module-spa-device-factory }
# Allows creating nodes that run in the context of the
# client. Is used by all clients that want to provide
# data to PipeWire.
{ name = libpipewire-module-client-node }
# The access module can perform access checks and block
# new clients.
{ name = libpipewire-module-access
args = {
# access.allowed to list an array of paths of allowed
# apps.
#access.allowed = [
# /usr/bin/pipewire-media-session
#]
# An array of rejected paths.
#access.rejected = [ ]
# An array of paths with restricted access.
#access.restricted = [ ]
# Anything not in the above lists gets assigned the
# access.force permission.
#access.force = flatpak
}
}
# Makes a factory for wrapping nodes in an adapter with a
# converter and resampler.
{ name = libpipewire-module-adapter }
# Makes a factory for creating links between ports.
{ name = libpipewire-module-link-factory }
{ name = libpipewire-module-protocol-pulse
condition = [ { minimal.use-pulse = true } ]
}
]
pulse.properties = {
# the addresses this server listens on
server.address = [
"unix:native"
]
}
stream.properties = {
adapter.auto-port-config = { mode = dsp }
}
context.objects = [
#{ factory = <factory-name>
# ( args = { <key> = <value> ... } )
# ( flags = [ ( nofail ) ] )
# ( condition = [ { <key> = <value> ... } ... ] )
#}
#
# Creates an object from a PipeWire factory with the given parameters.
# If nofail is given, errors are ignored (and no object is created).
#
#{ factory = spa-node-factory args = { factory.name = videotestsrc node.name = videotestsrc node.description = videotestsrc node.param.Props = { patternType = 1 } } }
#{ factory = spa-device-factory args = { factory.name = api.jack.device foo=bar } flags = [ nofail ] }
#{ factory = spa-device-factory args = { factory.name = api.alsa.enum.udev } }
#{ factory = spa-node-factory args = { factory.name = api.alsa.seq.bridge node.name = Internal-MIDI-Bridge } }
#{ factory = adapter args = { factory.name = audiotestsrc node.name = my-test node.description = audiotestsrc node.param.Props = { live = false } } }
#{ factory = spa-node-factory args = { factory.name = api.vulkan.compute.source node.name = my-compute-source } }
# Make a default metadata store
{ factory = metadata
args = {
metadata.name = default
# metadata.values = [
# { key = default.audio.sink value = { name = somesink } }
# { key = default.audio.source value = { name = somesource } }
# ]
}
}
# A default dummy driver. This handles nodes marked with the "node.always-process"
# property 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
node.group = pipewire.dummy
priority.driver = 20000
}
}
{ factory = spa-node-factory
args = {
factory.name = support.node.driver
node.name = Freewheel-Driver
priority.driver = 19000
node.group = pipewire.freewheel
node.freewheel = true
#freewheel.wait = 10
}
}
# This creates a ALSA udev device that will enumerate all
# ALSA devices. Because it is using ACP and has the auto-profile
# property set, this will enable a profile and create associated
# nodes, which will be automatically configured to their best
# configuration with the auto-port-config settings.
# Extra node and device params can be given with node.param and
# device.param prefixes.
{ factory = spa-device-factory
args = {
factory.name = api.alsa.enum.udev
alsa.use-acp = true
device.object.properties = {
api.acp.auto-profile = true
api.acp.auto-port = true
device.object.properties = {
node.adapter = audio.adapt
resample.disable = false
adapter.auto-port-config = {
mode = dsp
monitor = false
control = false
position = preserve # unknown, aux
}
#node.param.Props = {
# channelVolumes = [ 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.6 ]
#}
}
#device.param.Profile = {
# #idx = 0
# name = pro-audio
#}
}
}
condition = [ { minimal.use-udev = true } ]
}
# This creates a single PCM source device for the given
# alsa device path hw:0. You can change source to sink
# to make a sink in the same way.
{ factory = adapter
args = {
factory.name = api.alsa.pcm.source
node.name = "system"
node.description = "system"
media.class = "Audio/Source"
api.alsa.path = "hw:4"
#api.alsa.period-size = 0
#api.alsa.period-num = 0
#api.alsa.headroom = 0
#api.alsa.start-delay = 0
#api.alsa.disable-mmap = false
#api.alsa.disable-batch = false
#api.alsa.use-chmap = false
#api.alsa.multirate = true
#latency.internal.rate = 0
#latency.internal.ns = 0
#clock.name = api.alsa.0
node.suspend-on-idle = true
#audio.format = "S32"
#audio.rate = 48000
#audio.allowed-rates = [ ]
#audio.channels = 4
#audio.position = [ FL FR RL RR ]
#resample.quality = 4
resample.disable = true
#monitor.channel-volumes = false
#channelmix.normalize = false
#channelmix.mix-lfe = true
#channelmix.upmix = true
#channelmix.upmix-method = psd # none, simple
#channelmix.lfe-cutoff = 150
#channelmix.fc-cutoff = 12000
#channelmix.rear-delay = 12.0
#channelmix.stereo-widen = 0.0
#channelmix.hilbert-taps = 0
#channelmix.disable = false
#dither.noise = 0
#node.param.Props = {
# params = [
# audio.channels 6
# ]
#}
adapter.auto-port-config = {
mode = dsp
monitor = false
control = false
position = unknown # aux, preserve
}
#node.param.PortConfig = {
# direction = Output
# mode = dsp
# format = {
# mediaType = audio
# mediaSubtype = raw
# format = F32
# rate = 48000
# channels = 4
# position = [ FL FR RL RR ]
# }
#}
#node.param.Props = {
# channelVolumes = [ 0.5 0.4 0.3 0.5 ]
#}
}
condition = [ { minimal.use-udev = false } ]
}
{ factory = adapter
args = {
factory.name = api.alsa.pcm.sink
node.name = "system"
node.description = "system"
media.class = "Audio/Sink"
api.alsa.path = "hw:4"
#api.alsa.period-size = 0
#api.alsa.period-num = 0
#api.alsa.headroom = 0
#api.alsa.start-delay = 0
#api.alsa.disable-mmap = false
#api.alsa.disable-batch = false
#api.alsa.use-chmap = false
#api.alsa.multirate = true
#latency.internal.rate = 0
#latency.internal.ns = 0
#clock.name = api.alsa.0
node.suspend-on-idle = true
#audio.format = "S32"
#audio.rate = 48000
#audio.allowed-rates = [ ]
#audio.channels = 2
#audio.position = "FL,FR"
#resample.quality = 4
resample.disable = true
#channelmix.normalize = false
#channelmix.mix-lfe = true
#channelmix.upmix = true
#channelmix.upmix-method = psd # none, simple
#channelmix.lfe-cutoff = 150
#channelmix.fc-cutoff = 12000
#channelmix.rear-delay = 12.0
#channelmix.stereo-widen = 0.0
#channelmix.hilbert-taps = 0
#channelmix.disable = false
#dither.noise = 0
#node.param.Props = {
# params = [
# audio.format S16
# ]
#}
adapter.auto-port-config = {
mode = dsp
monitor = false
control = false
position = unknown # aux, preserve
}
#node.param.PortConfig = {
# direction = Input
# mode = dsp
# monitor = true
# format = {
# mediaType = audio
# mediaSubtype = raw
# format = F32
# rate = 48000
# channels = 4
# }
#}
#node.param.Props = {
# channelVolumes = [ 0.5 0.4 0.3 0.5 ]
#}
}
condition = [ { minimal.use-udev = false } ]
}
# This creates a new Source node. It will have input ports
# that you can link, to provide audio for this source.
#{ factory = adapter
# args = {
# factory.name = support.null-audio-sink
# node.name = "my-mic"
# node.description = "Microphone"
# media.class = "Audio/Source/Virtual"
# audio.position = "FL,FR"
# monitor.passthrough = true
# adapter.auto-port-config = {
# mode = dsp
# monitor = true
# position = preserve # unknown, aux, preserve
# }
# }
#}
# This creates a new link between the source and the virtual
# source ports.
#{ factory = link-factory
# args = {
# link.output.node = system
# link.output.port = capture_1
# link.input.node = my-mic
# link.input.port = input_FL
# }
#}
#{ factory = link-factory
# args = {
# link.output.node = system
# link.output.port = capture_2
# link.input.node = my-mic
# link.input.port = input_FR
# }
#}
]
context.exec = [
#{ path = <program-name>
# ( args = "<arguments>" | [ <arg1> <arg2> ... ] )
# ( condition = [ { <key> = <value> ... } ... ] )
#}
#
# Execute the given program with arguments.
#
# You can optionally start the pulseaudio-server here as well
# but it is better to start it as a systemd service.
# It can be interesting to start another daemon here that listens
# on another address with the -a option (eg. -a tcp:4713).
#
##{ path = "/usr/bin/pipewire" args = "-c pipewire-pulse.conf" }
]
node.rules = [
{ matches = [
{
# all keys must match the value. ! negates. ~ starts regex.
#alsa.card_name = "ICUSBAUDIO7D"
#api.alsa.pcm.stream = "playback"
}
]
actions = {
update-props = {
#node.name = "alsa_playback.ICUSBAUDIO7D"
}
}
}
]
device.rules = [
{ matches = [
{
#alsa.card_name = "ICUSBAUDIO7D"
}
]
actions = {
update-props = {
#device.name = "alsa_card.ICUSBAUDIO7D"
#api.acp.auto-profile = false
#api.acp.auto-port = false
#device.param.Profile = {
# #idx = 0
# name = off
#}
}
}
}
]

157
env/.config/pipewire/pipewire-aes67.conf vendored Normal file
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# AES67 config file for PipeWire version "1.4.2" #
#
# Copy and edit this file in /etc/pipewire for system-wide changes
# or in ~/.config/pipewire for local changes.
#
# It is also possible to place a file with an updated section in
# /etc/pipewire/pipewire-aes67.conf.d/ for system-wide changes or in
# ~/.config/pipewire/pipewire-aes67.conf.d/ for local changes.
#
context.properties = {
## Configure properties in the system.
#mem.warn-mlock = false
#mem.allow-mlock = true
#mem.mlock-all = false
#log.level = 2
#default.clock.quantum-limit = 8192
}
context.spa-libs = {
support.* = support/libspa-support
}
context.objects = [
# An example clock reading from /dev/ptp0. You can also specify the network interface name,
# pipewire will query the interface for the current active PHC index. Another option is to
# sync the ptp clock to CLOCK_TAI and then set clock.id = tai, keep in mind that tai may
# also be synced by a NTP client.
# The precedence is: device, interface, id
{ factory = spa-node-factory
args = {
factory.name = support.node.driver
node.name = PTP0-Driver
node.group = pipewire.ptp0
# This driver should only be used for network nodes marked with group
priority.driver = 100000
clock.name = "clock.system.ptp0"
### Please select the PTP hardware clock here
# Interface name is the preferred method of specifying the PHC
clock.interface = "eth0"
#clock.device = "/dev/ptp0"
#clock.id = tai
# Lower this in case of periodic out-of-sync
resync.ms = 1.5
object.export = true
}
}
]
context.modules = [
{ name = libpipewire-module-rt
args = {
nice.level = -11
#rt.prio = 83
#rt.time.soft = -1
#rt.time.hard = -1
}
flags = [ ifexists nofail ]
}
{ name = libpipewire-module-protocol-native }
{ name = libpipewire-module-client-node }
{ name = libpipewire-module-spa-node-factory }
{ name = libpipewire-module-adapter }
{ name = libpipewire-module-rtp-sap
args = {
### Please select the interface here
local.ifname = eth0
sap.ip = 239.255.255.255
sap.port = 9875
net.ttl = 32
net.loop = false
# If you use another PTPv2 daemon supporting management
# messages over a UNIX socket, specify its path here
ptp.management-socket = "/var/run/ptp4lro"
stream.rules = [
{
matches = [
{
rtp.session = "~.*"
}
]
actions = {
create-stream = {
node.virtual = false
media.class = "Audio/Source"
device.api = aes67
# You can adjust the latency buffering here. Use integer values only
sess.latency.msec = 3
node.group = pipewire.ptp0
}
}
},
{
matches = [
{
sess.sap.announce = true
}
]
actions = {
announce-stream = {}
}
}
]
}
},
{ name = libpipewire-module-rtp-sink
args = {
### Please select the interface here
local.ifname = eth0
### If you want to create multiple output streams, please copy the whole
### module-rtp-sink block, but change this multicast IP to another unused
### one keeping 239.69.x.x range unless you know you need another one
destination.ip = 239.69.150.243
destination.port = 5004
net.mtu = 1280
net.ttl = 32
net.loop = false
# These should typically be equal
# You can customize packet length, but 1 ms should work for every device
# Consult receiver documentation to ensure it supports the value you set
sess.min-ptime = 1
sess.max-ptime = 1
### Please change this, especially if you create multiple sinks
sess.name = "PipeWire RTP stream"
sess.media = "audio"
# This property is used if you aren't using ptp4l 4
sess.ts-refclk = "ptp=traceable"
sess.ts-offset = 0
# You can adjust the latency buffering here. Use integer values only
sess.latency.msec = 3
audio.format = "S24BE"
audio.rate = 48000
audio.channels = 2
# These channel names will be visible both to applications and AES67 receivers
node.channel-names = ["CH1", "CH2"]
# Uncomment this and comment node.group in send/recv stream.props to allow
# separate drivers for the RTP sink and PTP sending (i.e. force rate matching on
# the AES67 node rather than other nodes)
#aes67.driver-group = "pipewire.ptp0"
stream.props = {
### Please change the sink name, this is necessary when you create multiple sinks
node.name = "rtp-sink"
media.class = "Audio/Sink"
node.virtual = false
device.api = aes67
sess.sap.announce = true
node.always-process = true
node.group = pipewire.ptp0
rtp.ntp = 0
rtp.fetch-ts-refclk = true
}
}
},
]

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# PulseAudio config file for PipeWire version "1.4.2" #
#
# Copy and edit this file in /etc/pipewire for system-wide changes
# or in ~/.config/pipewire for local changes.
#
# It is also possible to place a file with an updated section in
# /etc/pipewire/pipewire-pulse.conf.d/ for system-wide changes or in
# ~/.config/pipewire/pipewire-pulse.conf.d/ for local changes.
#
context.properties = {
## Configure properties in the system.
#mem.warn-mlock = false
#mem.allow-mlock = true
#mem.mlock-all = false
#log.level = 2
#default.clock.quantum-limit = 8192
}
context.spa-libs = {
audio.convert.* = audioconvert/libspa-audioconvert
support.* = support/libspa-support
}
context.modules = [
{ name = libpipewire-module-rt
args = {
nice.level = -11
#rt.prio = 83
#rt.time.soft = -1
#rt.time.hard = -1
}
flags = [ ifexists nofail ]
}
{ name = libpipewire-module-protocol-native }
{ name = libpipewire-module-client-node }
{ name = libpipewire-module-adapter }
{ name = libpipewire-module-avb
args = {
# contents of avb.properties can also be placed here
# to have config per server.
}
}
]
# Extra modules can be loaded here. Setup in default.pa can be moved here
context.exec = [
#{ path = "pactl" args = "load-module module-always-sink" }
]
stream.properties = {
#node.latency = 1024/48000
#node.autoconnect = true
#resample.quality = 4
#channelmix.normalize = false
#channelmix.mix-lfe = true
#channelmix.upmix = true
#channelmix.lfe-cutoff = 120
#channelmix.fc-cutoff = 6000
#channelmix.rear-delay = 12.0
#channelmix.stereo-widen = 0.1
#channelmix.hilbert-taps = 0
}
avb.properties = {
# the addresses this server listens on
#ifname = "eth0.2"
ifname = "enp3s0"
}
avb.properties.rules = [
{ matches = [ { cpu.vm.name = !null } ]
actions = {
update-props = {
# These overrides are only applied when running in a vm.
}
}
}
]

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# PulseAudio config file for PipeWire version "1.4.2" #
#
# Copy and edit this file in /etc/pipewire for system-wide changes
# or in ~/.config/pipewire for local changes.
#
# It is also possible to place a file with an updated section in
# /etc/pipewire/pipewire-pulse.conf.d/ for system-wide changes or in
# ~/.config/pipewire/pipewire-pulse.conf.d/ for local changes.
#
context.properties = {
## Configure properties in the system.
#mem.warn-mlock = false
#mem.allow-mlock = true
#mem.mlock-all = false
#log.level = 2
#default.clock.quantum-limit = 8192
}
context.spa-libs = {
audio.convert.* = audioconvert/libspa-audioconvert
support.* = support/libspa-support
}
context.modules = [
{ name = libpipewire-module-rt
args = {
nice.level = -11
#rt.prio = 83
#rt.time.soft = -1
#rt.time.hard = -1
#uclamp.min = 0
#uclamp.max = 1024
}
flags = [ ifexists nofail ]
}
{ name = libpipewire-module-protocol-native }
{ name = libpipewire-module-client-node }
{ name = libpipewire-module-adapter }
{ name = libpipewire-module-metadata }
{ name = libpipewire-module-protocol-pulse
args = {
# contents of pulse.properties can also be placed here
# to have config per server.
}
}
]
# Extra scripts can be started here. Setup in default.pa can be moved in
# a script or in pulse.cmd below
context.exec = [
#{ path = "pactl" args = "load-module module-always-sink" }
#{ path = "pactl" args = "upload-sample my-sample.wav my-sample" }
#{ path = "/usr/bin/sh" args = "~/.config/pipewire/default.pw" }
]
# Extra commands can be executed here.
# load-module : loads a module with args and flags
# args = "<module-name> <module-args>"
# ( flags = [ nofail ] )
# ( condition = [ { <key1> = <value1>, ... } ... ] )
# conditions will check the pulse.properties key/values.
pulse.cmd = [
{ cmd = "load-module" args = "module-always-sink" flags = [ ]
condition = [ { pulse.cmd.always-sink = !false } ] }
{ cmd = "load-module" args = "module-device-manager" flags = [ ]
condition = [ { pulse.cmd.device-manager = !false } ] }
{ cmd = "load-module" args = "module-device-restore" flags = [ ]
condition = [ { pulse.cmd.device-restore = !false } ] }
{ cmd = "load-module" args = "module-stream-restore" flags = [ ]
condition = [ { pulse.cmd.stream-restore = !false } ] }
#{ cmd = "load-module" args = "module-switch-on-connect" }
#{ cmd = "load-module" args = "module-gsettings" flags = [ nofail ] }
]
stream.properties = {
#node.latency = 1024/48000
#node.autoconnect = true
#resample.quality = 4
#channelmix.normalize = false
#channelmix.mix-lfe = true
#channelmix.upmix = true
#channelmix.upmix-method = psd # none, simple
#channelmix.lfe-cutoff = 150
#channelmix.fc-cutoff = 12000
#channelmix.rear-delay = 12.0
#channelmix.stereo-widen = 0.0
#channelmix.hilbert-taps = 0
#dither.noise = 0
}
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
#}
]
#server.dbus-name = "org.pulseaudio.Server"
#pulse.allow-module-loading = true
#pulse.min.req = 128/48000 # 2.7ms
#pulse.default.req = 960/48000 # 20 milliseconds
#pulse.min.frag = 128/48000 # 2.7ms
#pulse.default.frag = 96000/48000 # 2 seconds
#pulse.default.tlength = 96000/48000 # 2 seconds
#pulse.min.quantum = 128/48000 # 2.7ms
#pulse.idle.timeout = 0 # don't pause after underruns
#pulse.default.format = F32
#pulse.default.position = [ FL FR ]
}
pulse.properties.rules = [
{ matches = [ { cpu.vm.name = !null } ]
actions = {
update-props = {
# These overrides are only applied when running in a vm.
pulse.min.quantum = 1024/48000 # 22ms
}
}
}
]
# client/stream specific properties
pulse.rules = [
{
matches = [
{
# all keys must match the value. ! negates. ~ starts regex.
#client.name = "Firefox"
#application.process.binary = "teams"
#application.name = "~speech-dispatcher.*"
}
]
actions = {
update-props = {
#node.latency = 512/48000
}
# Possible quirks:"
# force-s16-info forces sink and source info as S16 format
# remove-capture-dont-move removes the capture DONT_MOVE flag
# block-source-volume blocks updates to source volume
# block-sink-volume blocks updates to sink volume
#quirks = [ ]
}
}
{
# 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 = "teams-for-linux" }
{ application.process.binary = "skypeforlinux" }
]
actions = { quirks = [ force-s16-info ] }
}
{
# firefox marks the capture streams as don't move and then they
# can't be moved with pavucontrol or other tools.
matches = [ { application.process.binary = "firefox" } ]
actions = { quirks = [ remove-capture-dont-move ] }
}
{
# speech dispatcher asks for too small latency and then underruns.
matches = [ { application.name = "~speech-dispatcher.*" } ]
actions = {
update-props = {
pulse.min.req = 512/48000 # 10.6ms
pulse.min.quantum = 512/48000 # 10.6ms
pulse.idle.timeout = 5 # pause after 5 seconds of underrun
}
}
}
#{
# matches = [ { application.process.binary = "Discord" } ]
# actions = { quirks = [ block-source-volume ] }
#}
]

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# Daemon config file for PipeWire version "1.4.2" #
#
# Copy and edit this file in /etc/pipewire for system-wide changes
# or in ~/.config/pipewire for local changes.
#
# It is also possible to place a file with an updated section in
# /etc/pipewire/pipewire.conf.d/ for system-wide changes or in
# ~/.config/pipewire/pipewire.conf.d/ for local changes.
#
context.properties = {
## Configure properties in the system.
#library.name.system = support/libspa-support
#context.data-loop.library.name.system = support/libspa-support
#support.dbus = true
#link.max-buffers = 64
link.max-buffers = 16 # version < 3 clients can't handle more
#mem.warn-mlock = false
#mem.allow-mlock = true
#mem.mlock-all = false
#clock.power-of-two-quantum = true
#log.level = 2
#cpu.zero.denormals = false
#loop.rt-prio = -1 # -1 = use module-rt prio, 0 disable rt
#loop.class = data.rt
#thread.affinity = [ 0 1 ] # optional array of CPUs
#context.num-data-loops = 1 # -1 = num-cpus, 0 = no data loops
#
#context.data-loops = [
# { loop.rt-prio = -1
# loop.class = [ data.rt audio.rt ]
# #library.name.system = support/libspa-support
# thread.name = data-loop.0
# #thread.affinity = [ 0 1 ] # optional array of CPUs
# }
#]
core.daemon = true # listening for socket connections
core.name = pipewire-0 # core name and socket name
## Properties for the DSP configuration.
default.clock.rate = 192000
#default.clock.allowed-rates = [ 48000 ]
#default.clock.quantum = 1024
#default.clock.min-quantum = 32
#default.clock.max-quantum = 2048
#default.clock.quantum-limit = 8192
#default.clock.quantum-floor = 4
#default.video.width = 640
#default.video.height = 480
#default.video.rate.num = 25
#default.video.rate.denom = 1
#
#settings.check-quantum = false
#settings.check-rate = false
}
context.properties.rules = [
{ matches = [ { cpu.vm.name = !null } ]
actions = {
update-props = {
# These overrides are only applied when running in a vm.
default.clock.min-quantum = 1024
}
}
}
]
context.spa-libs = {
#<factory-name regex> = <library-name>
#
# Used to find spa factory names. It maps an spa factory name
# regular expression to a library name that should contain
# that factory.
#
audio.convert.* = audioconvert/libspa-audioconvert
avb.* = avb/libspa-avb
api.alsa.* = alsa/libspa-alsa
api.v4l2.* = v4l2/libspa-v4l2
api.libcamera.* = libcamera/libspa-libcamera
api.bluez5.* = bluez5/libspa-bluez5
api.vulkan.* = vulkan/libspa-vulkan
api.jack.* = jack/libspa-jack
support.* = support/libspa-support
video.convert.* = videoconvert/libspa-videoconvert
#filter.graph = filter-graph/libspa-filter-graph
#videotestsrc = videotestsrc/libspa-videotestsrc
#audiotestsrc = audiotestsrc/libspa-audiotestsrc
}
context.modules = [
#{ name = <module-name>
# ( args = { <key> = <value> ... } )
# ( flags = [ ( ifexists ) ( nofail ) ] )
# ( condition = [ { <key> = <value> ... } ... ] )
#}
#
# Loads a module with the given parameters.
# If ifexists is given, the module is ignored when it is not found.
# If nofail is given, module initialization failures are ignored.
# If condition is given, the module is loaded only when the context
# properties all match the match rules.
#
# Uses realtime scheduling to boost the audio thread priorities. This uses
# RTKit if the user doesn't have permission to use regular realtime
# scheduling. You can also clamp utilisation values to improve scheduling
# on embedded and heterogeneous systems, e.g. Arm big.LITTLE devices.
# use module.rt.args = { ... } to override the arguments.
{ name = libpipewire-module-rt
args = {
nice.level = -11
rt.prio = 88
#rt.time.soft = -1
#rt.time.hard = -1
#uclamp.min = 0
#uclamp.max = 1024
}
flags = [ ifexists nofail ]
condition = [ { module.rt = !false } ]
}
# The native communication protocol.
{ name = libpipewire-module-protocol-native
args = {
# List of server Unix sockets, and optionally permissions
#sockets = [ { name = "pipewire-0" }, { name = "pipewire-0-manager" } ]
}
}
# The profile module. Allows application to access profiler
# and performance data. It provides an interface that is used
# by pw-top and pw-profiler.
# use module.profiler.args = { ... } to override the arguments.
{ name = libpipewire-module-profiler
args = {
#profile.interval.ms = 0
}
condition = [ { module.profiler = !false } ]
}
# Allows applications to create metadata objects. It creates
# a factory for Metadata objects.
{ name = libpipewire-module-metadata
condition = [ { module.metadata = !false } ]
}
# Creates a factory for making devices that run in the
# context of the PipeWire server.
{ name = libpipewire-module-spa-device-factory
condition = [ { module.spa-device-factory = !false } ]
}
# Creates a factory for making nodes that run in the
# context of the PipeWire server.
{ name = libpipewire-module-spa-node-factory
condition = [ { module.spa-node-factory = !false } ]
}
# Allows creating nodes that run in the context of the
# client. Is used by all clients that want to provide
# data to PipeWire.
{ name = libpipewire-module-client-node
condition = [ { module.client-node = !false } ]
}
# Allows creating devices that run in the context of the
# client. Is used by the session manager.
{ name = libpipewire-module-client-device
condition = [ { module.client-device = !false } ]
}
# The portal module monitors the PID of the portal process
# and tags connections with the same PID as portal
# connections.
{ name = libpipewire-module-portal
flags = [ ifexists nofail ]
condition = [ { module.portal = !false } ]
}
# The access module can perform access checks and block
# new clients.
{ name = libpipewire-module-access
args = {
# Socket-specific access permissions
#access.socket = { pipewire-0 = "default", pipewire-0-manager = "unrestricted" }
# Deprecated legacy mode (not socket-based),
# for now enabled by default if access.socket is not specified
#access.legacy = true
}
condition = [ { module.access = !false } ]
}
# Makes a factory for wrapping nodes in an adapter with a
# converter and resampler.
{ name = libpipewire-module-adapter
condition = [ { module.adapter = !false } ]
}
# Makes a factory for creating links between ports.
# use module.link-factory.args = { ... } to override the arguments.
{ name = libpipewire-module-link-factory
args = {
#allow.link.passive = false
}
condition = [ { module.link-factory = !false } ]
}
# Provides factories to make session manager objects.
{ name = libpipewire-module-session-manager
condition = [ { module.session-manager = !false } ]
}
# Use libcanberra to play X11 Bell
{ name = libpipewire-module-x11-bell
args = {
#sink.name = "@DEFAULT_SINK@"
#sample.name = "bell-window-system"
#x11.display = null
#x11.xauthority = null
}
flags = [ ifexists nofail ]
condition = [ { module.x11.bell = !false } ]
}
# The JACK DBus detection module. When jackdbus is started, this
# will automatically make PipeWire become a JACK client.
# use module.jackdbus-detect.args = { ... } to override the arguments.
{ name = libpipewire-module-jackdbus-detect
args = {
#jack.library = libjack.so.0
#jack.server = null
#jack.client-name = PipeWire
#jack.connect = true
#tunnel.mode = duplex # source|sink|duplex
source.props = {
#audio.channels = 2
#midi.ports = 1
#audio.position = [ FL FR ]
# extra sink properties
}
sink.props = {
#audio.channels = 2
#midi.ports = 1
#audio.position = [ FL FR ]
# extra sink properties
}
}
flags = [ ifexists nofail ]
condition = [ { module.jackdbus-detect = !false } ]
}
]
context.objects = [
#{ factory = <factory-name>
# ( args = { <key> = <value> ... } )
# ( flags = [ ( nofail ) ] )
# ( condition = [ { <key> = <value> ... } ... ] )
#}
#
# Creates an object from a PipeWire factory with the given parameters.
# If nofail is given, errors are ignored (and no object is created).
# If condition is given, the object is created only when the context properties
# all match the match rules.
#
#{ factory = spa-node-factory args = { factory.name = videotestsrc node.name = videotestsrc node.description = videotestsrc node.param.Props = { patternType = 1 } } }
#{ factory = spa-device-factory args = { factory.name = api.jack.device foo=bar } flags = [ nofail ] }
#{ factory = spa-device-factory args = { factory.name = api.alsa.enum.udev } }
#{ factory = spa-node-factory args = { factory.name = api.alsa.seq.bridge node.name = Internal-MIDI-Bridge } }
#{ factory = adapter args = { factory.name = audiotestsrc node.name = my-test node.description = audiotestsrc node.param.Props = { live = false }} }
#{ factory = spa-node-factory args = { factory.name = api.vulkan.compute.source node.name = my-compute-source } }
# A default dummy driver. This handles nodes marked with the "node.always-process"
# property 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
node.group = pipewire.dummy
node.sync-group = sync.dummy
priority.driver = 200000
#clock.id = monotonic # realtime | tai | monotonic-raw | boottime
#clock.name = "clock.system.monotonic"
}
condition = [ { factory.dummy-driver = !false } ]
}
{ factory = spa-node-factory
args = {
factory.name = support.node.driver
node.name = Freewheel-Driver
priority.driver = 190000
node.group = pipewire.freewheel
node.sync-group = sync.dummy
node.freewheel = true
#freewheel.wait = 10
}
condition = [ { factory.freewheel-driver = !false } ]
}
# This creates a new Source node. It will have input ports
# that you can link, to provide audio for this source.
#{ factory = adapter
# args = {
# factory.name = support.null-audio-sink
# node.name = "my-mic"
# node.description = "Microphone"
# media.class = "Audio/Source/Virtual"
# audio.position = "FL,FR"
# monitor.passthrough = true
# }
#}
# This creates a single PCM source device for the given
# alsa device path hw:0. You can change source to sink
# to make a sink in the same way.
#{ factory = adapter
# args = {
# factory.name = api.alsa.pcm.source
# node.name = "alsa-source"
# node.description = "PCM Source"
# media.class = "Audio/Source"
# api.alsa.path = "hw:0"
# api.alsa.period-size = 1024
# api.alsa.headroom = 0
# api.alsa.disable-mmap = false
# api.alsa.disable-batch = false
# audio.format = "S16LE"
# audio.rate = 48000
# audio.channels = 2
# audio.position = "FL,FR"
# }
#}
# Use the metadata factory to create metadata and some default values.
#{ factory = metadata
# args = {
# metadata.name = my-metadata
# metadata.values = [
# { key = default.audio.sink value = { name = somesink } }
# { key = default.audio.source value = { name = somesource } }
# ]
# }
#}
]
context.exec = [
#{ path = <program-name>
# ( args = "<arguments>" | [ <arg1> <arg2> ... ] )
# ( condition = [ { <key> = <value> ... } ... ] )
#}
#
# Execute the given program with arguments.
# If condition is given, the program is executed only when the context
# properties all match the match rules.
#
# You can optionally start the session manager here,
# but it is better to start it as a systemd service.
# Run the session manager with -h for options.
#
#{ path = "/usr/bin/pipewire-media-session" args = ""
# condition = [ { exec.session-manager = !false } ] }
#
# You can optionally start the pulseaudio-server here as well
# but it is better to start it as a systemd service.
# It can be interesting to start another daemon here that listens
# on another address with the -a option (eg. -a tcp:4713).
#
#{ path = "/usr/bin/pipewire" args = [ "-c" "pipewire-pulse.conf" ]
# condition = [ { exec.pipewire-pulse = !false } ] }
]