PipeWire uses a build tool called Meson as a basis for its build process. It's a tool with some resemblance to Autotools and CMake. Meson again generates build files for a lower level build tool called Ninja, working in about the same level of abstraction as more familiar GNU Make does.
Meson uses a user-specified build directory and all files produced by Meson
are in that build directory. This build directory will be called builddir
in this document.
Generate the build files for Ninja:
$ meson setup builddir
For distribution-specific build dependencies, please check our
CI pipeline
(search for FDO_DISTRIBUTION_PACKAGES
). Note that some dependencies are
optional and depend on options passed to meson.
Once this is done, the next step is to review the build options:
$ meson configure builddir
Define the installation prefix:
$ meson configure builddir -Dprefix=/usr # Default: /usr/local
PipeWire specific build options are listed in the "Project options"
section. They are defined in meson_options.txt
.
Finally, invoke the build:
$ meson compile -C builddir
Just to avoid any confusion: autogen.sh
is a script invoked by Jhbuild,
which orchestrates multi-component builds.
If you want to run PipeWire without installing it on your system, there is a script that you can run. This puts you in an environment in which PipeWire can be run from the build directory, and ALSA, PulseAudio and JACK applications will use the PipeWire emulation libraries automatically in this environment. You can get into this environment with:
$ ./pw-uninstalled.sh -b builddir
In most cases you would want to run the default pipewire daemon. Look below for how to make this daemon start automatically using systemd. If you want to run pipewire from the build directory, you can do this by doing:
cd builddir/
make run
This will use the default config file to configure and start the daemon.
The default config will also start pipewire-media-session
, a default
example media session and pipewire-pulse
, a PulseAudio compatible server.
You can also enable more debugging with the PIPEWIRE_DEBUG
environment
variable like so:
cd builddir/
PIPEWIRE_DEBUG="D" make run
You might have to stop the pipewire service/socket that might have been started already, with:
systemctl --user stop pipewire.service \
pipewire.socket \
pipewire-media-session.service \
pipewire-pulse.service \
pipewire-pulse.socket
PipeWire comes with quite a bit of libraries and tools, run:
meson install -C builddir
to install everything onto the system into the specified prefix.
Depending on the configured installation prefix, the above command
may need to be run with elevated privileges (e.g. with sudo
).
Some additional steps will have to be performed to integrate
with the distribution as shown below.
A correctly installed PipeWire system should have a pipewire process, a pipewire-media-session (or alternative) and an (optional) pipewire-pulse process running. PipeWire is usually started as a systemd unit using socket activation or as a service.
Configuration of the PipeWire daemon can be found in
/usr/share/pipewire/pipewire.conf
. Please refer to the comments in the
config file for more information about the configuration options.
The daemon is started with:
systemctl --user start pipewire.service pipewire.socket
If you did not start the media-session in pipewire.conf, you will also need to start it like this:
systemctl --user start pipewire-media-session.service
To make it start on system startup:
systemctl --user enable pipewire-media-session.service
you can write enable --now
to start service immediately.
The ALSA plugin is usually installed in:
On Fedora:
/usr/lib64/alsa-lib/libasound_module_pcm_pipewire.so
On Ubuntu:
/usr/lib/x86_64-linux-gnu/alsa-lib/libasound_module_pcm_pipewire.so
There is also a config file installed in:
/usr/share/alsa/alsa.conf.d/50-pipewire.conf
The plugin will be picked up by alsa when the following files
are in /etc/alsa/conf.d/
:
/etc/alsa/conf.d/50-pipewire.conf -> /usr/share/alsa/alsa.conf.d/50-pipewire.conf
/etc/alsa/conf.d/99-pipewire-default.conf
With this setup, aplay -l
should list a pipewire device that can be used as
a regular alsa device for playback and record.
PipeWire reimplements the 3 libraries that JACK applications use to make them run on top of PipeWire.
These libraries are found here:
/usr/lib64/pipewire-0.3/jack/libjacknet.so -> libjacknet.so.0
/usr/lib64/pipewire-0.3/jack/libjacknet.so.0 -> libjacknet.so.0.304.0
/usr/lib64/pipewire-0.3/jack/libjacknet.so.0.304.0
/usr/lib64/pipewire-0.3/jack/libjackserver.so -> libjackserver.so.0
/usr/lib64/pipewire-0.3/jack/libjackserver.so.0 -> libjackserver.so.0.304.0
/usr/lib64/pipewire-0.3/jack/libjackserver.so.0.304.0
/usr/lib64/pipewire-0.3/jack/libjack.so -> libjack.so.0
/usr/lib64/pipewire-0.3/jack/libjack.so.0 -> libjack.so.0.304.0
/usr/lib64/pipewire-0.3/jack/libjack.so.0.304.0
The provided pw-jack
script uses LD_LIBRARY_PATH
to set the library
search path to these replacement libraries. This allows you to run
jack apps on both the real JACK server or on PipeWire with the script.
It is also possible to completely replace the JACK libraries by adding
a file pipewire-jack-x86_64.conf
to /etc/ld.so.conf.d/
with
contents like:
/usr/lib64/pipewire-0.3/jack/
Note that when JACK is replaced by PipeWire, the SPA JACK plugin (installed
in /usr/lib64/spa-0.2/jack/libspa-jack.so
) is not useful anymore and
distributions should make them conflict.
PipeWire reimplements the PulseAudio server protocol as a small service that runs on top of PipeWire.
The binary is normally placed here:
/usr/bin/pipewire-pulse
The server can be started with provided systemd activation files or
from PipeWire itself. (See /usr/share/pipewire/pipewire.conf
)
systemctl --user start pipewire-pulse.service pipewire-pulse.socket
You can also start additional PulseAudio servers listening on other
sockets with the -a
option. See pipewire-pulse -h
for more info.
To uninstall, run:
ninja -C builddir uninstall
Depending on the configured installation prefix, the above command
may need to be run with elevated privileges (e.g. with sudo
).
Note that at the time of writing uninstallation only works with the same build directory that was used for installation. Meson stores the list of installed files in the build directory, and this list is necessary for uninstallation to work.