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353 lines
14 KiB
353 lines
14 KiB
Running Weston
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==============
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libweston uses the concept of a *back-end* to abstract the interface to the
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underlying environment where it runs on. Ultimately, the back-end is
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responsible for handling the input and generate an output. Weston, as a
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libweston user, can be run on different back-ends, including nested, by using
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the wayland backend, but also on X11 or on a stand-alone back-end like
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DRM/KMS and now deprecated fbdev.
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In most cases, people should allow Weston to choose the backend automatically
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as it will produce the best results. That happens for instance when running
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Weston on a machine that already has another graphical environment running,
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being either another wayland compositor (e.g. Weston) or on a X11 server.
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You should only specify the backend manually if you know that what Weston picks
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is not the best, or the one you intended to use is different than the one
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loaded. In that case, the backend can be selected by using ``-B [backend.so]``
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command line option. As each back-end uses a different way to get input and
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produce output, it means that the most suitable back-end depends on the
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environment being used.
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Available back-ends:
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* **drm** -- run stand-alone on DRM/KMS and evdev (recommend)
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(`DRM kernel doc <https://www.kernel.org/doc/html/latest/gpu/index.html>`_)
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* **wayland** -- run as a Wayland application, nested in another Wayland compositor
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instance
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* **x11** -- run as a x11 application, nested in a X11 display server instance
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* **rdp** -- run as an RDP server without local input or output
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* **headless** -- run without input or output, useful for test suite
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* **fbdev** -- run stand-alone on fbdev/evdev (deprecated)
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The job of gathering all the surfaces (windows) being displayed on an output and
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stitching them together is performed by a *renderer*. By doing so, it is
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compositing all surfaces into a single image, which is being handed out to a
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back-end, and finally, displayed on the screen.
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libweston has a CPU-based type of renderer by making use of the
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`Pixman <http://www.pixman.org/>`_ library, but also one that can make
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use of the GPU to do that, which uses `OpenGL ES <https://www.khronos.org/opengles/>`_
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and it is simply called the GL-renderer.
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Most of the back-ends provide a command line option to disable the GL-renderer,
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and use the CPU for doing that. That happens by appending to the command line
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``--use-pixman`` when running Weston. One might use the CPU-based renderer
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to exclude any other potential issues with the GL-renderer.
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Additional set-up steps
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-----------------------
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Depending on your distribution some additional set-up parts might be required,
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before actually launching Weston, although any fairly modern distribution
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should have it already set-up for you. Weston creates its unix socket file (for
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example, wayland-1) in the directory specified by the required
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environment variable ``$XDG_RUNTIME_DIR``. Clients use the same variable to
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find that socket. Normally this should already be provided by systemd. If you
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are using a distribution that does not set-up ``$XDG_RUNTIME_DIR``, you
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must set it using your shell profile capability. More info about how to
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set-up that up, which depends to some extent on your shell, can be found at
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`Building/Running Weston <https://wayland.freedesktop.org/building.html>`_
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Running Weston in a graphical environment
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-----------------------------------------
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As stated previously, if you are already in a graphical environment, Weston
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would infer and attempt to load up the correct back-end. Either running
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in a Wayland compositor instance, or a X11 server, you should be able to run
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Weston from a X terminal or a Wayland one.
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Running Weston on a stand-alone back-end
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----------------------------------------
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Now that we are aware of the concept of a back-end and a renderer, it is time to
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introduce the concept of a seat, as stand-alone back-ends require one. A *seat*
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is a collection of input devices like a keyboard and a mouse, and output
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devices (monitors), forming the work or entertainment place for one person. It
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could also include sound cards or cameras. A single computer could be serving
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multiple seats.
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.. note::
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A graphics card is **required** to be a part of the seat, as among
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other things, it effectively drives the monitor.
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By default Weston will use the default seat named ``seat0``, but there's an
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option to specify which seat Weston must use by passing ``--seat`` argument.
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You can start Weston from a VT assuming that there's a seat manager supported by
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`libseat <https://sr.ht/~kennylevinsen/seatd>`_ running, such as ``seatd`` or
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`logind <https://www.freedesktop.org/wiki/Software/systemd/logind/>`_. The
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backend to be used by ``libseat`` can optionally be selected with
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``$LIBSEAT_BACKEND``. If ``libseat`` and ``seatd`` are both installed, but
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``seatd`` is not already running, it can be started with ``sudo -- seatd -g
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video``.
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Launching Weston via ssh or a serial terminal is best with the ``libseat``
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launcher and ``seatd``. Logind will refuse to give access to local seats from
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remote connections directly. The process for
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setting that up is identical to the one described above, where one just need to
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ensure that ``seatd`` is running with the appropriate arguments, after which one
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can just run ``weston``. ``seatd`` will lend out the current VT, and if you want
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to run on a different VT you need to ``chvt`` first. Make sure nothing will try
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to take over the seat or VT via logind at the same time in case logind is
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running.
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If you want to rely on logind, you can start weston as a systemd user service:
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:ref:`weston-user-service`.
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Running Weston on a different seat on a stand-alone back-end
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------------------------------------------------------------
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While Weston can be tested on top of an already running Wayland compositor or
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an X11 server, another option might be to have an unused GPU card which can
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be solely used by Weston. So, instead of having a dedicated machine to run
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Weston for trying out the DRM-backend, by just having an extra GPU, one can
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create a new seat that could access the unused GPU on the same machine (and
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potentialy other inputs) and assign it to that seat. All of the
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happening while you already have your graphical environment running.
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In order to have that set-up, the requirements/steps would be:
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* have an extra GPU card -- you could also use integrated GPUs, while your
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other GPU is in use by another graphical environment
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* create a udev file that assigns the card (and inputs) to another seat
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* start Weston on that seat
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Start by creating a udev file, under ``/etc/udev/rules.d/`` adding something
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similar to the following:
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::
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ACTION=="remove", GOTO="id_insecure_seat_end"
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SUBSYSTEM=="drm", KERNEL=="card*", KERNELS=="0000:00:02.0", ENV{ID_SEAT}="seat-insecure"
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SUBSYSTEM=="input", ATTRS{idVendor}=="222a", ATTRS{idProduct}=="004d", OWNER="your_user_id", ENV{ID_SEAT}="seat-insecure", ENV{WL_OUTPUT}="HDMI-A-1"
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SUBSYSTEM=="input", ATTRS{idVendor}=="03f0", ATTRS{idProduct}=="1198", OWNER="your_user_id", ENV{ID_SEAT}="seat-insecure"
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LABEL="id_insecure_seat_end"
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By using the above udev file, devices assigned to that particular seat
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will be skipped by your normal display environment. Follow the naming scheme
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when creating the file (``man 7 udev``). For instance you could use
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``63-insecure-seat.rules`` as a filename, but take note that other udev rules
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might also be present and could potentially affect the way in which they get
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applied. Check that no other rules might take precedence before adding
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this new one.
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.. warning::
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This seat uses on purpose the name ``seat-insecure``, to warn users
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that the input devices can be eavesdropped. Futher more, if you attempt
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doing this on a VT, without being already in a graphical environment
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(and although the udev rules do apply), there will be nothing stopping
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the events from input devices reaching the virtual terminal.
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In the example above, there are two input devices, one of which is a
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touch panel that is being assigned to a specific output (`HDMI-A-1`) and
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another input which a mouse. Notice how ``ENV{ID_SEAT}`` and
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``ENV{WL_OUTPUT}`` specify the name of the seat, respectively the input that
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should be assign to a specific output.
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Resolving or extracting the udev key/value pair names, can be easily done with
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the help of ``udevadm`` command, for instance issuing ``udevadm info -a
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/dev/dri/cardX`` would give you the entire list of key values names for that
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particular card. Archaically, one would might also use ``lsusb`` and ``lspci``
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commands to retrieve the PCI vendor and device codes associated with it.
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If there are no input devices the DRM-backend can be started by appending
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``--continue-without-input`` or by editing ``weston.ini`` and adding to the
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``core`` section ``require-input=false``.
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Then, weston can be run by selecting the DRM-backend and the seat ``seat-insecure``:
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::
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SEATD_VTBOUND=0 ./weston -Bdrm-backend.so --seat=seat-insecure
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This assumes you are using the libseat launcher of Weston with the "builtin"
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backend of libseat. Libseat automatically falls back to the builtin backend if
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``seatd`` is not running and a ``logind`` service is not running or refuses.
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You can also force it with ``LIBSEAT_BACKEND=builtin`` if needed.
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``SEATD_VTBOUND=0`` tells libseat that there is no VT associated with the
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chosen seat.
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If everything went well you should see weston be up-and-running on an output
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connected to that DRM device.
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.. _weston-user-service:
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Running weston from a systemd service
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-------------------------------------
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Weston could also be started, as a systemd user `service
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<https://www.freedesktop.org/software/systemd/man/systemd.service.html>`_,
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rather than as systemd system service, still relying on logind launcher. In
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order to do that we would need two
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`unit <https://man7.org/linux/man-pages/man5/systemd.unit.5.html>`_ files,
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a ``.service`` and a ``.socket`` one.
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On a Debian system, the systemd user units are under ``/etc/systemd/user/``
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directory.
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* ``weston.socket``
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::
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[Unit]
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Description=Weston, a Wayland compositor
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Documentation=man:weston(1) man:weston.ini(5)
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Documentation=https://wayland.freedesktop.org/
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[Socket]
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ListenStream=%t/wayland-0
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* ``weston.service``
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::
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[Unit]
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Description=Weston, a Wayland compositor, as a user service
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Documentation=man:weston(1) man:weston.ini(5)
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Documentation=https://wayland.freedesktop.org/
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# Activate using a systemd socket
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Requires=weston.socket
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After=weston.socket
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# Since we are part of the graphical session, make sure we are started before
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Before=graphical-session.target
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[Service]
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Type=notify
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TimeoutStartSec=60
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WatchdogSec=20
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# Defaults to journal
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#StandardOutput=journal
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StandardError=journal
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# add a ~/.config/weston.ini and weston will pick-it up
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ExecStart=/usr/bin/weston
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[Install]
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WantedBy=graphical-session.target
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After creating those two files, make sure systemd is aware of the changes:
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::
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systemctl --user daemon-reload
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If nothing creates a login session on the machine, one would actually need to
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log-in physically (over VT). Starting weston then would be as simple as
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doing:
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::
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systemctl --user start weston
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Alternatively to logging in over a VT, one can create an equivalent systemd
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system service. Replacing the need to log-in physically at a keyboard when one
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might not exist is a real possibility, but this approach can also work while
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being logged in over a ssh connection, and run weston as a regular user.
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In order to do that, create a systemd system service (for Debian that is under
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``/etc/systemd/system`` directory) called for instance
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``mysession.service``, and add the following:
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::
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[Unit]
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Description=My graphical session
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# Make sure we are started after logins are permitted.
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After=systemd-user-sessions.service
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# if you want you can make it part of the graphical session
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#Before=graphical.target
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# not necessary but just in case
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#ConditionPathExists=/dev/tty7
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[Service]
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Type=simple
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Environment=XDG_SESSION_TYPE=wayland
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ExecStart=/usr/bin/systemctl --wait --user start mysession.target
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# The user to run the session as. Pick one!
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User=user
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Group=user
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# Set up a full user session for the user, required by Weston.
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PAMName=login
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# A virtual terminal is needed.
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TTYPath=/dev/tty7
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TTYReset=yes
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TTYVHangup=yes
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TTYVTDisallocate=yes
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# Fail to start if not controlling the tty.
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StandardInput=tty-fail
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# Defaults to journal, in case it doesn't adjust it accordingly
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#StandardOutput=journal
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StandardError=journal
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# Log this user with utmp, letting it show up with commands 'w' and 'who'.
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UtmpIdentifier=tty7
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UtmpMode=user
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[Install]
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WantedBy=graphical.target
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Make sure that you're using a valid ``user`` for both ``User`` and ``Group``
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entries. Create also system user ``.target``, named ``mysession.target`` that
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contains:
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::
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[Unit]
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Description=My session
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BindsTo=mysession.target
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Before=mysession.target
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Perform both a system, but also a user ``daemon-reload``, to make sure all
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changes have been applied. Afterwards, start ``mysession`` and then ``weston``
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user service. Checking if that worked could be done by verifying with loginctl
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that there's an active login with the default `seat0` assigned on that
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particular tty.
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So, as a user one can do the following:
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::
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systemctl start mysession # systemd will ask for passowrd
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loginctl # verify if mysession was able to perform the session login
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systemctl --user start weston
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Finally, if one would not want to create such a systemd service, one could also
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use `systemd-run <https://www.freedesktop.org/software/systemd/man/systemd-run.html>`_
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which would allow to create a temporary service unit and ultimately achieve
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something similar to the systemd service above:
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::
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systemd-run --collect -E XDG_SESSION_TYPE=wayland --uid=1000 -p PAMName=login -p TTYPath=/dev/tty7 sleep 1d
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systemctl --user start weston
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