Weylus turns your tablet or smart phone into a graphic tablet/touch screen for your computer!
Weylus in action with Xournal++:
- Control your mouse with your tablet
- Mirror your screen to your tablet
- Send keyboard input using physical keyboards
- Hardware accelerated video encoding
The above features are available on all Operating Systems but Weylus works best on Linux. Additional features on Linux are:
- Support for a stylus/pen (supports pressure and tilt)
- Multi-touch: Try it with software that supports multi-touch, like Krita, and see for yourself!
- Capturing specific windows and only drawing to them
- Faster screen mirroring
- Tablet as second screen
Just grab the latest release for your OS from the releases page and install it on your computer. No apps except a modern browser (Firefox 80+, iOS/iPadOS 13+) are required on your tablet. If you run Linux make sure to follow the instructions described here to enable uinput for features like pressure sensitivity and multitouch!
AUR packages for Weylus are available here:
- From source: weylus
- Prebuilt binary: weylus-bin
Start Weylus, preferably set an access code in the access code box and press the Start button. This
will start a webserver running on your computer. To control your computer with your tablet you need
to open the url http://<address of your computer>:<port set in the menu, default is 1701>
, if
possible Weylus will display to you the url you need to open and show a QR code with the encoded
address. If you have a firewall running make sure to open a TCP port for the webserver (1701 by
default) and the websocket connection (9001 by default).
On many Linux distributions this is done with ufw:
sudo ufw allow 1701/tcp
sudo ufw allow 9001/tcp
Please only run Weylus in networks you trust as there is no encryption to enable minimal latencies.
You may want to add a bookmark to your home screen on your tablet as this enables running Weylus in full screen mode (on iOS/iPadOS this needs to be done with Safari). If you are not on iOS/iPadOS there is a button to toggle full screen mode.
Weylus supports keyboard input for physical keyboards, so if you have a Bluetooth keyboard, just connect it to your tablet and start typing. Due to technical limitations onscreen keyboards are not supported.
Weylus provides some features to make automation as convenient as possible. There is a command-line
interface; --no-gui
for example starts Weylus in headless mode without a gui. For more options see
weylus --help
. If you want to run a specific script e.g., once a client connects to your computer
you can do so by parsing the log Weylus generates. You may want to enable more verbose logging by
setting the environment variable WEYLUS_LOG_LEVEL
to DEBUG
or TRACE
as well as
WEYLUS_LOG_JSON
to true
to enable easily parseable JSON logging.
Weylus uses the uinput
interface to simulate input events on Linux. To enable stylus and
multi-touch support /dev/uinput
needs to be writable by Weylus. To make /dev/uinput
permanently writable by your user, run:
sudo groupadd -r uinput
sudo usermod -aG uinput $USER
echo 'KERNEL=="uinput", MODE="0660", GROUP="uinput", OPTIONS+="static_node=uinput"' \
| sudo tee /etc/udev/rules.d/60-weylus.rules
Then, either reboot, or run
sudo udevadm control --reload
sudo udevadm trigger
then log out and log in again. To undo this, run:
sudo rm /etc/udev/rules.d/60-weylus.rules
This allows your user to synthesize input events system-wide, even when another user is logged in. Therefore, untrusted users should not be added to the uinput group.
Weylus offers experimental support for Wayland. Installing pipewire
and xdg-desktop-portal
as
well as one of:
xdg-desktop-portal-gtk
for GNOMExdg-desktop-portal-kde
for KDExdg-desktop-portal-wlr
for wlroots-based compositors like Sway is required.
There are still some things that do not work:
- input mapping for windows
- displaying proper window names
- capturing the cursor
On Linux Weylus supports hardware accelerated video encoding through the Video Acceleration API
(VAAPI) or Nvidia's NVENC. By default hardware acceleration is disabled as quality and stability of
the hardware encoded video stream varies widely among different hardware and sufficient quality can
not be guaranteed. If VAAPI is used it is possible to select a specific driver by setting the
environment variable LIBVA_DRIVER_NAME
. You can find possible values with the command
ls /usr/lib/dri/ | sed -n 's/^\(\S*\)_drv_video.so$/\1/p'
. On some distributions the drivers may
not reside in /usr/lib/dri
but for example in /usr/lib/x86_64-linux-gnu/dri
and may not be found
by Weylus. To force Weylus to search another directory for drivers, the environment variable
LIBVA_DRIVERS_PATH
can be set.
Additionally you can specify the VAAPI device to use by setting WEYLUS_VAAPI_DEVICE
; by default
devices can be found in /dev/dri
. On some systems this is not optional and this variable must be
set. If VAAPI doesn't work out of the box for you, have a look into /dev/dri
, often setting
WEYLUS_VAAPI_DEVICE=/dev/dri/renderD129
is already the solution. Note that you may need to install
the driver(s) first.
Nvidias NVENC is very fast but delivers a video stream of noticeably lower quality (at least on my GeForce GTX 1050 Mobile GPU) but more recent GPUs should provide higher quality. For this to work nvidia drivers need to be installed.
There are a few possibilities to use Weylus to turn your tablet into a second screen.
Intel's drivers support creating virtual outputs that can be configured via xrandr.
But first a word of warning: The following configuration may break starting the X server. This means you might end up without a graphical login or X may get stuck and just display a black screen. So make sure you know what you are doing or are at least able to recover from a broken X server.
You will need to install the xf86-video-intel
driver and create the file
/etc/X11/xorg.conf.d/20-intel.conf
with the following contents:
Section "Device"
Identifier "intelgpu0"
Driver "intel"
# this adds two virtual monitors / devices
Option "VirtualHeads" "2"
# if your screen is flickering one of the following options might help
# Option "TripleBuffer" "true"
# Option "TearFree" "true"
# Option "DRI" "false"
EndSection
After a reboot xrandr
will show two additional monitors VIRTUAL1
and VIRTUAL2
and can be used
to configure them. To activate VIRTUAL1
with a screen size of 1112x834 and a refresh rate of 60
fps the following commands can be used:
> # this generates all input parameters xrandr needs
> #from a given screen resolution and refresh rate
> gtf 1112 834 60
# 1112x834 @ 60.00 Hz (GTF) hsync: 51.78 kHz; pclk: 75.81 MHz
Modeline "1112x834_60.00" 75.81 1112 1168 1288 1464 834 835 838 863 -HSync +Vsync
> # setup the monitor
> xrandr --newmode "1112x834_60.00" 75.81 1112 1168 1288 1464 834 835 838 863 -HSync +Vsync
> xrandr --addmode VIRTUAL1 1112x834_60.00
> xrandr --output VIRTUAL1 --mode 1112x834_60.00
> # check if everything is in order
> xrandr
Now you should be able to configure this monitor in your system setting like a regular second monitor and for example set its position relative to your primary monitor.
After setting up the virtual monitor start Weylus and select it in the capture menu. You may want to enable displaying the cursor in this case. That is it!
Weylus detects if you use multiple monitors and you can select the one you want to mirror. So if you want to use Weylus as a second screen you could just buy another monitor. Obviously this is pointless as if you already bought that monitor, there is no need to use Weylus! This is where so called HDMI/Displayport/VGA Dummy Plugs come in handy. These are small devices that pretend to be a monitor but only cost a fraction of the price of an actual monitor.
Once you have bought one and plugged it into your computer you can configure an additional screen just like you would do with an actual one and then use Weylus to mirror this virtual screen.
The following is untested/incomplete, feel free to do more research and open a pull request to expand documentation on this!
- On Wayland with sway there is
create_output
which can be used to create headless outputs, unfortunately it is not documented how to actually do that: swaywm/sway#5553 - On Wayland with GNOME recently there has been added an option to create virtual monitors with mutter
By default Weylus comes without encryption and should only be run on networks you trust. If this is
not the case it's strongly advised to set up a TLS proxy. One option is to use
hitch, an example script that sets up encryption is located at
weylus_tls.sh
.
But any TLS proxy should work just fine.
Note that the mentioned script works by creating a self-signed certificate. This means your browser will most likely display a scary looking but completely unfounded message telling you how incredibly dangerous it is to trust the certificate you yourself just created; this can be safely ignored!
In case you are using Firefox: There is a bug that prevents users from accepting self-signed certificates for websocket connections. A workaround is to directly open the websocket connection via the URL bar and accept the certificate there. After accepting the connection will of course fail as the browser expects https and not wss as protocol.
Sadly this solution is anything but frictionless and I am unhappy with the current state of affairs. This is also another reason why encryption is not enabled by default, self-signed certificates are just too painful to handle nowadays. I'd gladly welcome any proposals to improve the situation!
Weylus needs some permissions to work properly, make sure you enable:
- Incoming connections
- Screen capturing
- Controlling your desktop
Weylus can make use of the Videotoolbox framework on macOS for hardware acceleration. In my tests the video quality has been considerably worse than that using software encoding and thus Videotoolbox is disabled by default.
Weylus can make use of Nvidias NVENC as well as Microsoft's MediaFoundation for hardware accelerated video encoding. Due to widely varying quality it is disabled by default.
To build Weylus you need to install Rust, Typescript, make, git, a C compiler, nasm and bash. cargo build
builds the project. By default Weylus is build in debug mode, if you want a release build run
cargo build --release
. On Linux some additional dependencies are required to build Weylus. On
Debian or Ubuntu they can be installed via:
apt-get install -y libx11-dev libxext-dev libxft-dev libxinerama-dev libxcursor-dev libxrender-dev \
libxfixes-dev libxtst-dev libxrandr-dev libxcomposite-dev libxi-dev libxv-dev autoconf libtool-bin \
nvidia-cuda-dev pkg-config libdrm-dev libpango1.0-dev libgstreamer1.0-dev \
libgstreamer-plugins-base1.0-dev libdbus-1-dev
Note that building for the first time may take a while as by default ffmpeg needs to be build. On Windows only msvc is supported as C compiler; it is, however, possible to cross compile on Linux for Windows using minGW.
In case you do not want to build ffmpeg and libx264 via the supplied build script you can create the
directory deps/dist
yourself and copy static ffmpeg libraries built with support for libx264 and a
static version of libx264 into deps/dist/lib
. Additional deps/dist/include
needs to be filled
with ffmpeg's include header files. For hardware acceleration to work ffmpeg needs to be built with
additional flags depending on your OS: Consult the variable FFMPEG_EXTRA_ARGS
in deps/build.sh
for details. Furthermore, for VAAPI on Linux a static version of libva is required as well.
The build script will only try to build ffmpeg if the directory deps/dist
does not exist.
Alternatively passing --features ffmpeg-system
to cargo will build Weylus using the system's
version of ffmpeg. This is disabled by default for compatibility reasons, on newer systems this
should not pose a problem and using the system libraries is advised.
It is also possible to build the Linux version inside a docker container. The Dockerfile used is located at docker/Dockerfile. This is also how the official release is built. Building works like this:
docker run -it hhmhh/weylus_build bash
root@f02164dbfa18:/# git clone https://github.com/H-M-H/Weylus
Cloning into 'Weylus'...
remote: Enumerating objects: 10, done.
remote: Counting objects: 100% (10/10), done.
remote: Compressing objects: 100% (7/7), done.
remote: Total 827 (delta 1), reused 6 (delta 0), pack-reused 817
Receiving objects: 100% (827/827), 5.38 MiB | 7.12 MiB/s, done.
Resolving deltas: 100% (431/431), done.
root@f02164dbfa18:/# cd Weylus/
root@f02164dbfa18:/Weylus# cargo deb
Compiling
...
Once the build is finished you can for example copy the binary from the container to your file system like this:
docker cp f02164dbfa18:/Weylus/target/release/weylus ~/some/path/weylus
The .deb is located at /Weylus/target/debian/
. Please note that the container ID will most likely
not be f02164dbfa18
if you run this yourself, replace it accordingly.
Modern browsers expose so called PointerEvents that can convey not only mouse but additionally stylus/pen and touch information. Weylus sets up a webserver with the corresponding javascript code to capture these events. The events are sent back to the server using websockets. Weylus then processes these events using either the generic OS independent backend, which only supports controlling the mouse or on Linux the uinput backend can be used. It makes use of the uinput Linux kernel module which supports creating a wide range of input devices including mouse, stylus and touch input devices.
Either the generic backend is used which is less efficient and only captures the whole screen or on
Linux xlib is used to connect to the X-server and do the necessary work of getting window
information and capturing the window/screen. To make things fast the "MIT-SHM - The MIT Shared
Memory Extension" is used to create shared memory images using XShmCreateImage
. If Wayland instead
of X11 is running, PipeWire and GStreamer is used to capture the screen. The images captured are
then encoded to a video stream using ffmpeg. Fragmented MP4 is used as container format to enable
browsers to play the stream via the Media Source Extensions API. The video codec used is H.264 as
this is widely supported and allows very fast encoding as opposed to formats like AV1. To minimize
dependencies ffmpeg is statically linked into Weylus.
Q: Why does the page not load on my tablet and instead I get a timeout?
A: There probably is some kind of firewall running, make sure the ports Weylus uses are opened.
Q: Why do I get the error ERROR Failed to create uinput device: CError: code...
?
A: uinput is probably misconfigured, have you made sure to follow all instructions and logged out
and in again? You may also be running a very old kernel that does not support the required features.
In that case try to upgrade your system or use a newer one.
Q: Why is the "Capture" drop down empty and the screen not mirrored?
A: It is possible that only the port for the webserver but not the websocket has been opened, check
that both ports have been opened.
Q: Why can I not select any windows in the "Capture" drop down and only see the whole screen.
A: If you are running Weylus on MacOS or Windows this feature is unfortunately not implemented. On
Linux it is possible that your window manager does not support
Extended Window Manager Hints or that you
need to activate them first, like for XMonad.
Q: Do I have to follow the instructions to setup Weylus as second screen too?
A: No, this is strictly optional.
Q: Why am I unable to connect my tablet to the URL displayed by Weylus?
A: It is possible that your computer and WiFi connected tablet are on different networks, make sure
they are on the same network.
Q: Why does this not run on Firefox for Android?
A: Actually it does, just make sure Firefox version 80+ is installed.
Q: Why does this not run under Chrome on my iPad?
A: Chrome lacks some features for video streaming on iPadOS/iOS, try Firefox or Safari.
Q: Why won't my cursor move in osu! ?
A: Try disabling raw input.
Q: Can I use Weylus even if there is no WiFi?
A: Probably yes! Most tablets permit setting up a WiFi hotspot that can be used to connect your
computer and tablet. Alternatively there is USB tethering too, which can be used to setup a peer to
peer connection between your tablet and computer over USB. Another method for Android devices is to
setup a socket connection with
adb:
adb reverse tcp:1701 tcp:1701
adb reverse tcp:9001 tcp:9001
Like that you can connect from your Android device to Weylus with the URL: http://127.0.0.1:1701
.
Weylus only requires that your devices are connected via the Internet Protocol and that doesn't necessarily imply WiFi.