Linux lacks a good key remapping solution. In order to achieve satisfactory results a medley of tools need to be employed (e.g xcape, xmodmap) with the end result often being tethered to a specified environment (X11). keyd attempts to solve this problem by providing a flexible system wide daemon which remaps keys using kernel level input primitives (evdev, uinput).
The config format has undergone several iterations since the first release. For those migrating their configs from v1 it is best to reread the man page.
See also: changelog.
- Speed (a hand tuned input loop written in C that takes <<1ms)
- Simplicity (a config format that is intuitive)
- Consistency (modifiers that play nicely with layers by default)
- Modularity (a UNIXy core extensible through the use of an IPC mechanism)
keyd has several unique features many of which are traditionally only found in custom keyboard firmware like QMK as well as some which are unique to keyd.
Some of the more interesting ones include:
- Layers (with support for hybrid modifiers).
- Key overloading (different behaviour on tap/hold).
- Keyboard specific configuration.
- Instantaneous remapping (no more flashing :)).
- A client-server model that facilitates scripting and display server agnostic application remapping. (Currently ships with support for X, sway, and gnome).
- System wide config (works in a VT).
- First class support for modifier overloading.
- Unicode support.
- Would like to experiment with custom layers (i.e custom shift keys) and oneshot modifiers.
- Want to have multiple keyboards with different layouts on the same machine.
- Want to be able to remap
C-1
without breaking modifier semantics. - Want a keyboard config format which is easy to grok.
- Like tiny daemons that adhere to the Unix philosophy.
- Want to put the control and escape keys where God intended.
- Wish to be able to switch to a VT to debug something without breaking their keymap.
- A tool for programming individual key up/down events.
- Your favourite C compiler
- Linux kernel headers (already present on most systems)
- python (for application specific remapping)
- python-xlib (only for X support)
Note: master serves as the development branch, things may occasionally break between releases. Releases are tagged, and should be considered stable.
git clone https://github.com/rvaiya/keyd
cd keyd
make && sudo make install
sudo systemctl enable keyd && sudo systemctl start keyd
-
Install and start keyd (e.g
sudo systemctl enable keyd
) -
Put the following in
/etc/keyd/default.conf
:
[ids]
*
[main]
# Maps capslock to escape when pressed and control when held.
capslock = overload(control, esc)
# Remaps the escape key to capslock
esc = capslock
Key names can be obtained by using the keyd monitor
command. Note that while keyd is running, the output of this
command will correspond to keyd's output. The original input events can be seen by first stopping keyd and then
running the command. See the man page for more details.
-
Run
sudo keyd reload
to reload the config set. -
See the man page (
man keyd
) for a more comprehensive description.
Config errors will appear in the log output and can be accessed in the usual
way using your system's service manager (e.g sudo journalctl -eu keyd
).
Note: It is possible to render your machine unusable with a bad config file.
Should you find yourself in this position, the special key sequence
backspace+escape+enter
should cause keyd to terminate.
Some mice (e.g the Logitech MX Master) are capable of emitting keys and are consequently matched by the wildcard id. It may be necessary to explicitly blacklist these.
-
Add yourself to the keyd group:
usermod -aG keyd <user>
-
Populate
~/.config/keyd/app.conf
:
E.G
[alacritty]
alt.] = macro(C-g n)
alt.[ = macro(C-g p)
[chromium]
alt.[ = C-S-tab
alt.] = macro(C-tab)
-
Run:
keyd-application-mapper
You will probably want to put keyd-application-mapper -d
somewhere in your
display server initialization logic (e.g ~/.xinitrc) unless you are running Gnome.
See the man page for more details.
Experimental support for single board computers (SBCs) via usb-gadget has been added courtesy of Giorgi Chavchanidze.
See usb-gadget.md for details.
Third party packages for the some distributions also exist. If you wish to add yours to the list please file a PR. These are kindly maintained by community members, no personal responsibility is taken for them.
keyd package maintained by @jirutka.
AUR package maintained by eNV25.
COPR package maintained by @alternateved.
opensuse package maintained by @bubbleguuum.
Easy install with sudo zypper in keyd
.
[ids]
*
[main]
leftshift = oneshot(shift)
capslock = overload(symbols, esc)
[symbols]
d = ~
f = /
...
Many users will probably not be interested in taking full advantage of keyd. For those who seek simple quality of life improvements I can recommend the following config:
[ids]
*
[main]
shift = oneshot(shift)
meta = oneshot(meta)
control = oneshot(control)
leftalt = oneshot(alt)
rightalt = oneshot(altgr)
capslock = overload(control, esc)
insert = S-insert
This overloads the capslock key to function as both escape (when tapped) and control (when held) and remaps all modifiers to 'oneshot' keys. Thus to produce the letter A you can now simply tap shift and then a instead of having to hold it. Finally it remaps insert to S-insert (paste on X11).
xmodmap and friends are display server level tools with limited functionality. keyd is a system level solution which implements advanced features like layering and oneshot modifiers. While some X tools offer similar functionality I am not aware of anything that is as flexible as keyd.
What about kmonad?
keyd was written several years ago to allow me to easily experiment with different layouts on my growing keyboard collection. At the time kmonad did not exist and custom keyboard firmware like QMK (which inspired keyd) was the only way to get comparable features. I became aware of kmonad after having published keyd. While kmonad is a fine project with similar goals, it takes a different approach and has a different design philosophy.
Notably keyd was written entirely in C with performance and simplicitly in mind and will likely never be as configurable as kmonad (which is extensible in Haskell). Having said that, it supplies (in the author's opinion) the most valuable features in less than 2000 lines of C while providing a simple language agnostic config format.
If you feel something is missing or find a bug you are welcome to file an issue on github. keyd has a minimalist (but sane) design philosophy which intentionally omits certain features (e.g execing arbitrary executables as root). Things which already exist in custom keyboard firmware like QMK are good candidates for inclusion.
See CONTRIBUTING. IRC Channel: #keyd on oftc