9.2 KiB
Usage
To open the UI to modify the mappings, look into your applications menu
and search for 'Input Remapper'. You should be prompted for your sudo password
as special permissions are needed to read events from /dev/input/
files.
You can also start it via input-remapper-gtk
.
First, select your device (like your keyboard) from the large dropdown on the top. Then you can already edit your keys, as shown in the screenshots.
In the text input field, type the key to which you would like to map this key. More information about the possible mappings can be found below.
Changes are saved automatically. Afterwards press the "Apply" button.
To change the mapping, you need to use the "Stop Injection" button, so that the application can read the original keycode. It would otherwise be invisible since the daemon maps it independently of the GUI.
Troubleshooting
If stuff doesn't work, check the output of input-remapper-gtk -d
and feel free
to open up an issue here.
Make sure to not post any debug logs that were generated while you entered
private information with your device. Debug logs are quite verbose.
If input-remapper or your presets prevents your input device from working at all due to autoload, please try to unplug and plug it in twice. No injection should be running anymore.
Combinations
Change the key of your mapping (Change Key
- Button) and hold a few of your
device keys down. Releasing them will make your text cursor jump into the
mapping column to type in what you want to map it to.
Combinations involving Modifiers might not work. Configuring a combination of two keys to output a single key will require you to push down the first key, which of course ends up injecting that first key. Then the second key will trigger the mapping, because the combination is complete. This is not a bug. Otherwise every combination would have to automatically disable all keys that are involved in it.
For example a combination of LEFTSHIFT + a
for b
would write "B" instead,
because shift will be activated before you hit the "a". Therefore the
environment will see shift and a "b", which will then be capitalized.
Consider using a different key for the combination than shift. You could use
KP1 + a
and map KP1
to disable
.
The second option is to release the modifier in your combination by writing the modifier one more time. This will write lowercase "b" characters. To make this work shift has to be injected via key-mappers devices though, which just means it has to be forwarded. So the complete mapping for this would look like:
Shift L + a
->key(Shift_L).hold(b)
Shift L
->Shift_L
Writing Combinations
You can write Control_L + a
as mapping, which will inject those two
keycodes into your system on a single key press. An arbitrary number of
names can be chained using +
.
UI Shortcuts
ctrl
+del
stops the injection (only works while the gui is in focus)ctrl
+q
closes the applicationctrl
+r
refreshes the device list
Key Names
Check the autocompletion of the GUI for possible values. You can also
obtain a complete list of possiblities using input-remapper-control --symbol-names
.
Input-remapper only recognizes symbol names, but not the symbols themselfes. So for
example, input-remapper might (depending on the system layout) know what a minus
is, but
it doesn't know -
.
Key names that start with KEY_
are keyboard layout independent constants that might
not result in the expected output. For example using KEY_Y
would result in "z"
if the layout of the environment is set to german. Using y
on the other hand would
correctly result in "y" to be written.
Limitations
If your fingers can't type it on your keyboard, input-remapper can't inject it.
The available symbols depend on the environments keyboard layout, and only those that don't require a combination to be pressed can be used without workarounds (so most special characters need some extra steps to use them). Furthermore, if your configured keyboard layout doesn't support the special character at all (not even via a combination), then it also won't be possible for input-remapper to map that character at all.
For example, mapping a key to an exclamation mark is not possible if the keyboard
layout is set to german. However, it is possible to mimic the combination that would
be required to write it, by writing Shift_L + 1
into the mapping.
This is because input-remapper creates a new virtual keyboard and injects numeric keycodes, and it won't be able to inject anything a usb keyboard wouldn't been able to. This has the benefit of being compatible to all display servers, but means the environment will ultimately decide which character to write.
Advanced
Configuration Files
If you don't have a graphical user interface, you'll need to edit the configuration files.
The default configuration is stored at ~/.config/input-remapper/config.json
,
which doesn't include any mappings, but rather other parameters that
are interesting for injections. The current default configuration as of 1.2.1
looks like, with an example autoload entry:
{
"autoload": {
"Logitech USB Keyboard": "preset name"
},
"macros": {
"keystroke_sleep_ms": 10
},
"gamepad": {
"joystick": {
"non_linearity": 4,
"pointer_speed": 80,
"left_purpose": "none",
"right_purpose": "none",
"x_scroll_speed": 2,
"y_scroll_speed": 0.5
}
}
}
preset name
refers to ~/.config/input-remapper/presets/device name/preset name.json
.
The device name can be found with sudo input-remapper-control --list-devices
.
Anything that is relevant to presets can be overwritten in them as well.
Here is an example configuration for preset "a" for the "gamepad" device:
~/.config/input-remapper/presets/gamepad/a.json
{
"macros": {
"keystroke_sleep_ms": 100
},
"mapping": {
"1,315,1+1,16,-1": "1",
"1,307,1": "k(2).k(3)"
}
}
Both need to be valid json files, otherwise the parser refuses to work. This
preset maps the EV_KEY down event with code 307 to a macro and sets the time
between injected events of macros to 100 ms. Note that a complete keystroke
consists of two events: down and up. The other mapping is a key combination,
chained using +
.
Other than that, it inherits all configurations from
~/.config/input-remapper/config.json
. If config.json is missing some stuff,
it will query the hardcoded default values.
The event codes can be read using evtest
. Available names in the mapping
can be listed with input-remapper-control --symbol-names
.
CLI
input-remapper-control
--command
requires the service to be running. You can start it via
systemctl start input-remapper
or sudo input-remapper-service
if it isn't already
running (or without sudo if your user has the appropriate permissions).
Examples:
Description | Command |
---|---|
Load all configured presets for all devices | input-remapper-control --command autoload |
If you are running as root user, provide information about the whereabouts of the input-remapper config | input-remapper-control --command autoload --config-dir "~/.config/input-remapper/" |
List available device names for the --device parameter |
sudo input-remapper-control --list-devices |
Stop injecting | input-remapper-control --command stop --device "Razer Razer Naga Trinity" |
Load ~/.config/input-remapper/presets/Razer Razer Naga Trinity/a.json |
input-remapper-control --command start --device "Razer Razer Naga Trinity" --preset "a" |
Loads the configured preset for whatever device is using this /dev path | /bin/input-remapper-control --command autoload --device /dev/input/event5 |
systemctl
Stopping the service will stop all ongoing injections
sudo systemctl stop input-remapper
sudo systemctl start input-remapper
systemctl status input-remapper
Testing your Installation
The following commands can be used to make sure it works:
sudo input-remapper-service &
input-remapper-control --command hello
should print Daemon answered with "hello"
. And
sudo input-remapper-control --list-devices
should print Found "...", ...
. If anything looks wrong, feel free to create
an issue.