This keyboard configuration utility is for programming small keyboards, such as the one shown below:
Such macro keyboards are popular on AliExpress, and sellers often include software for programming, but:
- It requires Windows
- It is very ugly and inconvenient
- It can only program one key at a time
- It does not expose all keyboard features
There are several modifications of such keyboards with different numbers of buttons and knobs (see the photos of supported keyboards) and with/without Bluetooth.
Both wired and wireless keyboards are supported.
This utility has been reported to work with:
- 3×4 with 2 knobs (Bluetooth version)
- 3×3 with 2 knobs
- 3x2 with 1 knob
- 3x1 with 1 knob with limitations
Keyboard with following vendor/product IDs are supported: 1189:8890
, 1189:8840
, 1189:8842
(hexadecimal).
For more details, refer to the Supported Macro Keyboards section.
There are two ways to download the keyboard utility: getting a prebuilt release or building it yourself.
Simply download the latest release from GitHub.
- Install the cargo utility using rustup:
- Brew:
brew install rustup-init && rustup-init
- Linux:
curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh
- Windows: Download and run rustup-init.exe
- Brew:
- Execute
cargo install ch57x-keyboard-tool
.
Install USBDK.
- Connect the keyboard to the computer with a USB cable.
- Create a configuration file based on the provided example-mapping.yaml.
- Validate the configuration file.
- Upload the configuration to the keyboard.
- Done! 🎉
Edit existing example-mapping.yaml
or (better) save modified copy under different name.
Example config file has extensive documentation inside.
You may also get list of supported key names using:
./ch57x-keyboard-tool show-keys
./ch57x-keyboard-tool validate your-config.yaml
./ch57x-keyboard-tool upload your-config.yaml
Use 'sudo' if you get 'Access denied (insufficient permissions)':
sudo ./ch57x-keyboard-tool upload your-config.yaml
If your keyboard supports it, you can change the LED configuration:
# Turn off the LED
./ch57x-keyboard-tool led 0
# Set the LED to the first mode (likely "Steady on")
./ch57x-keyboard-tool led 1
Use Get-Content
for input redirection:
Get-Content your-config.yaml | ./ch57x-keyboard-tool validate
A common question/request is about automation, such as "How to run a script?", "emulate several keys", or "how to trigger an action with a key press?"
This tool does just one job: writes your key bindings into the keyboard and then exits.
It does not listen for key presses.
Automation based on key presses is not within the scope of this utility tool.
If you seek any automation, use third-party automation tools like BetterTouchTool.
- Choose a chord you do not usually use (like
alt-ctrl-shift-1
). - Assign the chord to a key.
- Use a third-party automation tool to listen for this chord and have it perform the desired action.
- Done! 🎉
I don't have detailed datasheet for these keyboards. So I can say whether something can implemented until you show me any software that can do it. Then it is teoretically possible to replicate behavior.
However, doing it requires either exact keyboard model in my hands or you to performa reverse engeneering.
All keyboards I have seen have three layers (three key configurations which may be switched). However, if your keyboard does not support layer switching, just keep a single layer in the configuration file.
Note that you specify key to emulate press for, not character which is produced by pressing it. So if you use a custom keyboard layout, like Dvorak, you have to see how required key is labelled in QWERTY layout.
This modification does support key modifiers (like ctrl-
, alt-
, and cmd-
) for the first key in sequence only.
So, you can use: ctrl-alt-del,1,2
, but not ctrl-alt-del,alt-1,2
.
A friendly reminder that some keys have different names on macOS and Windows.
These keys have aliases for both platforms, you may use them interchangeably.
Key Name | macOS Key | Windows Key |
---|---|---|
Command / Windows | cmd |
win |
Option / Alt | opt |
alt |
ch57x-keyboard-tool [OPTIONS] <COMMAND>
Commands and their descriptions:
Command | Description |
---|---|
show-keys |
Display a list of all supported keys and modifiers |
validate |
Validate key mappings config from stdin |
upload |
Upload key mappings from stdin to the device |
led |
Select LED backlight mode |
help , -h , --help |
Print this message or the help of the given subcommand(s) |
Advanced options, you don't have to use this normally:
Option | Description | Notes |
---|---|---|
--vendor-id <VENDOR_ID> |
Vendor ID of the keyboard | Default: 4489 |
--product-id <PRODUCT_ID> |
Product ID of the keyboard | Default: 34960 |
--address <ADDRESS> |
Address of the keyboard |
When reporting an issue, please include diagnostics such as the list of attached USB devices and the output of the keyboard
and mouse
monitoring tools.
system_profiler SPUSBDataType
or
ioreg -w0 -l -p IOUSB
lsusb -v
Get-PnpDevice | Where-Object { $_.Class -eq 'USB' } | Format-Table Name, DeviceID, Manufacturer, Status, Description -AutoSize
The simplest and cross-platform way to monitor keyboard and mouse events is using the keyboard
and mouse
Python modules.
Monitoring keyboard:
pip3 install keyboard
sudo python3 -m keyboard
Monitoring mouse:
- The latest published 'mouse' module doesn't support macOS, so use the latest version from GitHub
git clone https://github.com/boppreh/mouse
cd mouse
python3 -m mouse
- Product ID: 0x8890, 0x8840
- Vendor ID: 0x1189 (Trisat Industrial Co., Ltd.)
- amazon.co.jp/dp/B0CF5L8HP3
3x2 with 1 knob | 3x2 with 1 knob | 3x1 with 1 knob | 3×3 with 2 knobs |
---|---|---|---|
4x3 with 3 knobs | |||