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esphome
esphome
 
 
keymaps/default
keymaps/default
 
 
config.h
config.h
 
 
hakase.c
hakase.c
 
 
hakase.h
hakase.h
 
 
hakase_poc.png
hakase_poc.png
 
 
info.json
info.json
 
 
readme.md
readme.md
 
 
rules.mk
rules.mk
 
 

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Hakase

⚠️ WORK IN PROGRESS ⚠️

IoT macro pad. Thought that internet-connected lightbulbs were a bad idea? Well I internet-connected a keyboard.
Basically a normal macro pad that can interface with your smart home.

Current status

Done

  • Base keyboard layer
  • Layer with serial output
  • ESPhome (ESP8266)
  • Home Assistant blueprint

To Do

  • Display
  • Encoder
  • Get the hardware out of prototype stage and make a PCB

Serial output

The baud rate can be configured in config.h, the default is #define SERIAL_BAUD 9600.
As an example, the format of the data for a single tap of the first key is:

Byte 1st 2nd 3rd 4th
Output 0 0 T \n

The serial layer outputs (with the default 8-key UART layer) 4 bytes when the key is tapped, held, double-tapped, or held after a tap, and after their release. It handles invalid tap dances (triple tap, triple hold, etc) with an invalid code, and in that case it doesn't output a release code.
The first 2 bytes are the number of the key (by default, 00 to 07). The fourth is always a newline. The third byte contains the type of press:

Code Description
T Tap
H Hold
D Double-tap
B Both (double tap ending with a hold)
R Release
X Invalid

Hakase's entity on Home Assistant

ESPhome exposes a text sensor/action entity to Home Assistant with the key code. The included blueprint parses the code and runs the action picked by the user.
Due to limitations of Home Assistant, I can't add accordions or anything like that to make the blueprint easier to look at.

Adding more serial output keys

  1. Add new codes in uart_tap_dance.h inside the dance_kcodes enum.
  2. In uart_tap_dance.c add elements in the tap_dance_actions array, one for each of the new codes. They contain the ACTION_TAP_DANCE_FN_ADVANCED macro that accepts three functions as parameters (first tap of the key, end of tap dance, and release).
    • Those functions can't have parameters: basically, it means you'll have to repeat a lot of code with differently named functions. Solving this would require changes to the QMK code, so this is out of my and your control (unless you feel like making a pull request to QMK). With that said, since the use case allowed it, I tried to minimize the issue, check the functions I wrote.
  3. Add the keys to the keymap using TD(keycode).
  4. Add input boxes, code variables, and triggers to hakase_blueprint.yaml.

Adding more press types

  1. Add new codes in uart_tap_dance.h inside the td_state_t enum.
  2. In uart_tap_dance.c adjust the switch-cases in both the curr_dance(), dance_reg_switching(), and uart_data_code() functions.
  3. Add input boxes, code variables, and triggers to hakase_blueprint.yaml.

About

4x2 IoT mechanical macro pad

Topics

esp32 qmk home-assistant mechanical-keyboard macro-pad esphome

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