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acid/firmware2/README.md
Jakub Hlusička 56f8b52cf9 Document compilation of config files for xkbcommon
2026-01-07 01:53:56 +01:00

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# ACID firmware
## Building
### Compiling libxkbcommon
This needs to be done on Linux or in WSL.
meson.build needs to be changed such that `pkgconfig.generate` is called with the `variables` field embedded directly, for some reason:
```meson
variables: [
f'xkb_root=@XKB_CONFIG_ROOT@',
f'xkb_extra_path=@XKB_CONFIG_EXTRA_PATH@',
],
```
Then, the tests, fuzzes and benches need to be commented out.
Afterwards, the following command should succeed in building the static library in debug mode:
```sh
meson setup build-debug -Denable-x11=false -Dxkb-config-root=/usr/share/X11/xkb -Dx-locale-root=/usr/share/X11/locale -Denable-wayland=false --cross-file cross-esp32s3.txt -Denable-xkbregistry=false -Denable-docs=false -Denable-tools=false --wipe --buildtype=debug
meson compile -C build-debug
```
Afterwards, a static library with redefined externally-linked symbols needs to be generated:
```
path/to/root/libxkbcommon-redefine-syms.sh build-debug/libxkbcommon{,_redefined_syms}.a
```
### Creating keymaps
To generate an English (US) keymap, the following command may be used:
`xkbcli compile-keymap --include [path-to-xkb-directory] --layout us >my_compose.txt`
Substitute `us` for any other 2-letter country code.
Where the `[path-to-xkb-directory]` is one of the following:
* the `/usr/share/X11/xkb` directory on X11-based Linux distributions;
* the [`xkeyboard-config` git repository](https://gitlab.freedesktop.org/xkeyboard-config/xkeyboard-config). There's an button to download it as a ZIP archive.
The most relevant part of the keymap is likely found in the `symbols` directory,
where variants of keymaps are defined for many languages.
### Compiling Compose files
Use libxkbcommon's `xkbcli` to compile a standalone compose file:
`xkbcli compile-compose [path-to-Compose-file] >my_compose.txt`
Compose files to replace `[path-to-Compose-file]` with may be found in:
* the `/usr/share/X11/locale` directory on X11-based Linux distributions;
* the [`libx11` git repository](https://gitlab.freedesktop.org/xorg/lib/libx11/-/tree/master). There's an button to download it as a ZIP archive.
# esp32s3 BLE example
To run this example, you should have latest Rust in **esp** channel installed. The full instruction of installing esp Rust toolchain can be found [here](https://docs.esp-rs.org/book/installation/index.html).
[`espflash`](https://github.com/esp-rs/espflash) should also be installed:
```
cargo install cargo-espflash espflash
```
After having everything installed, use the following command to run the example:
```
cd examples/use_rust/esp32s3_ble
cargo +esp run --release
```
If everything is good, you'll see the log as the following:
```shell
cargo run --release
Compiling ...
...
...
Finished `release` profile [optimized + debuginfo] target(s) in 11.70s
Running `espflash flash --monitor --port /dev/cu.usbmodem211401 target/xtensa-esp32s3-none-elf/release/rmk-esp32s3`
[2025-04-10T10:01:23Z INFO ] Serial port: '/dev/cu.usbmodem211401'
[2025-04-10T10:01:23Z INFO ] Connecting...
[2025-04-10T10:01:23Z INFO ] Using flash stub
Chip type: esp32s3 (revision v0.1)
Crystal frequency: 40 MHz
Flash size: 4MB
Features: WiFi 6, BT 5
MAC address: 40:4c:ca:5b:c7:dc
App/part. size: 768,944/4,128,768 bytes, 18.62%
[2025-04-10T10:01:23Z INFO ] Segment at address '0x0' has not changed, skipping write
[2025-04-10T10:01:23Z INFO ] Segment at address '0x8000' has not changed, skipping write
[00:00:06] [========================================] 411/411 0x10000 [2025-04-10T10:01:31Z INFO ] Flashing has completed!
```
If espflash reports the following error:
```
Error: espflash::connection_failed
× Error while connecting to device
╰─▶ Serial port not found
```
You should to identify which serial port are connected to your esp board, and use `--port` to specify the used serial port:
```
# Suppose that the esp board are connected to /dev/cu.usbmodem211401
cargo run --release -- --port /dev/cu.usbmodem211401
```
If you want to get some insight of segments of your binary, [`espsegs`](https://github.com/bjoernQ/espsegs) would help:
```
# Install it first
cargo install --git https://github.com/bjoernQ/espsegs
# Check all segments
espsegs target/xtensa-esp32s3-none-elf/release/rmk-esp32s3 --chip esp32s3
```
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