Firmata is a serial protocol that allows a host computer to interact with a microcontroller.
This BBC micro:bit version of Firmata supports all the core Firmata 2.6 protocol commands, allowing the host computer, or client, to perform digital and analog input and output operations on the micro:bit's pins. Firmata extension messages allow the client to manipulate the micro:bit display, receive events from its buttons and accelerometer, and read data from it's built-in sensors.
The Firmata protocol defines many optional extensions for features such as servo motors and i2c communications. Those optional Firmata features are not currently supported, but could be added later.
This project has two parts: (1) the Firmata firmware (written in C++ and based on the Lancaster micro:bit runtime and ARM mbed libraries) that gets installed in a BBC micro:bit and (2) a client class written in Javascript that runs in Node.js and communicates with the micro:bit over a USB-serial connection.
A precompiled .hex file is provided for easy firmware installation (so you don't need to compile it yourself) and a Javascript test suite is provided to test and demonstrate the system. This precompiled hex can be found as part of the latest GitHub Release.
To install the Firmata firmware, plug in your BBC micro:bit, then drag and drop the most recent .hex file from the GitHub Releases onto the micro:bit's virtual USB drive. The yellow light will flash for a few seconds as the firmware loads. When it stops, the Firmata firmware is installed.
Note: If you install another program on your micro:bit you'll need to re-install the Firmata firmware before working with Firmata again. Fortunately, that's easy and only takes a few seconds.
To run the test suite or use the Javascript client, you'll need a recent version of Node.js and npm, the Node package manager. You can get those from https://nodejs.org/en/download/
You will also need the Node "serialport" package. Get that by typing:
npm install [email protected]
Note: This library uses calls from before the breaking changes introduced in the newer versions of serialport, and still needs to be updated.
Now you can run the test suite by typing the following:
cd client
node mbTests.js
Create a new package.json if you don't have one already by running npm init
and following the prompts, then install this library
as a dependency with:
npm install --save https://github.com/microbit-foundation/microbit-firmata.git#v1.3.1
This should automatically pull any dependencies, including the serialport library.
While it is possible to not specify a tag version, we strongly recommend that you do include one to keep the library version stable in your application.
To use this in your application, simply require()
the library and create a new MBFirmata control object:
const MBFirmata = require("microbit-firmata");
const microbit = new MBFirmata();
console.log( `Microbit version: ${microbit.boardVersion()}` );
microbit.setDigitalOutput( 0, true );
You can explore the JavaScript client interactively from the Node command line.
First, start Node by typing:
node
Then paste in these two lines of code to import and instatiate the Firmata client:
var MBFirmataClient = require('./MBFirmataClient.js');
var mb = new MBFirmataClient();
Run the following line to connect the client to the board:
mb.connect();
The connect() method will scan your serial/COM ports looking for one connected to a micro:bit, so it's easy to use. However, if you need more control, the client inclides an entry point that lets you to pass in your own serial port.
To verify that the board is responding, run the following to check the firmata version:
mb.firmataVersion
If the board has replied to the initial version request, this will return a non-empty string such as "Firmata Protocol 2.6".
To scroll a string across the display:
mb.scrollString('Hello, Firmata!');
You can speed that up by specifying a delay parameter:
mb.scrollString('Hello, Firmata!', 40);
The default delay is 120, so 40 is three times faster than normal.
The client folder contains Javascript code for the Firmata client class that runs in Node.js. This folder also contains the micro:bit Firmata test suite. Besides confirming that Firmata works, the test suite is a handy source of code you can copy and modify to use in your own applications.
The firmware folder contains the C++ source code for the Firmata firmware that runs in the micro:bit. It's easier to use the precompiled .hex file than to compile from source.
Additional MarkDown files document the client API and the firmware implementation.
If you just want to use Firmata, you don't need to build it yourself. The latest compiled version is available precompiled folder or from a GitHub release. You can install it just by dragging and dropping the .hex file onto the USB drive of your BBC micro:bit.
However, if you'd like to extend or improve the firmware, then building it will be the first step.
Building the firmware is done with Yotta, and instructions for setting up your environment can be found at:
micro:bit runtime offline toolchain
Once you have verified your build toolchain works by building the microbit-samples
example,
you can build the firmware as follows:
cd firmware
yt target bbc-microbit-classic-gcc@https://github.com/lancaster-university/yotta-target-bbc-microbit-classic-gcc
yt build
The compiled firmware will be at:
./build/bbc-microbit-classic-gcc/source/mbFirmate-combined.hex
Drag this file to your micro:bit's USB drive to install it.
You can use the test suite to confirm that it works.
Building the firmware is done with the CODAL build system, and instructions for installing the pre-requisite tools can be found at:
Once you have verified your build toolchain works by building the microbit-v2-samples
example,
you can build the firmware as follows:
cd microbit-firmata
git submodule update --init
cd firmware
python buildv2.py
The compiled firmware will be at:
../microbit-v2-samples/MICROBIT.hex
Drag this file to your micro:bit's USB drive to install it.
You can use the test suite to confirm that it works.
A tool which can easily create a .hex file that will support all micro:bit variants can be found at:
micro:bit Universal Hex Creator
There is more information about the .HEX file format here:
This software is under the MIT open source license.
SPDX-License-Identifier: MIT
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