/MAVSDK-JavaScript

JS wrapper for MAVSDK using grpc-web to generate a static http client, communicating through the Envoy proxy.

Primary LanguageJavaScript

MAVSDK-JavaScript

JS wrapper for mavlink/MAVSDK using grpc-web to generate a static http client, communicating through the Envoy proxy.

NOTE: this is still a proof of concept, don't try to use it in production!

Contributing

The next steps that are required are:

  1. Write a nice API for some selected features (e.g. action.arm, action.takeoff, and telemetry.position) using RxJS.
  2. (Optional) Make a small UI using those features (e.g. a "takeoff" button, and show the position values somewhere).
  3. Write templates based on 1) to auto-generate the full API from our proto definitions.
  4. Deploy the package.

Getting started

Prerequisites

This project is about providing a package to write frontend JS code, but this code needs to communicate to the drone through a backend. Two components are required:

  • Envoy proxy: it converts the websocket messages to/from the frontend into gRPC messages sent to mavsdk_server.
  • mavsdk_server: the MAVSDK gRPC server that handles the MAVLink communication with the drone.
  • (optional) Simulator (SITL): which is more convenient and safer than testing on a real drone.

To help getting started, we built those components as docker micro-services. Given that you have docker and docker-compose installed, simply run the following command to start those components:

$ cd docker
$ docker-compose up

Once the docker containers are running, you should be able to start QGroundControl, and it should connect to the simulator (headless gazebo in this case).

Install the SDK

Install the npm dependencies:

$ npm install

Generate the gRPC/protobut static files (those are the ones that will be used by the final API):

$ ./generator.sh

Finally, run the development server:

$ npm run build
$ npm start

It will say something like: Project is running at http://localhost:8080/. If docker-compose started correctly, opening this webpage should make the drone arm and takeoff. That would be visible from QGroundControl and from the docker-compose logs:

mavsdk_server_1         | [09:23:33|Debug] MAVLink: info: ARMED by Arm/Disarm component command (system_impl.cpp:306)
mavsdk_server_1         | [09:23:33|Debug] MAVLink: info: Using minimum takeoff altitude: 2.50 m (system_impl.cpp:306)
mavsdk_server_1         | [09:23:34|Debug] MAVLink: info: Takeoff detected (system_impl.cpp:306)