Amateur Radio Web Framework

Overview

A web framework for Amateur Radio applications that uses HTML, CSS and Javascript for the client front-end and Python for the back-end. The front-end is pure Javascript using no frameworks while the Python back-end uses the Tornado Python web framework library

Introduction

This project started life as webUI development for another project I am working on, HASviolet. In researching what approach I should take with front-end development for that project, I kept coming back to being directed to enlist layers of programming and frameworks I thought were unnecessary overhead for the simplistic functionality the project would need.

When I searched on what other Amateur Radio projects have done, I kept encountering projects that used the frameworks I was avoiding but probably necessary for the breadth of functionality those projrects delivered.

I figured there are other Amateurs who have the same quest in searching for something simple they could quickly understand and implement with the least number of programming skillsets required. Hence I extracted the WebUI development from HASviolet and decided to release it as its own project here.

About the Project

This project is a simple web framework with working websocket server for building your own WebUI. The project is built with HTML5, CSS, Javascript, and Python 3.X. For security it uses TLS 1.3, secure session cookies, and simple user/password auth. Besides this README and README files within each folder, all code has been heavily commmented for ease of reference of its functionality.

Getting Started

Run a Linux a machine as your server back-end and create a non-root user account for the server to run as. With Python 3 and the PIP3 Python Package installer installed, add the Tornado WebFramework Library

sudo pip3 install tornado

Next clone the repo into your user directory

pi@pi:~$ git clone https://github.com/joecupano/radiodash

Familiarize yourself with the files and sub-directories cloned. Start with the README files in each subdirectory and then the comments within the files themselves.

Functionality

After the repo has been cloned into your user directory, you will have the following files/directories installed.

        ~/radiodash

    radioDASH_INDEX.html                        Dashboard HTML Page
  radioDASH_account.py                          User Account Generator tool
radioDASH_ws-server.py                          Web Server (HTTPS and Websocket)
          radioDASH.sh                          Example shells script for run-on-startup
          radioDASH.service                     Example service file for SystemD startup
  radioDASH-example.png                         Sample screen seen in this README.md
             README.md                          What you are readin now
                cfg > radioDASH.json            Radio Config file in JSON format
                      radioDASH.crt             SSL certificate (self-signed)
                      radioDASH.key             SSL key 
                      radioDASH.pwf             User Account Password file
                css > radioDASH_INDEX.css       Dashboard CSS page
                      radioDASH_LOGIN.css       Login CSS Page
                 js > radioDASH_index.js        Client-side Javascript
               msgs > radioDASH.msgs            Output file from radio process
             static > favicon.ico               Browser Favicon
                      radioDASH_LOGIN.html      LOGIN HTML Page

Setup the Webserver to run on start-up as the non-root user you created. A shell script and service file for systemd installation are included (radioDASH.sh and radioDASH.service)

The server only supports HTTPS with TLSv1.3. An untrusted self-signed certificate and server key are provided (radioDASH.crt and radioDASH.key) but it is HIGHLY RECOMMENDED these be replaced with your own trusted credentials. Know until you have done that you will see (harmless) iostream errors from STDOUT from the websocket server.

On start-up the webserver reads the radio config file (radioDASH.json) into memory. A scheduler runs every 111ms looking at the radioDASH.msgs file to see if it has changed. If the timestamp of the file has changed (indicating the file wa supdated) the webserver will send a websocket message to any connected browsers sending the message in the file. This task is setup as a demo only of the scheduler and multiprocessing functionality for you to integrate with your own radio devices/processes.

First connection

When a browser first connects to the webserver at https://:8000 it is redirected to /login where static/radioDASH_LOGON.HTML and its associated CSS (css/radioDASH_LOGON.css) pages are loaded. The page will ask for a user and password that should already be in the cfg/radioDASH.pwf file. For testing purposes radio:radio and radiodash:radiodash are already loaded in the file. Be sure to use the user account generator tool (radioDASH_account.py) to create your own user:passwords and delete the existing ones.

Once authenticated, a (secure) session cookie is created and the browser is redirected to the dashboard (radioDASH_INDEX.html) Browsers always look for a favicon hence the inclusion of favicon.ico in the static folder so there are no unecessary errors to be distracted with.

Dashboard Layout (HTML and CSS)

The dashboard uses the CSS grid layout breaking the dashboard down visually into containers starting with grid-container. This broken down into the follwing containers:

• tuner-container
• radio-controls-container
• cmd-controls-container
• msg-controls-container
• rx-container
• tx-container

The HTML and CSS files are broken down into sections referencing the containers they serve.

Tuner-container

This is the most complex container when it comes to functionality required give it includes as tuner display window. Much of the code developed came from review of a number of calculator web apps since they had the closest functionality for screen updating.

Dashboard Functionality (JS)

The code in JS is focused on the following:

• Dashboard screen rendering
• Assigning actions for each button that translate to a websocket message
• Limited CMDline language that translates to a websocket message
• Process all incoming websocket messages

Websocket Server

radioDASH_INDEX.py (PYTHON) can be run on demand as any user. This is fine for testing but youwill want to set this up to run as daemonin production. The program uses the Tornado Web Framework to serve up the HTML, CSS, and JS files and provide a Websocket server. You will need to do some in-depth reading on Tornado in how to best integrate your program.

To demonstrate websocket functionality, this program tests cfg/radioDASH.msgs every 111ms for any change in timestamp. If detected it will send a message via websockets the content of that file to the client. The JS code running on the browser will see this and copy the message to the RX window in the browser.

Future update will include a PIPE for "radio applications" running on the machine to communicate with the Webscoket server.

More details

Within each folder are additional READMEs for further details on those files and how they interact.

License

Distributed under GPLv2 License. See LICENSE for more information.

Thank you!

I want to thank the following people for their inspiration and advice during this project.

• Steve Bossert (K2GOG) of Hudson Valley Digital Network (HVDN)
• Mike Kershaw of Kismet
• Sean Swehla (KD2HGY) of SquidWrench