webxdc-dev

webxdc-dev is a development server for webxdc apps. Easily test your app's behavior as if it was shared in a real chat with multiple people.

In contrast to hello, each "user"'s app instance gets its own isolated state (e.g. localStorage), since each is served from a separate port (therefore a separate origin).

Installation

You can install the tool globally. This works with any webxdc project:

npm install -g webxdc-dev

This makes webxdc-dev available on your command line. Alternatively you can also install webxdc-dev in just your development project as a package.json script; see below for more information.

Usage

Starting

Running a directory

In case you don't use bundling tooling and have a simple webxdc project where you have a directory that is zipped directly into a .xdc file, you can run it directly:

webxdc-dev run /path/to/webxdc/project

This may not be convenient or may not even work if you use tools like vite or webpack-dev-server though. For that, see below.

Running an .xdc file

You can run an .xdc file with the following command:

webxdc-dev run /path/to/my.xdc

With vite, webpack-dev-server, etc

It can be very useful to use a dev server that supports bundling and hot reloading, like vite or webpack-dev-server. In this case your project has a package.json.

You can run webxdc-dev against such a dev server directly. For instance if you have your project under development running on http://localhost:3000, this is how you can run it:

webxdc-dev run http://localhost:3000

After starting

When you start webxdc-dev, it opens a browser window with the webxdc-dev UI. Two webxdc application instances are already running. You can start the instance in the embedded UI with the start button in each instance header. You can reload any instance with the reload button.

You can add new instances by pressing the "Add instance" button. You can reset all instance state and messages by pressing the "Reset" button.

The sidebar to the right lets you see all updates sent and received from the dev server. Hover over the fields to see the complete text. Click on a message to see full information. You can also filter messages. There is also a "chat" tab which you can use to see info contained in updates as well as any summary text contained in an update.

The sidebar can be closed with Close Messages button within the sidebar and expanded by clicking on Open Messages within the devices tab. The sidebars width can also be adjusted by moving the separating line between devices and sidebar.

Each instance header also contains additional information: the port number on which the instance was opened, the amount of updates this instance sent and received since last reset. You can click on this information to control the filters in the messages sidebar.

The "info" tab lets you see basic information about the webxdc application you are running.

The dev tool console shows messages with the same color prefix as the instance UIs.

Clean state

Instances start with a clean slate: empty localStorage and sessionStorage. This means an instance may flash briefly with old state when it is opened for the first time after startup.

The UI also lets you clear the state with the reset button - this refreshes both server and client state, and is as if you restarted webxdc-dev.

Command-line options

Controlling the port number with -p

By default the dev tool is opened on port 7000 and following. You can change the base port number using --port, so for instance:

webxdc-dev run --port 4000 /path/to/webxdc/project

Verbose

By default the dev tool does not log messages. You can change this by using -v which logs messages to the console.

webxdc as a package.json script

If your project has a package.json, you can also install webxdc-dev locally as a dev dependency:

npm install -D webxdc-dev

During development

If your project already has a dev or start script that starts a local development server on port 3000, you can integrate webxdc-dev with that as follows in the scripts section of your package.json:

{
  "scripts": {
    "webxdc-dev": "concurrently \"npm run dev\" \"webxdc-dev run http://localhost:3000\""
  }
}

To run this you need the concurrently dev dependency:

npm install -D concurrently

You can now run the script like this:

npm run webxdc-dev

Testing the .xdc build

If your build script produces an .xdc file you can test this:

{
  "scripts": {
    "webxdc-dev-xdc": "npm run build && webxdc-dev run dist/app.xdc"
  }
}

This is assuming your build command produces a dist/app.xdc.

You can run it like this:

npm run webxdc-dev-xdc

Testing a build directory

If you have a dist directory that contains the complete contents of what will be zipped up into an .xdc file you can also run against it directly:

{
  "scripts": {
    "webxdc-dev-dist": "npm run build && webxdc-dev run dist"
  }
}

You can run the script like this:

npm run webxdc-dev-dist

Development

webxdc-dev is developed using npm, so run:

npm install

in the webxdc-dev project directory to install dependencies.

You can run webxdc-dev in development mode so that both frontend and backend are automatically recompiled when you change code. For frontend and simulator changes you need to reload your browser windows to see the effect. When you make a backend change, the entire server is restarted and a new browser window is opened.

npm run dev -- run /path/to/xdc

Production and development mode have differences: in production mode no recompilation takes place. Before release, you should test the command-line script in production mode. You can do this as follows:

npm run build

Then use:

npm run cli -- run /path/to/xdc

Making a release

You can create a new npm release automatically by doing the following on the main branch:

npm version patch  # or minor, major, etc
git push --follow-tags

npm version updates the version number automatically and also puts the latest date in CHANGELOG.md. You then need to push using --follow-tags (NOT --tags).

The release process is done through a github action defined in .workflows/publish.yml which publishes to the npm registry automatically.

Architecture

This codebase consists of three pieces:

• backend: a NodeJS Express application that serves webxdc applications in the browser and distributes updates using websockets.

• simulator: a version of webxdc.js that uses a websocket to the backend to send and receive updates. This is injected into webxdc applications.

• frontend: a SolidJS application that presents the webxdc-dev UI.

The backend is compiled with TypeScript directly. The simulator and frontend are bundled using webpack using the babel loader (with the typescript preset).