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frontend-tutorial-framework

This is the Angular frontend of TFW.

The main exposed features are our pre-implemented components based on the src/app/services/websocket.service.ts service. This service provides an RxJS based communication API to the framework backend (TFW server and event handlers).

Another useful features are a bunch of pre-designed layouts and dynamic switching between them.

To learn more about the framework, see the baseimage-tutorial-framework repo. For more on creating, building and running TFW-based tutorials (not just the frontend) consult test-tutorial-framework.

Components

In this section we are going to explore the various pre-made components this project offers.

Generally these components connect to a TFW event handler running on the backend. Communication is handled via simpe APIs exposed by these event handlers over TFW messages.

These APIs are documented in the baseimage-tutorial-framework repository README and as docstrings in the lib/tfw/components directory (this is where the implementations of our pre-written event handlers live).

Frontend components expose APIs as well (e.g. changing layouts). These are documented in the API section of this README.

Configuration

Generally it is unadvised to directly modify the source code of our pre-written components (this is hard for us to support and is prone to break).

For this reason most components are extensively configurable through the src/app/config.ts file. These configurations range from the enabling of different layouts to how frequently should our IDE save automatically.

Should you encounter any missing features, feel free to contact team TFW and we'll consider implementing them as configuration options (a common example would be making a configuration option dynamic).

Terminal (webshell)

This is a full-fledged xterm terminal emulator which runs right in your browser and is based on xterm.js. The emulator is connected to a TerminalEventHandler instance on the backend over websockets.

This event handler spawns a bash session and a pty (pseudoterminal). It connects the master end of the pty to the emulator running in your browser and the slave end to bash.

This essentially provides a fully functional terminal session for your users in the browser (a convenient alternative for an SSH session).

This terminal is fully under your control: You can write to it (and thus execute commands) and read what commands were executed by the user using the API exposed by the TerminalEventHandler.

This enables you to pre-type or execute commands for the user and figure out what they are doing in the terminal.

Console

Not unlike how a desktop IDE displays the output of your application, TFW provides a similar component as well.

The console can appear in place of the terminal and allows you to display the output of a supervisor process in real time.

This means that if you type print('cats like cheese') in your application code and run it, you will see cats like cheese appear on the console! Pretty neat, right?

You can control the displaying of process logs to the console using the console.rewriteContentWithProcessLogsOnDeploy key in config.ts. The value of stdout or stderr will cause the console to display the respective stream, while an empty string will disable any automatic output to the console altogether.

We recommend redirecting stdout and stderr to the same file and displaying the together.

The console.showLiveLogs key enables real time output from the standard stream you've selected.

IDE (webIde)

This component is a simple text editor based on ACE. It always shows all files in a given folder and allows you to switch between them using the tabs on top. The IDE automatically saves any changes made to the files (the interval is configurable).

It connects to an IdeEventHandler instance on the backend which handles the reading/writing of files and the selection of directories as well.

It is also capable of dynamically displaying any changes made to these files from the terminal or from another process (this means that you always see a live view of the files).

This component provides an optional 'Deploy' button, which can be configured to restart a process in supervisord. You can enable this button by editig the ide.showDeployButton key of config.ts. To configure which process the button should restart edit ide.deployProcessName.

Messages

This is a simple chat-like component you can use to instruct, help and guide your users. It displays messages sent to the frontend with the key message.

This component can be used as a simple chatbot as well.

You can provide a list of messages to queue and they will be automatically displayed one after the other. There is a wait time between each message so that the user can properly read them. This wait time is calculated from the length of the last message, and can be configured using the messages.messageQueueWPM key in config.ts.

You can use the MessageSender class to send messages from the TFW server or event handlers written in Python.

Web customisable component

In some of our layouts there is space allocated for a custom webservice or Angular component. This allows you to embed your own website in the TFW frontend.

There are two ways to do this:

Should you prefer to avoid Angular you can run your own webserver on the backend and use our dashboard's iframeing capabilities to include it. To enable this feature you have to edit src/app/config.ts and to set config.dashboard.iframeUrl to the route your server is listening on.

Note that setting up a custom server is documented in the test-tutorial-framework repo.

Alternatively you can create your own Angular component(s) in src/app/web. Just rewrite WebComponent as you please or even nest more components into it if needed. Note that you must set config.dashboard.iframeUrl to an empty string('') to enable the displaying of WebComponent (this also disables iframeing).

Dashboard

The dashboard is the component that composes all others and organises them into layouts.

Edit src/app/config.ts to change the layout settings.

Set config.dashboard.currentLayout to the layout you want to be displayed by default.

You can specify the layouts you allow in config.dashboard.enabledLayouts (the user can switch between them using a sidebar). This list must include the value of currentLayout.

Available layouts with self explaining names:

  • terminal-ide-web
  • terminal-ide-vertical
  • terminal-ide-horizontal
  • terminal-only
  • terminal-web
  • ide-web-vertical
  • ide-only
  • web-only

API

Supported frontend APIs are documented here.

Dynamic configuration

Many configuration options are changeable dynamically, like so (these are stuff from config.ts):

{ 
    "key": ...component name...,
    "data":
    {
        "command": ...configuration key...,
        "value": ...
    }
}

Messages

To send a messages message you can use the following message:

{ 
    "key": "message",
    "data":
    {
        "originator": ...string...,
        "message": ...string...
    }
}

You can queue a list of messages like so:

{
    "key": "queueMessages",
    "data":
    {
        "messages":
        [
            {
                "originator": ...string...,
                "message": ...string...
            },
            {
                "originator": ...string...,
                "message": ...string...
            },
            ...
        ]
    }
}

Dashboard

Changing layouts is possible using the following message (note that the layout you switch to must be enabled):

{ 
    "key": "dashboard",
    "data":
    {
        "command": "layout",
        "value": ...string...
    }
}

You can hide and show the messages component with the following message:

{ 
    "key": "dashboard",
    "data":
    {
        "command": "hideMessages",
        "value": ...boolean...
    }
}

To switch between the terminal and console use this message (where value is terminal or console:

{ 
    "key": "dashboard",
    "data":
    {
        "command": "terminalMenuItem",
        "value": ...string...
    }
}

Console

You can write to the console like so (this is only practical when rewriteContentWithProcessLogsOnDeploy equals an empty string):

{ 
    "key": "console",
    "data":
    {
        "command": "write",
        "content": ...string...
    }
}

Reading the contents is also possible:

{ 
    "key": "console",
    "data":
    {
        "command": "read"
    }
}