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Basic Frontend Pluggability

Workshop at the 2024 Open edX Conference - Stellenbosch

Goals of the Workshop

  • Meet the frontend extensibility framework - FPF
  • Understand the core concepts - Slot / Plugin
  • Familiarize with the configuration
  • Connect to a development environment
  • Create a plugin for an existing slot
  • Write a footer using react to match your initiative's brand

The theory

Introduction to the frontend plugin framework

The Frontend Plugin Framework is designed to be an extension point to customize an Open edX MFE. This framework supports two types of plugins: iFrame-based and "Direct" plugins.

The primary way this is made possible is through JS-based configurations, where the changes to a plugin slot are defined.

Concepts

  • Plugin-slots or Slots: similar to hooks in the backend. The places in-code where an extension can be "hooked".
  • Plugins or Widgets: the extensions that are custom for you and your use case.
  • Direct, Iframe and Modular plugins: classification of widgets by their packaging.

Operations

  • Insert
  • Modify, wrap, hide

Widget variables

  • Default management
  • Priority
  • Plugin context

Configuration

env.config.js

const config = {
  pluginSlots: {
    a_slot_id: { /* plugin configuration */},
    footer_slot: { /* plugin configuration */},
    ...
  },
}

export default config;

plugin configuration:

...
footer_slot: {
  keepDefault: true,
  plugins: [
    {
      op: PLUGIN_OPERATIONS.Insert,
      widget: {
        id: 'custom_footer',
        type: DIRECT_PLUGIN,
        RenderWidget: MyOrgFooter,
      },
    }
  ]
}
...

Relevant links:

Development environment

For this workshop you have two options: either A) connect to a pre-built one we'll provide, or B) use your own. The first one is recommended, as launching a Tutor dev env from scratch can not only take a long time, but also run into problems which the presenters won't be able to assist with.

Option A. Connect to the pre-built development environment

Test the connection with the IP address you were provided:

ssh -o TCPKeepAlive=yes -o ServerAliveInterval=120 workshop@{IP_YOU_SELECTED}

You'll need to use SSH port forwarding before you can access the Open edX instance using your browser. Use a script to nicely forward the dev ports

ip=THE_IP_YOU_SELECTED
echo "The password is: press container sandpaper pry bird terminal"
ssh -o TCPKeepAlive=yes -o ServerAliveInterval=120 $(for i in 8000 8001 1984 1993 1994 1995 1996 1997 1999 2000 2001 2002; do echo -L $i:localhost:$i ; done) workshop@${ip};

That's it! Just make sure you don't already have a local Tutor dev running, otherwise the port forwarding won't work.

Pro Tip: You can use VSCode to edit files remotely via the Remote-SSH extension.

Option B. Launching a development environment from scratch

As an alternative to the pre-built environment, you can run the following in a machine with at least 2 CPUs and 8GB of RAM, but ideally 4 CPUs and 16GB of RAM. You'll need a recent pip and Docker, as well as a good internet connection. Note that this will take over an hour in ideal conditions (which may not be the case at the conference venue).

Installing the latest tutor 18

pip install "tutor>=18,<19"
pip install "tutor-mfe>=18,<19"

Limit the number of simultaneous Docker build processes, so that builds don't fail when rebuilding the MFE image:

cat >buildkitd.toml <<EOF
[worker.oci]
  max-parallelism = 2
EOF
docker buildx create --use --name=dualcpu --config=./buildkitd.toml

Limit Tutor resource usage for dev mode

tutor config save --set OPENEDX_CMS_UWSGI_WORKERS=1 --set OPENEDX_LMS_UWSGI_WORKERS=1 --set ELASTICSEARCH_HEAP_SIZE=100m

Cloning an MFE

git clone [email protected]:openedx/frontend-app-learner-dashboard.git
tutor mounts add frontend-app-learner-dashboard/

Creating a tutor dev environment. This command will build/rebuild all necessary images.

tutor dev launch

Stop the environment once done.

tutor dev stop

Starting the dev environment

Once connected to the pre-built environment (or after you're done building your own), start it as soon as possible with the following command, as it can take from 5 to 10 minutes for the system to settle:

tutor dev start -d

Wait for the system to settle by checking the load with:

sudo htop

At the same time, you can keep an eye on the Open edX logs with:

tutor dev logs -f

Once the system settles, import the demo course as follows.

tutor dev do importdemocourse
tutor dev run cms ./manage.py cms update_course_outline course-v1:OpenedX+DemoX+DemoCourse

Bonus: running the FPF standalone

git clone [email protected]:openedx/frontend-plugin-framework.git
make requirements
# console 1
npm run start
# console 2
npm run start:example

Plugin development

Adding a hello world <p> in an existing slot

<p style={{backgroundColor: 'lightblue'}}>openedx con 2024</p>

Adding a paragon card to the sidebar.

<div className="product-card-container d-flex">
    <Card className="mb-4" orientation="horizontal">
        <Card.ImageCap
          src="https://picsum.photos/360/200/"
          srcAlt="Card image"
          logoSrc="https://picsum.photos/150/150"
          logoAlt="Card logo"
        />
    ...

Write a brand heavy footer:

import Footer from './src/my-brand/Footer'

Next steps

You are specially invited to the Advanced Frontend Pluggability workshop in the afternoon.

Also, follow the conversation on OEP-65 and frontend composability and modularity.

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