Kotlin, my favourite programming language, has seen a fast adoption on platforms like Android or Server where the code is compiled to Java bytecode. However, as Kotlin also supports compilation to Javascript, the language is starting to receive attention in the Web ecosystem as well.

While some content on writing web applications in Kotlin has been published, the niche of writing browser extensions has seemed to be ignored until now. That’s why in this post we are going explore the process of writing a simple extension for Firefox using Kotlin JS.

The extension is based on Your first extension by Mozilla and will simply add a red border to the kotlinlang.org website.

Requirements

For testing our Firefox extension, we will use the web-ext tool from Mozilla. To obtain it you need to install node.js and then run the following command in a terminal:

npm install --global web-ext

Apart from that, we will be using IntelliJ IDEA 2017.2.6 with the Kotlin plugin version 1.1.60 to develop the extension.

Setting up the project

In Intelli IDEA, we create a new Gradle based project and check the Kotlin (JavaScript) option.

Creating a new project using the Kotlin (JavaScript) variant

We proceed through the wizard until the empty project is created and opened.

As the next step, we will enable the Dead Code Elimination plugin for Kotlin JS. This is necessary because a Kotlin JS program needs to bundle the Kotlin stdlib which is over a megabyte in size. However, we can reduce the size of our compiled code drastically by removing code that’s never getting called.

To enable the plugin, simply add the following line to the build.gradle file.

apply plugin: 'kotlin-dce-js'

Creating the extension manifest

In the next step, we add the manifest file which is required for a Firefox extension. This file is called manifest.json and resided in the root directory of our project. The file should have the following content.

{

"manifest_version": 2,

"name": "Kotlin Borderify",

"version": "1.0",

"description": "Adds a red border to kotlinlang.org",

"content_scripts": [

{

"matches": [

"*://kotlinlang.org/*"

],

"js": [

"build/classes/kotlin/main/min/kotlin.js",

"build/classes/kotlin/main/min/kt-borderify.js"

]

}

]

}

In this file we declare that our extension will inject a content script in any website matching the pattern *://kotlinlang.org/* . The necessary script files are are the Kotlin stdlib kotlin.js as well as our code in the kt-borderify.js file.

The code

Next, we create a file main.kt in the src/main/kotlin directory. This code will be run, whenever a matching site will be loaded. The entry point for our code is a standard main function. Inside it, we access the body of the document and apply a border style.

import kotlin.browser.document



fun main(args: Array<String>) {

document.body?.style?.border = "5px solid red"

}

The code inside the main function is similar to the corresponding Javascript code. However, we see that because the body of a document can be absent, the type system is forcing us to use the safe-call operator ?. to prevent an exception. This is a glimpse of the language features that Kotlin provides to make developing in it eaiser and the resulting code safer.

Testing the extension

Now it’s time to test our extension. First, we need to compile our code and shrink it by eliminating dead code. This is done by running the Gradle task runDceKotlinJs . We run the task in continous mode so that when we make addtional changes to the code, it gets recompiled immediately.

You can run the Gradle task from IntelliJ IDEA by creating a run configuration like so

Intellij IDEA run configuration for continuously compiling the Kotlin JS code

or from the command line by running

./gradlew runDceKotlinJs --continuous

Next, we use the web-ext tool start a new Firefox instance with our extension installed by running

web-ext run

from a terminal. Hint: IntelliJ IDEA has a built-in terminal.

In the just launched browser, we navigate to kotlinlang.org. We are greeted with a beautiful red border to demonstrate that the extension is working.

Our first Kotlin Firefox extension in effect

Now, let’s change the color of the border from red to green. To do so, we modify our code to

document.body?.style?.border = "5px solid green"

When we switch back to Firefox, we see (after a short delay) that our changes are automatically applied without us having to run any commands.

Conclusion

In this post we saw how to write a simple Firefox extension in Kotlin JS that injects a content script. The setup was fairly easy and we didn’t hit any major roadblocks. Additionally, the workflow including continuous building and live reloading the extension turned out to be pretty comfortable.

In the follow-up post Your second Firefox extension in Kotlin I’m diving deeper in the extension development process and show how to call Browser APIs.