Polyfill as needed with polyfill-service

Photo by Susan Yin on Unsplash

How to maximize the performance of loading polyfills for your application users.

In last week's newsletter "What is a polyfill", I talked about a situation I came across with a white screen on IE10 (the app crashed because we were missing polyfills). I explained a bit of the difference between a polyfill and a code transform. I explained a few options you have at your disposal to use new JavaScript features and still support older browsers. In the conclusion I said this:

So what did I do to fix my IE10 bug? Well, one thing that really bugs me is that I have to ship all this code for polyfills to all browsers even if they do support these features. But a few years ago I heard of > a service that was able to ship polyfills that are relevant only to the browser requesting them. I created my own endpoint that uses the module > that powers that service and I'll write about that next week!

That's today's newsletter! I'll explain how I created a polyfill.js endpoint that gives back a very aggressively cached JavaScript file with the polyfills that users need and no more.

Why polyfill-service?

With the way I have my usage of polyfill-service configured today, if I make a request for polyfill.js using Internet Explorer 10 (the lowest version of IE that we support), the response is 60.2kb! If you're unfamiliar with the impact this can make, I suggest you read The Cost Of JavaScript by Addy Osmani (or watch a talk version here). To put this in terms you may appreciate, this will take users in emerging markets about a full second just to download, then you have to take the content they've downloaded and parse/compile/run it which can take even longer especially for individuals using lower-end phones.

The state of the art with polyfills is to include those polyfills in your bundle.js file (in fact, lots of apps are just using all of core-js which is 84.2 kb of minified JS). This means that every browser will need to download, parse, and run that JavaScript regardless of what browser they're using. But let's take a look at browser usage statistics. Your stats may vary depending on your users, but if your app is typical of the global averages, then you have maybe 5% of your users who need more than a handful of kbs worth of polyfills. Most of your users will be using modern, evergreen browsers that support most of the features you're using. So you're making users who are running modern browsers pay a "tax" for your site supporting those 5% of users who wont/can't upgrade.

If I run Chrome 67 on my polyfill.js file, it comes back basically empty. By using polyfill-service, only the browsers which need the polyfills receive them. This means that they can use my app quicker and I'm not taking up some of your bandwidth to download stuff you don't need (which actually means saving people actual dollars if they don't have unlimited data).

Another aspect of using something like polyfill-service is because my polyfills live in a completely different file from my bundle.js , I can have it cached forever, so users only need to download it once and never need to download it again. So even for users on bad networks, they'll benefit from not having to expend resources re-downloading a file that will never change.

Using polyfill-service

The polyfill.io service from Financial Times is awesome, but with no SLA (service level agreement), many companies can't rely on it for mission-critical applications. Luckily, the module that powers it is completely open source so you can set up your own service in-house in a pretty straightforward way and that's exactly what I did.

With the app I'm working on right now (paypal.me), we have a server that's responsible for some light server-rendering for SEO purposes. Basically, our server is a NodeJS server using KrakenJS (a wrapper on top of express), so I added a get handler to the express app:

1 app . get ( '/polyfill.js' , getBrowserPolyfill )

And with the getBrowserPolyfill is a typical express route handler:

1 import polyfill from 'polyfill-service' 2 3 async function getBrowserPolyfill ( req , res ) { 4 const script = await polyfill . getPolyfillString ( { 5 6 } ) 7 res . set ( { 8 'Content-Type' : 'application/javascript;charset=utf-8' , 9 'Content-Length' : script . length , 10 } ) 11 if ( shouldCacheAggressively ) { 12 res . setHeader ( 'Cache-Control' , 'immutable' ) 13 } 14 res . write ( script ) 15 res . end ( ) 16 }

There's a little bit more to it, but this is the basic idea. So let's talk about a few aspects of this solution.

User Agent

So the polyfill-service module needs to know what the user agent string is to determine what the script string should be (which JavaScript polyfills to include). So I pass req.headers['user-agent'] as that value, though I allow the ua query string to override this and I have a fallback to IE 9 just in case. And in the case that polyfill-service encounters a user agent it doesn't recognize, I have it configured to just treat it as if it needs all the polyfills (via the unknown: 'polyfill' option).

Features

There are a LOT of features that polyfill-service supports out of the box. It defaults to the most useful ones, but it's a good idea to configure it. At first I thought: "Hey, let's just have it support everything." But then I found out that if you asked it to polyfill everything it could, it'll get HUGE (mostly because it actually supports Intl with every language pack which is kinda reeeally big). So I ended up with specifying es2015 , es2016 , es2017 , es2018 , and default-3.6 as the features config. That's working great and supports everything that I care to support.

Caching

This one's a bit interesting. So that shouldCacheAggressively is a bit dangerous, so here's what I do... Because we're server-rendering the page, I can actually generate the URL for the polyfill. It ends up looking like this (for IE 11):

1 polyfill.js?v=2&ua=Mozilla%2F5.0%20(Windows%20NT%2011.0%3B%20WOW64%3B%20Trident%2F7.0%3B%20rv%3A11.0)%20like%20Gecko

There are two query strings on there: v which is associated to a version that I have hard-coded. This allows me to break the cache in the event of an emergency if we need to change the config or something.

I also generate it with the ua which is the user agent as part of the query string for the polyfill.js file. Remember how I mentioned earlier that I allow the uq query string to override req.headers['user-agent'] ? So that's what this is doing. The reason I do this is for caching. With such a specific URL, I can safely cache this forever. If the user upgrades (or downgrades!?) their browser, but the cache isn't deleted, then this URL is changed and the old cached version isn't used.

Extras

One "fun" experience I had while building this involved polyfill-service not playing nice with the way that babel compiles classes. Follow that twitter thread and github issues linked for a "fun" time of your own... 😅

Conclusion

I'm excited about this and I'm hoping to build a more official polyfill service for more of PayPal applications to use it so folks can build applications with the latest JavaScript features without worrying about whether older browsers natively support what they're writing and without making users of modern browsers pay a "tax" for users of older browsers.

Best of luck to you!

P.S. Inspired by this blog post, Kevin Deisz made an open source AWS Lambda service. Pretty cool!