How to Eliminate Render-Blocking Resources: a Deep Dive

Is Lighthouse telling you to eliminate render-blocking resources? Learn what this means, why it's important, and how to fix it in your HTML, CSS, and JavaScript.

Large buffalo blocking the roadway
Don't let render-blocking resources block you on the road to good performance. Photo by Tim Wilson on Unsplash

You might be here because Lighthouse told you to "eliminate render-blocking resources". Render-blocking resources are a common hurdle to rendering your page faster. They impact your Web Vitals which now impact your SEO. Slow render times also frustrate your users and can cause them to abandon your page.

I worked with one client to reduce their render-blocking resources and improved their site loading speed. We went from 13% to 80% of page visits experiencing First Contentful Paint (FCP) in less than 1.8 seconds. And we're not done yet!

Understanding render-blocking resources will enable you to fix this common web performance issue. In this post, you will learn:

Before we continue, we need to take a step back and understand what the critical rendering path is.

What is the critical rendering path? #

We write HTML, CSS, and JavaScript in files and then deliver those files to the browser. The browser converts those files into the page you see through the critical rendering path. The steps are:

  1. Download the HTML
  2. Read the HTML, and concurrently:
    • Construct the Document Object Model (DOM)
    • Notice a <link> tag for a stylesheet and download the CSS
  3. Read the CSS and construct the CSS Object Model (CSSOM)
  4. Combine the DOM and the CSSOM into a render tree
  5. Using the render tree, compute the layout (size and position of each element)
  6. Paint, or render, the pixels on the page
Steps of the critical render path visualized in a diagram
The critical render path (link)

We want this process to go as fast as possible. Can you guess what makes it go slower?

What are render-blocking resources? #

Render-blocking resources are files that "press pause" on the critical rendering path. They interrupt one or more of the steps.

HTML is technically render blocking because you need it to create the DOM. Without the HTML we would not even have a page to render.

However, HTML is not usually the cause of our problems...

CSS is render blocking. The browser needs it before it can create the CSSOM, which blocks all later steps. As soon as the browser encounters a stylesheet <link> or <style> tag, it must download and parse the contents. Then it must create the CSSOM before the rest of the render can continue. You can see this represented at the triangle point in the diagram. The render tree cannot continue until both the CSSOM and DOM are created.

JavaScript CAN be render blocking. When the browser encounters a script meant to run synchronously, it will stop DOM creation until the script is finished running:

HTML encounters a synchronous script in the head which stops the parser
Synchronous JavaScript (no async or defer) will block the HTML parser during both download and execution of the JavaScript (link)

Additionally, if CSS appears before a script, the script will not be executed until the CSSOM is created. This is because JavaScript can also interact with the CSSOM, and we would not want a race condition between them.

HTML encounters CSS first, then a synchronous script in the head which stops the parser
JavaScript execution is blocked until the CSSOM is created (link)

CSS blocks script execution, and JavaScript blocks construction of the DOM! Sounds like a giant mess, right? Stay tuned to learn how we can clean it up!

Why is it so important to eliminate render-blocking resources? #

Render-blocking resources can trigger a cascade of failures for web performance. First paint gets slowed down which causes Largest Contentful Paint (LCP) to be slower. LCP is one of the Core Web Vitals which are now used to calculate your search engine rankings.

SEO is important for discovery of your website. Performance is critical for keeping a visitor on your page. Page abandonment increases significantly if the page doesn't load within 3 seconds. Many companies have seen significant increases in conversions after improving performance.

Vodafone improved their LCP by 31%, resulting in an 8% increase in sales, a 15% increase in their lead to visit rate, and an 11% increase in their cart to visit rate.

β€”WPO stats

WPO stats lists many cases where improving performance resulted in real business impacts.

How do I test my website for render-blocking resources? #

If you failed this metric in Lighthouse, then you've already discovered one way to test for this. If you're new to Lighthouse, then check out the official Lighthouse page to get started.

We all have render-blocking resources on our sites (all the CSS!). The problem comes in when it significantly impacts our performance. When this occurs, Lighthouse flags it, and we should do something about it.

Lighthouse candidates for render-blocking resources include both scripts and styles:

  • <script> tags in the <head> which do not have at least one of the following attributes: async, defer, module
  • Stylesheet <link> tags in the <head> without a disabled attribute or a media query which does not match (e.g., print)

If you fail this metric, your Lighthouse results will look something like this:

Eliminate render-blocking resources: Resources are blocking the first paint of your page. Consider delivering critical JS/CSS inline and deferring all non-critical JS/styles. The table shows these two resources listed: /css?family=…( and /scripts/jquery-3.4.1.js(
Once you expand the metric name, you will see a list of resources that blocked render

Lighthouse lists the Google Fonts stylesheet followed by a JQuery script. Let's dig in some more. Let's inspect the <head> on that sample failure site. It shows us 3 stylesheets followed by 3 scripts, then 2 more stylesheets:

<title>Lighthouse performance audit failures</title>
<meta charset="utf-8">
<meta http-equiv="X-UA-Compatible" content="IE=edge">
<meta name="viewport" content="width=device-width, initial-scale=1">

<link rel="stylesheet" href="styles/bootstrap-grid.css">
<link rel="stylesheet" href="styles/bootstrap-reboot.css">
<link href=",100i,300,300i,400,400i,500,500i,700,700i,900,900i" rel="stylesheet">

<script src="scripts/jquery-3.4.1.js"></script>
<script src="scripts/bootstrap.js"></script>
<script src="scripts/bootstrap.bundle.js"></script>

<link href="styles/main.css" type="text/css" rel="stylesheet" media="screen,print">
<link href="styles/bootstrap.css" type="text/css" rel="stylesheet" media="screen,print">

Lighthouse could have flagged any one of those 3 initial stylesheets. The root cause of this failure is:

  • The first 3 stylesheets block the 3 synchronous scripts from running. The browser must first download the stylesheet and create the CSSOM.
  • The browser cannot construct the rest of the DOM until it downloads, parses, and executes the 3 scripts.

We're digging a deep hole here.

Another way to test for render-blocking resources is to use WebPageTest. WebPageTest is the next step up in performance profiling. If you enter a URL, it will run a performance test on a real mobile device. Once the test finishes, click on the waterfall for the median run. Every render-blocking resource will have an orange circle with a white X next to its row:

WebPageTest waterfall with every render-blocking request row circled in red
The WebPageTest waterfall will highligh render-blocking requests with an orange icon

Check out the official WebPageTest docs for more detailed information to get started.

How do I remove render-blocking resources? #

It's time to fill in that hole and fix our website. Let's dive deep into both CSS and JavaScript. Our goal is not to eliminate all render-blocking resources but to lower their impact on performance. The Lighthouse metric is good for determining when you reach that point.

Deep-dive: optimizing CSS for the critical rendering path #

For our CSS, we want to

  1. Minimize the size of our styles
  2. Deliver them to the client quickly and effectively

That sample failure site is great. I need to buy whoever built it a beer. It's so juicy with performance problems. Let's take a step back and observe all the stylesheet tags. We can see that this website is using Bootstrap and a lot of Bootstrap dependencies as well as 12 Google fonts. It also has screen and print styles combined into single CSS files.

The first question I would ask is:

Do I need all those dependencies?

Don't skip that first question. The easiest way to minimize total size for any asset is to annihilate it. Raze it to the ground. For example, 12 Google fonts seems excessive. I try to keep my web fonts down to 3-4 style sets max.

The next easiest way to minimize total CSS is to, well, minimize it. Minification is the process by which a build tool removes unused white space. Fewer characters = smaller size = faster download. If you're using a CSS package, make sure you use the minified version of it. The next step up is to use a build tool to automatically minimize all your CSS. Example tools include Gulp, Grunt, webpack, and Parcel. Snowpack and Vite are interesting newer tools.

Next, I would try to break up my CSS into smaller chunks. Ideally, we only want to deliver the CSS that we will actually use. You can see how much of your CSS (and JavaScript) is actually used with the Coverage drawer in Chrome Dev Tools.

  1. Open Dev Tools
  2. Press Cmd + Shift + P to open the quick menu
  3. Type "Coverage" and then select "Show Coverage"

The drawer will open up for you, and you can click the reload button to start a new coverage analysis. Here is an example from the New York Times website:

Chrome Dev Tools Coverage tab showing table of URLs, total bytes, and unused bytes with a bar chart representing used/unused bytes
The Coverage tool gives us data for used versus unused bytes

If your total CSS bytes are small, then the unused percentage becomes less important. For example, my home page is around 57% unused. Because my total CSS is small, my Lighthouse scores are still around 97-100.

Note that it's only accurate for the styles (or scripts) used thus far. As you interact or resize the page, those numbers will go up.

Your goal is not necessarily 0% unused. However, if you see big red bars and high unused bytes, it's time to reduce the CSS needed for initial render. Remove dependencies, use code splitting, or inline critical CSS and defer the rest. For those last two options, you definitely want to use a build tool. Check out Extract critical CSS for more details including popular tools.

If you have a lot of non-screen styles, consider extracting them to their own stylesheet. Then use a media query on the <link> tag. For example:

  <link href="styles/main.css" type="text/css" rel="stylesheet" media="screen">
<!-- Only downloaded for print: -->
<link href="styles/main_print.css" type="text/css" rel="stylesheet" media="print">

Finally, do not use @import in your stylesheets to load more stylesheets. The browser won't discover it until later. It's best to load them with <link> tags in your HTML.

Deep-dive: optimizing JavaScript for the critical rendering path #

As I mentioned earlier, JavaScript is parser-blocking. This means that it blocks DOM construction until it is finished executing. Like CSS, we want to:

  1. Minimize the size of our scripts
  2. Deliver them to the client quickly and effectively

The Coverage drawer also analyzes your scripts. You can filter the results between CSS and JavaScript. Again, the first question to ask yourself is:

Do I need all those dependencies?

JavaScript is our most expensive asset and prone to bloat. Trim out unused dependencies. Additionally, use code-splitting, tree-shaking, and/or lazy loading features as needed. Your build tool is your friend for all these strategies.

Let's talk about delivering our JavaScript effectively. The best diagram I've seen for understanding async vs defer vs module is from the HTML spec:

<script>Scripting:HTML Parser:<script defer>Scripting:HTML Parser:<script async>Scripting:HTML Parser:<script type="module">Scripting:HTML Parser:<script type="module" async>Scripting:HTML Parser:parserfetchexecutionruntime β†’

  • no attributes: The HTML parser is blocked during script download and execution.
  • defer: The HTML parser is not blocked. The browser downloads scripts as it identifies them. It only executes the scripts once it finishes creating the DOM.
  • async: The HTML parser is blocked during script execution. The browser downloads scripts as it identifies them. After download, the scripts block the HTML parser until execution finishes.
  • module: Behaves like defer but can manage ES6 module imports.

Choose wisely. In most cases you will want either defer or async to optimize the critical rendering path. If you have an inline script which must run synchronously, test moving it above your styles in your HTML.

Conclusion #

Render-blocking resources can kick off a cascade of performance issues. Those performance issues result in unhappy users who abandon your page faster.

Lighthouse and the Coverage tool can help you identify this issue and evaluate what your best options are. We learned to:

  • reduce our CSS and JavaScript bytes,
  • lazy-load non-critical CSS and JavaScript, and
  • use the defer, async, or module attribute on our scripts.

I'd love to hear what worked for you! Tweet at me with your replies.

Fixing web performance issues can be overwhelming. If you need more help, I'm available for performance consulting projects. Contact me today!

Special thanks to Barry Pollard and Anthony Ricaud for their help with proofreading and editing!

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❀️ 100 πŸ” 26 πŸ’¬ 10
rhymes w/ lasagna πŸ… rhymes w/ lasagna πŸ…

Thank you for this. But for many of us Wordpress and it’s plug-ins are the impossible-to-fix problem #wordpress source

Sia Karamalegos Sia Karamalegos

There are some existing posts that cover this topic specifically for wordpress - maybe try them out? I do know that a lot of the plugins have a lot of bloat. Profile your site and then try to replace the worst offenders with more performant ones. source

Tristan Gibbs Tristan Gibbs

Good article. I really like the diagrams. source

Sia Karamalegos Sia Karamalegos

Thanks so much! source

Nader Dabit | naderdabit.eth Nader Dabit | naderdabit.eth

SO GOOD! source

Sia Karamalegos Sia Karamalegos

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Justin Borge πŸ³οΈβ€πŸŒˆβœŠπŸΏβœŠπŸ»βœŠ Justin Borge πŸ³οΈβ€πŸŒˆβœŠπŸΏβœŠπŸ»βœŠ

Amazing job, @TheGreenGreek ! source

Sia Karamalegos Sia Karamalegos

Thanks! source

Sia Karamalegos Sia Karamalegos

Aww thanks! source

Sia Karamalegos Sia Karamalegos

Also mine are probably my eleventy data and webmentions ones plus the render blocking resources one wherever I need to explain it to someone else… source

These are webmentions via the IndieWeb and Mention this post from your site:

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