Request headers are key-value pairs sent by the client to the server in an HTTP request. They provide additional information about the request, such as the client’s browser type, preferred language, and other relevant data. Request headers play an important role in enabling the server to understand and process the request appropriately.
In this article, I will guide you through how Atlas, WP Engine’s headless hosting platform automates request headers to your site.
Table of Contents
Prerequisites
Before reading this article, you should have the following prerequisites checked off:
- Basic knowledge of Next.js and Faust.js.
- An Atlas account and environment set up.
- Node.js and npm are installed on your local machine.
Atlas
The all-in-one headless
platform for radically fast sites.
Request Headers in Atlas
The Atlas headless WordPress hosting platform automatically appends additional request headers to every request made to your site. These headers are designed to provide valuable geographical and temporal information about the request origin, enabling you to tailor content and functionality based on the user’s location and local time.
The headers automatically appended are:
- wpe-headless-country: The ISO alpha-2 country code of the request’s origin.
- wpe-headless-region: The region within the country from where the request is made.
- wpe-headless-timezone: The timezone of the request origin in TZ Database format.
Documentation on Atlas request headers is here.
Benefits of Geolocation Headers in Atlas
Geolocation headers offer several advantages:
- Personalization: Tailor content and experiences based on the user’s location.
- Localization: Display content in the user’s local language or relevant to their region.
- Analytics: Gather insights into where your users are coming from to better understand your audience.
- Compliance: Ensure compliance with regional regulations by adapting content accordingly.
This data has several use cases. You could display localized news and weather updates or promote things based on the user’s location. Moreover, you can make custom greetings based on the user’s local time and collect data on user distribution across regions and time zones for better insight and user experience.
Now that we understand request headers and how Atlas automates them, let’s implement an example of how to display an output of the request headers on a page.
Rendering Atlas Geolocation Headers in Next.js/Faust.js pages
For this example, we are going to use Next.js. The code and folder structure/file structure in the App Router Experimental package in Faust.js work exactly the same.
Since we are using Next 14 which defaults to React Server Components, we can fetch the request headers directly in the page component on the server side.
In the root of the App directory, create a folder called local
and within that folder, create a file called page.jsx
. The structure should be: app/local/page.jsx
. Once you have created that, copy and paste this code block into the page.jsx
file:
import { headers } from 'next/headers';
export default async function LocalPage() {
const country = headers().get('wpe-headless-country') || 'No country data';
const region = headers().get('wpe-headless-region') || 'No region data';
const timezone = headers().get('wpe-headless-timezone') || 'No timezone data';
return (
<div>
<h1>Geolocation Data</h1>
<p>Country: {country}</p>
<p>Region: {region}</p>
<p>Timezone: {timezone}</p>
</div>
);
}
Code language: JavaScript (javascript)
Let’s break down what the code is doing here. At the top of the file, we import the headers
function from the next/headers
module. This will allow us to access the request headers in this server component.
Next, we define the component, calling it LocalPage
. This is our async function that renders the page.
Following that, we retrieve the values of all the headers (country, region, timezone). If the headers are not present, the message defaults to stating that there is no data for that header.
Lastly we render the component returning the JSX. The elements on the page will show the geolocation data.
Once you have added this page file, make sure you push these changes up to your remote repository that is supported by Atlas before deployment. GitHub, Bitbucket, and GitLab are the supported repos.
Deploying to Atlas
The last step is to connect your remote repo to Atlas, git push any changes, and visit the local page route we made to see the geolocation data. If you have not connected to Atlas yet, please do so. Here are the docs for reference.
Once you are deployed and have a live URL, you should have a page called /local
that looks like this:
Conclusion
By leveraging request headers provided by WP Engine’s Atlas, you can enhance your headless WordPress applications with geolocation data, offer personalized and localized content, gather valuable analytics, and ensure compliance with regional regulations.
As always, we look forward to hearing your feedback, thoughts, and projects so hit us up in our headless Discord!