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Version: 3.6

Cheerio on AWS Lambda

Locally, we can conveniently create a Crawlee project with npx crawlee create. In order to run this project on AWS Lambda, however, we need to do a few tweaks.

Updating the code

Whenever we instantiate a new crawler, we have to pass a unique Configuration instance to it. By default, all the Crawlee crawler instances share the same storage - this can be convenient, but would also cause “statefulness” of our Lambda, which would lead to hard-to-debug problems.

Also, when creating this Configuration instance, make sure to pass the persistStorage: false option. This tells Crawlee to use in-memory storage, as the Lambda filesystem is read-only.

src/main.js
// For more information, see https://crawlee.dev/
import { CheerioCrawler, Configuration, ProxyConfiguration } from 'crawlee';
import { router } from './routes.js';

const startUrls = ['https://crawlee.dev'];

const crawler = new CheerioCrawler({
requestHandler: router,
}, new Configuration({
persistStorage: false,
}));

await crawler.run(startUrls);

Now, we wrap all the logic in a handler function. This is the actual “Lambda” that AWS will be executing later on.

src/main.js
// For more information, see https://crawlee.dev/
import { CheerioCrawler, Configuration } from 'crawlee';
import { router } from './routes.js';

const startUrls = ['https://crawlee.dev'];

export const handler = async (event, context) => {
const crawler = new CheerioCrawler({
requestHandler: router,
}, new Configuration({
persistStorage: false,
}));

await crawler.run(startUrls);
};
Important

Make sure to always instantiate a new crawler instance for every Lambda. AWS always keeps the environment running for some time after the first Lambda execution (in order to reduce cold-start times) - so any subsequent Lambda calls will access the already-used crawler instance.

TLDR: Keep your Lambda stateless.

Last things last, we also want to return the scraped data from the Lambda when the crawler run ends.

In the end, your main.js script should look something like this:

src/main.js
// For more information, see https://crawlee.dev/
import { CheerioCrawler, Configuration } from 'crawlee';
import { router } from './routes.js';

const startUrls = ['https://crawlee.dev'];

export const handler = async (event, context) => {
const crawler = new CheerioCrawler({
requestHandler: router,
}, new Configuration({
persistStorage: false,
}));

await crawler.run(startUrls);

return {
statusCode: 200,
body: await crawler.getData(),
}
};

Deploying the project

Now it’s time to deploy our script on AWS!

Let’s create a zip archive from our project (including the node_modules folder) by running zip -r package.zip . in the project folder.

Large node_modules folder?

AWS has a limit of 50MB for direct file upload. Usually, our Crawlee projects won’t be anywhere near this limit, but we can easily exceed this with large dependency trees.

A better way to install your project dependencies is by using Lambda Layers. With Layers, we can also share files between multiple Lambdas - and keep the actual “code” part of the Lambdas as slim as possible.

To create a Lambda Layer, we need to:

  • Pack the node_modules folder into a separate zip file (the archive should contain one folder named node_modules).
  • Create a new Lambda layer from this archive. We’ll probably need to upload this file to AWS S3 storage and create the Lambda Layer like this.
  • After creating it, we simply tell our new Lambda function to use this layer.

To deploy our actual code, we upload the package.zip archive as our code source.

In Lambda Runtime Settings, we point the handler to the main function that runs the crawler. You can use slashes to describe directory structure and . to denote a named export. Our handler function is called handler and is exported from the src/main.js file, so we’ll use src/main.handler as the handler name.

Now we’re all set! By clicking the Test button, we can send an example testing event to our new Lambda. The actual contents of the event don’t really matter for now - if you want, further parameterize your crawler run by analyzing the event object AWS passes as the first argument to the handler.

tip

In the Configuration tab in the AWS Lambda dashboard, you can configure the amount of memory the Lambda is running with or the size of the ephemeral storage.

The memory size can greatly affect the execution speed of your Lambda.

See the official documentation to see how the performance and cost scale with more memory.