The scalable web crawling and scraping library for JavaScript
Crawlee simplifies the development of web crawlers, scrapers, data extractors and web automation jobs.
It provides tools to manage and automatically scale a pool of headless browsers,
to maintain queues of URLs to crawl, store crawling results to a local filesystem or into the cloud,
rotate proxies and much more.
The SDK is available as the crawlee NPM package.
It can be used either stand-alone in your own applications
or in actors
running on the Apify Cloud.
Would you like to work with us on Crawlee or similar projects? We are hiring!
Motivation
Thanks to tools like Playwright, Puppeteer or
Cheerio, it is easy to write Node.js code to extract data from web pages. But
eventually things will get complicated. For example, when you try to:
Perform a deep crawl of an entire website using a persistent queue of URLs.
Run your scraping code on a list of 100k URLs in a CSV file, without losing any data when your code crashes.
Rotate proxies to hide your browser origin and keep user-like sessions.
Disable browser fingerprinting protections used by websites.
Python has Scrapy for these tasks, but there was no such library for JavaScript, the language of
the web. The use of JavaScript is natural, since the same language is used to write the scripts as well as the data extraction code running in a
browser.
The goal of Crawlee is to fill this gap and provide a toolbox for generic web scraping, crawling and automation tasks in JavaScript. So don't
reinvent the wheel every time you need data from the web, and focus on writing code specific to the target website, rather than developing
commonalities.
Overview
Crawlee is available as the crawlee NPM package and is also available via @crawlee/* packages. It provides the following tools:
CheerioCrawler - Enables the parallel crawling of a large
number of web pages using the cheerio HTML parser. This is the most
efficient web crawler, but it does not work on websites that require JavaScript.
PuppeteerCrawler - Enables the parallel crawling of
a large number of web pages using the headless Chrome browser and Puppeteer.
The pool of Chrome browsers is automatically scaled up and down based on available system resources.
PlaywrightCrawler - Unlike PuppeteerCrawler
you can use Playwright to manage almost any headless browser.
It also provides a cleaner and more mature interface while keeping the ease of use and advanced features.
BasicCrawler - Provides a simple framework for the parallel
crawling of web pages whose URLs are fed either from a static list or from a dynamic queue of URLs. This class
serves as a base for the more specialized crawlers above.
RequestList - Represents a list of URLs to crawl.
The URLs can be passed in code or in a text file hosted on the web. The list persists its state so that crawling
can resume when the Node.js process restarts.
RequestQueue - Represents a queue of URLs to crawl,
which is stored either on a local filesystem or in the Apify Cloud. The queue is used
for deep crawling of websites, where you start with several URLs and then recursively follow links to other pages.
The data structure supports both breadth-first and depth-first crawling orders.
Dataset - Provides a store for structured data and enables their export
to formats like JSON, JSONL, CSV, XML, Excel or HTML. The data is stored on a local filesystem or in the Apify Cloud.
Datasets are useful for storing and sharing large tabular crawling results, such as a list of products or real estate offers.
KeyValueStore - A simple key-value store for arbitrary data
records or files, along with their MIME content type. It is ideal for saving screenshots of web pages, PDFs
or to persist the state of your crawlers. The data is stored on a local filesystem or in the Apify Cloud.
AutoscaledPool - Runs asynchronous background tasks,
while automatically adjusting the concurrency based on free system memory and CPU usage. This is useful for running
web scraping tasks at the maximum capacity of the system.
Additionally, the package provides various helper functions to simplify running your code on the Apify Cloud and thus
take advantage of its pool of proxies, job scheduler, data storage, etc.
For more information, see the Crawlee Programmer's Reference.
Quick Start
This short tutorial will set you up to start using Crawlee in a minute or two.
If you want to learn more, proceed to the Getting Started
tutorial that will take you step by step through creating your first scraper.
Local stand-alone usage
Crawlee requires Node.js 16 or later.
Add Crawlee to any Node.js project by running:
npm install @crawlee/playwright playwright
Neither playwright nor puppeteer are bundled with the SDK to reduce install size and allow greater flexibility. That's why we install it with NPM. You can choose one, both, or neither.
Run the following example to perform a recursive crawl of a website using Playwright. For more examples showcasing various features of Crawlee,
see the Examples section of the documentation.
import { PlaywrightCrawler } from'@crawlee/playwright';
const crawler = newPlaywrightCrawler({
asyncrequestHandler({ request, page, enqueueLinks }) {
// Extract HTML title of the page.const title = await page.title();
console.log(`Title of ${request.url}: ${title}`);
// Add URLs from the same subdomain.awaitenqueueLinks();
},
});
// Choose the first URL to open and run the crawler.await crawler.addRequests(['https://www.iana.org/']);
await crawler.run();
When you run the example, you should see Crawlee automating a Chrome browser.
By default, Crawlee stores data to ./crawlee_storage in the current working directory. You can override this directory via CRAWLEE_STORAGE_DIR env var. For details, see Environment variables, Request storage and Result storage.
Local usage with Apify command-line interface (CLI)
To avoid the need to set the environment variables manually, to create a boilerplate of your project, and to enable pushing and running your code on
the Apify platform, you can use the Apify command-line interface (CLI) tool.
Install the CLI by running:
npm -g install apify-cli
Now create a boilerplate of your new web crawling project by running:
apify create my-hello-world
The CLI will prompt you to select a project boilerplate template - just pick "Hello world". The tool will create a directory called my-hello-world
with a Node.js project files. You can run the project as follows:
cd my-hello-world
apify run
By default, the crawling data will be stored in a local directory at ./crawlee_storage. For example, the input JSON file for the actor is expected to
be in the default key-value store in ./crawlee_storage/key_value_stores/default/INPUT.json.
Now you can easily deploy your code to the Apify platform by running:
apify login
apify push
Your script will be uploaded to the Apify platform and built there so that it can be run. For more information, view the
Apify Actor documentation.
Usage on the Apify platform
You can also develop your web scraping project in an online code editor directly on the Apify platform.
You'll need to have an Apify Account. Go to Actors, page in the Apify Console, click Create new
and then go to the Source tab and start writing your code or paste one of the examples from the Examples section.
Your code contributions are welcome and you'll be praised to eternity!
If you have any ideas for improvements, either submit an issue or create a pull request.
For contribution guidelines and the code of conduct,
see CONTRIBUTING.md.
License
This project is licensed under the Apache License 2.0 -
see the LICENSE.md file for details.
Acknowledgments
Many thanks to Chema Balsas for giving up the apify package name
on NPM and renaming his project to jsdocify.
FAQs
Rotate multiple browsers using popular automation libraries such as Playwright or Puppeteer.
The npm package @crawlee/browser-pool receives a total of 21,231 weekly downloads. As such, @crawlee/browser-pool popularity was classified as popular.
We found that @crawlee/browser-pool demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago.It has 0 open source maintainers collaborating on the project.
Package last updated on 04 Jun 2022
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