@gripeless/pico
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1.0.1 • Public • Published

📸 Pico

Take browser screenshots in Javascript

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(PNG output on the left · Original page on the right)


Development of this library is possible thanks to:

Gripeless
Gripeless is a free complaint solution for web apps
Let your users take screenshots of important issues, pipe them into your issue tracker
and let your users know when they're fixed, automatically.


https://usegripeless.com


Goal

Pico's goal is to produce high precision screenshots of any viewport entirely client side. This is different from simply capturing a webpage using Puppeteer or a similar tool in that the screenshot taking happens entirely client side.

The viewport screenshots include scrolled element scroll states, cross-origin images, input states, web fonts, canvas contents, current video frame contents, and much more information that you wouldn't be able to get using something like a headless browser.

At the time of writing there are no existing solutions that are aimed of reproducing the entire viewport accurately like Pico.

How it works

Warning: nerdy

This program renders whatever is displayed in the given Window into an image, thanks to svg's <foreignObject>.

No server side code is required to produce the screenshot.

There is no native Javascript API to take the screenshot of what the user is currently seeing on their screen (and because of security issues there probably will never be one).

Since we don't have access to the raw data that's being shown to the user we have to reconstruct it manually. This program works thanks to svg's <foreignObject> which lets you insert any valid HTML content inside, which we can then pass as a data URL into a <canvas>' drawImage and read out the raw image data with canvas.toBlob or canvas.toDataURL.

The above alone would work great in a universe where subresources didn't exist - which as you know is not our universe. SVG's inserted into <img> tags (or in our case, <canvas>') cannot display any external resources, whether it's images, fonts or stylesheets.

To work around that fact Pico does the following things:

  • Downloads and inlines contents of all <img> tags as data URL's in their src attributes
  • Downloads external stylesheets and inlines them as <style> tags
  • Checks all stylesheets for nested resources
    • Downloads and checks nested stylesheets in @import rules
    • Downloads any resources referenced by the url() function, including but not exclusive to the following properties:
      • backgrounds
      • background-images
      • src in @font-face rule
      • cursor
      • content

In addition, Pico also:

  • Copies input states (text inputs, checkboxes, textareas) into value attributes so that they can be shown in SVG
  • Emulates current scroll positions on all scrolled elements (including the root <html> element) via either transform: translate (for root node) and absolute positioning of children of scrolled nodes
  • Transforms existing <canvas> elements into <img> tags with the contents of the <canvas>' inlined as data URL's in src
  • Performs various minor fixes for rem font size, working media queries, preserving size of everything, etc.

The returned DOM is inserted into an <iframe>, serialized into XML, converted into a data URL, put into an Image, which is then rendered onto a <canvas> whose contents are read out with canvas.toBlob and finally returned to the program's caller, together with all the errors when resources failed to load.

Pico is able to safely accumulate all async resource errors thanks to Fluture, which is a really great alternative to the native Promise and forces you to write type safe errors. You can read a fantastic introductory article to it by the library's author here.

API

Pico is built using Fluture and in addition to the Promise also provides a direct API to Fluture via functions suffixed with Fluture. If you don't care about functional programming just use the non-suffixed functions to work with Promise's instead.

All functions return an "ErrorStack", which is basically just the returned value paired with any errors that happened while computing it. Most errors will be CORS or 404 related issues when loading subresources.

Types

declare type ErrorStack<T> = {
    errors: DetailedError[];
    value: T;
};
export declare type DetailedError = {
    // Human readable string of why the error happened
    reason: string;

    // Proper error object
    error: Error;
};
export declare type Options = {
    // An array of selectors to nodes that should not be included in the output.
    ignore: string[];
};

Functions

declare const objectURL: ($window: Window, partialOptions?: Partial<Options>) => Promise<ErrorStack<string>>;
declare const objectURLFluture: ($window: Window, options: Options) => Fluture<DetailedError, ErrorStack<string>>;

Render the given Window to a PNG image and return it as an object URL. This is safer to use than dataURL due to memory constraints. Remember to call URL.revokeObjectURL when you're done with the image.


declare const dataURL: ($window: Window, partialOptions?: Partial<Options>) => Promise<ErrorStack<string>>;
declare const dataURLFluture: ($window: Window, options: Options) => Fluture<DetailedError, ErrorStack<string>>;

Render the given Window to a PNG image and return it as a data url. Note that in Chrome the limit for data url's is 2MB, prefer objectURL when possible.


declare const svgObjectURL: ($window: Window, partialOptions?: Partial<Options>) => Promise<ErrorStack<string>>;
declare const svgObjectURLFluture: ($window: Window, options: Options) => Fluture<DetailedError, ErrorStack<string>>;

Render the given Window to an SVG image and return it as an object URL. This function is mainly useful for inspecting the output of Pico using devtools, for real uses prefer the other functions.

Installation

$ npm install @gripeless/pico

The module is intended to be used exclusively in the browser via a code bundler like Rollup or Webpack. There is no single file bundle build provided at this time.

Testing

There are two ways to test Pico's output, one being the provided visual testing suite and two a web extension that you can test Pico on any real world website (as long as it doesn't block eval (which is most of them so it's not much of an issue)).

Development server

To run any of the tests you need to use the development server:

$ npm run dev

Main bundle will be served at http://localhost:23231/index.js and automatically updated whether you change any of the source code.

Web extension

Run Pico on any website of your choice.

  1. Ensure that you have the development server running

  2. Open the web extension (located in web-ext/ in the root of this repository) in the browser of your choice - note that it has only been tested with Firefox, so YMMV. If you have Firefox Nightly installed, for convenience run npm run dev:ext to open the web extension in that browser - you will have the development browser separate and clean from your day to day one.

  3. With the opened browser, browse onto a website you want to test. You should see a browser action in your address bar:

    Browser action in address bar

    Click on the green puzzle icon to take a screenshot, a new tab should open with the output contents in SVG form.

Testing REPL

Separate cases to test out individual parts of the renderer.

The test suite spawns a real browser (via Playwright) and lets you compare the output screenshot from Pico to the "real" viewport.

It is designed with really quick iteration in mind and to allow you to scaffold out potential problems with the library quickly, whether it's rendering related, CORS related, or anything browser specific related.

The suite is currently only provided in an interactive form, which means that you have to use your eyes to judge whether the result is suiting or not.

Running the REPL

  1. Ensure that you have the development server running

  2. Add the following to your hosts file:

    127.0.0.1 test.localhost
    127.0.0.1 test2.localhost
    127.0.0.1 test3.localhost
    127.0.0.1 test4.localhost
    127.0.0.1 test5.localhost
    

    This lets you test cross-origin related issues without having to do any complicated local DNS setup.

  3. Start the interactive test REPL:

$ npm run test:interactive

An empty browser window should open (in the background if you're on macOS), this will show the output of any test you run through the console.

REPL Commands

open

Opens the browser output again, useful if you happened to close the original output.

run (case name)

Runs a test with the specified name.

watch (case name)

Same as run, but will update if either the source/ directory updates or the case.

Press q to exit the watcher.

all

Runs all available tests.

Adding a new test case

The easiest way to add a new case is to start with an existing one and modify it to suit your needs. For most cases you won't need any special browser flags or extra servers - I usually just copy test/cases/hello into a new directory in test/cases.

  1. Create the test's directory in test/cases. For consistency, the name of the test case should be kebab-case.

  2. Add your test to test/cases/index.ts

After that's done restart your test REPL and you'll be able to run your test case.

Caveats

Pico is being developed against recent Firefox and Blink based browsers (Chrome, Opera, Brave, Edge). It does not work on Safari or old Edge versions due to lack of proper support for <foreignObject>.

Prior art

Pico's code was inspired in many ways by the following libraries:

Pico's selling point is representing the whole viewport as accurately as possible. If you want to render a single DOM node instead, consider using one of the above libraries.

To the authors of the above code, thank you for your awesome work.

License

MIT (c) 2020 Primitive Software

https://usegripeless.com

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