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161 lines
7.9 KiB
Markdown
---
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title: "The Discontinuation of node-fibers"
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author: Natalie Weizenbaum
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date: 2021-3-26 15:00:00 -8
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---
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We have recently received the unfortunate but not entirely surprising news that
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[the `node-fibers` package has reached its end-of-life] and will not be updated
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for compatibility with Node 16. Dart Sass has historically allowed JavaScript
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users to pass in `node-fibers` to improve the performance of the asynchronous
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`render()` method, but going forward this will unfortunately no longer be an
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option in Node 16 and on.
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[the `node-fibers` package has reached its end-of-life]: https://github.com/laverdet/node-fibers/commit/8f2809869cc92c28c92880c4a38317ae3dbe654d
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There are a number of [alternative options] for reclaiming this lost
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performance, some of them which are available today, some which are in
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development, and some which are theoretical but could be made real with pull
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requests from users like you. Sadly, none of the options that are ready today
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are drop-in solutions with the same level of ease-of-use as `node-fibers`, so if
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that performance is crucial to you we recommend staying on Node 14 for the time
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being.
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[alternative options]: #reclaiming-performance
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## What Happened?
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In order to understand how we got here, it's important to know two pieces of
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history. First, why does Dart Sass use `node-fibers` in the first place? And
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second, why is `node-fibers` dying?
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*This section is fairly technical, so feel free to [skip ahead] if you don't care
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about the gory details.*
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[skip ahead]: #reclaiming-performance
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### Fibers in Sass
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Dart Sass inherited its [JavaScript API] from the now-deprecated [Node Sass].
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This API has two main functions for compiling Sass files: `renderSync()` which
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synchronously returned the compiled CSS, and `render()` which instead takes a
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callback to which it passes the compiled CSS asynchronously. Only `render()`
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allowed asynchronous plugins, including widely-used importers such as webpack's
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[`sass-loader`], so `render()` became very widely used in practice.
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[JavaScript API]: /documentation/js-api
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[Node Sass]: https://www.npmjs.com/package/node-sass
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[`sass-loader`]: https://www.npmjs.com/package/sass-loader
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For Node Sass, the performance difference between `render()` and `renderSync()`
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was negligible, because it was built on C++ code which had few restrictions on
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how it handled asynchrony. However, Dart Sass runs as pure JavaScript, which
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makes it subject to JavaScript's strict async rules. Asynchrony in JavaScript is
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*contagious*, which means that if any function (such as an importer plugin) is
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asynchronous, then everything that calls it must be asynchronous, and so on
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until the entire program is asynchronous.
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And asynchrony in JavaScript isn't free. Every asynchronous function call has to
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allocate callbacks, store them somewhere, and take a trip back to the event loop
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before invoking those callbacks, and that all takes time. In fact, it takes
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enough time that the asynchronous `render()` in Dart Sass tends to be 2-3x
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slower than `renderSync()`.
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Enter fibers. Fibers are a very cool concept, available in languages like Ruby
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and C++, that give the programmer more control over asynchronous functions. They
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can even allow a chunk of synchronous code (such as the Sass compiler) to call
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asynchronous callbacks (such as the webpack plugin). The `node-fibers` package
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did some arcane magick with the V8 virtual machine to implement Fibers in
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JavaScript, which allowed Dart Sass to use the fast synchronous code to
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implement the asynchronous `render()` API. And for a time, it was great.
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### The Death of Fibers
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Unfortunately, the arcane magick that `node-fibers` used involved accessing some
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parts of V8 that were not officially part of its public API. There was no
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guarantee that the interfaces they were using would stay the same from release
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to release, and indeed they tended to change fairly regularly. For a long time,
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those changes were small enough that it was possible to release a new version of
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`node-fibers` that supported them, but with Node.js 16 the luck ran out.
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The latest version of V8 involves some major overhauls to its internals. These
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will eventually allow it to implement some cool improvements, so its hard to
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begrudge, but a side effect is that the APIs `node-fibers` was using are
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completely gone without an obvious replacement. This is no one's fault: since
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those interfaces weren't part of V8's public API, they were under no obligation
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to keep them stable. Sometimes in software that's just the way things go.
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## Reclaiming Performance
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There are a few options for getting back the performance that's lost by no
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longer being able to pass `node-fibers` to `sass.render()`. In order from
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nearest to longest term:
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### Avoid Asynchronous Plugins
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This is something you can do today. If it's at all possible to make the plugins
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you pass in to Sass synchronous, you can use the `renderSync()` method which
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doesn't need fibers to go fast. This may require rewriting some existing
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plugins, but it will pay dividends immediately.
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### Embedded Dart Sass
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While it's not ready for prime-time yet, the Sass team is working on a project
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called "embedded Dart Sass". This involves running Dart Sass as a *subprocess*,
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rather than a library, and communicating with it using a special protocol. This
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provides several important improvements over the existing alternatives:
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* Unlike running `sass` from the command line, this will still work with plugins
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like the webpack importer. In fact, we plan to match the existing JavaScript
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API as closely as possible. This will probably run asynchronous plugins *even
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faster* than synchronous ones.
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* Unlike the existing JS-compiled version, this will use the Dart VM. Due to the
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more static nature of the Dart language, the Dart VM runs Sass substantially
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faster than Node.js, which will provide about a 2x speed improvement for large
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stylesheets.
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The Node.js host for Embedded Sass is still in active development, but there's
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[a beta release] available (with minimal features) if you want to kick the
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tires.
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[a beta release]: https://www.npmjs.com/package/sass-embedded
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### Worker Threads
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We've explored the possibility of running the pure-JS Dart Sass in a Node.js
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worker thread. Worker threads work a bit like fibers in that they make it
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possible for synchronous code to wait for asynchronous callbacks to run.
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Unfortunately, they're also *extremely* restrictive about what sorts of
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information can be passed across the thread boundary, which makes it much harder
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to use them to wrap a complex API like Sass's.
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At the moment, the Sass team is focused on Embedded Sass, so we don't have the
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spare bandwidth to dive into worker threads as an alternative. That said, we'd
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be happy to help a motivated user implement this. If you're interested, follow
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up on [the GitHub issue]!
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[the GitHub issue]: https://github.com/sass/dart-sass/issues/868
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### Reanimating `node-fibers`
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There's one other potential solution, although it would take true dedication to
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turn into reality. It would in principle be possible to add a new API to V8 that
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would *officially* support the hooks `node-fibers` needs to do its good work.
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This would allow the package to return gloriously to life and Sass to make
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`render()` fast on into the future.
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The Sass team has contacted both the V8 team and the owner of `node-fibers`, and
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both of them are amenable to this idea in principle. While neither one has the
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time to see it through to completion themselves, they've expressed willingness
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to help an engineer who's willing to give it a shot.
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This isn't a contribution for the faint of heart, though: it requires knowledge
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of C++, a willingness to learn at least the basics of the `node-fibers` codebase
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and V8's isolate APIs, and skills in both API design and human interaction to
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negotiate a stable API that will meet the needs of `node-fibers` *and* that the
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V8 team feels comfortable committing to maintain. But if you're interested,
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please don't hesitate to [reach out]!
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[reach out]: mailto:nweiz@google.com
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