Don't block the event loop! Don't poll in a busy loop! Increase throughput! Use async I/O! Concurrency is not parallelism!

You've most likely heard and read claims like these many times before, and maybe, at some point you've thought you understood everything only to find yourself confused a moment later. Especially when you want to understand how it works on a fundamental level.

Me too.

So I spent a couple of hundred hours trying to fix that for myself. I wrote this book as a result of that research, and now I invite you to join me as we try to unveil the secrets of async programming.

This book aims to take a look at the why and how of concurrent programming. First we build a good foundation of basic knowledge, before we use that knowledge to investigate how Node.js works by building a Node-inspired runtime.

This book is developed in the open and has its repository here. The book and the accompanying code is MIT licensed so feel free to clone away and play with it.

I warn you though, we need to venture from philosophical heights where we try to formally define a "task" all the way down to the deep waters where firmware and other strange creatures rule (I believe some of the more wicked creatures there are tasked with naming low level OS syscalls and structures on Windows. However, I have yet to confirm this).

Everything in this book will cover the topics for the three major Operating Systems Linux, macOS and Windows. We'll also only cover the details on how this works on 64 bit systems.

I originally started out wanting to explore the fundamentals and inner workings of Rust's Futures. Reading through RFCs, motivations and discussions I realized that to really understand the why and how of Rust's Futures, I needed a very good understanding of how async code works in general, and the different strategies to handle it.

This book might be interesting if you:

Want to take a deep dive into what concurrency is and strategies on how to deal with it

Are curious on how to make syscalls on three different platforms, and do it on three different abstraction levels.

Want to know more about how the OS, CPU and hardware handles concurrency.

Want to learn the basics of Epoll, Kqueue and IOCP.

Think using our research to write a toy node.js runtime is pretty cool.

Want to know more about what the Node eventloop really is, and why most diagrams of it on the web are pretty misleading.

Already know some Rust but want to learn more.

So, what do you think? Is the answer yes to some of these questions? Well, then join me on this venture as we try to get a better understanding of all these subjects.

We'll only use Rust's standard library. The reason for this is that we really want to know how things work, and Rust's standard library strikes the perfect balance for this task providing abstractions but they're thin enough to let us easily peek under the covers and see what really happens.

Even though I use mdbook , which has the nice benefit of being able to run the code we write directly in the book, we're working with I/O and cross platform syscalls in this book which is not a good fit for the Rust playground.

My best recommendation is to create a project on your local computer and follow along by copying the code over and run it locally.

You can also clone or download the example code from the git repository

You don't have to be a Rust programmer to follow along. This book will have numerous chapters where we explore concepts, and where the code examples are small and easy to understand, but it will be more code towards the end and you'll get the most out of it by learning the basics first. In this case The Rust Programming Language is the best place to start.

I do recommend that you read my book preceding this Green threads explained in 200 lines of Rust since I cover quite a bit about Rust basics, stacks, threads and inline assembly there and will not repeat everything here. However, it's definitely not a must.

We'll implement a toy version of the Node.js eventloop (a bad, but working and conceptually similar eventloop) We'll not primarily focus on code quality and safety, though this is important, I will focus on understanding the concepts and ideas behind the code. We will have to make many shortcuts to keep this concise and short. I will however do my best to point out hazards and the shortcuts we make. I will try to point out obvious places we could do a better job or take big shortcuts.

Even though we cover some complex topics we'll have to simplify them significantly to be able to learn anything from them in a small(ish) book. You can probably spend the better part of a career becoming an expert in several of the fields we cover, so forgive me already now for not being able to cover all of them with the precision, thoroughness and respect they deserve.

Substantial contributions will be credited here.

I have no other interest in this than to share knowledge that can be hard to come by and make it easier for the next curious person to understand. If you want to contribute to make this better there are two places to go:

Everything from spelling mistakes to correcting errors or inaccuracies are greatly appreciated. It will only make this book better for the next person reading it.

This started as a wish to write an article about Rust's Futures 3.0. The result so far is 3 books about concurrency in general and hopefully, at some point a fourth about Rust's Futures exclusively.

This process has also made me realize why I have vague memories from my childhood of threats being made about stopping the car and letting me off if I didn't stop asking "why?" to everything.

Basically, the list below is a result of this urge to understand why while reading the RFCs and discussions about Rust's async story: