NodeJS: 4.8x faster if we go back to callbacks!
Yeah, I said it!
Callbacks are 4.8x faster when running them parallel over async/await in parallel. And only 1.9x faster when we run sequential callbacks.
I've modified this article somewhat after I got some helpful and kind comments about my dodgy test. ๐๐
Thank you to Ricardo Lopes and Ryan Poe for taking the time to steer the benchmarks in the right direction. My first faux pas was I wasn't actually waiting for the execution of the code to finish, which crazily skewed the results. The second was I was comparing parallel to sequential runtimes, which make the benchmarks worthless.
So this is round 2 which addresses my initial errors. Previously, I said:
NodeJS: 34.7x faster if we go back to callbacks! I shouldn't have believed it. ๐คฃ
Not as impressive as my bad benchmarks before (and see comments for context), but still a sizeable difference.
So what exactly did I test?
I compared callbacks to promises and async/await when reading a file, 10,000 times. And maybe that's a silly test but I wanted to know, which is faster at I/O.
Then I finally compared callbacks in Node.js to Go!
Now, guess who won?
I won't be mean. TLDR. Node.js callbacks Golang!
Lower is better. Results are in
ms
.Now, true benchmarkers? Go easy on me on this one. But please do leave your comments to make me a better person.
Everyone keeps saying that Node.js is slow!
And it bugs me out.
Because what does slow mean? As with all benchmarks, mine is contextual.
I started reading about the Event Loop, just to even begin to understand how it works.
But the main thing I've understood is that Node.js passes I/O tasks onto a queue that sits outside the main Node.js executable thread. This queue runs on pure C. A number of threads could potentially handle these I/O operations. And that's where Node.js can shine, handling I/O.
Promises, however, get handled in the main, single executable thread. And async/await, is well, promises but now with blocking added.
So are callbacks faster than promises?
Let's put it to the test.
First off. My machine! Complements of working with Kamma. It's important to note what resources we're working with. Plenty memory and CPU.
MacBook Pro (14-inch, 2021)
Chip Apple M1 Pro
Memory 32 GB
Cores 10
NodeJS v20.8.1
Go 1.21.0
So we have a text.txt
file with an original message, Hello, world
.
echo "Hello, world" > text.txt
And we'll read this text file using native Node.js, which means, zero node module dependencies because we don't want to drag node modules down with the heaviest objects in the universe.
Callbacks
Parallel callbacks
First, let's start with parallel callbacks. I'm interested in how quickly the same file can be read as quickly as possible, all at once. And what's faster than parallel?
// > file-callback-parallel.test.mjs
import test from 'node:test';
import assert from 'node:assert';
import fs from "node:fs";
test('reading file 10,000 times with callback parallel', (t, done) => {
let count = 0;
for (let i = 0; i < 10000; i++) {
fs.readFile("./text.txt", { encoding: 'utf-8'}, (err, data) => {
assert.strictEqual(data, "Hello, world");
count++
if (count === 10000) {
done()
}
})
}
});
Sequential callbacks
Second, we have callbacks again, but sequential (or rather blocking). I'm interested in how quickly the same file can be read sequentially. Having not done callbacks calling callbacks for ages, this was fun to try again. Albeit, it doesn't look pretty.
// > file-callback-blocking.test.mjs
import test from 'node:test';
import assert from 'node:assert';
import fs from "node:fs";
let read = (i, callback) => {
fs.readFile("./text.txt", { encoding: 'utf-8'}, (err, data) => {
assert.strictEqual(data, "Hello, world");
i += 1
if (i === 10000) {
return callback()
}
read(i, callback)
})
}
test('reading file 10,000 times with callback blocking', (t, done) => {
read(0, done)
});
Async/Await
Then we have async/await. My favourite way of working with Nodejs.
Parallel async/await
It's as parallel as I can get with async/await. I load all the readFile
operations into an array and await them all using Promise.all
.
// > file-async-parallel.test.mjs
import test from 'node:test';
import assert from 'node:assert';
import fs from "node:fs/promises";
test('reading file 10,000 times with async parallel', async (t) => {
let allFiles = []
for (let i = 0; i < 10000; i++) {
allFiles.push(fs.readFile("./text.txt", { encoding: 'utf-8'}))
}
return await Promise.all(allFiles)
.then(allFiles => {
return allFiles.forEach((data) => {
assert.strictEqual(data, "Hello, world");
})
})
});
Sequential Async/Await
This was the easiest and most concise one to write.
// > file-async-blocking.test.mjs
import test from 'node:test';
import assert from 'node:assert';
import fs from "node:fs/promises";
test('reading file 10,000 times with async blocking', async (t) => {
for (let i = 0; i < 10000; i++) {
let data = await fs.readFile("./text.txt", { encoding: 'utf-8'})
assert.strictEqual(data, "Hello, world");
}
});
Promises
Finally, we have promises without async/await. I've long stopped using them in favour of async/await
but I was interested in whether they were performant or not.
Parallel promises
// > file-promise-parallel.test.mjs
import test from 'node:test';
import assert from 'node:assert';
import fs from "node:fs/promises";
test('reading file 10,000 times with promise parallel', (t, done) => {
let allFiles = []
for (let i = 0; i < 10000; i++) {
allFiles.push(fs.readFile("./text.txt", { encoding: 'utf-8'}))
}
Promise.all(allFiles)
.then(allFiles => {
for (let i = 0; i < 10000; i++) {
assert.strictEqual(allFiles[i], "Hello, world");
}
done()
})
});
Sequential promises.
Again, we want to wait for the execution of all readFile
operations.
This doesn't seem quite right as it's technically still not waiting for each to finish.
// > file-promise-blocking.test.mjs
import test from 'node:test';
import assert from 'node:assert';
import fs from "node:fs/promises";
test('reading file 10,000 times with promises blocking', (t, done) => {
let count = 0;
for (let i = 0; i < 10000; i++) {
let data = fs.readFile("./text.txt", { encoding: 'utf-8'})
.then(data => {
assert.strictEqual(data, "Hello, world")
count++
if (count === 10000) {
done()
}
})
}
});
How I ran the tests
And voila! Results ๐! I even ran it a few times to get a better reading.
I ran each test by doing:
node --test <file>.mjs
Reading a file 10,000 times with callbacks is over 34x 5.8x faster than with async/await in parallel! It's also 4.7x faster than with promises in parallel!
So, in Node.js land, callbacks are more performant!
Now is Go faster than Node.js?
Well, I don't write in Go, so this may be truly terrible code because I asked ChatGPT to help me and yet, it seems pretty decent.
Hey ho. Let's go. Our Golang code.
package main
import (
"fmt"
"io/ioutil"
"time"
)
func main() {
startTime := time.Now()
for i := 0; i < 10000; i++ {
data, err := ioutil.ReadFile("./text.txt")
if err != nil {
fmt.Printf("Error reading file: %v\n", err)
return
}
if string(data) != "Hello, world" {
fmt.Println("File content mismatch: got", string(data), ", want Hello, world")
return
}
}
duration := time.Since(startTime)
fmt.Printf("Test execution time: %v\n", duration)
}
And we run it as so:
go run main.go
And the results?
Test execution time: 58.877125ms
๐คฏ Go is 4.9x faster than Node.js using sequential callbacks. Node.js only comes close with parallel execution.
Node.js Async/await is 9.2x slower than Go.
So yes. Node.js is slower. Still, 10,000 files in sub 300ms isn't to be scoffed at. But I've been humbled by Go's speediness!
Now just a side note. Do I have bad benchmarks?
I really did have terrible Benchmarks. Thank you again to Ricardo and Ryan.
Yes, I did. Hopefully now they're better.
But you may ask, who's really going to read the same file, over and over again? But for a relative test between things, I hope it's a helpful comparison.
I also don't know how many threads Node.js is using.
I don't know how my CPU cores affect Go vs Node.js performance.
I could just rent an AWS machine with one core and compare.
Is it because I'm on Mac M1?
How would Node.js perform on a Linux or...Windows? ๐ฑ
And there's the practicality of, yes, reading a file is one thing, but at some point, you have to wait anyway for the file to be read to do something with the data in the file. So, speed on the main thread is still pretty important.
Now, do you really want to use callbacks?
I mean, do you really, really want to?
I don't know. I definitely don't want to tell anyone what to do.
But I like the clean syntax of async/awaits.
They look better.
They read better.
I know better is subjective here but I remember callback-hell, and I was grateful when promises came into existence. It made Javascript bearable.
Now, while Golang in this instance is slower Golang is clearly faster than Node.js at its optimum, with callbacks, and with async/await, by 9.2x! So if we want good readability and performance, Golang is the winner. Although, I'd love to learn how Golang looks under the hood.
Anywho. This was fun. It was more of an exercise to help me understand how callbacks and I/O work in the Event Loop.
So to sign out
Is Node.js slow? Or are we just using Node.js on slow mode?
Probably where performance matters, Golang is worth the jump. I'll certainly be looking more at using Golang in future.
Updates
Sequential promises
If I rewrite it as below, I'm still using callbacks ๐ฌ but at least it's sequential:
import test from 'node:test';
import assert from 'node:assert';
import fs from "node:fs/promises";
let read = (i, callback) => {
let data = fs.readFile("./text.txt", { encoding: 'utf-8'})
.then(data => {
assert.strictEqual(data, "Hello, world")
i += 1
if (i === 10000) {
return callback()
}
read(i, callback)
})
}
test('reading file 10,000 times with promises blocking', (t, done) => {
read(0, done)
});
I didn't include the above in the benchmarks but it is slower and not surprisingly so at 532.777667ms
.
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Written by
Gemma Black
Gemma Black
I'm a Senior Software Engineer. With 10+ years working within tech teams, and 20+ years working with code, I develop across the stack, assisting with application design, maintenance, deployment and DevOps within the AWS Cloud.