In the context of Server Side Javascript engines, what is non-blocking I/O or asynchronous I/O? I see this being mentioned as an advantage over Java server side implementations.


Synchronous vs Asynchronous

Synchronous execution usually refers to code executing in sequence. Asynchronous execution refers to execution that doesn't run in the sequence it appears in the code. In the following example, the synchronous operation causes the alerts to fire in sequence. In the async operation, while alert(2) appears to execute second, it doesn't.

Synchronous: 1,2,3


Asynchronous: 1,3,2

setTimeout(() => alert(2), 0);

Blocking vs Non-blocking

Blocking refers to operations that block further execution until that operation finishes. Non-blocking refers to code that doesn't block execution. In the given example, localStorage is a blocking operation as it stalls execution to read. On the other hand, fetch is a non-blocking operation as it does not stall alert(3) from execution.

// Blocking: 1,... 2
var value = localStorage.getItem('foo');

// Non-blocking: 1, 3,... 2
fetch('example.com').then(() => alert(2));


One advantage of non-blocking, asynchronous operations is that you can maximize the usage of a single CPU as well as memory.

Synchronous, blocking example

An example of synchronous, blocking operations is how some web servers like ones in Java or PHP handle IO or network requests. If your code reads from a file or the database, your code "blocks" everything after it from executing. In that period, your machine is holding onto memory and processing time for a thread that isn't doing anything.

In order to cater other requests while that thread has stalled depends on your software. What most server software do is spawn more threads to cater the additional requests. This requires more memory consumed and more processing.

Asynchronous, non-blocking example

Asynchronous, non-blocking servers - like ones made in Node - only use one thread to service all requests. This means an instance of Node makes the most out of a single thread. The creators designed it with the premise that the I/O and network operations are the bottleneck.

When requests arrive at the server, they are serviced one at a time. However, when the code serviced needs to query the DB for example, it sends the callback to a second queue and the main thread will continue running (it doesn't wait). Now when the DB operation completes and returns, the corresponding callback pulled out of the second queue and queued in a third queue where they are pending execution. When the engine gets a chance to execute something else (like when the execution stack is emptied), it picks up a callback from the third queue and executes it.

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    I'm not sure I understand your 2nd paragraph under Blocking in PHP. Are you saying that, "While PHP would normally block on IO, it doesn't because the OS automatically threads IO operations."? Or, are you saying that this isn't an issue in PHP because PHP automatically creates a new thread for each request so one blocked request doesn't halt the entire PHP environment? (I'm guessing the latter..) – dcow Apr 3 '13 at 6:16
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    wait, if it's mean the latter one, what the advantages non blocking I/O PHP (like reactPHP or something else) over the blocking one. still confuse – Sunu Pinasthika Fajar Dec 24 '13 at 13:29
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    @SunuPinasthikaFajar PHP alone is synchronous, but the server software allows it to thread per request, thus making it look like a request is not blocking another. React allows PHP alone to run in an asynchronous manner. – Joseph Dec 24 '13 at 13:45
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    @CharlieParker Yes. The async operation runs parallel to your code. But the callback that "gets back" to the results of the async operation are queued for execution in the main code when the main code isn't busy. – Joseph Feb 9 '14 at 2:22
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    @CharlieParker Here's a post that deals more about the internals of the async mechanism. – Joseph Feb 9 '14 at 5:04
var startTime = new Date().getTime();
var getEndTime = () => {
    var tempEndTime = new Date().getTime();
    var second = (tempEndTime - startTime)/1000
    return `took ${second} sec...to finish\n`

console.log('1: start App', getEndTime())
    console.log('2: setTimeout', getEndTime())
}, 1000)
console.log('3: End App', getEndTime())

// console -> Process Order:  1 -> 3 -> 2

Code example

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