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We know node.js provides us with great power but with great power comes great responsibility.

As far as I know the V8 engine doesn't do any garbage collection. So what are the most common mistakes we should avoid to ensure that no memory is leaking from my node server.

EDIT: Sorry for my ignorance, V8 does have a powerful garbage collector.

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6  
Wait, wat? A JS implementation (or more generally, any implementation of a language where manual memory management is taken out of the programmers' hands) without GC seems pretty worthless to me. And in fact, Google showed me code.google.com/apis/v8/design.html#garb_coll as the very first result. Where did you get the "V8 doesn't do GC" idea? –  delnan Apr 20 '11 at 16:40
4  
V8 has an ephemeral and linear garbage collector that stops the world when it sweeps. Implying it has no GC is nonsense. In fact, it's one of the best JS GCs we have. Another great one is in IE9+. Mozilla is going to improve their GC design in the future, I heard, towards V8. –  Tower Jun 30 '11 at 13:12

2 Answers 2

up vote 38 down vote accepted

As far as I know the V8 engine doesn't do any garbage collection.

V8 has a powerful and intelligent garbage collector in build.

Your main problem is not understanding how closures maintain a reference to scope and context of outer functions. This means there are various ways you can create circular references or otherwise create variables that just do not get cleaned up.

This is because your code is ambigious and the compiler can not tell if it is safe to garbage collect it.

A way to force the GC to pick up data is to null your variables.

function(foo, cb) {
    var bigObject = new BigObject();
    doFoo(foo).on("change", function(e) {
         if (e.type === bigObject.type) {
              cb();
              // bigObject = null;
         }
    });
}

How does v8 know whether it is safe to garbage collect big object when it's in an event handler? It doesn't so you need to tell it it's no longer used by setting the variable to null.

Various articles to read:

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18  
Circular references shouldn't pose the slightest problem to an "intelligent" GC. Even the simplest GCs can handle them (refcounting is not a real GC). The hint about event handlers seems correct though. –  delnan Apr 20 '11 at 16:45
1  
Is it necessary to null "bigObject" inside of a function scope. Shouldn't GC take care of it once the function is complete? –  jwerre Oct 15 '12 at 3:31
2  
@jwerre that function is never complete. It's a change listener. That function will only be complete if the event emitter returned by doFoo(foo) get's garbage collected. –  Raynos Oct 15 '12 at 7:40
2  
This is really good. Raynos said there were various other ways to create problems like this; does anybody have a good guide on other things to look out for? –  Zane Claes Oct 16 '12 at 0:09
3  
@Raynos Setting bigObject to null doesn't make any sense in this situation in my opinion. Removing the event handler itself will allow bigObject to be collected and that's what we want. However to only null the bigObject reference will just cause a runtime error on the next handler invocation. –  plalx Oct 30 '13 at 18:57

I wanted to convince myself of the accepted answer, specifically:

not understanding how closures maintain a reference to scope and context of outer functions.

So I wrote the following code to demonstrate how variables can fail to be cleaned up, which people may find of interest.

If you have watch -n 0.2 'ps -o rss $(pgrep node)' running in another terminal you can watch the leak occurring. Note how commenting in either the buffer = null or using nextTick will allow the process to complete:

(function () {
    "use strict";

    var fs = require('fs'),
        iterations = 0,

        work = function (callback) {
            var buffer = '',
                i;

            console.log('Work ' + iterations);

            for (i = 0; i < 50; i += 1) {
                buffer += fs.readFileSync('/usr/share/dict/words');
            }

            iterations += 1;
            if (iterations < 100) {
                // buffer = null;

                // process.nextTick(function () {
                    work(callback);
                // });
            } else {
                callback();
            }
        };

    work(function () {
        console.log('Done');
    });

}());
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I, too, tend to learn, understand, and accept things best when I can visualize them somehow; this was a good example that allowed me to do just that - to see the variation in memory as GC occurs. Thanks for sharing. –  Brandon K Aug 15 '13 at 5:20
1  
@dukedave I am not sure if that's a good example. Obvioulsy the local buffer variable cannot get garbage collected before the recursive function call ends, unless you explicitly null it but can this behaviour really considered a leak? When the recursive call will end all the local variables will naturally be eligible for GC wheter you null the buffer or not. No? –  plalx Oct 30 '13 at 19:22
    
@plalx I'd consider it a leak insomuch as the application programmer is concerned (i.e. they didn't realize that buffer would grow). Perhaps I should have been more clear that this was addressing the accepted answer's statement that, "Your main problem is not understanding how closures maintain a reference to scope and context of outer functions"; I'll update my answer to reflect that now. –  dukedave Oct 31 '13 at 0:11
    
great answer with simple example! –  karthikeayan Oct 30 at 13:57

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