I am looking for the currently hardest-to-reverse JavaScript obfuscator. Bonus points if it can be run on one's own server. Performance hit and code bloat are fine.
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3run the code through multiple obfuscators one after another. Extra fun!– Gabi PurcaruJul 14, 2011 at 17:05
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16better yet - accept the fact that client-side code is out of your control.– digitalbathJul 14, 2011 at 17:08
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You can also have javascript files importing other javascript files, which can make the whole process a lot harder to piece together, if copying is an issue for you.– GriffinJul 14, 2011 at 17:11
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4@Cam: If someone's determined, they'll beat any obfuscator in relatively short time. If they're just fiddling around out of curiosity, even stripping whitespace could scare them off. If you have secrets and want to protect them, you don't put them in JS or anything else that the client every gets his hands on. If doing it is like giving a crook a loaded gun, adding an obfuscator "for protection" is like still giving the crook the gun but kindly ask them not to use it.– user395760Jul 14, 2011 at 17:39
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2@delnan: I disagree. Without any obfuscation, it could take just a few minutes to decipher. But even for an expert it could take up to a few days depending on the obfuscation and the complexity of what the js code is doing. All I'm saying is that in some cases this few days might be vital if you want to gain a short time advantage before competitors/adversaries are able to take your JS. I think a better metaphor is that you're giving a crook the gun, but it's not loaded and the gun store is 5-6 miles away. They do not have a car.– CamJul 15, 2011 at 1:47
3 Answers
Write it in Java, then run the bytecode in JavaScript with an obfuscated orto. That'll require two layers of decompilation in order to make any sense of it.
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1That would probably make it even harder to reverse engineer. I'd call that a feature. The truth is, even Java bytecode can be "decompiled" so you'll never have true source code protection. The best you can hope for is to make it really hard, more trouble than it's worth. I answered a related question about how to achieve that sort of thing.– tadmanJul 22, 2011 at 17:35
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excellent architecture discussion, tadman! When I get enough info for a final answer I'll see if I can edit a summary of your answer in.– cmcJul 24, 2011 at 9:30
I'd be curious as to why you want to do this. Obfuscation offers no real protection. If you have something to protect, move it to the server-side, otherwise, why bother. If you're doing as you should and minifying/combining your JS that should be more than enough to scare away anyone not serious about knowing what your code is doing, and has performance benefits to boot. If they are serious, obfuscation isn't going to help you.
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6Obfuscation is certainly not real protection. Anyone who seriously wants to know what obfuscated code is doing can figure it out. But, that doesn't make it completely value-less as long as the one using it knows what they're getting. Obfuscation adds a level of complexity to reverse-engineering or re-using the code. That level of complexity raises the bar for who would go to the trouble of figuring out how to reverse-engineer the code or steal/borrow the code. A really motivated thief can still get it (with more work), but others won't see it as not worth the trouble and will skip it. Jul 14, 2011 at 18:40
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3To remove enough information from the source code to push it beyond the point where it is easier to just repogram it from scratch.– cmcDec 17, 2011 at 1:22
The JavaScript Code Encrypter And Obfuscator looked nice, until I actually tried to attack it. Took me about two minutes. The trivial solution:
for (i in window) { console.log(window[i]) }
That churned out a bunch of gibberish, but also the original code neatly boinked into one variable.
Note to self: Never, ever, ever, ever use anything you don't fully understand when it comes to security.
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7Never? Ok, I admit I use AES-256 and have NO IDEA how it works :) Dec 29, 2013 at 20:34
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