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I have already worked with Neural Networks before and know most basics about them. I especially have experience with regular Multi-Layer-Perceptrons. I was now asked by someone if the following is possible and somehow feel challenged to master the problem :)

The Situation

Let's assume I have a program that can encrypt and decrypt regular ASCII-Coded Files. I have no idea at all about the specific encryption method nor the key used. All I know is, that the program can reverse the encryption and thus read the original content.

What I want?

Now my question is: Do you think it is possible to train (some kind of) Neural Network which replicates the exact decryption-Algorithm with acceptable effort?

My ideas and work so far

I have not much of experience with encryption. Someone suggested just to assume AES encryption, so I could write a little program to batch-encrypt ASCII-Coded files. So this would cover the gathering of learning data for supervised learning. Using the encrypted files als input for the neural networks and the original files as training data I could train any net. But now I am stuck, how would you suggest to feed the input and output data to the Neural Network. So how many Input and Output-Neurons would you guys use? Since I have no Idea what the encrypted files would look like, it might be the best idea to pass the data in binary form. But I can't just use thousands of input and output-neurons and pass all bits at the same time. Maybe recurrent networks and feed one bit after another? Also doesn't sound very effective.

Another problem is, that you can't decrypt partially - meaning you can't be roughly correct. You either got it right or not. To put it other words, in the end the net error has to be zero. From what I have experienced so far with ANN, this is nearly impossible to achieve for big networks. So is this problem solvable?

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Well, to be honest, this seems totally impossible to me. At least the idea of cracking AES encrypted files. I'm basing this on two ideas. First of all, I doubt that a standard encryption algorithm that has survived three years of competition could be cracked with such an "old" technology. Then, the other point is that I doubt the "expresiveness" of NN. What I mean is that basically, you're looking for a function. This function belongs to a space of functions, that is, to my mind, highly unlikely to include the miraculous AES decryption function. As I've got no solid proof, I prefer a comment! – Fezvez May 13 '11 at 8:35
Neural networks are actually rather 'expressive' (in the sense that I think you mean it). A small two-layer network with only a few nodes can be trained to compute any boolean operator on two bits. If you allow that using just ANDs, ORs, NOTs, XORs etc it is clearly possible to compute the AES decruption function (after all our computers do it) then so must it be possible for NN to do the same if you provide that it has enough layers and nodes. So expressiveness is not the issue I think. Rather the question would be more about ... – Kris Jun 13 at 18:28
... the size and topology of the neural network, and how much training data and time/computation you'd need to make the backpropagation algorithm learn the function. Or even if the function is 'learnable' at all. – Kris Jun 13 at 18:30

2 Answers 2

up vote 9 down vote accepted

Another problem is, that you can't decrypt partially - meaning you can't be roughly correct. You either got it right or not.

That's exactly the problem. Neural Networks can approximate continuous functions, meaning that a small change in the input values causes a small change in the output value, while encryption functions/algorithm are designed to be as non-continuous as possible.

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I guess this answer puts it in a nut shell. But I start getting interested in encryption, maybe I should do some reading on that topic. Thanks for your answer. – EliteTUM May 13 '11 at 9:31
You say that NNs can "approximate continuous functions" (and imply that they can only do so) - that's interesting. I tried to write a claim a bit like that, stating that NNs can only discover linear functions, but i realised that i didn't understand either NNs or boolean linearity with enough finesse to make it confidently. I'm glad that someone else did, though! – Tom Anderson May 13 '11 at 13:20
@Tom Anderson: single-layer perceptrons can only discover linear functions. More complex NNs exist for non-linear functions. – larsmans May 23 '11 at 19:48
It is true that neural networks compute coninuous functions, yet thier output values can be interpreted as 'boolean' (i.e the output neurons have values 0..1. Properlt trained a value close to 1 can mean 'true' and value close to 0 'false'. And if somewhere in between it means 'I'm not quite so sure'. Neural networks are actually very good at classification problems, for example, and a classification function is decidedly not a continuous function. – Kris Jun 13 at 18:40

I think if that worked, people would be doing it. As far as i know, they aren't doing it.

Seriously, if you could just throw a lot of plaintext/ciphertext pairs at a neural network and construct a decrypter, then it would be a very effective known-plaintext or chosen-plaintext attack. Yet the attacks of that kind we have against current ciphers are not very effective at all. That means that either the entire open cryptographic community has missed the idea, or it doesn't work. I realise that this is far from a conclusive argument (it's effectively an argument from authority), but i would suggest it's indicative that this approach won't work.

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Just want to point out that nobody did anything until somebody did something. I mean, someone is always the first. On rare occasion several people are all the first. Yesterday's amazing discoveries are Tomorrow's common knowledge. – Tim Bender May 13 '11 at 9:03
I like Tim's Answer ;) But Tom has a point: if it were possible, it would have been done before. Especially because it is a quite simple approach (only one being simpler would be Brute Force I guess). Thanks for the oppinions. Maybe I'll consult a friend of mine who has more knowledge on encryption. – EliteTUM May 13 '11 at 9:24
@Tim: True, of course. But i tend to think that if a lot of people have been doing things in an area for quite a while, it is unlikely that there are any simple but useful innovations left to make. It's not impossible, merely unlikely. I appreciate that this is an embarrassingly weak argument, particularly on a site like this. – Tom Anderson May 13 '11 at 13:18
@EliteTUM: I like Tim's answer too. – Tom Anderson May 13 '11 at 13:18
People are doing it, for example, but the question is whether this is practical, or will ever be. Training NN takes a lot of time, training examples, and computational power. Intuitively, we should expect a decryption function to be very hard to learn (unpredictable mapping from input to output). If they were easy to learn by a NN, they would not be good encryption algos and probably be also easy to crack by other methods than NN. – Kris Jun 13 at 18:46

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