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This is related to my previous post, where my only option was to have a RSA algorithm which seemed relatively weak. Let us assume that I want to encode a 35 bit number (From 0 upto 34359738367) with a 36 bit modulo (between 34359738368 upto 68719476735).

Referring to I can see that my n is between 34359738368 upto 68719476735 a random totient (of the form p-1 * q-1). I pick a random d and e. I encode a number and show that on the UI.

For the purpose of argument let us assume that a user can see upto 1,000 such outputs. Can he use some algorithms like Polla's or anything of the like to crack my d,e or n and thereby start predicting new numbers? If so how hard is it going to be ? (By just knowing say 1000 sets of inputs/outputs)

As an example (consider 6 outputs as sample in input/output format),

  1. 10001621865,31116156015
  2. 10001621866,33031668326
  3. 10001621867,37351399313
  4. 10001621868,06071714212
  5. 10001621869,01188523761
  6. 10001621870,18341011998

Can someone tell me what my n, d, e was? (N between 34359738368 upto 68719476735)

I simply want to know how crackable it is, so if you could give me any information on how long, how fast, how many outputs does one has to see, what algorithms can one use etc. It will be great.

PS: User does not see the "e" like the standard RSA algorithm. He can only see the input output sets.

DETAILS ADDED I am trying to present a sequential user-id from db to the user. Because it is sequential I dont want a user to guess another user's id by doing a few registrations. To avoid this I have to scramble it to a <= 12 digit number. There were lot of constraints around this which were explained in this question .

Also the value of n,d and e is not known to the user. The maximum a user can see is a few input ouput samples (by way of registering repeatedly)

Accepting the answer posted by Accipitridae since the "Jacobi" algorithm can be used to crack this in a matter of few seconds. Without knowing n, e or p.

share|improve this question
What are you trying to do? Smells like obfuscation. – Edouard A. May 18 '09 at 14:30
?! I wouldn't come to that conclusion. sounds like the OP has some unfortunate system limitation for maximum bit size. – Jason S May 18 '09 at 14:40
RSA is absolutely not suited for this job. I'd use an HMAC instead. – Edouard A. May 18 '09 at 16:21
up vote 1 down vote accepted

An attacker can guess a factor p of n and e mod (p-1). Each guess can be checked by taking a message m, computing m^e mod p and then comparing with c mod p, where c is the corresponding ciphertext. Since p and e mod (p-1) are maybe 20 bits each, this means that the security of the scheme is not larger than 40 bits.

But 40 bits is only a very crude upper bound. An attacker can do much better. For example he can guess a factor p. Then he computes the Jacobi symbols of the messages and ciphertexts. If a message m is a quadratic residue mod p then the ciphertext must be a quadratic residue mod p and vice versa. Hence if this relation is not satisfied for a message/ciphertext pair he can reject the guess for p. Or the attacker can compute discrete logarithms between message and ciphertext. This gives a much faster candidate for e mod (p-1).

That should give a security level of 20-30 bits, hence require a few seconds to break. If you extend your number of samples to 20 I might try some benchmarks.

Update: Since you didn't give me 20 samples to run an experiment, I had to generate them myself. With the following samples

m = 10001621865  c = 31116156015
m = 10001621866  c = 33031668326
m = 10001621867  c = 37351399313
m = 10001621868  c = 6071714212
m = 10001621869  c = 1188523761
m = 10001621870  c = 18341011998
m = 10001621871  c = 7620400191
m = 10001621872  c = 36106912203
m = 10001621873  c = 37615263725
m = 10001621874  c = 7795237418
m = 10001621875  c = 34774459868
m = 10001621876  c = 4555747045
m = 10001621877  c = 33123599635
m = 10001621878  c = 34836418207
m = 10001621879  c = 33962453633
m = 10001621880  c = 6258371439
m = 10001621881  c = 7500991556
m = 10001621882  c = 5071836635
m = 10001621883  c = 911495880
m = 10001621884  c = 39558568485

as input, the algorithm described above finds the factors 201821 and 206153 in 20ms. As described this does not need to know e, although your choice of e=65537 is easy to guess and can be exploited as well.

The strength of RSA is that it is based on the difficulty of factoring large integers. Here you remove this difficulty and what remains are all the weaknesses (i.e. mathematical relations) of RSA. Building a block cipher based on RSA is a horrible idea. I really don't see why you don't want to use a Luby-Rackoff construction as I proposed earlier.

share|improve this answer
except as the question states, the attacker does not know e, nor n. It is difficult to guess a factor p of n if n is unknown. And, it would still require guessing e. – AlbertoPL May 18 '09 at 20:50
Math isn't done by voting for the correct answer. – Accipitridae May 19 '09 at 21:16
I added some math in my question. Accipitridae, appreciate the answer but none of the Luby-Rackoff or Burrow-Wheel or XOR give me a a) 1:1 mapping of 11 digit numbers to 11 digit numbers and not more b) should be decryptable c) The hash/salt must be based on a password and password alone. Appreciate the effort but I think those algos do not satisfy the constraints :( – Calm Storm May 20 '09 at 12:51
Accipitridae, Also I want to know how you factored out p and q? Did you know that e=65537? or Without knowing that? Also can you please post me some java/c/any source code which you used to crack these numbers? I am very interested in knowing this please. – Calm Storm May 20 '09 at 13:04
The code I've use is specialized and probably hard to read, so I'm not going to post it. But all it does is to looks for primes p such that (mc|p) != -1 for all pairs m,c in the list above. (mc|p) is the Jacobi symbol. It is about as hard to compute as a gcd. I'll look around if there is a simple library that implements Legendre/Jacobi symbols. Certainly the symbolic math packages (Mathematica, Maple, Macsyma) know these functions, but I bet there should be a java implementation available somewhere. – Accipitridae May 20 '09 at 19:17

RSA is vulnerable against a Chosen-Ciphertext attack. That is, say we want to break ciphertext y, we can use one of the ciphertext-plaintext pairs to break it.

How to break it:

choose an x0 and y0, where x0 and y0 is a plaintext-ciphertext pair that has been provided.

y1 = y0*y mod n y1 is another one of the 1000 ciphertexts given to the user that satisfies this criteria. x1 is the decryption of y1, which is also given, this means:

x1 = y1^d mod n (this has been given to us, we already know x1)

x1 = (y0*y)^d mod n x1 = y0^d * y^d mod n Ξ x0*x

x1*x0^-1 = x

x is the decryption of y.

This is of course dependent on whether or not y0*y mod n produces another ciphertext that we already have, and since we have only 1000 such pairs to work with, it is unlikely but not unfeasible to break. You just have to choose your pairs extremely carefully.

I'd also like to add that the size of n you're working with allows a factoring heuristic to find the prime factorization of n fairly quickly. Also, RSA is vulnerable to timing attacks, but that can be easily thwarted.

With added info: Without knowing n, d, or e, there is absolutely no information provided at all, which means guessing combinations of n, d, or e is as good as guessing the plaintext itself. To find n and e, there are at least 43,359,738,367 combinations of n to guess as well as all of the combinations e could be. It's not easy for someone even with 1000 ciphertext-plaintext pairs to be able to crack n and e.

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Alberto, Agreed if the value of n is known then this becomes better. However user does not know d, e or n (all 3 are not known to the user). At best user can do multiple registrations which can give him some sample output/inputs. I have googled on many algorithms but none give me any information about how many such inputs/executions/time one needs to crack this. – Calm Storm May 18 '09 at 15:40
This method does not work too well without n you are correct. It looks like you are fairly safe without ever publishing n. – AlbertoPL May 18 '09 at 15:51

This is a horrible idea, 36 bit RSA?? Why not simply go with a block or stream-cipher? That way you get the 1:1 mapping and in a much securer way.

An alternative solution that I would recommend would be to use a SHA hash as UID and store the sequential number for each user in the database as a separate column.

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