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I have a file which contains the result of two XORed plaintext files. How do I attack this file in order to decrypt either of the plaintext files? I have searched quite a bit, but could not find any answers. Thanks!

EDIT:

Well, I also have the two ciphertexts which i XORed to get the XOR of the two plaintexts. The reason I ask this question, is because, according to Bruce Schneier, pg. 198, Applied Cryptography, 1996 "...she can XOR them together and get two plaintext messages XORed with each other. This is easy to break, and then she can XOR one of the plaintexts with the ciphertext to get the keystream." (This is in relation to a simple stream cipher) But beyond that he provided no explanation. Which is why I asked here. Forgive my ignorance.

Also, the algorithm used is a simple one, and a symmetric key is used whose length is 3.

FURTHER EDIT:

I forgot to add: Im assuming that a simple stream cipher was used for encryption.

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4  
If you can accomplish it without knowing anything about either of the two files to start with, I'm sure there's a job waiting for you at the NSA or similar orgs. –  Marc B Apr 14 '11 at 22:11
    
"How do I attack this file in order to decrypt either of the plaintext files?" - one nice thing about XOR crypto is that once you've decrypted one of the plaintexts, you'll have no problem decrypting the other one. –  Michael Burr Apr 14 '11 at 22:15
    
By definition of XOR, you transform 2 bites of information into 1 bit of information. So you loose half the information. You can't hope to obtain both the files out of the XOR. –  Cristian Vrabie Apr 14 '11 at 22:16
    
ive added some info... –  OckhamsRazor Apr 14 '11 at 22:31
    
@Cristian Vrabie: Sure you can, as long as there's sufficient redundancy in the two original files. English text, for example, has more than enough redundancy for this to be feasible. –  caf Apr 15 '11 at 4:00

5 Answers 5

up vote 7 down vote accepted

I'm no cryptanalyst, but if you know something about the characteristics of the files you might have a chance.

For example, lets assume that you know that both original plaintexts:

  • contain plain ASCII English text
  • are articles about sports (or whatever)

Given those 2 pieces of information, one approach you might take is to scan through the ciphertext 'decrypting' using words that you might expect to be in them, such as "football", "player", "score", etc. Perform the decryption using "football" at position 0 of the ciphertext, then at position 1, then 2 and so on.

If the result of decrypting a sequence of bytes appears to be a word or word fragment, then you have a good chance that you've found plaintext from both files. That may give you a clue as to some surrounding plaintext, and you can see if that results in a sensible decryption. And so on.

Repeat this process with other words/phrases/fragments that you might expect to be in the plaintexts.


In response to your question's edit: what Schneier is talking about is that if someone has 2 ciphertexts that have been XOR encrypted using the same key, XORing those ciphertexts will 'cancel out' the keystream, since:

(A ^ k) - ciphertext of A
(B ^ k) - ciphertext of B

(A ^ k) ^ (B ^ k) - the two ciphertexts XOR'ed together which simplifies to:

A ^ B ^ k ^ k - which continues to simplify to
A ^ B ^ 0
A ^ B

So now, the attacker has a new ciphertext that's composed only of the two plaintexts. If the attacker knows one of the plaintexts (say the attacker has legitimate access to A, but not B), that can be used to recover the other plaintext:

A ^ (A ^ B)
(A ^ A) ^ B
0 ^ B
B

Now the attacker has the plaintext for B.

It's actually worse than this - if the attacker has A and the ciphertext for A then he can recover the keystream already.

But, the guessing approach I gave above is a variant of the above with the attacker using (hopefully good) guesses instead of a known plaintext. Obviously it's not as easy, but it's the same concept, and it can be done without starting with known plaintext. Now the attacker has a ciphertext that 'tells' him when he's correctly guessed some plaintext (because it results in other plaintext from the decryption). So even if the key used in the original XOR operation is random gibberish, an attacker can use the file that has that random gibberish 'removed' to gain information when he's making educated guesses.

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you hit the nail right on the head! i just read a page written by tanenbaum (pg. 749, Computer Networks, 4th Edition, 2003) and his advice was the same as yours! i believe this attack is called "keystream reuse attack". thanks! –  OckhamsRazor Apr 14 '11 at 22:59
    
This isn't a weakness of "xor encryption" - xor is simply used by stream ciphers to combine the keystream with the plaintext. The weakness is using the same IV and key for two different messages, resulting in the same keystream. –  Nick Johnson Apr 15 '11 at 1:08
    
@Nick: You're right. I'll remove that paragraph. –  Michael Burr Apr 15 '11 at 7:28
    
@Michael: This is very helpful. Once I realized the xor round-circle was a known-plaintext attack. ;) Do you know offhand if there's a ciphertext & non-"guess & check" solution here? –  Paul Nathan Aug 23 '11 at 18:46

You need to take advantage of the fact that both files are plain text. There is a lot of implications which can be derived from that fact. Assuming that both texts are English texts, you can use fact that some letters are much more popular than the others. See this article.

Another hint is to note the structure of correct English text. For example, every time one statements ends, and next begins you there is a (dot, space, capital letter) sequence.

Note that in ASCII code, space is binary "0010 0000" and changing that bit in a letter will change the letter case (lower to upper and vice versa). There will be a lot of XORing using space, if both files are plain text, right? Analyse printable characters table on this page.

Also, at the end you can use spell checker.

I know I didn't provide a solution for your question. I just gave you some hints. Have fun, and please share your findings. It's really an interesting task.

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That is interesting. The Schneier book does indeed say that it is easy to break this. And then he kind of leaves it hanging at that. I guess you have to leave some exercises up to the reader!

There is an article by Dawson and Nielson that apparently describes an automated process for this task for text files. It's a bit on the $$ side to buy the single article. However, a second paper titled A Natural Language Approach to Automated Cryptanalysis of Two-time Pads references the Dawson and Nielsen work and describes some assumptions they made (primarily that the text was limited to 27 characters). But this second paper appears to be freely available and describes their own system. I don't know for sure that it is free, but it is openly available on a Johns Hopkins University server.

That paper is about 10 pages long and looks interesting. I don't have time to read it at the moment but may later. I find it interesting (and telling) that it takes a 10 page paper to describe a task that another cryptographer describes as "easy".

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I don't think you can - not without knowing anything about the structure of the two files.

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Schneier's piece was with regard to the fact that in his example, you do know a fair amount of detail about the structure of those files. –  Rory Alsop Apr 15 '11 at 9:35

Unless you have one of the plaintext files, you can't get the original information of the other. Mathematically expressed:

p1 XOR p2 = en

You have one equation with two unknowns, you can't possibly get something meaningful out of it.

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Actually: if A xor K = B , then B xor K = A . K acts as a secret key. So, you have encrypted A with the key K and the encrypted result is B. To decrypt B you can use K to get back to A. –  bvdb Jun 12 at 17:38

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