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I'm processing human-written text documents and I do a dictionary based string matching to find specific strings in the document.

For security reasons, I can not input the document in unencrypted text format, but rather in a strong encrypted format. I can not allow developers working on the unit access the unencrypted input string, but they can access the matched strings.

To make it clearer:

Dictionary = {"Apple", "Apple pie", "World War II"}

Document1 = "apple is my favorite fruit." -> Should match "apple" 

Document2 = "apple pie was invented during world war II" -> Should match "apple pie" and "world war II"

So the string matching is case-insensitive and only matches longest occurrence (I'm using Aho-Corasick).

The options I see are:

  1. Find an encryption function F where F("ABCD") = F("A")+F("B")+F("C")+F("D") = F("AB")+F("CD").

  2. Chunk the document by whitespace, hash both the chunks and the dictionary and then look for similarities. (complicated)

  3. Make a separate unit responsible for encryption and string matching with obfuscated code. (most obvious way)

As I'm not good at cryptography, I might be missing something here. Can anyone see a better way of achieving this?

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It is a bit unclear to me when the documents are encrypted. Are they encrypted before they reach your code or do you encrypt them? And if they are already encrypted, do you have the key for them? –  Mark Wilkins Feb 10 '11 at 15:41
    
The document is coming from client side which is also under our control. The goal is to not let any unencrypted information leave the client machine, but do the process in our servers. –  parsa Feb 10 '11 at 16:01
    
So this processing is done on the server side? If so, is it not possible to encrypt the document at the client and transmit it to the server, then decrypt it and perform the processing on the unencrypted document? –  Mark Wilkins Feb 10 '11 at 16:06
    
Yes string matching is done on the server side. It is possible but then every developer working on the server side will have access to the document which is undesirable unless we separate/obfuscate that part of the code. –  parsa Feb 10 '11 at 16:15

3 Answers 3

If I understand correctly, the goal is to prevent someone who has physical access to the machine and access to the processes running on it from being able to determine the contents of the document. I don't think that is possible if the "bad guy" is extremely dedicated. He will be able to extract key information necessary to decrypt the document from the process space. As a general rule, if the attacker has physical access, then there is not a lot that can be done.

If the program can match parts of text of a document to known text, then the attacker will be able to observe that and extract the information. Obfuscation of the code may make it harder, but if the information is valuable enough, then the attacker will just work harder.

It seems that it would be better if the server can be run in a secure fashion and limiting physical access as much as possible. There are, of course, still a lot of issues involved (code would need to be audited for malicious code for example since the developers are apparently not trusted) but that at least gets you to a position that has a chance of being defended.

Edit A couple thoughts about encryption in the context of what you are trying to do.  If you are using, for example, AES encryption in CBC (cipher block chaining) mode, then it is not possible to decrypt a single word from the document (assuming the document is encrypted as a whole). Each block of cipher text depends on the preceding block. Thus, it would be necessary to decrypt the entire document up to the point of interest.  In other words, you would have to decrypt the entire document to search it.  

Another encryption possibility would be to use AES in CTR mode. CTR mode generates cipher stream (based on the key and some initialization vector) and XORs that against the plain text to produce the cipher text. In this mode, it is possible to decrypt a portion in the middle of the document without decrypting the previous section. But that is somewhat misleading and a bit of a semantics argument. Even though you don't have to decrypt the preceding section, it is still necessary to generate the cipher stream for the entire document up to the point of interest. And from an attacker's standpoint, that would be the same as decrypting the document since the attacker would have access to the encrypted text (presumably in the situation you describe) and the generated XOR stream, which would yield the plain text. 

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Firstly, any encryption function that satisfies your condition:

F("ABCD") = F("A")+F("B")+F("C")+F("D")

is inherently not strong encryption (assuming + here means concatenation). The problem is that this condition implies that F("A") is invariant, which means that it the encryption is equivalent to a simple substitution cipher, vulnerable to frequency analysis.

A bigger problem however is that any solution is going to be vulnerable to a dictionary attack. If you can determine that a word in the unknown document is a particular word in your limited dictionary, then you can also search for it in a complete dictionary - in this way, you can quickly discover the entire plaintext.

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Your proposed solution #1 is a very very difficult problem - known to be solvable, but almost certainly not worth your while to solve.

The technique you would want for it is Homomorphic Encryption. It was first demonstrated in 2009 by Craig Gentry of IBM that arbitrary computation can be performed without revealing the plaintext.

The state-of-the-art is probably too inefficient for almost all applications - while exponential security can be obtained with "polynomial" computation (which is all the theorists really care about), the polynomial is enormous enough to be not valuable. This might change in the near future.

With that said, I don't see any reason why you can't:

hash each entry in the dictionary
    (split each entry on whitespace, multiword entries are tuples of hashes)
split document on whitespace, hash each word
do the matching with the hashes

Essentially, you're matching arbitrary items, not inherently words. The client can produce the words-items map, and pass the items to the server. The server doesn't need to know anything about the items, just that an item from the dictionary appears in the text.

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1  
With Homomorphic Encryption, the result of the computation is only available to the submitter of the encrypted inputs - it appears that the OP wants the result of the computation to be available to the server itself. This is not the same thing (and it necessarily reveals information about the plaintext). Your hashing method falls down because a malicious server can compare the hashes provided by the client against a larger dictionary, revealing the entire plaintext. –  caf Apr 8 '12 at 9:06
    
what makes you say that the OP wants the result of the computation available on the server? RE the hashes: there's no specific reason to use hashes; the dictionary could be {'1', '2', '3', '4'...} and the document {'1', '27', '64', ...}. The client maintains the mapping {'1':'cat', '2':'in', '3':'the', '4':'hat'...} and never shares this mapping with the server. This also is predicated on the server not needing to know the result of the computation, of course. –  mfrankli Apr 8 '12 at 18:38
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That's just how the question reads to me - also consider that it might as well be entirely done client-side otherwise. –  caf Apr 9 '12 at 0:44

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