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I'm building an application that needs to store sensitive information, which means the data is encrypted on my database so that a hacker/employee with access to the database cannot decipher the sensitive data. However, it still needs to be searchable (on a certain level).

I understand certain compromises may have to be made. For example, I'm willing to leave some data attributes unencrypted to make them indexable if necessary, but "the main body" must be encrypted.

What are some best practices and approaches for storing sensitive data that needs to be viewable, searchable, and/or sortable by authorized people?

(I was thinking of extracting non stop words from the "body" and putting them in random order in a field before encrypting the body, and then feed that field to a search indexer, I doubt it provides any real security.)

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Hmm, that's a tough one - you'd need to have the database automatically decrypted under certain conditions only? –  Piskvor Feb 10 '11 at 19:25
    
@Piskvor, No decrypting the entire database would sort of be defeating the purpose. What is needed is a database of encrypted information. Like a docs.google.com that stores all our documents encrypted, yet still searchable. –  Pacerier Jun 9 at 22:49
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8 Answers

up vote 3 down vote accepted

I'm currently looking for a solution to this same problem.

One of the best ideas I've found, is this article from Raul García, http://blogs.msdn.com/b/raulga/archive/2006/03/11/549754.aspx.

He suggests using a MAC, to create an indexable column. The solution is for MS SQL Server, but it could be applied to another system.

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There are databases that do support encrypted indexes. The one I know (since I worked for the company) is UniVerse.

Check out the security manual's 'Automatic Data Encryption' section. Perhaps it will give you some ideas.

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Link down...... –  Pacerier Jun 9 at 23:07
    
Link has been updated after they redesigned their site. @Pacerier –  Dan McGrath Jun 12 at 16:10
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You need to use a new class of encryption algorithms called Format Preserving Encryption (search Wiki).

There are a few implementations available for such encryption algorithms as follows: http://crypto.stackexchange.com/questions/3279/format-preserving-encryption-implementations

All that said, I would be judicious in using such algorithms off-hand simply for the reason that they are relatively new to the literature and it is a thumb rule that you wait for an algorithm to be cryptanalyzed for (say) a decade before you can use it for serious purposes. I am also not sure if there are any standards for such encryption formats. There is only a draft for standard that was submitted in 2010. http://csrc.nist.gov/groups/ST/toolkit/BCM/documents/proposedmodes/ffx/ffx-spec.pdf

So, consider using it judiciously. Do not encrypt information that needs a secrecy span of more than (say) 5 years.

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The reality is you will not benefit from indexes if you encrypt the data. You need to accept this.

If an index is needed, then protect the data by removing permissions to those columns on the DBA accounts. Only the application account will be able to query these columns. The security is in the limited access rather than encryption.

You have to accept trade-offs. I hope someone comes in with a wiz bang answer that proves me wrong!

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+1. Erangel's link is excellent. However keep in mind: that is an MSDN blog article exploring a possible idea, and Dan wants solid tools or techniques for production use, with no risk of downtime or data loss. –  JasonSmith Feb 15 '11 at 4:47
    
A note, well, more of a plug, but our UniVerse database does support encrypted columns, tables, primary keys and even indexes ("which means,among other things, that your queries can still perform effective equal, ordered, or range comparisons based on indexes.") –  Dan McGrath Oct 12 '12 at 22:22
    
@DanMcGrath, How did they do it? What's the process used? –  Pacerier Jun 9 at 23:08
    
I think they have a patent on it somewhere if you search for it. Other than that, I don't think I can talk about the implementation as it is propriety software. –  Dan McGrath Jun 12 at 16:08
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Store the encrypted blobs but create separate indexing tables that are tied to the blobs using encrypted relations. For example, the following table could store your blobs:

blob(ID,SHA(secret-seed,data))

and the indexes could be related to the blob as such:

word(SHA(secret-seed,blob-ID),value)

Now when you query for some blob you do:

select blob join word on SHA(secret-seed,ID) = word-ID where query IN value

You could even use different seeds for the keys and actual blob data.

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The main problem in your scenario is that encryption and availability for indexing / search are contradictory parameters.

Here's the artificial but simple example of the problem: Imagine we are looking for "child porn" in business e-mail. The DB is encrypted, everything is fine. But if the search reveals that the e-mail from John to Bill contains both of these words by finding this e-mail when searching for "child porn", then the actual contents don't matter anymore - child porn should not be discussed in e-mail at all.

So if the DB leaks together with indexes, smart analysis of the word set can reveal plenty of information. For example finding that 50% of corporate mail of software vendor company includes "webos" term can reveal the [possibly secret] fact, that the company works on software for webos.

Now you see, that encryption has limited usefulness in your case. Stronger overall security of the DB might be more important than encryption.

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I don't think one would have an encrypted database be searchable with unencrypted text. The intention would be that anyone wanting to do a search would need to know the encryption and key. The difficulty is that if one wants to allow an efficient search for e.g. entries starting with "chil", then the database must have some means of distinguishing entries that start with "chil" from those which start with other characters without having to decrypt all the entries. That can only really be done by having the indices themselves encrypted; a DB engine can do that more more easily than the client. –  supercat Jun 9 at 23:12
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Take the attributes you want to search on and run them through a 1-way hash (MD5, SHA1), store the results as individual columns and index those columns. Then when you need to query a value, run the input (unencrypted) value through the same hash and search for the hashed value.

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First, if a hacker gets into your server, you probably have bigger problems than them reading an encrypted database.

Encryption will slow you down. That's the tradeoff for strengthening that weak link: an unencrypted database. KeePass (open source password management tool) says upfront that you shouldn't encrypt all of the fields because it will slow everything down.

The good news is that you can give yourself enough encryption to slow most people down enough that they'll go for greener pastures. If you're using AES encryption, just don't make the iteration count astronomical and the response on your application will be acceptable.

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This is avoiding the question. And in any case, the hacker may simply be a curious employee trying to read into other people's personal info gawker.com/5538216/… –  Pacerier Jun 9 at 23:31
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