# Hashing and encryption technique for a huge data set containing phone numbers

Description of problem: I'm in the process of working with a highly sensitive data-set that contains the people's phone number information as one of the columns. I need to apply (encryption/hash function on them) to convert them as some encoded values and do my analysis. It can be an one-way hash - i.e, after processing with the encrypted data we wont be converting them back to original phone numbers. Essentially, am looking for an anonymizer that takes phone numbers and converts them to some random value on which I can do my processing. Suggest the best way to do about this process. Recommendations on the best algorithms to use are welcome.

Update: size of the dataset My dataset is really huge in the size of hundreds of GB.

Update: Sensitive By sensitive, I meant that phone number should not be a part of our analysis.So, basically I would need a one-way hashing function but without redundancy - Each phone number should map to unique value --Two phones numbers should not map to a same value.

Update: Implementation ?

Thanks for your answers.I am looking for elaborate implementation.I was going through python's hashlib library for hashing, Does it necessarily do the same set of steps that you suggested ? Here is the link

Can you give me some example code to achieve the process , preferably in Python ?

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@jbtule - I didn't understand what you mean, many block ciphers (using IV) are deterministic, and I didn't understand your point. –  TheNewOne Apr 8 '13 at 21:15
@jbtule If encryption was non-deterministic, you couldn't decrypt it reliably. Often times there is a PRNG involved, but all partners of the communication use the pseudo-random seed deterministically. Learner: I would suggest encryption instead of hashing; with hashing, you are likely to have collisions. With encryption, that isn't possible; you can take a really simple cipher, for example DES, which probably will be less efficient than a simple hash, but you won't have collisions and won't skew your results. –  G. Bach Apr 8 '13 at 21:16
@G.Bach No, good encryption is nondeterministic -- the encrypted string is longer than than the message. –  David Eisenstat Apr 8 '13 at 21:40
The db because maybe someone may recommend for the functions to use (faster/more secure etc.) according to the db you use. –  TheNewOne Apr 9 '13 at 8:52
@TheNewOne When I says deterministic I mean given the same plaintext, produces the same ciphertext, most encryption adds an additional random or unique per encryption vector so that no two identical plaintexts produce the same ciphertext and that the ciphertext looks like random data. –  jbtule Apr 9 '13 at 13:11

Generate a key for your data set (16 or 32 bytes) and keep it secret. Use Hmac-sha1 on your data with this key, and base 64 encode that and you have a random unique string per phonenumber that isn't reversable (without the key).

Example (Hmac-Sha1 with 256bit key) using Keyczar:

Create random secret key:

``````\$> python keyczart.py create --location=path_to_key_set --purpose=sign
\$> python keyczart.py addkey --location=path_to_key_set --status=primary
``````

Anonymize phone number:

``````from keyczar import keyczar

def anonymize(phone_num):
return signer.Sign(phone_num)
``````
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Hashes may produce collisions, while he would have to have 2^128 distinct clear text messages to have a high likelihood to have collisions, he'll have to decide whether he wants to trade the possible efficiency loss he'll take using an encryption algorithm against the risk of skewing his data. He can test the efficiency beforehand, and considering SHA does some cryptographic operations, it may be hardly faster than an actual encryption algorithm. –  G. Bach Apr 8 '13 at 21:25
The issue here is the lack of provable security, not the collisions. –  David Eisenstat Apr 8 '13 at 21:46
@DavidEisenstat you are right, updated. –  jbtule Apr 8 '13 at 21:56
Also, @G.Bach good thing there aren't any where near 2^128 phone numbers in existence! –  jbtule Apr 8 '13 at 22:41
@Learner This is where to find hmac, but i updated with a more fool proof example. –  jbtule Apr 9 '13 at 21:16

If you're going to use cryptography, you want to apply a pseudorandom function to each phone number and throw away the key. Collision-resistant hashes such as SHA-256 do not provide the right security guarantees. Really, though, are there that many different phone numbers that you can't just construct incrementally a map representing an actually random function?

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That's a really good point about the map, no matter how large a dataset, there won't be that many phone numbers. –  jbtule Apr 8 '13 at 21:58
@owlstead That, and that unprincipled attempts to construct a PRF from a collision-resistant hash will not be provably secure. –  David Eisenstat Apr 8 '13 at 23:07
@NickJohnson CRHFs may leak subtler forms of information than preimages that, combined with a side channel, could compromise the data set. The security guarantee for a PRF ensures that, regardless of his prior knowledge, a computationally-bounded adversary almost certainly does not "learn anything" beyond what's intended from viewing the outputs of the PRF. –  David Eisenstat Apr 9 '13 at 15:30
@DavidEisenstat I'm not sure what previous edits said, but jbtule et al are now proposing HMAC-SHA256, not concatenation. Concatenation has well known weaknesses as an HMAC construction. –  Nick Johnson Apr 9 '13 at 16:47
Also, there was at least one deleted answer proposing something ad hoc as well. –  David Eisenstat Apr 9 '13 at 17:23

sort your data by the respective column and start counting distinct values ... replace the actual values with their respective counter value ... collision free ... one way ...

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Bad idea. Now if I know a few numbers from the set from an external data source, I can very much narrow down the possible values for the items I don't know. –  Nick Johnson Apr 9 '13 at 15:20
ok ... group to distinct values and order groups by random ? –  DarkSquirrel42 Apr 9 '13 at 16:32
or insert random (not repeating) numbers instead of the counter. I guess it is not so simple. –  jbtule Apr 9 '13 at 16:58
just inserting random numbers won't make sure that the mapping is collision free ... grouping and replacing grouped values while the groups are in random order should prevent the attack @NickJohnson mentioned –  DarkSquirrel42 Apr 9 '13 at 17:05

"So, basically I would need a one-way hashing function but without redundancy - Each phone number should map to unique value --Two phones numbers should not map to a same value."

This screams for a solution based on a cryptographic hash function. MD5 and SHA-1 are the best known examples, and work wonderfully for this. You will read that "MD5 has been cracked", but for your purpose that doesn't matter.

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MD5 having "been cracked" as reported in the literature and press does indeed not matter. Nobody has reported any progress on reversing an MD5 hash back to its original input, only on producing collisions in extremely specific situations. The latter doesn't bear on the OP's question. –  Ross Patterson Apr 9 '13 at 11:31
You can't use a hash function that's output is determined from only the phone number as the input, because brute forcing every phone number in existence is trivial, you don't even need a pregenerated rainbow table to give you all the possible reversals as there are only a fixed number of area codes and then 7 digits. Once you have the reversals the data is no longer anonymized which is relevant to the OP's question. –  jbtule Apr 9 '13 at 13:14