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IS there a one way encryption that can take a string of any length and produce a sub-10-character hash? I want to produce reasonably unique ID's but based on message contents, rather than randomly.

I can live with constraining the messages to integer values, though, if arbitrary-length strings are impossible. However, the hash must not be similar for two consecutive integers, in that case.

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That's called a hash. It won't be unique. –  SLaks Dec 30 '10 at 23:35
    
Edited the question, hopefully. Thanks. –  bvukelic Dec 30 '10 at 23:41

4 Answers 4

up vote 19 down vote accepted

You can use any commonly available hash algorithm (eg. SHA-1), which will give you a slightly longer result than what you need. Simply truncate the result to the desired length, which may be good enough.

For example, in Python:

>>> import hashlib
>>> hash = hashlib.sha1("my message".encode("UTF-8")).hexdigest()
>>> hash
'104ab42f1193c336aa2cf08a2c946d5c6fd0fcdb'
>>> hash[:10]
'104ab42f11'
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18  
wouldn't this rise the risk of collision to a much higher extent? –  kelmer Apr 30 '13 at 9:39
3  
yes, but you can increase the collision resistance by encoding with base64. –  erasmospunk Nov 12 '13 at 17:38
6  
@erasmospunk: encoding with base64 does nothing for collision resistance, since if hash(a) collides with hash(b) then base64(hash(a)) also collides with base64(hash(b)). –  Greg Hewgill Nov 12 '13 at 18:37
3  
@GregHewgill you are right, but we are not speaking about the original hash algorithm colliding (yes, sha1 collides but this is another story). If you have a 10 characters hash you get higher entropy if it is encoded with base64 vs base16 (or hex). How higher? With base16 you get 4 bits of information per character, with base64 this figure is 6bits/char. Totaly a 10 char "hex" hash will have 40bits of entropy while a base64 60bits. So it is slightly more resistant, sorry if I was not super clear. –  erasmospunk Nov 13 '13 at 14:35
6  
@erasmospunk: Oh I see what you mean, yes if you have a limited fixed size for your result then you can pack more significant bits in with base64 encoding vs. hex encoding. –  Greg Hewgill Nov 13 '13 at 18:46

You need to hash the contents to come up with a digest. There are many hashes available but 10-characters is pretty small for the result set. Way back, people used CRC-32, which produces a 33-bit hash (basically 4 characters plus one bit). There is also CRC-64 which produces a 65-bit hash. MD5, which produces a 128-bit hash (16 bytes/characters) is considered broken for cryptographic purposes because two messages can can be found which have the same hash. It should go without saying that any time you create a 16-byte digest out of an arbitrary length message you're going to end up with duplicates. The shorter the digest, the greater the risk of collisions.

However, your concern that the hash not be similar for two consecutive messages (whether integers or not) should be true with all hashes. Even a single bit change in the original message should produce a vastly different resulting digest.

So, using something like CRC-64 (and base-64'ing the result) should get you in the neighborhood you're looking for.

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Does CRC'ing a SHA-1 hash and then base-64'ing the result make the resulting ID more resistant to collision? –  bvukelic Dec 30 '10 at 23:58
1  
Not in the slightest. –  GregS Dec 31 '10 at 0:48
3  
"However, your concern that the hash not be similar for two consecutive messages [...] should be true with all hashes." -- That's not necessarily true. For example, for hash functions which are used for clustering or clone detection, the exact opposite is true, actually: you want similar documents to yield similar (or even the same) hash values. A well-known example of a hash algorithm that is specifically designed to yield identical values for similar input is Soundex. –  Jörg W Mittag Dec 31 '10 at 1:08
    
I am using the hashes for authenticating the signature of the message. So basically, for a known message, and specified signature, the hash must be correct. I don't care if there would be a small percentage of false positives, though. It's totally accceptable. I currently use the truncated SHA-512 hash compressed with base62 (something I whipped up quickly) for convenience. –  bvukelic Jan 2 '11 at 23:20
    
@JörgWMittag Excellent point on SoundEx. I stand corrected. Not all hashes have the same characteristics. –  John Aug 3 '13 at 4:09

Just summarizing an answer that was helpful to me (noting @erasmospunk's comment about using base-64 encoding). My goal was to have a short string that was mostly unique...

I'm no expert, so please correct this if it has any glaring errors (in Python again like the accepted answer):

import base64
import hashlib
import uuid

unique_id = uuid.uuid4()
hash = hashlib.sha1(str(unique_id))
result = base64.b64encode(hash.digest())

The result here is using more than just hex characters (what you'd get if you used hash.hexdigest()) so it's less likely to have a collision (that is, should be safer to truncate than a hex digest).

Note: Using UUID4 (random). See http://en.wikipedia.org/wiki/Universally_unique_identifier for the other types.

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You are able to use hashids library which has implementations for PHP, Javascript, Python, etc. For more details check this link

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