Can CRC32 be used as a hash function?

问题

Can CRC32 be used as a hash function? Any drawbacks to this approach? Any tradedeoffs?

回答1:

CRC32 works very well as a hash algorithm. The whole point of a CRC is to hash a stream of bytes with as few collisions as possible. That said, there are a few points to consider:

CRC's are not secure. For secure hashing you need a much more computationally expensive algorithm. For a simple bucket hasher, security is usually a non-issue.
Different CRC flavors exist with different properties. Make sure you use the right algorithm, e.g. with hash polynomial 0x11EDC6F41 (CRC32C) which is the optimal general purpose choice.
As a hashing speed/quality trade-off, the x86 CRC32 instruction is tough to beat. However, this instruction doesn't exist in older CPU's so beware of portability problems.

---- EDIT ----

Mark Adler provided a link to a useful article for hash evaluation by Bret Mulvey. Using the source code provided in the article, I ran the "bucket test" for both CRC32C and Jenkins96. These tables show the probability that a truly uniform distribution would be worse than the measured result by chance alone. So, higher numbers are better. The author considered 0.05 or lower to be weak and 0.01 or lower to be very weak. I'm entirely trusting the author on all this and am just reporting results.

I placed an * by all the instances where CRC32C performed better than Jenkins96. By this simple tally, CRC32C was a more uniform hash than Jenkins96 54 of 96 times. Especially if you can use the x86 CRC32 instruction, the speed performance trade-off is excellent.

CRC32C (0x1EDC6F41)

       Uniform keys        Text keys         Sparse keys

Bits  Lower    Upper     Lower    Upper     Lower    Upper
 1    0.671   *0.671    *1.000    0.120    *0.572   *0.572
 2   *0.706   *0.165    *0.729   *0.919     0.277    0.440
 3   *0.878   *0.879    *0.556    0.362    *0.535   *0.542
 4    0.573    0.332     0.433    0.462    *0.855    0.393
 5    0.023   *0.681     0.470    0.907     0.266    0.059
 6   *0.145   *0.523     0.354   *0.172    *0.336    0.588
 7    0.424    0.722     0.172   *0.736     0.184   *0.842
 8   *0.767    0.507    *0.533    0.437     0.337    0.321
 9    0.480    0.725    *0.753   *0.807    *0.618    0.025
10   *0.719    0.161    *0.970   *0.740    *0.789    0.344
11   *0.610    0.225    *0.849   *0.814    *0.854   *0.003
12   *0.979   *0.239    *0.709    0.786     0.171   *0.865
13   *0.515    0.395     0.192    0.600     0.869   *0.238
14    0.089   *0.609     0.055   *0.414    *0.286   *0.398
15   *0.372   *0.719    *0.944    0.100    *0.852   *0.300
16    0.015   *0.946    *0.467    0.459     0.372   *0.793

And for Jenkins96, which the author of article considered to be an excellent hash:

Jenkins96

      Uniform keys         Text keys         Sparse keys

Bits  Lower    Upper     Lower    Upper     Lower    Upper
 1    0.888    0.572     0.090    0.322     0.090    0.203
 2    0.198    0.027     0.505    0.447     0.729    0.825
 3    0.444    0.510     0.360    0.444     0.467    0.540
 4    0.974    0.783     0.724    0.971     0.439    0.902
 5    0.308    0.383     0.686    0.940     0.424    0.119
 6    0.138    0.505     0.907    0.103     0.300    0.891
 7    0.710    0.956     0.202    0.407     0.792    0.506
 8    0.031    0.552     0.229    0.573     0.407    0.688
 9    0.682    0.990     0.276    0.075     0.269    0.543
10    0.382    0.933     0.038    0.559     0.746    0.511
11    0.043    0.918     0.101    0.290     0.584    0.822
12    0.895    0.036     0.207    0.966     0.486    0.533
13    0.290    0.872     0.902    0.934     0.877    0.155
14    0.859    0.568     0.428    0.027     0.136    0.265
15    0.290    0.420     0.915    0.465     0.532    0.059
16    0.155    0.922     0.036    0.577     0.545    0.336

回答2:

Obviously you could, but you shouldn't. A crc32 poorly distributes the input bits to the hash. Also it certainly shouldn't ever be used as a one-way hash since it isn't one. It's very easy to modify a message to produce a given crc.

Use a hash algorithm designed for the purpose you have in mind, whatever that is.

回答3:

I don't know why Mark Adler said that "crc32 poorly distributes the input bits to hash". There is no single bit in the crc32 hash that is exactly equal to the input bits. Any bit of the hash is a linear combination of the input bits. Secondly, crc always evenly map the same number of different of input sequences to a given hash value. For example, if you have 1000 bits long message, after crc32, you can always find 2^(1000-32) sequences that produce a given hash value, no more, no less.

If you do not need the security feature, crc can serve as hash perfectly.

Actually, I think other non-secure hash functions may be simpler than crc, if you need to have a longer crc, for example crc-256.

来源：https://stackoverflow.com/questions/10953958/can-crc32-be-used-as-a-hash-function

标签

hash

crc32