I have found it strange that sha512 can create a string so much smaller than what it is supplied with.
Here is an example (in python):

Python 3.6.0 (default, Jan 13 2017, 00:00:00) 
[GCC 4.8.4] on linux
Type "help", "copyright", "credits" or "license" for more information.
>>> import hashlib
>>> string='-'*10000
>>> hash=hashlib.sha512(string.encode('utf-8'))
>>> hash.hexdigest()
>>> len(string)
>>> len(hash.hexdigest())

How is it possible to create a hash over 78 times smaller than the raw string?

  • 1
    Uhm. Why is it not possible? I can easily create a function that returns a 2-byte output for an input of any size: def f(in): return b'\x00\x00'. – Luke Joshua Park Jun 21 at 22:48
  • 3
    Anyway, in your example the hash is 78 times shorter than the raw string. – James K Polk Jun 21 at 23:16
  • 4
    I can't tell if you're asking how a hash compresses long inputs, or how a hash expands short inputs. – erickson Jun 22 at 0:04
  • Short answer: padding. – rossum Jun 22 at 10:48
  • @erickson, I'm asking how it shortens the string. It was a typo. – Anynomous Jun 22 at 19:16
up vote 0 down vote accepted

SHA-256 is non-reversable so it can be shorter. But the real answer is google SHA-256 (or another cryptographic hash) and examine the code. Here is a real-world example of a hash. A bottle club has over 1000 members but has only 100 bins to store member's bottles. It just uses the last 2 digits of the membership ID number for the bin number, a simple hash. That reduces the 1000+ bottle to 100 pigeonholes.

See SHA-2 family for detailed information and pseudo-code.

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