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What I need is to hash a string. It doesn't have to be secure because it's just going to be a hidden phrase in the text file (it just doesn't have to be recognizable for a human-eye).

It should not be just a random string because when the users types the string I would like to hash it and compare it with an already hashed one (from the text file).

What would be the best for this purpose? Can it be done with the built-in classes?

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1  
What's your real problem? There are many hash algorithms, the bset approach depends how will you use the hash string. – Leonardo.Z Oct 25 '13 at 3:20
up vote 29 down vote accepted

First off, let me say that you can't guarantee unique results. If you wanted unique results for all the strings in the universe, you're better off storing the string itself (or a compressed version).

More on that in a second. Let's get some hashes first.

hashlib way

You can use any of the main cryptographic hashes to hash a string with a few steps:

>>> import hashlib
>>> sha = hashlib.sha1("I am a cat")
>>> sha.hexdigest()
'576f38148ae68c924070538b45a8ef0f73ed8710'

You have a choice between SHA1, SHA224, SHA256, SHA384, SHA512, and MD5 as far as built-ins are concerned.

What's the difference between those hash algorithms?

A hash function works by taking data of variable length and turning it into data of fixed length.

The fixed length, in the case of each of the SHA algorithms built into hashlib, is the number of bits specified in the name (with the exception of sha1 which is 160 bits). If you want better certainty that two strings won't end up in the same bucket (same hash value), pick a hash with a bigger digest (the fixed length).

In sorted order, these are the digest sizes you have to work with:

Algorithm  Digest Size (in bits)
md5        128
sha1       160
sha224     224
sha256     256
sha384     384
sha512     512

The bigger the digest the less likely you'll have a collision, provided your hash function is worth its salt.

Wait, what about hash()?

The built in hash() function returns integers, which could also be easy to use for the purpose you outline. There are problems though.

>>> hash('moo')
6387157653034356308
  1. If your program is going to run on different systems, you can't be sure that hash will return the same thing. In fact, I'm running on a 64-bit box using 64-bit Python. These values are going to be wildly different than for 32-bit Python.

  2. For Python 3.3+, as @gnibbler pointed out, hash() is randomized between runs. It will work for a single run, but almost definitely won't work across runs of your program (pulling from the text file you mentioned).

Why would hash() be built that way? Well, the built in hash is there for one specific reason. Hash tables/dictionaries/look up tables in memory. Not for cryptographic use but for cheap lookups at runtime.

Don't use hash(), use hashlib.

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2  
hash() is randomized between runs since Python3.3 ie. you can only rely on it returning the same value within a single run of a program – John La Rooy Oct 25 '13 at 4:34
    
Great. Thanks for that @gnibbler, I didn't know it wasn't stable between runs. – Kyle Kelley Oct 25 '13 at 12:40
2  
This post is awesome. Contains all the informations I needed. People like you rocks, thanks mate. – Lucas Oct 25 '13 at 13:47
1  
this is a goddamn good answer – Giampaolo Rodolà Sep 17 '14 at 13:32

Note that Python's string hash is not "defined" - it can, and does, vary across releases and implementations. So storing a Python string hash will create difficulties. CPython's string hash makes no attempt to be "obscure", either.

A standard approach is to use a hash function designed for this kind of thing. Like this:

>>> import hashlib
>>> encoded = hashlib.sha1("abcdef") # "abcdef" is the password
>>> encoded.hexdigest()
'1f8ac10f23c5b5bc1167bda84b833e5c057a77d2'

That long string of hexadecimal digits is "the hash". SHA-1 is a "strong" hash function. You can get famous if you find two strings that hash to the same value ;-) And given the same input, it will return the same "hexdigest" on all platforms across all releases and implementations of Python.

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1  
Especially since Python3.3 hash(somestring) is different between runs – John La Rooy Oct 25 '13 at 4:36

You can simply use the base64 module to achieve your goal:

>>> import base64
>>> a = 'helloworld'
>>> encoded_str = base64.encodestring(a)
>>> encoded_str
'aGVsbG93b3JsZA=='
>>> base64.decodestring(encoded_str)
'helloworld'
>>>

of course you can also use the the hashlib module, it's more secure , because the hashed string cannot(or very very hard) be decoded latter, but for your question base64 is enough -- "It doesn't really have to be secure"

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Does base64 come with Python2.3 (yeah I know its odd) by default? – Lucas Oct 25 '13 at 3:31
    
Yes! It's OK to run the above code in Python 2.3 Learn More From Here – tinylambda Oct 25 '13 at 5:28

Simply use the hash() built-in function, for example:

s = 'a string'
hash(s)
=> -8411828025894108412
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Is this going to generate unique numbers for each string? Can it be decoded (just curious)? – Lucas Oct 25 '13 at 3:14
1  
@Lucas, it's impossible for a fixed-size hash function to return a different value for all possible strings. For example, if a hash function returns 2 bits, it has only 4 possible values. – Tim Peters Oct 25 '13 at 3:18
    
@Tim Peters Can it be decoded (just curious)? – Lucas Oct 25 '13 at 3:18
2  
@Lucas no, a hash cannot be 'decoded'. If two objects are equal, their hash is equal; however, many objects can (will, in the case of strings) resolve to the same hash value. – roippi Oct 25 '13 at 3:23
1  
This is a bad idea. See my comments on other answers – John La Rooy Oct 25 '13 at 4:37

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