Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

A naive attempt fails miserably:

import hashlib

class fred(hashlib.sha256):

-> TypeError: Error when calling the metaclass bases
       cannot create 'builtin_function_or_method' instances

Well, it turns out that hashlib.sha256 is a callable, not a class. Trying something a bit more creative doesn't work either:

 import hashlib

 class fred(type(hashlib.sha256())):

 f = fred

 -> TypeError: cannot create 'fred' instances


So, how do I do it?

Here is what I want to actually achieve:

class shad_256(sha256):
    """Double SHA - sha256(sha256(data).digest())
Less susceptible to length extension attacks than sha256 alone."""
    def digest(self):
        return sha256(sha256.digest(self)).digest()
    def hexdigest(self):
        return sha256(sha256.digest(self)).hexdigest()

Basically I want everything to pass through except when someone calls for a result I want to insert an extra step of my own. Is there a clever way I can accomplish this with __new__ or metaclass magic of some sort?

I have a solution I'm largely happy with that I posted as an answer, but I'm really interested to see if anybody can think of anything better. Either much less verbose with very little cost in readability or much faster (particularly when calling update) while still being somewhat readable.

Update: I ran some tests:

# test_sha._timehash takes three parameters, the hash object generator to use,
# the number of updates and the size of the updates.

# Built in hashlib.sha256
$ python2.7 -m timeit -n 100 -s 'import test_sha, hashlib' 'test_sha._timehash(hashlib.sha256, 20000, 512)'
100 loops, best of 3: 104 msec per loop

# My wrapper based approach (see my answer)
$ python2.7 -m timeit -n 100 -s 'import test_sha, hashlib' 'test_sha._timehash(test_sha.wrapper_shad_256, 20000, 512)'
100 loops, best of 3: 108 msec per loop

# Glen Maynard's getattr based approach
$ python2.7 -m timeit -n 100 -s 'import test_sha, hashlib' 'test_sha._timehash(test_sha.getattr_shad_256, 20000, 512)'
100 loops, best of 3: 103 msec per loop
share|improve this question
What was -1 about my question? – Omnifarious Oct 27 '10 at 6:05
​(​​p​i​n​g​​)​ – Glenn Maynard Nov 4 '10 at 21:45
Well, applying SHA256 twice won't reinforce security at all. if you have a collision on sha256 alone, then the digests are identical, so the second sha256 will generate the same hash. If you want security, you need to combines hashes, not chain them. – BatchyX Nov 6 '10 at 21:10
@BatchyX - You are not describing the type of attack I'm defending against. In a length extension attack the attacker generates the internal hash algorithm state from the hash value and then feeds more data into the hash algorithm and generates a new hash. This can allow an attacker to add data to a message in certain circumstances or do other nasty things. I'm not expecting the new hash to be more collision resistant. In fact, I'm a little worried it would be less. But it definitely is much more resistant to length extension. – Omnifarious Nov 6 '10 at 21:21

4 Answers 4

up vote 5 down vote accepted

Just use __getattr__ to cause all attributes that you don't define yourself to fall back on the underlying object:

import hashlib

class shad_256(object):
    Double SHA - sha256(sha256(data).digest())
    Less susceptible to length extension attacks than sha256 alone.

    >>> s = shad_256('hello world')
    >>> s.digest_size
    >>> s.block_size
    >>> s.sha256.hexdigest()
    >>> s.hexdigest()
    >>> s.nonexistant()
    Traceback (most recent call last):
    AttributeError: '_hashlib.HASH' object has no attribute 'nonexistant'
    >>> s2 = s.copy()
    >>> s2.digest() == s.digest()
    >>> s2.update("text")
    >>> s2.digest() == s.digest()
    def __init__(self, data=None):
        self.sha256 = hashlib.sha256()
        if data is not None:

    def __getattr__(self, key):
        return getattr(self.sha256, key)

    def _get_final_sha256(self):
        return hashlib.sha256(self.sha256.digest())

    def digest(self):
        return self._get_final_sha256().digest()

    def hexdigest(self):
        return self._get_final_sha256().hexdigest()

    def copy(self):
        result = shad_256()
        result.sha256 = self.sha256.copy()
        return result

if __name__ == "__main__":
    import doctest

This mostly eliminates the overhead for update calls, but not completely. If you want to completely eliminate it, add this to __init__ (and correspondingly in copy):

self.update = self.sha256.update

That will eliminate the extra __getattr__ call when looking up update.

This all takes advantage of one of the more useful and often overlooked properties of Python member functions: function binding. Recall that you can do this:

a = "hello"
b = a.upper

because taking a reference to a member function doesn't return the original function, but a binding of that function to its object. That's why, when __getattr__ above returns self.sha256.update, the returned function correctly operates on self.sha256, not self.

share|improve this answer
I need to test this a bit to compare the speed against what I'm doing. – Omnifarious Nov 5 '10 at 0:32
With the self.update optimization, I find updates are exactly as fast as using sha256 directly--as expected, since it's doing the same thing (a __dict__ lookup and native function call). – Glenn Maynard Nov 5 '10 at 18:59
I added some timing information. Yours is very slightly better than mine. – Omnifarious Nov 6 '10 at 20:52
I think I'm going to choose a combination of yours and mine (basically use your update optimization) because I like the fact that it's so easy to wrap a random hash function while preserving accurate doc strings with mine. – Omnifarious Nov 6 '10 at 21:23
Your timing's "very slightly better" is the same speed as sha256 itself, which means that's as good as it gets: zero overhead. Aside from that (and more the point), implementing __getattr__ like this is the simplest way to "subclass" objects like sha256 which don't have an exposed class. Don't know if there's something else you're looking for. – Glenn Maynard Nov 6 '10 at 21:27

Make a new class, derive from object, create a hashlib.sha256 member var in init, then define methods expected of a hash class and proxy to the same methods of the member variable.

Something like:

import hashlib

class MyThing(object):
    def __init__(self):
        self._hasher = hashlib.sha256()

    def digest(self):
        return self._hasher.digest()

And so on for the other methods.

share|improve this answer
Well, that would work. I was hoping to do something more clever that involved less typing, because, you know, I'd rather type a whole bunch of text in StackOverflow then a bunch of repetitive method declarations. :-) – Omnifarious Oct 27 '10 at 3:16
You could override getattr or getattribute and proxy all calls down to the self._hasher variable, I suppose that would be a bit more clever. – Adam Vandenberg Oct 27 '10 at 3:18
@Adam Vandenberg, more clever but it would actually be much more verbose, because gettattr would have to conditionally apply function wrappers. – mikerobi Oct 27 '10 at 3:21
I posted what I eventually did as an answer, but if you can come up with something better I'm all ears. It's actually similar to what you wrote here. – Omnifarious Oct 28 '10 at 6:03
To me 'clever' is readable, simple code. This answer is very clever. +1 – Scott Nov 4 '10 at 5:43

So, here is the answer I came up with that's based on Glen's answer, which is the one I awarded him the bounty for:

import hashlib

class _double_wrapper(object):
    """This wrapper exists because the various hashes from hashlib are
    factory functions and there is no type that can be derived from.
    So this class simulates deriving from one of these factory
    functions as if it were a class and then implements the 'd'
    version of the hash function which avoids length extension attacks
    by applying H(H(text)) instead of just H(text)."""

    __slots__ = ('_wrappedinstance', '_wrappedfactory', 'update')
    def __init__(self, wrappedfactory, *args):
        self._wrappedfactory = wrappedfactory

    def _assign_instance(self, instance):
        "Assign new wrapped instance and set update method."
        self._wrappedinstance = instance
        self.update = instance.update

    def digest(self):
        "return the current digest value"
        return self._wrappedfactory(self._wrappedinstance.digest()).digest()

    def hexdigest(self):
        "return the current digest as a string of hexadecimal digits"
        return self._wrappedfactory(self._wrappedinstance.digest()).hexdigest()

    def copy(self):
        "return a copy of the current hash object"
        new = self.__class__()
        return new

    digest_size = property(lambda self: self._wrappedinstance.digest_size,
                           doc="number of bytes in this hashes output")
    digestsize = digest_size
    block_size = property(lambda self: self._wrappedinstance.block_size,
                          doc="internal block size of hash function")

class shad_256(_double_wrapper):
    Double SHA - sha256(sha256(data))
    Less susceptible to length extension attacks than SHA2_256 alone.

    >>> import binascii
    >>> s = shad_256('hello world')
    >>> int(s.digest_size)
    >>> int(s.block_size)
    >>> s.hexdigest()
    >>> binascii.hexlify(s.digest()) == s.hexdigest()
    >>> s2 = s.copy()
    >>> s2.digest() == s.digest()
    >>> s2.update("text")
    >>> s2.digest() == s.digest()
    __slots__ = ()
    def __init__(self, *args):
        super(shad_256, self).__init__(hashlib.sha256, *args)
    name = property(lambda self: 'shad256', doc='algorithm name')

This is a little verbose, but results in a class that works very nicely from a documentation perspective and has a relatively clear implementation. With Glen's optimization, update is as fast as it possibly can be.

There is one annoyance, which is that the update function shows up as a data member and doesn't have a docstring. I think that's a readability/efficiency tradeoff that's acceptable.

share|improve this answer
This is pretty much write-only, isn't it? – Michael Foukarakis Oct 27 '10 at 7:55
@Michael Foukarakis - Yes, but it does mean I have very little extra code to write for any other hash function. – Omnifarious Oct 27 '10 at 13:56
@Michael Foukarakis - I fixed it so it no longer has the 'write-only' property nearly so strongly. – Omnifarious Oct 27 '10 at 17:32
from hashlib import sha256

class shad_256(object):
    def __init__(self, data=''):
        self._hash = sha256(data)

    def __getattr__(self, attr):
        setattr(self, attr, getattr(self._hash, attr))
        return getattr(self, attr)

    def copy(self):
        ret = shad_256()
        ret._hash = self._hash.copy()
        return ret

    def digest(self):
        return sha256(self._hash.digest()).digest()

    def hexdigest(self):
        return sha256(self._hash.digest()).hexdigest()

Any attributes that are not found on an instance are bound lazily by __getattr__. copy() needs to be treated specially of course.

share|improve this answer
This is basically identical to Glenn Maynard's answer. – Omnifarious Nov 6 '10 at 16:06

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.