view MoinMoin/support/passlib/ @ 6008:d72a5e95c7c0

upgrade bundled passlib to 1.6.2
author Thomas Waldmann <tw AT waldmann-edv DOT de>
date Sun, 05 Jan 2014 02:43:02 +0100
parents efd7c0be3339
children 86a41c2bedec
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"""passlib.win32 - MS Windows support - DEPRECATED, WILL BE REMOVED IN 1.8

the LMHASH and NTHASH algorithms are used in various windows related contexts,
but generally not in a manner compatible with how passlib is structured.

in particular, they have no identifying marks, both being
32 bytes of binary data. thus, they can't be easily identified
in a context with other hashes, so a CryptHandler hasn't been defined for them.

this module provided two functions to aid in any use-cases which exist.

.. warning::

    these functions should not be used for new code unless an existing
    system requires them, they are both known broken,
    and are beyond insecure on their own.

.. autofunction:: raw_lmhash
.. autofunction:: raw_nthash

See also :mod:`passlib.hash.nthash`.

from warnings import warn
warn("the 'passlib.win32' module is deprecated, and will be removed in "
     "passlib 1.8; please use the 'passlib.hash.nthash' and "
     "'passlib.hash.lmhash' classes instead.",

# imports
# core
from binascii import hexlify
# site
# pkg
from passlib.utils.compat import b, unicode
from passlib.utils.des import des_encrypt_block
from passlib.hash import nthash
# local
__all__ = [
# helpers
LM_MAGIC = b("KGS!@#$%")

raw_nthash = nthash.raw_nthash

def raw_lmhash(secret, encoding="ascii", hex=False):
    "encode password using des-based LMHASH algorithm; returns string of raw bytes, or unicode hex"
    # NOTE: various references say LMHASH uses the OEM codepage of the host
    #       for it's encoding. until a clear reference is found,
    #       as well as a path for getting the encoding,
    #       letting this default to "ascii" to prevent incorrect hashes
    #       from being made w/o user explicitly choosing an encoding.
    if isinstance(secret, unicode):
        secret = secret.encode(encoding)
    ns = secret.upper()[:14] + b("\x00") * (14-len(secret))
    out = des_encrypt_block(ns[:7], LM_MAGIC) + des_encrypt_block(ns[7:], LM_MAGIC)
    return hexlify(out).decode("ascii") if hex else out

# eoc