Do you know how to create a ldap compatible password (preferred md5crypt) via python on Windows

I used to write something like this in Linux but the crypt module is not present on Windows

char_set = string.ascii_uppercase + string.digits
salt = ''.join(random.sample(char_set,8))
salt = '$1$' + salt + '$'
pwd = "{CRYPT}" + crypt.crypt(str(old_password),salt)

The Passlib python library contains cross-platform implementations of all the crypt(3) algorithms. In particular, it contains ldap_md5_crypt, which sounds like exactly what you want. Here's how to use it (this code will work on windows or linux):

from passlib.hash import ldap_md5_crypt

#note salt generation is automatically handled
hash = ldap_md5_crypt.encrypt("password")

#hash will be similar to '{CRYPT}$1$wa6OLvW3$uzcIj2Puf3GcFDf2KztQN0'

#to verify a password...
valid = ldap_md5_crypt.verify("password", hash)

I should note that while MD5-Crypt is widely supported (Linux, all the BSDs, internally in openssl), it's none-the-less not the strongest hash available. If you want the strongest hash that's compatible with linux crypt(), SHA512-Crypt is probably the way to go. It adds variable rounds, as well as some other improvements over MD5-Crypt internally.


From here http://www.openldap.org/faq/data/cache/347.html

One of the variants for generating SHA-hash can be:

import sha 
from base64 import b64encode 

ctx = sha.new("your_password") 
hash = "{SHA}" + b64encode(ctx.digest())

This code is for Python.

# python my_sha.py

I (and not only me) don't recommend to use MD5 anymore.

PS. Follow the link you can try some windows variants.


You'll want to use fcrypt, which is a pure Python implementation of the Unix module crypt. It's a bit slower than crypt but it has the same functionality.

  • fcrypt only supports the original DES crypt algorithm, it doesn't support any of the later $x$ formats which were added in, such as md5crypt. – Eli Collins May 6 '11 at 16:10

Disclaimer: I know Google, not cryptography.

From the crypt docs:

This module implements an interface to the crypt(3) routine, which is a one-way hash function based upon a modified DES algorithm; see the Unix man page for further details. Possible uses include allowing Python scripts to accept typed passwords from the user, or attempting to crack Unix passwords with a dictionary.

You could have a look at md5crypt.py. Alternatively, crypt for Windows is part of GnuWin32. Here's some of the Unix man page; the Windows interface should be similar.

CRYPT(3) Linux Programmer's Manual

NAME crypt, crypt_r - password and data encryption


   #define _XOPEN_SOURCE
   #include <unistd.h>

   char *crypt(const char *key, const char *salt);

   char *crypt_r(const char *key, const char *salt,
                 struct crypt_data *data);

Link with -lcrypt.


crypt() is the password encryption function. It is based on the Data Encryption Standard algorithm with variations intended (among other things) to discourage use of hardware implementations of a key search.

key is a user's typed password.

salt is a two-character string chosen from the set [a–zA–Z0–9./]. This string is used to perturb the algorithm in one of 4096 different ways.

By taking the lowest 7 bits of each of the first eight characters of the key, a 56-bit key is obtained. This 56-bit key is used to encrypt repeatedly a constant string (usually a string consisting of all zeros). The returned value points to the encrypted password, a series of 13 printable ASCII characters (the first two characters represent the salt itself). The return value points to static data whose content is overwritten by each call.

Warning: The key space consists of 2**56 equal 7.2e16 possible values. Exhaustive searches of this key space are possible using massively par‐ allel computers. Software, such as crack(1), is available which will search the portion of this key space that is generally used by humans for passwords. Hence, password selection should, at minimum, avoid common words and names. The use of a passwd(1) program that checks for crackable passwords during the selection process is recommended.

The DES algorithm itself has a few quirks which make the use of the crypt() interface a very poor choice for anything other than password authentication. If you are planning on using the crypt() interface for a cryptography project, don't do it: get a good book on encryption and one of the widely available DES libraries.

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