Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am trying to create an LM/NTLM response for which I require encrypting the challenge sent by server using DES algorithm

The following is what I did:

from M2Crypto.EVP import Cipher

def encryptChallenge(magic, key):  
    str_key = ""  
    for iter1 in key:  
        str_key = str_key + chr(iter1)  

    encrypt = 1
    cipher = Cipher(alg='des_ede_ecb', key=str_key, op=encrypt, iv='\0'*16)
    ciphertext = cipher.update(magic)
    ciphertext += cipher.final()

    return ciphertext

However when I try encrypting "\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b\x0c\x0d\x0e\x0f" using DES, I get the following result:

Key used to encrypt: ['0xfe', '0x9b', '0xd5', '0x16', '0xcd', '0x15', '0xc8', '0x49']

Challenge after encryption:

 Encrypted_server_challenge_using_key_1 : ['0x66', '0xf7', '0xa', '0xf8', '0xda', '0x4e', '0x7', '0xaa', '0x65', '0xc3', '0x8d', '0xaa', '0x48', '0xcc', '0x67', '0x57', '0xe2', '0xb0', '0x6e', '0x10', '0xb', '0x5e', '0xdd', '0xb4']

The above response was not accepted by the server

Tried using a tool called DEScalc.jar (http://www.unsw.adfa.edu.au/~lpb/src/DEScalc/index.html) and found that the encrypted result is:

  IP:   L0=cc00ccff, R0=f0aaf0aa
  Rnd1  f(R0=f0aaf0aa, SK1=0b 2c 23 12 33 1c 2b 09 ) = 988995a0
  Rnd2  f(R1=5489595f, SK2=21 15 0d 11 1c 1a 3b 38 ) = 63200664
  Rnd3  f(R2=938af6ce, SK3=01 35 2f 05 3e 19 30 1f ) = c206c318
  Rnd4  f(R3=968f9a47, SK4=06 37 07 01 03 37 1a 3e ) = bdf738ef
  Rnd5  f(R4=2e7dce21, SK5=06 14 17 29 0f 17 27 25 ) = 76c68d3d
  Rnd6  f(R5=e049177a, SK6=34 14 06 0d 28 2c 23 37 ) = c182a1c7
  Rnd7  f(R6=efff6fe6, SK7=04 18 2e 05 31 3a 3e 17 ) = c3e45497
  Rnd8  f(R7=23ad43ed, SK8=04 13 22 27 2f 30 1f 19 ) = 4977a92c
  Rnd9  f(R8=a688c6ca, SK9=12 0a 38 0c 3d 33 19 26 ) = 4975507e
  Rnd10 f(R9=6ad81393, SK10=10 0b 30 1e 1f 08 2f 2e ) = d52a9361
  Rnd11 f(R10=73a255ab, SK11=19 0a 31 22 05 0f 33 1f ) = 38b2a619
  Rnd12 f(R11=526ab58a, SK12=38 2e 30 22 1b 3b 13 31 ) = e9dec064
  Rnd13 f(R12=9a7c95cf, SK13=3a 0a 1c 12 2a 3e 35 2b ) = d88ee399
  Rnd14 f(R13=8ae45613, SK14=19 09 18 1b 0b 2d 3c 16 ) = 9de6ddb2
  Rnd15 f(R14=079a487d, SK15=19 39 01 12 37 14 17 36 ) = 5fb60a90
  Rnd16 f(R15=d5525c83, SK16=24 05 0d 39 31 1f 2d 34 ) = 6a40b6ea
  FP:   L=c337cd5c, R=bd44fc97
 returns c337cd5cbd44fc97

Noticed that the above result is accepted by the server

Is there a specific algorithm that is used by DEScalc.jar which I am missing, because of which I don't get the results obtained by DEScalc.jar

Hi Everyone, Thanks a lot for your help; The issue was with the way I represented the hexadecimal in python; I used the following function to convert "0123456789abcdef" to hex representation as Keith mentioned and it worked:

def HexToByte( hexStr ):
    Convert a string hex byte values into a byte string. The Hex Byte values may
    or may not be space separated.
    # The list comprehension implementation is fractionally slower in this case    
    #    hexStr = ''.join( hexStr.split(" ") )
    #    return ''.join( ["%c" % chr( int ( hexStr[i:i+2],16 ) ) \
    #                                   for i in range(0, len( hexStr ), 2) ] )

    bytes = []

    hexStr = ''.join( hexStr.split(" ") )

    for i in range(0, len(hexStr), 2):
        bytes.append( chr( int (hexStr[i:i+2], 16 ) ) )

    return ''.join( bytes )

Thanks a lot

share|improve this question
Out of curiosity, did you also change the cipher from DES-EDE-ECB to DES-ECB? –  Omri Barel Jul 28 '11 at 13:41

2 Answers 2

The problem here is in your source (plaintext) string. You have each character expanded to two bytes, instead of one byte. The Java program will take the input "0123456789abcdef", and use internally the hex string of that. Using pycrypto and a properly encoded plaintext I get this.

Python2> from Crypto.Cipher import DES
Python2> key
Python2> pw
Python2> eng = DES.new(key, DES.MODE_ECB, "\0"*8)
Python2> hexdigest(eng.encrypt(pw))

Which you can see is the same as the Java code.

share|improve this answer
Wow that is great; Thanks a lot for you help Keith; How did you generate the pw string? –  Deaf Ear Jul 28 '11 at 9:45
Ah beautiful, I just found it in : code.activestate.com/recipes/… –  Deaf Ear Jul 28 '11 at 9:57
The HexToByte function in that link worked Thanks a lot Keith –  Deaf Ear Jul 28 '11 at 9:57
NP. I used my own unhexdigest function, remarkably similar to that linked one. :-) PS. since you're new here, you can "accept" the answer. ;-) –  Keith Jul 28 '11 at 10:40

Are you sure you need to use DES-EDE-ECB?

EDE means that you're actually using Triple DES: you run DES three times (with three different keys), and EDE means that you encrypt-decrypt-encrypt (each time with a different key).

But it sounds like you should just be using plain DES ('des_ecb').

share|improve this answer
Thanks omrib will try using des_ecb this time and see whether I get proper reults –  Deaf Ear Jul 28 '11 at 7:29
Tried des_ecb and the results are still different: –  Deaf Ear Jul 28 '11 at 7:31
Sorry, pressing enter in comment section actually submits, so missed this text: Encrypted_server_challenge_using_key_1 : ['0x25', '0x84', '0x4c', '0x45', '0x86', '0xce', '0x7', '0xf9', '0xd6', '0x83', '0x49', '0xab', '0x3b', '0x83', '0xf2', '0xe6'] –  Deaf Ear Jul 28 '11 at 7:32

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.