/usr/lib/python2.7/dist-packages/ntlm/ntlm.py is in python-ntlm 1.1.0-1.
This file is owned by root:root, with mode 0o644.
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# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation, either
# version 3 of the License, or (at your option) any later version.
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library. If not, see <http://www.gnu.org/licenses/> or <http://www.gnu.org/licenses/lgpl.txt>.
import struct
import base64
import string
import des
import hashlib
import hmac
import random
import re
import binascii
from socket import gethostname
NTLM_NegotiateUnicode = 0x00000001
NTLM_NegotiateOEM = 0x00000002
NTLM_RequestTarget = 0x00000004
NTLM_Unknown9 = 0x00000008
NTLM_NegotiateSign = 0x00000010
NTLM_NegotiateSeal = 0x00000020
NTLM_NegotiateDatagram = 0x00000040
NTLM_NegotiateLanManagerKey = 0x00000080
NTLM_Unknown8 = 0x00000100
NTLM_NegotiateNTLM = 0x00000200
NTLM_NegotiateNTOnly = 0x00000400
NTLM_Anonymous = 0x00000800
NTLM_NegotiateOemDomainSupplied = 0x00001000
NTLM_NegotiateOemWorkstationSupplied = 0x00002000
NTLM_Unknown6 = 0x00004000
NTLM_NegotiateAlwaysSign = 0x00008000
NTLM_TargetTypeDomain = 0x00010000
NTLM_TargetTypeServer = 0x00020000
NTLM_TargetTypeShare = 0x00040000
NTLM_NegotiateExtendedSecurity = 0x00080000
NTLM_NegotiateIdentify = 0x00100000
NTLM_Unknown5 = 0x00200000
NTLM_RequestNonNTSessionKey = 0x00400000
NTLM_NegotiateTargetInfo = 0x00800000
NTLM_Unknown4 = 0x01000000
NTLM_NegotiateVersion = 0x02000000
NTLM_Unknown3 = 0x04000000
NTLM_Unknown2 = 0x08000000
NTLM_Unknown1 = 0x10000000
NTLM_Negotiate128 = 0x20000000
NTLM_NegotiateKeyExchange = 0x40000000
NTLM_Negotiate56 = 0x80000000
# we send these flags with our type 1 message
NTLM_TYPE1_FLAGS = (NTLM_NegotiateUnicode | \
NTLM_NegotiateOEM | \
NTLM_RequestTarget | \
NTLM_NegotiateNTLM | \
NTLM_NegotiateOemDomainSupplied | \
NTLM_NegotiateOemWorkstationSupplied | \
NTLM_NegotiateAlwaysSign | \
NTLM_NegotiateExtendedSecurity | \
NTLM_NegotiateVersion | \
NTLM_Negotiate128 | \
NTLM_Negotiate56 )
NTLM_TYPE2_FLAGS = (NTLM_NegotiateUnicode | \
NTLM_RequestTarget | \
NTLM_NegotiateNTLM | \
NTLM_NegotiateAlwaysSign | \
NTLM_NegotiateExtendedSecurity | \
NTLM_NegotiateTargetInfo | \
NTLM_NegotiateVersion | \
NTLM_Negotiate128 | \
NTLM_Negotiate56)
NTLM_MsvAvEOL = 0 # Indicates that this is the last AV_PAIR in the list. AvLen MUST be 0. This type of information MUST be present in the AV pair list.
NTLM_MsvAvNbComputerName = 1 # The server's NetBIOS computer name. The name MUST be in Unicode, and is not null-terminated. This type of information MUST be present in the AV_pair list.
NTLM_MsvAvNbDomainName = 2 # The server's NetBIOS domain name. The name MUST be in Unicode, and is not null-terminated. This type of information MUST be present in the AV_pair list.
NTLM_MsvAvDnsComputerName = 3 # The server's Active Directory DNS computer name. The name MUST be in Unicode, and is not null-terminated.
NTLM_MsvAvDnsDomainName = 4 # The server's Active Directory DNS domain name. The name MUST be in Unicode, and is not null-terminated.
NTLM_MsvAvDnsTreeName = 5 # The server's Active Directory (AD) DNS forest tree name. The name MUST be in Unicode, and is not null-terminated.
NTLM_MsvAvFlags = 6 # A field containing a 32-bit value indicating server or client configuration. 0x00000001: indicates to the client that the account authentication is constrained. 0x00000002: indicates that the client is providing message integrity in the MIC field (section 2.2.1.3) in the AUTHENTICATE_MESSAGE.
NTLM_MsvAvTimestamp = 7 # A FILETIME structure ([MS-DTYP] section 2.3.1) in little-endian byte order that contains the server local time.<12>
NTLM_MsAvRestrictions = 8 #A Restriction_Encoding structure (section 2.2.2.2). The Value field contains a structure representing the integrity level of the security principal, as well as a MachineID created at computer startup to identify the calling machine. <13>
"""
utility functions for Microsoft NTLM authentication
References:
[MS-NLMP]: NT LAN Manager (NTLM) Authentication Protocol Specification
http://download.microsoft.com/download/a/e/6/ae6e4142-aa58-45c6-8dcf-a657e5900cd3/%5BMS-NLMP%5D.pdf
[MS-NTHT]: NTLM Over HTTP Protocol Specification
http://download.microsoft.com/download/a/e/6/ae6e4142-aa58-45c6-8dcf-a657e5900cd3/%5BMS-NTHT%5D.pdf
Cntlm Authentication Proxy
http://cntlm.awk.cz/
NTLM Authorization Proxy Server
http://sourceforge.net/projects/ntlmaps/
Optimized Attack for NTLM2 Session Response
http://www.blackhat.com/presentations/bh-asia-04/bh-jp-04-pdfs/bh-jp-04-seki.pdf
"""
def dump_NegotiateFlags(NegotiateFlags):
if NegotiateFlags & NTLM_NegotiateUnicode:
print "NTLM_NegotiateUnicode set"
if NegotiateFlags & NTLM_NegotiateOEM:
print "NTLM_NegotiateOEM set"
if NegotiateFlags & NTLM_RequestTarget:
print "NTLM_RequestTarget set"
if NegotiateFlags & NTLM_Unknown9:
print "NTLM_Unknown9 set"
if NegotiateFlags & NTLM_NegotiateSign:
print "NTLM_NegotiateSign set"
if NegotiateFlags & NTLM_NegotiateSeal:
print "NTLM_NegotiateSeal set"
if NegotiateFlags & NTLM_NegotiateDatagram:
print "NTLM_NegotiateDatagram set"
if NegotiateFlags & NTLM_NegotiateLanManagerKey:
print "NTLM_NegotiateLanManagerKey set"
if NegotiateFlags & NTLM_Unknown8:
print "NTLM_Unknown8 set"
if NegotiateFlags & NTLM_NegotiateNTLM:
print "NTLM_NegotiateNTLM set"
if NegotiateFlags & NTLM_NegotiateNTOnly:
print "NTLM_NegotiateNTOnly set"
if NegotiateFlags & NTLM_Anonymous:
print "NTLM_Anonymous set"
if NegotiateFlags & NTLM_NegotiateOemDomainSupplied:
print "NTLM_NegotiateOemDomainSupplied set"
if NegotiateFlags & NTLM_NegotiateOemWorkstationSupplied:
print "NTLM_NegotiateOemWorkstationSupplied set"
if NegotiateFlags & NTLM_Unknown6:
print "NTLM_Unknown6 set"
if NegotiateFlags & NTLM_NegotiateAlwaysSign:
print "NTLM_NegotiateAlwaysSign set"
if NegotiateFlags & NTLM_TargetTypeDomain:
print "NTLM_TargetTypeDomain set"
if NegotiateFlags & NTLM_TargetTypeServer:
print "NTLM_TargetTypeServer set"
if NegotiateFlags & NTLM_TargetTypeShare:
print "NTLM_TargetTypeShare set"
if NegotiateFlags & NTLM_NegotiateExtendedSecurity:
print "NTLM_NegotiateExtendedSecurity set"
if NegotiateFlags & NTLM_NegotiateIdentify:
print "NTLM_NegotiateIdentify set"
if NegotiateFlags & NTLM_Unknown5:
print "NTLM_Unknown5 set"
if NegotiateFlags & NTLM_RequestNonNTSessionKey:
print "NTLM_RequestNonNTSessionKey set"
if NegotiateFlags & NTLM_NegotiateTargetInfo:
print "NTLM_NegotiateTargetInfo set"
if NegotiateFlags & NTLM_Unknown4:
print "NTLM_Unknown4 set"
if NegotiateFlags & NTLM_NegotiateVersion:
print "NTLM_NegotiateVersion set"
if NegotiateFlags & NTLM_Unknown3:
print "NTLM_Unknown3 set"
if NegotiateFlags & NTLM_Unknown2:
print "NTLM_Unknown2 set"
if NegotiateFlags & NTLM_Unknown1:
print "NTLM_Unknown1 set"
if NegotiateFlags & NTLM_Negotiate128:
print "NTLM_Negotiate128 set"
if NegotiateFlags & NTLM_NegotiateKeyExchange:
print "NTLM_NegotiateKeyExchange set"
if NegotiateFlags & NTLM_Negotiate56:
print "NTLM_Negotiate56 set"
def create_NTLM_NEGOTIATE_MESSAGE(user, type1_flags=NTLM_TYPE1_FLAGS):
BODY_LENGTH = 40
Payload_start = BODY_LENGTH # in bytes
protocol = 'NTLMSSP\0' #name
type = struct.pack('<I',1) #type 1
flags = struct.pack('<I', type1_flags)
Workstation = gethostname().upper().encode('ascii')
user_parts = user.split('\\', 1)
DomainName = user_parts[0].upper().encode('ascii')
EncryptedRandomSessionKey = ""
WorkstationLen = struct.pack('<H', len(Workstation))
WorkstationMaxLen = struct.pack('<H', len(Workstation))
WorkstationBufferOffset = struct.pack('<I', Payload_start)
Payload_start += len(Workstation)
DomainNameLen = struct.pack('<H', len(DomainName))
DomainNameMaxLen = struct.pack('<H', len(DomainName))
DomainNameBufferOffset = struct.pack('<I',Payload_start)
Payload_start += len(DomainName)
ProductMajorVersion = struct.pack('<B', 5)
ProductMinorVersion = struct.pack('<B', 1)
ProductBuild = struct.pack('<H', 2600)
VersionReserved1 = struct.pack('<B', 0)
VersionReserved2 = struct.pack('<B', 0)
VersionReserved3 = struct.pack('<B', 0)
NTLMRevisionCurrent = struct.pack('<B', 15)
msg1 = protocol + type + flags + \
DomainNameLen + DomainNameMaxLen + DomainNameBufferOffset + \
WorkstationLen + WorkstationMaxLen + WorkstationBufferOffset + \
ProductMajorVersion + ProductMinorVersion + ProductBuild + \
VersionReserved1 + VersionReserved2 + VersionReserved3 + NTLMRevisionCurrent
assert BODY_LENGTH==len(msg1), "BODY_LENGTH: %d != msg1: %d" % (BODY_LENGTH,len(msg1))
msg1 += Workstation + DomainName
msg1 = base64.encodestring(msg1)
msg1 = string.replace(msg1, '\n', '')
return msg1
def parse_NTLM_CHALLENGE_MESSAGE(msg2):
""
msg2 = base64.decodestring(msg2)
Signature = msg2[0:8]
msg_type = struct.unpack("<I",msg2[8:12])[0]
assert(msg_type==2)
TargetNameLen = struct.unpack("<H",msg2[12:14])[0]
TargetNameMaxLen = struct.unpack("<H",msg2[14:16])[0]
TargetNameOffset = struct.unpack("<I",msg2[16:20])[0]
TargetName = msg2[TargetNameOffset:TargetNameOffset+TargetNameMaxLen]
NegotiateFlags = struct.unpack("<I",msg2[20:24])[0]
ServerChallenge = msg2[24:32]
Reserved = msg2[32:40]
if NegotiateFlags & NTLM_NegotiateTargetInfo:
TargetInfoLen = struct.unpack("<H",msg2[40:42])[0]
TargetInfoMaxLen = struct.unpack("<H",msg2[42:44])[0]
TargetInfoOffset = struct.unpack("<I",msg2[44:48])[0]
TargetInfo = msg2[TargetInfoOffset:TargetInfoOffset+TargetInfoLen]
i=0
TimeStamp = '\0'*8
while(i<TargetInfoLen):
AvId = struct.unpack("<H",TargetInfo[i:i+2])[0]
AvLen = struct.unpack("<H",TargetInfo[i+2:i+4])[0]
AvValue = TargetInfo[i+4:i+4+AvLen]
i = i+4+AvLen
if AvId == NTLM_MsvAvTimestamp:
TimeStamp = AvValue
#~ print AvId, AvValue.decode('utf-16')
return (ServerChallenge, NegotiateFlags)
def create_NTLM_AUTHENTICATE_MESSAGE(nonce, user, domain, password, NegotiateFlags):
""
is_unicode = NegotiateFlags & NTLM_NegotiateUnicode
is_NegotiateExtendedSecurity = NegotiateFlags & NTLM_NegotiateExtendedSecurity
flags = struct.pack('<I',NTLM_TYPE2_FLAGS)
BODY_LENGTH = 72
Payload_start = BODY_LENGTH # in bytes
Workstation = gethostname().upper()
DomainName = domain.upper()
UserName = user
EncryptedRandomSessionKey = ""
if is_unicode:
Workstation = Workstation.encode('utf-16-le')
DomainName = DomainName.encode('utf-16-le')
UserName = UserName.encode('utf-16-le')
EncryptedRandomSessionKey = EncryptedRandomSessionKey.encode('utf-16-le')
LmChallengeResponse = calc_resp(create_LM_hashed_password_v1(password), nonce)
NtChallengeResponse = calc_resp(create_NT_hashed_password_v1(password), nonce)
if is_NegotiateExtendedSecurity:
pwhash = create_NT_hashed_password_v1(password, UserName, DomainName)
ClientChallenge = ""
for i in range(8):
ClientChallenge+= chr(random.getrandbits(8))
(NtChallengeResponse, LmChallengeResponse) = ntlm2sr_calc_resp(pwhash, nonce, ClientChallenge) #='\x39 e3 f4 cd 59 c5 d8 60')
Signature = 'NTLMSSP\0'
MessageType = struct.pack('<I',3) #type 3
DomainNameLen = struct.pack('<H', len(DomainName))
DomainNameMaxLen = struct.pack('<H', len(DomainName))
DomainNameOffset = struct.pack('<I', Payload_start)
Payload_start += len(DomainName)
UserNameLen = struct.pack('<H', len(UserName))
UserNameMaxLen = struct.pack('<H', len(UserName))
UserNameOffset = struct.pack('<I', Payload_start)
Payload_start += len(UserName)
WorkstationLen = struct.pack('<H', len(Workstation))
WorkstationMaxLen = struct.pack('<H', len(Workstation))
WorkstationOffset = struct.pack('<I', Payload_start)
Payload_start += len(Workstation)
LmChallengeResponseLen = struct.pack('<H', len(LmChallengeResponse))
LmChallengeResponseMaxLen = struct.pack('<H', len(LmChallengeResponse))
LmChallengeResponseOffset = struct.pack('<I', Payload_start)
Payload_start += len(LmChallengeResponse)
NtChallengeResponseLen = struct.pack('<H', len(NtChallengeResponse))
NtChallengeResponseMaxLen = struct.pack('<H', len(NtChallengeResponse))
NtChallengeResponseOffset = struct.pack('<I', Payload_start)
Payload_start += len(NtChallengeResponse)
EncryptedRandomSessionKeyLen = struct.pack('<H', len(EncryptedRandomSessionKey))
EncryptedRandomSessionKeyMaxLen = struct.pack('<H', len(EncryptedRandomSessionKey))
EncryptedRandomSessionKeyOffset = struct.pack('<I',Payload_start)
Payload_start += len(EncryptedRandomSessionKey)
NegotiateFlags = flags
ProductMajorVersion = struct.pack('<B', 5)
ProductMinorVersion = struct.pack('<B', 1)
ProductBuild = struct.pack('<H', 2600)
VersionReserved1 = struct.pack('<B', 0)
VersionReserved2 = struct.pack('<B', 0)
VersionReserved3 = struct.pack('<B', 0)
NTLMRevisionCurrent = struct.pack('<B', 15)
MIC = struct.pack('<IIII',0,0,0,0)
msg3 = Signature + MessageType + \
LmChallengeResponseLen + LmChallengeResponseMaxLen + LmChallengeResponseOffset + \
NtChallengeResponseLen + NtChallengeResponseMaxLen + NtChallengeResponseOffset + \
DomainNameLen + DomainNameMaxLen + DomainNameOffset + \
UserNameLen + UserNameMaxLen + UserNameOffset + \
WorkstationLen + WorkstationMaxLen + WorkstationOffset + \
EncryptedRandomSessionKeyLen + EncryptedRandomSessionKeyMaxLen + EncryptedRandomSessionKeyOffset + \
NegotiateFlags + \
ProductMajorVersion + ProductMinorVersion + ProductBuild + \
VersionReserved1 + VersionReserved2 + VersionReserved3 + NTLMRevisionCurrent
assert BODY_LENGTH==len(msg3), "BODY_LENGTH: %d != msg3: %d" % (BODY_LENGTH,len(msg3))
Payload = DomainName + UserName + Workstation + LmChallengeResponse + NtChallengeResponse + EncryptedRandomSessionKey
msg3 += Payload
msg3 = base64.encodestring(msg3)
msg3 = string.replace(msg3, '\n', '')
return msg3
def calc_resp(password_hash, server_challenge):
"""calc_resp generates the LM response given a 16-byte password hash and the
challenge from the Type-2 message.
@param password_hash
16-byte password hash
@param server_challenge
8-byte challenge from Type-2 message
returns
24-byte buffer to contain the LM response upon return
"""
# padding with zeros to make the hash 21 bytes long
password_hash = password_hash + '\0' * (21 - len(password_hash))
res = ''
dobj = des.DES(password_hash[0:7])
res = res + dobj.encrypt(server_challenge[0:8])
dobj = des.DES(password_hash[7:14])
res = res + dobj.encrypt(server_challenge[0:8])
dobj = des.DES(password_hash[14:21])
res = res + dobj.encrypt(server_challenge[0:8])
return res
def ComputeResponse(ResponseKeyNT, ResponseKeyLM, ServerChallenge, ServerName, ClientChallenge='\xaa'*8, Time='\0'*8):
LmChallengeResponse = hmac.new(ResponseKeyLM, ServerChallenge+ClientChallenge).digest() + ClientChallenge
Responserversion = '\x01'
HiResponserversion = '\x01'
temp = Responserversion + HiResponserversion + '\0'*6 + Time + ClientChallenge + '\0'*4 + ServerChallenge + '\0'*4
NTProofStr = hmac.new(ResponseKeyNT, ServerChallenge + temp).digest()
NtChallengeResponse = NTProofStr + temp
SessionBaseKey = hmac.new(ResponseKeyNT, NTProofStr).digest()
return (NtChallengeResponse, LmChallengeResponse)
def ntlm2sr_calc_resp(ResponseKeyNT, ServerChallenge, ClientChallenge='\xaa'*8):
import hashlib
LmChallengeResponse = ClientChallenge + '\0'*16
sess = hashlib.md5(ServerChallenge+ClientChallenge).digest()
NtChallengeResponse = calc_resp(ResponseKeyNT, sess[0:8])
return (NtChallengeResponse, LmChallengeResponse)
def create_LM_hashed_password_v1(passwd):
"setup LanManager password"
"create LanManager hashed password"
# if the passwd provided is already a hash, we just return the first half
if re.match(r'^[\w]{32}:[\w]{32}$',passwd):
return binascii.unhexlify(passwd.split(':')[0])
# fix the password length to 14 bytes
passwd = string.upper(passwd)
lm_pw = passwd + '\0' * (14 - len(passwd))
lm_pw = passwd[0:14]
# do hash
magic_str = "KGS!@#$%" # page 57 in [MS-NLMP]
res = ''
dobj = des.DES(lm_pw[0:7])
res = res + dobj.encrypt(magic_str)
dobj = des.DES(lm_pw[7:14])
res = res + dobj.encrypt(magic_str)
return res
def create_NT_hashed_password_v1(passwd, user=None, domain=None):
"create NT hashed password"
# if the passwd provided is already a hash, we just return the second half
if re.match(r'^[\w]{32}:[\w]{32}$',passwd):
return binascii.unhexlify(passwd.split(':')[1])
digest = hashlib.new('md4', passwd.encode('utf-16le')).digest()
return digest
def create_NT_hashed_password_v2(passwd, user, domain):
"create NT hashed password"
digest = create_NT_hashed_password_v1(passwd)
return hmac.new(digest, (user.upper()+domain).encode('utf-16le')).digest()
return digest
def create_sessionbasekey(password):
return hashlib.new('md4', create_NT_hashed_password_v1(password)).digest()
if __name__ == "__main__":
def ByteToHex( byteStr ):
"""
Convert a byte string to it's hex string representation e.g. for output.
"""
return ' '.join( [ "%02X" % ord( x ) for x in byteStr ] )
def HexToByte( hexStr ):
"""
Convert a string hex byte values into a byte string. The Hex Byte values may
or may not be space separated.
"""
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 )
ServerChallenge = HexToByte("01 23 45 67 89 ab cd ef")
ClientChallenge = '\xaa'*8
Time = '\x00'*8
Workstation = "COMPUTER".encode('utf-16-le')
ServerName = "Server".encode('utf-16-le')
User = "User"
Domain = "Domain"
Password = "Password"
RandomSessionKey = '\55'*16
assert HexToByte("e5 2c ac 67 41 9a 9a 22 4a 3b 10 8f 3f a6 cb 6d") == create_LM_hashed_password_v1(Password) # [MS-NLMP] page 72
assert HexToByte("a4 f4 9c 40 65 10 bd ca b6 82 4e e7 c3 0f d8 52") == create_NT_hashed_password_v1(Password) # [MS-NLMP] page 73
assert HexToByte("d8 72 62 b0 cd e4 b1 cb 74 99 be cc cd f1 07 84") == create_sessionbasekey(Password)
assert HexToByte("67 c4 30 11 f3 02 98 a2 ad 35 ec e6 4f 16 33 1c 44 bd be d9 27 84 1f 94") == calc_resp(create_NT_hashed_password_v1(Password), ServerChallenge)
assert HexToByte("98 de f7 b8 7f 88 aa 5d af e2 df 77 96 88 a1 72 de f1 1c 7d 5c cd ef 13") == calc_resp(create_LM_hashed_password_v1(Password), ServerChallenge)
(NTLMv1Response,LMv1Response) = ntlm2sr_calc_resp(create_NT_hashed_password_v1(Password), ServerChallenge, ClientChallenge)
assert HexToByte("aa aa aa aa aa aa aa aa 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00") == LMv1Response # [MS-NLMP] page 75
assert HexToByte("75 37 f8 03 ae 36 71 28 ca 45 82 04 bd e7 ca f8 1e 97 ed 26 83 26 72 32") == NTLMv1Response
assert HexToByte("0c 86 8a 40 3b fd 7a 93 a3 00 1e f2 2e f0 2e 3f") == create_NT_hashed_password_v2(Password, User, Domain) # [MS-NLMP] page 76
ResponseKeyLM = ResponseKeyNT = create_NT_hashed_password_v2(Password, User, Domain)
(NTLMv2Response,LMv2Response) = ComputeResponse(ResponseKeyNT, ResponseKeyLM, ServerChallenge, ServerName, ClientChallenge, Time)
assert HexToByte("86 c3 50 97 ac 9c ec 10 25 54 76 4a 57 cc cc 19 aa aa aa aa aa aa aa aa") == LMv2Response # [MS-NLMP] page 76
# expected failure
# According to the spec in section '3.3.2 NTLM v2 Authentication' the NTLMv2Response should be longer than the value given on page 77 (this suggests a mistake in the spec)
#~ assert HexToByte("68 cd 0a b8 51 e5 1c 96 aa bc 92 7b eb ef 6a 1c") == NTLMv2Response, "\nExpected: 68 cd 0a b8 51 e5 1c 96 aa bc 92 7b eb ef 6a 1c\nActual: %s" % ByteToHex(NTLMv2Response) # [MS-NLMP] page 77
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