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reg.py
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reg.py
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#!/usr/bin/env python
# Impacket - Collection of Python classes for working with network protocols.
#
# Copyright Fortra, LLC and its affiliated companies
#
# All rights reserved.
#
# This software is provided under a slightly modified version
# of the Apache Software License. See the accompanying LICENSE file
# for more information.
#
# Description:
# Remote registry manipulation tool.
# The idea is to provide similar functionality as the REG.EXE Windows utility.
#
# e.g:
# ./reg.py Administrator:password@targetMachine query -keyName HKLM\\Software\\Microsoft\\WBEM -s
# ./reg.py Administrator:password@targetMachine add -keyName HKLM\\SYSTEM\\CurrentControlSet\\Control\\Lsa -v DisableRestrictedAdmin -vt REG_DWORD -vd 1
# ./reg.py Administrator:password@targetMachine add -keyName HKLM\\SYSTEM\\CurrentControlSet\\Services\\NewService
# ./reg.py Administrator:password@targetMachine add -keyName HKCR\\hlpfile\\DefaultIcon -v '' -vd '\\SMBRelay\share'
# ./reg.py Administrator:password@targetMachine delete -keyName HKLM\\SYSTEM\\CurrentControlSet\\Control\\Lsa -v DisableRestrictedAdmin
#
# Author:
# Manuel Porto (@manuporto)
# Alberto Solino (@agsolino)
#
# Reference for:
# [MS-RRP]
#
from __future__ import division
from __future__ import print_function
import argparse
import codecs
import logging
import sys
import time
import binascii
from struct import unpack
from impacket import version
from impacket.dcerpc.v5 import transport, rrp, scmr, rpcrt
from impacket.examples import logger
from impacket.examples.utils import parse_target
from impacket.system_errors import ERROR_NO_MORE_ITEMS
from impacket.structure import hexdump
from impacket.smbconnection import SMBConnection, SessionError
from impacket.dcerpc.v5.dtypes import READ_CONTROL
class RemoteOperations:
def __init__(self, smbConnection, doKerberos, kdcHost=None):
self.__smbConnection = smbConnection
self.__smbConnection.setTimeout(5 * 60)
self.__serviceName = 'RemoteRegistry'
self.__stringBindingWinReg = r'ncacn_np:445[\pipe\winreg]'
self.__rrp = None
self.__regHandle = None
self.__doKerberos = doKerberos
self.__kdcHost = kdcHost
self.__disabled = False
self.__shouldStop = False
self.__started = False
self.__stringBindingSvcCtl = r'ncacn_np:445[\pipe\svcctl]'
self.__scmr = None
def getRRP(self):
return self.__rrp
def __connectSvcCtl(self):
rpc = transport.DCERPCTransportFactory(self.__stringBindingSvcCtl)
rpc.set_smb_connection(self.__smbConnection)
self.__scmr = rpc.get_dce_rpc()
self.__scmr.connect()
self.__scmr.bind(scmr.MSRPC_UUID_SCMR)
def connectWinReg(self):
rpc = transport.DCERPCTransportFactory(self.__stringBindingWinReg)
rpc.set_smb_connection(self.__smbConnection)
self.__rrp = rpc.get_dce_rpc()
self.__rrp.connect()
self.__rrp.bind(rrp.MSRPC_UUID_RRP)
def __checkServiceStatus(self):
# Open SC Manager
ans = scmr.hROpenSCManagerW(self.__scmr)
self.__scManagerHandle = ans['lpScHandle']
# Now let's open the service
ans = scmr.hROpenServiceW(self.__scmr, self.__scManagerHandle, self.__serviceName)
self.__serviceHandle = ans['lpServiceHandle']
# Let's check its status
ans = scmr.hRQueryServiceStatus(self.__scmr, self.__serviceHandle)
if ans['lpServiceStatus']['dwCurrentState'] == scmr.SERVICE_STOPPED:
logging.info('Service %s is in stopped state' % self.__serviceName)
self.__shouldStop = True
self.__started = False
elif ans['lpServiceStatus']['dwCurrentState'] == scmr.SERVICE_RUNNING:
logging.debug('Service %s is already running' % self.__serviceName)
self.__shouldStop = False
self.__started = True
else:
raise Exception('Unknown service state 0x%x - Aborting' % ans['CurrentState'])
# Let's check its configuration if service is stopped, maybe it's disabled :s
if self.__started is False:
ans = scmr.hRQueryServiceConfigW(self.__scmr, self.__serviceHandle)
if ans['lpServiceConfig']['dwStartType'] == 0x4:
logging.info('Service %s is disabled, enabling it' % self.__serviceName)
self.__disabled = True
scmr.hRChangeServiceConfigW(self.__scmr, self.__serviceHandle, dwStartType=0x3)
logging.info('Starting service %s' % self.__serviceName)
scmr.hRStartServiceW(self.__scmr, self.__serviceHandle)
time.sleep(1)
def enableRegistry(self):
self.__connectSvcCtl()
self.__checkServiceStatus()
self.connectWinReg()
def __restore(self):
# First of all stop the service if it was originally stopped
if self.__shouldStop is True:
logging.info('Stopping service %s' % self.__serviceName)
scmr.hRControlService(self.__scmr, self.__serviceHandle, scmr.SERVICE_CONTROL_STOP)
if self.__disabled is True:
logging.info('Restoring the disabled state for service %s' % self.__serviceName)
scmr.hRChangeServiceConfigW(self.__scmr, self.__serviceHandle, dwStartType=0x4)
def finish(self):
self.__restore()
if self.__rrp is not None:
self.__rrp.disconnect()
if self.__scmr is not None:
self.__scmr.disconnect()
class RegHandler:
def __init__(self, username, password, domain, options):
self.__username = username
self.__password = password
self.__domain = domain
self.__options = options
self.__action = options.action.upper()
self.__lmhash = ''
self.__nthash = ''
self.__aesKey = options.aesKey
self.__doKerberos = options.k
self.__kdcHost = options.dc_ip
self.__smbConnection = None
self.__remoteOps = None
# It's possible that this is defined somewhere, but I couldn't find where
self.__regValues = {0: 'REG_NONE', 1: 'REG_SZ', 2: 'REG_EXPAND_SZ', 3: 'REG_BINARY', 4: 'REG_DWORD',
5: 'REG_DWORD_BIG_ENDIAN', 6: 'REG_LINK', 7: 'REG_MULTI_SZ', 11: 'REG_QWORD'}
if options.hashes is not None:
self.__lmhash, self.__nthash = options.hashes.split(':')
def connect(self, remoteName, remoteHost):
self.__smbConnection = SMBConnection(remoteName, remoteHost, sess_port=int(self.__options.port))
if self.__doKerberos:
self.__smbConnection.kerberosLogin(self.__username, self.__password, self.__domain, self.__lmhash,
self.__nthash, self.__aesKey, self.__kdcHost)
else:
self.__smbConnection.login(self.__username, self.__password, self.__domain, self.__lmhash, self.__nthash)
def run(self, remoteName, remoteHost):
self.connect(remoteName, remoteHost)
self.__remoteOps = RemoteOperations(self.__smbConnection, self.__doKerberos, self.__kdcHost)
try:
self.__remoteOps.enableRegistry()
except Exception as e:
logging.debug(str(e))
logging.warning('Cannot check RemoteRegistry status. Triggering start trough named pipe...')
self.triggerWinReg()
self.__remoteOps.connectWinReg()
try:
dce = self.__remoteOps.getRRP()
if self.__action == 'QUERY':
self.query(dce, self.__options.keyName)
elif self.__action == 'ADD':
self.add(dce, self.__options.keyName)
elif self.__action == 'DELETE':
self.delete(dce, self.__options.keyName)
elif self.__action == 'SAVE':
self.save(dce, self.__options.keyName)
elif self.__action == 'BACKUP':
for hive in ["HKLM\\SAM", "HKLM\\SYSTEM", "HKLM\\SECURITY"]:
self.save(dce, hive)
else:
logging.error('Method %s not implemented yet!' % self.__action)
except (Exception, KeyboardInterrupt) as e:
#import traceback
#traceback.print_exc()
logging.critical(str(e))
finally:
if self.__remoteOps:
self.__remoteOps.finish()
def triggerWinReg(self):
# original idea from https://twitter.com/splinter_code/status/1715876413474025704
tid = self.__smbConnection.connectTree('IPC$')
try:
self.__smbConnection.openFile(tid, r'\winreg', 0x12019f, creationOption=0x40, fileAttributes=0x80)
except SessionError:
# STATUS_PIPE_NOT_AVAILABLE error is expected
pass
# give remote registry time to start
time.sleep(1)
def save(self, dce, keyName):
hRootKey, subKey = self.__strip_root_key(dce, keyName)
outputFileName = "%s\\%s.save" % (self.__options.outputPath, subKey)
logging.debug("Dumping %s, be patient it can take a while for large hives (e.g. HKLM\\SYSTEM)" % keyName)
try:
ans2 = rrp.hBaseRegOpenKey(dce, hRootKey, subKey, dwOptions=rrp.REG_OPTION_BACKUP_RESTORE | rrp.REG_OPTION_OPEN_LINK, samDesired=rrp.KEY_READ)
rrp.hBaseRegSaveKey(dce, ans2['phkResult'], outputFileName)
logging.info("Saved %s to %s" % (keyName, outputFileName))
except Exception as e:
logging.error("Couldn't save %s: %s" % (keyName, e))
def query(self, dce, keyName):
hRootKey, subKey = self.__strip_root_key(dce, keyName)
ans2 = rrp.hBaseRegOpenKey(dce, hRootKey, subKey,
samDesired=rrp.MAXIMUM_ALLOWED | rrp.KEY_ENUMERATE_SUB_KEYS | rrp.KEY_QUERY_VALUE)
if self.__options.v:
print(keyName)
value = rrp.hBaseRegQueryValue(dce, ans2['phkResult'], self.__options.v)
print('\t' + self.__options.v + '\t' + self.__regValues.get(value[0], 'KEY_NOT_FOUND') + '\t', str(value[1]))
elif self.__options.ve:
print(keyName)
value = rrp.hBaseRegQueryValue(dce, ans2['phkResult'], '')
print('\t' + '(Default)' + '\t' + self.__regValues.get(value[0], 'KEY_NOT_FOUND') + '\t', str(value[1]))
elif self.__options.s:
self.__print_all_subkeys_and_entries(dce, subKey + '\\', ans2['phkResult'], 0)
else:
print(keyName)
self.__print_key_values(dce, ans2['phkResult'])
i = 0
while True:
try:
key = rrp.hBaseRegEnumKey(dce, ans2['phkResult'], i)
print(keyName + '\\' + key['lpNameOut'][:-1])
i += 1
except Exception:
break
# ans5 = rrp.hBaseRegGetVersion(rpc, ans2['phkResult'])
# ans3 = rrp.hBaseRegEnumKey(rpc, ans2['phkResult'], 0)
def add(self, dce, keyName):
hRootKey, subKey = self.__strip_root_key(dce, keyName)
# READ_CONTROL | rrp.KEY_SET_VALUE | rrp.KEY_CREATE_SUB_KEY should be equal to KEY_WRITE (0x20006)
if self.__options.v is None: # Try to create subkey
subKeyCreate = subKey
subKey = '\\'.join(subKey.split('\\')[:-1])
ans2 = rrp.hBaseRegOpenKey(dce, hRootKey, subKey,
samDesired=READ_CONTROL | rrp.KEY_SET_VALUE | rrp.KEY_CREATE_SUB_KEY)
# Should I use ans2?
ans3 = rrp.hBaseRegCreateKey(
dce, hRootKey, subKeyCreate,
samDesired=READ_CONTROL | rrp.KEY_SET_VALUE | rrp.KEY_CREATE_SUB_KEY
)
if ans3['ErrorCode'] == 0:
print('Successfully set subkey %s' % (
keyName
))
else:
print('Error 0x%08x while creating subkey %s' % (
ans3['ErrorCode'], keyName
))
else: # Try to set value of key
ans2 = rrp.hBaseRegOpenKey(dce, hRootKey, subKey,
samDesired=READ_CONTROL | rrp.KEY_SET_VALUE | rrp.KEY_CREATE_SUB_KEY)
dwType = getattr(rrp, self.__options.vt, None)
if dwType is None or not self.__options.vt.startswith('REG_'):
raise Exception('Error parsing value type %s' % self.__options.vt)
#Fix (?) for packValue function
if dwType == rrp.REG_MULTI_SZ:
vd = '\0'.join(self.__options.vd)
valueData = vd + 2 * '\0' # REG_MULTI_SZ ends with 2 null-bytes
valueDataToPrint = vd.replace('\0', '\n\t\t')
else:
vd = self.__options.vd[0] if len(self.__options.vd) > 0 else ''
if dwType in (
rrp.REG_DWORD, rrp.REG_DWORD_BIG_ENDIAN, rrp.REG_DWORD_LITTLE_ENDIAN,
rrp.REG_QWORD, rrp.REG_QWORD_LITTLE_ENDIAN
):
valueData = int(vd)
elif dwType == rrp.REG_BINARY:
bin_value_len = len(vd)
bin_value_len += (bin_value_len & 1)
valueData = binascii.a2b_hex(vd.ljust(bin_value_len, '0'))
else:
valueData = vd + "\0" # Add a NULL Byte as terminator for Non Binary values
valueDataToPrint = valueData
ans3 = rrp.hBaseRegSetValue(
dce, ans2['phkResult'], self.__options.v, dwType, valueData
)
if ans3['ErrorCode'] == 0:
print('Successfully set\n\tkey\t%s\\%s\n\ttype\t%s\n\tvalue\t%s' % (
keyName, self.__options.v, self.__options.vt, valueDataToPrint
))
else:
print('Error 0x%08x while setting\n\tkey\t%s\\%s\n\ttype\t%s\n\tvalue\t%s' % (
ans3['ErrorCode'], keyName, self.__options.v, self.__options.vt, valueDataToPrint
))
def delete(self, dce, keyName):
hRootKey, subKey = self.__strip_root_key(dce, keyName)
# READ_CONTROL | rrp.KEY_SET_VALUE | rrp.KEY_CREATE_SUB_KEY should be equal to KEY_WRITE (0x20006)
if self.__options.v is None and not self.__options.va and not self.__options.ve: # Try to delete subkey
subKeyDelete = subKey
subKey = '\\'.join(subKey.split('\\')[:-1])
ans2 = rrp.hBaseRegOpenKey(dce, hRootKey, subKey,
samDesired=READ_CONTROL | rrp.KEY_SET_VALUE | rrp.KEY_CREATE_SUB_KEY)
# Should I use ans2?
try:
ans3 = rrp.hBaseRegDeleteKey(
dce, hRootKey, subKeyDelete,
)
except rpcrt.DCERPCException as e:
if e.error_code == 5:
#TODO: Check if DCERPCException appears only because of existing subkeys
print('Cannot delete key %s. Possibly it contains subkeys or insufficient privileges' % keyName)
return
else:
raise
except Exception as e:
logging.error('Unhandled exception while hBaseRegDeleteKey')
return
if ans3['ErrorCode'] == 0:
print('Successfully deleted subkey %s' % (
keyName
))
else:
print('Error 0x%08x while deleting subkey %s' % (
ans3['ErrorCode'], keyName
))
elif self.__options.v: # Delete single value
ans2 = rrp.hBaseRegOpenKey(dce, hRootKey, subKey,
samDesired=READ_CONTROL | rrp.KEY_SET_VALUE | rrp.KEY_CREATE_SUB_KEY)
ans3 = rrp.hBaseRegDeleteValue(
dce, ans2['phkResult'], self.__options.v
)
if ans3['ErrorCode'] == 0:
print('Successfully deleted key %s\\%s' % (
keyName, self.__options.v
))
else:
print('Error 0x%08x while deleting key %s\\%s' % (
ans3['ErrorCode'], keyName, self.__options.v
))
elif self.__options.ve:
ans2 = rrp.hBaseRegOpenKey(dce, hRootKey, subKey,
samDesired=READ_CONTROL | rrp.KEY_SET_VALUE | rrp.KEY_CREATE_SUB_KEY)
ans3 = rrp.hBaseRegDeleteValue(
dce, ans2['phkResult'], ''
)
if ans3['ErrorCode'] == 0:
print('Successfully deleted value %s\\%s' % (
keyName, 'Default'
))
else:
print('Error 0x%08x while deleting value %s\\%s' % (
ans3['ErrorCode'], keyName, self.__options.v
))
elif self.__options.va:
ans2 = rrp.hBaseRegOpenKey(dce, hRootKey, subKey,
samDesired=rrp.MAXIMUM_ALLOWED | rrp.KEY_ENUMERATE_SUB_KEYS)
i = 0
allSubKeys = []
while True:
try:
ans3 = rrp.hBaseRegEnumValue(dce, ans2['phkResult'], i)
lp_value_name = ans3['lpValueNameOut'][:-1]
allSubKeys.append(lp_value_name)
i += 1
except rrp.DCERPCSessionError as e:
if e.get_error_code() == ERROR_NO_MORE_ITEMS:
break
ans4 = rrp.hBaseRegOpenKey(dce, hRootKey, subKey,
samDesired=rrp.MAXIMUM_ALLOWED | rrp.KEY_ENUMERATE_SUB_KEYS)
for subKey in allSubKeys:
try:
ans5 = rrp.hBaseRegDeleteValue(
dce, ans4['phkResult'], subKey
)
if ans5['ErrorCode'] == 0:
print('Successfully deleted value %s\\%s' % (
keyName, subKey
))
else:
print('Error 0x%08x in deletion of value %s\\%s' % (
ans5['ErrorCode'], keyName, subKey
))
except Exception as e:
print('Unhandled error %s in deletion of value %s\\%s' % (
str(e), keyName, subKey
))
def __strip_root_key(self, dce, keyName):
# Let's strip the root key
try:
rootKey = keyName.split('\\')[0]
subKey = '\\'.join(keyName.split('\\')[1:])
except Exception:
raise Exception('Error parsing keyName %s' % keyName)
if rootKey.upper() == 'HKLM':
ans = rrp.hOpenLocalMachine(dce)
elif rootKey.upper() == 'HKCU':
ans = rrp.hOpenCurrentUser(dce)
elif rootKey.upper() == 'HKU':
ans = rrp.hOpenUsers(dce)
elif rootKey.upper() == 'HKCR':
ans = rrp.hOpenClassesRoot(dce)
else:
raise Exception('Invalid root key %s ' % rootKey)
hRootKey = ans['phKey']
return hRootKey, subKey
def __print_key_values(self, rpc, keyHandler):
i = 0
while True:
try:
ans4 = rrp.hBaseRegEnumValue(rpc, keyHandler, i)
lp_value_name = ans4['lpValueNameOut'][:-1]
if len(lp_value_name) == 0:
lp_value_name = '(Default)'
lp_type = ans4['lpType']
lp_data = b''.join(ans4['lpData'])
print('\t' + lp_value_name + '\t' + self.__regValues.get(lp_type, 'KEY_NOT_FOUND') + '\t', end=' ')
self.__parse_lp_data(lp_type, lp_data)
i += 1
except rrp.DCERPCSessionError as e:
if e.get_error_code() == ERROR_NO_MORE_ITEMS:
break
def __print_all_subkeys_and_entries(self, rpc, keyName, keyHandler, index):
index = 0
while True:
try:
subkey = rrp.hBaseRegEnumKey(rpc, keyHandler, index)
index += 1
ans = rrp.hBaseRegOpenKey(rpc, keyHandler, subkey['lpNameOut'],
samDesired=rrp.MAXIMUM_ALLOWED | rrp.KEY_ENUMERATE_SUB_KEYS)
newKeyName = keyName + subkey['lpNameOut'][:-1] + '\\'
print(newKeyName)
self.__print_key_values(rpc, ans['phkResult'])
self.__print_all_subkeys_and_entries(rpc, newKeyName, ans['phkResult'], 0)
except rrp.DCERPCSessionError as e:
if e.get_error_code() == ERROR_NO_MORE_ITEMS:
break
except rpcrt.DCERPCException as e:
if str(e).find('access_denied') >= 0:
logging.error('Cannot access subkey %s, bypassing it' % subkey['lpNameOut'][:-1])
continue
elif str(e).find('rpc_x_bad_stub_data') >= 0:
logging.error('Fault call, cannot retrieve value for %s, bypassing it' % subkey['lpNameOut'][:-1])
return
raise
@staticmethod
def __parse_lp_data(valueType, valueData):
try:
if valueType == rrp.REG_SZ or valueType == rrp.REG_EXPAND_SZ:
if type(valueData) is int:
print('NULL')
else:
print("%s" % (valueData.decode('utf-16le')[:-1]))
elif valueType == rrp.REG_BINARY:
print('')
hexdump(valueData, '\t')
elif valueType == rrp.REG_DWORD:
print("0x%x" % (unpack('<L', valueData)[0]))
elif valueType == rrp.REG_QWORD:
print("0x%x" % (unpack('<Q', valueData)[0]))
elif valueType == rrp.REG_NONE:
try:
if len(valueData) > 1:
print('')
hexdump(valueData, '\t')
else:
print(" NULL")
except:
print(" NULL")
elif valueType == rrp.REG_MULTI_SZ:
print("%s" % (valueData.decode('utf-16le')[:-2]))
else:
print("Unknown Type 0x%x!" % valueType)
hexdump(valueData)
except Exception as e:
logging.debug('Exception thrown when printing reg value %s' % str(e))
print('Invalid data')
pass
if __name__ == '__main__':
# Init the example's logger theme
logger.init()
# Explicitly changing the stdout encoding format
if sys.stdout.encoding is None:
# Output is redirected to a file
sys.stdout = codecs.getwriter('utf8')(sys.stdout)
print(version.BANNER)
parser = argparse.ArgumentParser(add_help=True, description="Windows Register manipulation script.")
parser.add_argument('target', action='store', help='[[domain/]username[:password]@]<targetName or address>')
parser.add_argument('-debug', action='store_true', help='Turn DEBUG output ON')
subparsers = parser.add_subparsers(help='actions', dest='action')
# A query command
query_parser = subparsers.add_parser('query', help='Returns a list of the next tier of subkeys and entries that '
'are located under a specified subkey in the registry.')
query_parser.add_argument('-keyName', action='store', required=True,
help='Specifies the full path of the subkey. The '
'keyName must include a valid root key. Valid root keys for the local computer are: HKLM,'
' HKU, HKCU, HKCR.')
query_parser.add_argument('-v', action='store', metavar="VALUENAME", required=False, help='Specifies the registry '
'value name that is to be queried. If omitted, all value names for keyName are returned. ')
query_parser.add_argument('-ve', action='store_true', default=False, required=False, help='Queries for the default '
'value or empty value name')
query_parser.add_argument('-s', action='store_true', default=False, help='Specifies to query all subkeys and value '
'names recursively.')
# An add command
add_parser = subparsers.add_parser('add', help='Adds a new subkey or entry to the registry')
add_parser.add_argument('-keyName', action='store', required=True,
help='Specifies the full path of the subkey. The '
'keyName must include a valid root key. Valid root keys for the local computer are: HKLM,'
' HKU, HKCU, HKCR.')
add_parser.add_argument('-v', action='store', metavar="VALUENAME", required=False, help='Specifies the registry '
'value name that is to be set. Set to "" to write the (Defualt) value')
add_parser.add_argument('-vt', action='store', metavar="VALUETYPE", required=False, help='Specifies the registry '
'type name that is to be set. Default is REG_SZ. Valid types are: REG_NONE, REG_SZ, REG_EXPAND_SZ, '
'REG_BINARY, REG_DWORD, REG_DWORD_BIG_ENDIAN, REG_LINK, REG_MULTI_SZ, REG_QWORD',
default='REG_SZ')
add_parser.add_argument('-vd', action='append', metavar="VALUEDATA", required=False, help='Specifies the registry '
'value data that is to be set. In case of adding a REG_MULTI_SZ value, set this option once for each '
'line you want to add.', default=[])
# An delete command
delete_parser = subparsers.add_parser('delete', help='Deletes a subkey or entries from the registry')
delete_parser.add_argument('-keyName', action='store', required=True,
help='Specifies the full path of the subkey. The '
'keyName must include a valid root key. Valid root keys for the local computer are: HKLM,'
' HKU, HKCU, HKCR.')
delete_parser.add_argument('-v', action='store', metavar="VALUENAME", required=False, help='Specifies the registry '
'value name that is to be deleted.')
delete_parser.add_argument('-va', action='store_true', required=False, help='Delete all values under this key.')
delete_parser.add_argument('-ve', action='store_true', required=False, help='Delete the value of empty value name (Default).')
# A copy command
# copy_parser = subparsers.add_parser('copy', help='Copies a registry entry to a specified location in the remote '
# 'computer')
#A save command
save_parser = subparsers.add_parser('save', help='Saves a copy of specified subkeys, entries, and values of the '
'registry in a specified file.')
save_parser.add_argument('-keyName', action='store', required=True,
help='Specifies the full path of the subkey. The '
'keyName must include a valid root key. Valid root keys for the local computer are: HKLM,'
' HKU, HKCU, HKCR.')
save_parser.add_argument('-o', dest='outputPath', action='store', metavar='\\\\192.168.0.2\\share', required=True, help='Output UNC path the target system must export the registry saves to')
# A special backup command to save HKLM\SAM, HKLM\SYSTEM and HKLM\SECURITY
backup_parser = subparsers.add_parser('backup', help='(special command) Backs up HKLM\\SAM, HKLM\\SYSTEM and HKLM\\SECURITY to a specified file.')
backup_parser.add_argument('-o', dest='outputPath', action='store', metavar='\\\\192.168.0.2\\share', required=True,
help='Output UNC path the target system must export the registry saves to')
# A load command
# load_parser = subparsers.add_parser('load', help='Writes saved subkeys and entries back to a different subkey in '
# 'the registry.')
# An unload command
# unload_parser = subparsers.add_parser('unload', help='Removes a section of the registry that was loaded using the '
# 'reg load operation.')
# A compare command
# compare_parser = subparsers.add_parser('compare', help='Compares specified registry subkeys or entries')
# A export command
# status_parser = subparsers.add_parser('export', help='Creates a copy of specified subkeys, entries, and values into'
# 'a file')
# A import command
# import_parser = subparsers.add_parser('import', help='Copies a file containing exported registry subkeys, entries, '
# 'and values into the remote computer\'s registry')
group = parser.add_argument_group('authentication')
group.add_argument('-hashes', action="store", metavar="LMHASH:NTHASH", help='NTLM hashes, format is LMHASH:NTHASH')
group.add_argument('-no-pass', action="store_true", help='don\'t ask for password (useful for -k)')
group.add_argument('-k', action="store_true",
help='Use Kerberos authentication. Grabs credentials from ccache file (KRB5CCNAME) based on '
'target parameters. If valid credentials cannot be found, it will use the ones specified '
'in the command line')
group.add_argument('-aesKey', action="store", metavar="hex key",
help='AES key to use for Kerberos Authentication (128 or 256 bits)')
group = parser.add_argument_group('connection')
group.add_argument('-dc-ip', action='store', metavar="ip address",
help='IP Address of the domain controller. If omitted it will use the domain part (FQDN) specified in '
'the target parameter')
group.add_argument('-target-ip', action='store', metavar="ip address",
help='IP Address of the target machine. If omitted it will use whatever was specified as target. '
'This is useful when target is the NetBIOS name and you cannot resolve it')
group.add_argument('-port', choices=['139', '445'], nargs='?', default='445', metavar="destination port",
help='Destination port to connect to SMB Server')
if len(sys.argv) == 1:
parser.print_help()
sys.exit(1)
options = parser.parse_args()
if options.debug is True:
logging.getLogger().setLevel(logging.DEBUG)
# Print the Library's installation path
logging.debug(version.getInstallationPath())
else:
logging.getLogger().setLevel(logging.INFO)
domain, username, password, remoteName = parse_target(options.target)
if options.target_ip is None:
options.target_ip = remoteName
if domain is None:
domain = ''
if options.aesKey is not None:
options.k = True
if password == '' and username != '' and options.hashes is None and options.no_pass is False and options.aesKey is None:
from getpass import getpass
password = getpass("Password:")
regHandler = RegHandler(username, password, domain, options)
try:
regHandler.run(remoteName, options.target_ip)
except Exception as e:
#import traceback
#traceback.print_exc()
logging.error(str(e))