metasploit-framework/dev/testing/blocks.rb

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#!/usr/bin/ruby
# shikata ga nai implementation using poly block generation
require 'rex'
require 'rex/poly'
raw_length = 8
raw_buf = "\xcc\xcc\xcc\xcc"
raw_buf = "\xdd\xdd\xdd\xdd"
def fpu_instructions
fpus = []
0xe8.upto(0xee) { |x| fpus << "\xd9" + x.chr }
0xc0.upto(0xcf) { |x| fpus << "\xd9" + x.chr }
0xc0.upto(0xdf) { |x| fpus << "\xda" + x.chr }
0xc0.upto(0xdf) { |x| fpus << "\xdb" + x.chr }
0xc0.upto(0xc7) { |x| fpus << "\xdd" + x.chr }
fpus << "\xd9\xd0"
fpus << "\xd9\xe1"
fpus << "\xdb\xe1"
fpus << "\xd9\xf6"
fpus << "\xd9\xf7"
fpus << "\xd9\xe5"
fpus
end
# Declare logical registers
count_reg = Rex::Poly::LogicalRegister::X86.new('count', 'ecx')
addr_reg = Rex::Poly::LogicalRegister::X86.new('addr')
key_reg = Rex::Poly::LogicalRegister::X86.new('key')
# Declare individual blocks
endb = Rex::Poly::SymbolicBlock::End.new
fpu = Rex::Poly::LogicalBlock.new('fpu',
*fpu_instructions)
fnstenv = Rex::Poly::LogicalBlock.new('fnstenv',
"\xd9\x74\x24\xf4")
popeip = Rex::Poly::LogicalBlock.new('popeip',
Proc.new { |b| (0x58 + b.regnum_of(addr_reg)).chr })
clear_register = Rex::Poly::LogicalBlock.new('clear_register',
"\x31\xc9",
"\x29\xc9",
"\x33\xc9",
"\x2b\xc9")
init_counter = Rex::Poly::LogicalBlock.new('init_counter')
if (raw_length <= 255)
init_counter.add_perm("\xb1" + [ raw_length ].pack('C'))
else
init_counter.add_perm("\x66\xb9" + [ raw_length ].pack('v'))
end
init_key = Rex::Poly::LogicalBlock.new('init_key',
Proc.new { |b| (0xb8 + b.regnum_of(key_reg)).chr + 'XORK'})
loop_block = Rex::Poly::LogicalBlock.new('loop_block')
xor = Proc.new { |b| "\x31" + (0x40 + b.regnum_of(addr_reg) + (8 * b.regnum_of(key_reg))).chr }
xor1 = Proc.new { |b| xor.call(b) + [ (b.offset_of(endb) - b.offset_of(fpu) - 4) ].pack('c') }
xor2 = Proc.new { |b| xor.call(b) + [ (b.offset_of(endb) - b.offset_of(fpu) - 8) ].pack('c') }
add = Proc.new { |b| "\x03" + (0x40 + b.regnum_of(addr_reg) + (8 * b.regnum_of(key_reg))).chr }
add1 = Proc.new { |b| add.call(b) + [ (b.offset_of(endb) - b.offset_of(fpu) - 4) ].pack('c') }
add2 = Proc.new { |b| add.call(b) + [ (b.offset_of(endb) - b.offset_of(fpu) - 8) ].pack('c') }
sub4 = Proc.new { |b| "\x83" + (0xe8 + b.regnum_of(addr_reg)).chr + "\xfc" }
add4 = Proc.new { |b| "\x83" + (0xc0 + b.regnum_of(addr_reg)).chr + "\x04" }
#xor = Proc.new { |b| "\x31" + (0x40 + b.regnum_of(addr_reg) + (8 * b.regnum_of(key_reg))).chr }
#xor1 = Proc.new { |b| xor.call(b) + (b.offset_of(endb) - b.offset_of(fpu) - 4).chr }
#xor2 = Proc.new { |b| xor.call(b) + (b.offset_of(endb) - b.offset_of(fpu) - 8).chr }
#add = Proc.new { |b| "\x03" + (0x40 + b.regnum_of(addr_reg) + (8 * b.regnum_of(key_reg))).chr }
#add1 = Proc.new { |b| add.call(b) + (b.offset_of(endb) - b.offset_of(fpu) - 4).chr }
#add2 = Proc.new { |b| add.call(b) + (b.offset_of(endb) - b.offset_of(fpu) - 8).chr }
#sub4 = Proc.new { |b| "\x83" + (0xe8 + b.regnum_of(addr_reg)).chr + "\xfc" }
#add4 = Proc.new { |b| "\x83" + (0xc0 + b.regnum_of(addr_reg)).chr + "\x04" }
loop_block.add_perm(
Proc.new { |b| xor1.call(b) + add1.call(b) + sub4.call(b) },
Proc.new { |b| xor1.call(b) + sub4.call(b) + add2.call(b) },
Proc.new { |b| sub4.call(b) + xor2.call(b) + add2.call(b) },
Proc.new { |b| xor1.call(b) + add1.call(b) + add4.call(b) },
Proc.new { |b| xor1.call(b) + add4.call(b) + add2.call(b) },
Proc.new { |b| add4.call(b) + xor2.call(b) + add2.call(b) })
loop_inst = Rex::Poly::LogicalBlock.new('loop_inst',
"\xe2\xf5")
# Define block dependencies
fnstenv.depends_on(fpu)
popeip.depends_on(fnstenv)
init_counter.depends_on(clear_register)
loop_block.depends_on(popeip, init_counter, init_key)
loop_inst.depends_on(loop_block)
# Generate a permutation
puts loop_inst.generate([
Rex::Arch::X86::ESP,
Rex::Arch::X86::ECX ])