metasploit-framework/lib/rex/encoder/alpha2/generic.rb

92 lines
2.4 KiB
Ruby

#!/usr/bin/env ruby
# -*- coding: binary -*-
require 'rex/text'
module Rex
module Encoder
module Alpha2
class Generic
# Note: 'A' is presumed to be accepted, but excluded from the accepted characters, because it serves as the terminator
def Generic.default_accepted_chars ; ('a' .. 'z').to_a + ('B' .. 'Z').to_a + ('0' .. '9').to_a ; end
def Generic.gen_decoder_prefix(reg, offset)
# Should never happen - have to pick a specifc
# encoding:
# alphamixed, alphaupper, unicodemixed, unicodeupper
''
end
def Generic.gen_decoder(reg, offset)
# same as above
return ''
end
def Generic.gen_second(block, base)
# XOR encoder for ascii - unicode uses additive
(block^base)
end
def Generic.encode_byte(block, badchars)
accepted_chars = default_accepted_chars.dup
badchars.each_char {|c| accepted_chars.delete(c) } if badchars
# No, not nipple.
nibble_chars = Array.new(0x10) {[]}
accepted_chars.each {|c| nibble_chars[c.unpack('C')[0] & 0x0F].push(c) }
poss_encodings = []
block_low_nibble = block & 0x0F
block_high_nibble = block >> 4
# Get list of chars suitable for expressing lower part of byte
first_chars = nibble_chars[block_low_nibble]
# Build a list of possible encodings
first_chars.each do |first_char|
first_high_nibble = first_char.unpack('C')[0] >> 4
# In the decoding process, the low nibble of the second char gets combined
# (either ADDed or XORed depending on the encoder) with the high nibble of the first char,
# and we want the high nibble of our input byte to result
second_low_nibble = gen_second(block_high_nibble, first_high_nibble) & 0x0F
# Find valid second chars for this first char and add each combination to our possible encodings
second_chars = nibble_chars[second_low_nibble]
second_chars.each {|second_char| poss_encodings.push(second_char + first_char) }
end
if poss_encodings.empty?
raise RuntimeError, "No encoding of #{"0x%.2X" % block} possible with limited character set"
end
# Return a random encoding
poss_encodings[rand(poss_encodings.length)]
end
def Generic.encode(buf, reg, offset, badchars = '')
encoded = gen_decoder(reg, offset)
buf.each_byte {
|block|
encoded << encode_byte(block, badchars)
}
encoded << add_terminator()
return encoded
end
# 'A' signifies the end of the encoded shellcode
def Generic.add_terminator()
'AA'
end
end end end end