metasploit-framework/lib/rex/encoding/xor/generic.rb

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#!/usr/bin/ruby
require 'Rex/Encoding/Xor/Exceptions'
require 'Rex/StringUtils'
module Rex
module Encoding
module Xor
class Generic
def Generic.keysize
# special case:
# 0 means we encode based on the length of the key
# we don't enforce any perticular key length
return 0
end
#
# Now for some internal check methods
#
# hook stylies!
# return index of offending byte or nil
def Generic._check(data, key, badchars)
return _check_key(key, badchars) || _check_encode(data, key, badchars)
end
def Generic._check_key(key, badchars)
return Rex::StringUtils.badchar_index(key, badchars)
end
def Generic._check_encode(data, key, badchars)
return Rex::StringUtils.badchar_index(encode(data, key), badchars)
end
def Generic.find_key(data, badchars)
return _find_good_key(data, _find_bad_keys(data, badchars), badchars)
end
# !!! xxx MAKE THESE BITCHE PRIVATE
#
# Find a list of bytes that can't be valid xor keys, from the data and badchars.
# This returns a Array of hashes, length keysize
#
def Generic._find_bad_keys(data, badchars)
ksize = keysize
# array of hashes for the bad characters based
# on their position in the data
badkeys = [ ]
ksize.times { badkeys << { } }
badchars.each_byte { |badchar|
pos = 0
data.each_byte { |char|
badkeys[pos % ksize][char ^ badchar] = true
pos += 1
}
}
return badkeys
end
#
# (Hopefully) find a good key, from badkeys and badchars
#
def Generic._find_good_key(data, badkeys, badchars)
ksize = keysize
strip = 0
key = ""
while strip < keysize
kbyte = rand(256)
catch(:found_kbyte) do
256.times {
if !badkeys[strip][kbyte] && !badchars[kbyte.chr]
throw :found_kbyte
end
kbyte = (kbyte + 1) & 0xff
}
raise KeySearchError, "Exhausted byte space for strip #{strip}!", caller
end
key << kbyte
strip += 1
end
# ok, we should have a good key now, lets double check...
if _check(data, key, badchars)
raise KeySearchError, "Key found, but bad character check failed!", caller
end
return key
end
def Generic.encode(buf, key)
if !key.kind_of?(String)
raise ::ArgumentError, "Key must be a string!", caller
end
len = key.length
if len == 0
raise ::ArgumentError, "Zero key length!", caller
end
if keysize != 0 && keysize != len
raise ::ArgumentError, "Key length #{len}, expected #{keysize}", caller
end
encoded = ""
pos = 0
while pos < buf.length
encoded += (buf[pos] ^ key[pos % len]).chr
key = _encode_mutate_key(encoded, key, pos, len)
pos += 1
end
return [ encoded, key ]
end
# kind of ghetto, but very convenient for mutating keys
# by default, do no key mutations
def Generic._encode_mutate_key(buf, key, pos, len)
return key
end
# maybe a bit a smaller of method name?
def Generic.find_key_and_encode(data, badchars)
key = find_key(data, badchars)
enc, fkey = encode(data, key)
return [ enc, key, fkey ]
end
end end end end # Generic/Xor/Encoding/Rex