py-kms/py3-kms/kmsRequestV4.py

#!/usr/bin/env python3

import binascii
import struct
import time
import logging

from kmsBase import kmsBase
from structure import Structure
from aes import AES
from formatText import shell_message, justify, byterize


# v4 AES Key
key = bytearray([0x05, 0x3D, 0x83, 0x07, 0xF9, 0xE5, 0xF0, 0x88, 0xEB, 0x5E, 0xA6, 0x68, 0x6C, 0xF0, 0x37, 0xC7, 0xE4, 0xEF, 0xD2, 0xD6])

# Xor Buffer
def xorBuffer(source, offset, destination, size):
        for i in range(0, size):
                destination[i] ^= source[i + offset]

class kmsRequestV4(kmsBase):
        class RequestV4(Structure):
                commonHdr = ()
                structure = (
                        ('bodyLength1', '<I'),
                        ('bodyLength2', '<I'),
                        ('request',     ':', kmsBase.kmsRequestStruct),
                        ('hash',        '16s'),
                        ('padding',     ':'),
                )

        class ResponseV4(Structure):
                commonHdr = ()
                structure = (
                        ('bodyLength1', '<I=len(response) + len(hash)'),
                        ('unknown',     '!I=0x00000200'),
                        ('bodyLength2', '<I=len(response) + len(hash)'),
                        ('response',    ':', kmsBase.kmsResponseStruct),
                        ('hash',        '16s'),
                        ('padding',     ':'),
                )

        def executeRequestLogic(self):
                requestData = self.RequestV4(self.data)

                response = self.serverLogic(requestData['request'])

                thehash = self.generateHash(bytearray(str(response).encode('latin-1'))) #*2to3*

                self.responseData = self.generateResponse(response, thehash)

                time.sleep(1) # request sent back too quick for Windows 2008 R2, slow it down.

        def generateHash(self, message):
                """
                The KMS v4 hash is a variant of CMAC-AES-128. There are two key differences:
                * The 'AES' used is modified in particular ways:
                  * The basic algorithm is Rjindael with a conceptual 160bit key and 128bit blocks.
                    This isn't part of the AES standard, but it works the way you'd expect.
                    Accordingly, the algorithm uses 11 rounds and a 192 byte expanded key.
                * The trailing block is not XORed with a generated subkey, as defined in CMAC.
                  This is probably because the subkey generation algorithm is only defined for
                  situations where block and key size are the same.
                """
                aes = AES()

                messageSize = len(message)
                lastBlock = bytearray(16) 
                hashBuffer = bytearray(16)

                # MessageSize / Blocksize.
                j = messageSize >> 4

                # Remainding bytes.
                k = messageSize & 0xf

                # Hash.
                for i in range(0, j):
                        xorBuffer(message, i << 4, hashBuffer, 16)
                        hashBuffer = bytearray(aes.encrypt(hashBuffer, key, len(key)))

                # Bit Padding.
                ii = 0
                for i in range(j << 4, k + (j << 4)):
                        lastBlock[ii] = message[i]
                        ii += 1
                lastBlock[k] = 0x80

                xorBuffer(lastBlock, 0, hashBuffer, 16)
                hashBuffer = bytearray(aes.encrypt(hashBuffer, key, len(key)))

                return hashBuffer #*2to3*

        def generateResponse(self, responseBuffer, thehash):
                bodyLength = len(responseBuffer) + len(thehash)
                response = self.ResponseV4()
                response['response'] = responseBuffer
                response['hash'] = thehash.decode('latin-1') #*2to3*
                response['padding'] = self.getResponsePadding(bodyLength).decode('latin-1') #*2to3*
                
                ## Debug stuff.
                shell_message(nshell = 16)
                response = byterize(response)
                logging.debug("KMS V4 Response: \n%s\n" % justify(response.dump(print_to_stdout = False)))
                logging.debug("KMS V4 Response Bytes: \n%s\n" % justify(binascii.b2a_hex(str(response).encode('latin-1')).decode('utf-8'))) #*2to3*
                        
                return str(response)

        def getResponse(self):
                return self.responseData

        def generateRequest(self, requestBase):
                thehash = self.generateHash(bytearray(str(requestBase).encode('latin-1'))) #*2to3*

                bodyLength = len(requestBase) + len(thehash)

                request = kmsRequestV4.RequestV4()
                request['bodyLength1'] = bodyLength
                request['bodyLength2'] = bodyLength
                request['request'] = requestBase
                request['hash'] = thehash.decode('latin-1') #*2to3*
                request['padding'] = self.getResponsePadding(bodyLength).decode('latin-1') #*2to3*
                
                ## Debug stuff.
                shell_message(nshell = 10)
                request = byterize(request)
                logging.debug("Request V4 Data: \n%s\n" % justify(request.dump(print_to_stdout = False)))
                logging.debug("Request V4: \n%s\n" % justify(binascii.b2a_hex(str(request).encode('latin-1')).decode('utf-8'))) #*2to3*
                                
                return request