DeDRM_tools/DeDRM_plugin/kgenpids.py

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#!/usr/bin/env python3
# -*- coding: utf-8 -*-
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# kgenpids.py
# Copyright © 2008-2020 Apprentice Harper et al.
__license__ = 'GPL v3'
__version__ = '3.0'
# Revision history:
# 2.0 - Fix for non-ascii Windows user names
# 2.1 - Actual fix for non-ascii WIndows user names.
# 2.2 - Return information needed for KFX decryption
# 3.0 - Python 3 for calibre 5.0
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import sys
import os, csv
import binascii
import zlib
import re
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from struct import pack, unpack, unpack_from
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import traceback
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class DrmException(Exception):
pass
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global charMap1
global charMap3
global charMap4
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charMap1 = b'n5Pr6St7Uv8Wx9YzAb0Cd1Ef2Gh3Jk4M'
charMap3 = b'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/'
charMap4 = b'ABCDEFGHIJKLMNPQRSTUVWXYZ123456789'
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# crypto digestroutines
import hashlib
def MD5(message):
ctx = hashlib.md5()
ctx.update(message)
return ctx.digest()
def SHA1(message):
ctx = hashlib.sha1()
ctx.update(message)
return ctx.digest()
# Encode the bytes in data with the characters in map
# data and map should be byte arrays
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def encode(data, map):
result = b''
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for char in data:
value = char
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Q = (value ^ 0x80) // len(map)
R = value % len(map)
result += bytes([map[Q]])
result += bytes([map[R]])
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return result
# Hash the bytes in data and then encode the digest with the characters in map
def encodeHash(data,map):
return encode(MD5(data),map)
# Decode the string in data with the characters in map. Returns the decoded bytes
def decode(data,map):
result = ''
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for i in range (0,len(data)-1,2):
high = map.find(data[i])
low = map.find(data[i+1])
if (high == -1) or (low == -1) :
break
value = (((high * len(map)) ^ 0x80) & 0xFF) + low
result += pack('B',value)
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return result
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#
# PID generation routines
#
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# Returns two bit at offset from a bit field
def getTwoBitsFromBitField(bitField,offset):
byteNumber = offset // 4
bitPosition = 6 - 2*(offset % 4)
return bitField[byteNumber] >> bitPosition & 3
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# Returns the six bits at offset from a bit field
def getSixBitsFromBitField(bitField,offset):
offset *= 3
value = (getTwoBitsFromBitField(bitField,offset) <<4) + (getTwoBitsFromBitField(bitField,offset+1) << 2) +getTwoBitsFromBitField(bitField,offset+2)
return value
# 8 bits to six bits encoding from hash to generate PID string
def encodePID(hash):
global charMap3
PID = b''
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for position in range (0,8):
PID += bytes([charMap3[getSixBitsFromBitField(hash,position)]])
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return PID
# Encryption table used to generate the device PID
def generatePidEncryptionTable() :
table = []
for counter1 in range (0,0x100):
value = counter1
for counter2 in range (0,8):
if (value & 1 == 0) :
value = value >> 1
else :
value = value >> 1
value = value ^ 0xEDB88320
table.append(value)
return table
# Seed value used to generate the device PID
def generatePidSeed(table,dsn) :
value = 0
for counter in range (0,4) :
index = (dsn[counter] ^ value) & 0xFF
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value = (value >> 8) ^ table[index]
return value
# Generate the device PID
def generateDevicePID(table,dsn,nbRoll):
global charMap4
seed = generatePidSeed(table,dsn)
pidAscii = b''
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pid = [(seed >>24) &0xFF,(seed >> 16) &0xff,(seed >> 8) &0xFF,(seed) & 0xFF,(seed>>24) & 0xFF,(seed >> 16) &0xff,(seed >> 8) &0xFF,(seed) & 0xFF]
index = 0
for counter in range (0,nbRoll):
pid[index] = pid[index] ^ dsn[counter]
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index = (index+1) %8
for counter in range (0,8):
index = ((((pid[counter] >>5) & 3) ^ pid[counter]) & 0x1f) + (pid[counter] >> 7)
pidAscii += bytes([charMap4[index]])
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return pidAscii
def crc32(s):
return (~binascii.crc32(s,-1))&0xFFFFFFFF
# convert from 8 digit PID to 10 digit PID with checksum
def checksumPid(s):
global charMap4
crc = crc32(s)
crc = crc ^ (crc >> 16)
res = s
l = len(charMap4)
for i in (0,1):
b = crc & 0xff
pos = (b // l) ^ (b % l)
res += bytes([charMap4[pos%l]])
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crc >>= 8
return res
# old kindle serial number to fixed pid
def pidFromSerial(s, l):
global charMap4
crc = crc32(s)
arr1 = [0]*l
for i in range(len(s)):
arr1[i%l] ^= s[i]
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crc_bytes = [crc >> 24 & 0xff, crc >> 16 & 0xff, crc >> 8 & 0xff, crc & 0xff]
for i in range(l):
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arr1[i] ^= crc_bytes[i&3]
pid = b""
for i in range(l):
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b = arr1[i] & 0xff
pid += bytes([charMap4[(b >> 7) + ((b >> 5 & 3) ^ (b & 0x1f))]])
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return pid
# Parse the EXTH header records and use the Kindle serial number to calculate the book pid.
def getKindlePids(rec209, token, serialnum):
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if rec209 is None:
return [serialnum]
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pids=[]
if isinstance(serialnum,str):
serialnum = serialnum.encode('utf-8')
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# Compute book PID
pidHash = SHA1(serialnum+rec209+token)
bookPID = encodePID(pidHash)
bookPID = checksumPid(bookPID)
pids.append(bookPID)
# compute fixed pid for old pre 2.5 firmware update pid as well
kindlePID = pidFromSerial(serialnum, 7) + b"*"
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kindlePID = checksumPid(kindlePID)
pids.append(kindlePID)
return pids
# parse the Kindleinfo file to calculate the book pid.
keynames = ['kindle.account.tokens','kindle.cookie.item','eulaVersionAccepted','login_date','kindle.token.item','login','kindle.key.item','kindle.name.info','kindle.device.info', 'MazamaRandomNumber']
def getK4Pids(rec209, token, kindleDatabase):
global charMap1
pids = []
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try:
# Get the kindle account token, if present
kindleAccountToken = bytearray.fromhex((kindleDatabase[1])['kindle.account.tokens'])
except KeyError:
kindleAccountToken=""
pass
try:
# Get the DSN token, if present
DSN = bytearray.fromhex((kindleDatabase[1])['DSN'])
print("Got DSN key from database {0}".format(kindleDatabase[0]))
except KeyError:
# See if we have the info to generate the DSN
try:
# Get the Mazama Random number
MazamaRandomNumber = bytearray.fromhex((kindleDatabase[1])['MazamaRandomNumber'])
#print "Got MazamaRandomNumber from database {0}".format(kindleDatabase[0])
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try:
# Get the SerialNumber token, if present
IDString = bytearray.fromhex((kindleDatabase[1])['SerialNumber'])
print("Got SerialNumber from database {0}".format(kindleDatabase[0]))
except KeyError:
# Get the IDString we added
IDString = bytearray.fromhex((kindleDatabase[1])['IDString'])
try:
# Get the UsernameHash token, if present
encodedUsername = bytearray.fromhex((kindleDatabase[1])['UsernameHash'])
print("Got UsernameHash from database {0}".format(kindleDatabase[0]))
except KeyError:
# Get the UserName we added
UserName = bytearray.fromhex((kindleDatabase[1])['UserName'])
# encode it
encodedUsername = encodeHash(UserName,charMap1)
#print "encodedUsername",encodedUsername.encode('hex')
except KeyError:
print("Keys not found in the database {0}.".format(kindleDatabase[0]))
return pids
# Get the ID string used
encodedIDString = encodeHash(IDString,charMap1)
#print "encodedIDString",encodedIDString.encode('hex')
# concat, hash and encode to calculate the DSN
DSN = encode(SHA1(MazamaRandomNumber+encodedIDString+encodedUsername),charMap1)
#print "DSN",DSN.encode('hex')
pass
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if rec209 is None:
pids.append(DSN+kindleAccountToken)
return pids
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# Compute the device PID (for which I can tell, is used for nothing).
table = generatePidEncryptionTable()
devicePID = generateDevicePID(table,DSN,4)
devicePID = checksumPid(devicePID)
pids.append(devicePID)
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# Compute book PIDs
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# book pid
pidHash = SHA1(DSN+kindleAccountToken+rec209+token)
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bookPID = encodePID(pidHash)
bookPID = checksumPid(bookPID)
pids.append(bookPID)
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# variant 1
pidHash = SHA1(kindleAccountToken+rec209+token)
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bookPID = encodePID(pidHash)
bookPID = checksumPid(bookPID)
pids.append(bookPID)
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# variant 2
pidHash = SHA1(DSN+rec209+token)
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bookPID = encodePID(pidHash)
bookPID = checksumPid(bookPID)
pids.append(bookPID)
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return pids
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def getPidList(md1, md2, serials=[], kDatabases=[]):
pidlst = []
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if kDatabases is None:
kDatabases = []
if serials is None:
serials = []
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for kDatabase in kDatabases:
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try:
pidlst.extend(map(bytes,getK4Pids(md1, md2, kDatabase)))
except Exception as e:
print("Error getting PIDs from database {0}: {1}".format(kDatabase[0],e.args[0]))
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traceback.print_exc()
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for serialnum in serials:
try:
pidlst.extend(map(bytes,getKindlePids(md1, md2, serialnum)))
except Exception as e:
print("Error getting PIDs from serial number {0}: {1}".format(serialnum ,e.args[0]))
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traceback.print_exc()
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return pidlst