mirror of
https://github.com/noDRM/DeDRM_tools.git
synced 2024-11-05 05:26:09 +06:00
271 lines
7.7 KiB
Python
271 lines
7.7 KiB
Python
#!/usr/bin/env python
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from __future__ import with_statement
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import sys
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import os, csv
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import binascii
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import zlib
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import re
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from struct import pack, unpack, unpack_from
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class DrmException(Exception):
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pass
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global charMap1
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global charMap3
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global charMap4
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if 'calibre' in sys.modules:
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inCalibre = True
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else:
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inCalibre = False
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if inCalibre:
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if sys.platform.startswith('win'):
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from calibre_plugins.k4mobidedrm.k4pcutils import getKindleInfoFiles, getDBfromFile, GetUserName, GetIDString
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if sys.platform.startswith('darwin'):
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from calibre_plugins.k4mobidedrm.k4mutils import getKindleInfoFiles, getDBfromFile, GetUserName, GetIDString
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else:
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if sys.platform.startswith('win'):
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from k4pcutils import getKindleInfoFiles, getDBfromFile, GetUserName, GetIDString
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if sys.platform.startswith('darwin'):
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from k4mutils import getKindleInfoFiles, getDBfromFile, GetUserName, GetIDString
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charMap1 = "n5Pr6St7Uv8Wx9YzAb0Cd1Ef2Gh3Jk4M"
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charMap3 = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"
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charMap4 = "ABCDEFGHIJKLMNPQRSTUVWXYZ123456789"
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# crypto digestroutines
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import hashlib
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def MD5(message):
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ctx = hashlib.md5()
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ctx.update(message)
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return ctx.digest()
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def SHA1(message):
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ctx = hashlib.sha1()
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ctx.update(message)
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return ctx.digest()
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# Encode the bytes in data with the characters in map
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def encode(data, map):
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result = ""
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for char in data:
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value = ord(char)
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Q = (value ^ 0x80) // len(map)
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R = value % len(map)
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result += map[Q]
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result += map[R]
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return result
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# Hash the bytes in data and then encode the digest with the characters in map
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def encodeHash(data,map):
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return encode(MD5(data),map)
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# Decode the string in data with the characters in map. Returns the decoded bytes
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def decode(data,map):
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result = ""
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for i in range (0,len(data)-1,2):
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high = map.find(data[i])
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low = map.find(data[i+1])
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if (high == -1) or (low == -1) :
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break
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value = (((high * len(map)) ^ 0x80) & 0xFF) + low
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result += pack("B",value)
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return result
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#
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# PID generation routines
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#
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# Returns two bit at offset from a bit field
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def getTwoBitsFromBitField(bitField,offset):
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byteNumber = offset // 4
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bitPosition = 6 - 2*(offset % 4)
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return ord(bitField[byteNumber]) >> bitPosition & 3
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# Returns the six bits at offset from a bit field
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def getSixBitsFromBitField(bitField,offset):
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offset *= 3
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value = (getTwoBitsFromBitField(bitField,offset) <<4) + (getTwoBitsFromBitField(bitField,offset+1) << 2) +getTwoBitsFromBitField(bitField,offset+2)
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return value
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# 8 bits to six bits encoding from hash to generate PID string
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def encodePID(hash):
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global charMap3
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PID = ""
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for position in range (0,8):
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PID += charMap3[getSixBitsFromBitField(hash,position)]
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return PID
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# Encryption table used to generate the device PID
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def generatePidEncryptionTable() :
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table = []
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for counter1 in range (0,0x100):
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value = counter1
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for counter2 in range (0,8):
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if (value & 1 == 0) :
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value = value >> 1
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else :
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value = value >> 1
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value = value ^ 0xEDB88320
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table.append(value)
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return table
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# Seed value used to generate the device PID
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def generatePidSeed(table,dsn) :
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value = 0
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for counter in range (0,4) :
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index = (ord(dsn[counter]) ^ value) &0xFF
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value = (value >> 8) ^ table[index]
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return value
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# Generate the device PID
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def generateDevicePID(table,dsn,nbRoll):
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global charMap4
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seed = generatePidSeed(table,dsn)
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pidAscii = ""
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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]
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index = 0
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for counter in range (0,nbRoll):
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pid[index] = pid[index] ^ ord(dsn[counter])
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index = (index+1) %8
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for counter in range (0,8):
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index = ((((pid[counter] >>5) & 3) ^ pid[counter]) & 0x1f) + (pid[counter] >> 7)
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pidAscii += charMap4[index]
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return pidAscii
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def crc32(s):
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return (~binascii.crc32(s,-1))&0xFFFFFFFF
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# convert from 8 digit PID to 10 digit PID with checksum
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def checksumPid(s):
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global charMap4
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crc = crc32(s)
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crc = crc ^ (crc >> 16)
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res = s
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l = len(charMap4)
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for i in (0,1):
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b = crc & 0xff
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pos = (b // l) ^ (b % l)
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res += charMap4[pos%l]
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crc >>= 8
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return res
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# old kindle serial number to fixed pid
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def pidFromSerial(s, l):
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global charMap4
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crc = crc32(s)
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arr1 = [0]*l
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for i in xrange(len(s)):
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arr1[i%l] ^= ord(s[i])
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crc_bytes = [crc >> 24 & 0xff, crc >> 16 & 0xff, crc >> 8 & 0xff, crc & 0xff]
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for i in xrange(l):
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arr1[i] ^= crc_bytes[i&3]
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pid = ""
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for i in xrange(l):
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b = arr1[i] & 0xff
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pid+=charMap4[(b >> 7) + ((b >> 5 & 3) ^ (b & 0x1f))]
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return pid
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# Parse the EXTH header records and use the Kindle serial number to calculate the book pid.
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def getKindlePid(pidlst, rec209, token, serialnum):
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# Compute book PID
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pidHash = SHA1(serialnum+rec209+token)
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bookPID = encodePID(pidHash)
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bookPID = checksumPid(bookPID)
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pidlst.append(bookPID)
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# compute fixed pid for old pre 2.5 firmware update pid as well
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bookPID = pidFromSerial(serialnum, 7) + "*"
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bookPID = checksumPid(bookPID)
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pidlst.append(bookPID)
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return pidlst
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# parse the Kindleinfo file to calculate the book pid.
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keynames = ["kindle.account.tokens","kindle.cookie.item","eulaVersionAccepted","login_date","kindle.token.item","login","kindle.key.item","kindle.name.info","kindle.device.info", "MazamaRandomNumber"]
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def getK4Pids(pidlst, rec209, token, kInfoFile):
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global charMap1
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kindleDatabase = None
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try:
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kindleDatabase = getDBfromFile(kInfoFile)
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except Exception, message:
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print(message)
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kindleDatabase = None
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pass
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if kindleDatabase == None :
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return pidlst
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try:
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# Get the Mazama Random number
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MazamaRandomNumber = kindleDatabase["MazamaRandomNumber"]
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# Get the kindle account token
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kindleAccountToken = kindleDatabase["kindle.account.tokens"]
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except KeyError:
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print "Keys not found in " + kInfoFile
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return pidlst
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# Get the ID string used
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encodedIDString = encodeHash(GetIDString(),charMap1)
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# Get the current user name
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encodedUsername = encodeHash(GetUserName(),charMap1)
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# concat, hash and encode to calculate the DSN
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DSN = encode(SHA1(MazamaRandomNumber+encodedIDString+encodedUsername),charMap1)
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# Compute the device PID (for which I can tell, is used for nothing).
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table = generatePidEncryptionTable()
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devicePID = generateDevicePID(table,DSN,4)
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devicePID = checksumPid(devicePID)
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pidlst.append(devicePID)
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# Compute book PIDs
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# book pid
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pidHash = SHA1(DSN+kindleAccountToken+rec209+token)
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bookPID = encodePID(pidHash)
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bookPID = checksumPid(bookPID)
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pidlst.append(bookPID)
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# variant 1
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pidHash = SHA1(kindleAccountToken+rec209+token)
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bookPID = encodePID(pidHash)
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bookPID = checksumPid(bookPID)
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pidlst.append(bookPID)
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# variant 2
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pidHash = SHA1(DSN+rec209+token)
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bookPID = encodePID(pidHash)
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bookPID = checksumPid(bookPID)
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pidlst.append(bookPID)
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return pidlst
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def getPidList(md1, md2, k4, pids, serials, kInfoFiles):
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pidlst = []
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if kInfoFiles is None:
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kInfoFiles = []
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if k4:
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kInfoFiles = getKindleInfoFiles(kInfoFiles)
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for infoFile in kInfoFiles:
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pidlst = getK4Pids(pidlst, md1, md2, infoFile)
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for serialnum in serials:
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pidlst = getKindlePid(pidlst, md1, md2, serialnum)
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for pid in pids:
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pidlst.append(pid)
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return pidlst
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