noDRM_DeDRM_tools/DeDRM_plugin/ion.py

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#!/usr/bin/env python3
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# -*- coding: utf-8 -*-
# ion.py
# Copyright © 2013-2020 Apprentice Harper et al.
__license__ = 'GPL v3'
__version__ = '3.0'
# Revision history:
# Pascal implementation by lulzkabulz.
# BinaryIon.pas + DrmIon.pas + IonSymbols.pas
# 1.0 - Python translation by apprenticenaomi.
# 1.1 - DeDRM integration by anon.
# 1.2 - Added pylzma import fallback
# 1.3 - Fixed lzma support for calibre 4.6+
# 2.0 - VoucherEnvelope v2/v3 support by apprenticesakuya.
# 3.0 - Added Python 3 compatibility for calibre 5.0
"""
Decrypt Kindle KFX files.
"""
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import collections
import hashlib
import hmac
import os
import os.path
import struct
from io import BytesIO
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#@@CALIBRE_COMPAT_CODE@@
try:
from Cryptodome.Cipher import AES
from Cryptodome.Util.py3compat import bchr
except ImportError:
from Crypto.Cipher import AES
from Crypto.Util.py3compat import bchr
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try:
# lzma library from calibre 4.6.0 or later
import calibre_lzma.lzma1 as calibre_lzma
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except ImportError:
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calibre_lzma = None
# lzma library from calibre 2.35.0 or later
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try:
import lzma.lzma1 as calibre_lzma
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except ImportError:
calibre_lzma = None
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try:
import lzma
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except ImportError:
# Need pip backports.lzma on Python <3.3
try:
from backports import lzma
except ImportError:
# Windows-friendly choice: pylzma wheels
import pylzma as lzma
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from .kfxtables import *
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TID_NULL = 0
TID_BOOLEAN = 1
TID_POSINT = 2
TID_NEGINT = 3
TID_FLOAT = 4
TID_DECIMAL = 5
TID_TIMESTAMP = 6
TID_SYMBOL = 7
TID_STRING = 8
TID_CLOB = 9
TID_BLOB = 0xA
TID_LIST = 0xB
TID_SEXP = 0xC
TID_STRUCT = 0xD
TID_TYPEDECL = 0xE
TID_UNUSED = 0xF
SID_UNKNOWN = -1
SID_ION = 1
SID_ION_1_0 = 2
SID_ION_SYMBOL_TABLE = 3
SID_NAME = 4
SID_VERSION = 5
SID_IMPORTS = 6
SID_SYMBOLS = 7
SID_MAX_ID = 8
SID_ION_SHARED_SYMBOL_TABLE = 9
SID_ION_1_0_MAX = 10
LEN_IS_VAR_LEN = 0xE
LEN_IS_NULL = 0xF
VERSION_MARKER = [b"\x01", b"\x00", b"\xEA"]
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# asserts must always raise exceptions for proper functioning
def _assert(test, msg="Exception"):
if not test:
raise Exception(msg)
class SystemSymbols(object):
ION = '$ion'
ION_1_0 = '$ion_1_0'
ION_SYMBOL_TABLE = '$ion_symbol_table'
NAME = 'name'
VERSION = 'version'
IMPORTS = 'imports'
SYMBOLS = 'symbols'
MAX_ID = 'max_id'
ION_SHARED_SYMBOL_TABLE = '$ion_shared_symbol_table'
class IonCatalogItem(object):
name = ""
version = 0
symnames = []
def __init__(self, name, version, symnames):
self.name = name
self.version = version
self.symnames = symnames
class SymbolToken(object):
text = ""
sid = 0
def __init__(self, text, sid):
if text == "" and sid == 0:
raise ValueError("Symbol token must have Text or SID")
self.text = text
self.sid = sid
class SymbolTable(object):
table = None
def __init__(self):
self.table = [None] * SID_ION_1_0_MAX
self.table[SID_ION] = SystemSymbols.ION
self.table[SID_ION_1_0] = SystemSymbols.ION_1_0
self.table[SID_ION_SYMBOL_TABLE] = SystemSymbols.ION_SYMBOL_TABLE
self.table[SID_NAME] = SystemSymbols.NAME
self.table[SID_VERSION] = SystemSymbols.VERSION
self.table[SID_IMPORTS] = SystemSymbols.IMPORTS
self.table[SID_SYMBOLS] = SystemSymbols.SYMBOLS
self.table[SID_MAX_ID] = SystemSymbols.MAX_ID
self.table[SID_ION_SHARED_SYMBOL_TABLE] = SystemSymbols.ION_SHARED_SYMBOL_TABLE
def findbyid(self, sid):
if sid < 1:
raise ValueError("Invalid symbol id")
if sid < len(self.table):
return self.table[sid]
else:
return ""
def import_(self, table, maxid):
for i in range(maxid):
self.table.append(table.symnames[i])
def importunknown(self, name, maxid):
for i in range(maxid):
self.table.append("%s#%d" % (name, i + 1))
class ParserState:
Invalid,BeforeField,BeforeTID,BeforeValue,AfterValue,EOF = 1,2,3,4,5,6
ContainerRec = collections.namedtuple("ContainerRec", "nextpos, tid, remaining")
class BinaryIonParser(object):
eof = False
state = None
localremaining = 0
needhasnext = False
isinstruct = False
valuetid = 0
valuefieldid = 0
parenttid = 0
valuelen = 0
valueisnull = False
valueistrue = False
value = None
didimports = False
def __init__(self, stream):
self.annotations = []
self.catalog = []
self.stream = stream
self.initpos = stream.tell()
self.reset()
self.symbols = SymbolTable()
def reset(self):
self.state = ParserState.BeforeTID
self.needhasnext = True
self.localremaining = -1
self.eof = False
self.isinstruct = False
self.containerstack = []
self.stream.seek(self.initpos)
def addtocatalog(self, name, version, symbols):
self.catalog.append(IonCatalogItem(name, version, symbols))
def hasnext(self):
while self.needhasnext and not self.eof:
self.hasnextraw()
if len(self.containerstack) == 0 and not self.valueisnull:
if self.valuetid == TID_SYMBOL:
if self.value == SID_ION_1_0:
self.needhasnext = True
elif self.valuetid == TID_STRUCT:
for a in self.annotations:
if a == SID_ION_SYMBOL_TABLE:
self.parsesymboltable()
self.needhasnext = True
break
return not self.eof
def hasnextraw(self):
self.clearvalue()
while self.valuetid == -1 and not self.eof:
self.needhasnext = False
if self.state == ParserState.BeforeField:
_assert(self.valuefieldid == SID_UNKNOWN)
self.valuefieldid = self.readfieldid()
if self.valuefieldid != SID_UNKNOWN:
self.state = ParserState.BeforeTID
else:
self.eof = True
elif self.state == ParserState.BeforeTID:
self.state = ParserState.BeforeValue
self.valuetid = self.readtypeid()
if self.valuetid == -1:
self.state = ParserState.EOF
self.eof = True
break
if self.valuetid == TID_TYPEDECL:
if self.valuelen == 0:
self.checkversionmarker()
else:
self.loadannotations()
elif self.state == ParserState.BeforeValue:
self.skip(self.valuelen)
self.state = ParserState.AfterValue
elif self.state == ParserState.AfterValue:
if self.isinstruct:
self.state = ParserState.BeforeField
else:
self.state = ParserState.BeforeTID
else:
_assert(self.state == ParserState.EOF)
def next(self):
if self.hasnext():
self.needhasnext = True
return self.valuetid
else:
return -1
def push(self, typeid, nextposition, nextremaining):
self.containerstack.append(ContainerRec(nextpos=nextposition, tid=typeid, remaining=nextremaining))
def stepin(self):
_assert(self.valuetid in [TID_STRUCT, TID_LIST, TID_SEXP] and not self.eof,
"valuetid=%s eof=%s" % (self.valuetid, self.eof))
_assert((not self.valueisnull or self.state == ParserState.AfterValue) and
(self.valueisnull or self.state == ParserState.BeforeValue))
nextrem = self.localremaining
if nextrem != -1:
nextrem -= self.valuelen
if nextrem < 0:
nextrem = 0
self.push(self.parenttid, self.stream.tell() + self.valuelen, nextrem)
self.isinstruct = (self.valuetid == TID_STRUCT)
if self.isinstruct:
self.state = ParserState.BeforeField
else:
self.state = ParserState.BeforeTID
self.localremaining = self.valuelen
self.parenttid = self.valuetid
self.clearvalue()
self.needhasnext = True
def stepout(self):
rec = self.containerstack.pop()
self.eof = False
self.parenttid = rec.tid
if self.parenttid == TID_STRUCT:
self.isinstruct = True
self.state = ParserState.BeforeField
else:
self.isinstruct = False
self.state = ParserState.BeforeTID
self.needhasnext = True
self.clearvalue()
curpos = self.stream.tell()
if rec.nextpos > curpos:
self.skip(rec.nextpos - curpos)
else:
_assert(rec.nextpos == curpos)
self.localremaining = rec.remaining
def read(self, count=1):
if self.localremaining != -1:
self.localremaining -= count
_assert(self.localremaining >= 0)
result = self.stream.read(count)
if len(result) == 0:
raise EOFError()
return result
def readfieldid(self):
if self.localremaining != -1 and self.localremaining < 1:
return -1
try:
return self.readvaruint()
except EOFError:
return -1
def readtypeid(self):
if self.localremaining != -1:
if self.localremaining < 1:
return -1
self.localremaining -= 1
b = self.stream.read(1)
if len(b) < 1:
return -1
b = ord(b)
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result = b >> 4
ln = b & 0xF
if ln == LEN_IS_VAR_LEN:
ln = self.readvaruint()
elif ln == LEN_IS_NULL:
ln = 0
self.state = ParserState.AfterValue
elif result == TID_NULL:
# Must have LEN_IS_NULL
_assert(False)
elif result == TID_BOOLEAN:
_assert(ln <= 1)
self.valueistrue = (ln == 1)
ln = 0
self.state = ParserState.AfterValue
elif result == TID_STRUCT:
if ln == 1:
ln = self.readvaruint()
self.valuelen = ln
return result
def readvarint(self):
b = ord(self.read())
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negative = ((b & 0x40) != 0)
result = (b & 0x3F)
i = 0
while (b & 0x80) == 0 and i < 4:
b = ord(self.read())
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result = (result << 7) | (b & 0x7F)
i += 1
_assert(i < 4 or (b & 0x80) != 0, "int overflow")
if negative:
return -result
return result
def readvaruint(self):
b = ord(self.read())
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result = (b & 0x7F)
i = 0
while (b & 0x80) == 0 and i < 4:
b = ord(self.read())
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result = (result << 7) | (b & 0x7F)
i += 1
_assert(i < 4 or (b & 0x80) != 0, "int overflow")
return result
def readdecimal(self):
if self.valuelen == 0:
return 0.
rem = self.localremaining - self.valuelen
self.localremaining = self.valuelen
exponent = self.readvarint()
_assert(self.localremaining > 0, "Only exponent in ReadDecimal")
_assert(self.localremaining <= 8, "Decimal overflow")
signed = False
b = [ord(x) for x in self.read(self.localremaining)]
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if (b[0] & 0x80) != 0:
b[0] = b[0] & 0x7F
signed = True
# Convert variably sized network order integer into 64-bit little endian
j = 0
vb = [0] * 8
for i in range(len(b), -1, -1):
vb[i] = b[j]
j += 1
v = struct.unpack("<Q", b"".join(bchr(x) for x in vb))[0]
result = v * (10 ** exponent)
if signed:
result = -result
self.localremaining = rem
return result
def skip(self, count):
if self.localremaining != -1:
self.localremaining -= count
if self.localremaining < 0:
raise EOFError()
self.stream.seek(count, os.SEEK_CUR)
def parsesymboltable(self):
self.next() # shouldn't do anything?
_assert(self.valuetid == TID_STRUCT)
if self.didimports:
return
self.stepin()
fieldtype = self.next()
while fieldtype != -1:
if not self.valueisnull:
_assert(self.valuefieldid == SID_IMPORTS, "Unsupported symbol table field id")
if fieldtype == TID_LIST:
self.gatherimports()
fieldtype = self.next()
self.stepout()
self.didimports = True
def gatherimports(self):
self.stepin()
t = self.next()
while t != -1:
if not self.valueisnull and t == TID_STRUCT:
self.readimport()
t = self.next()
self.stepout()
def readimport(self):
version = -1
maxid = -1
name = ""
self.stepin()
t = self.next()
while t != -1:
if not self.valueisnull and self.valuefieldid != SID_UNKNOWN:
if self.valuefieldid == SID_NAME:
name = self.stringvalue()
elif self.valuefieldid == SID_VERSION:
version = self.intvalue()
elif self.valuefieldid == SID_MAX_ID:
maxid = self.intvalue()
t = self.next()
self.stepout()
if name == "" or name == SystemSymbols.ION:
return
if version < 1:
version = 1
table = self.findcatalogitem(name)
if maxid < 0:
_assert(table is not None and version == table.version, "Import %s lacks maxid" % name)
maxid = len(table.symnames)
if table is not None:
self.symbols.import_(table, min(maxid, len(table.symnames)))
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if len(table.symnames) < maxid:
self.symbols.importunknown(name + "-unknown", maxid - len(table.symnames))
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else:
self.symbols.importunknown(name, maxid)
def intvalue(self):
_assert(self.valuetid in [TID_POSINT, TID_NEGINT], "Not an int")
self.preparevalue()
return self.value
def stringvalue(self):
_assert(self.valuetid == TID_STRING, "Not a string")
if self.valueisnull:
return ""
self.preparevalue()
return self.value
def symbolvalue(self):
_assert(self.valuetid == TID_SYMBOL, "Not a symbol")
self.preparevalue()
result = self.symbols.findbyid(self.value)
if result == "":
result = "SYMBOL#%d" % self.value
return result
def lobvalue(self):
_assert(self.valuetid in [TID_CLOB, TID_BLOB], "Not a LOB type: %s" % self.getfieldname())
if self.valueisnull:
return None
result = self.read(self.valuelen)
self.state = ParserState.AfterValue
return result
def decimalvalue(self):
_assert(self.valuetid == TID_DECIMAL, "Not a decimal")
self.preparevalue()
return self.value
def preparevalue(self):
if self.value is None:
self.loadscalarvalue()
def loadscalarvalue(self):
if self.valuetid not in [TID_NULL, TID_BOOLEAN, TID_POSINT, TID_NEGINT,
TID_FLOAT, TID_DECIMAL, TID_TIMESTAMP,
TID_SYMBOL, TID_STRING]:
return
if self.valueisnull:
self.value = None
return
if self.valuetid == TID_STRING:
self.value = self.read(self.valuelen).decode("UTF-8")
elif self.valuetid in (TID_POSINT, TID_NEGINT, TID_SYMBOL):
if self.valuelen == 0:
self.value = 0
else:
_assert(self.valuelen <= 4, "int too long: %d" % self.valuelen)
v = 0
for i in range(self.valuelen - 1, -1, -1):
v = (v | (ord(self.read()) << (i * 8)))
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if self.valuetid == TID_NEGINT:
self.value = -v
else:
self.value = v
elif self.valuetid == TID_DECIMAL:
self.value = self.readdecimal()
#else:
# _assert(False, "Unhandled scalar type %d" % self.valuetid)
self.state = ParserState.AfterValue
def clearvalue(self):
self.valuetid = -1
self.value = None
self.valueisnull = False
self.valuefieldid = SID_UNKNOWN
self.annotations = []
def loadannotations(self):
ln = self.readvaruint()
maxpos = self.stream.tell() + ln
while self.stream.tell() < maxpos:
self.annotations.append(self.readvaruint())
self.valuetid = self.readtypeid()
def checkversionmarker(self):
for i in VERSION_MARKER:
_assert(self.read() == i, "Unknown version marker")
self.valuelen = 0
self.valuetid = TID_SYMBOL
self.value = SID_ION_1_0
self.valueisnull = False
self.valuefieldid = SID_UNKNOWN
self.state = ParserState.AfterValue
def findcatalogitem(self, name):
for result in self.catalog:
if result.name == name:
return result
def forceimport(self, symbols):
item = IonCatalogItem("Forced", 1, symbols)
self.symbols.import_(item, len(symbols))
def getfieldname(self):
if self.valuefieldid == SID_UNKNOWN:
return ""
return self.symbols.findbyid(self.valuefieldid)
def getfieldnamesymbol(self):
return SymbolToken(self.getfieldname(), self.valuefieldid)
def gettypename(self):
if len(self.annotations) == 0:
return ""
return self.symbols.findbyid(self.annotations[0])
@staticmethod
def printlob(b):
if b is None:
return "null"
result = ""
for i in b:
result += ("%02x " % ord(i))
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if len(result) > 0:
result = result[:-1]
return result
def ionwalk(self, supert, indent, lst):
while self.hasnext():
if supert == TID_STRUCT:
L = self.getfieldname() + ":"
else:
L = ""
t = self.next()
if t in [TID_STRUCT, TID_LIST]:
if L != "":
lst.append(indent + L)
L = self.gettypename()
if L != "":
lst.append(indent + L + "::")
if t == TID_STRUCT:
lst.append(indent + "{")
else:
lst.append(indent + "[")
self.stepin()
self.ionwalk(t, indent + " ", lst)
self.stepout()
if t == TID_STRUCT:
lst.append(indent + "}")
else:
lst.append(indent + "]")
else:
if t == TID_STRING:
L += ('"%s"' % self.stringvalue())
elif t in [TID_CLOB, TID_BLOB]:
L += ("{%s}" % self.printlob(self.lobvalue()))
elif t == TID_POSINT:
L += str(self.intvalue())
elif t == TID_SYMBOL:
tn = self.gettypename()
if tn != "":
tn += "::"
L += tn + self.symbolvalue()
elif t == TID_DECIMAL:
L += str(self.decimalvalue())
else:
L += ("TID %d" % t)
lst.append(indent + L)
def print_(self, lst):
self.reset()
self.ionwalk(-1, "", lst)
SYM_NAMES = [ 'com.amazon.drm.Envelope@1.0',
'com.amazon.drm.EnvelopeMetadata@1.0', 'size', 'page_size',
'encryption_key', 'encryption_transformation',
'encryption_voucher', 'signing_key', 'signing_algorithm',
'signing_voucher', 'com.amazon.drm.EncryptedPage@1.0',
'cipher_text', 'cipher_iv', 'com.amazon.drm.Signature@1.0',
'data', 'com.amazon.drm.EnvelopeIndexTable@1.0', 'length',
'offset', 'algorithm', 'encoded', 'encryption_algorithm',
'hashing_algorithm', 'expires', 'format', 'id',
'lock_parameters', 'strategy', 'com.amazon.drm.Key@1.0',
'com.amazon.drm.KeySet@1.0', 'com.amazon.drm.PIDv3@1.0',
'com.amazon.drm.PlainTextPage@1.0',
'com.amazon.drm.PlainText@1.0', 'com.amazon.drm.PrivateKey@1.0',
'com.amazon.drm.PublicKey@1.0', 'com.amazon.drm.SecretKey@1.0',
'com.amazon.drm.Voucher@1.0', 'public_key', 'private_key',
'com.amazon.drm.KeyPair@1.0', 'com.amazon.drm.ProtectedData@1.0',
'doctype', 'com.amazon.drm.EnvelopeIndexTableOffset@1.0',
'enddoc', 'license_type', 'license', 'watermark', 'key', 'value',
'com.amazon.drm.License@1.0', 'category', 'metadata',
'categorized_metadata', 'com.amazon.drm.CategorizedMetadata@1.0',
'com.amazon.drm.VoucherEnvelope@1.0', 'mac', 'voucher',
'com.amazon.drm.ProtectedData@2.0',
'com.amazon.drm.Envelope@2.0',
'com.amazon.drm.EnvelopeMetadata@2.0',
'com.amazon.drm.EncryptedPage@2.0',
'com.amazon.drm.PlainText@2.0', 'compression_algorithm',
'com.amazon.drm.Compressed@1.0', 'page_index_table',
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] + ['com.amazon.drm.VoucherEnvelope@%d.0' % n
for n in list(range(2, 29)) + [
9708, 1031, 2069, 9041, 3646,
6052, 9479, 9888, 4648, 5683]]
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def addprottable(ion):
ion.addtocatalog("ProtectedData", 1, SYM_NAMES)
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def pkcs7pad(msg, blocklen):
paddinglen = blocklen - len(msg) % blocklen
padding = bchr(paddinglen) * paddinglen
return msg + padding
def pkcs7unpad(msg, blocklen):
_assert(len(msg) % blocklen == 0)
paddinglen = msg[-1]
_assert(paddinglen > 0 and paddinglen <= blocklen, "Incorrect padding - Wrong key")
_assert(msg[-paddinglen:] == bchr(paddinglen) * paddinglen, "Incorrect padding - Wrong key")
return msg[:-paddinglen]
# every VoucherEnvelope version has a corresponding "word" and magic number, used in obfuscating the shared secret
# 4-digit versions use their own obfuscation/scramble. It does not seem to depend on the "word" and number
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OBFUSCATION_TABLE = {
"V1": (0x00, None),
"V2": (0x05, b'Antidisestablishmentarianism'),
"V3": (0x08, b'Floccinaucinihilipilification'),
"V4": (0x07, b'>\x14\x0c\x12\x10-\x13&\x18U\x1d\x05Rlt\x03!\x19\x1b\x13\x04]Y\x19,\t\x1b'),
"V5": (0x06, b'~\x18~\x16J\\\x18\x10\x05\x0b\x07\t\x0cZ\r|\x1c\x15\x1d\x11>,\x1b\x0e\x03"4\x1b\x01'),
"V6": (0x09, b'3h\x055\x03[^>\x19\x1c\x08\x1b\rtm4\x02Rp\x0c\x16B\n'),
"V7": (0x05, b'\x10\x1bJ\x18\nh!\x10"\x03>Z\'\r\x01]W\x06\x1c\x1e?\x0f\x13'),
"V8": (0x09, b"K\x0c6\x1d\x1a\x17pO}Rk\x1d'w1^\x1f$\x1c{C\x02Q\x06\x1d`"),
"V9": (0x05, b'X.\x0eW\x1c*K\x12\x12\t\n\n\x17Wx\x01\x02Yf\x0f\x18\x1bVXPi\x01'),
"V10": (0x07, b'z3\n\x039\x12\x13`\x06=v;\x02MTK\x1e%}L\x1c\x1f\x15\x0c\x11\x02\x0c\n8\x17p'),
2021-01-21 15:46:03 +01:00
"V11": (0x05, b'L=\nhVm\x07go\n6\x14\x06\x16L\r\x02\x0b\x0c\x1b\x04#p\t'),
"V12": (0x06, b';n\x1d\rl\x13\x1c\x13\x16p\x14\x07U\x0c\x1f\x19w\x16\x16\x1d5T'),
2021-01-21 15:46:03 +01:00
"V13": (0x07, b'I\x05\t\x08\x03r)\x01$N\x0fr3n\x0b062D\x0f\x13'),
"V14": (0x05, b"\x03\x02\x1c9\x19\x15\x15q\x1057\x08\x16\x0cF\x1b.Fw\x01\x12\x03\x13\x02\x17S'hk6"),
"V15": (0x0A, b'&,4B\x1dcI\x0bU\x03I\x07\x04\x1c\t\x05c\x07%ws\x0cj\t\x1a\x08\x0f'),
"V16": (0x0A, b'\x06\x18`h;b><\x06PqR\x02Zc\x034\n\x16\x1e\x18\x06#e'),
2021-01-21 15:46:03 +01:00
"V17": (0x07, b'y\r\x12\x08fw.[\x02\t\n\x13\x11\x0c\x11b\x1e8L\x10(\x13<Jx6c\x0f'),
"V18": (0x07, b'I\x0b\x0e;\x19\x1aIa\x10s\x19g\\\x1b\x11!\x18yf\x0f\t\x1d7[bSp\x03'),
2021-01-21 15:46:03 +01:00
"V19": (0x05, b'\n6>)N\x02\x188\x016s\x13\x14\x1b\x16jeN\n\x146\x04\x18\x1c\x0c\x19\x1f,\x02]'),
"V20": (0x08, b'_\r\x01\x12]\\\x14*\x17i\x14\r\t!\x1e;~hZ\x12jK\x17\x1e*1'),
2021-01-21 15:46:03 +01:00
"V21": (0x07, b'e\x1d\x19|\ty\x1di|N\x13\x0e\x04\x1bj<h\x13\x15k\x12\x08=\x1f\x16~\x13l'),
"V22": (0x08, b'?\x17yi$k7Pc\tEo\x0c\x07\x07\t\x1f,*i\x12\x0cI0\x10I\x1a?2\x04'),
"V23": (0x08, b'\x16+db\x13\x04\x18\rc%\x14\x17\x0f\x13F\x0c[\t9\x1ay\x01\x1eH'),
"V24": (0x06, b'|6\\\x1a\r\x10\nP\x07\x0fu\x1f\t;\rr`uv\\~55\x11]N'),
"V25": (0x09, b'\x07\x14w\x1e;^y\x01:\x08\x07\x1fr\tU#j\x16\x12\x1eB\x04\x16=\x06fZ\x07\x02\x06'),
2021-01-21 15:46:03 +01:00
"V26": (0x06, b'\x03IL\x1e"K\x1f\x0f\x1fp0\x01`X\x02z0`\x03\x0eN\x07'),
"V27": (0x07, b'Xk\x10y\x02\x18\x10\x17\x1d,\x0e\x05e\x10\x15"e\x0fh(\x06s\x1c\x08I\x0c\x1b\x0e'),
"V28": (0x0A, b'6P\x1bs\x0f\x06V.\x1cM\x14\x02\n\x1b\x07{P0:\x18zaU\x05'),
"V9708": (0x05, b'\x1diIm\x08a\x17\x1e!am\x1d\x1aQ.\x16!\x06*\x04\x11\t\x06\x04?'),
2021-01-21 15:46:03 +01:00
"V1031": (0x08, b'Antidisestablishmentarianism'),
"V2069": (0x07, b'Floccinaucinihilipilification'),
"V9041": (0x06, b'>\x14\x0c\x12\x10-\x13&\x18U\x1d\x05Rlt\x03!\x19\x1b\x13\x04]Y\x19,\t\x1b'),
"V3646": (0x09, b'~\x18~\x16J\\\x18\x10\x05\x0b\x07\t\x0cZ\r|\x1c\x15\x1d\x11>,\x1b\x0e\x03"4\x1b\x01'),
"V6052": (0x05, b'3h\x055\x03[^>\x19\x1c\x08\x1b\rtm4\x02Rp\x0c\x16B\n'),
"V9479": (0x09, b'\x10\x1bJ\x18\nh!\x10"\x03>Z\'\r\x01]W\x06\x1c\x1e?\x0f\x13'),
"V9888": (0x05, b"K\x0c6\x1d\x1a\x17pO}Rk\x1d'w1^\x1f$\x1c{C\x02Q\x06\x1d`"),
"V4648": (0x07, b'X.\x0eW\x1c*K\x12\x12\t\n\n\x17Wx\x01\x02Yf\x0f\x18\x1bVXPi\x01'),
"V5683": (0x05, b'z3\n\x039\x12\x13`\x06=v;\x02MTK\x1e%}L\x1c\x1f\x15\x0c\x11\x02\x0c\n8\x17p'),
}
#common str: "PIDv3AESAES/CBC/PKCS5PaddingHmacSHA256"
class workspace(object):
def __init__(self,initial_list):
self.work=initial_list
def shuffle(self,shuflist):
ll=len(shuflist)
rt=[]
for i in range(ll):
rt.append(self.work[shuflist[i]])
self.work=rt
def sbox(self,table,matrix,skplist=[]): #table is list of 4-byte integers
offset=0
nwork=list(self.work)
wo=0
toff=0
while offset<0x6000:
uv5=table[toff+nwork[wo+0]]
uv1=table[toff+nwork[wo+1]+0x100]
uv2=table[toff+nwork[wo+2]+0x200]
uv3=table[toff+nwork[wo+3]+0x300]
moff=0
if 0 in skplist:
moff+=0x400
else:
nib1=matrix[moff+offset+(uv1>>0x1c)|( (uv5>>0x18)&0xf0)]
moff+=0x100
nib2=matrix[moff+offset+(uv3>>0x1c)|( (uv2>>0x18)&0xf0)]
moff+=0x100
nib3=matrix[moff+offset+((uv1>>0x18)&0xf) |( (uv5>>0x14)&0xf0)]
moff+=0x100
nib4=matrix[moff+offset+((uv3>>0x18)&0xf) |( (uv2>>0x14)&0xf0)]
moff+=0x100
rnib1=matrix[moff+offset+nib1*0x10+nib2]
moff+=0x100
rnib2=matrix[moff+offset+nib3*0x10+nib4]
moff+=0x100
nwork[wo+0]=rnib1*0x10+rnib2
if 1 in skplist:
moff+=0x400
else:
nib1=matrix[moff+offset+((uv1>>0x14)&0xf)|( (uv5>>0x10)&0xf0)]
moff+=0x100
nib2=matrix[moff+offset+((uv3>>0x14)&0xf)|( (uv2>>0x10)&0xf0)]
moff+=0x100
nib3=matrix[moff+offset+((uv1>>0x10)&0xf) |( (uv5>>0xc)&0xf0)]
moff+=0x100
nib4=matrix[moff+offset+((uv3>>0x10)&0xf) |( (uv2>>0xc)&0xf0)]
moff+=0x100
rnib1=matrix[moff+offset+nib1*0x10+nib2]
moff+=0x100
rnib2=matrix[moff+offset+nib3*0x10+nib4]
moff+=0x100
nwork[wo+1]=rnib1*0x10+rnib2
if 2 in skplist:
moff+=0x400
else:
nib1=matrix[moff+offset+((uv1>>0xc)&0xf)|( (uv5>>0x8)&0xf0)]
moff+=0x100
nib2=matrix[moff+offset+((uv3>>0xc)&0xf)|( (uv2>>0x8)&0xf0)]
moff+=0x100
nib3=matrix[moff+offset+((uv1>>0x8)&0xf) |( (uv5>>0x4)&0xf0)]
moff+=0x100
nib4=matrix[moff+offset+((uv3>>0x8)&0xf) |( (uv2>>0x4)&0xf0)]
moff+=0x100
rnib1=matrix[moff+offset+nib1*0x10+nib2]
moff+=0x100
rnib2=matrix[moff+offset+nib3*0x10+nib4]
moff+=0x100
nwork[wo+2]=rnib1*0x10+rnib2
if 3 in skplist:
moff+=0x400
else:
nib1=matrix[moff+offset+((uv1>>0x4)&0xf)|( (uv5)&0xf0)]
moff+=0x100
nib2=matrix[moff+offset+((uv3>>0x4)&0xf)|( (uv2)&0xf0)]
moff+=0x100
nib3=matrix[moff+offset+((uv1)&0xf)|( (uv5<<4)&0xf0) ]
moff+=0x100
nib4=matrix[moff+offset+((uv3)&0xf)|( (uv2<<4)&0xf0) ]
moff+=0x100
##############
rnib1=matrix[moff+offset+nib1*0x10+nib2]
moff+=0x100
rnib2=matrix[moff+offset+nib3*0x10+nib4]
moff+=0x100
nwork[wo+3]=rnib1*0x10+rnib2
offset = offset + 0x1800
wo+=4
toff+=0x400
self.work=nwork
def lookup(self,ltable):
for a in range(len(self.work)):
self.work[a]=ltable[a]
def exlookup(self,ltable):
lookoffs=0
for a in range(len(self.work)):
self.work[a]=ltable[self.work[a]+lookoffs]
lookoffs+=0x100
def mask(self, chunk):
out=[]
for a in range(len(chunk)):
self.work[a]=self.work[a]^chunk[a]
out.append(self.work[a])
return out
def process_V9708(st):
#e9c457a7dae6aa24365e7ef219b934b17ed58ee7d5329343fc3aea7860ed51f9a73de14351c9
ws=workspace([0x11]*16)
repl=[0,5,10,15,4,9,14,3,8,13,2,7,12,1,6,11]
remln=len(st)
sto=0
out=[]
while(remln>0):
ws.shuffle(repl)
ws.sbox(d0x6a06ea70,d0x6a0dab50)
ws.sbox(d0x6a073a70,d0x6a0dab50)
ws.shuffle(repl)
ws.exlookup(d0x6a072a70)
dat=ws.mask(st[sto:sto+16])
out+=dat
sto+=16
remln-=16;
return bytes(out)
def process_V1031(st):
#d53efea7fdd0fda3e1e0ebbae87cad0e8f5ef413c471c3ae81f39222a9ec8b8ed582e045918c
ws=workspace([0x06,0x18,0x60,0x68,0x3b,0x62,0x3e,0x3c,0x06,0x50,0x71,0x52,0x02,0x5a,0x63,0x03])
repl=[0,5,10,15,4,9,14,3,8,13,2,7,12,1,6,11]
remln=len(st)
sto=0
out=[]
while(remln>0):
ws.shuffle(repl)
ws.sbox(d0x6a0797c0,d0x6a0dab50,[3])
ws.sbox(d0x6a07e7c0,d0x6a0dab50,[3])
ws.shuffle(repl)
ws.sbox(d0x6a0797c0,d0x6a0dab50,[3])
ws.sbox(d0x6a07e7c0,d0x6a0dab50,[3])
ws.exlookup(d0x6a07d7c0)
dat=ws.mask(st[sto:sto+16])
out+=dat
sto+=16
remln-=16
#break
return bytes(out)
def process_V2069(st):
#8e6196d754a304c9354e91b5d79f07b048026d31c7373a8691e513f2c802c706742731caa858
ws=workspace([0x79,0x0d,0x12,0x08,0x66,0x77,0x2e,0x5b,0x02,0x09,0x0a,0x13,0x11,0x0c,0x11,0x62])
repl=[0,5,10,15,4,9,14,3,8,13,2,7,12,1,6,11]
remln=len(st)
sto=0
out=[]
while(remln>0):
ws.sbox(d0x6a084498,d0x6a0dab50,[2])
ws.shuffle(repl)
ws.sbox(d0x6a089498,d0x6a0dab50,[2])
ws.sbox(d0x6a089498,d0x6a0dab50,[2])
ws.sbox(d0x6a084498,d0x6a0dab50,[2])
ws.shuffle(repl)
ws.exlookup(d0x6a088498)
dat=ws.mask(st[sto:sto+16])
out+=dat
sto+=16
remln-=16
return bytes(out)
def process_V9041(st):
#11f7db074b24e560dfa6fae3252b383c3b936e51f6ded570dc936cb1da9f4fc4a97ec686e7d8
ws=workspace([0x49,0x0b,0x0e,0x3b,0x19,0x1a,0x49,0x61,0x10,0x73,0x19,0x67,0x5c,0x1b,0x11,0x21])
repl=[0,5,10,15,4,9,14,3,8,13,2,7,12,1,6,11]
remln=len(st)
sto=0
out=[]
while(remln>0):
ws.sbox(d0x6a094170,d0x6a0dab50,[1])
ws.shuffle(repl)
ws.shuffle(repl)
ws.sbox(d0x6a08f170,d0x6a0dab50,[1])
ws.sbox(d0x6a08f170,d0x6a0dab50,[1])
ws.sbox(d0x6a094170,d0x6a0dab50,[1])
ws.exlookup(d0x6a093170)
dat=ws.mask(st[sto:sto+16])
out+=dat
sto+=16
remln-=16
#break
return bytes(out)
def process_V3646(st):
#d468aa362b44479282291983243b38197c4b4aa24c2c58e62c76ec4b81e08556ca0c54301664
ws=workspace([0x0a,0x36,0x3e,0x29,0x4e,0x02,0x18,0x38,0x01,0x36,0x73,0x13,0x14,0x1b,0x16,0x6a])
repl=[0,5,10,15,4,9,14,3,8,13,2,7,12,1,6,11]
remln=len(st)
sto=0
out=[]
while(remln>0):
ws.shuffle(repl)
ws.sbox(d0x6a099e48,d0x6a0dab50,[2,3])
ws.sbox(d0x6a09ee48,d0x6a0dab50,[2,3])
ws.sbox(d0x6a09ee48,d0x6a0dab50,[2,3])
ws.shuffle(repl)
ws.sbox(d0x6a099e48,d0x6a0dab50,[2,3])
ws.sbox(d0x6a099e48,d0x6a0dab50,[2,3])
ws.shuffle(repl)
ws.sbox(d0x6a09ee48,d0x6a0dab50,[2,3])
ws.exlookup(d0x6a09de48)
dat=ws.mask(st[sto:sto+16])
out+=dat
sto+=16
remln-=16
return bytes(out)
def process_V6052(st):
#d683c8c4e4f46ae45812196f37e218eabce0fae08994f25fabb01d3e569b8bf3866b99d36f57
ws=workspace([0x5f,0x0d,0x01,0x12,0x5d,0x5c,0x14,0x2a,0x17,0x69,0x14,0x0d,0x09,0x21,0x1e,0x3b])
repl=[0,5,10,15,4,9,14,3,8,13,2,7,12,1,6,11]
remln=len(st)
sto=0
out=[]
while(remln>0):
ws.shuffle(repl)
ws.sbox(d0x6a0a4b20,d0x6a0dab50,[1,3])
ws.shuffle(repl)
ws.sbox(d0x6a0a4b20,d0x6a0dab50,[1,3])
ws.sbox(d0x6a0a9b20,d0x6a0dab50,[1,3])
ws.shuffle(repl)
ws.sbox(d0x6a0a9b20,d0x6a0dab50,[1,3])
ws.sbox(d0x6a0a9b20,d0x6a0dab50,[1,3])
ws.sbox(d0x6a0a4b20,d0x6a0dab50,[1,3])
ws.exlookup(d0x6a0a8b20)
dat=ws.mask(st[sto:sto+16])
out+=dat
sto+=16
remln-=16
return bytes(out)
def process_V9479(st):
#925635db434bccd3f4791eb87b89d2dfc7c93be06e794744eb9de58e6d721e696980680ab551
ws=workspace([0x65,0x1d,0x19,0x7c,0x09,0x79,0x1d,0x69,0x7c,0x4e,0x13,0x0e,0x04,0x1b,0x6a,0x3c ])
repl=[0,5,10,15,4,9,14,3,8,13,2,7,12,1,6,11]
remln=len(st)
sto=0
out=[]
while(remln>0):
ws.sbox(d0x6a0af7f8,d0x6a0dab50,[1,2,3])
ws.sbox(d0x6a0af7f8,d0x6a0dab50,[1,2,3])
ws.sbox(d0x6a0b47f8,d0x6a0dab50,[1,2,3])
ws.sbox(d0x6a0af7f8,d0x6a0dab50,[1,2,3])
ws.shuffle(repl)
ws.sbox(d0x6a0b47f8,d0x6a0dab50,[1,2,3])
ws.shuffle(repl)
ws.shuffle(repl)
ws.sbox(d0x6a0b47f8,d0x6a0dab50,[1,2,3])
ws.exlookup(d0x6a0b37f8)
dat=ws.mask(st[sto:sto+16])
out+=dat
sto+=16
remln-=16
return bytes(out)
def process_V9888(st):
#54c470723f8c105ba0186b6319050869de673ce31a5ec15d4439921d4cd05c5e860cb2a41fea
ws=workspace([0x3f,0x17,0x79,0x69,0x24,0x6b,0x37,0x50,0x63,0x09,0x45,0x6f,0x0c,0x07,0x07,0x09])
repl=[0,5,10,15,4,9,14,3,8,13,2,7,12,1,6,11]
remln=len(st)
sto=0
out=[]
while(remln>0):
ws.sbox(d0x6a0ba4d0,d0x6a0dab50,[1,2])
ws.sbox(d0x6a0bf4d0,d0x6a0dab50,[1,2])
ws.sbox(d0x6a0bf4d0,d0x6a0dab50,[1,2])
ws.sbox(d0x6a0ba4d0,d0x6a0dab50,[1,2])
ws.shuffle(repl)
ws.shuffle(repl)
ws.shuffle(repl)
ws.sbox(d0x6a0bf4d0,d0x6a0dab50,[1,2])
ws.sbox(d0x6a0ba4d0,d0x6a0dab50,[1,2])
ws.exlookup(d0x6a0be4d0)
dat=ws.mask(st[sto:sto+16])
out+=dat
sto+=16
remln-=16
return bytes(out)
def process_V4648(st):
#705bd4cd8b61d4596ef4ca40774d68e71f1f846c6e94bd23fd26e5c127e0beaa650a50171f1b
ws=workspace([0x16,0x2b,0x64,0x62,0x13,0x04,0x18,0x0d,0x63,0x25,0x14,0x17,0x0f,0x13,0x46,0x0c])
repl=[0,5,10,15,4,9,14,3,8,13,2,7,12,1,6,11]
remln=len(st)
sto=0
out=[]
while(remln>0):
ws.sbox(d0x6a0ca1a8,d0x6a0dab50,[1,3])
ws.shuffle(repl)
ws.sbox(d0x6a0ca1a8,d0x6a0dab50,[1,3])
ws.sbox(d0x6a0c51a8,d0x6a0dab50,[1,3])
ws.sbox(d0x6a0ca1a8,d0x6a0dab50,[1,3])
ws.sbox(d0x6a0c51a8,d0x6a0dab50,[1,3])
ws.sbox(d0x6a0c51a8,d0x6a0dab50,[1,3])
ws.shuffle(repl)
ws.shuffle(repl)
ws.exlookup(d0x6a0c91a8)
dat=ws.mask(st[sto:sto+16])
out+=dat
sto+=16
remln-=16
return bytes(out)
def process_V5683(st):
#1f5af733423e5104afb9d5594e682ecf839a776257f33747c9beee671c57ab3f84943f69d8fd
ws=workspace([0x7c,0x36,0x5c,0x1a,0x0d,0x10,0x0a,0x50,0x07,0x0f,0x75,0x1f,0x09,0x3b,0x0d,0x72])
repl=[0,5,10,15,4,9,14,3,8,13,2,7,12,1,6,11]
remln=len(st)
sto=0
out=[]
while(remln>0):
ws.sbox(d0x6a0d4e80,d0x6a0dab50,[])
ws.shuffle(repl)
ws.sbox(d0x6a0cfe80,d0x6a0dab50,[])
ws.sbox(d0x6a0d4e80,d0x6a0dab50,[])
ws.sbox(d0x6a0cfe80,d0x6a0dab50,[])
ws.sbox(d0x6a0d4e80,d0x6a0dab50,[])
ws.shuffle(repl)
ws.sbox(d0x6a0cfe80,d0x6a0dab50,[])
ws.shuffle(repl)
ws.exlookup(d0x6a0d3e80)
dat=ws.mask(st[sto:sto+16])
out+=dat
sto+=16
remln-=16
return bytes(out)
# def a2hex(arr):
# ax=[]
# ha="0123456789abcdef"
# for a in arr:
# if a<0: a=256+a
# ax.append(ha[(a>>4)]+ha[a%16])
# return "".join(ax)
#
# def memhex(adr,sz):
# emu=EmulatorHelper(currentProgram)
# arr=emu.readMemory(getAddress(adr),sz)
# return a2hex(arr)
#
# obfuscate shared secret according to the VoucherEnvelope version
def obfuscate(secret, version):
if version == 1: # v1 does not use obfuscation
return secret
2021-01-21 15:46:03 +01:00
magic, word = OBFUSCATION_TABLE["V%d" % version]
# extend secret so that its length is divisible by the magic number
if len(secret) % magic != 0:
secret = secret + b'\x00' * (magic - len(secret) % magic)
secret = bytearray(secret)
obfuscated = bytearray(len(secret))
wordhash = bytearray(hashlib.sha256(word).digest())
# shuffle secret and xor it with the first half of the word hash
for i in range(0, len(secret)):
index = i // (len(secret) // magic) + magic * (i % (len(secret) // magic))
obfuscated[index] = secret[i] ^ wordhash[index % 16]
return obfuscated
# scramble() and obfuscate2() from https://github.com/andrewc12/DeDRM_tools/commit/d9233d61f00d4484235863969919059f4d0b2057
def scramble(st,magic):
ret=bytearray(len(st))
padlen=len(st)
for counter in range(len(st)):
ivar2=(padlen//2)-2*(counter%magic)+magic+counter-1
ret[ivar2%padlen]=st[counter]
return ret
def obfuscate2(secret, version):
if version == 1: # v1 does not use obfuscation
return secret
magic, word = OBFUSCATION_TABLE["V%d" % version]
# extend secret so that its length is divisible by the magic number
if len(secret) % magic != 0:
secret = secret + b'\x00' * (magic - len(secret) % magic)
obfuscated = bytearray(len(secret))
wordhash = bytearray(hashlib.sha256(word).digest()[16:])
#print(wordhash.hex())
shuffled = bytearray(scramble(secret,magic))
for i in range(0, len(secret)):
obfuscated[i] = shuffled[i] ^ wordhash[i % 16]
return obfuscated
# scramble3() and obfuscate3() from https://github.com/Satsuoni/DeDRM_tools/commit/da6b6a0c911b6d45fe1b13042b690daebc1cc22f
def scramble3(st,magic):
ret=bytearray(len(st))
padlen=len(st)
divs = padlen // magic
cntr = 0
iVar6 = 0
offset = 0
if (0 < ((magic - 1) + divs)):
while True:
if (offset & 1) == 0 :
uVar4 = divs - 1
if offset < divs:
iVar3 = 0
uVar4 = offset
else:
iVar3 = (offset - divs) + 1
if uVar4>=0:
iVar5 = uVar4 * magic
index = ((padlen - 1) - cntr)
while True:
if (magic <= iVar3): break
ret[index] = st[iVar3 + iVar5]
iVar3 = iVar3 + 1
cntr = cntr + 1
uVar4 = uVar4 - 1
iVar5 = iVar5 - magic
index -= 1
if uVar4<=-1: break
else:
if (offset < magic):
iVar3 = 0
else :
iVar3 = (offset - magic) + 1
if (iVar3 < divs):
uVar4 = offset
if (magic <= offset):
uVar4 = magic - 1
index = ((padlen - 1) - cntr)
iVar5 = iVar3 * magic
while True:
if (uVar4 < 0) : break
iVar3 += 1
ret[index] = st[uVar4 + iVar5]
uVar4 -= 1
index=index-1
iVar5 = iVar5 + magic;
cntr += 1;
if iVar3>=divs: break
offset = offset + 1
if offset >= ((magic - 1) + divs) :break
return ret
#not sure if the third variant is used anywhere, but it is in Kindle, so I tried to add it
def obfuscate3(secret, version):
if version == 1: # v1 does not use obfuscation
return secret
magic, word = OBFUSCATION_TABLE["V%d" % version]
# extend secret so that its length is divisible by the magic number
if len(secret) % magic != 0:
secret = secret + b'\x00' * (magic - len(secret) % magic)
#secret = bytearray(secret)
obfuscated = bytearray(len(secret))
wordhash = bytearray(hashlib.sha256(word).digest())
#print(wordhash.hex())
shuffled=bytearray(scramble3(secret,magic))
#print(shuffled)
# shuffle secret and xor it with the first half of the word hash
for i in range(0, len(secret)):
obfuscated[i] = shuffled[i] ^ wordhash[i % 16]
return obfuscated
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class DrmIonVoucher(object):
envelope = None
version = None
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voucher = None
drmkey = None
license_type = "Unknown"
encalgorithm = ""
enctransformation = ""
hashalgorithm = ""
lockparams = None
ciphertext = b""
cipheriv = b""
secretkey = b""
def __init__(self, voucherenv, dsn, secret):
self.dsn, self.secret = dsn, secret
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if isinstance(dsn, str):
self.dsn = dsn.encode('ASCII')
if isinstance(secret, str):
self.secret = secret.encode('ASCII')
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self.lockparams = []
self.envelope = BinaryIonParser(voucherenv)
addprottable(self.envelope)
def decryptvoucher(self):
shared = ("PIDv3" + self.encalgorithm + self.enctransformation + self.hashalgorithm).encode('ASCII')
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self.lockparams.sort()
for param in self.lockparams:
if param == "ACCOUNT_SECRET":
shared += param.encode('ASCII') + self.secret
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elif param == "CLIENT_ID":
shared += param.encode('ASCII') + self.dsn
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else:
_assert(False, "Unknown lock parameter: %s" % param)
# i know that version maps to scramble pretty much 1 to 1, but there was precendent where they changed it, so...
sharedsecrets = [obfuscate(shared, self.version),obfuscate2(shared, self.version),obfuscate3(shared, self.version),
process_V9708(shared), process_V1031(shared), process_V2069(shared), process_V9041(shared),
process_V3646(shared), process_V6052(shared), process_V9479(shared), process_V9888(shared),
process_V4648(shared), process_V5683(shared)]
decrypted=False
ex=None
for sharedsecret in sharedsecrets:
key = hmac.new(sharedsecret, b"PIDv3", digestmod=hashlib.sha256).digest()
aes = AES.new(key[:32], AES.MODE_CBC, self.cipheriv[:16])
try:
b = aes.decrypt(self.ciphertext)
b = pkcs7unpad(b, 16)
self.drmkey = BinaryIonParser(BytesIO(b))
addprottable(self.drmkey)
_assert(self.drmkey.hasnext() and self.drmkey.next() == TID_LIST and self.drmkey.gettypename() == "com.amazon.drm.KeySet@1.0",
"Expected KeySet, got %s" % self.drmkey.gettypename())
decrypted=True
print("Decryption succeeded")
break
except Exception as ex:
print("Decryption failed, trying next fallback ")
if not decrypted:
raise ex
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self.drmkey.stepin()
while self.drmkey.hasnext():
self.drmkey.next()
if self.drmkey.gettypename() != "com.amazon.drm.SecretKey@1.0":
continue
self.drmkey.stepin()
while self.drmkey.hasnext():
self.drmkey.next()
if self.drmkey.getfieldname() == "algorithm":
_assert(self.drmkey.stringvalue() == "AES", "Unknown cipher algorithm: %s" % self.drmkey.stringvalue())
elif self.drmkey.getfieldname() == "format":
_assert(self.drmkey.stringvalue() == "RAW", "Unknown key format: %s" % self.drmkey.stringvalue())
elif self.drmkey.getfieldname() == "encoded":
self.secretkey = self.drmkey.lobvalue()
self.drmkey.stepout()
break
self.drmkey.stepout()
def parse(self):
self.envelope.reset()
_assert(self.envelope.hasnext(), "Envelope is empty")
_assert(self.envelope.next() == TID_STRUCT and str.startswith(self.envelope.gettypename(), "com.amazon.drm.VoucherEnvelope@"),
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"Unknown type encountered in envelope, expected VoucherEnvelope")
self.version = int(self.envelope.gettypename().split('@')[1][:-2])
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self.envelope.stepin()
while self.envelope.hasnext():
self.envelope.next()
field = self.envelope.getfieldname()
if field == "voucher":
self.voucher = BinaryIonParser(BytesIO(self.envelope.lobvalue()))
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addprottable(self.voucher)
continue
elif field != "strategy":
continue
_assert(self.envelope.gettypename() == "com.amazon.drm.PIDv3@1.0", "Unknown strategy: %s" % self.envelope.gettypename())
self.envelope.stepin()
while self.envelope.hasnext():
self.envelope.next()
field = self.envelope.getfieldname()
if field == "encryption_algorithm":
self.encalgorithm = self.envelope.stringvalue()
elif field == "encryption_transformation":
self.enctransformation = self.envelope.stringvalue()
elif field == "hashing_algorithm":
self.hashalgorithm = self.envelope.stringvalue()
elif field == "lock_parameters":
self.envelope.stepin()
while self.envelope.hasnext():
_assert(self.envelope.next() == TID_STRING, "Expected string list for lock_parameters")
self.lockparams.append(self.envelope.stringvalue())
self.envelope.stepout()
self.envelope.stepout()
self.parsevoucher()
def parsevoucher(self):
_assert(self.voucher.hasnext(), "Voucher is empty")
_assert(self.voucher.next() == TID_STRUCT and self.voucher.gettypename() == "com.amazon.drm.Voucher@1.0",
"Unknown type, expected Voucher")
self.voucher.stepin()
while self.voucher.hasnext():
self.voucher.next()
if self.voucher.getfieldname() == "cipher_iv":
self.cipheriv = self.voucher.lobvalue()
elif self.voucher.getfieldname() == "cipher_text":
self.ciphertext = self.voucher.lobvalue()
elif self.voucher.getfieldname() == "license":
_assert(self.voucher.gettypename() == "com.amazon.drm.License@1.0",
"Unknown license: %s" % self.voucher.gettypename())
self.voucher.stepin()
while self.voucher.hasnext():
self.voucher.next()
if self.voucher.getfieldname() == "license_type":
self.license_type = self.voucher.stringvalue()
self.voucher.stepout()
def printenvelope(self, lst):
self.envelope.print_(lst)
def printkey(self, lst):
if self.voucher is None:
self.parse()
if self.drmkey is None:
self.decryptvoucher()
self.drmkey.print_(lst)
def printvoucher(self, lst):
if self.voucher is None:
self.parse()
self.voucher.print_(lst)
def getlicensetype(self):
return self.license_type
class DrmIon(object):
ion = None
voucher = None
vouchername = ""
key = b""
onvoucherrequired = None
def __init__(self, ionstream, onvoucherrequired):
self.ion = BinaryIonParser(ionstream)
addprottable(self.ion)
self.onvoucherrequired = onvoucherrequired
def parse(self, outpages):
self.ion.reset()
_assert(self.ion.hasnext(), "DRMION envelope is empty")
_assert(self.ion.next() == TID_SYMBOL and self.ion.gettypename() == "doctype", "Expected doctype symbol")
_assert(self.ion.next() == TID_LIST and self.ion.gettypename() in ["com.amazon.drm.Envelope@1.0", "com.amazon.drm.Envelope@2.0"],
"Unknown type encountered in DRMION envelope, expected Envelope, got %s" % self.ion.gettypename())
while True:
if self.ion.gettypename() == "enddoc":
break
self.ion.stepin()
while self.ion.hasnext():
self.ion.next()
if self.ion.gettypename() in ["com.amazon.drm.EnvelopeMetadata@1.0", "com.amazon.drm.EnvelopeMetadata@2.0"]:
self.ion.stepin()
while self.ion.hasnext():
self.ion.next()
if self.ion.getfieldname() != "encryption_voucher":
continue
if self.vouchername == "":
self.vouchername = self.ion.stringvalue()
self.voucher = self.onvoucherrequired(self.vouchername)
self.key = self.voucher.secretkey
_assert(self.key is not None, "Unable to obtain secret key from voucher")
else:
_assert(self.vouchername == self.ion.stringvalue(),
"Unexpected: Different vouchers required for same file?")
self.ion.stepout()
elif self.ion.gettypename() in ["com.amazon.drm.EncryptedPage@1.0", "com.amazon.drm.EncryptedPage@2.0"]:
decompress = False
decrypt = True
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ct = None
civ = None
self.ion.stepin()
while self.ion.hasnext():
self.ion.next()
if self.ion.gettypename() == "com.amazon.drm.Compressed@1.0":
decompress = True
if self.ion.getfieldname() == "cipher_text":
ct = self.ion.lobvalue()
elif self.ion.getfieldname() == "cipher_iv":
civ = self.ion.lobvalue()
if ct is not None and civ is not None:
self.processpage(ct, civ, outpages, decompress, decrypt)
self.ion.stepout()
elif self.ion.gettypename() in ["com.amazon.drm.PlainText@1.0", "com.amazon.drm.PlainText@2.0"]:
decompress = False
decrypt = False
plaintext = None
self.ion.stepin()
while self.ion.hasnext():
self.ion.next()
if self.ion.gettypename() == "com.amazon.drm.Compressed@1.0":
decompress = True
if self.ion.getfieldname() == "data":
plaintext = self.ion.lobvalue()
if plaintext is not None:
self.processpage(plaintext, None, outpages, decompress, decrypt)
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self.ion.stepout()
self.ion.stepout()
if not self.ion.hasnext():
break
self.ion.next()
def print_(self, lst):
self.ion.print_(lst)
def processpage(self, ct, civ, outpages, decompress, decrypt):
if decrypt:
aes = AES.new(self.key[:16], AES.MODE_CBC, civ[:16])
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msg = pkcs7unpad(aes.decrypt(ct), 16)
else:
msg = ct
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if not decompress:
outpages.write(msg)
return
_assert(msg[0] == 0, "LZMA UseFilter not supported")
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if calibre_lzma is not None:
with calibre_lzma.decompress(msg[1:], bufsize=0x1000000) as f:
f.seek(0)
outpages.write(f.read())
return
decomp = lzma.LZMADecompressor(format=lzma.FORMAT_ALONE)
while not decomp.eof:
segment = decomp.decompress(msg[1:])
msg = b"" # Contents were internally buffered after the first call
outpages.write(segment)