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https://github.com/SickGear/SickGear.git
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e56303798c
Initial SickGear for Python 3.
388 lines
14 KiB
Python
388 lines
14 KiB
Python
"""
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Microsoft Office documents parser.
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OLE2 files are also used by many other programs to store data.
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Informations:
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* wordole.c of AntiWord program (v0.35)
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Copyright (C) 1998-2003 A.J. van Os
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Released under GNU GPL
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http://www.winfield.demon.nl/
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* File gsf-infile-msole.c of libgsf library (v1.14.0)
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Copyright (C) 2002-2004 Jody Goldberg (jody@gnome.org)
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Released under GNU LGPL 2.1
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http://freshmeat.net/projects/libgsf/
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* PDF from AAF Association
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Copyright (C) 2004 AAF Association
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Copyright (C) 1991-2003 Microsoft Corporation
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http://www.aafassociation.org/html/specs/aafcontainerspec-v1.0.1.pdf
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Author: Victor Stinner
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Creation: 2006-04-23
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"""
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from hachoir.parser import HachoirParser
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from hachoir.field import (
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FieldSet, ParserError, SeekableFieldSet, RootSeekableFieldSet,
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UInt8, UInt16, UInt32, UInt64, TimestampWin64, Enum,
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Bytes, NullBytes, String, CustomFragment)
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from hachoir.core.text_handler import filesizeHandler
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from hachoir.core.endian import LITTLE_ENDIAN
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from hachoir.parser.common.win32 import GUID
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from hachoir.parser.misc.msoffice import PROPERTY_NAME, RootEntry, RawParser
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MIN_BIG_BLOCK_LOG2 = 6 # 512 bytes
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MAX_BIG_BLOCK_LOG2 = 14 # 64 kB
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# Number of items in DIFAT
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NB_DIFAT = 109
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class SECT(UInt32):
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UNUSED = 0xFFFFFFFF # -1
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END_OF_CHAIN = 0xFFFFFFFE # -2
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BFAT_SECTOR = 0xFFFFFFFD # -3
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DIFAT_SECTOR = 0xFFFFFFFC # -4
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SPECIALS = set((END_OF_CHAIN, UNUSED, BFAT_SECTOR, DIFAT_SECTOR))
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special_value_name = {
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UNUSED: "unused",
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END_OF_CHAIN: "end of a chain",
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BFAT_SECTOR: "BFAT sector (in a FAT)",
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DIFAT_SECTOR: "DIFAT sector (in a FAT)",
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}
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def __init__(self, parent, name, description=None):
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UInt32.__init__(self, parent, name, description)
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def createDisplay(self):
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val = self.value
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return SECT.special_value_name.get(val, str(val))
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class Property(FieldSet):
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TYPE_ROOT = 5
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TYPE_NAME = {
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1: "storage",
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2: "stream",
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3: "ILockBytes",
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4: "IPropertyStorage",
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5: "root"
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}
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DECORATOR_NAME = {
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0: "red",
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1: "black",
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}
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static_size = 128 * 8
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def createFields(self):
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bytes = self.stream.readBytes(self.absolute_address, 4)
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if bytes == b"\0R\0\0":
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charset = "UTF-16-BE"
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else:
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charset = "UTF-16-LE"
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yield String(self, "name", 64, charset=charset, truncate="\0")
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yield UInt16(self, "namelen", "Length of the name")
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yield Enum(UInt8(self, "type", "Property type"), self.TYPE_NAME)
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yield Enum(UInt8(self, "decorator", "Decorator"), self.DECORATOR_NAME)
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yield SECT(self, "left")
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yield SECT(self, "right")
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yield SECT(self, "child", "Child node (valid for storage and root types)")
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yield GUID(self, "clsid", "CLSID of this storage (valid for storage and root types)")
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yield NullBytes(self, "flags", 4, "User flags")
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yield TimestampWin64(self, "creation", "Creation timestamp(valid for storage and root types)")
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yield TimestampWin64(self, "lastmod", "Modify timestamp (valid for storage and root types)")
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yield SECT(self, "start", "Starting SECT of the stream (valid for stream and root types)")
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if self["/header/bb_shift"].value == 9:
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yield filesizeHandler(UInt32(self, "size", "Size in bytes (valid for stream and root types)"))
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yield NullBytes(self, "padding", 4)
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else:
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yield filesizeHandler(UInt64(self, "size", "Size in bytes (valid for stream and root types)"))
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def createDescription(self):
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name = self["name"].display
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size = self["size"].display
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return "Property: %s (%s)" % (name, size)
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class DIFat(SeekableFieldSet):
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def __init__(self, parent, name, db_start, db_count, description=None):
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SeekableFieldSet.__init__(self, parent, name, description)
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self.start = db_start
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self.count = db_count
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def createFields(self):
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for index in range(NB_DIFAT):
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yield SECT(self, "index[%u]" % index)
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difat_sect = self.start
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index = NB_DIFAT
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entries_per_sect = self.parent.sector_size // 32 - 1
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for ctr in range(self.count):
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# this is relative to real DIFAT start
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self.seekBit(NB_DIFAT * SECT.static_size +
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self.parent.sector_size * difat_sect)
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for sect_index in range(entries_per_sect):
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yield SECT(self, "index[%u]" % (index + sect_index))
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index += entries_per_sect
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next = SECT(self, "difat[%u]" % ctr)
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yield next
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difat_sect = next.value
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class Header(FieldSet):
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static_size = 68 * 8
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def createFields(self):
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yield GUID(self, "clsid", "16 bytes GUID used by some apps")
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yield UInt16(self, "ver_min", "Minor version")
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yield UInt16(self, "ver_maj", "Major version")
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yield Bytes(self, "endian", 2, "Endian (\\xfe\\xff for little endian)")
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yield UInt16(self, "bb_shift", "Log, base 2, of the big block size")
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yield UInt16(self, "sb_shift", "Log, base 2, of the small block size")
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yield NullBytes(self, "reserved[]", 6, "(reserved)")
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yield UInt32(self, "csectdir", "Number of SECTs in directory chain for 4 KB sectors (version 4)")
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yield UInt32(self, "bb_count", "Number of Big Block Depot blocks")
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yield SECT(self, "bb_start", "Root start block")
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yield NullBytes(self, "transaction", 4, "Signature used for transactions (must be zero)")
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yield UInt32(self, "threshold", "Maximum size for a mini stream (typically 4096 bytes)")
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yield SECT(self, "sb_start", "Small Block Depot start block")
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yield UInt32(self, "sb_count")
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yield SECT(self, "db_start", "First block of DIFAT")
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yield UInt32(self, "db_count", "Number of SECTs in DIFAT")
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# Header (ole_id, header, difat) size in bytes
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HEADER_SIZE = 64 + Header.static_size + NB_DIFAT * SECT.static_size
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class SectFat(FieldSet):
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def __init__(self, parent, name, start, count, description=None):
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FieldSet.__init__(self, parent, name, description, size=count * 32)
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self.count = count
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self.start = start
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def createFields(self):
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for i in range(self.start, self.start + self.count):
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yield SECT(self, "index[%u]" % i)
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class OLE2_File(HachoirParser, RootSeekableFieldSet):
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PARSER_TAGS = {
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"id": "ole2",
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"category": "misc",
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"file_ext": (
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"db", # Thumbs.db
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"doc", "dot", # Microsoft Word
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"ppt", "ppz", "pps", "pot", # Microsoft Powerpoint
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"xls", "xla", # Microsoft Excel
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"msi", # Windows installer
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),
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"mime": (
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"application/msword",
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"application/msexcel",
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"application/mspowerpoint",
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),
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"min_size": 512 * 8,
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"description": "Microsoft Office document",
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"magic": ((b"\xD0\xCF\x11\xE0\xA1\xB1\x1A\xE1", 0),),
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}
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endian = LITTLE_ENDIAN
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def __init__(self, stream, **args):
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RootSeekableFieldSet.__init__(
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self, None, "root", stream, None, stream.askSize(self))
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HachoirParser.__init__(self, stream, **args)
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def close(self):
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self.stream.close()
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def __enter__(self):
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return self
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def __exit__(self, type, value, traceback):
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self.close()
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def validate(self):
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if self["ole_id"].value != b"\xD0\xCF\x11\xE0\xA1\xB1\x1A\xE1":
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return "Invalid magic"
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if self["header/ver_maj"].value not in (3, 4):
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return "Unknown major version (%s)" % self["header/ver_maj"].value
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if self["header/endian"].value not in (b"\xFF\xFE", b"\xFE\xFF"):
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return "Unknown endian (%s)" % self["header/endian"].raw_display
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if not(MIN_BIG_BLOCK_LOG2 <= self["header/bb_shift"].value <= MAX_BIG_BLOCK_LOG2):
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return "Invalid (log 2 of) big block size (%s)" % self["header/bb_shift"].value
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if self["header/bb_shift"].value < self["header/sb_shift"].value:
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return "Small block size (log2=%s) is bigger than big block size (log2=%s)!" \
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% (self["header/sb_shift"].value, self["header/bb_shift"].value)
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return True
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def createFields(self):
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# Signature
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yield Bytes(self, "ole_id", 8, "OLE object signature")
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header = Header(self, "header")
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yield header
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# Configure values
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self.sector_size = (8 << header["bb_shift"].value)
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self.fat_count = header["bb_count"].value
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self.items_per_bbfat = self.sector_size // SECT.static_size
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self.ss_size = (8 << header["sb_shift"].value)
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self.items_per_ssfat = self.items_per_bbfat
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# Read DIFAT (one level of indirection)
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yield DIFat(self, "difat", header["db_start"].value, header["db_count"].value, "Double Indirection FAT")
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# Read FAT (one level of indirection)
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yield from self.readBFAT()
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# Read SFAT
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yield from self.readSFAT()
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# Read properties
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chain = self.getChain(self["header/bb_start"].value)
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prop_per_sector = self.sector_size // Property.static_size
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self.properties = []
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for block in chain:
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self.seekBlock(block)
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for index in range(prop_per_sector):
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property = Property(self, "property[]")
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yield property
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self.properties.append(property)
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# Parse first property
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for index, property in enumerate(self.properties):
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if index == 0:
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name, parser = 'root', RootEntry
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else:
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try:
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name, parser = PROPERTY_NAME[property["name"].value]
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except LookupError:
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name = property.name + "content"
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parser = RawParser
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yield from self.parseProperty(property, name, parser)
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def parseProperty(self, property, name_prefix, parser=RawParser):
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if not property["size"].value:
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return
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if property["size"].value < self["header/threshold"].value and name_prefix != 'root':
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return
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name = "%s[]" % name_prefix
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first = None
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previous = None
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size = 0
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fragment_group = None
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chain = self.getChain(property["start"].value)
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while True:
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try:
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block = next(chain)
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contiguous = False
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if first is None:
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first = block
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contiguous = True
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if previous is not None and block == (previous + 1):
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contiguous = True
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if contiguous:
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previous = block
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size += self.sector_size
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continue
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except StopIteration:
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block = None
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if first is None:
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break
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self.seekBlock(first)
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desc = "Big blocks %s..%s (%s)" % (
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first, previous, previous - first + 1)
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desc += " of %s bytes" % (self.sector_size // 8)
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field = CustomFragment(
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self, name, size, parser, desc, fragment_group)
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if not fragment_group:
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fragment_group = field.group
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fragment_group.args["ole2"] = field.root
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fragment_group.args["datasize"] = property["size"].value
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fragment_group.args["ole2name"] = property["name"].value
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yield field
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if block is None:
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break
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first = block
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previous = block
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size = self.sector_size
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def getChain(self, start, use_sfat=False):
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if use_sfat:
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fat = self.ss_fat
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items_per_fat = self.items_per_ssfat
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err_prefix = "SFAT chain"
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else:
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fat = self.bb_fat
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items_per_fat = self.items_per_bbfat
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err_prefix = "BFAT chain"
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block = start
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block_set = set()
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previous = block
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while block != SECT.END_OF_CHAIN:
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if block in SECT.SPECIALS:
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raise ParserError("%s: Invalid block index (0x%08x), previous=%s" % (
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err_prefix, block, previous))
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if block in block_set:
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raise ParserError("%s: Found a loop (%s=>%s)" %
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(err_prefix, previous, block))
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block_set.add(block)
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yield block
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previous = block
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index = block // items_per_fat
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try:
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block = fat[index]["index[%u]" % block].value
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except LookupError:
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break
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def readBFAT(self):
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self.bb_fat = []
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start = 0
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count = self.items_per_bbfat
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for index, block in enumerate(self.array("difat/index")):
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block = block.value
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if block == SECT.UNUSED:
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break
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desc = "FAT %u/%u at block %u" % \
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(1 + index, self["header/bb_count"].value, block)
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self.seekBlock(block)
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field = SectFat(self, "bbfat[]", start, count, desc)
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yield field
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self.bb_fat.append(field)
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start += count
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def readSFAT(self):
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chain = self.getChain(self["header/sb_start"].value)
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start = 0
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self.ss_fat = []
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count = self.items_per_ssfat
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for index, block in enumerate(chain):
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self.seekBlock(block)
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field = SectFat(self, "sfat[]",
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start, count,
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"SFAT %u/%u at block %u" %
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(1 + index, self["header/sb_count"].value, block))
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yield field
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self.ss_fat.append(field)
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start += count
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def createContentSize(self):
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max_block = 0
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for fat in self.array("bbfat"):
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for entry in fat:
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block = entry.value
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if block not in SECT.SPECIALS:
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max_block = max(block, max_block)
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if max_block in SECT.SPECIALS:
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return None
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else:
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return HEADER_SIZE + (max_block + 1) * self.sector_size
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def seekBlock(self, block):
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self.seekBit(HEADER_SIZE + block * self.sector_size)
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