/usr/lib/python2.7/dist-packages/xlrd/compdoc.py is in python-xlrd 1.0.0-1.
This file is owned by root:root, with mode 0o644.
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##
# Implements the minimal functionality required
# to extract a "Workbook" or "Book" stream (as one big string)
# from an OLE2 Compound Document file.
# <p>Copyright � 2005-2012 Stephen John Machin, Lingfo Pty Ltd</p>
# <p>This module is part of the xlrd package, which is released under a BSD-style licence.</p>
##
# No part of the content of this file was derived from the works of David Giffin.
# 2008-11-04 SJM Avoid assertion error when -1 used instead of -2 for first_SID of empty SCSS [Frank Hoffsuemmer]
# 2007-09-08 SJM Warning message if sector sizes are extremely large.
# 2007-05-07 SJM Meaningful exception instead of IndexError if a SAT (sector allocation table) is corrupted.
# 2007-04-22 SJM Missing "<" in a struct.unpack call => can't open files on bigendian platforms.
from __future__ import print_function
import sys
from struct import unpack
from .timemachine import *
import array
##
# Magic cookie that should appear in the first 8 bytes of the file.
SIGNATURE = b"\xD0\xCF\x11\xE0\xA1\xB1\x1A\xE1"
EOCSID = -2
FREESID = -1
SATSID = -3
MSATSID = -4
EVILSID = -5
class CompDocError(Exception):
pass
class DirNode(object):
def __init__(self, DID, dent, DEBUG=0, logfile=sys.stdout):
# dent is the 128-byte directory entry
self.DID = DID
self.logfile = logfile
(cbufsize, self.etype, self.colour, self.left_DID, self.right_DID,
self.root_DID) = \
unpack('<HBBiii', dent[64:80])
(self.first_SID, self.tot_size) = \
unpack('<ii', dent[116:124])
if cbufsize == 0:
self.name = UNICODE_LITERAL('')
else:
self.name = unicode(dent[0:cbufsize-2], 'utf_16_le') # omit the trailing U+0000
self.children = [] # filled in later
self.parent = -1 # indicates orphan; fixed up later
self.tsinfo = unpack('<IIII', dent[100:116])
if DEBUG:
self.dump(DEBUG)
def dump(self, DEBUG=1):
fprintf(
self.logfile,
"DID=%d name=%r etype=%d DIDs(left=%d right=%d root=%d parent=%d kids=%r) first_SID=%d tot_size=%d\n",
self.DID, self.name, self.etype, self.left_DID,
self.right_DID, self.root_DID, self.parent, self.children, self.first_SID, self.tot_size
)
if DEBUG == 2:
# cre_lo, cre_hi, mod_lo, mod_hi = tsinfo
print("timestamp info", self.tsinfo, file=self.logfile)
def _build_family_tree(dirlist, parent_DID, child_DID):
if child_DID < 0: return
_build_family_tree(dirlist, parent_DID, dirlist[child_DID].left_DID)
dirlist[parent_DID].children.append(child_DID)
dirlist[child_DID].parent = parent_DID
_build_family_tree(dirlist, parent_DID, dirlist[child_DID].right_DID)
if dirlist[child_DID].etype == 1: # storage
_build_family_tree(dirlist, child_DID, dirlist[child_DID].root_DID)
##
# Compound document handler.
# @param mem The raw contents of the file, as a string, or as an mmap.mmap() object. The
# only operation it needs to support is slicing.
class CompDoc(object):
def __init__(self, mem, logfile=sys.stdout, DEBUG=0):
self.logfile = logfile
self.DEBUG = DEBUG
if mem[0:8] != SIGNATURE:
raise CompDocError('Not an OLE2 compound document')
if mem[28:30] != b'\xFE\xFF':
raise CompDocError('Expected "little-endian" marker, found %r' % mem[28:30])
revision, version = unpack('<HH', mem[24:28])
if DEBUG:
print("\nCompDoc format: version=0x%04x revision=0x%04x" % (version, revision), file=logfile)
self.mem = mem
ssz, sssz = unpack('<HH', mem[30:34])
if ssz > 20: # allows for 2**20 bytes i.e. 1MB
print("WARNING: sector size (2**%d) is preposterous; assuming 512 and continuing ..." \
% ssz, file=logfile)
ssz = 9
if sssz > ssz:
print("WARNING: short stream sector size (2**%d) is preposterous; assuming 64 and continuing ..." \
% sssz, file=logfile)
sssz = 6
self.sec_size = sec_size = 1 << ssz
self.short_sec_size = 1 << sssz
if self.sec_size != 512 or self.short_sec_size != 64:
print("@@@@ sec_size=%d short_sec_size=%d" % (self.sec_size, self.short_sec_size), file=logfile)
(
SAT_tot_secs, self.dir_first_sec_sid, _unused, self.min_size_std_stream,
SSAT_first_sec_sid, SSAT_tot_secs,
MSATX_first_sec_sid, MSATX_tot_secs,
# ) = unpack('<ii4xiiiii', mem[44:76])
) = unpack('<iiiiiiii', mem[44:76])
mem_data_len = len(mem) - 512
mem_data_secs, left_over = divmod(mem_data_len, sec_size)
if left_over:
#### raise CompDocError("Not a whole number of sectors")
mem_data_secs += 1
print("WARNING *** file size (%d) not 512 + multiple of sector size (%d)" \
% (len(mem), sec_size), file=logfile)
self.mem_data_secs = mem_data_secs # use for checking later
self.mem_data_len = mem_data_len
seen = self.seen = array.array('B', [0]) * mem_data_secs
if DEBUG:
print('sec sizes', ssz, sssz, sec_size, self.short_sec_size, file=logfile)
print("mem data: %d bytes == %d sectors" % (mem_data_len, mem_data_secs), file=logfile)
print("SAT_tot_secs=%d, dir_first_sec_sid=%d, min_size_std_stream=%d" \
% (SAT_tot_secs, self.dir_first_sec_sid, self.min_size_std_stream,), file=logfile)
print("SSAT_first_sec_sid=%d, SSAT_tot_secs=%d" % (SSAT_first_sec_sid, SSAT_tot_secs,), file=logfile)
print("MSATX_first_sec_sid=%d, MSATX_tot_secs=%d" % (MSATX_first_sec_sid, MSATX_tot_secs,), file=logfile)
nent = sec_size // 4 # number of SID entries in a sector
fmt = "<%di" % nent
trunc_warned = 0
#
# === build the MSAT ===
#
MSAT = list(unpack('<109i', mem[76:512]))
SAT_sectors_reqd = (mem_data_secs + nent - 1) // nent
expected_MSATX_sectors = max(0, (SAT_sectors_reqd - 109 + nent - 2) // (nent - 1))
actual_MSATX_sectors = 0
if MSATX_tot_secs == 0 and MSATX_first_sec_sid in (EOCSID, FREESID, 0):
# Strictly, if there is no MSAT extension, then MSATX_first_sec_sid
# should be set to EOCSID ... FREESID and 0 have been met in the wild.
pass # Presuming no extension
else:
sid = MSATX_first_sec_sid
while sid not in (EOCSID, FREESID, MSATSID):
# Above should be only EOCSID according to MS & OOo docs
# but Excel doesn't complain about FREESID. Zero is a valid
# sector number, not a sentinel.
if DEBUG > 1:
print('MSATX: sid=%d (0x%08X)' % (sid, sid), file=logfile)
if sid >= mem_data_secs:
msg = "MSAT extension: accessing sector %d but only %d in file" % (sid, mem_data_secs)
if DEBUG > 1:
print(msg, file=logfile)
break
raise CompDocError(msg)
elif sid < 0:
raise CompDocError("MSAT extension: invalid sector id: %d" % sid)
if seen[sid]:
raise CompDocError("MSAT corruption: seen[%d] == %d" % (sid, seen[sid]))
seen[sid] = 1
actual_MSATX_sectors += 1
if DEBUG and actual_MSATX_sectors > expected_MSATX_sectors:
print("[1]===>>>", mem_data_secs, nent, SAT_sectors_reqd, expected_MSATX_sectors, actual_MSATX_sectors, file=logfile)
offset = 512 + sec_size * sid
MSAT.extend(unpack(fmt, mem[offset:offset+sec_size]))
sid = MSAT.pop() # last sector id is sid of next sector in the chain
if DEBUG and actual_MSATX_sectors != expected_MSATX_sectors:
print("[2]===>>>", mem_data_secs, nent, SAT_sectors_reqd, expected_MSATX_sectors, actual_MSATX_sectors, file=logfile)
if DEBUG:
print("MSAT: len =", len(MSAT), file=logfile)
dump_list(MSAT, 10, logfile)
#
# === build the SAT ===
#
self.SAT = []
actual_SAT_sectors = 0
dump_again = 0
for msidx in xrange(len(MSAT)):
msid = MSAT[msidx]
if msid in (FREESID, EOCSID):
# Specification: the MSAT array may be padded with trailing FREESID entries.
# Toleration: a FREESID or EOCSID entry anywhere in the MSAT array will be ignored.
continue
if msid >= mem_data_secs:
if not trunc_warned:
print("WARNING *** File is truncated, or OLE2 MSAT is corrupt!!", file=logfile)
print("INFO: Trying to access sector %d but only %d available" \
% (msid, mem_data_secs), file=logfile)
trunc_warned = 1
MSAT[msidx] = EVILSID
dump_again = 1
continue
elif msid < -2:
raise CompDocError("MSAT: invalid sector id: %d" % msid)
if seen[msid]:
raise CompDocError("MSAT extension corruption: seen[%d] == %d" % (msid, seen[msid]))
seen[msid] = 2
actual_SAT_sectors += 1
if DEBUG and actual_SAT_sectors > SAT_sectors_reqd:
print("[3]===>>>", mem_data_secs, nent, SAT_sectors_reqd, expected_MSATX_sectors, actual_MSATX_sectors, actual_SAT_sectors, msid, file=logfile)
offset = 512 + sec_size * msid
self.SAT.extend(unpack(fmt, mem[offset:offset+sec_size]))
if DEBUG:
print("SAT: len =", len(self.SAT), file=logfile)
dump_list(self.SAT, 10, logfile)
# print >> logfile, "SAT ",
# for i, s in enumerate(self.SAT):
# print >> logfile, "entry: %4d offset: %6d, next entry: %4d" % (i, 512 + sec_size * i, s)
# print >> logfile, "%d:%d " % (i, s),
print(file=logfile)
if DEBUG and dump_again:
print("MSAT: len =", len(MSAT), file=logfile)
dump_list(MSAT, 10, logfile)
for satx in xrange(mem_data_secs, len(self.SAT)):
self.SAT[satx] = EVILSID
print("SAT: len =", len(self.SAT), file=logfile)
dump_list(self.SAT, 10, logfile)
#
# === build the directory ===
#
dbytes = self._get_stream(
self.mem, 512, self.SAT, self.sec_size, self.dir_first_sec_sid,
name="directory", seen_id=3)
dirlist = []
did = -1
for pos in xrange(0, len(dbytes), 128):
did += 1
dirlist.append(DirNode(did, dbytes[pos:pos+128], 0, logfile))
self.dirlist = dirlist
_build_family_tree(dirlist, 0, dirlist[0].root_DID) # and stand well back ...
if DEBUG:
for d in dirlist:
d.dump(DEBUG)
#
# === get the SSCS ===
#
sscs_dir = self.dirlist[0]
assert sscs_dir.etype == 5 # root entry
if sscs_dir.first_SID < 0 or sscs_dir.tot_size == 0:
# Problem reported by Frank Hoffsuemmer: some software was
# writing -1 instead of -2 (EOCSID) for the first_SID
# when the SCCS was empty. Not having EOCSID caused assertion
# failure in _get_stream.
# Solution: avoid calling _get_stream in any case when the
# SCSS appears to be empty.
self.SSCS = ""
else:
self.SSCS = self._get_stream(
self.mem, 512, self.SAT, sec_size, sscs_dir.first_SID,
sscs_dir.tot_size, name="SSCS", seen_id=4)
# if DEBUG: print >> logfile, "SSCS", repr(self.SSCS)
#
# === build the SSAT ===
#
self.SSAT = []
if SSAT_tot_secs > 0 and sscs_dir.tot_size == 0:
print("WARNING *** OLE2 inconsistency: SSCS size is 0 but SSAT size is non-zero", file=logfile)
if sscs_dir.tot_size > 0:
sid = SSAT_first_sec_sid
nsecs = SSAT_tot_secs
while sid >= 0 and nsecs > 0:
if seen[sid]:
raise CompDocError("SSAT corruption: seen[%d] == %d" % (sid, seen[sid]))
seen[sid] = 5
nsecs -= 1
start_pos = 512 + sid * sec_size
news = list(unpack(fmt, mem[start_pos:start_pos+sec_size]))
self.SSAT.extend(news)
sid = self.SAT[sid]
if DEBUG: print("SSAT last sid %d; remaining sectors %d" % (sid, nsecs), file=logfile)
assert nsecs == 0 and sid == EOCSID
if DEBUG:
print("SSAT", file=logfile)
dump_list(self.SSAT, 10, logfile)
if DEBUG:
print("seen", file=logfile)
dump_list(seen, 20, logfile)
def _get_stream(self, mem, base, sat, sec_size, start_sid, size=None, name='', seen_id=None):
# print >> self.logfile, "_get_stream", base, sec_size, start_sid, size
sectors = []
s = start_sid
if size is None:
# nothing to check against
while s >= 0:
if seen_id is not None:
if self.seen[s]:
raise CompDocError("%s corruption: seen[%d] == %d" % (name, s, self.seen[s]))
self.seen[s] = seen_id
start_pos = base + s * sec_size
sectors.append(mem[start_pos:start_pos+sec_size])
try:
s = sat[s]
except IndexError:
raise CompDocError(
"OLE2 stream %r: sector allocation table invalid entry (%d)" %
(name, s)
)
assert s == EOCSID
else:
todo = size
while s >= 0:
if seen_id is not None:
if self.seen[s]:
raise CompDocError("%s corruption: seen[%d] == %d" % (name, s, self.seen[s]))
self.seen[s] = seen_id
start_pos = base + s * sec_size
grab = sec_size
if grab > todo:
grab = todo
todo -= grab
sectors.append(mem[start_pos:start_pos+grab])
try:
s = sat[s]
except IndexError:
raise CompDocError(
"OLE2 stream %r: sector allocation table invalid entry (%d)" %
(name, s)
)
assert s == EOCSID
if todo != 0:
fprintf(self.logfile,
"WARNING *** OLE2 stream %r: expected size %d, actual size %d\n",
name, size, size - todo)
return b''.join(sectors)
def _dir_search(self, path, storage_DID=0):
# Return matching DirNode instance, or None
head = path[0]
tail = path[1:]
dl = self.dirlist
for child in dl[storage_DID].children:
if dl[child].name.lower() == head.lower():
et = dl[child].etype
if et == 2:
return dl[child]
if et == 1:
if not tail:
raise CompDocError("Requested component is a 'storage'")
return self._dir_search(tail, child)
dl[child].dump(1)
raise CompDocError("Requested stream is not a 'user stream'")
return None
##
# Interrogate the compound document's directory; return the stream as a string if found, otherwise
# return None.
# @param qname Name of the desired stream e.g. u'Workbook'. Should be in Unicode or convertible thereto.
def get_named_stream(self, qname):
d = self._dir_search(qname.split("/"))
if d is None:
return None
if d.tot_size >= self.min_size_std_stream:
return self._get_stream(
self.mem, 512, self.SAT, self.sec_size, d.first_SID,
d.tot_size, name=qname, seen_id=d.DID+6)
else:
return self._get_stream(
self.SSCS, 0, self.SSAT, self.short_sec_size, d.first_SID,
d.tot_size, name=qname + " (from SSCS)", seen_id=None)
##
# Interrogate the compound document's directory.
# If the named stream is not found, (None, 0, 0) will be returned.
# If the named stream is found and is contiguous within the original byte sequence ("mem")
# used when the document was opened,
# then (mem, offset_to_start_of_stream, length_of_stream) is returned.
# Otherwise a new string is built from the fragments and (new_string, 0, length_of_stream) is returned.
# @param qname Name of the desired stream e.g. u'Workbook'. Should be in Unicode or convertible thereto.
def locate_named_stream(self, qname):
d = self._dir_search(qname.split("/"))
if d is None:
return (None, 0, 0)
if d.tot_size > self.mem_data_len:
raise CompDocError("%r stream length (%d bytes) > file data size (%d bytes)"
% (qname, d.tot_size, self.mem_data_len))
if d.tot_size >= self.min_size_std_stream:
result = self._locate_stream(
self.mem, 512, self.SAT, self.sec_size, d.first_SID,
d.tot_size, qname, d.DID+6)
if self.DEBUG:
print("\nseen", file=self.logfile)
dump_list(self.seen, 20, self.logfile)
return result
else:
return (
self._get_stream(
self.SSCS, 0, self.SSAT, self.short_sec_size, d.first_SID,
d.tot_size, qname + " (from SSCS)", None),
0,
d.tot_size
)
def _locate_stream(self, mem, base, sat, sec_size, start_sid, expected_stream_size, qname, seen_id):
# print >> self.logfile, "_locate_stream", base, sec_size, start_sid, expected_stream_size
s = start_sid
if s < 0:
raise CompDocError("_locate_stream: start_sid (%d) is -ve" % start_sid)
p = -99 # dummy previous SID
start_pos = -9999
end_pos = -8888
slices = []
tot_found = 0
found_limit = (expected_stream_size + sec_size - 1) // sec_size
while s >= 0:
if self.seen[s]:
print("_locate_stream(%s): seen" % qname, file=self.logfile); dump_list(self.seen, 20, self.logfile)
raise CompDocError("%s corruption: seen[%d] == %d" % (qname, s, self.seen[s]))
self.seen[s] = seen_id
tot_found += 1
if tot_found > found_limit:
raise CompDocError(
"%s: size exceeds expected %d bytes; corrupt?"
% (qname, found_limit * sec_size)
) # Note: expected size rounded up to higher sector
if s == p+1:
# contiguous sectors
end_pos += sec_size
else:
# start new slice
if p >= 0:
# not first time
slices.append((start_pos, end_pos))
start_pos = base + s * sec_size
end_pos = start_pos + sec_size
p = s
s = sat[s]
assert s == EOCSID
assert tot_found == found_limit
# print >> self.logfile, "_locate_stream(%s): seen" % qname; dump_list(self.seen, 20, self.logfile)
if not slices:
# The stream is contiguous ... just what we like!
return (mem, start_pos, expected_stream_size)
slices.append((start_pos, end_pos))
# print >> self.logfile, "+++>>> %d fragments" % len(slices)
return (b''.join([mem[start_pos:end_pos] for start_pos, end_pos in slices]), 0, expected_stream_size)
# ==========================================================================================
def x_dump_line(alist, stride, f, dpos, equal=0):
print("%5d%s" % (dpos, " ="[equal]), end=' ', file=f)
for value in alist[dpos:dpos + stride]:
print(str(value), end=' ', file=f)
print(file=f)
def dump_list(alist, stride, f=sys.stdout):
def _dump_line(dpos, equal=0):
print("%5d%s" % (dpos, " ="[equal]), end=' ', file=f)
for value in alist[dpos:dpos + stride]:
print(str(value), end=' ', file=f)
print(file=f)
pos = None
oldpos = None
for pos in xrange(0, len(alist), stride):
if oldpos is None:
_dump_line(pos)
oldpos = pos
elif alist[pos:pos+stride] != alist[oldpos:oldpos+stride]:
if pos - oldpos > stride:
_dump_line(pos - stride, equal=1)
_dump_line(pos)
oldpos = pos
if oldpos is not None and pos is not None and pos != oldpos:
_dump_line(pos, equal=1)
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