openmedialibrary_platform/Darwin/lib/python2.7/site-packages/PIL/OleFileIO.py

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2013-10-11 17:28:32 +00:00
#
# THIS IS WORK IN PROGRESS
#
# The Python Imaging Library
# $Id$
#
# stuff to deal with OLE2 Structured Storage files. this module is
# used by PIL to read Image Composer and FlashPix files, but can also
# be used to read other files of this type.
#
# History:
# 1997-01-20 fl Created
# 1997-01-22 fl Fixed 64-bit portability quirk
# 2003-09-09 fl Fixed typo in OleFileIO.loadfat (noted by Daniel Haertle)
# 2004-02-29 fl Changed long hex constants to signed integers
#
# Notes:
# FIXME: sort out sign problem (eliminate long hex constants)
# FIXME: change filename to use "a/b/c" instead of ["a", "b", "c"]
# FIXME: provide a glob mechanism function (using fnmatchcase)
#
# Literature:
#
# "FlashPix Format Specification, Appendix A", Kodak and Microsoft,
# September 1996.
#
# Quotes:
#
# "If this document and functionality of the Software conflict,
# the actual functionality of the Software represents the correct
# functionality" -- Microsoft, in the OLE format specification
#
# Copyright (c) Secret Labs AB 1997.
# Copyright (c) Fredrik Lundh 1997.
#
# See the README file for information on usage and redistribution.
#
import string, StringIO
def i16(c, o = 0):
return ord(c[o])+(ord(c[o+1])<<8)
def i32(c, o = 0):
return ord(c[o])+(ord(c[o+1])<<8)+(ord(c[o+2])<<16)+(ord(c[o+3])<<24)
MAGIC = '\320\317\021\340\241\261\032\341'
#
# --------------------------------------------------------------------
# property types
VT_EMPTY=0; VT_NULL=1; VT_I2=2; VT_I4=3; VT_R4=4; VT_R8=5; VT_CY=6;
VT_DATE=7; VT_BSTR=8; VT_DISPATCH=9; VT_ERROR=10; VT_BOOL=11;
VT_VARIANT=12; VT_UNKNOWN=13; VT_DECIMAL=14; VT_I1=16; VT_UI1=17;
VT_UI2=18; VT_UI4=19; VT_I8=20; VT_UI8=21; VT_INT=22; VT_UINT=23;
VT_VOID=24; VT_HRESULT=25; VT_PTR=26; VT_SAFEARRAY=27; VT_CARRAY=28;
VT_USERDEFINED=29; VT_LPSTR=30; VT_LPWSTR=31; VT_FILETIME=64;
VT_BLOB=65; VT_STREAM=66; VT_STORAGE=67; VT_STREAMED_OBJECT=68;
VT_STORED_OBJECT=69; VT_BLOB_OBJECT=70; VT_CF=71; VT_CLSID=72;
VT_VECTOR=0x1000;
# map property id to name (for debugging purposes)
VT = {}
for k, v in vars().items():
if k[:3] == "VT_":
VT[v] = k
#
# --------------------------------------------------------------------
# Some common document types (root.clsid fields)
WORD_CLSID = "00020900-0000-0000-C000-000000000046"
#
# --------------------------------------------------------------------
class _OleStream(StringIO.StringIO):
"""OLE2 Stream
Returns a read-only file object which can be used to read
the contents of a OLE stream. To open a stream, use the
openstream method in the OleFile class.
This function can be used with either ordinary streams,
or ministreams, depending on the offset, sectorsize, and
fat table arguments.
"""
# FIXME: should store the list of sects obtained by following
# the fat chain, and load new sectors on demand instead of
# loading it all in one go.
def __init__(self, fp, sect, size, offset, sectorsize, fat):
data = []
while sect != -2: # 0xFFFFFFFEL:
fp.seek(offset + sectorsize * sect)
data.append(fp.read(sectorsize))
sect = fat[sect]
data = string.join(data, "")
# print len(data), size
StringIO.StringIO.__init__(self, data[:size])
#
# --------------------------------------------------------------------
# FIXME: should add a counter in here to avoid looping forever
# if the tree is broken.
class _OleDirectoryEntry:
"""OLE2 Directory Entry
Encapsulates a stream directory entry. Note that the
constructor builds a tree of all subentries, so we only
have to call it with the root object.
"""
def __init__(self, sidlist, sid):
# store directory parameters. the caller provides
# a complete list of directory entries, as read from
# the directory stream.
name, type, sect, size, sids, clsid = sidlist[sid]
self.sid = sid
self.name = name
self.type = type # 1=storage 2=stream
self.sect = sect
self.size = size
self.clsid = clsid
# process child nodes, if any
self.kids = []
sid = sidlist[sid][4][2]
if sid != -1:
# the directory entries are organized as a red-black tree.
# the following piece of code does an ordered traversal of
# such a tree (at least that's what I hope ;-)
stack = [self.sid]
# start at leftmost position
left, right, child = sidlist[sid][4]
while left != -1: # 0xFFFFFFFFL:
stack.append(sid)
sid = left
left, right, child = sidlist[sid][4]
while sid != self.sid:
self.kids.append(_OleDirectoryEntry(sidlist, sid))
# try to move right
left, right, child = sidlist[sid][4]
if right != -1: # 0xFFFFFFFFL:
# and then back to the left
sid = right
while 1:
left, right, child = sidlist[sid][4]
if left == -1: # 0xFFFFFFFFL:
break
stack.append(sid)
sid = left
else:
# couldn't move right; move up instead
while 1:
ptr = stack[-1]
del stack[-1]
left, right, child = sidlist[ptr][4]
if right != sid:
break
sid = right
left, right, child = sidlist[sid][4]
if right != ptr:
sid = ptr
# in the OLE file, entries are sorted on (length, name).
# for convenience, we sort them on name instead.
self.kids.sort()
def __cmp__(self, other):
"Compare entries by name"
return cmp(self.name, other.name)
def dump(self, tab = 0):
"Dump this entry, and all its subentries (for debug purposes only)"
TYPES = ["(invalid)", "(storage)", "(stream)", "(lockbytes)",
"(property)", "(root)"]
print " "*tab + repr(self.name), TYPES[self.type],
if self.type in (2, 5):
print self.size, "bytes",
print
if self.type in (1, 5) and self.clsid:
print " "*tab + "{%s}" % self.clsid
for kid in self.kids:
kid.dump(tab + 2)
#
# --------------------------------------------------------------------
##
# This class encapsulates the interface to an OLE 2 structured
# storage file. Use the {@link listdir} and {@link openstream}
# methods to access the contents of this file.
class OleFileIO:
"""OLE container object
This class encapsulates the interface to an OLE 2 structured
storage file. Use the listdir and openstream methods to access
the contents of this file.
Object names are given as a list of strings, one for each subentry
level. The root entry should be omitted. For example, the following
code extracts all image streams from a Microsoft Image Composer file:
ole = OleFileIO("fan.mic")
for entry in ole.listdir():
if entry[1:2] == "Image":
fin = ole.openstream(entry)
fout = open(entry[0:1], "wb")
while 1:
s = fin.read(8192)
if not s:
break
fout.write(s)
You can use the viewer application provided with the Python Imaging
Library to view the resulting files (which happens to be standard
TIFF files).
"""
def __init__(self, filename = None):
if filename:
self.open(filename)
##
# Open an OLE2 file.
def open(self, filename):
"""Open an OLE2 file"""
if type(filename) == type(""):
self.fp = open(filename, "rb")
else:
self.fp = filename
header = self.fp.read(512)
if len(header) != 512 or header[:8] != MAGIC:
raise IOError, "not an OLE2 structured storage file"
# file clsid (probably never used, so we don't store it)
clsid = self._clsid(header[8:24])
# FIXME: could check version and byte order fields
self.sectorsize = 1 << i16(header, 30)
self.minisectorsize = 1 << i16(header, 32)
self.minisectorcutoff = i32(header, 56)
# Load file allocation tables
self.loadfat(header)
# Load direcory. This sets both the sidlist (ordered by id)
# and the root (ordered by hierarchy) members.
self.loaddirectory(i32(header, 48))
self.ministream = None
self.minifatsect = i32(header, 60)
def loadfat(self, header):
# Load the FAT table. The header contains a sector numbers
# for the first 109 FAT sectors. Additional sectors are
# described by DIF blocks (FIXME: not yet implemented)
sect = header[76:512]
fat = []
for i in range(0, len(sect), 4):
ix = i32(sect, i)
if ix == -2 or ix == -1: # ix == 0xFFFFFFFEL or ix == 0xFFFFFFFFL:
break
s = self.getsect(ix)
fat = fat + map(lambda i, s=s: i32(s, i), range(0, len(s), 4))
self.fat = fat
def loadminifat(self):
# Load the MINIFAT table. This is stored in a standard sub-
# stream, pointed to by a header field.
s = self._open(self.minifatsect).read()
self.minifat = map(lambda i, s=s: i32(s, i), range(0, len(s), 4))
def getsect(self, sect):
# Read given sector
self.fp.seek(512 + self.sectorsize * sect)
return self.fp.read(self.sectorsize)
def _unicode(self, s):
# Map unicode string to Latin 1
# FIXME: some day, Python will provide an official way to handle
# Unicode strings, but until then, this will have to do...
return filter(ord, s)
def loaddirectory(self, sect):
# Load the directory. The directory is stored in a standard
# substream, independent of its size.
# read directory stream
fp = self._open(sect)
# create list of sid entries
self.sidlist = []
while 1:
entry = fp.read(128)
if not entry:
break
type = ord(entry[66])
name = self._unicode(entry[0:0+i16(entry, 64)])
ptrs = i32(entry, 68), i32(entry, 72), i32(entry, 76)
sect, size = i32(entry, 116), i32(entry, 120)
clsid = self._clsid(entry[80:96])
self.sidlist.append((name, type, sect, size, ptrs, clsid))
# create hierarchical list of directory entries
self.root = _OleDirectoryEntry(self.sidlist, 0)
def dumpdirectory(self):
# Dump directory (for debugging only)
self.root.dump()
def _clsid(self, clsid):
if clsid == "\0" * len(clsid):
return ""
return (("%08X-%04X-%04X-%02X%02X-" + "%02X" * 6) %
((i32(clsid, 0), i16(clsid, 4), i16(clsid, 6)) +
tuple(map(ord, clsid[8:16]))))
def _list(self, files, prefix, node):
# listdir helper
prefix = prefix + [node.name]
for entry in node.kids:
if entry.kids:
self._list(files, prefix, entry)
else:
files.append(prefix[1:] + [entry.name])
def _find(self, filename):
# openstream helper
node = self.root
for name in filename:
for kid in node.kids:
if kid.name == name:
break
else:
raise IOError, "file not found"
node = kid
return node.sid
def _open(self, start, size = 0x7FFFFFFF):
# openstream helper.
if size < self.minisectorcutoff:
# ministream object
if not self.ministream:
self.loadminifat()
self.ministream = self._open(self.sidlist[0][2])
return _OleStream(self.ministream, start, size, 0,
self.minisectorsize, self.minifat)
# standard stream
return _OleStream(self.fp, start, size, 512,
self.sectorsize, self.fat)
##
# Returns a list of streams stored in this file.
def listdir(self):
"""Return a list of streams stored in this file"""
files = []
self._list(files, [], self.root)
return files
##
# Opens a stream as a read-only file object.
def openstream(self, filename):
"""Open a stream as a read-only file object"""
slot = self._find(filename)
name, type, sect, size, sids, clsid = self.sidlist[slot]
if type != 2:
raise IOError, "this file is not a stream"
return self._open(sect, size)
##
# Gets a list of properties described in substream.
def getproperties(self, filename):
"""Return properties described in substream"""
fp = self.openstream(filename)
data = {}
# header
s = fp.read(28)
clsid = self._clsid(s[8:24])
# format id
s = fp.read(20)
fmtid = self._clsid(s[:16])
fp.seek(i32(s, 16))
# get section
s = "****" + fp.read(i32(fp.read(4))-4)
for i in range(i32(s, 4)):
id = i32(s, 8+i*8)
offset = i32(s, 12+i*8)
type = i32(s, offset)
# test for common types first (should perhaps use
# a dictionary instead?)
if type == VT_I2:
value = i16(s, offset+4)
if value >= 32768:
value = value - 65536
elif type == VT_UI2:
value = i16(s, offset+4)
elif type in (VT_I4, VT_ERROR):
value = i32(s, offset+4)
elif type == VT_UI4:
value = i32(s, offset+4) # FIXME
elif type in (VT_BSTR, VT_LPSTR):
count = i32(s, offset+4)
value = s[offset+8:offset+8+count-1]
elif type == VT_BLOB:
count = i32(s, offset+4)
value = s[offset+8:offset+8+count]
elif type == VT_LPWSTR:
count = i32(s, offset+4)
value = self._unicode(s[offset+8:offset+8+count*2])
elif type == VT_FILETIME:
value = long(i32(s, offset+4)) + (long(i32(s, offset+8))<<32)
# FIXME: this is a 64-bit int: "number of 100ns periods
# since Jan 1,1601". Should map this to Python time
value = value / 10000000L # seconds
elif type == VT_UI1:
value = ord(s[offset+4])
elif type == VT_CLSID:
value = self._clsid(s[offset+4:offset+20])
elif type == VT_CF:
count = i32(s, offset+4)
value = s[offset+8:offset+8+count]
else:
value = None # everything else yields "None"
# FIXME: add support for VT_VECTOR
#print "%08x" % id, repr(value),
#print "(%s)" % VT[i32(s, offset) & 0xFFF]
data[id] = value
return data
#
# --------------------------------------------------------------------
# This script can be used to dump the directory of any OLE2 structured
# storage file.
if __name__ == "__main__":
import sys
for file in sys.argv[1:]:
try:
ole = OleFileIO(file)
print "-" * 68
print file
print "-" * 68
ole.dumpdirectory()
for file in ole.listdir():
if file[-1][0] == "\005":
print file
props = ole.getproperties(file)
props = props.items()
props.sort()
for k, v in props:
print " ", k, v
except IOError, v:
print "***", "cannot read", file, "-", v