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|
"""biplist -- a library for reading and writing binary property list files.
Binary Property List (plist) files provide a faster and smaller serialization
format for property lists on OS X. This is a library for generating binary
plists which can be read by OS X, iOS, or other clients.
The API models the plistlib API, and will call through to plistlib when
XML serialization or deserialization is required.
To generate plists with UID values, wrap the values with the Uid object. The
value must be an int.
To generate plists with NSData/CFData values, wrap the values with the
Data object. The value must be a string.
Date values can only be datetime.datetime objects.
The exceptions InvalidPlistException and NotBinaryPlistException may be
thrown to indicate that the data cannot be serialized or deserialized as
a binary plist.
Plist generation example:
from biplist import *
from datetime import datetime
plist = {'aKey':'aValue',
'0':1.322,
'now':datetime.now(),
'list':[1,2,3],
'tuple':('a','b','c')
}
try:
writePlist(plist, "example.plist")
except (InvalidPlistException, NotBinaryPlistException), e:
print "Something bad happened:", e
Plist parsing example:
from biplist import *
try:
plist = readPlist("example.plist")
print plist
except (InvalidPlistException, NotBinaryPlistException), e:
print "Not a plist:", e
"""
from collections import namedtuple
import datetime
import io
import math
import plistlib
from struct import pack, unpack, unpack_from
from struct import error as struct_error
import sys
import time
try:
unicode
unicodeEmpty = r''
except NameError:
unicode = str
unicodeEmpty = ''
try:
long
except NameError:
long = int
try:
{}.iteritems
iteritems = lambda x: x.iteritems()
except AttributeError:
iteritems = lambda x: x.items()
__all__ = [
'Uid', 'Data', 'readPlist', 'writePlist', 'readPlistFromString',
'writePlistToString', 'InvalidPlistException', 'NotBinaryPlistException'
]
# Apple uses Jan 1, 2001 as a base for all plist date/times.
apple_reference_date = datetime.datetime.utcfromtimestamp(978307200)
class Uid(object):
"""Wrapper around integers for representing UID values. This
is used in keyed archiving."""
integer = 0
def __init__(self, integer):
self.integer = integer
def __repr__(self):
return "Uid(%d)" % self.integer
def __eq__(self, other):
if isinstance(self, Uid) and isinstance(other, Uid):
return self.integer == other.integer
return False
def __cmp__(self, other):
return self.integer - other.integer
def __lt__(self, other):
return self.integer < other.integer
def __hash__(self):
return self.integer
def __int__(self):
return int(self.integer)
class Data(bytes):
"""Wrapper around bytes to distinguish Data values."""
class InvalidPlistException(Exception):
"""Raised when the plist is incorrectly formatted."""
class NotBinaryPlistException(Exception):
"""Raised when a binary plist was expected but not encountered."""
def readPlist(pathOrFile):
"""Raises NotBinaryPlistException, InvalidPlistException"""
didOpen = False
result = None
if isinstance(pathOrFile, (bytes, unicode)):
pathOrFile = open(pathOrFile, 'rb')
didOpen = True
try:
reader = PlistReader(pathOrFile)
result = reader.parse()
except NotBinaryPlistException as e:
try:
pathOrFile.seek(0)
result = None
if hasattr(plistlib, 'loads'):
contents = None
if isinstance(pathOrFile, (bytes, unicode)):
with open(pathOrFile, 'rb') as f:
contents = f.read()
else:
contents = pathOrFile.read()
result = plistlib.loads(contents)
else:
result = plistlib.readPlist(pathOrFile)
result = wrapDataObject(result, for_binary=True)
except Exception as e:
raise InvalidPlistException(e)
finally:
if didOpen:
pathOrFile.close()
return result
def wrapDataObject(o, for_binary=False):
if isinstance(o, Data) and not for_binary:
v = sys.version_info
if not (v[0] >= 3 and v[1] >= 4):
o = plistlib.Data(o)
elif isinstance(o, (bytes, plistlib.Data)) and for_binary:
if hasattr(o, 'data'):
o = Data(o.data)
elif isinstance(o, tuple):
o = wrapDataObject(list(o), for_binary)
o = tuple(o)
elif isinstance(o, list):
for i in range(len(o)):
o[i] = wrapDataObject(o[i], for_binary)
elif isinstance(o, dict):
for k in o:
o[k] = wrapDataObject(o[k], for_binary)
return o
def writePlist(rootObject, pathOrFile, binary=True):
if not binary:
rootObject = wrapDataObject(rootObject, binary)
if hasattr(plistlib, "dump"):
if isinstance(pathOrFile, (bytes, unicode)):
with open(pathOrFile, 'wb') as f:
return plistlib.dump(rootObject, f)
else:
return plistlib.dump(rootObject, pathOrFile)
else:
return plistlib.writePlist(rootObject, pathOrFile)
else:
didOpen = False
if isinstance(pathOrFile, (bytes, unicode)):
pathOrFile = open(pathOrFile, 'wb')
didOpen = True
writer = PlistWriter(pathOrFile)
result = writer.writeRoot(rootObject)
if didOpen:
pathOrFile.close()
return result
def readPlistFromString(data):
return readPlist(io.BytesIO(data))
def writePlistToString(rootObject, binary=True):
if not binary:
rootObject = wrapDataObject(rootObject, binary)
if hasattr(plistlib, "dumps"):
return plistlib.dumps(rootObject)
elif hasattr(plistlib, "writePlistToBytes"):
return plistlib.writePlistToBytes(rootObject)
else:
return plistlib.writePlistToString(rootObject)
else:
ioObject = io.BytesIO()
writer = PlistWriter(ioObject)
writer.writeRoot(rootObject)
return ioObject.getvalue()
def is_stream_binary_plist(stream):
stream.seek(0)
header = stream.read(7)
if header == b'bplist0':
return True
else:
return False
PlistTrailer = namedtuple('PlistTrailer', 'offsetSize, objectRefSize, offsetCount, topLevelObjectNumber, offsetTableOffset')
PlistByteCounts = namedtuple('PlistByteCounts', 'nullBytes, boolBytes, intBytes, realBytes, dateBytes, dataBytes, stringBytes, uidBytes, arrayBytes, setBytes, dictBytes')
class PlistReader(object):
file = None
contents = ''
offsets = None
trailer = None
currentOffset = 0
# Used to detect recursive object references.
offsetsStack = []
def __init__(self, fileOrStream):
"""Raises NotBinaryPlistException."""
self.reset()
self.file = fileOrStream
def parse(self):
return self.readRoot()
def reset(self):
self.trailer = None
self.contents = ''
self.offsets = []
self.currentOffset = 0
self.offsetsStack = []
def readRoot(self):
result = None
self.reset()
# Get the header, make sure it's a valid file.
if not is_stream_binary_plist(self.file):
raise NotBinaryPlistException()
self.file.seek(0)
self.contents = self.file.read()
if len(self.contents) < 32:
raise InvalidPlistException("File is too short.")
trailerContents = self.contents[-32:]
try:
self.trailer = PlistTrailer._make(unpack("!xxxxxxBBQQQ", trailerContents))
if pow(2, self.trailer.offsetSize*8) < self.trailer.offsetTableOffset:
raise InvalidPlistException("Offset size insufficient to reference all objects.")
if pow(2, self.trailer.objectRefSize*8) < self.trailer.offsetCount:
raise InvalidPlistException("Too many offsets to represent in size of object reference representation.")
offset_size = self.trailer.offsetSize * self.trailer.offsetCount
offset = self.trailer.offsetTableOffset
if offset + offset_size > pow(2, 64):
raise InvalidPlistException("Offset table is excessively long.")
if self.trailer.offsetSize > 16:
raise InvalidPlistException("Offset size is greater than maximum integer size.")
if self.trailer.objectRefSize == 0:
raise InvalidPlistException("Object reference size is zero.")
if offset >= len(self.contents) - 32:
raise InvalidPlistException("Offset table offset is too large.")
if offset < len("bplist00x"):
raise InvalidPlistException("Offset table offset is too small.")
if self.trailer.topLevelObjectNumber >= self.trailer.offsetCount:
raise InvalidPlistException("Top level object number is larger than the number of objects.")
offset_contents = self.contents[offset:offset+offset_size]
offset_i = 0
offset_table_length = len(offset_contents)
while offset_i < self.trailer.offsetCount:
begin = self.trailer.offsetSize*offset_i
end = begin+self.trailer.offsetSize
if end > offset_table_length:
raise InvalidPlistException("End of object is at invalid offset %d in offset table of length %d" % (end, offset_table_length))
tmp_contents = offset_contents[begin:end]
tmp_sized = self.getSizedInteger(tmp_contents, self.trailer.offsetSize)
self.offsets.append(tmp_sized)
offset_i += 1
self.setCurrentOffsetToObjectNumber(self.trailer.topLevelObjectNumber)
result = self.readObject()
except TypeError as e:
raise InvalidPlistException(e)
return result
def setCurrentOffsetToObjectNumber(self, objectNumber):
if objectNumber > len(self.offsets) - 1:
raise InvalidPlistException("Invalid offset number: %d" % objectNumber)
self.currentOffset = self.offsets[objectNumber]
if self.currentOffset in self.offsetsStack:
raise InvalidPlistException("Recursive data structure detected in object: %d" % objectNumber)
def beginOffsetProtection(self):
self.offsetsStack.append(self.currentOffset)
return self.currentOffset
def endOffsetProtection(self, offset):
try:
index = self.offsetsStack.index(offset)
self.offsetsStack = self.offsetsStack[:index]
except ValueError as e:
pass
def readObject(self):
protection = self.beginOffsetProtection()
result = None
tmp_byte = self.contents[self.currentOffset:self.currentOffset+1]
if len(tmp_byte) != 1:
raise InvalidPlistException("No object found at offset: %d" % self.currentOffset)
marker_byte = unpack("!B", tmp_byte)[0]
format = (marker_byte >> 4) & 0x0f
extra = marker_byte & 0x0f
self.currentOffset += 1
def proc_extra(extra):
if extra == 0b1111:
extra = self.readObject()
return extra
# bool, null, or fill byte
if format == 0b0000:
if extra == 0b0000:
result = None
elif extra == 0b1000:
result = False
elif extra == 0b1001:
result = True
elif extra == 0b1111:
pass # fill byte
else:
raise InvalidPlistException("Invalid object found at offset: %d" % (self.currentOffset - 1))
# int
elif format == 0b0001:
result = self.readInteger(pow(2, extra))
# real
elif format == 0b0010:
result = self.readReal(extra)
# date
elif format == 0b0011 and extra == 0b0011:
result = self.readDate()
# data
elif format == 0b0100:
extra = proc_extra(extra)
result = self.readData(extra)
# ascii string
elif format == 0b0101:
extra = proc_extra(extra)
result = self.readAsciiString(extra)
# Unicode string
elif format == 0b0110:
extra = proc_extra(extra)
result = self.readUnicode(extra)
# uid
elif format == 0b1000:
result = self.readUid(extra)
# array
elif format == 0b1010:
extra = proc_extra(extra)
result = self.readArray(extra)
# set
elif format == 0b1100:
extra = proc_extra(extra)
result = set(self.readArray(extra))
# dict
elif format == 0b1101:
extra = proc_extra(extra)
result = self.readDict(extra)
else:
raise InvalidPlistException("Invalid object found: {format: %s, extra: %s}" % (bin(format), bin(extra)))
self.endOffsetProtection(protection)
return result
def readContents(self, length, description="Object contents"):
end = self.currentOffset + length
if end >= len(self.contents) - 32:
raise InvalidPlistException("%s extends into trailer" % description)
elif length < 0:
raise InvalidPlistException("%s length is less than zero" % length)
data = self.contents[self.currentOffset:end]
return data
def readInteger(self, byteSize):
data = self.readContents(byteSize, "Integer")
self.currentOffset = self.currentOffset + byteSize
return self.getSizedInteger(data, byteSize, as_number=True)
def readReal(self, length):
to_read = pow(2, length)
data = self.readContents(to_read, "Real")
if length == 2: # 4 bytes
result = unpack('>f', data)[0]
elif length == 3: # 8 bytes
result = unpack('>d', data)[0]
else:
raise InvalidPlistException("Unknown Real of length %d bytes" % to_read)
return result
def readRefs(self, count):
refs = []
i = 0
while i < count:
fragment = self.readContents(self.trailer.objectRefSize, "Object reference")
ref = self.getSizedInteger(fragment, len(fragment))
refs.append(ref)
self.currentOffset += self.trailer.objectRefSize
i += 1
return refs
def readArray(self, count):
if not isinstance(count, (int, long)):
raise InvalidPlistException("Count of entries in dict isn't of integer type.")
result = []
values = self.readRefs(count)
i = 0
while i < len(values):
self.setCurrentOffsetToObjectNumber(values[i])
value = self.readObject()
result.append(value)
i += 1
return result
def readDict(self, count):
if not isinstance(count, (int, long)):
raise InvalidPlistException("Count of keys/values in dict isn't of integer type.")
result = {}
keys = self.readRefs(count)
values = self.readRefs(count)
i = 0
while i < len(keys):
self.setCurrentOffsetToObjectNumber(keys[i])
key = self.readObject()
self.setCurrentOffsetToObjectNumber(values[i])
value = self.readObject()
result[key] = value
i += 1
return result
def readAsciiString(self, length):
if not isinstance(length, (int, long)):
raise InvalidPlistException("Length of ASCII string isn't of integer type.")
data = self.readContents(length, "ASCII string")
result = unpack("!%ds" % length, data)[0]
self.currentOffset += length
return str(result.decode('ascii'))
def readUnicode(self, length):
if not isinstance(length, (int, long)):
raise InvalidPlistException("Length of Unicode string isn't of integer type.")
actual_length = length*2
data = self.readContents(actual_length, "Unicode string")
self.currentOffset += actual_length
return data.decode('utf_16_be')
def readDate(self):
data = self.readContents(8, "Date")
x = unpack(">d", data)[0]
if math.isnan(x):
raise InvalidPlistException("Date is NaN")
# Use timedelta to workaround time_t size limitation on 32-bit python.
try:
result = datetime.timedelta(seconds=x) + apple_reference_date
except OverflowError:
if x > 0:
result = datetime.datetime.max
else:
result = datetime.datetime.min
self.currentOffset += 8
return result
def readData(self, length):
if not isinstance(length, (int, long)):
raise InvalidPlistException("Length of data isn't of integer type.")
result = self.readContents(length, "Data")
self.currentOffset += length
return Data(result)
def readUid(self, length):
if not isinstance(length, (int, long)):
raise InvalidPlistException("Uid length isn't of integer type.")
return Uid(self.readInteger(length+1))
def getSizedInteger(self, data, byteSize, as_number=False):
"""Numbers of 8 bytes are signed integers when they refer to numbers, but unsigned otherwise."""
result = 0
if byteSize == 0:
raise InvalidPlistException("Encountered integer with byte size of 0.")
# 1, 2, and 4 byte integers are unsigned
elif byteSize == 1:
result = unpack('>B', data)[0]
elif byteSize == 2:
result = unpack('>H', data)[0]
elif byteSize == 4:
result = unpack('>L', data)[0]
elif byteSize == 8:
if as_number:
result = unpack('>q', data)[0]
else:
result = unpack('>Q', data)[0]
elif byteSize <= 16:
# Handle odd-sized or integers larger than 8 bytes
# Don't naively go over 16 bytes, in order to prevent infinite loops.
result = 0
if hasattr(int, 'from_bytes'):
result = int.from_bytes(data, 'big')
else:
for byte in data:
if not isinstance(byte, int): # Python3.0-3.1.x return ints, 2.x return str
byte = unpack_from('>B', byte)[0]
result = (result << 8) | byte
else:
raise InvalidPlistException("Encountered integer longer than 16 bytes.")
return result
class HashableWrapper(object):
def __init__(self, value):
self.value = value
def __repr__(self):
return "<HashableWrapper: %s>" % [self.value]
class BoolWrapper(object):
def __init__(self, value):
self.value = value
def __repr__(self):
return "<BoolWrapper: %s>" % self.value
class FloatWrapper(object):
_instances = {}
def __new__(klass, value):
# Ensure FloatWrapper(x) for a given float x is always the same object
wrapper = klass._instances.get(value)
if wrapper is None:
wrapper = object.__new__(klass)
wrapper.value = value
klass._instances[value] = wrapper
return wrapper
def __repr__(self):
return "<FloatWrapper: %s>" % self.value
class StringWrapper(object):
__instances = {}
encodedValue = None
encoding = None
def __new__(cls, value):
'''Ensure we only have a only one instance for any string,
and that we encode ascii as 1-byte-per character when possible'''
encodedValue = None
for encoding in ('ascii', 'utf_16_be'):
try:
encodedValue = value.encode(encoding)
except: pass
if encodedValue is not None:
if encodedValue not in cls.__instances:
cls.__instances[encodedValue] = super(StringWrapper, cls).__new__(cls)
cls.__instances[encodedValue].encodedValue = encodedValue
cls.__instances[encodedValue].encoding = encoding
return cls.__instances[encodedValue]
raise ValueError('Unable to get ascii or utf_16_be encoding for %s' % repr(value))
def __len__(self):
'''Return roughly the number of characters in this string (half the byte length)'''
if self.encoding == 'ascii':
return len(self.encodedValue)
else:
return len(self.encodedValue)//2
def __lt__(self, other):
return self.encodedValue < other.encodedValue
@property
def encodingMarker(self):
if self.encoding == 'ascii':
return 0b0101
else:
return 0b0110
def __repr__(self):
return '<StringWrapper (%s): %s>' % (self.encoding, self.encodedValue)
class PlistWriter(object):
header = b'bplist00bybiplist1.0'
file = None
byteCounts = None
trailer = None
computedUniques = None
writtenReferences = None
referencePositions = None
wrappedTrue = None
wrappedFalse = None
# Used to detect recursive object references.
objectsStack = []
def __init__(self, file):
self.reset()
self.file = file
self.wrappedTrue = BoolWrapper(True)
self.wrappedFalse = BoolWrapper(False)
def reset(self):
self.byteCounts = PlistByteCounts(0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0)
self.trailer = PlistTrailer(0, 0, 0, 0, 0)
# A set of all the uniques which have been computed.
self.computedUniques = set()
# A list of all the uniques which have been written.
self.writtenReferences = {}
# A dict of the positions of the written uniques.
self.referencePositions = {}
self.objectsStack = []
def positionOfObjectReference(self, obj):
"""If the given object has been written already, return its
position in the offset table. Otherwise, return None."""
return self.writtenReferences.get(obj)
def writeRoot(self, root):
"""
Strategy is:
- write header
- wrap root object so everything is hashable
- compute size of objects which will be written
- need to do this in order to know how large the object refs
will be in the list/dict/set reference lists
- write objects
- keep objects in writtenReferences
- keep positions of object references in referencePositions
- write object references with the length computed previously
- computer object reference length
- write object reference positions
- write trailer
"""
output = self.header
wrapped_root = self.wrapRoot(root)
self.computeOffsets(wrapped_root, asReference=True, isRoot=True)
self.trailer = self.trailer._replace(**{'objectRefSize':self.intSize(len(self.computedUniques))})
self.writeObjectReference(wrapped_root, output)
output = self.writeObject(wrapped_root, output, setReferencePosition=True)
# output size at this point is an upper bound on how big the
# object reference offsets need to be.
self.trailer = self.trailer._replace(**{
'offsetSize':self.intSize(len(output)),
'offsetCount':len(self.computedUniques),
'offsetTableOffset':len(output),
'topLevelObjectNumber':0
})
output = self.writeOffsetTable(output)
output += pack('!xxxxxxBBQQQ', *self.trailer)
self.file.write(output)
def beginRecursionProtection(self, obj):
if not isinstance(obj, (set, dict, list, tuple)):
return
if id(obj) in self.objectsStack:
raise InvalidPlistException("Recursive containers are not allowed in plists.")
self.objectsStack.append(id(obj))
def endRecursionProtection(self, obj):
if not isinstance(obj, (set, dict, list, tuple)):
return
try:
index = self.objectsStack.index(id(obj))
self.objectsStack = self.objectsStack[:index]
except ValueError as e:
pass
def wrapRoot(self, root):
result = None
self.beginRecursionProtection(root)
if isinstance(root, bool):
if root is True:
result = self.wrappedTrue
else:
result = self.wrappedFalse
elif isinstance(root, float):
result = FloatWrapper(root)
elif isinstance(root, set):
n = set()
for value in root:
n.add(self.wrapRoot(value))
result = HashableWrapper(n)
elif isinstance(root, dict):
n = {}
for key, value in iteritems(root):
n[self.wrapRoot(key)] = self.wrapRoot(value)
result = HashableWrapper(n)
elif isinstance(root, list):
n = []
for value in root:
n.append(self.wrapRoot(value))
result = HashableWrapper(n)
elif isinstance(root, tuple):
n = tuple([self.wrapRoot(value) for value in root])
result = HashableWrapper(n)
elif isinstance(root, (str, unicode)) and not isinstance(root, Data):
result = StringWrapper(root)
elif isinstance(root, bytes):
result = Data(root)
else:
result = root
self.endRecursionProtection(root)
return result
def incrementByteCount(self, field, incr=1):
self.byteCounts = self.byteCounts._replace(**{field:self.byteCounts.__getattribute__(field) + incr})
def computeOffsets(self, obj, asReference=False, isRoot=False):
def check_key(key):
if key is None:
raise InvalidPlistException('Dictionary keys cannot be null in plists.')
elif isinstance(key, Data):
raise InvalidPlistException('Data cannot be dictionary keys in plists.')
elif not isinstance(key, StringWrapper):
raise InvalidPlistException('Keys must be strings.')
def proc_size(size):
if size > 0b1110:
size += self.intSize(size)
return size
# If this should be a reference, then we keep a record of it in the
# uniques table.
if asReference:
if obj in self.computedUniques:
return
else:
self.computedUniques.add(obj)
if obj is None:
self.incrementByteCount('nullBytes')
elif isinstance(obj, BoolWrapper):
self.incrementByteCount('boolBytes')
elif isinstance(obj, Uid):
size = self.intSize(obj.integer)
self.incrementByteCount('uidBytes', incr=1+size)
elif isinstance(obj, (int, long)):
size = self.intSize(obj)
self.incrementByteCount('intBytes', incr=1+size)
elif isinstance(obj, FloatWrapper):
size = self.realSize(obj)
self.incrementByteCount('realBytes', incr=1+size)
elif isinstance(obj, datetime.datetime):
self.incrementByteCount('dateBytes', incr=2)
elif isinstance(obj, Data):
size = proc_size(len(obj))
self.incrementByteCount('dataBytes', incr=1+size)
elif isinstance(obj, StringWrapper):
size = proc_size(len(obj))
self.incrementByteCount('stringBytes', incr=1+size)
elif isinstance(obj, HashableWrapper):
obj = obj.value
if isinstance(obj, set):
size = proc_size(len(obj))
self.incrementByteCount('setBytes', incr=1+size)
for value in obj:
self.computeOffsets(value, asReference=True)
elif isinstance(obj, (list, tuple)):
size = proc_size(len(obj))
self.incrementByteCount('arrayBytes', incr=1+size)
for value in obj:
asRef = True
self.computeOffsets(value, asReference=True)
elif isinstance(obj, dict):
size = proc_size(len(obj))
self.incrementByteCount('dictBytes', incr=1+size)
for key, value in iteritems(obj):
check_key(key)
self.computeOffsets(key, asReference=True)
self.computeOffsets(value, asReference=True)
else:
raise InvalidPlistException("Unknown object type: %s (%s)" % (type(obj).__name__, repr(obj)))
def writeObjectReference(self, obj, output):
"""Tries to write an object reference, adding it to the references
table. Does not write the actual object bytes or set the reference
position. Returns a tuple of whether the object was a new reference
(True if it was, False if it already was in the reference table)
and the new output.
"""
position = self.positionOfObjectReference(obj)
if position is None:
self.writtenReferences[obj] = len(self.writtenReferences)
output += self.binaryInt(len(self.writtenReferences) - 1, byteSize=self.trailer.objectRefSize)
return (True, output)
else:
output += self.binaryInt(position, byteSize=self.trailer.objectRefSize)
return (False, output)
def writeObject(self, obj, output, setReferencePosition=False):
"""Serializes the given object to the output. Returns output.
If setReferencePosition is True, will set the position the
object was written.
"""
def proc_variable_length(format, length):
result = b''
if length > 0b1110:
result += pack('!B', (format << 4) | 0b1111)
result = self.writeObject(length, result)
else:
result += pack('!B', (format << 4) | length)
return result
def timedelta_total_seconds(td):
# Shim for Python 2.6 compatibility, which doesn't have total_seconds.
# Make one argument a float to ensure the right calculation.
return (td.microseconds + (td.seconds + td.days * 24 * 3600) * 10.0**6) / 10.0**6
if setReferencePosition:
self.referencePositions[obj] = len(output)
if obj is None:
output += pack('!B', 0b00000000)
elif isinstance(obj, BoolWrapper):
if obj.value is False:
output += pack('!B', 0b00001000)
else:
output += pack('!B', 0b00001001)
elif isinstance(obj, Uid):
size = self.intSize(obj.integer)
output += pack('!B', (0b1000 << 4) | size - 1)
output += self.binaryInt(obj.integer)
elif isinstance(obj, (int, long)):
byteSize = self.intSize(obj)
root = math.log(byteSize, 2)
output += pack('!B', (0b0001 << 4) | int(root))
output += self.binaryInt(obj, as_number=True)
elif isinstance(obj, FloatWrapper):
# just use doubles
output += pack('!B', (0b0010 << 4) | 3)
output += self.binaryReal(obj)
elif isinstance(obj, datetime.datetime):
try:
timestamp = (obj - apple_reference_date).total_seconds()
except AttributeError:
timestamp = timedelta_total_seconds(obj - apple_reference_date)
output += pack('!B', 0b00110011)
output += pack('!d', float(timestamp))
elif isinstance(obj, Data):
output += proc_variable_length(0b0100, len(obj))
output += obj
elif isinstance(obj, StringWrapper):
output += proc_variable_length(obj.encodingMarker, len(obj))
output += obj.encodedValue
elif isinstance(obj, bytes):
output += proc_variable_length(0b0101, len(obj))
output += obj
elif isinstance(obj, HashableWrapper):
obj = obj.value
if isinstance(obj, (set, list, tuple)):
if isinstance(obj, set):
output += proc_variable_length(0b1100, len(obj))
else:
output += proc_variable_length(0b1010, len(obj))
objectsToWrite = []
for objRef in sorted(obj) if isinstance(obj, set) else obj:
(isNew, output) = self.writeObjectReference(objRef, output)
if isNew:
objectsToWrite.append(objRef)
for objRef in objectsToWrite:
output = self.writeObject(objRef, output, setReferencePosition=True)
elif isinstance(obj, dict):
output += proc_variable_length(0b1101, len(obj))
keys = []
values = []
objectsToWrite = []
for key, value in sorted(iteritems(obj)):
keys.append(key)
values.append(value)
for key in keys:
(isNew, output) = self.writeObjectReference(key, output)
if isNew:
objectsToWrite.append(key)
for value in values:
(isNew, output) = self.writeObjectReference(value, output)
if isNew:
objectsToWrite.append(value)
for objRef in objectsToWrite:
output = self.writeObject(objRef, output, setReferencePosition=True)
return output
def writeOffsetTable(self, output):
"""Writes all of the object reference offsets."""
all_positions = []
writtenReferences = list(self.writtenReferences.items())
writtenReferences.sort(key=lambda x: x[1])
for obj,order in writtenReferences:
# Porting note: Elsewhere we deliberately replace empty unicdoe strings
# with empty binary strings, but the empty unicode string
# goes into writtenReferences. This isn't an issue in Py2
# because u'' and b'' have the same hash; but it is in
# Py3, where they don't.
if bytes != str and obj == unicodeEmpty:
obj = b''
position = self.referencePositions.get(obj)
if position is None:
raise InvalidPlistException("Error while writing offsets table. Object not found. %s" % obj)
output += self.binaryInt(position, self.trailer.offsetSize)
all_positions.append(position)
return output
def binaryReal(self, obj):
# just use doubles
result = pack('>d', obj.value)
return result
def binaryInt(self, obj, byteSize=None, as_number=False):
result = b''
if byteSize is None:
byteSize = self.intSize(obj)
if byteSize == 1:
result += pack('>B', obj)
elif byteSize == 2:
result += pack('>H', obj)
elif byteSize == 4:
result += pack('>L', obj)
elif byteSize == 8:
if as_number:
result += pack('>q', obj)
else:
result += pack('>Q', obj)
elif byteSize <= 16:
try:
result = pack('>Q', 0) + pack('>Q', obj)
except struct_error as e:
raise InvalidPlistException("Unable to pack integer %d: %s" % (obj, e))
else:
raise InvalidPlistException("Core Foundation can't handle integers with size greater than 16 bytes.")
return result
def intSize(self, obj):
"""Returns the number of bytes necessary to store the given integer."""
# SIGNED
if obj < 0: # Signed integer, always 8 bytes
return 8
# UNSIGNED
elif obj <= 0xFF: # 1 byte
return 1
elif obj <= 0xFFFF: # 2 bytes
return 2
elif obj <= 0xFFFFFFFF: # 4 bytes
return 4
# SIGNED
# 0x7FFFFFFFFFFFFFFF is the max.
elif obj <= 0x7FFFFFFFFFFFFFFF: # 8 bytes signed
return 8
elif obj <= 0xffffffffffffffff: # 8 bytes unsigned
return 16
else:
raise InvalidPlistException("Core Foundation can't handle integers with size greater than 8 bytes.")
def realSize(self, obj):
return 8
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