mirror of https://github.com/python/cpython.git
1021 lines
30 KiB
Python
1021 lines
30 KiB
Python
r"""plistlib.py -- a tool to generate and parse MacOSX .plist files.
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The property list (.plist) file format is a simple XML pickle supporting
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basic object types, like dictionaries, lists, numbers and strings.
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Usually the top level object is a dictionary.
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To write out a plist file, use the dump(value, file)
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function. 'value' is the top level object, 'file' is
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a (writable) file object.
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To parse a plist from a file, use the load(file) function,
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with a (readable) file object as the only argument. It
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returns the top level object (again, usually a dictionary).
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To work with plist data in bytes objects, you can use loads()
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and dumps().
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Values can be strings, integers, floats, booleans, tuples, lists,
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dictionaries (but only with string keys), Data, bytes, bytearray, or
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datetime.datetime objects.
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Generate Plist example:
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pl = dict(
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aString = "Doodah",
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aList = ["A", "B", 12, 32.1, [1, 2, 3]],
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aFloat = 0.1,
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anInt = 728,
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aDict = dict(
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anotherString = "<hello & hi there!>",
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aUnicodeValue = "M\xe4ssig, Ma\xdf",
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aTrueValue = True,
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aFalseValue = False,
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),
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someData = b"<binary gunk>",
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someMoreData = b"<lots of binary gunk>" * 10,
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aDate = datetime.datetime.fromtimestamp(time.mktime(time.gmtime())),
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)
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with open(fileName, 'wb') as fp:
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dump(pl, fp)
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Parse Plist example:
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with open(fileName, 'rb') as fp:
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pl = load(fp)
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print(pl["aKey"])
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"""
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__all__ = [
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"readPlist", "writePlist", "readPlistFromBytes", "writePlistToBytes",
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"Data", "InvalidFileException", "FMT_XML", "FMT_BINARY",
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"load", "dump", "loads", "dumps", "UID"
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]
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import binascii
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import codecs
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import contextlib
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import datetime
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import enum
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from io import BytesIO
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import itertools
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import os
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import re
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import struct
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from warnings import warn
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from xml.parsers.expat import ParserCreate
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PlistFormat = enum.Enum('PlistFormat', 'FMT_XML FMT_BINARY', module=__name__)
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globals().update(PlistFormat.__members__)
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#
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#
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# Deprecated functionality
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#
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#
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@contextlib.contextmanager
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def _maybe_open(pathOrFile, mode):
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if isinstance(pathOrFile, str):
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with open(pathOrFile, mode) as fp:
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yield fp
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else:
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yield pathOrFile
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def readPlist(pathOrFile):
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"""
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Read a .plist from a path or file. pathOrFile should either
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be a file name, or a readable binary file object.
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This function is deprecated, use load instead.
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"""
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warn("The readPlist function is deprecated, use load() instead",
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DeprecationWarning, 2)
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with _maybe_open(pathOrFile, 'rb') as fp:
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return load(fp, fmt=None, use_builtin_types=False)
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def writePlist(value, pathOrFile):
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"""
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Write 'value' to a .plist file. 'pathOrFile' may either be a
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file name or a (writable) file object.
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This function is deprecated, use dump instead.
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"""
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warn("The writePlist function is deprecated, use dump() instead",
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DeprecationWarning, 2)
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with _maybe_open(pathOrFile, 'wb') as fp:
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dump(value, fp, fmt=FMT_XML, sort_keys=True, skipkeys=False)
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def readPlistFromBytes(data):
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"""
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Read a plist data from a bytes object. Return the root object.
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This function is deprecated, use loads instead.
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"""
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warn("The readPlistFromBytes function is deprecated, use loads() instead",
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DeprecationWarning, 2)
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return load(BytesIO(data), fmt=None, use_builtin_types=False)
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def writePlistToBytes(value):
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"""
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Return 'value' as a plist-formatted bytes object.
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This function is deprecated, use dumps instead.
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"""
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warn("The writePlistToBytes function is deprecated, use dumps() instead",
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DeprecationWarning, 2)
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f = BytesIO()
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dump(value, f, fmt=FMT_XML, sort_keys=True, skipkeys=False)
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return f.getvalue()
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class Data:
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"""
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Wrapper for binary data.
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This class is deprecated, use a bytes object instead.
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"""
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def __init__(self, data):
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if not isinstance(data, bytes):
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raise TypeError("data must be as bytes")
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self.data = data
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@classmethod
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def fromBase64(cls, data):
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# base64.decodebytes just calls binascii.a2b_base64;
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# it seems overkill to use both base64 and binascii.
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return cls(_decode_base64(data))
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def asBase64(self, maxlinelength=76):
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return _encode_base64(self.data, maxlinelength)
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def __eq__(self, other):
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if isinstance(other, self.__class__):
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return self.data == other.data
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elif isinstance(other, bytes):
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return self.data == other
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else:
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return NotImplemented
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def __repr__(self):
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return "%s(%s)" % (self.__class__.__name__, repr(self.data))
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#
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#
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# End of deprecated functionality
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#
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#
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class UID:
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def __init__(self, data):
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if not isinstance(data, int):
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raise TypeError("data must be an int")
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if data >= 1 << 64:
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raise ValueError("UIDs cannot be >= 2**64")
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if data < 0:
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raise ValueError("UIDs must be positive")
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self.data = data
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def __index__(self):
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return self.data
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def __repr__(self):
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return "%s(%s)" % (self.__class__.__name__, repr(self.data))
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def __reduce__(self):
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return self.__class__, (self.data,)
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def __eq__(self, other):
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if not isinstance(other, UID):
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return NotImplemented
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return self.data == other.data
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def __hash__(self):
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return hash(self.data)
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#
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# XML support
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#
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# XML 'header'
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PLISTHEADER = b"""\
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<?xml version="1.0" encoding="UTF-8"?>
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<!DOCTYPE plist PUBLIC "-//Apple//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd">
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"""
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# Regex to find any control chars, except for \t \n and \r
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_controlCharPat = re.compile(
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r"[\x00\x01\x02\x03\x04\x05\x06\x07\x08\x0b\x0c\x0e\x0f"
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r"\x10\x11\x12\x13\x14\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f]")
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def _encode_base64(s, maxlinelength=76):
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# copied from base64.encodebytes(), with added maxlinelength argument
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maxbinsize = (maxlinelength//4)*3
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pieces = []
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for i in range(0, len(s), maxbinsize):
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chunk = s[i : i + maxbinsize]
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pieces.append(binascii.b2a_base64(chunk))
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return b''.join(pieces)
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def _decode_base64(s):
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if isinstance(s, str):
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return binascii.a2b_base64(s.encode("utf-8"))
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else:
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return binascii.a2b_base64(s)
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# Contents should conform to a subset of ISO 8601
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# (in particular, YYYY '-' MM '-' DD 'T' HH ':' MM ':' SS 'Z'. Smaller units
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# may be omitted with # a loss of precision)
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_dateParser = re.compile(r"(?P<year>\d\d\d\d)(?:-(?P<month>\d\d)(?:-(?P<day>\d\d)(?:T(?P<hour>\d\d)(?::(?P<minute>\d\d)(?::(?P<second>\d\d))?)?)?)?)?Z", re.ASCII)
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def _date_from_string(s):
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order = ('year', 'month', 'day', 'hour', 'minute', 'second')
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gd = _dateParser.match(s).groupdict()
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lst = []
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for key in order:
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val = gd[key]
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if val is None:
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break
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lst.append(int(val))
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return datetime.datetime(*lst)
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def _date_to_string(d):
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return '%04d-%02d-%02dT%02d:%02d:%02dZ' % (
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d.year, d.month, d.day,
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d.hour, d.minute, d.second
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)
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def _escape(text):
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m = _controlCharPat.search(text)
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if m is not None:
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raise ValueError("strings can't contains control characters; "
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"use bytes instead")
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text = text.replace("\r\n", "\n") # convert DOS line endings
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text = text.replace("\r", "\n") # convert Mac line endings
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text = text.replace("&", "&") # escape '&'
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text = text.replace("<", "<") # escape '<'
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text = text.replace(">", ">") # escape '>'
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return text
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class _PlistParser:
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def __init__(self, use_builtin_types, dict_type):
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self.stack = []
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self.current_key = None
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self.root = None
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self._use_builtin_types = use_builtin_types
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self._dict_type = dict_type
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def parse(self, fileobj):
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self.parser = ParserCreate()
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self.parser.StartElementHandler = self.handle_begin_element
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self.parser.EndElementHandler = self.handle_end_element
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self.parser.CharacterDataHandler = self.handle_data
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self.parser.ParseFile(fileobj)
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return self.root
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def handle_begin_element(self, element, attrs):
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self.data = []
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handler = getattr(self, "begin_" + element, None)
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if handler is not None:
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handler(attrs)
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def handle_end_element(self, element):
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handler = getattr(self, "end_" + element, None)
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if handler is not None:
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handler()
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def handle_data(self, data):
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self.data.append(data)
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def add_object(self, value):
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if self.current_key is not None:
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if not isinstance(self.stack[-1], type({})):
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raise ValueError("unexpected element at line %d" %
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self.parser.CurrentLineNumber)
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self.stack[-1][self.current_key] = value
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self.current_key = None
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elif not self.stack:
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# this is the root object
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self.root = value
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else:
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if not isinstance(self.stack[-1], type([])):
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raise ValueError("unexpected element at line %d" %
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self.parser.CurrentLineNumber)
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self.stack[-1].append(value)
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def get_data(self):
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data = ''.join(self.data)
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self.data = []
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return data
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# element handlers
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def begin_dict(self, attrs):
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d = self._dict_type()
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self.add_object(d)
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self.stack.append(d)
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def end_dict(self):
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if self.current_key:
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raise ValueError("missing value for key '%s' at line %d" %
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(self.current_key,self.parser.CurrentLineNumber))
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self.stack.pop()
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def end_key(self):
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if self.current_key or not isinstance(self.stack[-1], type({})):
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raise ValueError("unexpected key at line %d" %
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self.parser.CurrentLineNumber)
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self.current_key = self.get_data()
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def begin_array(self, attrs):
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a = []
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self.add_object(a)
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self.stack.append(a)
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def end_array(self):
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self.stack.pop()
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def end_true(self):
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self.add_object(True)
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def end_false(self):
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self.add_object(False)
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def end_integer(self):
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self.add_object(int(self.get_data()))
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def end_real(self):
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self.add_object(float(self.get_data()))
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def end_string(self):
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self.add_object(self.get_data())
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def end_data(self):
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if self._use_builtin_types:
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self.add_object(_decode_base64(self.get_data()))
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else:
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self.add_object(Data.fromBase64(self.get_data()))
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def end_date(self):
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self.add_object(_date_from_string(self.get_data()))
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class _DumbXMLWriter:
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def __init__(self, file, indent_level=0, indent="\t"):
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self.file = file
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self.stack = []
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self._indent_level = indent_level
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self.indent = indent
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def begin_element(self, element):
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self.stack.append(element)
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self.writeln("<%s>" % element)
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self._indent_level += 1
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def end_element(self, element):
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assert self._indent_level > 0
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assert self.stack.pop() == element
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self._indent_level -= 1
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self.writeln("</%s>" % element)
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def simple_element(self, element, value=None):
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if value is not None:
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value = _escape(value)
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self.writeln("<%s>%s</%s>" % (element, value, element))
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else:
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self.writeln("<%s/>" % element)
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def writeln(self, line):
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if line:
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# plist has fixed encoding of utf-8
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# XXX: is this test needed?
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if isinstance(line, str):
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line = line.encode('utf-8')
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self.file.write(self._indent_level * self.indent)
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self.file.write(line)
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self.file.write(b'\n')
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class _PlistWriter(_DumbXMLWriter):
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def __init__(
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self, file, indent_level=0, indent=b"\t", writeHeader=1,
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sort_keys=True, skipkeys=False):
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if writeHeader:
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file.write(PLISTHEADER)
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_DumbXMLWriter.__init__(self, file, indent_level, indent)
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self._sort_keys = sort_keys
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self._skipkeys = skipkeys
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def write(self, value):
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self.writeln("<plist version=\"1.0\">")
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self.write_value(value)
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self.writeln("</plist>")
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def write_value(self, value):
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if isinstance(value, str):
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self.simple_element("string", value)
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elif value is True:
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self.simple_element("true")
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elif value is False:
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self.simple_element("false")
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elif isinstance(value, int):
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if -1 << 63 <= value < 1 << 64:
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self.simple_element("integer", "%d" % value)
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else:
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raise OverflowError(value)
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elif isinstance(value, float):
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self.simple_element("real", repr(value))
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elif isinstance(value, dict):
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self.write_dict(value)
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elif isinstance(value, Data):
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self.write_data(value)
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elif isinstance(value, (bytes, bytearray)):
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self.write_bytes(value)
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elif isinstance(value, datetime.datetime):
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self.simple_element("date", _date_to_string(value))
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elif isinstance(value, (tuple, list)):
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self.write_array(value)
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else:
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raise TypeError("unsupported type: %s" % type(value))
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def write_data(self, data):
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self.write_bytes(data.data)
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def write_bytes(self, data):
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self.begin_element("data")
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self._indent_level -= 1
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maxlinelength = max(
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16,
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76 - len(self.indent.replace(b"\t", b" " * 8) * self._indent_level))
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for line in _encode_base64(data, maxlinelength).split(b"\n"):
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if line:
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self.writeln(line)
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self._indent_level += 1
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self.end_element("data")
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def write_dict(self, d):
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if d:
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self.begin_element("dict")
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if self._sort_keys:
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items = sorted(d.items())
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else:
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items = d.items()
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for key, value in items:
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if not isinstance(key, str):
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if self._skipkeys:
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continue
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raise TypeError("keys must be strings")
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self.simple_element("key", key)
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self.write_value(value)
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self.end_element("dict")
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else:
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self.simple_element("dict")
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def write_array(self, array):
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if array:
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self.begin_element("array")
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for value in array:
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self.write_value(value)
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self.end_element("array")
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else:
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self.simple_element("array")
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def _is_fmt_xml(header):
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prefixes = (b'<?xml', b'<plist')
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for pfx in prefixes:
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if header.startswith(pfx):
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return True
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# Also check for alternative XML encodings, this is slightly
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# overkill because the Apple tools (and plistlib) will not
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# generate files with these encodings.
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for bom, encoding in (
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(codecs.BOM_UTF8, "utf-8"),
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(codecs.BOM_UTF16_BE, "utf-16-be"),
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(codecs.BOM_UTF16_LE, "utf-16-le"),
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# expat does not support utf-32
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#(codecs.BOM_UTF32_BE, "utf-32-be"),
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#(codecs.BOM_UTF32_LE, "utf-32-le"),
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):
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if not header.startswith(bom):
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continue
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for start in prefixes:
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prefix = bom + start.decode('ascii').encode(encoding)
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if header[:len(prefix)] == prefix:
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return True
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return False
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#
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# Binary Plist
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#
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class InvalidFileException (ValueError):
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def __init__(self, message="Invalid file"):
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ValueError.__init__(self, message)
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_BINARY_FORMAT = {1: 'B', 2: 'H', 4: 'L', 8: 'Q'}
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_undefined = object()
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class _BinaryPlistParser:
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"""
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Read or write a binary plist file, following the description of the binary
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format. Raise InvalidFileException in case of error, otherwise return the
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root object.
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see also: http://opensource.apple.com/source/CF/CF-744.18/CFBinaryPList.c
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"""
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def __init__(self, use_builtin_types, dict_type):
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self._use_builtin_types = use_builtin_types
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self._dict_type = dict_type
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def parse(self, fp):
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try:
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# The basic file format:
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# HEADER
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# object...
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# refid->offset...
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# TRAILER
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self._fp = fp
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self._fp.seek(-32, os.SEEK_END)
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trailer = self._fp.read(32)
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if len(trailer) != 32:
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raise InvalidFileException()
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(
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offset_size, self._ref_size, num_objects, top_object,
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offset_table_offset
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) = struct.unpack('>6xBBQQQ', trailer)
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self._fp.seek(offset_table_offset)
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self._object_offsets = self._read_ints(num_objects, offset_size)
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self._objects = [_undefined] * num_objects
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return self._read_object(top_object)
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except (OSError, IndexError, struct.error, OverflowError,
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UnicodeDecodeError):
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raise InvalidFileException()
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def _get_size(self, tokenL):
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""" return the size of the next object."""
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if tokenL == 0xF:
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m = self._fp.read(1)[0] & 0x3
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s = 1 << m
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f = '>' + _BINARY_FORMAT[s]
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return struct.unpack(f, self._fp.read(s))[0]
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return tokenL
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def _read_ints(self, n, size):
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data = self._fp.read(size * n)
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if size in _BINARY_FORMAT:
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return struct.unpack('>' + _BINARY_FORMAT[size] * n, data)
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else:
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if not size or len(data) != size * n:
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raise InvalidFileException()
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return tuple(int.from_bytes(data[i: i + size], 'big')
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for i in range(0, size * n, size))
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def _read_refs(self, n):
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return self._read_ints(n, self._ref_size)
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def _read_object(self, ref):
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"""
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read the object by reference.
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May recursively read sub-objects (content of an array/dict/set)
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"""
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result = self._objects[ref]
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if result is not _undefined:
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return result
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offset = self._object_offsets[ref]
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self._fp.seek(offset)
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token = self._fp.read(1)[0]
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tokenH, tokenL = token & 0xF0, token & 0x0F
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if token == 0x00:
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result = None
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elif token == 0x08:
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result = False
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elif token == 0x09:
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result = True
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# The referenced source code also mentions URL (0x0c, 0x0d) and
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# UUID (0x0e), but neither can be generated using the Cocoa libraries.
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elif token == 0x0f:
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result = b''
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elif tokenH == 0x10: # int
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result = int.from_bytes(self._fp.read(1 << tokenL),
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'big', signed=tokenL >= 3)
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elif token == 0x22: # real
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result = struct.unpack('>f', self._fp.read(4))[0]
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elif token == 0x23: # real
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result = struct.unpack('>d', self._fp.read(8))[0]
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elif token == 0x33: # date
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f = struct.unpack('>d', self._fp.read(8))[0]
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# timestamp 0 of binary plists corresponds to 1/1/2001
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# (year of Mac OS X 10.0), instead of 1/1/1970.
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result = (datetime.datetime(2001, 1, 1) +
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datetime.timedelta(seconds=f))
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elif tokenH == 0x40: # data
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s = self._get_size(tokenL)
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if self._use_builtin_types:
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result = self._fp.read(s)
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else:
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result = Data(self._fp.read(s))
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elif tokenH == 0x50: # ascii string
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s = self._get_size(tokenL)
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result = self._fp.read(s).decode('ascii')
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elif tokenH == 0x60: # unicode string
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s = self._get_size(tokenL)
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result = self._fp.read(s * 2).decode('utf-16be')
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elif tokenH == 0x80: # UID
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# used by Key-Archiver plist files
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result = UID(int.from_bytes(self._fp.read(1 + tokenL), 'big'))
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elif tokenH == 0xA0: # array
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s = self._get_size(tokenL)
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obj_refs = self._read_refs(s)
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result = []
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self._objects[ref] = result
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result.extend(self._read_object(x) for x in obj_refs)
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# tokenH == 0xB0 is documented as 'ordset', but is not actually
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# implemented in the Apple reference code.
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# tokenH == 0xC0 is documented as 'set', but sets cannot be used in
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# plists.
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elif tokenH == 0xD0: # dict
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s = self._get_size(tokenL)
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key_refs = self._read_refs(s)
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obj_refs = self._read_refs(s)
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result = self._dict_type()
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self._objects[ref] = result
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for k, o in zip(key_refs, obj_refs):
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|
result[self._read_object(k)] = self._read_object(o)
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|
else:
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|
raise InvalidFileException()
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self._objects[ref] = result
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return result
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def _count_to_size(count):
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if count < 1 << 8:
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return 1
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elif count < 1 << 16:
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return 2
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elif count << 1 << 32:
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return 4
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else:
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return 8
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_scalars = (str, int, float, datetime.datetime, bytes)
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class _BinaryPlistWriter (object):
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def __init__(self, fp, sort_keys, skipkeys):
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self._fp = fp
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self._sort_keys = sort_keys
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self._skipkeys = skipkeys
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def write(self, value):
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# Flattened object list:
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self._objlist = []
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# Mappings from object->objectid
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# First dict has (type(object), object) as the key,
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# second dict is used when object is not hashable and
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# has id(object) as the key.
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self._objtable = {}
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self._objidtable = {}
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# Create list of all objects in the plist
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self._flatten(value)
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# Size of object references in serialized containers
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# depends on the number of objects in the plist.
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num_objects = len(self._objlist)
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self._object_offsets = [0]*num_objects
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self._ref_size = _count_to_size(num_objects)
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self._ref_format = _BINARY_FORMAT[self._ref_size]
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# Write file header
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self._fp.write(b'bplist00')
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# Write object list
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for obj in self._objlist:
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self._write_object(obj)
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# Write refnum->object offset table
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top_object = self._getrefnum(value)
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offset_table_offset = self._fp.tell()
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offset_size = _count_to_size(offset_table_offset)
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offset_format = '>' + _BINARY_FORMAT[offset_size] * num_objects
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self._fp.write(struct.pack(offset_format, *self._object_offsets))
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|
# Write trailer
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|
sort_version = 0
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trailer = (
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sort_version, offset_size, self._ref_size, num_objects,
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top_object, offset_table_offset
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)
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self._fp.write(struct.pack('>5xBBBQQQ', *trailer))
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|
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def _flatten(self, value):
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# First check if the object is in the object table, not used for
|
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# containers to ensure that two subcontainers with the same contents
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# will be serialized as distinct values.
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|
if isinstance(value, _scalars):
|
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if (type(value), value) in self._objtable:
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return
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|
|
|
elif isinstance(value, Data):
|
|
if (type(value.data), value.data) in self._objtable:
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|
return
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|
|
elif id(value) in self._objidtable:
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|
return
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# Add to objectreference map
|
|
refnum = len(self._objlist)
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self._objlist.append(value)
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if isinstance(value, _scalars):
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|
self._objtable[(type(value), value)] = refnum
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|
elif isinstance(value, Data):
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|
self._objtable[(type(value.data), value.data)] = refnum
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else:
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|
self._objidtable[id(value)] = refnum
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|
|
# And finally recurse into containers
|
|
if isinstance(value, dict):
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|
keys = []
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values = []
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items = value.items()
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|
if self._sort_keys:
|
|
items = sorted(items)
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|
|
for k, v in items:
|
|
if not isinstance(k, str):
|
|
if self._skipkeys:
|
|
continue
|
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raise TypeError("keys must be strings")
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|
keys.append(k)
|
|
values.append(v)
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|
|
|
for o in itertools.chain(keys, values):
|
|
self._flatten(o)
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|
|
|
elif isinstance(value, (list, tuple)):
|
|
for o in value:
|
|
self._flatten(o)
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|
|
|
def _getrefnum(self, value):
|
|
if isinstance(value, _scalars):
|
|
return self._objtable[(type(value), value)]
|
|
elif isinstance(value, Data):
|
|
return self._objtable[(type(value.data), value.data)]
|
|
else:
|
|
return self._objidtable[id(value)]
|
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|
|
def _write_size(self, token, size):
|
|
if size < 15:
|
|
self._fp.write(struct.pack('>B', token | size))
|
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|
|
elif size < 1 << 8:
|
|
self._fp.write(struct.pack('>BBB', token | 0xF, 0x10, size))
|
|
|
|
elif size < 1 << 16:
|
|
self._fp.write(struct.pack('>BBH', token | 0xF, 0x11, size))
|
|
|
|
elif size < 1 << 32:
|
|
self._fp.write(struct.pack('>BBL', token | 0xF, 0x12, size))
|
|
|
|
else:
|
|
self._fp.write(struct.pack('>BBQ', token | 0xF, 0x13, size))
|
|
|
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def _write_object(self, value):
|
|
ref = self._getrefnum(value)
|
|
self._object_offsets[ref] = self._fp.tell()
|
|
if value is None:
|
|
self._fp.write(b'\x00')
|
|
|
|
elif value is False:
|
|
self._fp.write(b'\x08')
|
|
|
|
elif value is True:
|
|
self._fp.write(b'\x09')
|
|
|
|
elif isinstance(value, int):
|
|
if value < 0:
|
|
try:
|
|
self._fp.write(struct.pack('>Bq', 0x13, value))
|
|
except struct.error:
|
|
raise OverflowError(value) from None
|
|
elif value < 1 << 8:
|
|
self._fp.write(struct.pack('>BB', 0x10, value))
|
|
elif value < 1 << 16:
|
|
self._fp.write(struct.pack('>BH', 0x11, value))
|
|
elif value < 1 << 32:
|
|
self._fp.write(struct.pack('>BL', 0x12, value))
|
|
elif value < 1 << 63:
|
|
self._fp.write(struct.pack('>BQ', 0x13, value))
|
|
elif value < 1 << 64:
|
|
self._fp.write(b'\x14' + value.to_bytes(16, 'big', signed=True))
|
|
else:
|
|
raise OverflowError(value)
|
|
|
|
elif isinstance(value, float):
|
|
self._fp.write(struct.pack('>Bd', 0x23, value))
|
|
|
|
elif isinstance(value, datetime.datetime):
|
|
f = (value - datetime.datetime(2001, 1, 1)).total_seconds()
|
|
self._fp.write(struct.pack('>Bd', 0x33, f))
|
|
|
|
elif isinstance(value, Data):
|
|
self._write_size(0x40, len(value.data))
|
|
self._fp.write(value.data)
|
|
|
|
elif isinstance(value, (bytes, bytearray)):
|
|
self._write_size(0x40, len(value))
|
|
self._fp.write(value)
|
|
|
|
elif isinstance(value, str):
|
|
try:
|
|
t = value.encode('ascii')
|
|
self._write_size(0x50, len(value))
|
|
except UnicodeEncodeError:
|
|
t = value.encode('utf-16be')
|
|
self._write_size(0x60, len(t) // 2)
|
|
|
|
self._fp.write(t)
|
|
|
|
elif isinstance(value, UID):
|
|
if value.data < 0:
|
|
raise ValueError("UIDs must be positive")
|
|
elif value.data < 1 << 8:
|
|
self._fp.write(struct.pack('>BB', 0x80, value))
|
|
elif value.data < 1 << 16:
|
|
self._fp.write(struct.pack('>BH', 0x81, value))
|
|
elif value.data < 1 << 32:
|
|
self._fp.write(struct.pack('>BL', 0x83, value))
|
|
elif value.data < 1 << 64:
|
|
self._fp.write(struct.pack('>BQ', 0x87, value))
|
|
else:
|
|
raise OverflowError(value)
|
|
|
|
elif isinstance(value, (list, tuple)):
|
|
refs = [self._getrefnum(o) for o in value]
|
|
s = len(refs)
|
|
self._write_size(0xA0, s)
|
|
self._fp.write(struct.pack('>' + self._ref_format * s, *refs))
|
|
|
|
elif isinstance(value, dict):
|
|
keyRefs, valRefs = [], []
|
|
|
|
if self._sort_keys:
|
|
rootItems = sorted(value.items())
|
|
else:
|
|
rootItems = value.items()
|
|
|
|
for k, v in rootItems:
|
|
if not isinstance(k, str):
|
|
if self._skipkeys:
|
|
continue
|
|
raise TypeError("keys must be strings")
|
|
keyRefs.append(self._getrefnum(k))
|
|
valRefs.append(self._getrefnum(v))
|
|
|
|
s = len(keyRefs)
|
|
self._write_size(0xD0, s)
|
|
self._fp.write(struct.pack('>' + self._ref_format * s, *keyRefs))
|
|
self._fp.write(struct.pack('>' + self._ref_format * s, *valRefs))
|
|
|
|
else:
|
|
raise TypeError(value)
|
|
|
|
|
|
def _is_fmt_binary(header):
|
|
return header[:8] == b'bplist00'
|
|
|
|
|
|
#
|
|
# Generic bits
|
|
#
|
|
|
|
_FORMATS={
|
|
FMT_XML: dict(
|
|
detect=_is_fmt_xml,
|
|
parser=_PlistParser,
|
|
writer=_PlistWriter,
|
|
),
|
|
FMT_BINARY: dict(
|
|
detect=_is_fmt_binary,
|
|
parser=_BinaryPlistParser,
|
|
writer=_BinaryPlistWriter,
|
|
)
|
|
}
|
|
|
|
|
|
def load(fp, *, fmt=None, use_builtin_types=True, dict_type=dict):
|
|
"""Read a .plist file. 'fp' should be (readable) file object.
|
|
Return the unpacked root object (which usually is a dictionary).
|
|
"""
|
|
if fmt is None:
|
|
header = fp.read(32)
|
|
fp.seek(0)
|
|
for info in _FORMATS.values():
|
|
if info['detect'](header):
|
|
P = info['parser']
|
|
break
|
|
|
|
else:
|
|
raise InvalidFileException()
|
|
|
|
else:
|
|
P = _FORMATS[fmt]['parser']
|
|
|
|
p = P(use_builtin_types=use_builtin_types, dict_type=dict_type)
|
|
return p.parse(fp)
|
|
|
|
|
|
def loads(value, *, fmt=None, use_builtin_types=True, dict_type=dict):
|
|
"""Read a .plist file from a bytes object.
|
|
Return the unpacked root object (which usually is a dictionary).
|
|
"""
|
|
fp = BytesIO(value)
|
|
return load(
|
|
fp, fmt=fmt, use_builtin_types=use_builtin_types, dict_type=dict_type)
|
|
|
|
|
|
def dump(value, fp, *, fmt=FMT_XML, sort_keys=True, skipkeys=False):
|
|
"""Write 'value' to a .plist file. 'fp' should be a (writable)
|
|
file object.
|
|
"""
|
|
if fmt not in _FORMATS:
|
|
raise ValueError("Unsupported format: %r"%(fmt,))
|
|
|
|
writer = _FORMATS[fmt]["writer"](fp, sort_keys=sort_keys, skipkeys=skipkeys)
|
|
writer.write(value)
|
|
|
|
|
|
def dumps(value, *, fmt=FMT_XML, skipkeys=False, sort_keys=True):
|
|
"""Return a bytes object with the contents for a .plist file.
|
|
"""
|
|
fp = BytesIO()
|
|
dump(value, fp, fmt=fmt, skipkeys=skipkeys, sort_keys=sort_keys)
|
|
return fp.getvalue()
|