#!/usr/bin/env python """Utilities for writing code that runs on Python 2 and 3""" import operator import sys import types __author__ = "Benjamin Peterson " __version__ = "1.2.0" """ six is under MIT License Copyright (c) 2010-2011 Benjamin Peterson Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.""" # True if we are running on Python 3. PY3 = sys.version_info[0] == 3 if PY3: string_types = str, integer_types = int, class_types = type, text_type = str binary_type = bytes MAXSIZE = sys.maxsize else: string_types = basestring, integer_types = (int, long) class_types = (type, types.ClassType) text_type = unicode binary_type = str if sys.platform == "java": # Jython always uses 32 bits. MAXSIZE = int((1 << 31) - 1) else: # It's possible to have sizeof(long) != sizeof(Py_ssize_t). class X(object): def __len__(self): return 1 << 31 try: len(X()) except OverflowError: # 32-bit MAXSIZE = int((1 << 31) - 1) else: # 64-bit MAXSIZE = int((1 << 63) - 1) del X def _add_doc(func, doc): """Add documentation to a function.""" func.__doc__ = doc def _import_module(name): """Import module, returning the module after the last dot.""" __import__(name) return sys.modules[name] class _LazyDescr(object): def __init__(self, name): self.name = name def __get__(self, obj, tp): result = self._resolve() setattr(obj, self.name, result) # This is a bit ugly, but it avoids running this again. delattr(tp, self.name) return result class MovedModule(_LazyDescr): def __init__(self, name, old, new=None): super(MovedModule, self).__init__(name) if PY3: if new is None: new = name self.mod = new else: self.mod = old def _resolve(self): return _import_module(self.mod) class MovedAttribute(_LazyDescr): def __init__(self, name, old_mod, new_mod, old_attr=None, new_attr=None): super(MovedAttribute, self).__init__(name) if PY3: if new_mod is None: new_mod = name self.mod = new_mod if new_attr is None: if old_attr is None: new_attr = name else: new_attr = old_attr self.attr = new_attr else: self.mod = old_mod if old_attr is None: old_attr = name self.attr = old_attr def _resolve(self): module = _import_module(self.mod) return getattr(module, self.attr) class _MovedItems(types.ModuleType): """Lazy loading of moved objects""" _moved_attributes = [ MovedAttribute("cStringIO", "cStringIO", "io", "StringIO"), MovedAttribute("filter", "itertools", "builtins", "ifilter", "filter"), MovedAttribute("input", "__builtin__", "builtins", "raw_input", "input"), MovedAttribute("map", "itertools", "builtins", "imap", "map"), MovedAttribute("reload_module", "__builtin__", "imp", "reload"), MovedAttribute("reduce", "__builtin__", "functools"), MovedAttribute("StringIO", "StringIO", "io"), MovedAttribute("xrange", "__builtin__", "builtins", "xrange", "range"), MovedAttribute("zip", "itertools", "builtins", "izip", "zip"), MovedModule("builtins", "__builtin__"), MovedModule("configparser", "ConfigParser"), MovedModule("copyreg", "copy_reg"), MovedModule("http_cookiejar", "cookielib", "http.cookiejar"), MovedModule("http_cookies", "Cookie", "http.cookies"), MovedModule("html_entities", "htmlentitydefs", "html.entities"), MovedModule("html_parser", "HTMLParser", "html.parser"), MovedModule("http_client", "httplib", "http.client"), MovedModule("BaseHTTPServer", "BaseHTTPServer", "http.server"), MovedModule("CGIHTTPServer", "CGIHTTPServer", "http.server"), MovedModule("SimpleHTTPServer", "SimpleHTTPServer", "http.server"), MovedModule("cPickle", "cPickle", "pickle"), MovedModule("queue", "Queue"), MovedModule("reprlib", "repr"), MovedModule("socketserver", "SocketServer"), MovedModule("tkinter", "Tkinter"), MovedModule("tkinter_dialog", "Dialog", "tkinter.dialog"), MovedModule("tkinter_filedialog", "FileDialog", "tkinter.filedialog"), MovedModule("tkinter_scrolledtext", "ScrolledText", "tkinter.scrolledtext"), MovedModule("tkinter_simpledialog", "SimpleDialog", "tkinter.simpledialog"), MovedModule("tkinter_tix", "Tix", "tkinter.tix"), MovedModule("tkinter_constants", "Tkconstants", "tkinter.constants"), MovedModule("tkinter_dnd", "Tkdnd", "tkinter.dnd"), MovedModule("tkinter_colorchooser", "tkColorChooser", "tkinter.colorchooser"), MovedModule("tkinter_commondialog", "tkCommonDialog", "tkinter.commondialog"), MovedModule("tkinter_tkfiledialog", "tkFileDialog", "tkinter.filedialog"), MovedModule("tkinter_font", "tkFont", "tkinter.font"), MovedModule("tkinter_messagebox", "tkMessageBox", "tkinter.messagebox"), MovedModule("tkinter_tksimpledialog", "tkSimpleDialog", "tkinter.simpledialog"), MovedModule("urllib_robotparser", "robotparser", "urllib.robotparser"), MovedModule("winreg", "_winreg"), ] for attr in _moved_attributes: setattr(_MovedItems, attr.name, attr) del attr moves = sys.modules["six.moves"] = _MovedItems("moves") def add_move(move): """Add an item to six.moves.""" setattr(_MovedItems, move.name, move) def remove_move(name): """Remove item from six.moves.""" try: delattr(_MovedItems, name) except AttributeError: try: del moves.__dict__[name] except KeyError: raise AttributeError("no such move, %r" % (name,)) if PY3: _meth_func = "__func__" _meth_self = "__self__" _func_code = "__code__" _func_defaults = "__defaults__" _iterkeys = "keys" _itervalues = "values" _iteritems = "items" else: _meth_func = "im_func" _meth_self = "im_self" _func_code = "func_code" _func_defaults = "func_defaults" _iterkeys = "iterkeys" _itervalues = "itervalues" _iteritems = "iteritems" try: advance_iterator = next except NameError: def advance_iterator(it): return it.next() next = advance_iterator if PY3: def get_unbound_function(unbound): return unbound Iterator = object def callable(obj): return any("__call__" in klass.__dict__ for klass in type(obj).__mro__) else: def get_unbound_function(unbound): return unbound.im_func class Iterator(object): def next(self): return type(self).__next__(self) callable = callable _add_doc(get_unbound_function, """Get the function out of a possibly unbound function""") get_method_function = operator.attrgetter(_meth_func) get_method_self = operator.attrgetter(_meth_self) get_function_code = operator.attrgetter(_func_code) get_function_defaults = operator.attrgetter(_func_defaults) def iterkeys(d): """Return an iterator over the keys of a dictionary.""" return iter(getattr(d, _iterkeys)()) def itervalues(d): """Return an iterator over the values of a dictionary.""" return iter(getattr(d, _itervalues)()) def iteritems(d): """Return an iterator over the (key, value) pairs of a dictionary.""" return iter(getattr(d, _iteritems)()) if PY3: def b(s): return s.encode("latin-1") def u(s): return s if sys.version_info[1] <= 1: def int2byte(i): return bytes((i,)) else: # This is about 2x faster than the implementation above on 3.2+ int2byte = operator.methodcaller("to_bytes", 1, "big") import io StringIO = io.StringIO BytesIO = io.BytesIO else: def b(s): return s def u(s): return unicode(s, "unicode_escape") int2byte = chr import StringIO StringIO = BytesIO = StringIO.StringIO _add_doc(b, """Byte literal""") _add_doc(u, """Text literal""") if PY3: import builtins exec_ = getattr(builtins, "exec") def reraise(tp, value, tb=None): if value.__traceback__ is not tb: raise value.with_traceback(tb) raise value print_ = getattr(builtins, "print") del builtins else: def exec_(code, globs=None, locs=None): """Execute code in a namespace.""" if globs is None: frame = sys._getframe(1) globs = frame.f_globals if locs is None: locs = frame.f_locals del frame elif locs is None: locs = globs exec("""exec code in globs, locs""") exec_("""def reraise(tp, value, tb=None): raise tp, value, tb """) def print_(*args, **kwargs): """The new-style print function.""" fp = kwargs.pop("file", sys.stdout) if fp is None: return def write(data): if not isinstance(data, basestring): data = str(data) fp.write(data) want_unicode = False sep = kwargs.pop("sep", None) if sep is not None: if isinstance(sep, unicode): want_unicode = True elif not isinstance(sep, str): raise TypeError("sep must be None or a string") end = kwargs.pop("end", None) if end is not None: if isinstance(end, unicode): want_unicode = True elif not isinstance(end, str): raise TypeError("end must be None or a string") if kwargs: raise TypeError("invalid keyword arguments to print()") if not want_unicode: for arg in args: if isinstance(arg, unicode): want_unicode = True break if want_unicode: newline = unicode("\n") space = unicode(" ") else: newline = "\n" space = " " if sep is None: sep = space if end is None: end = newline for i, arg in enumerate(args): if i: write(sep) write(arg) write(end) _add_doc(reraise, """Reraise an exception.""") def with_metaclass(meta, base=object): """Create a base class with a metaclass.""" return meta("NewBase", (base,), {}) """ biplist is under BSD license Copyright (c) 2010, Andrew Wooster All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. * Neither the name of biplist nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE""" """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 """ import sys from collections import namedtuple import calendar import datetime import math import plistlib from struct import pack, unpack import sys import time # import six __all__ = [ 'Uid', 'Data', 'readPlist', 'writePlist', 'readPlistFromString', 'writePlistToString', 'InvalidPlistException', 'NotBinaryPlistException' ] apple_reference_date_offset = 978307200 class Uid(int): """Wrapper around integers for representing UID values. This is used in keyed archiving.""" def __repr__(self): return "Uid(%d)" % self class Data(binary_type): """Wrapper around str types for representing Data values.""" pass class InvalidPlistException(Exception): """Raised when the plist is incorrectly formatted.""" pass class NotBinaryPlistException(Exception): """Raised when a binary plist was expected but not encountered.""" pass def readPlist(pathOrFile): """Raises NotBinaryPlistException, InvalidPlistException""" didOpen = False result = None if isinstance(pathOrFile, (binary_type, text_type)): pathOrFile = open(pathOrFile, 'rb') didOpen = True try: reader = PlistReader(pathOrFile) result = reader.parse() except NotBinaryPlistException as e: try: pathOrFile.seek(0) result = plistlib.readPlist(pathOrFile) result = wrapDataObject(result, for_binary=True) except Exception as e: raise InvalidPlistException(e) if didOpen: pathOrFile.close() return result def wrapDataObject(o, for_binary=False): if isinstance(o, Data) and not for_binary: o = plistlib.Data(o) elif isinstance(o, plistlib.Data) and for_binary: 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) return plistlib.writePlist(rootObject, pathOrFile) else: didOpen = False if isinstance(pathOrFile, (six.binary_type, six.text_type)): pathOrFile = open(pathOrFile, 'wb') didOpen = True writer = PlistWriter(pathOrFile) result = writer.writeRoot(rootObject) if didOpen: pathOrFile.close() return result def readPlistFromString(data): return readPlist(six.BytesIO(data)) def writePlistToString(rootObject, binary=True): if not binary: rootObject = wrapDataObject(rootObject, binary) if six.PY3: return plistlib.writePlistToBytes(rootObject) else: return plistlib.writePlistToString(rootObject) else: io = BytesIO() writer = PlistWriter(io) writer.writeRoot(rootObject) return io.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 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 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)) offset_size = self.trailer.offsetSize * self.trailer.offsetCount offset = self.trailer.offsetTableOffset offset_contents = self.contents[offset:offset+offset_size] offset_i = 0 while offset_i < self.trailer.offsetCount: begin = self.trailer.offsetSize*offset_i tmp_contents = offset_contents[begin:begin+self.trailer.offsetSize] 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): self.currentOffset = self.offsets[objectNumber] def readObject(self): result = None tmp_byte = self.contents[self.currentOffset:self.currentOffset+1] 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: #self.currentOffset += 1 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: extra = proc_extra(extra) result = self.readInteger(pow(2, extra)) # real elif format == 0b0010: extra = proc_extra(extra) 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))) return result def readInteger(self, bytes): result = 0 original_offset = self.currentOffset data = self.contents[self.currentOffset:self.currentOffset+bytes] result = self.getSizedInteger(data, bytes) self.currentOffset = original_offset + bytes return result def readReal(self, length): result = 0.0 to_read = pow(2, length) data = self.contents[self.currentOffset:self.currentOffset+to_read] 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.contents[self.currentOffset:self.currentOffset+self.trailer.objectRefSize] ref = self.getSizedInteger(fragment, len(fragment)) refs.append(ref) self.currentOffset += self.trailer.objectRefSize i += 1 return refs def readArray(self, count): 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): 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): result = unpack("!%ds" % length, self.contents[self.currentOffset:self.currentOffset+length])[0] self.currentOffset += length return result def readUnicode(self, length): actual_length = length*2 data = self.contents[self.currentOffset:self.currentOffset+actual_length] # unpack not needed?!! data = unpack(">%ds" % (actual_length), data)[0] self.currentOffset += actual_length return data.decode('utf_16_be') def readDate(self): global apple_reference_date_offset result = unpack(">d", self.contents[self.currentOffset:self.currentOffset+8])[0] result = datetime.datetime.utcfromtimestamp(result + apple_reference_date_offset) self.currentOffset += 8 return result def readData(self, length): result = self.contents[self.currentOffset:self.currentOffset+length] self.currentOffset += length return Data(result) def readUid(self, length): return Uid(self.readInteger(length+1)) def getSizedInteger(self, data, bytes): result = 0 # 1, 2, and 4 byte integers are unsigned if bytes == 1: result = unpack('>B', data)[0] elif bytes == 2: result = unpack('>H', data)[0] elif bytes == 4: result = unpack('>L', data)[0] elif bytes == 8: result = unpack('>q', data)[0] else: raise InvalidPlistException("Encountered integer longer than 8 bytes.") return result class HashableWrapper(object): def __init__(self, value): self.value = value def __repr__(self): return "" % [self.value] class BoolWrapper(object): def __init__(self, value): self.value = value def __repr__(self): return "" % self.value # Libraries end here, program starts # Written by Dhiru Kholia in September of 2012 # My code is under "Simplified BSD License" # Adapted by Niklas Hennigs for hashcat January 2014 import binascii import getpass import os def process_file(filename): try: p1 = readPlist(filename) except IOError, e: print >> sys.stderr, "%s : %s" % (filename, str(e)) return -1 except InvalidPlistException: print >> sys.stderr, "%s is not a plist file!" % filename return -1 s = StringIO(p1.get('ShadowHashData', [None])[0]) if not s: sys.stderr.write("%s : could not find ShadowHashData\n" % filename) return -2 try: p2 = readPlist(s) except Exception: e = sys.exc_info()[1] sys.stderr.write("%s : %s\n" % (filename, str(e))) return -3 d = p2.get('SALTED-SHA512-PBKDF2', None) if not d: sys.stderr.write("%s does not contain SALTED-SHA512-PBKDF2\n" % filename) return -4 salt = d.get('salt') entropy = d.get('entropy') iterations = d.get('iterations') salth = binascii.hexlify(salt) entropyh = binascii.hexlify(entropy) name = p1.get('name', ["user"])[0] sys.stdout.write("%s:$ml$%d$%s$%s\n" % \ (name, iterations, salth, entropyh[0:128])) # from passlib.hash import grub_pbkdf2_sha512 # hash = grub_pbkdf2_sha512.encrypt("password", rounds=iterations, salt=salt) # print hash if __name__ == "__main__": if len(sys.argv) < 2: print >> sys.stderr, "Usage: %s \nUse with hashcat's '--username' option\nPlist: /private/var/db/dslocal/nodes/Default/users/%s.plist" % (os.path.basename(__file__), getpass.getuser()) sys.exit(-1) for i in range(1, len(sys.argv)): process_file(sys.argv[i])