Linux web-conference.aiou.edu.pk 5.4.0-204-generic #224-Ubuntu SMP Thu Dec 5 13:38:28 UTC 2024 x86_64
Apache/2.4.41 (Ubuntu)
: 172.16.50.247 | : 3.15.192.89
Cant Read [ /etc/named.conf ]
7.4.3-4ubuntu2.28
appadmin
www.github.com/MadExploits
Terminal
AUTO ROOT
Adminer
Backdoor Destroyer
Linux Exploit
Lock Shell
Lock File
Create User
CREATE RDP
PHP Mailer
BACKCONNECT
UNLOCK SHELL
HASH IDENTIFIER
CPANEL RESET
CREATE WP USER
BLACK DEFEND!
README
+ Create Folder
+ Create File
/
usr /
lib /
python3 /
dist-packages /
twisted /
persisted /
[ HOME SHELL ]
Name
Size
Permission
Action
__pycache__
[ DIR ]
drwxr-xr-x
test
[ DIR ]
drwxr-xr-x
__init__.py
136
B
-rw-r--r--
aot.py
18.17
KB
-rw-r--r--
crefutil.py
4.27
KB
-rw-r--r--
dirdbm.py
9.9
KB
-rw-r--r--
sob.py
5.08
KB
-rw-r--r--
styles.py
13.18
KB
-rw-r--r--
Delete
Unzip
Zip
${this.title}
Close
Code Editor : styles.py
# -*- test-case-name: twisted.test.test_persisted -*- # Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. """ Different styles of persisted objects. """ from __future__ import division, absolute_import # System Imports import types import pickle try: import copy_reg except ImportError: import copyreg as copy_reg import copy import inspect from twisted.python.compat import _PY3, _PYPY # Twisted Imports from twisted.python import log from twisted.python import reflect oldModules = {} try: import cPickle except ImportError: cPickle = None if cPickle is None or cPickle.PicklingError is pickle.PicklingError: _UniversalPicklingError = pickle.PicklingError else: class _UniversalPicklingError(pickle.PicklingError, cPickle.PicklingError): """ A PicklingError catchable by both L{cPickle.PicklingError} and L{pickle.PicklingError} handlers. """ ## First, let's register support for some stuff that really ought to ## be registerable... def pickleMethod(method): 'support function for copy_reg to pickle method refs' if _PY3: return (unpickleMethod, (method.__name__, method.__self__, method.__self__.__class__)) else: return (unpickleMethod, (method.im_func.__name__, method.im_self, method.im_class)) def _methodFunction(classObject, methodName): """ Retrieve the function object implementing a method name given the class it's on and a method name. @param classObject: A class to retrieve the method's function from. @type classObject: L{type} or L{types.ClassType} @param methodName: The name of the method whose function to retrieve. @type methodName: native L{str} @return: the function object corresponding to the given method name. @rtype: L{types.FunctionType} """ methodObject = getattr(classObject, methodName) if _PY3: return methodObject return methodObject.im_func def unpickleMethod(im_name, im_self, im_class): """ Support function for copy_reg to unpickle method refs. @param im_name: The name of the method. @type im_name: native L{str} @param im_self: The instance that the method was present on. @type im_self: L{object} @param im_class: The class where the method was declared. @type im_class: L{types.ClassType} or L{type} or L{None} """ if im_self is None: return getattr(im_class, im_name) try: methodFunction = _methodFunction(im_class, im_name) except AttributeError: log.msg("Method", im_name, "not on class", im_class) assert im_self is not None, "No recourse: no instance to guess from." # Attempt a last-ditch fix before giving up. If classes have changed # around since we pickled this method, we may still be able to get it # by looking on the instance's current class. if im_self.__class__ is im_class: raise return unpickleMethod(im_name, im_self, im_self.__class__) else: if _PY3: maybeClass = () else: maybeClass = tuple([im_class]) bound = types.MethodType(methodFunction, im_self, *maybeClass) return bound copy_reg.pickle(types.MethodType, pickleMethod, unpickleMethod) def _pickleFunction(f): """ Reduce, in the sense of L{pickle}'s C{object.__reduce__} special method, a function object into its constituent parts. @param f: The function to reduce. @type f: L{types.FunctionType} @return: a 2-tuple of a reference to L{_unpickleFunction} and a tuple of its arguments, a 1-tuple of the function's fully qualified name. @rtype: 2-tuple of C{callable, native string} """ if f.__name__ == '<lambda>': raise _UniversalPicklingError( "Cannot pickle lambda function: {}".format(f)) return (_unpickleFunction, tuple([".".join([f.__module__, f.__qualname__])])) def _unpickleFunction(fullyQualifiedName): """ Convert a function name into a function by importing it. This is a synonym for L{twisted.python.reflect.namedAny}, but imported locally to avoid circular imports, and also to provide a persistent name that can be stored (and deprecated) independently of C{namedAny}. @param fullyQualifiedName: The fully qualified name of a function. @type fullyQualifiedName: native C{str} @return: A function object imported from the given location. @rtype: L{types.FunctionType} """ from twisted.python.reflect import namedAny return namedAny(fullyQualifiedName) copy_reg.pickle(types.FunctionType, _pickleFunction, _unpickleFunction) def pickleModule(module): 'support function for copy_reg to pickle module refs' return unpickleModule, (module.__name__,) def unpickleModule(name): 'support function for copy_reg to unpickle module refs' if name in oldModules: log.msg("Module has moved: %s" % name) name = oldModules[name] log.msg(name) return __import__(name,{},{},'x') copy_reg.pickle(types.ModuleType, pickleModule, unpickleModule) def pickleStringO(stringo): """ Reduce the given cStringO. This is only called on Python 2, because the cStringIO module only exists on Python 2. @param stringo: The string output to pickle. @type stringo: L{cStringIO.OutputType} """ 'support function for copy_reg to pickle StringIO.OutputTypes' return unpickleStringO, (stringo.getvalue(), stringo.tell()) def unpickleStringO(val, sek): """ Convert the output of L{pickleStringO} into an appropriate type for the current python version. This may be called on Python 3 and will convert a cStringIO into an L{io.StringIO}. @param val: The content of the file. @type val: L{bytes} @param sek: The seek position of the file. @type sek: L{int} @return: a file-like object which you can write bytes to. @rtype: L{cStringIO.OutputType} on Python 2, L{io.StringIO} on Python 3. """ x = _cStringIO() x.write(val) x.seek(sek) return x def pickleStringI(stringi): """ Reduce the given cStringI. This is only called on Python 2, because the cStringIO module only exists on Python 2. @param stringi: The string input to pickle. @type stringi: L{cStringIO.InputType} @return: a 2-tuple of (C{unpickleStringI}, (bytes, pointer)) @rtype: 2-tuple of (function, (bytes, int)) """ return unpickleStringI, (stringi.getvalue(), stringi.tell()) def unpickleStringI(val, sek): """ Convert the output of L{pickleStringI} into an appropriate type for the current Python version. This may be called on Python 3 and will convert a cStringIO into an L{io.StringIO}. @param val: The content of the file. @type val: L{bytes} @param sek: The seek position of the file. @type sek: L{int} @return: a file-like object which you can read bytes from. @rtype: L{cStringIO.OutputType} on Python 2, L{io.StringIO} on Python 3. """ x = _cStringIO(val) x.seek(sek) return x try: from cStringIO import InputType, OutputType, StringIO as _cStringIO except ImportError: from io import StringIO as _cStringIO else: copy_reg.pickle(OutputType, pickleStringO, unpickleStringO) copy_reg.pickle(InputType, pickleStringI, unpickleStringI) class Ephemeral: """ This type of object is never persisted; if possible, even references to it are eliminated. """ def __reduce__(self): """ Serialize any subclass of L{Ephemeral} in a way which replaces it with L{Ephemeral} itself. """ return (Ephemeral, ()) def __getstate__(self): log.msg( "WARNING: serializing ephemeral %s" % self ) if not _PYPY: import gc if getattr(gc, 'get_referrers', None): for r in gc.get_referrers(self): log.msg( " referred to by %s" % (r,)) return None def __setstate__(self, state): log.msg( "WARNING: unserializing ephemeral %s" % self.__class__ ) self.__class__ = Ephemeral versionedsToUpgrade = {} upgraded = {} def doUpgrade(): global versionedsToUpgrade, upgraded for versioned in list(versionedsToUpgrade.values()): requireUpgrade(versioned) versionedsToUpgrade = {} upgraded = {} def requireUpgrade(obj): """Require that a Versioned instance be upgraded completely first. """ objID = id(obj) if objID in versionedsToUpgrade and objID not in upgraded: upgraded[objID] = 1 obj.versionUpgrade() return obj def _aybabtu(c): """ Get all of the parent classes of C{c}, not including C{c} itself, which are strict subclasses of L{Versioned}. @param c: a class @returns: list of classes """ # begin with two classes that should *not* be included in the # final result l = [c, Versioned] for b in inspect.getmro(c): if b not in l and issubclass(b, Versioned): l.append(b) # return all except the unwanted classes return l[2:] class Versioned: """ This type of object is persisted with versioning information. I have a single class attribute, the int persistenceVersion. After I am unserialized (and styles.doUpgrade() is called), self.upgradeToVersionX() will be called for each version upgrade I must undergo. For example, if I serialize an instance of a Foo(Versioned) at version 4 and then unserialize it when the code is at version 9, the calls:: self.upgradeToVersion5() self.upgradeToVersion6() self.upgradeToVersion7() self.upgradeToVersion8() self.upgradeToVersion9() will be made. If any of these methods are undefined, a warning message will be printed. """ persistenceVersion = 0 persistenceForgets = () def __setstate__(self, state): versionedsToUpgrade[id(self)] = self self.__dict__ = state def __getstate__(self, dict=None): """Get state, adding a version number to it on its way out. """ dct = copy.copy(dict or self.__dict__) bases = _aybabtu(self.__class__) bases.reverse() bases.append(self.__class__) # don't forget me!! for base in bases: if 'persistenceForgets' in base.__dict__: for slot in base.persistenceForgets: if slot in dct: del dct[slot] if 'persistenceVersion' in base.__dict__: dct['%s.persistenceVersion' % reflect.qual(base)] = base.persistenceVersion return dct def versionUpgrade(self): """(internal) Do a version upgrade. """ bases = _aybabtu(self.__class__) # put the bases in order so superclasses' persistenceVersion methods # will be called first. bases.reverse() bases.append(self.__class__) # don't forget me!! # first let's look for old-skool versioned's if "persistenceVersion" in self.__dict__: # Hacky heuristic: if more than one class subclasses Versioned, # we'll assume that the higher version number wins for the older # class, so we'll consider the attribute the version of the older # class. There are obviously possibly times when this will # eventually be an incorrect assumption, but hopefully old-school # persistenceVersion stuff won't make it that far into multiple # classes inheriting from Versioned. pver = self.__dict__['persistenceVersion'] del self.__dict__['persistenceVersion'] highestVersion = 0 highestBase = None for base in bases: if 'persistenceVersion' not in base.__dict__: continue if base.persistenceVersion > highestVersion: highestBase = base highestVersion = base.persistenceVersion if highestBase: self.__dict__['%s.persistenceVersion' % reflect.qual(highestBase)] = pver for base in bases: # ugly hack, but it's what the user expects, really if (Versioned not in base.__bases__ and 'persistenceVersion' not in base.__dict__): continue currentVers = base.persistenceVersion pverName = '%s.persistenceVersion' % reflect.qual(base) persistVers = (self.__dict__.get(pverName) or 0) if persistVers: del self.__dict__[pverName] assert persistVers <= currentVers, "Sorry, can't go backwards in time." while persistVers < currentVers: persistVers = persistVers + 1 method = base.__dict__.get('upgradeToVersion%s' % persistVers, None) if method: log.msg( "Upgrading %s (of %s @ %s) to version %s" % (reflect.qual(base), reflect.qual(self.__class__), id(self), persistVers) ) method(self) else: log.msg( 'Warning: cannot upgrade %s to version %s' % (base, persistVers) )
Close
