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Direktori : /proc/thread-self/root/usr/lib/python3/dist-packages/twisted/persisted/ |
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# -*- test-case-name: twisted.test.test_persisted -*- # Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. """ AOT: Abstract Object Trees The source-code-marshallin'est abstract-object-serializin'est persister this side of Marmalade! """ import copyreg as copy_reg import re import types from tokenize import generate_tokens as tokenize from twisted.persisted import crefutil from twisted.python import log, reflect from twisted.python.compat import _constructMethod ########################### # Abstract Object Classes # ########################### # "\0" in a getSource means "insert variable-width indention here". # see `indentify'. class Named: def __init__(self, name): self.name = name class Class(Named): def getSource(self): return "Class(%r)" % self.name class Function(Named): def getSource(self): return "Function(%r)" % self.name class Module(Named): def getSource(self): return "Module(%r)" % self.name class InstanceMethod: def __init__(self, name, klass, inst): if not ( isinstance(inst, Ref) or isinstance(inst, Instance) or isinstance(inst, Deref) ): raise TypeError("%s isn't an Instance, Ref, or Deref!" % inst) self.name = name self.klass = klass self.instance = inst def getSource(self): return "InstanceMethod({!r}, {!r}, \n\0{})".format( self.name, self.klass, prettify(self.instance), ) class _NoStateObj: pass NoStateObj = _NoStateObj() _SIMPLE_BUILTINS = [ bool, bytes, str, int, float, complex, type(None), slice, type(Ellipsis), ] class Instance: def __init__(self, className, __stateObj__=NoStateObj, **state): if not isinstance(className, str): raise TypeError("%s isn't a string!" % className) self.klass = className if __stateObj__ is not NoStateObj: self.state = __stateObj__ self.stateIsDict = 0 else: self.state = state self.stateIsDict = 1 def getSource(self): # XXX make state be foo=bar instead of a dict. if self.stateIsDict: stateDict = self.state elif isinstance(self.state, Ref) and isinstance(self.state.obj, dict): stateDict = self.state.obj else: stateDict = None if stateDict is not None: try: return f"Instance({self.klass!r}, {dictToKW(stateDict)})" except NonFormattableDict: return f"Instance({self.klass!r}, {prettify(stateDict)})" return f"Instance({self.klass!r}, {prettify(self.state)})" class Ref: def __init__(self, *args): # blargh, lame. if len(args) == 2: self.refnum = args[0] self.obj = args[1] elif not args: self.refnum = None self.obj = None def setRef(self, num): if self.refnum: raise ValueError(f"Error setting id {num}, I already have {self.refnum}") self.refnum = num def setObj(self, obj): if self.obj: raise ValueError(f"Error setting obj {obj}, I already have {self.obj}") self.obj = obj def getSource(self): if self.obj is None: raise RuntimeError( "Don't try to display me before setting an object on me!" ) if self.refnum: return "Ref(%d, \n\0%s)" % (self.refnum, prettify(self.obj)) return prettify(self.obj) class Deref: def __init__(self, num): self.refnum = num def getSource(self): return "Deref(%d)" % self.refnum __repr__ = getSource class Copyreg: def __init__(self, loadfunc, state): self.loadfunc = loadfunc self.state = state def getSource(self): return f"Copyreg({self.loadfunc!r}, {prettify(self.state)})" ############### # Marshalling # ############### def getSource(ao): """Pass me an AO, I'll return a nicely-formatted source representation.""" return indentify("app = " + prettify(ao)) class NonFormattableDict(Exception): """A dictionary was not formattable.""" r = re.compile("[a-zA-Z_][a-zA-Z0-9_]*$") def dictToKW(d): out = [] items = list(d.items()) items.sort() for k, v in items: if not isinstance(k, str): raise NonFormattableDict("%r ain't a string" % k) if not r.match(k): raise NonFormattableDict("%r ain't an identifier" % k) out.append(f"\n\0{k}={prettify(v)},") return "".join(out) def prettify(obj): if hasattr(obj, "getSource"): return obj.getSource() else: # basic type t = type(obj) if t in _SIMPLE_BUILTINS: return repr(obj) elif t is dict: out = ["{"] for k, v in obj.items(): out.append(f"\n\0{prettify(k)}: {prettify(v)},") out.append(len(obj) and "\n\0}" or "}") return "".join(out) elif t is list: out = ["["] for x in obj: out.append("\n\0%s," % prettify(x)) out.append(len(obj) and "\n\0]" or "]") return "".join(out) elif t is tuple: out = ["("] for x in obj: out.append("\n\0%s," % prettify(x)) out.append(len(obj) and "\n\0)" or ")") return "".join(out) else: raise TypeError(f"Unsupported type {t} when trying to prettify {obj}.") def indentify(s): out = [] stack = [] l = ["", s] for ( tokenType, tokenString, (startRow, startColumn), (endRow, endColumn), logicalLine, ) in tokenize(l.pop): if tokenString in ["[", "(", "{"]: stack.append(tokenString) elif tokenString in ["]", ")", "}"]: stack.pop() if tokenString == "\0": out.append(" " * len(stack)) else: out.append(tokenString) return "".join(out) ########### # Unjelly # ########### def unjellyFromAOT(aot): """ Pass me an Abstract Object Tree, and I'll unjelly it for you. """ return AOTUnjellier().unjelly(aot) def unjellyFromSource(stringOrFile): """ Pass me a string of code or a filename that defines an 'app' variable (in terms of Abstract Objects!), and I'll execute it and unjelly the resulting AOT for you, returning a newly unpersisted Application object! """ ns = { "Instance": Instance, "InstanceMethod": InstanceMethod, "Class": Class, "Function": Function, "Module": Module, "Ref": Ref, "Deref": Deref, "Copyreg": Copyreg, } if hasattr(stringOrFile, "read"): source = stringOrFile.read() else: source = stringOrFile code = compile(source, "<source>", "exec") eval(code, ns, ns) if "app" in ns: return unjellyFromAOT(ns["app"]) else: raise ValueError("%s needs to define an 'app', it didn't!" % stringOrFile) class AOTUnjellier: """I handle the unjellying of an Abstract Object Tree. See AOTUnjellier.unjellyAO """ def __init__(self): self.references = {} self.stack = [] self.afterUnjelly = [] ## # unjelly helpers (copied pretty much directly from (now deleted) marmalade) ## def unjellyLater(self, node): """Unjelly a node, later.""" d = crefutil._Defer() self.unjellyInto(d, 0, node) return d def unjellyInto(self, obj, loc, ao): """Utility method for unjellying one object into another. This automates the handling of backreferences. """ o = self.unjellyAO(ao) obj[loc] = o if isinstance(o, crefutil.NotKnown): o.addDependant(obj, loc) return o def callAfter(self, callable, result): if isinstance(result, crefutil.NotKnown): listResult = [None] result.addDependant(listResult, 1) else: listResult = [result] self.afterUnjelly.append((callable, listResult)) def unjellyAttribute(self, instance, attrName, ao): # XXX this is unused???? """Utility method for unjellying into instances of attributes. Use this rather than unjellyAO unless you like surprising bugs! Alternatively, you can use unjellyInto on your instance's __dict__. """ self.unjellyInto(instance.__dict__, attrName, ao) def unjellyAO(self, ao): """Unjelly an Abstract Object and everything it contains. I return the real object. """ self.stack.append(ao) t = type(ao) if t in _SIMPLE_BUILTINS: return ao elif t is list: l = [] for x in ao: l.append(None) self.unjellyInto(l, len(l) - 1, x) return l elif t is tuple: l = [] tuple_ = tuple for x in ao: l.append(None) if isinstance(self.unjellyInto(l, len(l) - 1, x), crefutil.NotKnown): tuple_ = crefutil._Tuple return tuple_(l) elif t is dict: d = {} for k, v in ao.items(): kvd = crefutil._DictKeyAndValue(d) self.unjellyInto(kvd, 0, k) self.unjellyInto(kvd, 1, v) return d else: # Abstract Objects c = ao.__class__ if c is Module: return reflect.namedModule(ao.name) elif c in [Class, Function] or issubclass(c, type): return reflect.namedObject(ao.name) elif c is InstanceMethod: im_name = ao.name im_class = reflect.namedObject(ao.klass) im_self = self.unjellyAO(ao.instance) if im_name in im_class.__dict__: if im_self is None: return getattr(im_class, im_name) elif isinstance(im_self, crefutil.NotKnown): return crefutil._InstanceMethod(im_name, im_self, im_class) else: return _constructMethod(im_class, im_name, im_self) else: raise TypeError("instance method changed") elif c is Instance: klass = reflect.namedObject(ao.klass) state = self.unjellyAO(ao.state) inst = klass.__new__(klass) if hasattr(klass, "__setstate__"): self.callAfter(inst.__setstate__, state) else: inst.__dict__ = state return inst elif c is Ref: o = self.unjellyAO(ao.obj) # THIS IS CHANGING THE REF OMG refkey = ao.refnum ref = self.references.get(refkey) if ref is None: self.references[refkey] = o elif isinstance(ref, crefutil.NotKnown): ref.resolveDependants(o) self.references[refkey] = o elif refkey is None: # This happens when you're unjellying from an AOT not read from source pass else: raise ValueError( "Multiple references with the same ID: %s, %s, %s!" % (ref, refkey, ao) ) return o elif c is Deref: num = ao.refnum ref = self.references.get(num) if ref is None: der = crefutil._Dereference(num) self.references[num] = der return der return ref elif c is Copyreg: loadfunc = reflect.namedObject(ao.loadfunc) d = self.unjellyLater(ao.state).addCallback( lambda result, _l: _l(*result), loadfunc ) return d else: raise TypeError("Unsupported AOT type: %s" % t) def unjelly(self, ao): try: l = [None] self.unjellyInto(l, 0, ao) for func, v in self.afterUnjelly: func(v[0]) return l[0] except BaseException: log.msg("Error jellying object! Stacktrace follows::") log.msg("\n".join(map(repr, self.stack))) raise ######### # Jelly # ######### def jellyToAOT(obj): """Convert an object to an Abstract Object Tree.""" return AOTJellier().jelly(obj) def jellyToSource(obj, file=None): """ Pass me an object and, optionally, a file object. I'll convert the object to an AOT either return it (if no file was specified) or write it to the file. """ aot = jellyToAOT(obj) if file: file.write(getSource(aot).encode("utf-8")) else: return getSource(aot) def _classOfMethod(methodObject): """ Get the associated class of the given method object. @param methodObject: a bound method @type methodObject: L{types.MethodType} @return: a class @rtype: L{type} """ return methodObject.__self__.__class__ def _funcOfMethod(methodObject): """ Get the associated function of the given method object. @param methodObject: a bound method @type methodObject: L{types.MethodType} @return: the function implementing C{methodObject} @rtype: L{types.FunctionType} """ return methodObject.__func__ def _selfOfMethod(methodObject): """ Get the object that a bound method is bound to. @param methodObject: a bound method @type methodObject: L{types.MethodType} @return: the C{self} passed to C{methodObject} @rtype: L{object} """ return methodObject.__self__ class AOTJellier: def __init__(self): # dict of {id(obj): (obj, node)} self.prepared = {} self._ref_id = 0 self.stack = [] def prepareForRef(self, aoref, object): """I prepare an object for later referencing, by storing its id() and its _AORef in a cache.""" self.prepared[id(object)] = aoref def jellyToAO(self, obj): """I turn an object into an AOT and return it.""" objType = type(obj) self.stack.append(repr(obj)) # immutable: We don't care if these have multiple refs! if objType in _SIMPLE_BUILTINS: retval = obj elif issubclass(objType, types.MethodType): # TODO: make methods 'prefer' not to jelly the object internally, # so that the object will show up where it's referenced first NOT # by a method. retval = InstanceMethod( _funcOfMethod(obj).__name__, reflect.qual(_classOfMethod(obj)), self.jellyToAO(_selfOfMethod(obj)), ) elif issubclass(objType, types.ModuleType): retval = Module(obj.__name__) elif issubclass(objType, type): retval = Class(reflect.qual(obj)) elif objType is types.FunctionType: retval = Function(reflect.fullFuncName(obj)) else: # mutable! gotta watch for refs. # Marmalade had the nicety of being able to just stick a 'reference' attribute # on any Node object that was referenced, but in AOT, the referenced object # is *inside* of a Ref call (Ref(num, obj) instead of # <objtype ... reference="1">). The problem is, especially for built-in types, # I can't just assign some attribute to them to give them a refnum. So, I have # to "wrap" a Ref(..) around them later -- that's why I put *everything* that's # mutable inside one. The Ref() class will only print the "Ref(..)" around an # object if it has a Reference explicitly attached. if id(obj) in self.prepared: oldRef = self.prepared[id(obj)] if oldRef.refnum: # it's been referenced already key = oldRef.refnum else: # it hasn't been referenced yet self._ref_id = self._ref_id + 1 key = self._ref_id oldRef.setRef(key) return Deref(key) retval = Ref() def _stateFrom(state): retval.setObj( Instance(reflect.qual(obj.__class__), self.jellyToAO(state)) ) self.prepareForRef(retval, obj) if objType is list: retval.setObj([self.jellyToAO(o) for o in obj]) # hah! elif objType is tuple: retval.setObj(tuple(map(self.jellyToAO, obj))) elif objType is dict: d = {} for k, v in obj.items(): d[self.jellyToAO(k)] = self.jellyToAO(v) retval.setObj(d) elif objType in copy_reg.dispatch_table: unpickleFunc, state = copy_reg.dispatch_table[objType](obj) retval.setObj( Copyreg(reflect.fullFuncName(unpickleFunc), self.jellyToAO(state)) ) elif hasattr(obj, "__getstate__"): _stateFrom(obj.__getstate__()) elif hasattr(obj, "__dict__"): _stateFrom(obj.__dict__) else: raise TypeError("Unsupported type: %s" % objType.__name__) del self.stack[-1] return retval def jelly(self, obj): try: ao = self.jellyToAO(obj) return ao except BaseException: log.msg("Error jellying object! Stacktrace follows::") log.msg("\n".join(self.stack)) raise