import copy import math import operator import sys import typing as t import warnings from functools import partial from functools import update_wrapper from .wsgi import ClosingIterator if t.TYPE_CHECKING: from _typeshed.wsgi import StartResponse from _typeshed.wsgi import WSGIApplication from _typeshed.wsgi import WSGIEnvironment F = t.TypeVar("F", bound=t.Callable[..., t.Any]) try: from greenlet import getcurrent as _get_ident except ImportError: from threading import get_ident as _get_ident def get_ident() -> int: warnings.warn( "'get_ident' is deprecated and will be removed in Werkzeug" " 2.1. Use 'greenlet.getcurrent' or 'threading.get_ident' for" " previous behavior.", DeprecationWarning, stacklevel=2, ) return _get_ident() # type: ignore class _CannotUseContextVar(Exception): pass try: from contextvars import ContextVar if "gevent" in sys.modules or "eventlet" in sys.modules: # Both use greenlet, so first check it has patched # ContextVars, Greenlet <0.4.17 does not. import greenlet greenlet_patched = getattr(greenlet, "GREENLET_USE_CONTEXT_VARS", False) if not greenlet_patched: # If Gevent is used, check it has patched ContextVars, # <20.5 does not. try: from gevent.monkey import is_object_patched except ImportError: # Gevent isn't used, but Greenlet is and hasn't patched raise _CannotUseContextVar() else: if is_object_patched("threading", "local") and not is_object_patched( "contextvars", "ContextVar" ): raise _CannotUseContextVar() except (ImportError, _CannotUseContextVar): class ContextVar: # type: ignore """A fake ContextVar based on the previous greenlet/threading ident function. Used on Python 3.6, eventlet, and old versions of gevent. """ def __init__(self, _name: str) -> None: self.storage: t.Dict[int, t.Dict[str, t.Any]] = {} def get(self, default: t.Dict[str, t.Any]) -> t.Dict[str, t.Any]: return self.storage.get(_get_ident(), default) def set(self, value: t.Dict[str, t.Any]) -> None: self.storage[_get_ident()] = value def release_local(local: t.Union["Local", "LocalStack"]) -> None: """Releases the contents of the local for the current context. This makes it possible to use locals without a manager. Example:: >>> loc = Local() >>> loc.foo = 42 >>> release_local(loc) >>> hasattr(loc, 'foo') False With this function one can release :class:`Local` objects as well as :class:`LocalStack` objects. However it is not possible to release data held by proxies that way, one always has to retain a reference to the underlying local object in order to be able to release it. .. versionadded:: 0.6.1 """ local.__release_local__() class Local: __slots__ = ("_storage",) def __init__(self) -> None: object.__setattr__(self, "_storage", ContextVar("local_storage")) @property def __storage__(self) -> t.Dict[str, t.Any]: warnings.warn( "'__storage__' is deprecated and will be removed in Werkzeug 2.1.", DeprecationWarning, stacklevel=2, ) return self._storage.get({}) # type: ignore @property def __ident_func__(self) -> t.Callable[[], int]: warnings.warn( "'__ident_func__' is deprecated and will be removed in" " Werkzeug 2.1. It should not be used in Python 3.7+.", DeprecationWarning, stacklevel=2, ) return _get_ident # type: ignore @__ident_func__.setter def __ident_func__(self, func: t.Callable[[], int]) -> None: warnings.warn( "'__ident_func__' is deprecated and will be removed in" " Werkzeug 2.1. Setting it no longer has any effect.", DeprecationWarning, stacklevel=2, ) def __iter__(self) -> t.Iterator[t.Tuple[int, t.Any]]: return iter(self._storage.get({}).items()) def __call__(self, proxy: str) -> "LocalProxy": """Create a proxy for a name.""" return LocalProxy(self, proxy) def __release_local__(self) -> None: self._storage.set({}) def __getattr__(self, name: str) -> t.Any: values = self._storage.get({}) try: return values[name] except KeyError: raise AttributeError(name) def __setattr__(self, name: str, value: t.Any) -> None: values = self._storage.get({}).copy() values[name] = value self._storage.set(values) def __delattr__(self, name: str) -> None: values = self._storage.get({}).copy() try: del values[name] self._storage.set(values) except KeyError: raise AttributeError(name) class LocalStack: """This class works similar to a :class:`Local` but keeps a stack of objects instead. This is best explained with an example:: >>> ls = LocalStack() >>> ls.push(42) >>> ls.top 42 >>> ls.push(23) >>> ls.top 23 >>> ls.pop() 23 >>> ls.top 42 They can be force released by using a :class:`LocalManager` or with the :func:`release_local` function but the correct way is to pop the item from the stack after using. When the stack is empty it will no longer be bound to the current context (and as such released). By calling the stack without arguments it returns a proxy that resolves to the topmost item on the stack. .. versionadded:: 0.6.1 """ def __init__(self) -> None: self._local = Local() def __release_local__(self) -> None: self._local.__release_local__() @property def __ident_func__(self) -> t.Callable[[], int]: return self._local.__ident_func__ @__ident_func__.setter def __ident_func__(self, value: t.Callable[[], int]) -> None: object.__setattr__(self._local, "__ident_func__", value) def __call__(self) -> "LocalProxy": def _lookup() -> t.Any: rv = self.top if rv is None: raise RuntimeError("object unbound") return rv return LocalProxy(_lookup) def push(self, obj: t.Any) -> t.List[t.Any]: """Pushes a new item to the stack""" rv = getattr(self._local, "stack", []).copy() rv.append(obj) self._local.stack = rv return rv # type: ignore def pop(self) -> t.Any: """Removes the topmost item from the stack, will return the old value or `None` if the stack was already empty. """ stack = getattr(self._local, "stack", None) if stack is None: return None elif len(stack) == 1: release_local(self._local) return stack[-1] else: return stack.pop() @property def top(self) -> t.Any: """The topmost item on the stack. If the stack is empty, `None` is returned. """ try: return self._local.stack[-1] except (AttributeError, IndexError): return None class LocalManager: """Local objects cannot manage themselves. For that you need a local manager. You can pass a local manager multiple locals or add them later y appending them to `manager.locals`. Every time the manager cleans up, it will clean up all the data left in the locals for this context. .. versionchanged:: 2.0 ``ident_func`` is deprecated and will be removed in Werkzeug 2.1. .. versionchanged:: 0.6.1 The :func:`release_local` function can be used instead of a manager. .. versionchanged:: 0.7 The ``ident_func`` parameter was added. """ def __init__( self, locals: t.Optional[t.Iterable[t.Union[Local, LocalStack]]] = None, ident_func: None = None, ) -> None: if locals is None: self.locals = [] elif isinstance(locals, Local): self.locals = [locals] else: self.locals = list(locals) if ident_func is not None: warnings.warn( "'ident_func' is deprecated and will be removed in" " Werkzeug 2.1. Setting it no longer has any effect.", DeprecationWarning, stacklevel=2, ) @property def ident_func(self) -> t.Callable[[], int]: warnings.warn( "'ident_func' is deprecated and will be removed in Werkzeug 2.1.", DeprecationWarning, stacklevel=2, ) return _get_ident # type: ignore @ident_func.setter def ident_func(self, func: t.Callable[[], int]) -> None: warnings.warn( "'ident_func' is deprecated and will be removedin Werkzeug" " 2.1. Setting it no longer has any effect.", DeprecationWarning, stacklevel=2, ) def get_ident(self) -> int: """Return the context identifier the local objects use internally for this context. You cannot override this method to change the behavior but use it to link other context local objects (such as SQLAlchemy's scoped sessions) to the Werkzeug locals. .. deprecated:: 2.0 Will be removed in Werkzeug 2.1. .. versionchanged:: 0.7 You can pass a different ident function to the local manager that will then be propagated to all the locals passed to the constructor. """ warnings.warn( "'get_ident' is deprecated and will be removed in Werkzeug 2.1.", DeprecationWarning, stacklevel=2, ) return self.ident_func() def cleanup(self) -> None: """Manually clean up the data in the locals for this context. Call this at the end of the request or use `make_middleware()`. """ for local in self.locals: release_local(local) def make_middleware(self, app: "WSGIApplication") -> "WSGIApplication": """Wrap a WSGI application so that cleaning up happens after request end. """ def application( environ: "WSGIEnvironment", start_response: "StartResponse" ) -> t.Iterable[bytes]: return ClosingIterator(app(environ, start_response), self.cleanup) return application def middleware(self, func: "WSGIApplication") -> "WSGIApplication": """Like `make_middleware` but for decorating functions. Example usage:: @manager.middleware def application(environ, start_response): ... The difference to `make_middleware` is that the function passed will have all the arguments copied from the inner application (name, docstring, module). """ return update_wrapper(self.make_middleware(func), func) def __repr__(self) -> str: return f"<{type(self).__name__} storages: {len(self.locals)}>" class _ProxyLookup: """Descriptor that handles proxied attribute lookup for :class:`LocalProxy`. :param f: The built-in function this attribute is accessed through. Instead of looking up the special method, the function call is redone on the object. :param fallback: Call this method if the proxy is unbound instead of raising a :exc:`RuntimeError`. :param class_value: Value to return when accessed from the class. Used for ``__doc__`` so building docs still works. """ __slots__ = ("bind_f", "fallback", "class_value", "name") def __init__( self, f: t.Optional[t.Callable] = None, fallback: t.Optional[t.Callable] = None, class_value: t.Optional[t.Any] = None, ) -> None: bind_f: t.Optional[t.Callable[["LocalProxy", t.Any], t.Callable]] if hasattr(f, "__get__"): # A Python function, can be turned into a bound method. def bind_f(instance: "LocalProxy", obj: t.Any) -> t.Callable: return f.__get__(obj, type(obj)) # type: ignore elif f is not None: # A C function, use partial to bind the first argument. def bind_f(instance: "LocalProxy", obj: t.Any) -> t.Callable: return partial(f, obj) # type: ignore else: # Use getattr, which will produce a bound method. bind_f = None self.bind_f = bind_f self.fallback = fallback self.class_value = class_value def __set_name__(self, owner: "LocalProxy", name: str) -> None: self.name = name def __get__(self, instance: "LocalProxy", owner: t.Optional[type] = None) -> t.Any: if instance is None: if self.class_value is not None: return self.class_value return self try: obj = instance._get_current_object() except RuntimeError: if self.fallback is None: raise return self.fallback.__get__(instance, owner) # type: ignore if self.bind_f is not None: return self.bind_f(instance, obj) return getattr(obj, self.name) def __repr__(self) -> str: return f"proxy {self.name}" def __call__(self, instance: "LocalProxy", *args: t.Any, **kwargs: t.Any) -> t.Any: """Support calling unbound methods from the class. For example, this happens with ``copy.copy``, which does ``type(x).__copy__(x)``. ``type(x)`` can't be proxied, so it returns the proxy type and descriptor. """ return self.__get__(instance, type(instance))(*args, **kwargs) class _ProxyIOp(_ProxyLookup): """Look up an augmented assignment method on a proxied object. The method is wrapped to return the proxy instead of the object. """ __slots__ = () def __init__( self, f: t.Optional[t.Callable] = None, fallback: t.Optional[t.Callable] = None ) -> None: super().__init__(f, fallback) def bind_f(instance: "LocalProxy", obj: t.Any) -> t.Callable: def i_op(self: t.Any, other: t.Any) -> "LocalProxy": f(self, other) # type: ignore return instance return i_op.__get__(obj, type(obj)) # type: ignore self.bind_f = bind_f def _l_to_r_op(op: F) -> F: """Swap the argument order to turn an l-op into an r-op.""" def r_op(obj: t.Any, other: t.Any) -> t.Any: return op(other, obj) return t.cast(F, r_op) class LocalProxy: """A proxy to the object bound to a :class:`Local`. All operations on the proxy are forwarded to the bound object. If no object is bound, a :exc:`RuntimeError` is raised. .. code-block:: python from werkzeug.local import Local l = Local() # a proxy to whatever l.user is set to user = l("user") from werkzeug.local import LocalStack _request_stack = LocalStack() # a proxy to _request_stack.top request = _request_stack() # a proxy to the session attribute of the request proxy session = LocalProxy(lambda: request.session) ``__repr__`` and ``__class__`` are forwarded, so ``repr(x)`` and ``isinstance(x, cls)`` will look like the proxied object. Use ``issubclass(type(x), LocalProxy)`` to check if an object is a proxy. .. code-block:: python repr(user) # isinstance(user, User) # True issubclass(type(user), LocalProxy) # True :param local: The :class:`Local` or callable that provides the proxied object. :param name: The attribute name to look up on a :class:`Local`. Not used if a callable is given. .. versionchanged:: 2.0 Updated proxied attributes and methods to reflect the current data model. .. versionchanged:: 0.6.1 The class can be instantiated with a callable. """ __slots__ = ("__local", "__name", "__wrapped__") def __init__( self, local: t.Union["Local", t.Callable[[], t.Any]], name: t.Optional[str] = None, ) -> None: object.__setattr__(self, "_LocalProxy__local", local) object.__setattr__(self, "_LocalProxy__name", name) if callable(local) and not hasattr(local, "__release_local__"): # "local" is a callable that is not an instance of Local or # LocalManager: mark it as a wrapped function. object.__setattr__(self, "__wrapped__", local) def _get_current_object(self) -> t.Any: """Return the current object. This is useful if you want the real object behind the proxy at a time for performance reasons or because you want to pass the object into a different context. """ if not hasattr(self.__local, "__release_local__"): # type: ignore return self.__local() # type: ignore try: return getattr(self.__local, self.__name) # type: ignore except AttributeError: raise RuntimeError(f"no object bound to {self.__name}") # type: ignore __doc__ = _ProxyLookup( # type: ignore class_value=__doc__, fallback=lambda self: type(self).__doc__ ) # __del__ should only delete the proxy __repr__ = _ProxyLookup( # type: ignore repr, fallback=lambda self: f"<{type(self).__name__} unbound>" ) __str__ = _ProxyLookup(str) # type: ignore __bytes__ = _ProxyLookup(bytes) __format__ = _ProxyLookup() # type: ignore __lt__ = _ProxyLookup(operator.lt) __le__ = _ProxyLookup(operator.le) __eq__ = _ProxyLookup(operator.eq) # type: ignore __ne__ = _ProxyLookup(operator.ne) # type: ignore __gt__ = _ProxyLookup(operator.gt) __ge__ = _ProxyLookup(operator.ge) __hash__ = _ProxyLookup(hash) # type: ignore __bool__ = _ProxyLookup(bool, fallback=lambda self: False) __getattr__ = _ProxyLookup(getattr) # __getattribute__ triggered through __getattr__ __setattr__ = _ProxyLookup(setattr) # type: ignore __delattr__ = _ProxyLookup(delattr) # type: ignore __dir__ = _ProxyLookup(dir, fallback=lambda self: []) # type: ignore # __get__ (proxying descriptor not supported) # __set__ (descriptor) # __delete__ (descriptor) # __set_name__ (descriptor) # __objclass__ (descriptor) # __slots__ used by proxy itself # __dict__ (__getattr__) # __weakref__ (__getattr__) # __init_subclass__ (proxying metaclass not supported) # __prepare__ (metaclass) __class__ = _ProxyLookup(fallback=lambda self: type(self)) # type: ignore __instancecheck__ = _ProxyLookup(lambda self, other: isinstance(other, self)) __subclasscheck__ = _ProxyLookup(lambda self, other: issubclass(other, self)) # __class_getitem__ triggered through __getitem__ __call__ = _ProxyLookup(lambda self, *args, **kwargs: self(*args, **kwargs)) __len__ = _ProxyLookup(len) __length_hint__ = _ProxyLookup(operator.length_hint) __getitem__ = _ProxyLookup(operator.getitem) __setitem__ = _ProxyLookup(operator.setitem) __delitem__ = _ProxyLookup(operator.delitem) # __missing__ triggered through __getitem__ __iter__ = _ProxyLookup(iter) __next__ = _ProxyLookup(next) __reversed__ = _ProxyLookup(reversed) __contains__ = _ProxyLookup(operator.contains) __add__ = _ProxyLookup(operator.add) __sub__ = _ProxyLookup(operator.sub) __mul__ = _ProxyLookup(operator.mul) __matmul__ = _ProxyLookup(operator.matmul) __truediv__ = _ProxyLookup(operator.truediv) __floordiv__ = _ProxyLookup(operator.floordiv) __mod__ = _ProxyLookup(operator.mod) __divmod__ = _ProxyLookup(divmod) __pow__ = _ProxyLookup(pow) __lshift__ = _ProxyLookup(operator.lshift) __rshift__ = _ProxyLookup(operator.rshift) __and__ = _ProxyLookup(operator.and_) __xor__ = _ProxyLookup(operator.xor) __or__ = _ProxyLookup(operator.or_) __radd__ = _ProxyLookup(_l_to_r_op(operator.add)) __rsub__ = _ProxyLookup(_l_to_r_op(operator.sub)) __rmul__ = _ProxyLookup(_l_to_r_op(operator.mul)) __rmatmul__ = _ProxyLookup(_l_to_r_op(operator.matmul)) __rtruediv__ = _ProxyLookup(_l_to_r_op(operator.truediv)) __rfloordiv__ = _ProxyLookup(_l_to_r_op(operator.floordiv)) __rmod__ = _ProxyLookup(_l_to_r_op(operator.mod)) __rdivmod__ = _ProxyLookup(_l_to_r_op(divmod)) __rpow__ = _ProxyLookup(_l_to_r_op(pow)) __rlshift__ = _ProxyLookup(_l_to_r_op(operator.lshift)) __rrshift__ = _ProxyLookup(_l_to_r_op(operator.rshift)) __rand__ = _ProxyLookup(_l_to_r_op(operator.and_)) __rxor__ = _ProxyLookup(_l_to_r_op(operator.xor)) __ror__ = _ProxyLookup(_l_to_r_op(operator.or_)) __iadd__ = _ProxyIOp(operator.iadd) __isub__ = _ProxyIOp(operator.isub) __imul__ = _ProxyIOp(operator.imul) __imatmul__ = _ProxyIOp(operator.imatmul) __itruediv__ = _ProxyIOp(operator.itruediv) __ifloordiv__ = _ProxyIOp(operator.ifloordiv) __imod__ = _ProxyIOp(operator.imod) __ipow__ = _ProxyIOp(operator.ipow) __ilshift__ = _ProxyIOp(operator.ilshift) __irshift__ = _ProxyIOp(operator.irshift) __iand__ = _ProxyIOp(operator.iand) __ixor__ = _ProxyIOp(operator.ixor) __ior__ = _ProxyIOp(operator.ior) __neg__ = _ProxyLookup(operator.neg) __pos__ = _ProxyLookup(operator.pos) __abs__ = _ProxyLookup(abs) __invert__ = _ProxyLookup(operator.invert) __complex__ = _ProxyLookup(complex) __int__ = _ProxyLookup(int) __float__ = _ProxyLookup(float) __index__ = _ProxyLookup(operator.index) __round__ = _ProxyLookup(round) __trunc__ = _ProxyLookup(math.trunc) __floor__ = _ProxyLookup(math.floor) __ceil__ = _ProxyLookup(math.ceil) __enter__ = _ProxyLookup() __exit__ = _ProxyLookup() __await__ = _ProxyLookup() __aiter__ = _ProxyLookup() __anext__ = _ProxyLookup() __aenter__ = _ProxyLookup() __aexit__ = _ProxyLookup() __copy__ = _ProxyLookup(copy.copy) __deepcopy__ = _ProxyLookup(copy.deepcopy) # __getnewargs_ex__ (pickle through proxy not supported) # __getnewargs__ (pickle) # __getstate__ (pickle) # __setstate__ (pickle) # __reduce__ (pickle) # __reduce_ex__ (pickle)