GRAYBYTE | AutoShopMaker

Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

from __future__ import annotations import typing from collections import OrderedDict from enum import Enum, auto from threading import RLock if typing.TYPE_CHECKING: # We can only import Protocol if TYPE_CHECKING because it's a development # dependency, and is not available at runtime. from typing import Protocol from typing_extensions import Self class HasGettableStringKeys(Protocol): def keys(self) -> typing.Iterator[str]: ... def __getitem__(self, key: str) -> str: ... __all__ = ["RecentlyUsedContainer", "HTTPHeaderDict"] # Key type _KT = typing.TypeVar("_KT") # Value type _VT = typing.TypeVar("_VT") # Default type _DT = typing.TypeVar("_DT") ValidHTTPHeaderSource = typing.Union[ "HTTPHeaderDict", typing.Mapping[str, str], typing.Iterable[typing.Tuple[str, str]], "HasGettableStringKeys", ] class _Sentinel(Enum): not_passed = auto() def ensure_can_construct_http_header_dict( potential: object, ) -> ValidHTTPHeaderSource | None: if isinstance(potential, HTTPHeaderDict): return potential elif isinstance(potential, typing.Mapping): # Full runtime checking of the contents of a Mapping is expensive, so for the # purposes of typechecking, we assume that any Mapping is the right shape. return typing.cast(typing.Mapping[str, str], potential) elif isinstance(potential, typing.Iterable): # Similarly to Mapping, full runtime checking of the contents of an Iterable is # expensive, so for the purposes of typechecking, we assume that any Iterable # is the right shape. return typing.cast(typing.Iterable[typing.Tuple[str, str]], potential) elif hasattr(potential, "keys") and hasattr(potential, "__getitem__"): return typing.cast("HasGettableStringKeys", potential) else: return None class RecentlyUsedContainer(typing.Generic[_KT, _VT], typing.MutableMapping[_KT, _VT]): """ Provides a thread-safe dict-like container which maintains up to ``maxsize`` keys while throwing away the least-recently-used keys beyond ``maxsize``. :param maxsize: Maximum number of recent elements to retain. :param dispose_func: Every time an item is evicted from the container, ``dispose_func(value)`` is called. Callback which will get called """ _container: typing.OrderedDict[_KT, _VT] _maxsize: int dispose_func: typing.Callable[[_VT], None] | None lock: RLock def __init__( self, maxsize: int = 10, dispose_func: typing.Callable[[_VT], None] | None = None, ) -> None: super().__init__() self._maxsize = maxsize self.dispose_func = dispose_func self._container = OrderedDict() self.lock = RLock() def __getitem__(self, key: _KT) -> _VT: # Re-insert the item, moving it to the end of the eviction line. with self.lock: item = self._container.pop(key) self._container[key] = item return item def __setitem__(self, key: _KT, value: _VT) -> None: evicted_item = None with self.lock: # Possibly evict the existing value of 'key' try: # If the key exists, we'll overwrite it, which won't change the # size of the pool. Because accessing a key should move it to # the end of the eviction line, we pop it out first. evicted_item = key, self._container.pop(key) self._container[key] = value except KeyError: # When the key does not exist, we insert the value first so that # evicting works in all cases, including when self._maxsize is 0 self._container[key] = value if len(self._container) > self._maxsize: # If we didn't evict an existing value, and we've hit our maximum # size, then we have to evict the least recently used item from # the beginning of the container. evicted_item = self._container.popitem(last=False) # After releasing the lock on the pool, dispose of any evicted value. if evicted_item is not None and self.dispose_func: _, evicted_value = evicted_item self.dispose_func(evicted_value) def __delitem__(self, key: _KT) -> None: with self.lock: value = self._container.pop(key) if self.dispose_func: self.dispose_func(value) def __len__(self) -> int: with self.lock: return len(self._container) def __iter__(self) -> typing.NoReturn: raise NotImplementedError( "Iteration over this class is unlikely to be threadsafe." ) def clear(self) -> None: with self.lock: # Copy pointers to all values, then wipe the mapping values = list(self._container.values()) self._container.clear() if self.dispose_func: for value in values: self.dispose_func(value) def keys(self) -> set[_KT]: # type: ignore[override] with self.lock: return set(self._container.keys()) class HTTPHeaderDictItemView(typing.Set[typing.Tuple[str, str]]): """ HTTPHeaderDict is unusual for a Mapping[str, str] in that it has two modes of address. If we directly try to get an item with a particular name, we will get a string back that is the concatenated version of all the values: >>> d['X-Header-Name'] 'Value1, Value2, Value3' However, if we iterate over an HTTPHeaderDict's items, we will optionally combine these values based on whether combine=True was called when building up the dictionary >>> d = HTTPHeaderDict({"A": "1", "B": "foo"}) >>> d.add("A", "2", combine=True) >>> d.add("B", "bar") >>> list(d.items()) [ ('A', '1, 2'), ('B', 'foo'), ('B', 'bar'), ] This class conforms to the interface required by the MutableMapping ABC while also giving us the nonstandard iteration behavior we want; items with duplicate keys, ordered by time of first insertion. """ _headers: HTTPHeaderDict def __init__(self, headers: HTTPHeaderDict) -> None: self._headers = headers def __len__(self) -> int: return len(list(self._headers.iteritems())) def __iter__(self) -> typing.Iterator[tuple[str, str]]: return self._headers.iteritems() def __contains__(self, item: object) -> bool: if isinstance(item, tuple) and len(item) == 2: passed_key, passed_val = item if isinstance(passed_key, str) and isinstance(passed_val, str): return self._headers._has_value_for_header(passed_key, passed_val) return False class HTTPHeaderDict(typing.MutableMapping[str, str]): """ :param headers: An iterable of field-value pairs. Must not contain multiple field names when compared case-insensitively. :param kwargs: Additional field-value pairs to pass in to ``dict.update``. A ``dict`` like container for storing HTTP Headers. Field names are stored and compared case-insensitively in compliance with RFC 7230. Iteration provides the first case-sensitive key seen for each case-insensitive pair. Using ``__setitem__`` syntax overwrites fields that compare equal case-insensitively in order to maintain ``dict``'s api. For fields that compare equal, instead create a new ``HTTPHeaderDict`` and use ``.add`` in a loop. If multiple fields that are equal case-insensitively are passed to the constructor or ``.update``, the behavior is undefined and some will be lost. >>> headers = HTTPHeaderDict() >>> headers.add('Set-Cookie', 'foo=bar') >>> headers.add('set-cookie', 'baz=quxx') >>> headers['content-length'] = '7' >>> headers['SET-cookie'] 'foo=bar, baz=quxx' >>> headers['Content-Length'] '7' """ _container: typing.MutableMapping[str, list[str]] def __init__(self, headers: ValidHTTPHeaderSource | None = None, **kwargs: str): super().__init__() self._container = {} # 'dict' is insert-ordered if headers is not None: if isinstance(headers, HTTPHeaderDict): self._copy_from(headers) else: self.extend(headers) if kwargs: self.extend(kwargs) def __setitem__(self, key: str, val: str) -> None: # avoid a bytes/str comparison by decoding before httplib if isinstance(key, bytes): key = key.decode("latin-1") self._container[key.lower()] = [key, val] def __getitem__(self, key: str) -> str: val = self._container[key.lower()] return ", ".join(val[1:]) def __delitem__(self, key: str) -> None: del self._container[key.lower()] def __contains__(self, key: object) -> bool: if isinstance(key, str): return key.lower() in self._container return False def setdefault(self, key: str, default: str = "") -> str: return super().setdefault(key, default) def __eq__(self, other: object) -> bool: maybe_constructable = ensure_can_construct_http_header_dict(other) if maybe_constructable is None: return False else: other_as_http_header_dict = type(self)(maybe_constructable) return {k.lower(): v for k, v in self.itermerged()} == { k.lower(): v for k, v in other_as_http_header_dict.itermerged() } def __ne__(self, other: object) -> bool: return not self.__eq__(other) def __len__(self) -> int: return len(self._container) def __iter__(self) -> typing.Iterator[str]: # Only provide the originally cased names for vals in self._container.values(): yield vals[0] def discard(self, key: str) -> None: try: del self[key] except KeyError: pass def add(self, key: str, val: str, *, combine: bool = False) -> None: """Adds a (name, value) pair, doesn't overwrite the value if it already exists. If this is called with combine=True, instead of adding a new header value as a distinct item during iteration, this will instead append the value to any existing header value with a comma. If no existing header value exists for the key, then the value will simply be added, ignoring the combine parameter. >>> headers = HTTPHeaderDict(foo='bar') >>> headers.add('Foo', 'baz') >>> headers['foo'] 'bar, baz' >>> list(headers.items()) [('foo', 'bar'), ('foo', 'baz')] >>> headers.add('foo', 'quz', combine=True) >>> list(headers.items()) [('foo', 'bar, baz, quz')] """ # avoid a bytes/str comparison by decoding before httplib if isinstance(key, bytes): key = key.decode("latin-1") key_lower = key.lower() new_vals = [key, val] # Keep the common case aka no item present as fast as possible vals = self._container.setdefault(key_lower, new_vals) if new_vals is not vals: # if there are values here, then there is at least the initial # key/value pair assert len(vals) >= 2 if combine: vals[-1] = vals[-1] + ", " + val else: vals.append(val) def extend(self, *args: ValidHTTPHeaderSource, **kwargs: str) -> None: """Generic import function for any type of header-like object. Adapted version of MutableMapping.update in order to insert items with self.add instead of self.__setitem__ """ if len(args) > 1: raise TypeError( f"extend() takes at most 1 positional arguments ({len(args)} given)" ) other = args[0] if len(args) >= 1 else () if isinstance(other, HTTPHeaderDict): for key, val in other.iteritems(): self.add(key, val) elif isinstance(other, typing.Mapping): for key, val in other.items(): self.add(key, val) elif isinstance(other, typing.Iterable): other = typing.cast(typing.Iterable[typing.Tuple[str, str]], other) for key, value in other: self.add(key, value) elif hasattr(other, "keys") and hasattr(other, "__getitem__"): # THIS IS NOT A TYPESAFE BRANCH # In this branch, the object has a `keys` attr but is not a Mapping or any of # the other types indicated in the method signature. We do some stuff with # it as though it partially implements the Mapping interface, but we're not # doing that stuff safely AT ALL. for key in other.keys(): self.add(key, other[key]) for key, value in kwargs.items(): self.add(key, value) @typing.overload def getlist(self, key: str) -> list[str]: ... @typing.overload def getlist(self, key: str, default: _DT) -> list[str] | _DT: ... def getlist( self, key: str, default: _Sentinel | _DT = _Sentinel.not_passed ) -> list[str] | _DT: """Returns a list of all the values for the named field. Returns an empty list if the key doesn't exist.""" try: vals = self._container[key.lower()] except KeyError: if default is _Sentinel.not_passed: # _DT is unbound; empty list is instance of List[str] return [] # _DT is bound; default is instance of _DT return default else: # _DT may or may not be bound; vals[1:] is instance of List[str], which # meets our external interface requirement of `Union[List[str], _DT]`. return vals[1:] def _prepare_for_method_change(self) -> Self: """ Remove content-specific header fields before changing the request method to GET or HEAD according to RFC 9110, Section 15.4. """ content_specific_headers = [ "Content-Encoding", "Content-Language", "Content-Location", "Content-Type", "Content-Length", "Digest", "Last-Modified", ] for header in content_specific_headers: self.discard(header) return self # Backwards compatibility for httplib getheaders = getlist getallmatchingheaders = getlist iget = getlist # Backwards compatibility for http.cookiejar get_all = getlist def __repr__(self) -> str: return f"{type(self).__name__}({dict(self.itermerged())})" def _copy_from(self, other: HTTPHeaderDict) -> None: for key in other: val = other.getlist(key) self._container[key.lower()] = [key, *val] def copy(self) -> HTTPHeaderDict: clone = type(self)() clone._copy_from(self) return clone def iteritems(self) -> typing.Iterator[tuple[str, str]]: """Iterate over all header lines, including duplicate ones.""" for key in self: vals = self._container[key.lower()] for val in vals[1:]: yield vals[0], val def itermerged(self) -> typing.Iterator[tuple[str, str]]: """Iterate over all headers, merging duplicate ones together.""" for key in self: val = self._container[key.lower()] yield val[0], ", ".join(val[1:]) def items(self) -> HTTPHeaderDictItemView: # type: ignore[override] return HTTPHeaderDictItemView(self) def _has_value_for_header(self, header_name: str, potential_value: str) -> bool: if header_name in self: return potential_value in self._container[header_name.lower()][1:] return False def __ior__(self, other: object) -> HTTPHeaderDict: # Supports extending a header dict in-place using operator |= # combining items with add instead of __setitem__ maybe_constructable = ensure_can_construct_http_header_dict(other) if maybe_constructable is None: return NotImplemented self.extend(maybe_constructable) return self def __or__(self, other: object) -> HTTPHeaderDict: # Supports merging header dicts using operator | # combining items with add instead of __setitem__ maybe_constructable = ensure_can_construct_http_header_dict(other) if maybe_constructable is None: return NotImplemented result = self.copy() result.extend(maybe_constructable) return result def __ror__(self, other: object) -> HTTPHeaderDict: # Supports merging header dicts using operator | when other is on left side # combining items with add instead of __setitem__ maybe_constructable = ensure_can_construct_http_header_dict(other) if maybe_constructable is None: return NotImplemented result = type(self)(maybe_constructable) result.extend(self) return result