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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_extensions import Protocol 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 in Python 3.7+ 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:] # 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