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# -*- test-case-name: twisted.test.test_defer -*-
# Copyright (c) Twisted Matrix Laboratories.
# See LICENSE for details.

"""
Support for results that aren't immediately available.

Maintainer: Glyph Lefkowitz
"""
from __future__ import annotations

import inspect
import traceback
import warnings
from abc import ABC, abstractmethod
from asyncio import AbstractEventLoop, Future, iscoroutine
from contextvars import Context as _Context, copy_context as _copy_context
from enum import Enum
from functools import wraps
from sys import exc_info, implementation
from types import CoroutineType, GeneratorType, MappingProxyType, TracebackType
from typing import (
    TYPE_CHECKING,
    Any,
    Awaitable,
    Callable,
    Coroutine,
    Generator,
    Generic,
    Iterable,
    List,
    Mapping,
    NoReturn,
    Optional,
    Sequence,
    Tuple,
    Type,
    TypeVar,
    Union,
    cast,
    overload,
)

import attr
from incremental import Version
from typing_extensions import Concatenate, Literal, ParamSpec, Self

from twisted.internet.interfaces import IDelayedCall, IReactorTime
from twisted.logger import Logger
from twisted.python import lockfile
from twisted.python.compat import _PYPY, cmp, comparable
from twisted.python.deprecate import deprecated, warnAboutFunction
from twisted.python.failure import Failure, _extraneous

log = Logger()


_T = TypeVar("_T")
_P = ParamSpec("_P")

# See use in _inlineCallbacks for explanation and removal timeline.
_oldPypyStack = _PYPY and implementation.version < (7, 3, 14)


class AlreadyCalledError(Exception):
    """
    This error is raised when one of L{Deferred.callback} or L{Deferred.errback}
    is called after one of the two had already been called.
    """


class CancelledError(Exception):
    """
    This error is raised by default when a L{Deferred} is cancelled.
    """


class TimeoutError(Exception):
    """
    This error is raised by default when a L{Deferred} times out.
    """


class NotACoroutineError(TypeError):
    """
    This error is raised when a coroutine is expected and something else is
    encountered.
    """


def logError(err: Failure) -> Failure:
    """
    Log and return failure.

    This method can be used as an errback that passes the failure on to the
    next errback unmodified. Note that if this is the last errback, and the
    deferred gets garbage collected after being this errback has been called,
    the clean up code logs it again.
    """
    log.failure("", err)
    return err


def succeed(result: _T) -> "Deferred[_T]":
    """
    Return a L{Deferred} that has already had C{.callback(result)} called.

    This is useful when you're writing synchronous code to an
    asynchronous interface: i.e., some code is calling you expecting a
    L{Deferred} result, but you don't actually need to do anything
    asynchronous. Just return C{defer.succeed(theResult)}.

    See L{fail} for a version of this function that uses a failing
    L{Deferred} rather than a successful one.

    @param result: The result to give to the Deferred's 'callback'
           method.
    """
    d: Deferred[_T] = Deferred()
    d.callback(result)
    return d


def fail(result: Optional[Union[Failure, BaseException]] = None) -> "Deferred[Any]":
    """
    Return a L{Deferred} that has already had C{.errback(result)} called.

    See L{succeed}'s docstring for rationale.

    @param result: The same argument that L{Deferred.errback} takes.

    @raise NoCurrentExceptionError: If C{result} is L{None} but there is no
        current exception state.
    """
    d: Deferred[Any] = Deferred()
    d.errback(result)
    return d


def execute(
    callable: Callable[_P, _T], *args: _P.args, **kwargs: _P.kwargs
) -> "Deferred[_T]":
    """
    Create a L{Deferred} from a callable and arguments.

    Call the given function with the given arguments.  Return a L{Deferred}
    which has been fired with its callback as the result of that invocation
    or its C{errback} with a L{Failure} for the exception thrown.
    """
    try:
        result = callable(*args, **kwargs)
    except BaseException:
        return fail()
    else:
        return succeed(result)


@overload
def maybeDeferred(
    f: Callable[_P, Deferred[_T]], *args: _P.args, **kwargs: _P.kwargs
) -> "Deferred[_T]":
    ...


@overload
def maybeDeferred(
    f: Callable[_P, Coroutine[Deferred[Any], Any, _T]],
    *args: _P.args,
    **kwargs: _P.kwargs,
) -> "Deferred[_T]":
    ...


@overload
def maybeDeferred(
    f: Callable[_P, _T], *args: _P.args, **kwargs: _P.kwargs
) -> "Deferred[_T]":
    ...


def maybeDeferred(
    f: Callable[_P, Union[Deferred[_T], Coroutine[Deferred[Any], Any, _T], _T]],
    *args: _P.args,
    **kwargs: _P.kwargs,
) -> "Deferred[_T]":
    """
    Invoke a function that may or may not return a L{Deferred} or coroutine.

    Call the given function with the given arguments.  Then:

      - If the returned object is a L{Deferred}, return it.

      - If the returned object is a L{Failure}, wrap it with L{fail} and
        return it.

      - If the returned object is a L{types.CoroutineType}, wrap it with
        L{Deferred.fromCoroutine} and return it.

      - Otherwise, wrap it in L{succeed} and return it.

      - If an exception is raised, convert it to a L{Failure}, wrap it in
        L{fail}, and then return it.

    @param f: The callable to invoke
    @param args: The arguments to pass to C{f}
    @param kwargs: The keyword arguments to pass to C{f}

    @return: The result of the function call, wrapped in a L{Deferred} if
    necessary.
    """
    try:
        result = f(*args, **kwargs)
    except BaseException:
        return fail(Failure(captureVars=Deferred.debug))

    if isinstance(result, Deferred):
        return result
    elif isinstance(result, Failure):
        return fail(result)
    elif type(result) is CoroutineType:
        # A note on how we identify this case ...
        #
        # inspect.iscoroutinefunction(f) should be the simplest and easiest
        # way to determine if we want to apply coroutine handling.  However,
        # the value may be returned by a regular function that calls a
        # coroutine function and returns its result.  It would be confusing if
        # cases like this led to different handling of the coroutine (even
        # though it is a mistake to have a regular function call a coroutine
        # function to return its result - doing so immediately destroys a
        # large part of the value of coroutine functions: that they can only
        # have a coroutine result).
        #
        # There are many ways we could inspect ``result`` to determine if it
        # is a "coroutine" but most of these are mistakes.  The goal is only
        # to determine whether the value came from ``async def`` or not
        # because these are the only values we're trying to handle with this
        # case.  Such values always have exactly one type: CoroutineType.
        return Deferred.fromCoroutine(result)
    else:
        returned: _T = result  # type: ignore
        return succeed(returned)


@deprecated(
    Version("Twisted", 17, 1, 0),
    replacement="twisted.internet.defer.Deferred.addTimeout",
)
def timeout(deferred: "Deferred[object]") -> None:
    deferred.errback(Failure(TimeoutError("Callback timed out")))


def passthru(arg: _T) -> _T:
    return arg


def _failthru(arg: Failure) -> Failure:
    return arg


def setDebugging(on: bool) -> None:
    """
    Enable or disable L{Deferred} debugging.

    When debugging is on, the call stacks from creation and invocation are
    recorded, and added to any L{AlreadyCalledError}s we raise.
    """
    Deferred.debug = bool(on)


def getDebugging() -> bool:
    """
    Determine whether L{Deferred} debugging is enabled.
    """
    return Deferred.debug


def _cancelledToTimedOutError(value: _T, timeout: float) -> _T:
    """
    A default translation function that translates L{Failure}s that are
    L{CancelledError}s to L{TimeoutError}s.

    @param value: Anything
    @param timeout: The timeout

    @raise TimeoutError: If C{value} is a L{Failure} that is a L{CancelledError}.
    @raise Exception: If C{value} is a L{Failure} that is not a L{CancelledError},
        it is re-raised.

    @since: 16.5
    """
    if isinstance(value, Failure):
        value.trap(CancelledError)
        raise TimeoutError(timeout, "Deferred")
    return value


class _Sentinel(Enum):
    """
    @cvar _NO_RESULT:
        The result used to represent the fact that there is no result.
        B{Never ever ever use this as an actual result for a Deferred}.
        You have been warned.
    @cvar _CONTINUE:
        A marker left in L{Deferred.callback}s to indicate a Deferred chain.
        Always accompanied by a Deferred instance in the args tuple pointing at
        the Deferred which is chained to the Deferred which has this marker.
    """

    _NO_RESULT = object()
    _CONTINUE = object()


# Cache these values for use without the extra lookup in deferred hot code paths
_NO_RESULT = _Sentinel._NO_RESULT
_CONTINUE = _Sentinel._CONTINUE


# type note: this should be Callable[[object, ...], object] but mypy doesn't allow.
#     Callable[[object], object] is next best, but disallows valid callback signatures
DeferredCallback = Callable[..., object]
# type note: this should be Callable[[Failure, ...], object] but mypy doesn't allow.
#     Callable[[Failure], object] is next best, but disallows valid callback signatures
DeferredErrback = Callable[..., object]

_CallbackOrderedArguments = Tuple[object, ...]
_CallbackKeywordArguments = Mapping[str, object]
_CallbackChain = Tuple[
    Tuple[
        Union[DeferredCallback, Literal[_Sentinel._CONTINUE]],
        _CallbackOrderedArguments,
        _CallbackKeywordArguments,
    ],
    Tuple[
        Union[DeferredErrback, DeferredCallback, Literal[_Sentinel._CONTINUE]],
        _CallbackOrderedArguments,
        _CallbackKeywordArguments,
    ],
]

_NONE_KWARGS: _CallbackKeywordArguments = MappingProxyType({})


_SelfResultT = TypeVar("_SelfResultT")
_NextResultT = TypeVar("_NextResultT")


class DebugInfo:
    """
    Deferred debug helper.
    """

    failResult: Optional[Failure] = None
    creator: Optional[List[str]] = None
    invoker: Optional[List[str]] = None

    def _getDebugTracebacks(self) -> str:
        info = ""
        if self.creator is not None:
            info += " C: Deferred was created:\n C:"
            info += "".join(self.creator).rstrip().replace("\n", "\n C:")
            info += "\n"
        if self.invoker is not None:
            info += " I: First Invoker was:\n I:"
            info += "".join(self.invoker).rstrip().replace("\n", "\n I:")
            info += "\n"
        return info

    def __del__(self) -> None:
        """
        Print tracebacks and die.

        If the *last* (and I do mean *last*) callback leaves me in an error
        state, print a traceback (if said errback is a L{Failure}).
        """
        if self.failResult is not None:
            # Note: this is two separate messages for compatibility with
            # earlier tests; arguably it should be a single error message.
            log.critical("Unhandled error in Deferred:", isError=True)

            debugInfo = self._getDebugTracebacks()
            if debugInfo:
                format = "(debug: {debugInfo})"
            else:
                format = ""

            log.failure(format, self.failResult, debugInfo=debugInfo)


class Deferred(Awaitable[_SelfResultT]):
    """
    This is a callback which will be put off until later.

    Why do we want this? Well, in cases where a function in a threaded
    program would block until it gets a result, for Twisted it should
    not block. Instead, it should return a L{Deferred}.

    This can be implemented for protocols that run over the network by
    writing an asynchronous protocol for L{twisted.internet}. For methods
    that come from outside packages that are not under our control, we use
    threads (see for example L{twisted.enterprise.adbapi}).

    For more information about Deferreds, see doc/core/howto/defer.html or
    U{http://twistedmatrix.com/documents/current/core/howto/defer.html}

    When creating a Deferred, you may provide a canceller function, which
    will be called by d.cancel() to let you do any clean-up necessary if the
    user decides not to wait for the deferred to complete.

    @ivar called: A flag which is C{False} until either C{callback} or
        C{errback} is called and afterwards always C{True}.
    @ivar paused: A counter of how many unmatched C{pause} calls have been made
        on this instance.
    @ivar _suppressAlreadyCalled: A flag used by the cancellation mechanism
        which is C{True} if the Deferred has no canceller and has been
        cancelled, C{False} otherwise.  If C{True}, it can be expected that
        C{callback} or C{errback} will eventually be called and the result
        should be silently discarded.
    @ivar _runningCallbacks: A flag which is C{True} while this instance is
        executing its callback chain, used to stop recursive execution of
        L{_runCallbacks}
    @ivar _chainedTo: If this L{Deferred} is waiting for the result of another
        L{Deferred}, this is a reference to the other Deferred.  Otherwise,
        L{None}.
    """

    called = False
    paused = 0
    _debugInfo: Optional[DebugInfo] = None
    _suppressAlreadyCalled = False

    # Are we currently running a user-installed callback?  Meant to prevent
    # recursive running of callbacks when a reentrant call to add a callback is
    # used.
    _runningCallbacks = False

    # Keep this class attribute for now, for compatibility with code that
    # sets it directly.
    debug = False

    _chainedTo: "Optional[Deferred[Any]]" = None

    def __init__(
        self, canceller: Optional[Callable[["Deferred[Any]"], None]] = None
    ) -> None:
        """
        Initialize a L{Deferred}.

        @param canceller: a callable used to stop the pending operation
            scheduled by this L{Deferred} when L{Deferred.cancel} is invoked.
            The canceller will be passed the deferred whose cancellation is
            requested (i.e., C{self}).

            If a canceller is not given, or does not invoke its argument's
            C{callback} or C{errback} method, L{Deferred.cancel} will
            invoke L{Deferred.errback} with a L{CancelledError}.

            Note that if a canceller is not given, C{callback} or
            C{errback} may still be invoked exactly once, even though
            defer.py will have already invoked C{errback}, as described
            above.  This allows clients of code which returns a L{Deferred}
            to cancel it without requiring the L{Deferred} instantiator to
            provide any specific implementation support for cancellation.
            New in 10.1.

        @type canceller: a 1-argument callable which takes a L{Deferred}. The
            return result is ignored.
        """
        self.callbacks: List[_CallbackChain] = []
        self._canceller = canceller
        if self.debug:
            self._debugInfo = DebugInfo()
            self._debugInfo.creator = traceback.format_stack()[:-1]

    def addCallbacks(
        self,
        callback: Union[
            Callable[..., _NextResultT],
            Callable[..., Deferred[_NextResultT]],
            Callable[..., Failure],
            Callable[
                ...,
                Union[_NextResultT, Deferred[_NextResultT], Failure],
            ],
        ],
        errback: Union[
            Callable[..., _NextResultT],
            Callable[..., Deferred[_NextResultT]],
            Callable[..., Failure],
            Callable[
                ...,
                Union[_NextResultT, Deferred[_NextResultT], Failure],
            ],
            None,
        ] = None,
        callbackArgs: Tuple[Any, ...] = (),
        callbackKeywords: Mapping[str, Any] = _NONE_KWARGS,
        errbackArgs: _CallbackOrderedArguments = (),
        errbackKeywords: _CallbackKeywordArguments = _NONE_KWARGS,
    ) -> "Deferred[_NextResultT]":
        """
        Add a pair of callbacks (success and error) to this L{Deferred}.

        These will be executed when the 'master' callback is run.

        @note: The signature of this function was designed many years before
            PEP 612; ParamSpec provides no mechanism to annotate parameters
            like C{callbackArgs}; this is therefore inherently less type-safe
            than calling C{addCallback} and C{addErrback} separately.

        @return: C{self}.
        """
        if errback is None:
            errback = _failthru

        # Default value used to be None and callers may be using None
        if callbackArgs is None:
            callbackArgs = ()  # type: ignore[unreachable]
        if callbackKeywords is None:
            callbackKeywords = {}  # type: ignore[unreachable]
        if errbackArgs is None:
            errbackArgs = ()  # type: ignore[unreachable]
        if errbackKeywords is None:
            errbackKeywords = {}  # type: ignore[unreachable]

        assert callable(callback)
        assert callable(errback)

        self.callbacks.append(
            (
                (callback, callbackArgs, callbackKeywords),
                (errback, errbackArgs, errbackKeywords),
            )
        )

        if self.called:
            self._runCallbacks()

        # type note: The Deferred's type has changed here, but *idiomatically*
        #     the caller should treat the result as the new type, consistently.
        return self  # type:ignore[return-value]

    # BEGIN way too many @overload-s for addCallback, addErrback, and addBoth:
    # these must be accomplished with @overloads, rather than a big Union on
    # the result type as you might expect, because the fact that
    # _NextResultT has no bound makes mypy get confused and require the
    # return types of functions to be combinations of Deferred and Failure
    # rather than the actual return type.  I'm not entirely sure what about the
    # semantics of <nothing> create this overzealousness on the part of trying
    # to assign a type; there *might* be a mypy bug in there somewhere.
    # Possibly https://github.com/python/typing/issues/548 is implicated here
    # because TypeVar for the *callable* with a variadic bound might express to
    # Mypy the actual constraint that we want on its type.

    @overload
    def addCallback(
        self,
        callback: Callable[Concatenate[_SelfResultT, _P], Failure],
        *args: _P.args,
        **kwargs: _P.kwargs,
    ) -> Deferred[_NextResultT]:
        ...

    @overload
    def addCallback(
        self,
        callback: Callable[
            Concatenate[_SelfResultT, _P],
            Union[Failure, Deferred[_NextResultT]],
        ],
        *args: _P.args,
        **kwargs: _P.kwargs,
    ) -> Deferred[_NextResultT]:
        ...

    @overload
    def addCallback(
        self,
        callback: Callable[Concatenate[_SelfResultT, _P], Union[Failure, _NextResultT]],
        *args: _P.args,
        **kwargs: _P.kwargs,
    ) -> Deferred[_NextResultT]:
        ...

    @overload
    def addCallback(
        self,
        callback: Callable[Concatenate[_SelfResultT, _P], Deferred[_NextResultT]],
        *args: _P.args,
        **kwargs: _P.kwargs,
    ) -> Deferred[_NextResultT]:
        ...

    @overload
    def addCallback(
        self,
        callback: Callable[
            Concatenate[_SelfResultT, _P],
            Union[Deferred[_NextResultT], _NextResultT],
        ],
        *args: _P.args,
        **kwargs: _P.kwargs,
    ) -> Deferred[_NextResultT]:
        ...

    @overload
    def addCallback(
        self,
        callback: Callable[Concatenate[_SelfResultT, _P], _NextResultT],
        *args: _P.args,
        **kwargs: _P.kwargs,
    ) -> Deferred[_NextResultT]:
        ...

    def addCallback(self, callback: Any, *args: Any, **kwargs: Any) -> "Deferred[Any]":
        """
        Convenience method for adding just a callback.

        See L{addCallbacks}.
        """
        # Implementation Note: Any annotations for brevity; the overloads above
        # handle specifying the actual signature, and there's nothing worth
        # type-checking in this implementation.
        return self.addCallbacks(callback, callbackArgs=args, callbackKeywords=kwargs)

    @overload
    def addErrback(
        self,
        errback: Callable[Concatenate[Failure, _P], Deferred[_NextResultT]],
        *args: _P.args,
        **kwargs: _P.kwargs,
    ) -> "Deferred[Union[_SelfResultT, _NextResultT]]":
        ...

    @overload
    def addErrback(
        self,
        errback: Callable[Concatenate[Failure, _P], Failure],
        *args: _P.args,
        **kwargs: _P.kwargs,
    ) -> "Deferred[Union[_SelfResultT]]":
        ...

    @overload
    def addErrback(
        self,
        errback: Callable[Concatenate[Failure, _P], _NextResultT],
        *args: _P.args,
        **kwargs: _P.kwargs,
    ) -> "Deferred[Union[_SelfResultT, _NextResultT]]":
        ...

    def addErrback(self, errback: Any, *args: Any, **kwargs: Any) -> "Deferred[Any]":
        """
        Convenience method for adding just an errback.

        See L{addCallbacks}.
        """
        # See implementation note in addCallbacks about Any arguments
        return self.addCallbacks(
            passthru, errback, errbackArgs=args, errbackKeywords=kwargs
        )

    @overload
    def addBoth(
        self,
        callback: Callable[Concatenate[Union[_SelfResultT, Failure], _P], Failure],
        *args: _P.args,
        **kwargs: _P.kwargs,
    ) -> Deferred[_NextResultT]:
        ...

    @overload
    def addBoth(
        self,
        callback: Callable[
            Concatenate[Union[_SelfResultT, Failure], _P],
            Union[Failure, Deferred[_NextResultT]],
        ],
        *args: _P.args,
        **kwargs: _P.kwargs,
    ) -> Deferred[_NextResultT]:
        ...

    @overload
    def addBoth(
        self,
        callback: Callable[
            Concatenate[Union[_SelfResultT, Failure], _P], Union[Failure, _NextResultT]
        ],
        *args: _P.args,
        **kwargs: _P.kwargs,
    ) -> Deferred[_NextResultT]:
        ...

    @overload
    def addBoth(
        self,
        callback: Callable[
            Concatenate[Union[_SelfResultT, Failure], _P], Deferred[_NextResultT]
        ],
        *args: _P.args,
        **kwargs: _P.kwargs,
    ) -> Deferred[_NextResultT]:
        ...

    @overload
    def addBoth(
        self,
        callback: Callable[
            Concatenate[Union[_SelfResultT, Failure], _P],
            Union[Deferred[_NextResultT], _NextResultT],
        ],
        *args: _P.args,
        **kwargs: _P.kwargs,
    ) -> Deferred[_NextResultT]:
        ...

    @overload
    def addBoth(
        self,
        callback: Callable[Concatenate[Union[_SelfResultT, Failure], _P], _NextResultT],
        *args: _P.args,
        **kwargs: _P.kwargs,
    ) -> Deferred[_NextResultT]:
        ...

    @overload
    def addBoth(
        self,
        callback: Callable[Concatenate[_T, _P], _T],
        *args: _P.args,
        **kwargs: _P.kwargs,
    ) -> Deferred[_SelfResultT]:
        ...

    def addBoth(self, callback: Any, *args: Any, **kwargs: Any) -> "Deferred[Any]":
        """
        Convenience method for adding a single callable as both a callback
        and an errback.

        See L{addCallbacks}.
        """
        # See implementation note in addCallbacks about Any arguments
        return self.addCallbacks(
            callback,
            callback,
            callbackArgs=args,
            errbackArgs=args,
            callbackKeywords=kwargs,
            errbackKeywords=kwargs,
        )

    # END way too many overloads

    def addTimeout(
        self,
        timeout: float,
        clock: IReactorTime,
        onTimeoutCancel: Optional[
            Callable[
                [Union[_SelfResultT, Failure], float],
                Union[_NextResultT, Failure],
            ]
        ] = None,
    ) -> "Deferred[Union[_SelfResultT, _NextResultT]]":
        """
        Time out this L{Deferred} by scheduling it to be cancelled after
        C{timeout} seconds.

        The timeout encompasses all the callbacks and errbacks added to this
        L{defer.Deferred} before the call to L{addTimeout}, and none added
        after the call.

        If this L{Deferred} gets timed out, it errbacks with a L{TimeoutError},
        unless a cancelable function was passed to its initialization or unless
        a different C{onTimeoutCancel} callable is provided.

        @param timeout: number of seconds to wait before timing out this
            L{Deferred}
        @param clock: The object which will be used to schedule the timeout.
        @param onTimeoutCancel: A callable which is called immediately after
            this L{Deferred} times out, and not if this L{Deferred} is
            otherwise cancelled before the timeout. It takes an arbitrary
            value, which is the value of this L{Deferred} at that exact point
            in time (probably a L{CancelledError} L{Failure}), and the
            C{timeout}.  The default callable (if C{None} is provided) will
            translate a L{CancelledError} L{Failure} into a L{TimeoutError}.

        @return: C{self}.

        @since: 16.5
        """

        timedOut = [False]

        def timeItOut() -> None:
            timedOut[0] = True
            self.cancel()

        delayedCall = clock.callLater(timeout, timeItOut)

        def convertCancelled(
            result: Union[_SelfResultT, Failure],
        ) -> Union[_SelfResultT, _NextResultT, Failure]:
            # if C{deferred} was timed out, call the translation function,
            # if provided, otherwise just use L{cancelledToTimedOutError}
            if timedOut[0]:
                toCall = onTimeoutCancel or _cancelledToTimedOutError
                return toCall(result, timeout)
            return result

        def cancelTimeout(result: _T) -> _T:
            # stop the pending call to cancel the deferred if it's been fired
            if delayedCall.active():
                delayedCall.cancel()
            return result

        # Note: Mypy cannot infer this type, apparently thanks to the ambiguity
        # of _SelfResultT / _NextResultT both being unbound.  Explicitly
        # annotating it seems to do the trick though.
        converted: Deferred[Union[_SelfResultT, _NextResultT]] = self.addBoth(
            convertCancelled
        )
        return converted.addBoth(cancelTimeout)

    def chainDeferred(self, d: "Deferred[_SelfResultT]") -> "Deferred[None]":
        """
        Chain another L{Deferred} to this L{Deferred}.

        This method adds callbacks to this L{Deferred} to call C{d}'s callback
        or errback, as appropriate. It is merely a shorthand way of performing
        the following::

            d1.addCallbacks(d2.callback, d2.errback)

        When you chain a deferred C{d2} to another deferred C{d1} with
        C{d1.chainDeferred(d2)}, you are making C{d2} participate in the
        callback chain of C{d1}.
        Thus any event that fires C{d1} will also fire C{d2}.
        However, the converse is B{not} true; if C{d2} is fired, C{d1} will not
        be affected.

        Note that unlike the case where chaining is caused by a L{Deferred}
        being returned from a callback, it is possible to cause the call
        stack size limit to be exceeded by chaining many L{Deferred}s
        together with C{chainDeferred}.

        @return: C{self}.
        """
        d._chainedTo = self
        return self.addCallbacks(d.callback, d.errback)

    def callback(self, result: Union[_SelfResultT, Failure]) -> None:
        """
        Run all success callbacks that have been added to this L{Deferred}.

        Each callback will have its result passed as the first argument to
        the next; this way, the callbacks act as a 'processing chain'.  If
        the success-callback returns a L{Failure} or raises an L{Exception},
        processing will continue on the *error* callback chain.  If a
        callback (or errback) returns another L{Deferred}, this L{Deferred}
        will be chained to it (and further callbacks will not run until that
        L{Deferred} has a result).

        An instance of L{Deferred} may only have either L{callback} or
        L{errback} called on it, and only once.

        @param result: The object which will be passed to the first callback
            added to this L{Deferred} (via L{addCallback}), unless C{result} is
            a L{Failure}, in which case the behavior is the same as calling
            C{errback(result)}.

        @raise AlreadyCalledError: If L{callback} or L{errback} has already been
            called on this L{Deferred}.
        """
        assert not isinstance(result, Deferred)
        self._startRunCallbacks(result)

    def errback(self, fail: Optional[Union[Failure, BaseException]] = None) -> None:
        """
        Run all error callbacks that have been added to this L{Deferred}.

        Each callback will have its result passed as the first
        argument to the next; this way, the callbacks act as a
        'processing chain'. Also, if the error-callback returns a non-Failure
        or doesn't raise an L{Exception}, processing will continue on the
        *success*-callback chain.

        If the argument that's passed to me is not a L{Failure} instance,
        it will be embedded in one. If no argument is passed, a
        L{Failure} instance will be created based on the current
        traceback stack.

        Passing a string as `fail' is deprecated, and will be punished with
        a warning message.

        An instance of L{Deferred} may only have either L{callback} or
        L{errback} called on it, and only once.

        @param fail: The L{Failure} object which will be passed to the first
            errback added to this L{Deferred} (via L{addErrback}).
            Alternatively, a L{Exception} instance from which a L{Failure} will
            be constructed (with no traceback) or L{None} to create a L{Failure}
            instance from the current exception state (with a traceback).

        @raise AlreadyCalledError: If L{callback} or L{errback} has already been
            called on this L{Deferred}.
        @raise NoCurrentExceptionError: If C{fail} is L{None} but there is
            no current exception state.
        """
        if fail is None:
            fail = Failure(captureVars=self.debug)
        elif not isinstance(fail, Failure):
            fail = Failure(fail)

        self._startRunCallbacks(fail)

    def pause(self) -> None:
        """
        Stop processing on a L{Deferred} until L{unpause}() is called.
        """
        self.paused = self.paused + 1

    def unpause(self) -> None:
        """
        Process all callbacks made since L{pause}() was called.
        """
        self.paused = self.paused - 1
        if self.paused:
            return
        if self.called:
            self._runCallbacks()

    def cancel(self) -> None:
        """
        Cancel this L{Deferred}.

        If the L{Deferred} has not yet had its C{errback} or C{callback} method
        invoked, call the canceller function provided to the constructor. If
        that function does not invoke C{callback} or C{errback}, or if no
        canceller function was provided, errback with L{CancelledError}.

        If this L{Deferred} is waiting on another L{Deferred}, forward the
        cancellation to the other L{Deferred}.
        """
        if not self.called:
            canceller = self._canceller
            if canceller:
                canceller(self)
            else:
                # Arrange to eat the callback that will eventually be fired
                # since there was no real canceller.
                self._suppressAlreadyCalled = True
            if not self.called:
                # There was no canceller, or the canceller didn't call
                # callback or errback.
                self.errback(Failure(CancelledError()))
        elif isinstance(self.result, Deferred):
            # Waiting for another deferred -- cancel it instead.
            self.result.cancel()

    def _startRunCallbacks(self, result: object) -> None:
        if self.called:
            if self._suppressAlreadyCalled:
                self._suppressAlreadyCalled = False
                return
            if self.debug:
                if self._debugInfo is None:
                    self._debugInfo = DebugInfo()
                extra = "\n" + self._debugInfo._getDebugTracebacks()
                raise AlreadyCalledError(extra)
            raise AlreadyCalledError
        if self.debug:
            if self._debugInfo is None:
                self._debugInfo = DebugInfo()
            self._debugInfo.invoker = traceback.format_stack()[:-2]
        self.called = True

        # Clear the canceller to avoid any circular references. This is safe to
        # do as the canceller does not get called after the deferred has fired
        self._canceller = None

        self.result = result
        self._runCallbacks()

    def _continuation(self) -> _CallbackChain:
        """
        Build a tuple of callback and errback with L{_Sentinel._CONTINUE}.
        """
        return (
            (_Sentinel._CONTINUE, (self,), _NONE_KWARGS),
            (_Sentinel._CONTINUE, (self,), _NONE_KWARGS),
        )

    def _runCallbacks(self) -> None:
        """
        Run the chain of callbacks once a result is available.

        This consists of a simple loop over all of the callbacks, calling each
        with the current result and making the current result equal to the
        return value (or raised exception) of that call.

        If L{_runningCallbacks} is true, this loop won't run at all, since
        it is already running above us on the call stack.  If C{self.paused} is
        true, the loop also won't run, because that's what it means to be
        paused.

        The loop will terminate before processing all of the callbacks if a
        L{Deferred} without a result is encountered.

        If a L{Deferred} I{with} a result is encountered, that result is taken
        and the loop proceeds.

        @note: The implementation is complicated slightly by the fact that
            chaining (associating two L{Deferred}s with each other such that one
            will wait for the result of the other, as happens when a Deferred is
            returned from a callback on another L{Deferred}) is supported
            iteratively rather than recursively, to avoid running out of stack
            frames when processing long chains.
        """
        if self._runningCallbacks:
            # Don't recursively run callbacks
            return

        # Keep track of all the Deferreds encountered while propagating results
        # up a chain.  The way a Deferred gets onto this stack is by having
        # added its _continuation() to the callbacks list of a second Deferred
        # and then that second Deferred being fired.  ie, if ever had _chainedTo
        # set to something other than None, you might end up on this stack.
        chain: List[Deferred[Any]] = [self]

        while chain:
            current = chain[-1]

            if current.paused:
                # This Deferred isn't going to produce a result at all.  All the
                # Deferreds up the chain waiting on it will just have to...
                # wait.
                return

            finished = True
            current._chainedTo = None
            while current.callbacks:
                item = current.callbacks.pop(0)
                if not isinstance(current.result, Failure):
                    callback, args, kwargs = item[0]
                else:
                    # type note: Callback signature also works for Errbacks in
                    #     this context.
                    callback, args, kwargs = item[1]

                # Avoid recursion if we can.
                if callback is _CONTINUE:
                    # Give the waiting Deferred our current result and then
                    # forget about that result ourselves.
                    chainee = cast(Deferred[object], args[0])
                    chainee.result = current.result
                    current.result = None
                    # Making sure to update _debugInfo
                    if current._debugInfo is not None:
                        current._debugInfo.failResult = None
                    chainee.paused -= 1
                    chain.append(chainee)
                    # Delay cleaning this Deferred and popping it from the chain
                    # until after we've dealt with chainee.
                    finished = False
                    break

                try:
                    current._runningCallbacks = True
                    try:
                        # type note: mypy sees `callback is _CONTINUE` above and
                        #    then decides that `callback` is not callable.
                        #    This goes away when we use `_Sentinel._CONTINUE`
                        #    instead, but we don't want to do that attribute
                        #    lookup in this hot code path, so we ignore the mypy
                        #    complaint here.
                        current.result = callback(  # type: ignore[misc]
                            current.result, *args, **kwargs
                        )

                        if current.result is current:
                            warnAboutFunction(
                                callback,
                                "Callback returned the Deferred "
                                "it was attached to; this breaks the "
                                "callback chain and will raise an "
                                "exception in the future.",
                            )
                    finally:
                        current._runningCallbacks = False
                except BaseException:
                    # Including full frame information in the Failure is quite
                    # expensive, so we avoid it unless self.debug is set.
                    current.result = Failure(captureVars=self.debug)
                else:
                    if isinstance(current.result, Deferred):
                        # The result is another Deferred.  If it has a result,
                        # we can take it and keep going.
                        resultResult = getattr(current.result, "result", _NO_RESULT)
                        if (
                            resultResult is _NO_RESULT
                            or isinstance(resultResult, Deferred)
                            or current.result.paused
                        ):
                            # Nope, it didn't.  Pause and chain.
                            current.pause()
                            current._chainedTo = current.result
                            # Note: current.result has no result, so it's not
                            # running its callbacks right now.  Therefore we can
                            # append to the callbacks list directly instead of
                            # using addCallbacks.
                            current.result.callbacks.append(current._continuation())
                            break
                        else:
                            # Yep, it did.  Steal it.
                            current.result.result = None
                            # Make sure _debugInfo's failure state is updated.
                            if current.result._debugInfo is not None:
                                current.result._debugInfo.failResult = None
                            current.result = resultResult

            if finished:
                # As much of the callback chain - perhaps all of it - as can be
                # processed right now has been.  The current Deferred is waiting on
                # another Deferred or for more callbacks.  Before finishing with it,
                # make sure its _debugInfo is in the proper state.
                if isinstance(current.result, Failure):
                    # Stash the Failure in the _debugInfo for unhandled error
                    # reporting.
                    current.result.cleanFailure()
                    if current._debugInfo is None:
                        current._debugInfo = DebugInfo()
                    current._debugInfo.failResult = current.result
                else:
                    # Clear out any Failure in the _debugInfo, since the result
                    # is no longer a Failure.
                    if current._debugInfo is not None:
                        current._debugInfo.failResult = None

                # This Deferred is done, pop it from the chain and move back up
                # to the Deferred which supplied us with our result.
                chain.pop()

    def __str__(self) -> str:
        """
        Return a string representation of this L{Deferred}.
        """
        cname = self.__class__.__name__
        result = getattr(self, "result", _NO_RESULT)
        myID = id(self)
        if self._chainedTo is not None:
            result = f" waiting on Deferred at 0x{id(self._chainedTo):x}"
        elif result is _NO_RESULT:
            result = ""
        else:
            result = f" current result: {result!r}"
        return f"<{cname} at 0x{myID:x}{result}>"

    __repr__ = __str__

    def __iter__(self) -> "Deferred[_SelfResultT]":
        return self

    @_extraneous
    def send(self, value: object = None) -> "Deferred[_SelfResultT]":
        if self.paused:
            # If we're paused, we have no result to give
            return self

        result = getattr(self, "result", _NO_RESULT)
        if result is _NO_RESULT:
            return self
        if isinstance(result, Failure):
            # Clear the failure on debugInfo so it doesn't raise "unhandled
            # exception"
            assert self._debugInfo is not None
            self._debugInfo.failResult = None
            result.value.__failure__ = result
            raise result.value
        else:
            raise StopIteration(result)

    # For PEP-492 support (async/await)
    # type note: base class "Awaitable" defined the type as:
    #     Callable[[], Generator[Any, None, _SelfResultT]]
    #     See: https://github.com/python/typeshed/issues/5125
    #     When the typeshed patch is included in a mypy release,
    #     this method can be replaced by `__await__ = __iter__`.
    def __await__(self) -> Generator[Any, None, _SelfResultT]:
        return self.__iter__()  # type: ignore[return-value]

    __next__ = send

    def asFuture(self, loop: AbstractEventLoop) -> "Future[_SelfResultT]":
        """
        Adapt this L{Deferred} into a L{Future} which is bound to C{loop}.

        @note: converting a L{Deferred} to an L{Future} consumes both
            its result and its errors, so this method implicitly converts
            C{self} into a L{Deferred} firing with L{None}, regardless of what
            its result previously would have been.

        @since: Twisted 17.5.0

        @param loop: The L{asyncio} event loop to bind the L{Future} to.

        @return: A L{Future} which will fire when the L{Deferred} fires.
        """
        future = loop.create_future()

        def checkCancel(futureAgain: "Future[_SelfResultT]") -> None:
            if futureAgain.cancelled():
                self.cancel()

        def maybeFail(failure: Failure) -> None:
            if not future.cancelled():
                future.set_exception(failure.value)

        def maybeSucceed(result: object) -> None:
            if not future.cancelled():
                future.set_result(result)

        self.addCallbacks(maybeSucceed, maybeFail)
        future.add_done_callback(checkCancel)

        return future

    @classmethod
    def fromFuture(cls, future: "Future[_SelfResultT]") -> "Deferred[_SelfResultT]":
        """
        Adapt a L{Future} to a L{Deferred}.

        @note: This creates a L{Deferred} from a L{Future}, I{not} from
            a C{coroutine}; in other words, you will need to call
            L{asyncio.ensure_future}, L{asyncio.loop.create_task} or create an
            L{asyncio.Task} yourself to get from a C{coroutine} to a
            L{Future} if what you have is an awaitable coroutine and
            not a L{Future}.  (The length of this list of techniques is
            exactly why we have left it to the caller!)

        @since: Twisted 17.5.0

        @param future: The L{Future} to adapt.

        @return: A L{Deferred} which will fire when the L{Future} fires.
        """

        def adapt(result: Future[_SelfResultT]) -> None:
            try:
                extracted: _SelfResultT | Failure = result.result()
            except BaseException:
                extracted = Failure()
            actual.callback(extracted)

        futureCancel = object()

        def cancel(reself: Deferred[object]) -> None:
            future.cancel()
            reself.callback(futureCancel)

        self = cls(cancel)
        actual = self

        def uncancel(
            result: _SelfResultT,
        ) -> Union[_SelfResultT, Deferred[_SelfResultT]]:
            if result is futureCancel:
                nonlocal actual
                actual = Deferred()
                return actual
            return result

        self.addCallback(uncancel)
        future.add_done_callback(adapt)

        return self

    @classmethod
    def fromCoroutine(
        cls,
        coro: Union[
            Coroutine[Deferred[Any], Any, _T],
            Generator[Deferred[Any], Any, _T],
        ],
    ) -> "Deferred[_T]":
        """
        Schedule the execution of a coroutine that awaits on L{Deferred}s,
        wrapping it in a L{Deferred} that will fire on success/failure of the
        coroutine.

        Coroutine functions return a coroutine object, similar to how
        generators work. This function turns that coroutine into a Deferred,
        meaning that it can be used in regular Twisted code. For example::

            import treq
            from twisted.internet.defer import Deferred
            from twisted.internet.task import react

            async def crawl(pages):
                results = {}
                for page in pages:
                    results[page] = await treq.content(await treq.get(page))
                return results

            def main(reactor):
                pages = [
                    "http://localhost:8080"
                ]
                d = Deferred.fromCoroutine(crawl(pages))
                d.addCallback(print)
                return d

            react(main)

        @since: Twisted 21.2.0

        @param coro: The coroutine object to schedule.

        @raise ValueError: If C{coro} is not a coroutine or generator.
        """
        # asyncio.iscoroutine <3.12 identifies generators as coroutines, too.
        # for >=3.12 we need to check isgenerator also
        # see https://github.com/python/cpython/issues/102748
        if iscoroutine(coro) or inspect.isgenerator(coro):
            return _cancellableInlineCallbacks(coro)
        raise NotACoroutineError(f"{coro!r} is not a coroutine")


def ensureDeferred(
    coro: Union[
        Coroutine[Deferred[Any], Any, _T],
        Generator[Deferred[Any], Any, _T],
        Deferred[_T],
    ]
) -> Deferred[_T]:
    """
    Schedule the execution of a coroutine that awaits/yields from L{Deferred}s,
    wrapping it in a L{Deferred} that will fire on success/failure of the
    coroutine. If a Deferred is passed to this function, it will be returned
    directly (mimicking the L{asyncio.ensure_future} function).

    See L{Deferred.fromCoroutine} for examples of coroutines.

    @param coro: The coroutine object to schedule, or a L{Deferred}.
    """
    if isinstance(coro, Deferred):
        return coro
    else:
        try:
            return Deferred.fromCoroutine(coro)
        except NotACoroutineError:
            # It's not a coroutine. Raise an exception, but say that it's also
            # not a Deferred so the error makes sense.
            raise NotACoroutineError(f"{coro!r} is not a coroutine or a Deferred")


@comparable
class FirstError(Exception):
    """
    First error to occur in a L{DeferredList} if C{fireOnOneErrback} is set.

    @ivar subFailure: The L{Failure} that occurred.
    @ivar index: The index of the L{Deferred} in the L{DeferredList} where
        it happened.
    """

    def __init__(self, failure: Failure, index: int) -> None:
        Exception.__init__(self, failure, index)
        self.subFailure = failure
        self.index = index

    def __repr__(self) -> str:
        """
        The I{repr} of L{FirstError} instances includes the repr of the
        wrapped failure's exception and the index of the L{FirstError}.
        """
        return "FirstError[#%d, %r]" % (self.index, self.subFailure.value)

    def __str__(self) -> str:
        """
        The I{str} of L{FirstError} instances includes the I{str} of the
        entire wrapped failure (including its traceback and exception) and
        the index of the L{FirstError}.
        """
        return "FirstError[#%d, %s]" % (self.index, self.subFailure)

    def __cmp__(self, other: object) -> int:
        """
        Comparison between L{FirstError} and other L{FirstError} instances
        is defined as the comparison of the index and sub-failure of each
        instance.  L{FirstError} instances don't compare equal to anything
        that isn't a L{FirstError} instance.

        @since: 8.2
        """
        if isinstance(other, FirstError):
            return cmp((self.index, self.subFailure), (other.index, other.subFailure))
        return -1


_DeferredListSingleResultT = Tuple[_SelfResultT, int]
_DeferredListResultItemT = Tuple[bool, _SelfResultT]
_DeferredListResultListT = List[_DeferredListResultItemT[_SelfResultT]]

if TYPE_CHECKING:
    # The result type is different depending on whether fireOnOneCallback
    # is True or False.  The type system is not flexible enough to handle
    # that in a class definition, so instead we pretend that DeferredList
    # is a function that returns a Deferred.

    @overload
    def _DeferredList(
        deferredList: Iterable[Deferred[_SelfResultT]],
        fireOnOneCallback: Literal[True],
        fireOnOneErrback: bool = False,
        consumeErrors: bool = False,
    ) -> Deferred[_DeferredListSingleResultT[_SelfResultT]]:
        ...

    @overload
    def _DeferredList(
        deferredList: Iterable[Deferred[_SelfResultT]],
        fireOnOneCallback: Literal[False] = False,
        fireOnOneErrback: bool = False,
        consumeErrors: bool = False,
    ) -> Deferred[_DeferredListResultListT[_SelfResultT]]:
        ...

    def _DeferredList(
        deferredList: Iterable[Deferred[_SelfResultT]],
        fireOnOneCallback: bool = False,
        fireOnOneErrback: bool = False,
        consumeErrors: bool = False,
    ) -> Union[
        Deferred[_DeferredListSingleResultT[_SelfResultT]],
        Deferred[_DeferredListResultListT[_SelfResultT]],
    ]:
        ...

    DeferredList = _DeferredList


class DeferredList(  # type: ignore[no-redef] # noqa:F811
    Deferred[_DeferredListResultListT[Any]]
):
    """
    L{DeferredList} is a tool for collecting the results of several Deferreds.

    This tracks a list of L{Deferred}s for their results, and makes a single
    callback when they have all completed.  By default, the ultimate result is a
    list of (success, result) tuples, 'success' being a boolean.
    L{DeferredList} exposes the same API that L{Deferred} does, so callbacks and
    errbacks can be added to it in the same way.

    L{DeferredList} is implemented by adding callbacks and errbacks to each
    L{Deferred} in the list passed to it.  This means callbacks and errbacks
    added to the Deferreds before they are passed to L{DeferredList} will change
    the result that L{DeferredList} sees (i.e., L{DeferredList} is not special).
    Callbacks and errbacks can also be added to the Deferreds after they are
    passed to L{DeferredList} and L{DeferredList} may change the result that
    they see.

    See the documentation for the C{__init__} arguments for more information.

    @ivar _deferredList: The L{list} of L{Deferred}s to track.
    """

    fireOnOneCallback = False
    fireOnOneErrback = False

    def __init__(
        self,
        deferredList: Iterable[Deferred[_SelfResultT]],
        fireOnOneCallback: bool = False,
        fireOnOneErrback: bool = False,
        consumeErrors: bool = False,
    ):
        """
        Initialize a DeferredList.

        @param deferredList: The deferreds to track.
        @param fireOnOneCallback: (keyword param) a flag indicating that this
            L{DeferredList} will fire when the first L{Deferred} in
            C{deferredList} fires with a non-failure result without waiting for
            any of the other Deferreds.  When this flag is set, the DeferredList
            will fire with a two-tuple: the first element is the result of the
            Deferred which fired; the second element is the index in
            C{deferredList} of that Deferred.
        @param fireOnOneErrback: (keyword param) a flag indicating that this
            L{DeferredList} will fire when the first L{Deferred} in
            C{deferredList} fires with a failure result without waiting for any
            of the other Deferreds.  When this flag is set, if a Deferred in the
            list errbacks, the DeferredList will errback with a L{FirstError}
            failure wrapping the failure of that Deferred.
        @param consumeErrors: (keyword param) a flag indicating that failures in
            any of the included L{Deferred}s should not be propagated to
            errbacks added to the individual L{Deferred}s after this
            L{DeferredList} is constructed.  After constructing the
            L{DeferredList}, any errors in the individual L{Deferred}s will be
            converted to a callback result of L{None}.  This is useful to
            prevent spurious 'Unhandled error in Deferred' messages from being
            logged.  This does not prevent C{fireOnOneErrback} from working.
        """
        self._deferredList = list(deferredList)

        # Note this contains optional result values as the DeferredList is
        # processing its results, even though the callback result will not,
        # which is why we aren't using _DeferredListResultListT here.
        self.resultList: List[Optional[_DeferredListResultItemT[Any]]] = [None] * len(
            self._deferredList
        )
        """
        The final result, in progress.
        Each item in the list corresponds to the L{Deferred} at the same
        position in L{_deferredList}. It will be L{None} if the L{Deferred}
        did not complete yet, or a C{(success, result)} pair if it did.
        """

        Deferred.__init__(self)
        if len(self._deferredList) == 0 and not fireOnOneCallback:
            self.callback([])

        # These flags need to be set *before* attaching callbacks to the
        # deferreds, because the callbacks use these flags, and will run
        # synchronously if any of the deferreds are already fired.
        self.fireOnOneCallback = fireOnOneCallback
        self.fireOnOneErrback = fireOnOneErrback
        self.consumeErrors = consumeErrors
        self.finishedCount = 0

        index = 0
        for deferred in self._deferredList:
            deferred.addCallbacks(
                self._cbDeferred,
                self._cbDeferred,
                callbackArgs=(index, SUCCESS),
                errbackArgs=(index, FAILURE),
            )
            index = index + 1

    def _cbDeferred(
        self, result: _SelfResultT, index: int, succeeded: bool
    ) -> Optional[_SelfResultT]:
        """
        (internal) Callback for when one of my deferreds fires.
        """
        self.resultList[index] = (succeeded, result)

        self.finishedCount += 1
        if not self.called:
            if succeeded == SUCCESS and self.fireOnOneCallback:
                self.callback((result, index))  # type: ignore[arg-type]
            elif succeeded == FAILURE and self.fireOnOneErrback:
                assert isinstance(result, Failure)
                self.errback(Failure(FirstError(result, index)))
            elif self.finishedCount == len(self.resultList):
                # At this point, None values in self.resultList have been
                # replaced by result values, so we cast it to
                # _DeferredListResultListT to match the callback result type.
                self.callback(cast(_DeferredListResultListT[Any], self.resultList))

        if succeeded == FAILURE and self.consumeErrors:
            return None

        return result

    def cancel(self) -> None:
        """
        Cancel this L{DeferredList}.

        If the L{DeferredList} hasn't fired yet, cancel every L{Deferred} in
        the list.

        If the L{DeferredList} has fired, including the case where the
        C{fireOnOneCallback}/C{fireOnOneErrback} flag is set and the
        L{DeferredList} fires because one L{Deferred} in the list fires with a
        non-failure/failure result, do nothing in the C{cancel} method.
        """
        if not self.called:
            for deferred in self._deferredList:
                try:
                    deferred.cancel()
                except BaseException:
                    log.failure("Exception raised from user supplied canceller")


def _parseDeferredListResult(
    resultList: List[_DeferredListResultItemT[_T]], fireOnOneErrback: bool = False, /
) -> List[_T]:
    if __debug__:
        for result in resultList:
            assert result is not None
            success, value = result
            assert success
    return [x[1] for x in resultList]


def gatherResults(
    deferredList: Iterable[Deferred[_T]], consumeErrors: bool = False
) -> Deferred[List[_T]]:
    """
    Returns, via a L{Deferred}, a list with the results of the given
    L{Deferred}s - in effect, a "join" of multiple deferred operations.

    The returned L{Deferred} will fire when I{all} of the provided L{Deferred}s
    have fired, or when any one of them has failed.

    This method can be cancelled by calling the C{cancel} method of the
    L{Deferred}, all the L{Deferred}s in the list will be cancelled.

    This differs from L{DeferredList} in that you don't need to parse
    the result for success/failure.

    @param consumeErrors: (keyword param) a flag, defaulting to False,
        indicating that failures in any of the given L{Deferred}s should not be
        propagated to errbacks added to the individual L{Deferred}s after this
        L{gatherResults} invocation.  Any such errors in the individual
        L{Deferred}s will be converted to a callback result of L{None}.  This
        is useful to prevent spurious 'Unhandled error in Deferred' messages
        from being logged.  This parameter is available since 11.1.0.
    """
    return DeferredList(
        deferredList, fireOnOneErrback=True, consumeErrors=consumeErrors
    ).addCallback(_parseDeferredListResult)


class FailureGroup(Exception):
    """
    More than one failure occurred.
    """

    def __init__(self, failures: Sequence[Failure]) -> None:
        super(FailureGroup, self).__init__()
        self.failures = failures


def race(ds: Sequence[Deferred[_T]]) -> Deferred[tuple[int, _T]]:
    """
    Select the first available result from the sequence of Deferreds and
    cancel the rest.

    @return: A cancellable L{Deferred} that fires with the index and output of
        the element of C{ds} to have a success result first, or that fires
        with L{FailureGroup} holding a list of their failures if they all
        fail.
    """
    # Keep track of the Deferred for the action which completed first.  When
    # it completes, all of the other Deferreds will get cancelled but this one
    # shouldn't be.  Even though it "completed" it isn't really done - the
    # caller will still be using it for something.  If we cancelled it,
    # cancellation could propagate down to them.
    winner: Optional[Deferred[_T]] = None

    # The cancellation function for the Deferred this function returns.
    def cancel(result: Deferred[_T]) -> None:
        # If it is cancelled then we cancel all of the Deferreds for the
        # individual actions because there is no longer the possibility of
        # delivering any of their results anywhere.  We don't have to fire
        # `result` because the Deferred will do that for us.
        for d in to_cancel:
            d.cancel()

    # The Deferred that this function will return.  It will fire with the
    # index and output of the action that completes first, or errback if all
    # of the actions fail.  If it is cancelled, all of the actions will be
    # cancelled.
    final_result: Deferred[tuple[int, _T]] = Deferred(canceller=cancel)

    # A callback for an individual action.
    def succeeded(this_output: _T, this_index: int) -> None:
        # If it is the first action to succeed then it becomes the "winner",
        # its index/output become the externally visible result, and the rest
        # of the action Deferreds get cancelled.  If it is not the first
        # action to succeed (because some action did not support
        # cancellation), just ignore the result.  It is uncommon for this
        # callback to be entered twice.  The only way it can happen is if one
        # of the input Deferreds has a cancellation function that fires the
        # Deferred with a success result.
        nonlocal winner
        if winner is None:
            # This is the first success.  Act on it.
            winner = to_cancel[this_index]

            # Cancel the rest.
            for d in to_cancel:
                if d is not winner:
                    d.cancel()

            # Fire our Deferred
            final_result.callback((this_index, this_output))

    # Keep track of how many actions have failed.  If they all fail we need to
    # deliver failure notification on our externally visible result.
    failure_state = []

    def failed(failure: Failure, this_index: int) -> None:
        failure_state.append((this_index, failure))
        if len(failure_state) == len(to_cancel):
            # Every operation failed.
            failure_state.sort()
            failures = [f for (ignored, f) in failure_state]
            final_result.errback(FailureGroup(failures))

    # Copy the sequence of Deferreds so we know it doesn't get mutated out
    # from under us.
    to_cancel = list(ds)
    for index, d in enumerate(ds):
        # Propagate the position of this action as well as the argument to f
        # to the success callback so we can cancel the right Deferreds and
        # propagate the result outwards.
        d.addCallbacks(succeeded, failed, callbackArgs=(index,), errbackArgs=(index,))

    return final_result


# Constants for use with DeferredList
SUCCESS = True
FAILURE = False


## deferredGenerator
class waitForDeferred:
    """
    See L{deferredGenerator}.
    """

    result: Any = _NO_RESULT

    def __init__(self, d: Deferred[object]) -> None:
        warnings.warn(
            "twisted.internet.defer.waitForDeferred was deprecated in "
            "Twisted 15.0.0; please use twisted.internet.defer.inlineCallbacks "
            "instead",
            DeprecationWarning,
            stacklevel=2,
        )

        if not isinstance(d, Deferred):
            raise TypeError(
                f"You must give waitForDeferred a Deferred. You gave it {d!r}."
            )
        self.d = d

    def getResult(self) -> Any:
        if isinstance(self.result, Failure):
            self.result.raiseException()
        self.result is not _NO_RESULT
        return self.result


_DeferableGenerator = Generator[object, None, None]


def _deferGenerator(
    g: _DeferableGenerator, deferred: Deferred[object]
) -> Deferred[Any]:
    """
    See L{deferredGenerator}.
    """

    result = None

    # This function is complicated by the need to prevent unbounded recursion
    # arising from repeatedly yielding immediately ready deferreds.  This while
    # loop and the waiting variable solve that by manually unfolding the
    # recursion.

    # defgen is waiting for result?  # result
    # type note: List[Any] because you can't annotate List items by index.
    #     …better fix would be to create a class, but we need to jettison
    #     deferredGenerator anyway.
    waiting: List[Any] = [True, None]

    while 1:
        try:
            result = next(g)
        except StopIteration:
            deferred.callback(result)
            return deferred
        except BaseException:
            deferred.errback()
            return deferred

        # Deferred.callback(Deferred) raises an error; we catch this case
        # early here and give a nicer error message to the user in case
        # they yield a Deferred.
        if isinstance(result, Deferred):
            return fail(TypeError("Yield waitForDeferred(d), not d!"))

        if isinstance(result, waitForDeferred):
            # a waitForDeferred was yielded, get the result.
            # Pass result in so it don't get changed going around the loop
            # This isn't a problem for waiting, as it's only reused if
            # gotResult has already been executed.
            def gotResult(
                r: object, result: waitForDeferred = cast(waitForDeferred, result)
            ) -> None:
                result.result = r
                if waiting[0]:
                    waiting[0] = False
                    waiting[1] = r
                else:
                    _deferGenerator(g, deferred)

            result.d.addBoth(gotResult)
            if waiting[0]:
                # Haven't called back yet, set flag so that we get reinvoked
                # and return from the loop
                waiting[0] = False
                return deferred
            # Reset waiting to initial values for next loop
            waiting[0] = True
            waiting[1] = None

            result = None


@deprecated(Version("Twisted", 15, 0, 0), "twisted.internet.defer.inlineCallbacks")
def deferredGenerator(
    f: Callable[..., _DeferableGenerator]
) -> Callable[..., Deferred[object]]:
    """
    L{deferredGenerator} and L{waitForDeferred} help you write
    L{Deferred}-using code that looks like a regular sequential function.
    Consider the use of L{inlineCallbacks} instead, which can accomplish
    the same thing in a more concise manner.

    There are two important functions involved: L{waitForDeferred}, and
    L{deferredGenerator}.  They are used together, like this::

        @deferredGenerator
        def thingummy():
            thing = waitForDeferred(makeSomeRequestResultingInDeferred())
            yield thing
            thing = thing.getResult()
            print(thing) #the result! hoorj!

    L{waitForDeferred} returns something that you should immediately yield; when
    your generator is resumed, calling C{thing.getResult()} will either give you
    the result of the L{Deferred} if it was a success, or raise an exception if it
    was a failure.  Calling C{getResult} is B{absolutely mandatory}.  If you do
    not call it, I{your program will not work}.

    L{deferredGenerator} takes one of these waitForDeferred-using generator
    functions and converts it into a function that returns a L{Deferred}. The
    result of the L{Deferred} will be the last value that your generator yielded
    unless the last value is a L{waitForDeferred} instance, in which case the
    result will be L{None}.  If the function raises an unhandled exception, the
    L{Deferred} will errback instead.  Remember that C{return result} won't work;
    use C{yield result; return} in place of that.

    Note that not yielding anything from your generator will make the L{Deferred}
    result in L{None}. Yielding a L{Deferred} from your generator is also an error
    condition; always yield C{waitForDeferred(d)} instead.

    The L{Deferred} returned from your deferred generator may also errback if your
    generator raised an exception.  For example::

        @deferredGenerator
        def thingummy():
            thing = waitForDeferred(makeSomeRequestResultingInDeferred())
            yield thing
            thing = thing.getResult()
            if thing == 'I love Twisted':
                # will become the result of the Deferred
                yield 'TWISTED IS GREAT!'
                return
            else:
                # will trigger an errback
                raise Exception('DESTROY ALL LIFE')

    Put succinctly, these functions connect deferred-using code with this 'fake
    blocking' style in both directions: L{waitForDeferred} converts from a
    L{Deferred} to the 'blocking' style, and L{deferredGenerator} converts from the
    'blocking' style to a L{Deferred}.
    """

    @wraps(f)
    def unwindGenerator(*args: object, **kwargs: object) -> Deferred[object]:
        return _deferGenerator(f(*args, **kwargs), Deferred())

    return unwindGenerator


## inlineCallbacks


class _DefGen_Return(BaseException):
    def __init__(self, value: object) -> None:
        self.value = value


def returnValue(val: object) -> NoReturn:
    """
    Return val from a L{inlineCallbacks} generator.

    Note: this is currently implemented by raising an exception
    derived from L{BaseException}.  You might want to change any
    'except:' clauses to an 'except Exception:' clause so as not to
    catch this exception.

    Also: while this function currently will work when called from
    within arbitrary functions called from within the generator, do
    not rely upon this behavior.
    """
    raise _DefGen_Return(val)


@attr.s(auto_attribs=True)
class _CancellationStatus(Generic[_SelfResultT]):
    """
    Cancellation status of an L{inlineCallbacks} invocation.

    @ivar deferred: the L{Deferred} to callback or errback when the generator
        invocation has finished.
    @ivar waitingOn: the L{Deferred} being waited upon (which
        L{_inlineCallbacks} must fill out before returning)
    """

    deferred: Deferred[_SelfResultT]
    waitingOn: Optional[Deferred[_SelfResultT]] = None


def _gotResultInlineCallbacks(
    r: object,
    waiting: List[Any],
    gen: Union[
        Generator[Deferred[Any], Any, _T],
        Coroutine[Deferred[Any], Any, _T],
    ],
    status: _CancellationStatus[_T],
    context: _Context,
) -> None:
    """
    Helper for L{_inlineCallbacks} to handle a nested L{Deferred} firing.

    @param r: The result of the L{Deferred}
    @param waiting: Whether the L{_inlineCallbacks} was waiting, and the result.
    @param gen: a generator object returned by calling a function or method
        decorated with C{@}L{inlineCallbacks}
    @param status: a L{_CancellationStatus} tracking the current status of C{gen}
    @param context: the contextvars context to run `gen` in
    """
    if waiting[0]:
        waiting[0] = False
        waiting[1] = r
    else:
        _inlineCallbacks(r, gen, status, context)


@_extraneous
def _inlineCallbacks(
    result: object,
    gen: Union[
        Generator[Deferred[Any], Any, _T],
        Coroutine[Deferred[Any], Any, _T],
    ],
    status: _CancellationStatus[_T],
    context: _Context,
) -> None:
    """
    Carry out the work of L{inlineCallbacks}.

    Iterate the generator produced by an C{@}L{inlineCallbacks}-decorated
    function, C{gen}, C{send()}ing it the results of each value C{yield}ed by
    that generator, until a L{Deferred} is yielded, at which point a callback
    is added to that L{Deferred} to call this function again.

    @param result: The last result seen by this generator.  Note that this is
        never a L{Deferred} - by the time this function is invoked, the
        L{Deferred} has been called back and this will be a particular result
        at a point in its callback chain.

    @param gen: a generator object returned by calling a function or method
        decorated with C{@}L{inlineCallbacks}

    @param status: a L{_CancellationStatus} tracking the current status of C{gen}

    @param context: the contextvars context to run `gen` in
    """
    # This function is complicated by the need to prevent unbounded recursion
    # arising from repeatedly yielding immediately ready deferreds.  This while
    # loop and the waiting variable solve that by manually unfolding the
    # recursion.

    # waiting for result?  # result
    waiting: List[Any] = [True, None]

    stopIteration: bool = False
    callbackValue: Any = None

    while 1:
        try:
            # Send the last result back as the result of the yield expression.
            isFailure = isinstance(result, Failure)

            if isFailure:
                result = context.run(
                    cast(Failure, result).throwExceptionIntoGenerator, gen
                )
            else:
                result = context.run(gen.send, result)
        except StopIteration as e:
            # fell off the end, or "return" statement
            stopIteration = True
            callbackValue = getattr(e, "value", None)

        except _DefGen_Return as e:
            # returnValue() was called; time to give a result to the original
            # Deferred.  First though, let's try to identify the potentially
            # confusing situation which results when returnValue() is
            # accidentally invoked from a different function, one that wasn't
            # decorated with @inlineCallbacks.

            # The traceback starts in this frame (the one for
            # _inlineCallbacks); the next one down should be the application
            # code.
            excInfo = exc_info()
            assert excInfo is not None

            traceback = excInfo[2]
            assert traceback is not None

            appCodeTrace = traceback.tb_next
            assert appCodeTrace is not None

            if _oldPypyStack:
                # PyPy versions through 7.3.13 add an extra frame; 7.3.14 fixed
                # this discrepancy with CPython.  This code can be removed once
                # we no longer need to support PyPy 7.3.13 or older.
                appCodeTrace = appCodeTrace.tb_next
                assert appCodeTrace is not None

            if isFailure:
                # If we invoked this generator frame by throwing an exception
                # into it, then throwExceptionIntoGenerator will consume an
                # additional stack frame itself, so we need to skip that too.
                appCodeTrace = appCodeTrace.tb_next
                assert appCodeTrace is not None

            # Now that we've identified the frame being exited by the
            # exception, let's figure out if returnValue was called from it
            # directly.  returnValue itself consumes a stack frame, so the
            # application code will have a tb_next, but it will *not* have a
            # second tb_next.
            assert appCodeTrace.tb_next is not None
            if appCodeTrace.tb_next.tb_next:
                # If returnValue was invoked non-local to the frame which it is
                # exiting, identify the frame that ultimately invoked
                # returnValue so that we can warn the user, as this behavior is
                # confusing.
                ultimateTrace = appCodeTrace

                assert ultimateTrace is not None
                assert ultimateTrace.tb_next is not None
                while ultimateTrace.tb_next.tb_next:
                    ultimateTrace = ultimateTrace.tb_next
                    assert ultimateTrace is not None

                filename = ultimateTrace.tb_frame.f_code.co_filename
                lineno = ultimateTrace.tb_lineno

                assert ultimateTrace.tb_frame is not None
                assert appCodeTrace.tb_frame is not None
                warnings.warn_explicit(
                    "returnValue() in %r causing %r to exit: "
                    "returnValue should only be invoked by functions decorated "
                    "with inlineCallbacks"
                    % (
                        ultimateTrace.tb_frame.f_code.co_name,
                        appCodeTrace.tb_frame.f_code.co_name,
                    ),
                    DeprecationWarning,
                    filename,
                    lineno,
                )

            stopIteration = True
            callbackValue = e.value

        except BaseException:
            status.deferred.errback()
            return

        if stopIteration:
            # Call the callback outside of the exception handler to avoid inappropriate/confusing
            # "During handling of the above exception, another exception occurred:" if the callback
            # itself throws an exception.
            status.deferred.callback(callbackValue)
            return

        if isinstance(result, Deferred):
            # a deferred was yielded, get the result.
            result.addBoth(_gotResultInlineCallbacks, waiting, gen, status, context)
            if waiting[0]:
                # Haven't called back yet, set flag so that we get reinvoked
                # and return from the loop
                waiting[0] = False
                status.waitingOn = result
                return

            result = waiting[1]
            # Reset waiting to initial values for next loop.  gotResult uses
            # waiting, but this isn't a problem because gotResult is only
            # executed once, and if it hasn't been executed yet, the return
            # branch above would have been taken.

            waiting[0] = True
            waiting[1] = None


def _addCancelCallbackToDeferred(
    it: Deferred[_T], status: _CancellationStatus[_T]
) -> None:
    """
    Helper for L{_cancellableInlineCallbacks} to add
    L{_handleCancelInlineCallbacks} as the first errback.

    @param it: The L{Deferred} to add the errback to.
    @param status: a L{_CancellationStatus} tracking the current status of C{gen}
    """
    it.callbacks, tmp = [], it.callbacks
    it = it.addErrback(_handleCancelInlineCallbacks, status)
    it.callbacks.extend(tmp)
    it.errback(_InternalInlineCallbacksCancelledError())


def _handleCancelInlineCallbacks(
    result: Failure, status: _CancellationStatus[_T], /
) -> Deferred[_T]:
    """
    Propagate the cancellation of an C{@}L{inlineCallbacks} to the
    L{Deferred} it is waiting on.

    @param result: An L{_InternalInlineCallbacksCancelledError} from
        C{cancel()}.
    @param status: a L{_CancellationStatus} tracking the current status of C{gen}
    @return: A new L{Deferred} that the C{@}L{inlineCallbacks} generator
        can callback or errback through.
    """
    result.trap(_InternalInlineCallbacksCancelledError)
    status.deferred = Deferred(lambda d: _addCancelCallbackToDeferred(d, status))

    # We would only end up here if the inlineCallback is waiting on
    # another Deferred.  It needs to be cancelled.
    awaited = status.waitingOn
    assert awaited is not None
    awaited.cancel()

    return status.deferred


def _cancellableInlineCallbacks(
    gen: Union[
        Generator[Deferred[Any], object, _T],
        Coroutine[Deferred[Any], object, _T],
    ]
) -> Deferred[_T]:
    """
    Make an C{@}L{inlineCallbacks} cancellable.

    @param gen: a generator object returned by calling a function or method
        decorated with C{@}L{inlineCallbacks}

    @return: L{Deferred} for the C{@}L{inlineCallbacks} that is cancellable.
    """

    deferred: Deferred[_T] = Deferred(lambda d: _addCancelCallbackToDeferred(d, status))
    status = _CancellationStatus(deferred)

    _inlineCallbacks(None, gen, status, _copy_context())

    return deferred


class _InternalInlineCallbacksCancelledError(Exception):
    """
    A unique exception used only in L{_cancellableInlineCallbacks} to verify
    that an L{inlineCallbacks} is being cancelled as expected.
    """


def inlineCallbacks(
    f: Callable[_P, Generator[Deferred[Any], Any, _T]]
) -> Callable[_P, Deferred[_T]]:
    """
    L{inlineCallbacks} helps you write L{Deferred}-using code that looks like a
    regular sequential function. For example::

        @inlineCallbacks
        def thingummy():
            thing = yield makeSomeRequestResultingInDeferred()
            print(thing)  # the result! hoorj!

    When you call anything that results in a L{Deferred}, you can simply yield it;
    your generator will automatically be resumed when the Deferred's result is
    available. The generator will be sent the result of the L{Deferred} with the
    'send' method on generators, or if the result was a failure, 'throw'.

    Things that are not L{Deferred}s may also be yielded, and your generator
    will be resumed with the same object sent back. This means C{yield}
    performs an operation roughly equivalent to L{maybeDeferred}.

    Your inlineCallbacks-enabled generator will return a L{Deferred} object, which
    will result in the return value of the generator (or will fail with a
    failure object if your generator raises an unhandled exception). Note that
    you can't use C{return result} to return a value; use C{returnValue(result)}
    instead. Falling off the end of the generator, or simply using C{return}
    will cause the L{Deferred} to have a result of L{None}.

    Be aware that L{returnValue} will not accept a L{Deferred} as a parameter.
    If you believe the thing you'd like to return could be a L{Deferred}, do
    this::

        result = yield result
        returnValue(result)

    The L{Deferred} returned from your deferred generator may errback if your
    generator raised an exception::

        @inlineCallbacks
        def thingummy():
            thing = yield makeSomeRequestResultingInDeferred()
            if thing == 'I love Twisted':
                # will become the result of the Deferred
                returnValue('TWISTED IS GREAT!')
            else:
                # will trigger an errback
                raise Exception('DESTROY ALL LIFE')

    It is possible to use the C{return} statement instead of L{returnValue}::

        @inlineCallbacks
        def loadData(url):
            response = yield makeRequest(url)
            return json.loads(response)

    You can cancel the L{Deferred} returned from your L{inlineCallbacks}
    generator before it is fired by your generator completing (either by
    reaching its end, a C{return} statement, or by calling L{returnValue}).
    A C{CancelledError} will be raised from the C{yield}ed L{Deferred} that
    has been cancelled if that C{Deferred} does not otherwise suppress it.
    """

    @wraps(f)
    def unwindGenerator(*args: _P.args, **kwargs: _P.kwargs) -> Deferred[_T]:
        try:
            gen = f(*args, **kwargs)
        except _DefGen_Return:
            raise TypeError(
                "inlineCallbacks requires %r to produce a generator; instead"
                "caught returnValue being used in a non-generator" % (f,)
            )
        if not isinstance(gen, GeneratorType):
            raise TypeError(
                "inlineCallbacks requires %r to produce a generator; "
                "instead got %r" % (f, gen)
            )
        return _cancellableInlineCallbacks(gen)

    return unwindGenerator


## DeferredLock/DeferredQueue


class _ConcurrencyPrimitive(ABC):
    def __init__(self: Self) -> None:
        self.waiting: List[Deferred[Self]] = []

    def _releaseAndReturn(self, r: _T) -> _T:
        self.release()
        return r

    @overload
    def run(
        self: Self,
        /,
        f: Callable[_P, Deferred[_T]],
        *args: _P.args,
        **kwargs: _P.kwargs,
    ) -> Deferred[_T]:
        ...

    @overload
    def run(
        self: Self,
        /,
        f: Callable[_P, Coroutine[Deferred[Any], Any, _T]],
        *args: _P.args,
        **kwargs: _P.kwargs,
    ) -> Deferred[_T]:
        ...

    @overload
    def run(
        self: Self, /, f: Callable[_P, _T], *args: _P.args, **kwargs: _P.kwargs
    ) -> Deferred[_T]:
        ...

    def run(
        self: Self,
        /,
        f: Callable[_P, Union[Deferred[_T], Coroutine[Deferred[Any], Any, _T], _T]],
        *args: _P.args,
        **kwargs: _P.kwargs,
    ) -> Deferred[_T]:
        """
        Acquire, run, release.

        This method takes a callable as its first argument and any
        number of other positional and keyword arguments.  When the
        lock or semaphore is acquired, the callable will be invoked
        with those arguments.

        The callable may return a L{Deferred}; if it does, the lock or
        semaphore won't be released until that L{Deferred} fires.

        @return: L{Deferred} of function result.
        """

        def execute(ignoredResult: object) -> Deferred[_T]:
            # maybeDeferred arg type requires one of the possible union members
            # and won't accept all possible union members
            return maybeDeferred(f, *args, **kwargs).addBoth(
                self._releaseAndReturn
            )  # type: ignore[return-value]

        return self.acquire().addCallback(execute)

    def __aenter__(self: Self) -> Deferred[Self]:
        """
        We can be used as an asynchronous context manager.
        """
        return self.acquire()

    def __aexit__(
        self,
        __exc_type: Optional[Type[BaseException]],
        __exc_value: Optional[BaseException],
        __traceback: Optional[TracebackType],
    ) -> Deferred[Literal[False]]:
        self.release()
        # We return False to indicate that we have not consumed the
        # exception, if any.
        return succeed(False)

    @abstractmethod
    def acquire(self: Self) -> Deferred[Self]:
        pass

    @abstractmethod
    def release(self) -> None:
        pass


class DeferredLock(_ConcurrencyPrimitive):
    """
    A lock for event driven systems.

    @ivar locked: C{True} when this Lock has been acquired, false at all other
        times.  Do not change this value, but it is useful to examine for the
        equivalent of a "non-blocking" acquisition.
    """

    locked = False

    def _cancelAcquire(self: Self, d: Deferred[Self]) -> None:
        """
        Remove a deferred d from our waiting list, as the deferred has been
        canceled.

        Note: We do not need to wrap this in a try/except to catch d not
        being in self.waiting because this canceller will not be called if
        d has fired. release() pops a deferred out of self.waiting and
        calls it, so the canceller will no longer be called.

        @param d: The deferred that has been canceled.
        """
        self.waiting.remove(d)

    def acquire(self: Self) -> Deferred[Self]:
        """
        Attempt to acquire the lock.  Returns a L{Deferred} that fires on
        lock acquisition with the L{DeferredLock} as the value.  If the lock
        is locked, then the Deferred is placed at the end of a waiting list.

        @return: a L{Deferred} which fires on lock acquisition.
        @rtype: a L{Deferred}
        """
        d: Deferred[Self] = Deferred(canceller=self._cancelAcquire)
        if self.locked:
            self.waiting.append(d)
        else:
            self.locked = True
            d.callback(self)
        return d

    def release(self: Self) -> None:
        """
        Release the lock.  If there is a waiting list, then the first
        L{Deferred} in that waiting list will be called back.

        Should be called by whomever did the L{acquire}() when the shared
        resource is free.
        """
        assert self.locked, "Tried to release an unlocked lock"
        self.locked = False
        if self.waiting:
            # someone is waiting to acquire lock
            self.locked = True
            d = self.waiting.pop(0)
            d.callback(self)


class DeferredSemaphore(_ConcurrencyPrimitive):
    """
    A semaphore for event driven systems.

    If you are looking into this as a means of limiting parallelism, you might
    find L{twisted.internet.task.Cooperator} more useful.

    @ivar limit: At most this many users may acquire this semaphore at
        once.
    @ivar tokens: The difference between C{limit} and the number of users
        which have currently acquired this semaphore.
    """

    def __init__(self, tokens: int) -> None:
        """
        @param tokens: initial value of L{tokens} and L{limit}
        @type tokens: L{int}
        """
        _ConcurrencyPrimitive.__init__(self)
        if tokens < 1:
            raise ValueError("DeferredSemaphore requires tokens >= 1")
        self.tokens = tokens
        self.limit = tokens

    def _cancelAcquire(self: Self, d: Deferred[Self]) -> None:
        """
        Remove a deferred d from our waiting list, as the deferred has been
        canceled.

        Note: We do not need to wrap this in a try/except to catch d not
        being in self.waiting because this canceller will not be called if
        d has fired. release() pops a deferred out of self.waiting and
        calls it, so the canceller will no longer be called.

        @param d: The deferred that has been canceled.
        """
        self.waiting.remove(d)

    def acquire(self: Self) -> Deferred[Self]:
        """
        Attempt to acquire the token.

        @return: a L{Deferred} which fires on token acquisition.
        """
        assert (
            self.tokens >= 0
        ), "Internal inconsistency??  tokens should never be negative"
        d: Deferred[Self] = Deferred(canceller=self._cancelAcquire)
        if not self.tokens:
            self.waiting.append(d)
        else:
            self.tokens = self.tokens - 1
            d.callback(self)
        return d

    def release(self: Self) -> None:
        """
        Release the token.

        Should be called by whoever did the L{acquire}() when the shared
        resource is free.
        """
        assert (
            self.tokens < self.limit
        ), "Someone released me too many times: too many tokens!"
        self.tokens = self.tokens + 1
        if self.waiting:
            # someone is waiting to acquire token
            self.tokens = self.tokens - 1
            d = self.waiting.pop(0)
            d.callback(self)


class QueueOverflow(Exception):
    pass


class QueueUnderflow(Exception):
    pass


class DeferredQueue(Generic[_T]):
    """
    An event driven queue.

    Objects may be added as usual to this queue.  When an attempt is
    made to retrieve an object when the queue is empty, a L{Deferred} is
    returned which will fire when an object becomes available.

    @ivar size: The maximum number of objects to allow into the queue
        at a time.  When an attempt to add a new object would exceed this
        limit, L{QueueOverflow} is raised synchronously.  L{None} for no limit.
    @ivar backlog: The maximum number of L{Deferred} gets to allow at
        one time.  When an attempt is made to get an object which would
        exceed this limit, L{QueueUnderflow} is raised synchronously.  L{None}
        for no limit.
    """

    def __init__(
        self, size: Optional[int] = None, backlog: Optional[int] = None
    ) -> None:
        self.waiting: List[Deferred[_T]] = []
        self.pending: List[_T] = []
        self.size = size
        self.backlog = backlog

    def _cancelGet(self, d: Deferred[_T]) -> None:
        """
        Remove a deferred d from our waiting list, as the deferred has been
        canceled.

        Note: We do not need to wrap this in a try/except to catch d not
        being in self.waiting because this canceller will not be called if
        d has fired. put() pops a deferred out of self.waiting and calls
        it, so the canceller will no longer be called.

        @param d: The deferred that has been canceled.
        """
        self.waiting.remove(d)

    def put(self, obj: _T) -> None:
        """
        Add an object to this queue.

        @raise QueueOverflow: Too many objects are in this queue.
        """
        if self.waiting:
            self.waiting.pop(0).callback(obj)
        elif self.size is None or len(self.pending) < self.size:
            self.pending.append(obj)
        else:
            raise QueueOverflow()

    def get(self) -> Deferred[_T]:
        """
        Attempt to retrieve and remove an object from the queue.

        @return: a L{Deferred} which fires with the next object available in
        the queue.

        @raise QueueUnderflow: Too many (more than C{backlog})
        L{Deferred}s are already waiting for an object from this queue.
        """
        if self.pending:
            return succeed(self.pending.pop(0))
        elif self.backlog is None or len(self.waiting) < self.backlog:
            d: Deferred[_T] = Deferred(canceller=self._cancelGet)
            self.waiting.append(d)
            return d
        else:
            raise QueueUnderflow()


class AlreadyTryingToLockError(Exception):
    """
    Raised when L{DeferredFilesystemLock.deferUntilLocked} is called twice on a
    single L{DeferredFilesystemLock}.
    """


class DeferredFilesystemLock(lockfile.FilesystemLock):
    """
    A L{FilesystemLock} that allows for a L{Deferred} to be fired when the lock is
    acquired.

    @ivar _scheduler: The object in charge of scheduling retries. In this
        implementation this is parameterized for testing.
    @ivar _interval: The retry interval for an L{IReactorTime} based scheduler.
    @ivar _tryLockCall: An L{IDelayedCall} based on C{_interval} that will manage
        the next retry for acquiring the lock.
    @ivar _timeoutCall: An L{IDelayedCall} based on C{deferUntilLocked}'s timeout
        argument.  This is in charge of timing out our attempt to acquire the
        lock.
    """

    _interval = 1
    _tryLockCall: Optional[IDelayedCall] = None
    _timeoutCall: Optional[IDelayedCall] = None

    def __init__(self, name: str, scheduler: Optional[IReactorTime] = None) -> None:
        """
        @param name: The name of the lock to acquire
        @param scheduler: An object which provides L{IReactorTime}
        """
        lockfile.FilesystemLock.__init__(self, name)

        if scheduler is None:
            from twisted.internet import reactor

            scheduler = cast(IReactorTime, reactor)

        self._scheduler = scheduler

    def deferUntilLocked(self, timeout: Optional[float] = None) -> Deferred[None]:
        """
        Wait until we acquire this lock.  This method is not safe for
        concurrent use.

        @param timeout: the number of seconds after which to time out if the
            lock has not been acquired.

        @return: a L{Deferred} which will callback when the lock is acquired, or
            errback with a L{TimeoutError} after timing out or an
            L{AlreadyTryingToLockError} if the L{deferUntilLocked} has already
            been called and not successfully locked the file.
        """
        if self._tryLockCall is not None:
            return fail(
                AlreadyTryingToLockError(
                    "deferUntilLocked isn't safe for concurrent use."
                )
            )

        def _cancelLock(reason: Union[Failure, Exception]) -> None:
            """
            Cancel a L{DeferredFilesystemLock.deferUntilLocked} call.

            @type reason: L{Failure}
            @param reason: The reason why the call is cancelled.
            """
            assert self._tryLockCall is not None
            self._tryLockCall.cancel()
            self._tryLockCall = None
            if self._timeoutCall is not None and self._timeoutCall.active():
                self._timeoutCall.cancel()
                self._timeoutCall = None

            if self.lock():
                d.callback(None)
            else:
                d.errback(reason)

        d: Deferred[None] = Deferred(lambda deferred: _cancelLock(CancelledError()))

        def _tryLock() -> None:
            if self.lock():
                if self._timeoutCall is not None:
                    self._timeoutCall.cancel()
                    self._timeoutCall = None

                self._tryLockCall = None

                d.callback(None)
            else:
                if timeout is not None and self._timeoutCall is None:
                    reason = Failure(
                        TimeoutError(
                            "Timed out acquiring lock: %s after %fs"
                            % (self.name, timeout)
                        )
                    )
                    self._timeoutCall = self._scheduler.callLater(
                        timeout, _cancelLock, reason
                    )

                self._tryLockCall = self._scheduler.callLater(self._interval, _tryLock)

        _tryLock()

        return d


__all__ = [
    "Deferred",
    "DeferredList",
    "succeed",
    "fail",
    "FAILURE",
    "SUCCESS",
    "AlreadyCalledError",
    "TimeoutError",
    "gatherResults",
    "maybeDeferred",
    "ensureDeferred",
    "waitForDeferred",
    "deferredGenerator",
    "inlineCallbacks",
    "returnValue",
    "DeferredLock",
    "DeferredSemaphore",
    "DeferredQueue",
    "DeferredFilesystemLock",
    "AlreadyTryingToLockError",
    "CancelledError",
]