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marcusd
2025-10-29 14:37:08 +08:00
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from __future__ import annotations
from ._eventloop import AsyncBackend as AsyncBackend
from ._resources import AsyncResource as AsyncResource
from ._sockets import ConnectedUDPSocket as ConnectedUDPSocket
from ._sockets import ConnectedUNIXDatagramSocket as ConnectedUNIXDatagramSocket
from ._sockets import IPAddressType as IPAddressType
from ._sockets import IPSockAddrType as IPSockAddrType
from ._sockets import SocketAttribute as SocketAttribute
from ._sockets import SocketListener as SocketListener
from ._sockets import SocketStream as SocketStream
from ._sockets import UDPPacketType as UDPPacketType
from ._sockets import UDPSocket as UDPSocket
from ._sockets import UNIXDatagramPacketType as UNIXDatagramPacketType
from ._sockets import UNIXDatagramSocket as UNIXDatagramSocket
from ._sockets import UNIXSocketStream as UNIXSocketStream
from ._streams import AnyByteReceiveStream as AnyByteReceiveStream
from ._streams import AnyByteSendStream as AnyByteSendStream
from ._streams import AnyByteStream as AnyByteStream
from ._streams import AnyByteStreamConnectable as AnyByteStreamConnectable
from ._streams import AnyUnreliableByteReceiveStream as AnyUnreliableByteReceiveStream
from ._streams import AnyUnreliableByteSendStream as AnyUnreliableByteSendStream
from ._streams import AnyUnreliableByteStream as AnyUnreliableByteStream
from ._streams import ByteReceiveStream as ByteReceiveStream
from ._streams import ByteSendStream as ByteSendStream
from ._streams import ByteStream as ByteStream
from ._streams import ByteStreamConnectable as ByteStreamConnectable
from ._streams import Listener as Listener
from ._streams import ObjectReceiveStream as ObjectReceiveStream
from ._streams import ObjectSendStream as ObjectSendStream
from ._streams import ObjectStream as ObjectStream
from ._streams import ObjectStreamConnectable as ObjectStreamConnectable
from ._streams import UnreliableObjectReceiveStream as UnreliableObjectReceiveStream
from ._streams import UnreliableObjectSendStream as UnreliableObjectSendStream
from ._streams import UnreliableObjectStream as UnreliableObjectStream
from ._subprocesses import Process as Process
from ._tasks import TaskGroup as TaskGroup
from ._tasks import TaskStatus as TaskStatus
from ._testing import TestRunner as TestRunner
# Re-exported here, for backwards compatibility
# isort: off
from .._core._synchronization import (
CapacityLimiter as CapacityLimiter,
Condition as Condition,
Event as Event,
Lock as Lock,
Semaphore as Semaphore,
)
from .._core._tasks import CancelScope as CancelScope
from ..from_thread import BlockingPortal as BlockingPortal
# Re-export imports so they look like they live directly in this package
for __value in list(locals().values()):
if getattr(__value, "__module__", "").startswith("anyio.abc."):
__value.__module__ = __name__
del __value

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from __future__ import annotations
import math
import sys
from abc import ABCMeta, abstractmethod
from collections.abc import AsyncIterator, Awaitable, Callable, Sequence
from contextlib import AbstractContextManager
from os import PathLike
from signal import Signals
from socket import AddressFamily, SocketKind, socket
from typing import (
IO,
TYPE_CHECKING,
Any,
TypeVar,
Union,
overload,
)
if sys.version_info >= (3, 11):
from typing import TypeVarTuple, Unpack
else:
from typing_extensions import TypeVarTuple, Unpack
if sys.version_info >= (3, 10):
from typing import TypeAlias
else:
from typing_extensions import TypeAlias
if TYPE_CHECKING:
from _typeshed import FileDescriptorLike
from .._core._synchronization import CapacityLimiter, Event, Lock, Semaphore
from .._core._tasks import CancelScope
from .._core._testing import TaskInfo
from ..from_thread import BlockingPortal
from ._sockets import (
ConnectedUDPSocket,
ConnectedUNIXDatagramSocket,
IPSockAddrType,
SocketListener,
SocketStream,
UDPSocket,
UNIXDatagramSocket,
UNIXSocketStream,
)
from ._subprocesses import Process
from ._tasks import TaskGroup
from ._testing import TestRunner
T_Retval = TypeVar("T_Retval")
PosArgsT = TypeVarTuple("PosArgsT")
StrOrBytesPath: TypeAlias = Union[str, bytes, "PathLike[str]", "PathLike[bytes]"]
class AsyncBackend(metaclass=ABCMeta):
@classmethod
@abstractmethod
def run(
cls,
func: Callable[[Unpack[PosArgsT]], Awaitable[T_Retval]],
args: tuple[Unpack[PosArgsT]],
kwargs: dict[str, Any],
options: dict[str, Any],
) -> T_Retval:
"""
Run the given coroutine function in an asynchronous event loop.
The current thread must not be already running an event loop.
:param func: a coroutine function
:param args: positional arguments to ``func``
:param kwargs: positional arguments to ``func``
:param options: keyword arguments to call the backend ``run()`` implementation
with
:return: the return value of the coroutine function
"""
@classmethod
@abstractmethod
def current_token(cls) -> object:
"""
Return an object that allows other threads to run code inside the event loop.
:return: a token object, specific to the event loop running in the current
thread
"""
@classmethod
@abstractmethod
def current_time(cls) -> float:
"""
Return the current value of the event loop's internal clock.
:return: the clock value (seconds)
"""
@classmethod
@abstractmethod
def cancelled_exception_class(cls) -> type[BaseException]:
"""Return the exception class that is raised in a task if it's cancelled."""
@classmethod
@abstractmethod
async def checkpoint(cls) -> None:
"""
Check if the task has been cancelled, and allow rescheduling of other tasks.
This is effectively the same as running :meth:`checkpoint_if_cancelled` and then
:meth:`cancel_shielded_checkpoint`.
"""
@classmethod
async def checkpoint_if_cancelled(cls) -> None:
"""
Check if the current task group has been cancelled.
This will check if the task has been cancelled, but will not allow other tasks
to be scheduled if not.
"""
if cls.current_effective_deadline() == -math.inf:
await cls.checkpoint()
@classmethod
async def cancel_shielded_checkpoint(cls) -> None:
"""
Allow the rescheduling of other tasks.
This will give other tasks the opportunity to run, but without checking if the
current task group has been cancelled, unlike with :meth:`checkpoint`.
"""
with cls.create_cancel_scope(shield=True):
await cls.sleep(0)
@classmethod
@abstractmethod
async def sleep(cls, delay: float) -> None:
"""
Pause the current task for the specified duration.
:param delay: the duration, in seconds
"""
@classmethod
@abstractmethod
def create_cancel_scope(
cls, *, deadline: float = math.inf, shield: bool = False
) -> CancelScope:
pass
@classmethod
@abstractmethod
def current_effective_deadline(cls) -> float:
"""
Return the nearest deadline among all the cancel scopes effective for the
current task.
:return:
- a clock value from the event loop's internal clock
- ``inf`` if there is no deadline in effect
- ``-inf`` if the current scope has been cancelled
:rtype: float
"""
@classmethod
@abstractmethod
def create_task_group(cls) -> TaskGroup:
pass
@classmethod
@abstractmethod
def create_event(cls) -> Event:
pass
@classmethod
@abstractmethod
def create_lock(cls, *, fast_acquire: bool) -> Lock:
pass
@classmethod
@abstractmethod
def create_semaphore(
cls,
initial_value: int,
*,
max_value: int | None = None,
fast_acquire: bool = False,
) -> Semaphore:
pass
@classmethod
@abstractmethod
def create_capacity_limiter(cls, total_tokens: float) -> CapacityLimiter:
pass
@classmethod
@abstractmethod
async def run_sync_in_worker_thread(
cls,
func: Callable[[Unpack[PosArgsT]], T_Retval],
args: tuple[Unpack[PosArgsT]],
abandon_on_cancel: bool = False,
limiter: CapacityLimiter | None = None,
) -> T_Retval:
pass
@classmethod
@abstractmethod
def check_cancelled(cls) -> None:
pass
@classmethod
@abstractmethod
def run_async_from_thread(
cls,
func: Callable[[Unpack[PosArgsT]], Awaitable[T_Retval]],
args: tuple[Unpack[PosArgsT]],
token: object,
) -> T_Retval:
pass
@classmethod
@abstractmethod
def run_sync_from_thread(
cls,
func: Callable[[Unpack[PosArgsT]], T_Retval],
args: tuple[Unpack[PosArgsT]],
token: object,
) -> T_Retval:
pass
@classmethod
@abstractmethod
def create_blocking_portal(cls) -> BlockingPortal:
pass
@classmethod
@abstractmethod
async def open_process(
cls,
command: StrOrBytesPath | Sequence[StrOrBytesPath],
*,
stdin: int | IO[Any] | None,
stdout: int | IO[Any] | None,
stderr: int | IO[Any] | None,
**kwargs: Any,
) -> Process:
pass
@classmethod
@abstractmethod
def setup_process_pool_exit_at_shutdown(cls, workers: set[Process]) -> None:
pass
@classmethod
@abstractmethod
async def connect_tcp(
cls, host: str, port: int, local_address: IPSockAddrType | None = None
) -> SocketStream:
pass
@classmethod
@abstractmethod
async def connect_unix(cls, path: str | bytes) -> UNIXSocketStream:
pass
@classmethod
@abstractmethod
def create_tcp_listener(cls, sock: socket) -> SocketListener:
pass
@classmethod
@abstractmethod
def create_unix_listener(cls, sock: socket) -> SocketListener:
pass
@classmethod
@abstractmethod
async def create_udp_socket(
cls,
family: AddressFamily,
local_address: IPSockAddrType | None,
remote_address: IPSockAddrType | None,
reuse_port: bool,
) -> UDPSocket | ConnectedUDPSocket:
pass
@classmethod
@overload
async def create_unix_datagram_socket(
cls, raw_socket: socket, remote_path: None
) -> UNIXDatagramSocket: ...
@classmethod
@overload
async def create_unix_datagram_socket(
cls, raw_socket: socket, remote_path: str | bytes
) -> ConnectedUNIXDatagramSocket: ...
@classmethod
@abstractmethod
async def create_unix_datagram_socket(
cls, raw_socket: socket, remote_path: str | bytes | None
) -> UNIXDatagramSocket | ConnectedUNIXDatagramSocket:
pass
@classmethod
@abstractmethod
async def getaddrinfo(
cls,
host: bytes | str | None,
port: str | int | None,
*,
family: int | AddressFamily = 0,
type: int | SocketKind = 0,
proto: int = 0,
flags: int = 0,
) -> Sequence[
tuple[
AddressFamily,
SocketKind,
int,
str,
tuple[str, int] | tuple[str, int, int, int] | tuple[int, bytes],
]
]:
pass
@classmethod
@abstractmethod
async def getnameinfo(
cls, sockaddr: IPSockAddrType, flags: int = 0
) -> tuple[str, str]:
pass
@classmethod
@abstractmethod
async def wait_readable(cls, obj: FileDescriptorLike) -> None:
pass
@classmethod
@abstractmethod
async def wait_writable(cls, obj: FileDescriptorLike) -> None:
pass
@classmethod
@abstractmethod
def notify_closing(cls, obj: FileDescriptorLike) -> None:
pass
@classmethod
@abstractmethod
async def wrap_listener_socket(cls, sock: socket) -> SocketListener:
pass
@classmethod
@abstractmethod
async def wrap_stream_socket(cls, sock: socket) -> SocketStream:
pass
@classmethod
@abstractmethod
async def wrap_unix_stream_socket(cls, sock: socket) -> UNIXSocketStream:
pass
@classmethod
@abstractmethod
async def wrap_udp_socket(cls, sock: socket) -> UDPSocket:
pass
@classmethod
@abstractmethod
async def wrap_connected_udp_socket(cls, sock: socket) -> ConnectedUDPSocket:
pass
@classmethod
@abstractmethod
async def wrap_unix_datagram_socket(cls, sock: socket) -> UNIXDatagramSocket:
pass
@classmethod
@abstractmethod
async def wrap_connected_unix_datagram_socket(
cls, sock: socket
) -> ConnectedUNIXDatagramSocket:
pass
@classmethod
@abstractmethod
def current_default_thread_limiter(cls) -> CapacityLimiter:
pass
@classmethod
@abstractmethod
def open_signal_receiver(
cls, *signals: Signals
) -> AbstractContextManager[AsyncIterator[Signals]]:
pass
@classmethod
@abstractmethod
def get_current_task(cls) -> TaskInfo:
pass
@classmethod
@abstractmethod
def get_running_tasks(cls) -> Sequence[TaskInfo]:
pass
@classmethod
@abstractmethod
async def wait_all_tasks_blocked(cls) -> None:
pass
@classmethod
@abstractmethod
def create_test_runner(cls, options: dict[str, Any]) -> TestRunner:
pass

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download-backend/.venv/lib/python3.12/site-packages/anyio/abc/_resources.py Normal file
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from __future__ import annotations
from abc import ABCMeta, abstractmethod
from types import TracebackType
from typing import TypeVar
T = TypeVar("T")
class AsyncResource(metaclass=ABCMeta):
"""
Abstract base class for all closeable asynchronous resources.
Works as an asynchronous context manager which returns the instance itself on enter,
and calls :meth:`aclose` on exit.
"""
__slots__ = ()
async def __aenter__(self: T) -> T:
return self
async def __aexit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> None:
await self.aclose()
@abstractmethod
async def aclose(self) -> None:
"""Close the resource."""

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from __future__ import annotations
import errno
import socket
import sys
from abc import abstractmethod
from collections.abc import Callable, Collection, Mapping
from contextlib import AsyncExitStack
from io import IOBase
from ipaddress import IPv4Address, IPv6Address
from socket import AddressFamily
from typing import Any, TypeVar, Union
from .._core._eventloop import get_async_backend
from .._core._typedattr import (
TypedAttributeProvider,
TypedAttributeSet,
typed_attribute,
)
from ._streams import ByteStream, Listener, UnreliableObjectStream
from ._tasks import TaskGroup
if sys.version_info >= (3, 10):
from typing import TypeAlias
else:
from typing_extensions import TypeAlias
IPAddressType: TypeAlias = Union[str, IPv4Address, IPv6Address]
IPSockAddrType: TypeAlias = tuple[str, int]
SockAddrType: TypeAlias = Union[IPSockAddrType, str]
UDPPacketType: TypeAlias = tuple[bytes, IPSockAddrType]
UNIXDatagramPacketType: TypeAlias = tuple[bytes, str]
T_Retval = TypeVar("T_Retval")
def _validate_socket(
sock_or_fd: socket.socket | int,
sock_type: socket.SocketKind,
addr_family: socket.AddressFamily = socket.AF_UNSPEC,
*,
require_connected: bool = False,
require_bound: bool = False,
) -> socket.socket:
if isinstance(sock_or_fd, int):
try:
sock = socket.socket(fileno=sock_or_fd)
except OSError as exc:
if exc.errno == errno.ENOTSOCK:
raise ValueError(
"the file descriptor does not refer to a socket"
) from exc
elif require_connected:
raise ValueError("the socket must be connected") from exc
elif require_bound:
raise ValueError("the socket must be bound to a local address") from exc
else:
raise
elif isinstance(sock_or_fd, socket.socket):
sock = sock_or_fd
else:
raise TypeError(
f"expected an int or socket, got {type(sock_or_fd).__qualname__} instead"
)
try:
if require_connected:
try:
sock.getpeername()
except OSError as exc:
raise ValueError("the socket must be connected") from exc
if require_bound:
try:
if sock.family in (socket.AF_INET, socket.AF_INET6):
bound_addr = sock.getsockname()[1]
else:
bound_addr = sock.getsockname()
except OSError:
bound_addr = None
if not bound_addr:
raise ValueError("the socket must be bound to a local address")
if addr_family != socket.AF_UNSPEC and sock.family != addr_family:
raise ValueError(
f"address family mismatch: expected {addr_family.name}, got "
f"{sock.family.name}"
)
if sock.type != sock_type:
raise ValueError(
f"socket type mismatch: expected {sock_type.name}, got {sock.type.name}"
)
except BaseException:
# Avoid ResourceWarning from the locally constructed socket object
if isinstance(sock_or_fd, int):
sock.detach()
raise
sock.setblocking(False)
return sock
class SocketAttribute(TypedAttributeSet):
"""
.. attribute:: family
:type: socket.AddressFamily
the address family of the underlying socket
.. attribute:: local_address
:type: tuple[str, int] | str
the local address the underlying socket is connected to
.. attribute:: local_port
:type: int
for IP based sockets, the local port the underlying socket is bound to
.. attribute:: raw_socket
:type: socket.socket
the underlying stdlib socket object
.. attribute:: remote_address
:type: tuple[str, int] | str
the remote address the underlying socket is connected to
.. attribute:: remote_port
:type: int
for IP based sockets, the remote port the underlying socket is connected to
"""
family: AddressFamily = typed_attribute()
local_address: SockAddrType = typed_attribute()
local_port: int = typed_attribute()
raw_socket: socket.socket = typed_attribute()
remote_address: SockAddrType = typed_attribute()
remote_port: int = typed_attribute()
class _SocketProvider(TypedAttributeProvider):
@property
def extra_attributes(self) -> Mapping[Any, Callable[[], Any]]:
from .._core._sockets import convert_ipv6_sockaddr as convert
attributes: dict[Any, Callable[[], Any]] = {
SocketAttribute.family: lambda: self._raw_socket.family,
SocketAttribute.local_address: lambda: convert(
self._raw_socket.getsockname()
),
SocketAttribute.raw_socket: lambda: self._raw_socket,
}
try:
peername: tuple[str, int] | None = convert(self._raw_socket.getpeername())
except OSError:
peername = None
# Provide the remote address for connected sockets
if peername is not None:
attributes[SocketAttribute.remote_address] = lambda: peername
# Provide local and remote ports for IP based sockets
if self._raw_socket.family in (AddressFamily.AF_INET, AddressFamily.AF_INET6):
attributes[SocketAttribute.local_port] = (
lambda: self._raw_socket.getsockname()[1]
)
if peername is not None:
remote_port = peername[1]
attributes[SocketAttribute.remote_port] = lambda: remote_port
return attributes
@property
@abstractmethod
def _raw_socket(self) -> socket.socket:
pass
class SocketStream(ByteStream, _SocketProvider):
"""
Transports bytes over a socket.
Supports all relevant extra attributes from :class:`~SocketAttribute`.
"""
@classmethod
async def from_socket(cls, sock_or_fd: socket.socket | int) -> SocketStream:
"""
Wrap an existing socket object or file descriptor as a socket stream.
The newly created socket wrapper takes ownership of the socket being passed in.
The existing socket must already be connected.
:param sock_or_fd: a socket object or file descriptor
:return: a socket stream
"""
sock = _validate_socket(sock_or_fd, socket.SOCK_STREAM, require_connected=True)
return await get_async_backend().wrap_stream_socket(sock)
class UNIXSocketStream(SocketStream):
@classmethod
async def from_socket(cls, sock_or_fd: socket.socket | int) -> UNIXSocketStream:
"""
Wrap an existing socket object or file descriptor as a UNIX socket stream.
The newly created socket wrapper takes ownership of the socket being passed in.
The existing socket must already be connected.
:param sock_or_fd: a socket object or file descriptor
:return: a UNIX socket stream
"""
sock = _validate_socket(
sock_or_fd, socket.SOCK_STREAM, socket.AF_UNIX, require_connected=True
)
return await get_async_backend().wrap_unix_stream_socket(sock)
@abstractmethod
async def send_fds(self, message: bytes, fds: Collection[int | IOBase]) -> None:
"""
Send file descriptors along with a message to the peer.
:param message: a non-empty bytestring
:param fds: a collection of files (either numeric file descriptors or open file
or socket objects)
"""
@abstractmethod
async def receive_fds(self, msglen: int, maxfds: int) -> tuple[bytes, list[int]]:
"""
Receive file descriptors along with a message from the peer.
:param msglen: length of the message to expect from the peer
:param maxfds: maximum number of file descriptors to expect from the peer
:return: a tuple of (message, file descriptors)
"""
class SocketListener(Listener[SocketStream], _SocketProvider):
"""
Listens to incoming socket connections.
Supports all relevant extra attributes from :class:`~SocketAttribute`.
"""
@classmethod
async def from_socket(
cls,
sock_or_fd: socket.socket | int,
) -> SocketListener:
"""
Wrap an existing socket object or file descriptor as a socket listener.
The newly created listener takes ownership of the socket being passed in.
:param sock_or_fd: a socket object or file descriptor
:return: a socket listener
"""
sock = _validate_socket(sock_or_fd, socket.SOCK_STREAM, require_bound=True)
return await get_async_backend().wrap_listener_socket(sock)
@abstractmethod
async def accept(self) -> SocketStream:
"""Accept an incoming connection."""
async def serve(
self,
handler: Callable[[SocketStream], Any],
task_group: TaskGroup | None = None,
) -> None:
from .. import create_task_group
async with AsyncExitStack() as stack:
if task_group is None:
task_group = await stack.enter_async_context(create_task_group())
while True:
stream = await self.accept()
task_group.start_soon(handler, stream)
class UDPSocket(UnreliableObjectStream[UDPPacketType], _SocketProvider):
"""
Represents an unconnected UDP socket.
Supports all relevant extra attributes from :class:`~SocketAttribute`.
"""
@classmethod
async def from_socket(cls, sock_or_fd: socket.socket | int) -> UDPSocket:
"""
Wrap an existing socket object or file descriptor as a UDP socket.
The newly created socket wrapper takes ownership of the socket being passed in.
The existing socket must be bound to a local address.
:param sock_or_fd: a socket object or file descriptor
:return: a UDP socket
"""
sock = _validate_socket(sock_or_fd, socket.SOCK_DGRAM, require_bound=True)
return await get_async_backend().wrap_udp_socket(sock)
async def sendto(self, data: bytes, host: str, port: int) -> None:
"""
Alias for :meth:`~.UnreliableObjectSendStream.send` ((data, (host, port))).
"""
return await self.send((data, (host, port)))
class ConnectedUDPSocket(UnreliableObjectStream[bytes], _SocketProvider):
"""
Represents an connected UDP socket.
Supports all relevant extra attributes from :class:`~SocketAttribute`.
"""
@classmethod
async def from_socket(cls, sock_or_fd: socket.socket | int) -> ConnectedUDPSocket:
"""
Wrap an existing socket object or file descriptor as a connected UDP socket.
The newly created socket wrapper takes ownership of the socket being passed in.
The existing socket must already be connected.
:param sock_or_fd: a socket object or file descriptor
:return: a connected UDP socket
"""
sock = _validate_socket(
sock_or_fd,
socket.SOCK_DGRAM,
require_connected=True,
)
return await get_async_backend().wrap_connected_udp_socket(sock)
class UNIXDatagramSocket(
UnreliableObjectStream[UNIXDatagramPacketType], _SocketProvider
):
"""
Represents an unconnected Unix datagram socket.
Supports all relevant extra attributes from :class:`~SocketAttribute`.
"""
@classmethod
async def from_socket(
cls,
sock_or_fd: socket.socket | int,
) -> UNIXDatagramSocket:
"""
Wrap an existing socket object or file descriptor as a UNIX datagram
socket.
The newly created socket wrapper takes ownership of the socket being passed in.
:param sock_or_fd: a socket object or file descriptor
:return: a UNIX datagram socket
"""
sock = _validate_socket(sock_or_fd, socket.SOCK_DGRAM, socket.AF_UNIX)
return await get_async_backend().wrap_unix_datagram_socket(sock)
async def sendto(self, data: bytes, path: str) -> None:
"""Alias for :meth:`~.UnreliableObjectSendStream.send` ((data, path))."""
return await self.send((data, path))
class ConnectedUNIXDatagramSocket(UnreliableObjectStream[bytes], _SocketProvider):
"""
Represents a connected Unix datagram socket.
Supports all relevant extra attributes from :class:`~SocketAttribute`.
"""
@classmethod
async def from_socket(
cls,
sock_or_fd: socket.socket | int,
) -> ConnectedUNIXDatagramSocket:
"""
Wrap an existing socket object or file descriptor as a connected UNIX datagram
socket.
The newly created socket wrapper takes ownership of the socket being passed in.
The existing socket must already be connected.
:param sock_or_fd: a socket object or file descriptor
:return: a connected UNIX datagram socket
"""
sock = _validate_socket(
sock_or_fd, socket.SOCK_DGRAM, socket.AF_UNIX, require_connected=True
)
return await get_async_backend().wrap_connected_unix_datagram_socket(sock)

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from __future__ import annotations
import sys
from abc import ABCMeta, abstractmethod
from collections.abc import Callable
from typing import Any, Generic, TypeVar, Union
from .._core._exceptions import EndOfStream
from .._core._typedattr import TypedAttributeProvider
from ._resources import AsyncResource
from ._tasks import TaskGroup
if sys.version_info >= (3, 10):
from typing import TypeAlias
else:
from typing_extensions import TypeAlias
T_Item = TypeVar("T_Item")
T_co = TypeVar("T_co", covariant=True)
T_contra = TypeVar("T_contra", contravariant=True)
class UnreliableObjectReceiveStream(
Generic[T_co], AsyncResource, TypedAttributeProvider
):
"""
An interface for receiving objects.
This interface makes no guarantees that the received messages arrive in the order in
which they were sent, or that no messages are missed.
Asynchronously iterating over objects of this type will yield objects matching the
given type parameter.
"""
def __aiter__(self) -> UnreliableObjectReceiveStream[T_co]:
return self
async def __anext__(self) -> T_co:
try:
return await self.receive()
except EndOfStream:
raise StopAsyncIteration from None
@abstractmethod
async def receive(self) -> T_co:
"""
Receive the next item.
:raises ~anyio.ClosedResourceError: if the receive stream has been explicitly
closed
:raises ~anyio.EndOfStream: if this stream has been closed from the other end
:raises ~anyio.BrokenResourceError: if this stream has been rendered unusable
due to external causes
"""
class UnreliableObjectSendStream(
Generic[T_contra], AsyncResource, TypedAttributeProvider
):
"""
An interface for sending objects.
This interface makes no guarantees that the messages sent will reach the
recipient(s) in the same order in which they were sent, or at all.
"""
@abstractmethod
async def send(self, item: T_contra) -> None:
"""
Send an item to the peer(s).
:param item: the item to send
:raises ~anyio.ClosedResourceError: if the send stream has been explicitly
closed
:raises ~anyio.BrokenResourceError: if this stream has been rendered unusable
due to external causes
"""
class UnreliableObjectStream(
UnreliableObjectReceiveStream[T_Item], UnreliableObjectSendStream[T_Item]
):
"""
A bidirectional message stream which does not guarantee the order or reliability of
message delivery.
"""
class ObjectReceiveStream(UnreliableObjectReceiveStream[T_co]):
"""
A receive message stream which guarantees that messages are received in the same
order in which they were sent, and that no messages are missed.
"""
class ObjectSendStream(UnreliableObjectSendStream[T_contra]):
"""
A send message stream which guarantees that messages are delivered in the same order
in which they were sent, without missing any messages in the middle.
"""
class ObjectStream(
ObjectReceiveStream[T_Item],
ObjectSendStream[T_Item],
UnreliableObjectStream[T_Item],
):
"""
A bidirectional message stream which guarantees the order and reliability of message
delivery.
"""
@abstractmethod
async def send_eof(self) -> None:
"""
Send an end-of-file indication to the peer.
You should not try to send any further data to this stream after calling this
method. This method is idempotent (does nothing on successive calls).
"""
class ByteReceiveStream(AsyncResource, TypedAttributeProvider):
"""
An interface for receiving bytes from a single peer.
Iterating this byte stream will yield a byte string of arbitrary length, but no more
than 65536 bytes.
"""
def __aiter__(self) -> ByteReceiveStream:
return self
async def __anext__(self) -> bytes:
try:
return await self.receive()
except EndOfStream:
raise StopAsyncIteration from None
@abstractmethod
async def receive(self, max_bytes: int = 65536) -> bytes:
"""
Receive at most ``max_bytes`` bytes from the peer.
.. note:: Implementers of this interface should not return an empty
:class:`bytes` object, and users should ignore them.
:param max_bytes: maximum number of bytes to receive
:return: the received bytes
:raises ~anyio.EndOfStream: if this stream has been closed from the other end
"""
class ByteSendStream(AsyncResource, TypedAttributeProvider):
"""An interface for sending bytes to a single peer."""
@abstractmethod
async def send(self, item: bytes) -> None:
"""
Send the given bytes to the peer.
:param item: the bytes to send
"""
class ByteStream(ByteReceiveStream, ByteSendStream):
"""A bidirectional byte stream."""
@abstractmethod
async def send_eof(self) -> None:
"""
Send an end-of-file indication to the peer.
You should not try to send any further data to this stream after calling this
method. This method is idempotent (does nothing on successive calls).
"""
#: Type alias for all unreliable bytes-oriented receive streams.
AnyUnreliableByteReceiveStream: TypeAlias = Union[
UnreliableObjectReceiveStream[bytes], ByteReceiveStream
]
#: Type alias for all unreliable bytes-oriented send streams.
AnyUnreliableByteSendStream: TypeAlias = Union[
UnreliableObjectSendStream[bytes], ByteSendStream
]
#: Type alias for all unreliable bytes-oriented streams.
AnyUnreliableByteStream: TypeAlias = Union[UnreliableObjectStream[bytes], ByteStream]
#: Type alias for all bytes-oriented receive streams.
AnyByteReceiveStream: TypeAlias = Union[ObjectReceiveStream[bytes], ByteReceiveStream]
#: Type alias for all bytes-oriented send streams.
AnyByteSendStream: TypeAlias = Union[ObjectSendStream[bytes], ByteSendStream]
#: Type alias for all bytes-oriented streams.
AnyByteStream: TypeAlias = Union[ObjectStream[bytes], ByteStream]
class Listener(Generic[T_co], AsyncResource, TypedAttributeProvider):
"""An interface for objects that let you accept incoming connections."""
@abstractmethod
async def serve(
self, handler: Callable[[T_co], Any], task_group: TaskGroup | None = None
) -> None:
"""
Accept incoming connections as they come in and start tasks to handle them.
:param handler: a callable that will be used to handle each accepted connection
:param task_group: the task group that will be used to start tasks for handling
each accepted connection (if omitted, an ad-hoc task group will be created)
"""
class ObjectStreamConnectable(Generic[T_co], metaclass=ABCMeta):
@abstractmethod
async def connect(self) -> ObjectStream[T_co]:
"""
Connect to the remote endpoint.
:return: an object stream connected to the remote end
:raises ConnectionFailed: if the connection fails
"""
class ByteStreamConnectable(metaclass=ABCMeta):
@abstractmethod
async def connect(self) -> ByteStream:
"""
Connect to the remote endpoint.
:return: a bytestream connected to the remote end
:raises ConnectionFailed: if the connection fails
"""
#: Type alias for all connectables returning bytestreams or bytes-oriented object streams
AnyByteStreamConnectable: TypeAlias = Union[
ObjectStreamConnectable[bytes], ByteStreamConnectable
]

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from __future__ import annotations
from abc import abstractmethod
from signal import Signals
from ._resources import AsyncResource
from ._streams import ByteReceiveStream, ByteSendStream
class Process(AsyncResource):
"""An asynchronous version of :class:`subprocess.Popen`."""
@abstractmethod
async def wait(self) -> int:
"""
Wait until the process exits.
:return: the exit code of the process
"""
@abstractmethod
def terminate(self) -> None:
"""
Terminates the process, gracefully if possible.
On Windows, this calls ``TerminateProcess()``.
On POSIX systems, this sends ``SIGTERM`` to the process.
.. seealso:: :meth:`subprocess.Popen.terminate`
"""
@abstractmethod
def kill(self) -> None:
"""
Kills the process.
On Windows, this calls ``TerminateProcess()``.
On POSIX systems, this sends ``SIGKILL`` to the process.
.. seealso:: :meth:`subprocess.Popen.kill`
"""
@abstractmethod
def send_signal(self, signal: Signals) -> None:
"""
Send a signal to the subprocess.
.. seealso:: :meth:`subprocess.Popen.send_signal`
:param signal: the signal number (e.g. :data:`signal.SIGHUP`)
"""
@property
@abstractmethod
def pid(self) -> int:
"""The process ID of the process."""
@property
@abstractmethod
def returncode(self) -> int | None:
"""
The return code of the process. If the process has not yet terminated, this will
be ``None``.
"""
@property
@abstractmethod
def stdin(self) -> ByteSendStream | None:
"""The stream for the standard input of the process."""
@property
@abstractmethod
def stdout(self) -> ByteReceiveStream | None:
"""The stream for the standard output of the process."""
@property
@abstractmethod
def stderr(self) -> ByteReceiveStream | None:
"""The stream for the standard error output of the process."""

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from __future__ import annotations
import sys
from abc import ABCMeta, abstractmethod
from collections.abc import Awaitable, Callable
from types import TracebackType
from typing import TYPE_CHECKING, Any, Protocol, overload
if sys.version_info >= (3, 13):
from typing import TypeVar
else:
from typing_extensions import TypeVar
if sys.version_info >= (3, 11):
from typing import TypeVarTuple, Unpack
else:
from typing_extensions import TypeVarTuple, Unpack
if TYPE_CHECKING:
from .._core._tasks import CancelScope
T_Retval = TypeVar("T_Retval")
T_contra = TypeVar("T_contra", contravariant=True, default=None)
PosArgsT = TypeVarTuple("PosArgsT")
class TaskStatus(Protocol[T_contra]):
@overload
def started(self: TaskStatus[None]) -> None: ...
@overload
def started(self, value: T_contra) -> None: ...
def started(self, value: T_contra | None = None) -> None:
"""
Signal that the task has started.
:param value: object passed back to the starter of the task
"""
class TaskGroup(metaclass=ABCMeta):
"""
Groups several asynchronous tasks together.
:ivar cancel_scope: the cancel scope inherited by all child tasks
:vartype cancel_scope: CancelScope
.. note:: On asyncio, support for eager task factories is considered to be
**experimental**. In particular, they don't follow the usual semantics of new
tasks being scheduled on the next iteration of the event loop, and may thus
cause unexpected behavior in code that wasn't written with such semantics in
mind.
"""
cancel_scope: CancelScope
@abstractmethod
def start_soon(
self,
func: Callable[[Unpack[PosArgsT]], Awaitable[Any]],
*args: Unpack[PosArgsT],
name: object = None,
) -> None:
"""
Start a new task in this task group.
:param func: a coroutine function
:param args: positional arguments to call the function with
:param name: name of the task, for the purposes of introspection and debugging
.. versionadded:: 3.0
"""
@abstractmethod
async def start(
self,
func: Callable[..., Awaitable[Any]],
*args: object,
name: object = None,
) -> Any:
"""
Start a new task and wait until it signals for readiness.
The target callable must accept a keyword argument ``task_status`` (of type
:class:`TaskStatus`). Awaiting on this method will return whatever was passed to
``task_status.started()`` (``None`` by default).
.. note:: The :class:`TaskStatus` class is generic, and the type argument should
indicate the type of the value that will be passed to
``task_status.started()``.
:param func: a coroutine function that accepts the ``task_status`` keyword
argument
:param args: positional arguments to call the function with
:param name: an optional name for the task, for introspection and debugging
:return: the value passed to ``task_status.started()``
:raises RuntimeError: if the task finishes without calling
``task_status.started()``
.. seealso:: :ref:`start_initialize`
.. versionadded:: 3.0
"""
@abstractmethod
async def __aenter__(self) -> TaskGroup:
"""Enter the task group context and allow starting new tasks."""
@abstractmethod
async def __aexit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: TracebackType | None,
) -> bool:
"""Exit the task group context waiting for all tasks to finish."""

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from __future__ import annotations
import types
from abc import ABCMeta, abstractmethod
from collections.abc import AsyncGenerator, Callable, Coroutine, Iterable
from typing import Any, TypeVar
_T = TypeVar("_T")
class TestRunner(metaclass=ABCMeta):
"""
Encapsulates a running event loop. Every call made through this object will use the
same event loop.
"""
def __enter__(self) -> TestRunner:
return self
@abstractmethod
def __exit__(
self,
exc_type: type[BaseException] | None,
exc_val: BaseException | None,
exc_tb: types.TracebackType | None,
) -> bool | None: ...
@abstractmethod
def run_asyncgen_fixture(
self,
fixture_func: Callable[..., AsyncGenerator[_T, Any]],
kwargs: dict[str, Any],
) -> Iterable[_T]:
"""
Run an async generator fixture.
:param fixture_func: the fixture function
:param kwargs: keyword arguments to call the fixture function with
:return: an iterator yielding the value yielded from the async generator
"""
@abstractmethod
def run_fixture(
self,
fixture_func: Callable[..., Coroutine[Any, Any, _T]],
kwargs: dict[str, Any],
) -> _T:
"""
Run an async fixture.
:param fixture_func: the fixture function
:param kwargs: keyword arguments to call the fixture function with
:return: the return value of the fixture function
"""
@abstractmethod
def run_test(
self, test_func: Callable[..., Coroutine[Any, Any, Any]], kwargs: dict[str, Any]
) -> None:
"""
Run an async test function.
:param test_func: the test function
:param kwargs: keyword arguments to call the test function with
"""