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import array
import math
import socket
from concurrent.futures import Future
from contextvars import copy_context
from dataclasses import dataclass
from functools import partial
from io import IOBase
from os import PathLike
from signal import Signals
from types import TracebackType
from typing import (
IO,
TYPE_CHECKING,
Any,
AsyncGenerator,
Awaitable,
Callable,
Collection,
ContextManager,
Coroutine,
Deque,
Dict,
Generic,
Iterable,
List,
Mapping,
NoReturn,
Optional,
Sequence,
Set,
Tuple,
Type,
TypeVar,
Union,
cast,
)
import sniffio
import trio.from_thread
from outcome import Error, Outcome, Value
from trio.socket import SocketType as TrioSocketType
from trio.to_thread import run_sync
from .. import CapacityLimiterStatistics, EventStatistics, TaskInfo, abc
from .._core._compat import DeprecatedAsyncContextManager, DeprecatedAwaitable, T
from .._core._eventloop import claim_worker_thread
from .._core._exceptions import (
BrokenResourceError,
BusyResourceError,
ClosedResourceError,
EndOfStream,
)
from .._core._exceptions import ExceptionGroup as BaseExceptionGroup
from .._core._sockets import convert_ipv6_sockaddr
from .._core._synchronization import CapacityLimiter as BaseCapacityLimiter
from .._core._synchronization import Event as BaseEvent
from .._core._synchronization import ResourceGuard
from .._core._tasks import CancelScope as BaseCancelScope
from ..abc import IPSockAddrType, UDPPacketType
if TYPE_CHECKING:
from trio_typing import TaskStatus
try:
from trio import lowlevel as trio_lowlevel
except ImportError:
from trio import hazmat as trio_lowlevel # type: ignore[no-redef]
from trio.hazmat import wait_readable, wait_writable
else:
from trio.lowlevel import wait_readable, wait_writable
try:
trio_open_process = trio_lowlevel.open_process # type: ignore[attr-defined]
except AttributeError:
from trio import open_process as trio_open_process
T_Retval = TypeVar("T_Retval")
T_SockAddr = TypeVar("T_SockAddr", str, IPSockAddrType)
#
# Event loop
#
run = trio.run
current_token = trio.lowlevel.current_trio_token
RunVar = trio.lowlevel.RunVar
#
# Miscellaneous
#
sleep = trio.sleep
#
# Timeouts and cancellation
#
class CancelScope(BaseCancelScope):
def __new__(
cls, original: Optional[trio.CancelScope] = None, **kwargs: object
) -> "CancelScope":
return object.__new__(cls)
def __init__(
self, original: Optional[trio.CancelScope] = None, **kwargs: Any
) -> None:
self.__original = original or trio.CancelScope(**kwargs)
def __enter__(self) -> "CancelScope":
self.__original.__enter__()
return self
def __exit__(
self,
exc_type: Optional[Type[BaseException]],
exc_val: Optional[BaseException],
exc_tb: Optional[TracebackType],
) -> Optional[bool]:
return self.__original.__exit__(exc_type, exc_val, exc_tb)
def cancel(self) -> DeprecatedAwaitable:
self.__original.cancel()
return DeprecatedAwaitable(self.cancel)
@property
def deadline(self) -> float:
return self.__original.deadline
@deadline.setter
def deadline(self, value: float) -> None:
self.__original.deadline = value
@property
def cancel_called(self) -> bool:
return self.__original.cancel_called
@property
def shield(self) -> bool:
return self.__original.shield
@shield.setter
def shield(self, value: bool) -> None:
self.__original.shield = value
CancelledError = trio.Cancelled
checkpoint = trio.lowlevel.checkpoint
checkpoint_if_cancelled = trio.lowlevel.checkpoint_if_cancelled
cancel_shielded_checkpoint = trio.lowlevel.cancel_shielded_checkpoint
current_effective_deadline = trio.current_effective_deadline
current_time = trio.current_time
#
# Task groups
#
class ExceptionGroup(BaseExceptionGroup, trio.MultiError):
pass
class TaskGroup(abc.TaskGroup):
def __init__(self) -> None:
self._active = False
self._nursery_manager = trio.open_nursery()
self.cancel_scope = None # type: ignore[assignment]
async def __aenter__(self) -> "TaskGroup":
self._active = True
self._nursery = await self._nursery_manager.__aenter__()
self.cancel_scope = CancelScope(self._nursery.cancel_scope)
return self
async def __aexit__(
self,
exc_type: Optional[Type[BaseException]],
exc_val: Optional[BaseException],
exc_tb: Optional[TracebackType],
) -> Optional[bool]:
try:
return await self._nursery_manager.__aexit__(exc_type, exc_val, exc_tb)
except trio.MultiError as exc:
raise ExceptionGroup(exc.exceptions) from None
finally:
self._active = False
def start_soon(self, func: Callable, *args: object, name: object = None) -> None:
if not self._active:
raise RuntimeError(
"This task group is not active; no new tasks can be started."
)
self._nursery.start_soon(func, *args, name=name)
async def start(
self, func: Callable[..., Coroutine], *args: object, name: object = None
) -> object:
if not self._active:
raise RuntimeError(
"This task group is not active; no new tasks can be started."
)
return await self._nursery.start(func, *args, name=name)
#
# Threads
#
async def run_sync_in_worker_thread(
func: Callable[..., T_Retval],
*args: object,
cancellable: bool = False,
limiter: Optional[trio.CapacityLimiter] = None,
) -> T_Retval:
def wrapper() -> T_Retval:
with claim_worker_thread("trio"):
return func(*args)
# TODO: remove explicit context copying when trio 0.20 is the minimum requirement
context = copy_context()
context.run(sniffio.current_async_library_cvar.set, None)
return await run_sync(
context.run, wrapper, cancellable=cancellable, limiter=limiter
)
# TODO: remove this workaround when trio 0.20 is the minimum requirement
def run_async_from_thread(
fn: Callable[..., Awaitable[T_Retval]], *args: Any
) -> T_Retval:
async def wrapper() -> T_Retval:
retval: T_Retval
async def inner() -> None:
nonlocal retval
__tracebackhide__ = True
retval = await fn(*args)
async with trio.open_nursery() as n:
context.run(n.start_soon, inner)
__tracebackhide__ = True
return retval
context = copy_context()
context.run(sniffio.current_async_library_cvar.set, "trio")
return trio.from_thread.run(wrapper)
def run_sync_from_thread(fn: Callable[..., T_Retval], *args: Any) -> T_Retval:
# TODO: remove explicit context copying when trio 0.20 is the minimum requirement
retval = trio.from_thread.run_sync(copy_context().run, fn, *args)
return cast(T_Retval, retval)
class BlockingPortal(abc.BlockingPortal):
def __new__(cls) -> "BlockingPortal":
return object.__new__(cls)
def __init__(self) -> None:
super().__init__()
self._token = trio.lowlevel.current_trio_token()
def _spawn_task_from_thread(
self,
func: Callable,
args: tuple,
kwargs: Dict[str, Any],
name: object,
future: Future,
) -> None:
context = copy_context()
context.run(sniffio.current_async_library_cvar.set, "trio")
trio.from_thread.run_sync(
context.run,
partial(self._task_group.start_soon, name=name),
self._call_func,
func,
args,
kwargs,
future,
trio_token=self._token,
)
#
# Subprocesses
#
@dataclass(eq=False)
class ReceiveStreamWrapper(abc.ByteReceiveStream):
_stream: trio.abc.ReceiveStream
async def receive(self, max_bytes: Optional[int] = None) -> bytes:
try:
data = await self._stream.receive_some(max_bytes)
except trio.ClosedResourceError as exc:
raise ClosedResourceError from exc.__cause__
except trio.BrokenResourceError as exc:
raise BrokenResourceError from exc.__cause__
if data:
return data
else:
raise EndOfStream
async def aclose(self) -> None:
await self._stream.aclose()
@dataclass(eq=False)
class SendStreamWrapper(abc.ByteSendStream):
_stream: trio.abc.SendStream
async def send(self, item: bytes) -> None:
try:
await self._stream.send_all(item)
except trio.ClosedResourceError as exc:
raise ClosedResourceError from exc.__cause__
except trio.BrokenResourceError as exc:
raise BrokenResourceError from exc.__cause__
async def aclose(self) -> None:
await self._stream.aclose()
@dataclass(eq=False)
class Process(abc.Process):
_process: trio.Process
_stdin: Optional[abc.ByteSendStream]
_stdout: Optional[abc.ByteReceiveStream]
_stderr: Optional[abc.ByteReceiveStream]
async def aclose(self) -> None:
if self._stdin:
await self._stdin.aclose()
if self._stdout:
await self._stdout.aclose()
if self._stderr:
await self._stderr.aclose()
await self.wait()
async def wait(self) -> int:
return await self._process.wait()
def terminate(self) -> None:
self._process.terminate()
def kill(self) -> None:
self._process.kill()
def send_signal(self, signal: Signals) -> None:
self._process.send_signal(signal)
@property
def pid(self) -> int:
return self._process.pid
@property
def returncode(self) -> Optional[int]:
return self._process.returncode
@property
def stdin(self) -> Optional[abc.ByteSendStream]:
return self._stdin
@property
def stdout(self) -> Optional[abc.ByteReceiveStream]:
return self._stdout
@property
def stderr(self) -> Optional[abc.ByteReceiveStream]:
return self._stderr
async def open_process(
command: Union[str, bytes, Sequence[Union[str, bytes]]],
*,
shell: bool,
stdin: Union[int, IO[Any], None],
stdout: Union[int, IO[Any], None],
stderr: Union[int, IO[Any], None],
cwd: Union[str, bytes, PathLike, None] = None,
env: Optional[Mapping[str, str]] = None,
start_new_session: bool = False,
) -> Process:
process = await trio_open_process(
command,
stdin=stdin,
stdout=stdout,
stderr=stderr,
shell=shell,
cwd=cwd,
env=env,
start_new_session=start_new_session,
)
stdin_stream = SendStreamWrapper(process.stdin) if process.stdin else None
stdout_stream = ReceiveStreamWrapper(process.stdout) if process.stdout else None
stderr_stream = ReceiveStreamWrapper(process.stderr) if process.stderr else None
return Process(process, stdin_stream, stdout_stream, stderr_stream)
class _ProcessPoolShutdownInstrument(trio.abc.Instrument):
def after_run(self) -> None:
super().after_run()
current_default_worker_process_limiter: RunVar = RunVar(
"current_default_worker_process_limiter"
)
async def _shutdown_process_pool(workers: Set[Process]) -> None:
process: Process
try:
await sleep(math.inf)
except trio.Cancelled:
for process in workers:
if process.returncode is None:
process.kill()
with CancelScope(shield=True):
for process in workers:
await process.aclose()
def setup_process_pool_exit_at_shutdown(workers: Set[Process]) -> None:
trio.lowlevel.spawn_system_task(_shutdown_process_pool, workers)
#
# Sockets and networking
#
class _TrioSocketMixin(Generic[T_SockAddr]):
def __init__(self, trio_socket: TrioSocketType) -> None:
self._trio_socket = trio_socket
self._closed = False
def _check_closed(self) -> None:
if self._closed:
raise ClosedResourceError
if self._trio_socket.fileno() < 0:
raise BrokenResourceError
@property
def _raw_socket(self) -> socket.socket:
return self._trio_socket._sock # type: ignore[attr-defined]
async def aclose(self) -> None:
if self._trio_socket.fileno() >= 0:
self._closed = True
self._trio_socket.close()
def _convert_socket_error(self, exc: BaseException) -> "NoReturn":
if isinstance(exc, trio.ClosedResourceError):
raise ClosedResourceError from exc
elif self._trio_socket.fileno() < 0 and self._closed:
raise ClosedResourceError from None
elif isinstance(exc, OSError):
raise BrokenResourceError from exc
else:
raise exc
class SocketStream(_TrioSocketMixin, abc.SocketStream):
def __init__(self, trio_socket: TrioSocketType) -> None:
super().__init__(trio_socket)
self._receive_guard = ResourceGuard("reading from")
self._send_guard = ResourceGuard("writing to")
async def receive(self, max_bytes: int = 65536) -> bytes:
with self._receive_guard:
try:
data = await self._trio_socket.recv(max_bytes)
except BaseException as exc:
self._convert_socket_error(exc)
if data:
return data
else:
raise EndOfStream
async def send(self, item: bytes) -> None:
with self._send_guard:
view = memoryview(item)
while view:
try:
bytes_sent = await self._trio_socket.send(view)
except BaseException as exc:
self._convert_socket_error(exc)
view = view[bytes_sent:]
async def send_eof(self) -> None:
self._trio_socket.shutdown(socket.SHUT_WR)
class UNIXSocketStream(SocketStream, abc.UNIXSocketStream):
async def receive_fds(self, msglen: int, maxfds: int) -> Tuple[bytes, List[int]]:
if not isinstance(msglen, int) or msglen < 0:
raise ValueError("msglen must be a non-negative integer")
if not isinstance(maxfds, int) or maxfds < 1:
raise ValueError("maxfds must be a positive integer")
fds = array.array("i")
await checkpoint()
with self._receive_guard:
while True:
try:
message, ancdata, flags, addr = await self._trio_socket.recvmsg(
msglen, socket.CMSG_LEN(maxfds * fds.itemsize)
)
except BaseException as exc:
self._convert_socket_error(exc)
else:
if not message and not ancdata:
raise EndOfStream
break
for cmsg_level, cmsg_type, cmsg_data in ancdata:
if cmsg_level != socket.SOL_SOCKET or cmsg_type != socket.SCM_RIGHTS:
raise RuntimeError(
f"Received unexpected ancillary data; message = {message!r}, "
f"cmsg_level = {cmsg_level}, cmsg_type = {cmsg_type}"
)
fds.frombytes(cmsg_data[: len(cmsg_data) - (len(cmsg_data) % fds.itemsize)])
return message, list(fds)
async def send_fds(
self, message: bytes, fds: Collection[Union[int, IOBase]]
) -> None:
if not message:
raise ValueError("message must not be empty")
if not fds:
raise ValueError("fds must not be empty")
filenos: List[int] = []
for fd in fds:
if isinstance(fd, int):
filenos.append(fd)
elif isinstance(fd, IOBase):
filenos.append(fd.fileno())
fdarray = array.array("i", filenos)
await checkpoint()
with self._send_guard:
while True:
try:
await self._trio_socket.sendmsg(
[message],
[
(
socket.SOL_SOCKET,
socket.SCM_RIGHTS, # type: ignore[list-item]
fdarray,
)
],
)
break
except BaseException as exc:
self._convert_socket_error(exc)
class TCPSocketListener(_TrioSocketMixin, abc.SocketListener):
def __init__(self, raw_socket: socket.socket):
super().__init__(trio.socket.from_stdlib_socket(raw_socket))
self._accept_guard = ResourceGuard("accepting connections from")
async def accept(self) -> SocketStream:
with self._accept_guard:
try:
trio_socket, _addr = await self._trio_socket.accept()
except BaseException as exc:
self._convert_socket_error(exc)
trio_socket.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 1)
return SocketStream(trio_socket)
class UNIXSocketListener(_TrioSocketMixin, abc.SocketListener):
def __init__(self, raw_socket: socket.socket):
super().__init__(trio.socket.from_stdlib_socket(raw_socket))
self._accept_guard = ResourceGuard("accepting connections from")
async def accept(self) -> UNIXSocketStream:
with self._accept_guard:
try:
trio_socket, _addr = await self._trio_socket.accept()
except BaseException as exc:
self._convert_socket_error(exc)
return UNIXSocketStream(trio_socket)
class UDPSocket(_TrioSocketMixin[IPSockAddrType], abc.UDPSocket):
def __init__(self, trio_socket: TrioSocketType) -> None:
super().__init__(trio_socket)
self._receive_guard = ResourceGuard("reading from")
self._send_guard = ResourceGuard("writing to")
async def receive(self) -> Tuple[bytes, IPSockAddrType]:
with self._receive_guard:
try:
data, addr = await self._trio_socket.recvfrom(65536)
return data, convert_ipv6_sockaddr(addr)
except BaseException as exc:
self._convert_socket_error(exc)
async def send(self, item: UDPPacketType) -> None:
with self._send_guard:
try:
await self._trio_socket.sendto(*item)
except BaseException as exc:
self._convert_socket_error(exc)
class ConnectedUDPSocket(_TrioSocketMixin[IPSockAddrType], abc.ConnectedUDPSocket):
def __init__(self, trio_socket: TrioSocketType) -> None:
super().__init__(trio_socket)
self._receive_guard = ResourceGuard("reading from")
self._send_guard = ResourceGuard("writing to")
async def receive(self) -> bytes:
with self._receive_guard:
try:
return await self._trio_socket.recv(65536)
except BaseException as exc:
self._convert_socket_error(exc)
async def send(self, item: bytes) -> None:
with self._send_guard:
try:
await self._trio_socket.send(item)
except BaseException as exc:
self._convert_socket_error(exc)
async def connect_tcp(
host: str, port: int, local_address: Optional[IPSockAddrType] = None
) -> SocketStream:
family = socket.AF_INET6 if ":" in host else socket.AF_INET
trio_socket = trio.socket.socket(family)
trio_socket.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 1)
if local_address:
await trio_socket.bind(local_address)
try:
await trio_socket.connect((host, port))
except BaseException:
trio_socket.close()
raise
return SocketStream(trio_socket)
async def connect_unix(path: str) -> UNIXSocketStream:
trio_socket = trio.socket.socket(socket.AF_UNIX)
try:
await trio_socket.connect(path)
except BaseException:
trio_socket.close()
raise
return UNIXSocketStream(trio_socket)
async def create_udp_socket(
family: socket.AddressFamily,
local_address: Optional[IPSockAddrType],
remote_address: Optional[IPSockAddrType],
reuse_port: bool,
) -> Union[UDPSocket, ConnectedUDPSocket]:
trio_socket = trio.socket.socket(family=family, type=socket.SOCK_DGRAM)
if reuse_port:
trio_socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEPORT, 1)
if local_address:
await trio_socket.bind(local_address)
if remote_address:
await trio_socket.connect(remote_address)
return ConnectedUDPSocket(trio_socket)
else:
return UDPSocket(trio_socket)
getaddrinfo = trio.socket.getaddrinfo
getnameinfo = trio.socket.getnameinfo
async def wait_socket_readable(sock: socket.socket) -> None:
try:
await wait_readable(sock)
except trio.ClosedResourceError as exc:
raise ClosedResourceError().with_traceback(exc.__traceback__) from None
except trio.BusyResourceError:
raise BusyResourceError("reading from") from None
async def wait_socket_writable(sock: socket.socket) -> None:
try:
await wait_writable(sock)
except trio.ClosedResourceError as exc:
raise ClosedResourceError().with_traceback(exc.__traceback__) from None
except trio.BusyResourceError:
raise BusyResourceError("writing to") from None
#
# Synchronization
#
class Event(BaseEvent):
def __new__(cls) -> "Event":
return object.__new__(cls)
def __init__(self) -> None:
self.__original = trio.Event()
def is_set(self) -> bool:
return self.__original.is_set()
async def wait(self) -> None:
return await self.__original.wait()
def statistics(self) -> EventStatistics:
orig_statistics = self.__original.statistics()
return EventStatistics(tasks_waiting=orig_statistics.tasks_waiting)
def set(self) -> DeprecatedAwaitable:
self.__original.set()
return DeprecatedAwaitable(self.set)
class CapacityLimiter(BaseCapacityLimiter):
def __new__(cls, *args: object, **kwargs: object) -> "CapacityLimiter":
return object.__new__(cls)
def __init__(
self, *args: Any, original: Optional[trio.CapacityLimiter] = None
) -> None:
self.__original = original or trio.CapacityLimiter(*args)
async def __aenter__(self) -> None:
return await self.__original.__aenter__()
async def __aexit__(
self,
exc_type: Optional[Type[BaseException]],
exc_val: Optional[BaseException],
exc_tb: Optional[TracebackType],
) -> Optional[bool]:
return await self.__original.__aexit__(exc_type, exc_val, exc_tb)
@property
def total_tokens(self) -> float:
return self.__original.total_tokens
@total_tokens.setter
def total_tokens(self, value: float) -> None:
self.__original.total_tokens = value
@property
def borrowed_tokens(self) -> int:
return self.__original.borrowed_tokens
@property
def available_tokens(self) -> float:
return self.__original.available_tokens
def acquire_nowait(self) -> DeprecatedAwaitable:
self.__original.acquire_nowait()
return DeprecatedAwaitable(self.acquire_nowait)
def acquire_on_behalf_of_nowait(self, borrower: object) -> DeprecatedAwaitable:
self.__original.acquire_on_behalf_of_nowait(borrower)
return DeprecatedAwaitable(self.acquire_on_behalf_of_nowait)
async def acquire(self) -> None:
await self.__original.acquire()
async def acquire_on_behalf_of(self, borrower: object) -> None:
await self.__original.acquire_on_behalf_of(borrower)
def release(self) -> None:
return self.__original.release()
def release_on_behalf_of(self, borrower: object) -> None:
return self.__original.release_on_behalf_of(borrower)
def statistics(self) -> CapacityLimiterStatistics:
orig = self.__original.statistics()
return CapacityLimiterStatistics(
borrowed_tokens=orig.borrowed_tokens,
total_tokens=orig.total_tokens,
borrowers=orig.borrowers,
tasks_waiting=orig.tasks_waiting,
)
_capacity_limiter_wrapper: RunVar = RunVar("_capacity_limiter_wrapper")
def current_default_thread_limiter() -> CapacityLimiter:
try:
return _capacity_limiter_wrapper.get()
except LookupError:
limiter = CapacityLimiter(
original=trio.to_thread.current_default_thread_limiter()
)
_capacity_limiter_wrapper.set(limiter)
return limiter
#
# Signal handling
#
class _SignalReceiver(DeprecatedAsyncContextManager[T]):
def __init__(self, cm: ContextManager[T]):
self._cm = cm
def __enter__(self) -> T:
return self._cm.__enter__()
def __exit__(
self,
exc_type: Optional[Type[BaseException]],
exc_val: Optional[BaseException],
exc_tb: Optional[TracebackType],
) -> Optional[bool]:
return self._cm.__exit__(exc_type, exc_val, exc_tb)
def open_signal_receiver(*signals: Signals) -> _SignalReceiver:
cm = trio.open_signal_receiver(*signals)
return _SignalReceiver(cm)
#
# Testing and debugging
#
def get_current_task() -> TaskInfo:
task = trio_lowlevel.current_task()
parent_id = None
if task.parent_nursery and task.parent_nursery.parent_task:
parent_id = id(task.parent_nursery.parent_task)
return TaskInfo(id(task), parent_id, task.name, task.coro)
def get_running_tasks() -> List[TaskInfo]:
root_task = trio_lowlevel.current_root_task()
task_infos = [TaskInfo(id(root_task), None, root_task.name, root_task.coro)]
nurseries = root_task.child_nurseries
while nurseries:
new_nurseries: List[trio.Nursery] = []
for nursery in nurseries:
for task in nursery.child_tasks:
task_infos.append(
TaskInfo(id(task), id(nursery.parent_task), task.name, task.coro)
)
new_nurseries.extend(task.child_nurseries)
nurseries = new_nurseries
return task_infos
def wait_all_tasks_blocked() -> Awaitable[None]:
import trio.testing
return trio.testing.wait_all_tasks_blocked()
class TestRunner(abc.TestRunner):
def __init__(self, **options: Any) -> None:
from collections import deque
from queue import Queue
self._call_queue: "Queue[Callable[..., object]]" = Queue()
self._result_queue: Deque[Outcome] = deque()
self._stop_event: Optional[trio.Event] = None
self._nursery: Optional[trio.Nursery] = None
self._options = options
async def _trio_main(self) -> None:
self._stop_event = trio.Event()
async with trio.open_nursery() as self._nursery:
await self._stop_event.wait()
async def _call_func(
self, func: Callable[..., Awaitable[object]], args: tuple, kwargs: dict
) -> None:
try:
retval = await func(*args, **kwargs)
except BaseException as exc:
self._result_queue.append(Error(exc))
else:
self._result_queue.append(Value(retval))
def _main_task_finished(self, outcome: object) -> None:
self._nursery = None
def _get_nursery(self) -> trio.Nursery:
if self._nursery is None:
trio.lowlevel.start_guest_run(
self._trio_main,
run_sync_soon_threadsafe=self._call_queue.put,
done_callback=self._main_task_finished,
**self._options,
)
while self._nursery is None:
self._call_queue.get()()
return self._nursery
def _call(
self, func: Callable[..., Awaitable[T_Retval]], *args: object, **kwargs: object
) -> T_Retval:
self._get_nursery().start_soon(self._call_func, func, args, kwargs)
while not self._result_queue:
self._call_queue.get()()
outcome = self._result_queue.pop()
return outcome.unwrap()
def close(self) -> None:
if self._stop_event:
self._stop_event.set()
while self._nursery is not None:
self._call_queue.get()()
def run_asyncgen_fixture(
self,
fixture_func: Callable[..., AsyncGenerator[T_Retval, Any]],
kwargs: Dict[str, Any],
) -> Iterable[T_Retval]:
async def fixture_runner(*, task_status: "TaskStatus") -> None:
agen = fixture_func(**kwargs)
retval = await agen.asend(None)
task_status.started(retval)
await teardown_event.wait()
try:
await agen.asend(None)
except StopAsyncIteration:
pass
else:
await agen.aclose()
raise RuntimeError("Async generator fixture did not stop")
teardown_event = trio.Event()
fixture_value = self._call(lambda: self._get_nursery().start(fixture_runner))
yield fixture_value
teardown_event.set()
def run_fixture(
self,
fixture_func: Callable[..., Coroutine[Any, Any, T_Retval]],
kwargs: Dict[str, Any],
) -> T_Retval:
return self._call(fixture_func, **kwargs)
def run_test(
self, test_func: Callable[..., Coroutine[Any, Any, Any]], kwargs: Dict[str, Any]
) -> None:
self._call(test_func, **kwargs)