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-import array -import asyncio -import concurrent.futures -import math -import socket -import sys -import threading -from asyncio import ( - AbstractEventLoop, - CancelledError, - all_tasks, - create_task, - current_task, - get_running_loop, - sleep, -) -from asyncio.base_events import _run_until_complete_cb # type: ignore[attr-defined] -from collections import OrderedDict, deque -from collections.abc import AsyncIterator, Generator, Iterable -from concurrent.futures import Future -from contextlib import suppress -from contextvars import Context, copy_context -from dataclasses import dataclass -from functools import partial, wraps -from inspect import ( - CORO_RUNNING, - CORO_SUSPENDED, - getcoroutinestate, - iscoroutine, -) -from io import IOBase -from os import PathLike -from queue import Queue -from signal import Signals -from socket import AddressFamily, SocketKind -from threading import Thread -from types import TracebackType -from typing import ( - IO, - Any, - AsyncGenerator, - Awaitable, - Callable, - Collection, - ContextManager, - Coroutine, - Mapping, - Optional, - Sequence, - Tuple, - TypeVar, - cast, -) -from weakref import WeakKeyDictionary - -import sniffio - -from .. import CapacityLimiterStatistics, EventStatistics, TaskInfo, abc -from .._core._eventloop import claim_worker_thread, threadlocals -from .._core._exceptions import ( - BrokenResourceError, - BusyResourceError, - ClosedResourceError, - EndOfStream, - WouldBlock, -) -from .._core._sockets import convert_ipv6_sockaddr -from .._core._streams import create_memory_object_stream -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 ( - AsyncBackend, - IPSockAddrType, - SocketListener, - UDPPacketType, - UNIXDatagramPacketType, -) -from ..lowlevel import RunVar -from ..streams.memory import MemoryObjectReceiveStream, MemoryObjectSendStream - -if sys.version_info >= (3, 10): - from typing import ParamSpec -else: - from typing_extensions import ParamSpec - -if sys.version_info >= (3, 11): - from asyncio import Runner - from typing import TypeVarTuple, Unpack -else: - import contextvars - import enum - import signal - from asyncio import coroutines, events, exceptions, tasks - - from exceptiongroup import BaseExceptionGroup - from typing_extensions import TypeVarTuple, Unpack - - class _State(enum.Enum): - CREATED = "created" - INITIALIZED = "initialized" - CLOSED = "closed" - - class Runner: - # Copied from CPython 3.11 - def __init__( - self, - *, - debug: bool | None = None, - loop_factory: Callable[[], AbstractEventLoop] | None = None, - ): - self._state = _State.CREATED - self._debug = debug - self._loop_factory = loop_factory - self._loop: AbstractEventLoop | None = None - self._context = None - self._interrupt_count = 0 - self._set_event_loop = False - - def __enter__(self) -> Runner: - self._lazy_init() - return self - - def __exit__( - self, - exc_type: type[BaseException], - exc_val: BaseException, - exc_tb: TracebackType, - ) -> None: - self.close() - - def close(self) -> None: - """Shutdown and close event loop.""" - if self._state is not _State.INITIALIZED: - return - try: - loop = self._loop - _cancel_all_tasks(loop) - loop.run_until_complete(loop.shutdown_asyncgens()) - if hasattr(loop, "shutdown_default_executor"): - loop.run_until_complete(loop.shutdown_default_executor()) - else: - loop.run_until_complete(_shutdown_default_executor(loop)) - finally: - if self._set_event_loop: - events.set_event_loop(None) - loop.close() - self._loop = None - self._state = _State.CLOSED - - def get_loop(self) -> AbstractEventLoop: - """Return embedded event loop.""" - self._lazy_init() - return self._loop - - def run(self, coro: Coroutine[T_Retval], *, context=None) -> T_Retval: - """Run a coroutine inside the embedded event loop.""" - if not coroutines.iscoroutine(coro): - raise ValueError(f"a coroutine was expected, got {coro!r}") - - if events._get_running_loop() is not None: - # fail fast with short traceback - raise RuntimeError( - "Runner.run() cannot be called from a running event loop" - ) - - self._lazy_init() - - if context is None: - context = self._context - task = context.run(self._loop.create_task, coro) - - if ( - threading.current_thread() is threading.main_thread() - and signal.getsignal(signal.SIGINT) is signal.default_int_handler - ): - sigint_handler = partial(self._on_sigint, main_task=task) - try: - signal.signal(signal.SIGINT, sigint_handler) - except ValueError: - # `signal.signal` may throw if `threading.main_thread` does - # not support signals (e.g. embedded interpreter with signals - # not registered - see gh-91880) - sigint_handler = None - else: - sigint_handler = None - - self._interrupt_count = 0 - try: - return self._loop.run_until_complete(task) - except exceptions.CancelledError: - if self._interrupt_count > 0: - uncancel = getattr(task, "uncancel", None) - if uncancel is not None and uncancel() == 0: - raise KeyboardInterrupt() - raise # CancelledError - finally: - if ( - sigint_handler is not None - and signal.getsignal(signal.SIGINT) is sigint_handler - ): - signal.signal(signal.SIGINT, signal.default_int_handler) - - def _lazy_init(self) -> None: - if self._state is _State.CLOSED: - raise RuntimeError("Runner is closed") - if self._state is _State.INITIALIZED: - return - if self._loop_factory is None: - self._loop = events.new_event_loop() - if not self._set_event_loop: - # Call set_event_loop only once to avoid calling - # attach_loop multiple times on child watchers - events.set_event_loop(self._loop) - self._set_event_loop = True - else: - self._loop = self._loop_factory() - if self._debug is not None: - self._loop.set_debug(self._debug) - self._context = contextvars.copy_context() - self._state = _State.INITIALIZED - - def _on_sigint(self, signum, frame, main_task: asyncio.Task) -> None: - self._interrupt_count += 1 - if self._interrupt_count == 1 and not main_task.done(): - main_task.cancel() - # wakeup loop if it is blocked by select() with long timeout - self._loop.call_soon_threadsafe(lambda: None) - return - raise KeyboardInterrupt() - - def _cancel_all_tasks(loop: AbstractEventLoop) -> None: - to_cancel = tasks.all_tasks(loop) - if not to_cancel: - return - - for task in to_cancel: - task.cancel() - - loop.run_until_complete(tasks.gather(*to_cancel, return_exceptions=True)) - - for task in to_cancel: - if task.cancelled(): - continue - if task.exception() is not None: - loop.call_exception_handler( - { - "message": "unhandled exception during asyncio.run() shutdown", - "exception": task.exception(), - "task": task, - } - ) - - async def _shutdown_default_executor(loop: AbstractEventLoop) -> None: - """Schedule the shutdown of the default executor.""" - - def _do_shutdown(future: asyncio.futures.Future) -> None: - try: - loop._default_executor.shutdown(wait=True) # type: ignore[attr-defined] - loop.call_soon_threadsafe(future.set_result, None) - except Exception as ex: - loop.call_soon_threadsafe(future.set_exception, ex) - - loop._executor_shutdown_called = True - if loop._default_executor is None: - return - future = loop.create_future() - thread = threading.Thread(target=_do_shutdown, args=(future,)) - thread.start() - try: - await future - finally: - thread.join() - - -T_Retval = TypeVar("T_Retval") -T_contra = TypeVar("T_contra", contravariant=True) -PosArgsT = TypeVarTuple("PosArgsT") -P = ParamSpec("P") - -_root_task: RunVar[asyncio.Task | None] = RunVar("_root_task") - - -def find_root_task() -> asyncio.Task: - root_task = _root_task.get(None) - if root_task is not None and not root_task.done(): - return root_task - - # Look for a task that has been started via run_until_complete() - for task in all_tasks(): - if task._callbacks and not task.done(): - callbacks = [cb for cb, context in task._callbacks] - for cb in callbacks: - if ( - cb is _run_until_complete_cb - or getattr(cb, "__module__", None) == "uvloop.loop" - ): - _root_task.set(task) - return task - - # Look up the topmost task in the AnyIO task tree, if possible - task = cast(asyncio.Task, current_task()) - state = _task_states.get(task) - if state: - cancel_scope = state.cancel_scope - while cancel_scope and cancel_scope._parent_scope is not None: - cancel_scope = cancel_scope._parent_scope - - if cancel_scope is not None: - return cast(asyncio.Task, cancel_scope._host_task) - - return task - - -def get_callable_name(func: Callable) -> str: - module = getattr(func, "__module__", None) - qualname = getattr(func, "__qualname__", None) - return ".".join([x for x in (module, qualname) if x]) - - -# -# Event loop -# - -_run_vars: WeakKeyDictionary[asyncio.AbstractEventLoop, Any] = WeakKeyDictionary() - - -def _task_started(task: asyncio.Task) -> bool: - """Return ``True`` if the task has been started and has not finished.""" - try: - return getcoroutinestate(task.get_coro()) in (CORO_RUNNING, CORO_SUSPENDED) - except AttributeError: - # task coro is async_genenerator_asend https://bugs.python.org/issue37771 - raise Exception(f"Cannot determine if task {task} has started or not") from None - - -# -# Timeouts and cancellation -# - - -class CancelScope(BaseCancelScope): - def __new__( - cls, *, deadline: float = math.inf, shield: bool = False - ) -> CancelScope: - return object.__new__(cls) - - def __init__(self, deadline: float = math.inf, shield: bool = False): - self._deadline = deadline - self._shield = shield - self._parent_scope: CancelScope | None = None - self._child_scopes: set[CancelScope] = set() - self._cancel_called = False - self._cancelled_caught = False - self._active = False - self._timeout_handle: asyncio.TimerHandle | None = None - self._cancel_handle: asyncio.Handle | None = None - self._tasks: set[asyncio.Task] = set() - self._host_task: asyncio.Task | None = None - self._cancel_calls: int = 0 - self._cancelling: int | None = None - - def __enter__(self) -> CancelScope: - if self._active: - raise RuntimeError( - "Each CancelScope may only be used for a single 'with' block" - ) - - self._host_task = host_task = cast(asyncio.Task, current_task()) - self._tasks.add(host_task) - try: - task_state = _task_states[host_task] - except KeyError: - task_state = TaskState(None, self) - _task_states[host_task] = task_state - else: - self._parent_scope = task_state.cancel_scope - task_state.cancel_scope = self - if self._parent_scope is not None: - self._parent_scope._child_scopes.add(self) - self._parent_scope._tasks.remove(host_task) - - self._timeout() - self._active = True - if sys.version_info >= (3, 11): - self._cancelling = self._host_task.cancelling() - - # Start cancelling the host task if the scope was cancelled before entering - if self._cancel_called: - self._deliver_cancellation(self) - - return self - - def __exit__( - self, - exc_type: type[BaseException] | None, - exc_val: BaseException | None, - exc_tb: TracebackType | None, - ) -> bool | None: - if not self._active: - raise RuntimeError("This cancel scope is not active") - if current_task() is not self._host_task: - raise RuntimeError( - "Attempted to exit cancel scope in a different task than it was " - "entered in" - ) - - assert self._host_task is not None - host_task_state = _task_states.get(self._host_task) - if host_task_state is None or host_task_state.cancel_scope is not self: - raise RuntimeError( - "Attempted to exit a cancel scope that isn't the current tasks's " - "current cancel scope" - ) - - self._active = False - if self._timeout_handle: - self._timeout_handle.cancel() - self._timeout_handle = None - - self._tasks.remove(self._host_task) - if self._parent_scope is not None: - self._parent_scope._child_scopes.remove(self) - self._parent_scope._tasks.add(self._host_task) - - host_task_state.cancel_scope = self._parent_scope - - # Restart the cancellation effort in the closest directly cancelled parent - # scope if this one was shielded - self._restart_cancellation_in_parent() - - if self._cancel_called and exc_val is not None: - for exc in iterate_exceptions(exc_val): - if isinstance(exc, CancelledError): - self._cancelled_caught = self._uncancel(exc) - if self._cancelled_caught: - break - - return self._cancelled_caught - - return None - - def _uncancel(self, cancelled_exc: CancelledError) -> bool: - if sys.version_info < (3, 9) or self._host_task is None: - self._cancel_calls = 0 - return True - - # Undo all cancellations done by this scope - if self._cancelling is not None: - while self._cancel_calls: - self._cancel_calls -= 1 - if self._host_task.uncancel() <= self._cancelling: - return True - - self._cancel_calls = 0 - return f"Cancelled by cancel scope {id(self):x}" in cancelled_exc.args - - def _timeout(self) -> None: - if self._deadline != math.inf: - loop = get_running_loop() - if loop.time() >= self._deadline: - self.cancel() - else: - self._timeout_handle = loop.call_at(self._deadline, self._timeout) - - def _deliver_cancellation(self, origin: CancelScope) -> bool: - """ - Deliver cancellation to directly contained tasks and nested cancel scopes. - - Schedule another run at the end if we still have tasks eligible for - cancellation. - - :param origin: the cancel scope that originated the cancellation - :return: ``True`` if the delivery needs to be retried on the next cycle - - """ - should_retry = False - current = current_task() - for task in self._tasks: - if task._must_cancel: # type: ignore[attr-defined] - continue - - # The task is eligible for cancellation if it has started - should_retry = True - if task is not current and (task is self._host_task or _task_started(task)): - waiter = task._fut_waiter # type: ignore[attr-defined] - if not isinstance(waiter, asyncio.Future) or not waiter.done(): - self._cancel_calls += 1 - if sys.version_info >= (3, 9): - task.cancel(f"Cancelled by cancel scope {id(origin):x}") - else: - task.cancel() - - # Deliver cancellation to child scopes that aren't shielded or running their own - # cancellation callbacks - for scope in self._child_scopes: - if not scope._shield and not scope.cancel_called: - should_retry = scope._deliver_cancellation(origin) or should_retry - - # Schedule another callback if there are still tasks left - if origin is self: - if should_retry: - self._cancel_handle = get_running_loop().call_soon( - self._deliver_cancellation, origin - ) - else: - self._cancel_handle = None - - return should_retry - - def _restart_cancellation_in_parent(self) -> None: - """ - Restart the cancellation effort in the closest directly cancelled parent scope. - - """ - scope = self._parent_scope - while scope is not None: - if scope._cancel_called: - if scope._cancel_handle is None: - scope._deliver_cancellation(scope) - - break - - # No point in looking beyond any shielded scope - if scope._shield: - break - - scope = scope._parent_scope - - def _parent_cancelled(self) -> bool: - # Check whether any parent has been cancelled - cancel_scope = self._parent_scope - while cancel_scope is not None and not cancel_scope._shield: - if cancel_scope._cancel_called: - return True - else: - cancel_scope = cancel_scope._parent_scope - - return False - - def cancel(self) -> None: - if not self._cancel_called: - if self._timeout_handle: - self._timeout_handle.cancel() - self._timeout_handle = None - - self._cancel_called = True - if self._host_task is not None: - self._deliver_cancellation(self) - - @property - def deadline(self) -> float: - return self._deadline - - @deadline.setter - def deadline(self, value: float) -> None: - self._deadline = float(value) - if self._timeout_handle is not None: - self._timeout_handle.cancel() - self._timeout_handle = None - - if self._active and not self._cancel_called: - self._timeout() - - @property - def cancel_called(self) -> bool: - return self._cancel_called - - @property - def cancelled_caught(self) -> bool: - return self._cancelled_caught - - @property - def shield(self) -> bool: - return self._shield - - @shield.setter - def shield(self, value: bool) -> None: - if self._shield != value: - self._shield = value - if not value: - self._restart_cancellation_in_parent() - - -# -# Task states -# - - -class TaskState: - """ - Encapsulates auxiliary task information that cannot be added to the Task instance - itself because there are no guarantees about its implementation. - """ - - __slots__ = "parent_id", "cancel_scope" - - def __init__(self, parent_id: int | None, cancel_scope: CancelScope | None): - self.parent_id = parent_id - self.cancel_scope = cancel_scope - - -_task_states = WeakKeyDictionary() # type: WeakKeyDictionary[asyncio.Task, TaskState] - - -# -# Task groups -# - - -class _AsyncioTaskStatus(abc.TaskStatus): - def __init__(self, future: asyncio.Future, parent_id: int): - self._future = future - self._parent_id = parent_id - - def started(self, value: T_contra | None = None) -> None: - try: - self._future.set_result(value) - except asyncio.InvalidStateError: - raise RuntimeError( - "called 'started' twice on the same task status" - ) from None - - task = cast(asyncio.Task, current_task()) - _task_states[task].parent_id = self._parent_id - - -def iterate_exceptions( - exception: BaseException, -) -> Generator[BaseException, None, None]: - if isinstance(exception, BaseExceptionGroup): - for exc in exception.exceptions: - yield from iterate_exceptions(exc) - else: - yield exception - - -class TaskGroup(abc.TaskGroup): - def __init__(self) -> None: - self.cancel_scope: CancelScope = CancelScope() - self._active = False - self._exceptions: list[BaseException] = [] - self._tasks: set[asyncio.Task] = set() - - async def __aenter__(self) -> TaskGroup: - self.cancel_scope.__enter__() - self._active = True - return self - - async def __aexit__( - self, - exc_type: type[BaseException] | None, - exc_val: BaseException | None, - exc_tb: TracebackType | None, - ) -> bool | None: - ignore_exception = self.cancel_scope.__exit__(exc_type, exc_val, exc_tb) - if exc_val is not None: - self.cancel_scope.cancel() - if not isinstance(exc_val, CancelledError): - self._exceptions.append(exc_val) - - cancelled_exc_while_waiting_tasks: CancelledError | None = None - while self._tasks: - try: - await asyncio.wait(self._tasks) - except CancelledError as exc: - # This task was cancelled natively; reraise the CancelledError later - # unless this task was already interrupted by another exception - self.cancel_scope.cancel() - if cancelled_exc_while_waiting_tasks is None: - cancelled_exc_while_waiting_tasks = exc - - self._active = False - if self._exceptions: - raise BaseExceptionGroup( - "unhandled errors in a TaskGroup", self._exceptions - ) - - # Raise the CancelledError received while waiting for child tasks to exit, - # unless the context manager itself was previously exited with another - # exception, or if any of the child tasks raised an exception other than - # CancelledError - if cancelled_exc_while_waiting_tasks: - if exc_val is None or ignore_exception: - raise cancelled_exc_while_waiting_tasks - - return ignore_exception - - def _spawn( - self, - func: Callable[[Unpack[PosArgsT]], Awaitable[Any]], - args: tuple[Unpack[PosArgsT]], - name: object, - task_status_future: asyncio.Future | None = None, - ) -> asyncio.Task: - def task_done(_task: asyncio.Task) -> None: - task_state = _task_states[_task] - assert task_state.cancel_scope is not None - assert _task in task_state.cancel_scope._tasks - task_state.cancel_scope._tasks.remove(_task) - self._tasks.remove(task) - del _task_states[_task] - - try: - exc = _task.exception() - except CancelledError as e: - while isinstance(e.__context__, CancelledError): - e = e.__context__ - - exc = e - - if exc is not None: - if task_status_future is None or task_status_future.done(): - if not isinstance(exc, CancelledError): - self._exceptions.append(exc) - - if not self.cancel_scope._parent_cancelled(): - self.cancel_scope.cancel() - else: - task_status_future.set_exception(exc) - elif task_status_future is not None and not task_status_future.done(): - task_status_future.set_exception( - RuntimeError("Child exited without calling task_status.started()") - ) - - if not self._active: - raise RuntimeError( - "This task group is not active; no new tasks can be started." - ) - - kwargs = {} - if task_status_future: - parent_id = id(current_task()) - kwargs["task_status"] = _AsyncioTaskStatus( - task_status_future, id(self.cancel_scope._host_task) - ) - else: - parent_id = id(self.cancel_scope._host_task) - - coro = func(*args, **kwargs) - if not iscoroutine(coro): - prefix = f"{func.__module__}." if hasattr(func, "__module__") else "" - raise TypeError( - f"Expected {prefix}{func.__qualname__}() to return a coroutine, but " - f"the return value ({coro!r}) is not a coroutine object" - ) - - name = get_callable_name(func) if name is None else str(name) - task = create_task(coro, name=name) - task.add_done_callback(task_done) - - # Make the spawned task inherit the task group's cancel scope - _task_states[task] = TaskState( - parent_id=parent_id, cancel_scope=self.cancel_scope - ) - self.cancel_scope._tasks.add(task) - self._tasks.add(task) - return task - - def start_soon( - self, - func: Callable[[Unpack[PosArgsT]], Awaitable[Any]], - *args: Unpack[PosArgsT], - name: object = None, - ) -> None: - self._spawn(func, args, name) - - async def start( - self, func: Callable[..., Awaitable[Any]], *args: object, name: object = None - ) -> Any: - future: asyncio.Future = asyncio.Future() - task = self._spawn(func, args, name, future) - - # If the task raises an exception after sending a start value without a switch - # point between, the task group is cancelled and this method never proceeds to - # process the completed future. That's why we have to have a shielded cancel - # scope here. - try: - return await future - except CancelledError: - # Cancel the task and wait for it to exit before returning - task.cancel() - with CancelScope(shield=True), suppress(CancelledError): - await task - - raise - - -# -# Threads -# - -_Retval_Queue_Type = Tuple[Optional[T_Retval], Optional[BaseException]] - - -class WorkerThread(Thread): - MAX_IDLE_TIME = 10 # seconds - - def __init__( - self, - root_task: asyncio.Task, - workers: set[WorkerThread], - idle_workers: deque[WorkerThread], - ): - super().__init__(name="AnyIO worker thread") - self.root_task = root_task - self.workers = workers - self.idle_workers = idle_workers - self.loop = root_task._loop - self.queue: Queue[ - tuple[Context, Callable, tuple, asyncio.Future, CancelScope] | None - ] = Queue(2) - self.idle_since = AsyncIOBackend.current_time() - self.stopping = False - - def _report_result( - self, future: asyncio.Future, result: Any, exc: BaseException | None - ) -> None: - self.idle_since = AsyncIOBackend.current_time() - if not self.stopping: - self.idle_workers.append(self) - - if not future.cancelled(): - if exc is not None: - if isinstance(exc, StopIteration): - new_exc = RuntimeError("coroutine raised StopIteration") - new_exc.__cause__ = exc - exc = new_exc - - future.set_exception(exc) - else: - future.set_result(result) - - def run(self) -> None: - with claim_worker_thread(AsyncIOBackend, self.loop): - while True: - item = self.queue.get() - if item is None: - # Shutdown command received - return - - context, func, args, future, cancel_scope = item - if not future.cancelled(): - result = None - exception: BaseException | None = None - threadlocals.current_cancel_scope = cancel_scope - try: - result = context.run(func, *args) - except BaseException as exc: - exception = exc - finally: - del threadlocals.current_cancel_scope - - if not self.loop.is_closed(): - self.loop.call_soon_threadsafe( - self._report_result, future, result, exception - ) - - self.queue.task_done() - - def stop(self, f: asyncio.Task | None = None) -> None: - self.stopping = True - self.queue.put_nowait(None) - self.workers.discard(self) - try: - self.idle_workers.remove(self) - except ValueError: - pass - - -_threadpool_idle_workers: RunVar[deque[WorkerThread]] = RunVar( - "_threadpool_idle_workers" -) -_threadpool_workers: RunVar[set[WorkerThread]] = RunVar("_threadpool_workers") - - -class BlockingPortal(abc.BlockingPortal): - def __new__(cls) -> BlockingPortal: - return object.__new__(cls) - - def __init__(self) -> None: - super().__init__() - self._loop = get_running_loop() - - def _spawn_task_from_thread( - self, - func: Callable[[Unpack[PosArgsT]], Awaitable[T_Retval] | T_Retval], - args: tuple[Unpack[PosArgsT]], - kwargs: dict[str, Any], - name: object, - future: Future[T_Retval], - ) -> None: - AsyncIOBackend.run_sync_from_thread( - partial(self._task_group.start_soon, name=name), - (self._call_func, func, args, kwargs, future), - self._loop, - ) - - -# -# Subprocesses -# - - -@dataclass(eq=False) -class StreamReaderWrapper(abc.ByteReceiveStream): - _stream: asyncio.StreamReader - - async def receive(self, max_bytes: int = 65536) -> bytes: - data = await self._stream.read(max_bytes) - if data: - return data - else: - raise EndOfStream - - async def aclose(self) -> None: - self._stream.feed_eof() - await AsyncIOBackend.checkpoint() - - -@dataclass(eq=False) -class StreamWriterWrapper(abc.ByteSendStream): - _stream: asyncio.StreamWriter - - async def send(self, item: bytes) -> None: - self._stream.write(item) - await self._stream.drain() - - async def aclose(self) -> None: - self._stream.close() - await AsyncIOBackend.checkpoint() - - -@dataclass(eq=False) -class Process(abc.Process): - _process: asyncio.subprocess.Process - _stdin: StreamWriterWrapper | None - _stdout: StreamReaderWrapper | None - _stderr: StreamReaderWrapper | None - - async def aclose(self) -> None: - with CancelScope(shield=True): - if self._stdin: - await self._stdin.aclose() - if self._stdout: - await self._stdout.aclose() - if self._stderr: - await self._stderr.aclose() - - try: - await self.wait() - except BaseException: - self.kill() - with CancelScope(shield=True): - await self.wait() - - raise - - 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: int) -> None: - self._process.send_signal(signal) - - @property - def pid(self) -> int: - return self._process.pid - - @property - def returncode(self) -> int | None: - return self._process.returncode - - @property - def stdin(self) -> abc.ByteSendStream | None: - return self._stdin - - @property - def stdout(self) -> abc.ByteReceiveStream | None: - return self._stdout - - @property - def stderr(self) -> abc.ByteReceiveStream | None: - return self._stderr - - -def _forcibly_shutdown_process_pool_on_exit( - workers: set[Process], _task: object -) -> None: - """ - Forcibly shuts down worker processes belonging to this event loop.""" - child_watcher: asyncio.AbstractChildWatcher | None = None - if sys.version_info < (3, 12): - try: - child_watcher = asyncio.get_event_loop_policy().get_child_watcher() - except NotImplementedError: - pass - - # Close as much as possible (w/o async/await) to avoid warnings - for process in workers: - if process.returncode is None: - continue - - process._stdin._stream._transport.close() # type: ignore[union-attr] - process._stdout._stream._transport.close() # type: ignore[union-attr] - process._stderr._stream._transport.close() # type: ignore[union-attr] - process.kill() - if child_watcher: - child_watcher.remove_child_handler(process.pid) - - -async def _shutdown_process_pool_on_exit(workers: set[abc.Process]) -> None: - """ - Shuts down worker processes belonging to this event loop. - - NOTE: this only works when the event loop was started using asyncio.run() or - anyio.run(). - - """ - process: abc.Process - try: - await sleep(math.inf) - except asyncio.CancelledError: - for process in workers: - if process.returncode is None: - process.kill() - - for process in workers: - await process.aclose() - - -# -# Sockets and networking -# - - -class StreamProtocol(asyncio.Protocol): - read_queue: deque[bytes] - read_event: asyncio.Event - write_event: asyncio.Event - exception: Exception | None = None - - def connection_made(self, transport: asyncio.BaseTransport) -> None: - self.read_queue = deque() - self.read_event = asyncio.Event() - self.write_event = asyncio.Event() - self.write_event.set() - cast(asyncio.Transport, transport).set_write_buffer_limits(0) - - def connection_lost(self, exc: Exception | None) -> None: - if exc: - self.exception = BrokenResourceError() - self.exception.__cause__ = exc - - self.read_event.set() - self.write_event.set() - - def data_received(self, data: bytes) -> None: - self.read_queue.append(data) - self.read_event.set() - - def eof_received(self) -> bool | None: - self.read_event.set() - return True - - def pause_writing(self) -> None: - self.write_event = asyncio.Event() - - def resume_writing(self) -> None: - self.write_event.set() - - -class DatagramProtocol(asyncio.DatagramProtocol): - read_queue: deque[tuple[bytes, IPSockAddrType]] - read_event: asyncio.Event - write_event: asyncio.Event - exception: Exception | None = None - - def connection_made(self, transport: asyncio.BaseTransport) -> None: - self.read_queue = deque(maxlen=100) # arbitrary value - self.read_event = asyncio.Event() - self.write_event = asyncio.Event() - self.write_event.set() - - def connection_lost(self, exc: Exception | None) -> None: - self.read_event.set() - self.write_event.set() - - def datagram_received(self, data: bytes, addr: IPSockAddrType) -> None: - addr = convert_ipv6_sockaddr(addr) - self.read_queue.append((data, addr)) - self.read_event.set() - - def error_received(self, exc: Exception) -> None: - self.exception = exc - - def pause_writing(self) -> None: - self.write_event.clear() - - def resume_writing(self) -> None: - self.write_event.set() - - -class SocketStream(abc.SocketStream): - def __init__(self, transport: asyncio.Transport, protocol: StreamProtocol): - self._transport = transport - self._protocol = protocol - self._receive_guard = ResourceGuard("reading from") - self._send_guard = ResourceGuard("writing to") - self._closed = False - - @property - def _raw_socket(self) -> socket.socket: - return self._transport.get_extra_info("socket") - - async def receive(self, max_bytes: int = 65536) -> bytes: - with self._receive_guard: - await AsyncIOBackend.checkpoint() - - if ( - not self._protocol.read_event.is_set() - and not self._transport.is_closing() - ): - self._transport.resume_reading() - await self._protocol.read_event.wait() - self._transport.pause_reading() - - try: - chunk = self._protocol.read_queue.popleft() - except IndexError: - if self._closed: - raise ClosedResourceError from None - elif self._protocol.exception: - raise self._protocol.exception from None - else: - raise EndOfStream from None - - if len(chunk) > max_bytes: - # Split the oversized chunk - chunk, leftover = chunk[:max_bytes], chunk[max_bytes:] - self._protocol.read_queue.appendleft(leftover) - - # If the read queue is empty, clear the flag so that the next call will - # block until data is available - if not self._protocol.read_queue: - self._protocol.read_event.clear() - - return chunk - - async def send(self, item: bytes) -> None: - with self._send_guard: - await AsyncIOBackend.checkpoint() - - if self._closed: - raise ClosedResourceError - elif self._protocol.exception is not None: - raise self._protocol.exception - - try: - self._transport.write(item) - except RuntimeError as exc: - if self._transport.is_closing(): - raise BrokenResourceError from exc - else: - raise - - await self._protocol.write_event.wait() - - async def send_eof(self) -> None: - try: - self._transport.write_eof() - except OSError: - pass - - async def aclose(self) -> None: - if not self._transport.is_closing(): - self._closed = True - try: - self._transport.write_eof() - except OSError: - pass - - self._transport.close() - await sleep(0) - self._transport.abort() - - -class _RawSocketMixin: - _receive_future: asyncio.Future | None = None - _send_future: asyncio.Future | None = None - _closing = False - - def __init__(self, raw_socket: socket.socket): - self.__raw_socket = raw_socket - self._receive_guard = ResourceGuard("reading from") - self._send_guard = ResourceGuard("writing to") - - @property - def _raw_socket(self) -> socket.socket: - return self.__raw_socket - - def _wait_until_readable(self, loop: asyncio.AbstractEventLoop) -> asyncio.Future: - def callback(f: object) -> None: - del self._receive_future - loop.remove_reader(self.__raw_socket) - - f = self._receive_future = asyncio.Future() - loop.add_reader(self.__raw_socket, f.set_result, None) - f.add_done_callback(callback) - return f - - def _wait_until_writable(self, loop: asyncio.AbstractEventLoop) -> asyncio.Future: - def callback(f: object) -> None: - del self._send_future - loop.remove_writer(self.__raw_socket) - - f = self._send_future = asyncio.Future() - loop.add_writer(self.__raw_socket, f.set_result, None) - f.add_done_callback(callback) - return f - - async def aclose(self) -> None: - if not self._closing: - self._closing = True - if self.__raw_socket.fileno() != -1: - self.__raw_socket.close() - - if self._receive_future: - self._receive_future.set_result(None) - if self._send_future: - self._send_future.set_result(None) - - -class UNIXSocketStream(_RawSocketMixin, abc.UNIXSocketStream): - async def send_eof(self) -> None: - with self._send_guard: - self._raw_socket.shutdown(socket.SHUT_WR) - - async def receive(self, max_bytes: int = 65536) -> bytes: - loop = get_running_loop() - await AsyncIOBackend.checkpoint() - with self._receive_guard: - while True: - try: - data = self._raw_socket.recv(max_bytes) - except BlockingIOError: - await self._wait_until_readable(loop) - except OSError as exc: - if self._closing: - raise ClosedResourceError from None - else: - raise BrokenResourceError from exc - else: - if not data: - raise EndOfStream - - return data - - async def send(self, item: bytes) -> None: - loop = get_running_loop() - await AsyncIOBackend.checkpoint() - with self._send_guard: - view = memoryview(item) - while view: - try: - bytes_sent = self._raw_socket.send(view) - except BlockingIOError: - await self._wait_until_writable(loop) - except OSError as exc: - if self._closing: - raise ClosedResourceError from None - else: - raise BrokenResourceError from exc - else: - view = view[bytes_sent:] - - 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") - - loop = get_running_loop() - fds = array.array("i") - await AsyncIOBackend.checkpoint() - with self._receive_guard: - while True: - try: - message, ancdata, flags, addr = self._raw_socket.recvmsg( - msglen, socket.CMSG_LEN(maxfds * fds.itemsize) - ) - except BlockingIOError: - await self._wait_until_readable(loop) - except OSError as exc: - if self._closing: - raise ClosedResourceError from None - else: - raise BrokenResourceError from 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[int | IOBase]) -> None: - if not message: - raise ValueError("message must not be empty") - if not fds: - raise ValueError("fds must not be empty") - - loop = get_running_loop() - 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 AsyncIOBackend.checkpoint() - with self._send_guard: - while True: - try: - # The ignore can be removed after mypy picks up - # https://github.com/python/typeshed/pull/5545 - self._raw_socket.sendmsg( - [message], [(socket.SOL_SOCKET, socket.SCM_RIGHTS, fdarray)] - ) - break - except BlockingIOError: - await self._wait_until_writable(loop) - except OSError as exc: - if self._closing: - raise ClosedResourceError from None - else: - raise BrokenResourceError from exc - - -class TCPSocketListener(abc.SocketListener): - _accept_scope: CancelScope | None = None - _closed = False - - def __init__(self, raw_socket: socket.socket): - self.__raw_socket = raw_socket - self._loop = cast(asyncio.BaseEventLoop, get_running_loop()) - self._accept_guard = ResourceGuard("accepting connections from") - - @property - def _raw_socket(self) -> socket.socket: - return self.__raw_socket - - async def accept(self) -> abc.SocketStream: - if self._closed: - raise ClosedResourceError - - with self._accept_guard: - await AsyncIOBackend.checkpoint() - with CancelScope() as self._accept_scope: - try: - client_sock, _addr = await self._loop.sock_accept(self._raw_socket) - except asyncio.CancelledError: - # Workaround for https://bugs.python.org/issue41317 - try: - self._loop.remove_reader(self._raw_socket) - except (ValueError, NotImplementedError): - pass - - if self._closed: - raise ClosedResourceError from None - - raise - finally: - self._accept_scope = None - - client_sock.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 1) - transport, protocol = await self._loop.connect_accepted_socket( - StreamProtocol, client_sock - ) - return SocketStream(transport, protocol) - - async def aclose(self) -> None: - if self._closed: - return - - self._closed = True - if self._accept_scope: - # Workaround for https://bugs.python.org/issue41317 - try: - self._loop.remove_reader(self._raw_socket) - except (ValueError, NotImplementedError): - pass - - self._accept_scope.cancel() - await sleep(0) - - self._raw_socket.close() - - -class UNIXSocketListener(abc.SocketListener): - def __init__(self, raw_socket: socket.socket): - self.__raw_socket = raw_socket - self._loop = get_running_loop() - self._accept_guard = ResourceGuard("accepting connections from") - self._closed = False - - async def accept(self) -> abc.SocketStream: - await AsyncIOBackend.checkpoint() - with self._accept_guard: - while True: - try: - client_sock, _ = self.__raw_socket.accept() - client_sock.setblocking(False) - return UNIXSocketStream(client_sock) - except BlockingIOError: - f: asyncio.Future = asyncio.Future() - self._loop.add_reader(self.__raw_socket, f.set_result, None) - f.add_done_callback( - lambda _: self._loop.remove_reader(self.__raw_socket) - ) - await f - except OSError as exc: - if self._closed: - raise ClosedResourceError from None - else: - raise BrokenResourceError from exc - - async def aclose(self) -> None: - self._closed = True - self.__raw_socket.close() - - @property - def _raw_socket(self) -> socket.socket: - return self.__raw_socket - - -class UDPSocket(abc.UDPSocket): - def __init__( - self, transport: asyncio.DatagramTransport, protocol: DatagramProtocol - ): - self._transport = transport - self._protocol = protocol - self._receive_guard = ResourceGuard("reading from") - self._send_guard = ResourceGuard("writing to") - self._closed = False - - @property - def _raw_socket(self) -> socket.socket: - return self._transport.get_extra_info("socket") - - async def aclose(self) -> None: - if not self._transport.is_closing(): - self._closed = True - self._transport.close() - - async def receive(self) -> tuple[bytes, IPSockAddrType]: - with self._receive_guard: - await AsyncIOBackend.checkpoint() - - # If the buffer is empty, ask for more data - if not self._protocol.read_queue and not self._transport.is_closing(): - self._protocol.read_event.clear() - await self._protocol.read_event.wait() - - try: - return self._protocol.read_queue.popleft() - except IndexError: - if self._closed: - raise ClosedResourceError from None - else: - raise BrokenResourceError from None - - async def send(self, item: UDPPacketType) -> None: - with self._send_guard: - await AsyncIOBackend.checkpoint() - await self._protocol.write_event.wait() - if self._closed: - raise ClosedResourceError - elif self._transport.is_closing(): - raise BrokenResourceError - else: - self._transport.sendto(*item) - - -class ConnectedUDPSocket(abc.ConnectedUDPSocket): - def __init__( - self, transport: asyncio.DatagramTransport, protocol: DatagramProtocol - ): - self._transport = transport - self._protocol = protocol - self._receive_guard = ResourceGuard("reading from") - self._send_guard = ResourceGuard("writing to") - self._closed = False - - @property - def _raw_socket(self) -> socket.socket: - return self._transport.get_extra_info("socket") - - async def aclose(self) -> None: - if not self._transport.is_closing(): - self._closed = True - self._transport.close() - - async def receive(self) -> bytes: - with self._receive_guard: - await AsyncIOBackend.checkpoint() - - # If the buffer is empty, ask for more data - if not self._protocol.read_queue and not self._transport.is_closing(): - self._protocol.read_event.clear() - await self._protocol.read_event.wait() - - try: - packet = self._protocol.read_queue.popleft() - except IndexError: - if self._closed: - raise ClosedResourceError from None - else: - raise BrokenResourceError from None - - return packet[0] - - async def send(self, item: bytes) -> None: - with self._send_guard: - await AsyncIOBackend.checkpoint() - await self._protocol.write_event.wait() - if self._closed: - raise ClosedResourceError - elif self._transport.is_closing(): - raise BrokenResourceError - else: - self._transport.sendto(item) - - -class UNIXDatagramSocket(_RawSocketMixin, abc.UNIXDatagramSocket): - async def receive(self) -> UNIXDatagramPacketType: - loop = get_running_loop() - await AsyncIOBackend.checkpoint() - with self._receive_guard: - while True: - try: - data = self._raw_socket.recvfrom(65536) - except BlockingIOError: - await self._wait_until_readable(loop) - except OSError as exc: - if self._closing: - raise ClosedResourceError from None - else: - raise BrokenResourceError from exc - else: - return data - - async def send(self, item: UNIXDatagramPacketType) -> None: - loop = get_running_loop() - await AsyncIOBackend.checkpoint() - with self._send_guard: - while True: - try: - self._raw_socket.sendto(*item) - except BlockingIOError: - await self._wait_until_writable(loop) - except OSError as exc: - if self._closing: - raise ClosedResourceError from None - else: - raise BrokenResourceError from exc - else: - return - - -class ConnectedUNIXDatagramSocket(_RawSocketMixin, abc.ConnectedUNIXDatagramSocket): - async def receive(self) -> bytes: - loop = get_running_loop() - await AsyncIOBackend.checkpoint() - with self._receive_guard: - while True: - try: - data = self._raw_socket.recv(65536) - except BlockingIOError: - await self._wait_until_readable(loop) - except OSError as exc: - if self._closing: - raise ClosedResourceError from None - else: - raise BrokenResourceError from exc - else: - return data - - async def send(self, item: bytes) -> None: - loop = get_running_loop() - await AsyncIOBackend.checkpoint() - with self._send_guard: - while True: - try: - self._raw_socket.send(item) - except BlockingIOError: - await self._wait_until_writable(loop) - except OSError as exc: - if self._closing: - raise ClosedResourceError from None - else: - raise BrokenResourceError from exc - else: - return - - -_read_events: RunVar[dict[Any, asyncio.Event]] = RunVar("read_events") -_write_events: RunVar[dict[Any, asyncio.Event]] = RunVar("write_events") - - -# -# Synchronization -# - - -class Event(BaseEvent): - def __new__(cls) -> Event: - return object.__new__(cls) - - def __init__(self) -> None: - self._event = asyncio.Event() - - def set(self) -> None: - self._event.set() - - def is_set(self) -> bool: - return self._event.is_set() - - async def wait(self) -> None: - if self.is_set(): - await AsyncIOBackend.checkpoint() - else: - await self._event.wait() - - def statistics(self) -> EventStatistics: - return EventStatistics(len(self._event._waiters)) # type: ignore[attr-defined] - - -class CapacityLimiter(BaseCapacityLimiter): - _total_tokens: float = 0 - - def __new__(cls, total_tokens: float) -> CapacityLimiter: - return object.__new__(cls) - - def __init__(self, total_tokens: float): - self._borrowers: set[Any] = set() - self._wait_queue: OrderedDict[Any, asyncio.Event] = OrderedDict() - self.total_tokens = total_tokens - - async def __aenter__(self) -> None: - await self.acquire() - - async def __aexit__( - self, - exc_type: type[BaseException] | None, - exc_val: BaseException | None, - exc_tb: TracebackType | None, - ) -> None: - self.release() - - @property - def total_tokens(self) -> float: - return self._total_tokens - - @total_tokens.setter - def total_tokens(self, value: float) -> None: - if not isinstance(value, int) and not math.isinf(value): - raise TypeError("total_tokens must be an int or math.inf") - if value < 1: - raise ValueError("total_tokens must be >= 1") - - waiters_to_notify = max(value - self._total_tokens, 0) - self._total_tokens = value - - # Notify waiting tasks that they have acquired the limiter - while self._wait_queue and waiters_to_notify: - event = self._wait_queue.popitem(last=False)[1] - event.set() - waiters_to_notify -= 1 - - @property - def borrowed_tokens(self) -> int: - return len(self._borrowers) - - @property - def available_tokens(self) -> float: - return self._total_tokens - len(self._borrowers) - - def acquire_nowait(self) -> None: - self.acquire_on_behalf_of_nowait(current_task()) - - def acquire_on_behalf_of_nowait(self, borrower: object) -> None: - if borrower in self._borrowers: - raise RuntimeError( - "this borrower is already holding one of this CapacityLimiter's " - "tokens" - ) - - if self._wait_queue or len(self._borrowers) >= self._total_tokens: - raise WouldBlock - - self._borrowers.add(borrower) - - async def acquire(self) -> None: - return await self.acquire_on_behalf_of(current_task()) - - async def acquire_on_behalf_of(self, borrower: object) -> None: - await AsyncIOBackend.checkpoint_if_cancelled() - try: - self.acquire_on_behalf_of_nowait(borrower) - except WouldBlock: - event = asyncio.Event() - self._wait_queue[borrower] = event - try: - await event.wait() - except BaseException: - self._wait_queue.pop(borrower, None) - raise - - self._borrowers.add(borrower) - else: - try: - await AsyncIOBackend.cancel_shielded_checkpoint() - except BaseException: - self.release() - raise - - def release(self) -> None: - self.release_on_behalf_of(current_task()) - - def release_on_behalf_of(self, borrower: object) -> None: - try: - self._borrowers.remove(borrower) - except KeyError: - raise RuntimeError( - "this borrower isn't holding any of this CapacityLimiter's " "tokens" - ) from None - - # Notify the next task in line if this limiter has free capacity now - if self._wait_queue and len(self._borrowers) < self._total_tokens: - event = self._wait_queue.popitem(last=False)[1] - event.set() - - def statistics(self) -> CapacityLimiterStatistics: - return CapacityLimiterStatistics( - self.borrowed_tokens, - self.total_tokens, - tuple(self._borrowers), - len(self._wait_queue), - ) - - -_default_thread_limiter: RunVar[CapacityLimiter] = RunVar("_default_thread_limiter") - - -# -# Operating system signals -# - - -class _SignalReceiver: - def __init__(self, signals: tuple[Signals, ...]): - self._signals = signals - self._loop = get_running_loop() - self._signal_queue: deque[Signals] = deque() - self._future: asyncio.Future = asyncio.Future() - self._handled_signals: set[Signals] = set() - - def _deliver(self, signum: Signals) -> None: - self._signal_queue.append(signum) - if not self._future.done(): - self._future.set_result(None) - - def __enter__(self) -> _SignalReceiver: - for sig in set(self._signals): - self._loop.add_signal_handler(sig, self._deliver, sig) - self._handled_signals.add(sig) - - return self - - def __exit__( - self, - exc_type: type[BaseException] | None, - exc_val: BaseException | None, - exc_tb: TracebackType | None, - ) -> bool | None: - for sig in self._handled_signals: - self._loop.remove_signal_handler(sig) - return None - - def __aiter__(self) -> _SignalReceiver: - return self - - async def __anext__(self) -> Signals: - await AsyncIOBackend.checkpoint() - if not self._signal_queue: - self._future = asyncio.Future() - await self._future - - return self._signal_queue.popleft() - - -# -# Testing and debugging -# - - -def _create_task_info(task: asyncio.Task) -> TaskInfo: - task_state = _task_states.get(task) - if task_state is None: - parent_id = None - else: - parent_id = task_state.parent_id - - return TaskInfo(id(task), parent_id, task.get_name(), task.get_coro()) - - -class TestRunner(abc.TestRunner): - _send_stream: MemoryObjectSendStream[tuple[Awaitable[Any], asyncio.Future[Any]]] - - def __init__( - self, - *, - debug: bool | None = None, - use_uvloop: bool = False, - loop_factory: Callable[[], AbstractEventLoop] | None = None, - ) -> None: - if use_uvloop and loop_factory is None: - import uvloop - - loop_factory = uvloop.new_event_loop - - self._runner = Runner(debug=debug, loop_factory=loop_factory) - self._exceptions: list[BaseException] = [] - self._runner_task: asyncio.Task | None = None - - def __enter__(self) -> TestRunner: - self._runner.__enter__() - self.get_loop().set_exception_handler(self._exception_handler) - return self - - def __exit__( - self, - exc_type: type[BaseException] | None, - exc_val: BaseException | None, - exc_tb: TracebackType | None, - ) -> None: - self._runner.__exit__(exc_type, exc_val, exc_tb) - - def get_loop(self) -> AbstractEventLoop: - return self._runner.get_loop() - - def _exception_handler( - self, loop: asyncio.AbstractEventLoop, context: dict[str, Any] - ) -> None: - if isinstance(context.get("exception"), Exception): - self._exceptions.append(context["exception"]) - else: - loop.default_exception_handler(context) - - def _raise_async_exceptions(self) -> None: - # Re-raise any exceptions raised in asynchronous callbacks - if self._exceptions: - exceptions, self._exceptions = self._exceptions, [] - if len(exceptions) == 1: - raise exceptions[0] - elif exceptions: - raise BaseExceptionGroup( - "Multiple exceptions occurred in asynchronous callbacks", exceptions - ) - - @staticmethod - async def _run_tests_and_fixtures( - receive_stream: MemoryObjectReceiveStream[ - tuple[Awaitable[T_Retval], asyncio.Future[T_Retval]] - ], - ) -> None: - with receive_stream: - async for coro, future in receive_stream: - try: - retval = await coro - except BaseException as exc: - if not future.cancelled(): - future.set_exception(exc) - else: - if not future.cancelled(): - future.set_result(retval) - - async def _call_in_runner_task( - self, - func: Callable[P, Awaitable[T_Retval]], - *args: P.args, - **kwargs: P.kwargs, - ) -> T_Retval: - if not self._runner_task: - self._send_stream, receive_stream = create_memory_object_stream[ - Tuple[Awaitable[Any], asyncio.Future] - ](1) - self._runner_task = self.get_loop().create_task( - self._run_tests_and_fixtures(receive_stream) - ) - - coro = func(*args, **kwargs) - future: asyncio.Future[T_Retval] = self.get_loop().create_future() - self._send_stream.send_nowait((coro, future)) - return await future - - def run_asyncgen_fixture( - self, - fixture_func: Callable[..., AsyncGenerator[T_Retval, Any]], - kwargs: dict[str, Any], - ) -> Iterable[T_Retval]: - asyncgen = fixture_func(**kwargs) - fixturevalue: T_Retval = self.get_loop().run_until_complete( - self._call_in_runner_task(asyncgen.asend, None) - ) - self._raise_async_exceptions() - - yield fixturevalue - - try: - self.get_loop().run_until_complete( - self._call_in_runner_task(asyncgen.asend, None) - ) - except StopAsyncIteration: - self._raise_async_exceptions() - else: - self.get_loop().run_until_complete(asyncgen.aclose()) - raise RuntimeError("Async generator fixture did not stop") - - def run_fixture( - self, - fixture_func: Callable[..., Coroutine[Any, Any, T_Retval]], - kwargs: dict[str, Any], - ) -> T_Retval: - retval = self.get_loop().run_until_complete( - self._call_in_runner_task(fixture_func, **kwargs) - ) - self._raise_async_exceptions() - return retval - - def run_test( - self, test_func: Callable[..., Coroutine[Any, Any, Any]], kwargs: dict[str, Any] - ) -> None: - try: - self.get_loop().run_until_complete( - self._call_in_runner_task(test_func, **kwargs) - ) - except Exception as exc: - self._exceptions.append(exc) - - self._raise_async_exceptions() - - -class AsyncIOBackend(AsyncBackend): - @classmethod - def run( - cls, - func: Callable[[Unpack[PosArgsT]], Awaitable[T_Retval]], - args: tuple[Unpack[PosArgsT]], - kwargs: dict[str, Any], - options: dict[str, Any], - ) -> T_Retval: - @wraps(func) - async def wrapper() -> T_Retval: - task = cast(asyncio.Task, current_task()) - task.set_name(get_callable_name(func)) - _task_states[task] = TaskState(None, None) - - try: - return await func(*args) - finally: - del _task_states[task] - - debug = options.get("debug", False) - loop_factory = options.get("loop_factory", None) - if loop_factory is None and options.get("use_uvloop", False): - import uvloop - - loop_factory = uvloop.new_event_loop - - with Runner(debug=debug, loop_factory=loop_factory) as runner: - return runner.run(wrapper()) - - @classmethod - def current_token(cls) -> object: - return get_running_loop() - - @classmethod - def current_time(cls) -> float: - return get_running_loop().time() - - @classmethod - def cancelled_exception_class(cls) -> type[BaseException]: - return CancelledError - - @classmethod - async def checkpoint(cls) -> None: - await sleep(0) - - @classmethod - async def checkpoint_if_cancelled(cls) -> None: - task = current_task() - if task is None: - return - - try: - cancel_scope = _task_states[task].cancel_scope - except KeyError: - return - - while cancel_scope: - if cancel_scope.cancel_called: - await sleep(0) - elif cancel_scope.shield: - break - else: - cancel_scope = cancel_scope._parent_scope - - @classmethod - async def cancel_shielded_checkpoint(cls) -> None: - with CancelScope(shield=True): - await sleep(0) - - @classmethod - async def sleep(cls, delay: float) -> None: - await sleep(delay) - - @classmethod - def create_cancel_scope( - cls, *, deadline: float = math.inf, shield: bool = False - ) -> CancelScope: - return CancelScope(deadline=deadline, shield=shield) - - @classmethod - def current_effective_deadline(cls) -> float: - try: - cancel_scope = _task_states[ - current_task() # type: ignore[index] - ].cancel_scope - except KeyError: - return math.inf - - deadline = math.inf - while cancel_scope: - deadline = min(deadline, cancel_scope.deadline) - if cancel_scope._cancel_called: - deadline = -math.inf - break - elif cancel_scope.shield: - break - else: - cancel_scope = cancel_scope._parent_scope - - return deadline - - @classmethod - def create_task_group(cls) -> abc.TaskGroup: - return TaskGroup() - - @classmethod - def create_event(cls) -> abc.Event: - return Event() - - @classmethod - def create_capacity_limiter(cls, total_tokens: float) -> abc.CapacityLimiter: - return CapacityLimiter(total_tokens) - - @classmethod - async def run_sync_in_worker_thread( - cls, - func: Callable[[Unpack[PosArgsT]], T_Retval], - args: tuple[Unpack[PosArgsT]], - abandon_on_cancel: bool = False, - limiter: abc.CapacityLimiter | None = None, - ) -> T_Retval: - await cls.checkpoint() - - # If this is the first run in this event loop thread, set up the necessary - # variables - try: - idle_workers = _threadpool_idle_workers.get() - workers = _threadpool_workers.get() - except LookupError: - idle_workers = deque() - workers = set() - _threadpool_idle_workers.set(idle_workers) - _threadpool_workers.set(workers) - - async with limiter or cls.current_default_thread_limiter(): - with CancelScope(shield=not abandon_on_cancel) as scope: - future: asyncio.Future = asyncio.Future() - root_task = find_root_task() - if not idle_workers: - worker = WorkerThread(root_task, workers, idle_workers) - worker.start() - workers.add(worker) - root_task.add_done_callback(worker.stop) - else: - worker = idle_workers.pop() - - # Prune any other workers that have been idle for MAX_IDLE_TIME - # seconds or longer - now = cls.current_time() - while idle_workers: - if ( - now - idle_workers[0].idle_since - < WorkerThread.MAX_IDLE_TIME - ): - break - - expired_worker = idle_workers.popleft() - expired_worker.root_task.remove_done_callback( - expired_worker.stop - ) - expired_worker.stop() - - context = copy_context() - context.run(sniffio.current_async_library_cvar.set, None) - if abandon_on_cancel or scope._parent_scope is None: - worker_scope = scope - else: - worker_scope = scope._parent_scope - - worker.queue.put_nowait((context, func, args, future, worker_scope)) - return await future - - @classmethod - def check_cancelled(cls) -> None: - scope: CancelScope | None = threadlocals.current_cancel_scope - while scope is not None: - if scope.cancel_called: - raise CancelledError(f"Cancelled by cancel scope {id(scope):x}") - - if scope.shield: - return - - scope = scope._parent_scope - - @classmethod - def run_async_from_thread( - cls, - func: Callable[[Unpack[PosArgsT]], Awaitable[T_Retval]], - args: tuple[Unpack[PosArgsT]], - token: object, - ) -> T_Retval: - async def task_wrapper(scope: CancelScope) -> T_Retval: - __tracebackhide__ = True - task = cast(asyncio.Task, current_task()) - _task_states[task] = TaskState(None, scope) - scope._tasks.add(task) - try: - return await func(*args) - except CancelledError as exc: - raise concurrent.futures.CancelledError(str(exc)) from None - finally: - scope._tasks.discard(task) - - loop = cast(AbstractEventLoop, token) - context = copy_context() - context.run(sniffio.current_async_library_cvar.set, "asyncio") - wrapper = task_wrapper(threadlocals.current_cancel_scope) - f: concurrent.futures.Future[T_Retval] = context.run( - asyncio.run_coroutine_threadsafe, wrapper, loop - ) - return f.result() - - @classmethod - def run_sync_from_thread( - cls, - func: Callable[[Unpack[PosArgsT]], T_Retval], - args: tuple[Unpack[PosArgsT]], - token: object, - ) -> T_Retval: - @wraps(func) - def wrapper() -> None: - try: - sniffio.current_async_library_cvar.set("asyncio") - f.set_result(func(*args)) - except BaseException as exc: - f.set_exception(exc) - if not isinstance(exc, Exception): - raise - - f: concurrent.futures.Future[T_Retval] = Future() - loop = cast(AbstractEventLoop, token) - loop.call_soon_threadsafe(wrapper) - return f.result() - - @classmethod - def create_blocking_portal(cls) -> abc.BlockingPortal: - return BlockingPortal() - - @classmethod - async def open_process( - cls, - command: str | bytes | Sequence[str | bytes], - *, - shell: bool, - stdin: int | IO[Any] | None, - stdout: int | IO[Any] | None, - stderr: int | IO[Any] | None, - cwd: str | bytes | PathLike | None = None, - env: Mapping[str, str] | None = None, - start_new_session: bool = False, - ) -> Process: - await cls.checkpoint() - if shell: - process = await asyncio.create_subprocess_shell( - cast("str | bytes", command), - stdin=stdin, - stdout=stdout, - stderr=stderr, - cwd=cwd, - env=env, - start_new_session=start_new_session, - ) - else: - process = await asyncio.create_subprocess_exec( - *command, - stdin=stdin, - stdout=stdout, - stderr=stderr, - cwd=cwd, - env=env, - start_new_session=start_new_session, - ) - - stdin_stream = StreamWriterWrapper(process.stdin) if process.stdin else None - stdout_stream = StreamReaderWrapper(process.stdout) if process.stdout else None - stderr_stream = StreamReaderWrapper(process.stderr) if process.stderr else None - return Process(process, stdin_stream, stdout_stream, stderr_stream) - - @classmethod - def setup_process_pool_exit_at_shutdown(cls, workers: set[abc.Process]) -> None: - create_task( - _shutdown_process_pool_on_exit(workers), - name="AnyIO process pool shutdown task", - ) - find_root_task().add_done_callback( - partial(_forcibly_shutdown_process_pool_on_exit, workers) - ) - - @classmethod - async def connect_tcp( - cls, host: str, port: int, local_address: IPSockAddrType | None = None - ) -> abc.SocketStream: - transport, protocol = cast( - Tuple[asyncio.Transport, StreamProtocol], - await get_running_loop().create_connection( - StreamProtocol, host, port, local_addr=local_address - ), - ) - transport.pause_reading() - return SocketStream(transport, protocol) - - @classmethod - async def connect_unix(cls, path: str | bytes) -> abc.UNIXSocketStream: - await cls.checkpoint() - loop = get_running_loop() - raw_socket = socket.socket(socket.AF_UNIX) - raw_socket.setblocking(False) - while True: - try: - raw_socket.connect(path) - except BlockingIOError: - f: asyncio.Future = asyncio.Future() - loop.add_writer(raw_socket, f.set_result, None) - f.add_done_callback(lambda _: loop.remove_writer(raw_socket)) - await f - except BaseException: - raw_socket.close() - raise - else: - return UNIXSocketStream(raw_socket) - - @classmethod - def create_tcp_listener(cls, sock: socket.socket) -> SocketListener: - return TCPSocketListener(sock) - - @classmethod - def create_unix_listener(cls, sock: socket.socket) -> SocketListener: - return UNIXSocketListener(sock) - - @classmethod - async def create_udp_socket( - cls, - family: AddressFamily, - local_address: IPSockAddrType | None, - remote_address: IPSockAddrType | None, - reuse_port: bool, - ) -> UDPSocket | ConnectedUDPSocket: - transport, protocol = await get_running_loop().create_datagram_endpoint( - DatagramProtocol, - local_addr=local_address, - remote_addr=remote_address, - family=family, - reuse_port=reuse_port, - ) - if protocol.exception: - transport.close() - raise protocol.exception - - if not remote_address: - return UDPSocket(transport, protocol) - else: - return ConnectedUDPSocket(transport, protocol) - - @classmethod - async def create_unix_datagram_socket( # type: ignore[override] - cls, raw_socket: socket.socket, remote_path: str | bytes | None - ) -> abc.UNIXDatagramSocket | abc.ConnectedUNIXDatagramSocket: - await cls.checkpoint() - loop = get_running_loop() - - if remote_path: - while True: - try: - raw_socket.connect(remote_path) - except BlockingIOError: - f: asyncio.Future = asyncio.Future() - loop.add_writer(raw_socket, f.set_result, None) - f.add_done_callback(lambda _: loop.remove_writer(raw_socket)) - await f - except BaseException: - raw_socket.close() - raise - else: - return ConnectedUNIXDatagramSocket(raw_socket) - else: - return UNIXDatagramSocket(raw_socket) - - @classmethod - 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, - ) -> list[ - tuple[ - AddressFamily, - SocketKind, - int, - str, - tuple[str, int] | tuple[str, int, int, int], - ] - ]: - return await get_running_loop().getaddrinfo( - host, port, family=family, type=type, proto=proto, flags=flags - ) - - @classmethod - async def getnameinfo( - cls, sockaddr: IPSockAddrType, flags: int = 0 - ) -> tuple[str, str]: - return await get_running_loop().getnameinfo(sockaddr, flags) - - @classmethod - async def wait_socket_readable(cls, sock: socket.socket) -> None: - await cls.checkpoint() - try: - read_events = _read_events.get() - except LookupError: - read_events = {} - _read_events.set(read_events) - - if read_events.get(sock): - raise BusyResourceError("reading from") from None - - loop = get_running_loop() - event = read_events[sock] = asyncio.Event() - loop.add_reader(sock, event.set) - try: - await event.wait() - finally: - if read_events.pop(sock, None) is not None: - loop.remove_reader(sock) - readable = True - else: - readable = False - - if not readable: - raise ClosedResourceError - - @classmethod - async def wait_socket_writable(cls, sock: socket.socket) -> None: - await cls.checkpoint() - try: - write_events = _write_events.get() - except LookupError: - write_events = {} - _write_events.set(write_events) - - if write_events.get(sock): - raise BusyResourceError("writing to") from None - - loop = get_running_loop() - event = write_events[sock] = asyncio.Event() - loop.add_writer(sock.fileno(), event.set) - try: - await event.wait() - finally: - if write_events.pop(sock, None) is not None: - loop.remove_writer(sock) - writable = True - else: - writable = False - - if not writable: - raise ClosedResourceError - - @classmethod - def current_default_thread_limiter(cls) -> CapacityLimiter: - try: - return _default_thread_limiter.get() - except LookupError: - limiter = CapacityLimiter(40) - _default_thread_limiter.set(limiter) - return limiter - - @classmethod - def open_signal_receiver( - cls, *signals: Signals - ) -> ContextManager[AsyncIterator[Signals]]: - return _SignalReceiver(signals) - - @classmethod - def get_current_task(cls) -> TaskInfo: - return _create_task_info(current_task()) # type: ignore[arg-type] - - @classmethod - def get_running_tasks(cls) -> list[TaskInfo]: - return [_create_task_info(task) for task in all_tasks() if not task.done()] - - @classmethod - async def wait_all_tasks_blocked(cls) -> None: - await cls.checkpoint() - this_task = current_task() - while True: - for task in all_tasks(): - if task is this_task: - continue - - waiter = task._fut_waiter # type: ignore[attr-defined] - if waiter is None or waiter.done(): - await sleep(0.1) - break - else: - return - - @classmethod - def create_test_runner(cls, options: dict[str, Any]) -> TestRunner: - return TestRunner(**options) - - -backend_class = AsyncIOBackend diff --git a/venv/lib/python3.11/site-packages/anyio/_backends/_trio.py b/venv/lib/python3.11/site-packages/anyio/_backends/_trio.py deleted file mode 100644 index 1a47192..0000000 --- a/venv/lib/python3.11/site-packages/anyio/_backends/_trio.py +++ /dev/null @@ -1,1169 +0,0 @@ -from __future__ import annotations - -import array -import math -import socket -import sys -import types -from collections.abc import AsyncIterator, Iterable -from concurrent.futures import Future -from dataclasses import dataclass -from functools import partial -from io import IOBase -from os import PathLike -from signal import Signals -from socket import AddressFamily, SocketKind -from types import TracebackType -from typing import ( - IO, - Any, - AsyncGenerator, - Awaitable, - Callable, - Collection, - ContextManager, - Coroutine, - Generic, - Mapping, - NoReturn, - Sequence, - TypeVar, - cast, - overload, -) - -import trio.from_thread -import trio.lowlevel -from outcome import Error, Outcome, Value -from trio.lowlevel import ( - current_root_task, - current_task, - wait_readable, - wait_writable, -) -from trio.socket import SocketType as TrioSocketType -from trio.to_thread import run_sync - -from .. import CapacityLimiterStatistics, EventStatistics, TaskInfo, abc -from .._core._eventloop import claim_worker_thread -from .._core._exceptions import ( - BrokenResourceError, - BusyResourceError, - ClosedResourceError, - EndOfStream, -) -from .._core._sockets import convert_ipv6_sockaddr -from .._core._streams import create_memory_object_stream -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, UNIXDatagramPacketType -from ..abc._eventloop import AsyncBackend -from ..streams.memory import MemoryObjectSendStream - -if sys.version_info >= (3, 10): - from typing import ParamSpec -else: - from typing_extensions import ParamSpec - -if sys.version_info >= (3, 11): - from typing import TypeVarTuple, Unpack -else: - from exceptiongroup import BaseExceptionGroup - from typing_extensions import TypeVarTuple, Unpack - -T = TypeVar("T") -T_Retval = TypeVar("T_Retval") -T_SockAddr = TypeVar("T_SockAddr", str, IPSockAddrType) -PosArgsT = TypeVarTuple("PosArgsT") -P = ParamSpec("P") - - -# -# Event loop -# - -RunVar = trio.lowlevel.RunVar - - -# -# Timeouts and cancellation -# - - -class CancelScope(BaseCancelScope): - def __new__( - cls, original: trio.CancelScope | None = None, **kwargs: object - ) -> CancelScope: - return object.__new__(cls) - - def __init__(self, original: trio.CancelScope | None = 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: type[BaseException] | None, - exc_val: BaseException | None, - exc_tb: TracebackType | None, - ) -> bool | None: - # https://github.com/python-trio/trio-typing/pull/79 - return self.__original.__exit__(exc_type, exc_val, exc_tb) - - def cancel(self) -> None: - self.__original.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 cancelled_caught(self) -> bool: - return self.__original.cancelled_caught - - @property - def shield(self) -> bool: - return self.__original.shield - - @shield.setter - def shield(self, value: bool) -> None: - self.__original.shield = value - - -# -# Task groups -# - - -class TaskGroup(abc.TaskGroup): - def __init__(self) -> None: - self._active = False - self._nursery_manager = trio.open_nursery(strict_exception_groups=True) - 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: type[BaseException] | None, - exc_val: BaseException | None, - exc_tb: TracebackType | None, - ) -> bool | None: - try: - return await self._nursery_manager.__aexit__(exc_type, exc_val, exc_tb) - except BaseExceptionGroup as exc: - _, rest = exc.split(trio.Cancelled) - if not rest: - cancelled_exc = trio.Cancelled._create() - raise cancelled_exc from exc - - raise - finally: - self._active = False - - def start_soon( - self, - func: Callable[[Unpack[PosArgsT]], Awaitable[Any]], - *args: Unpack[PosArgsT], - 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[..., Awaitable[Any]], *args: object, name: object = None - ) -> Any: - 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 -# - - -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[[Unpack[PosArgsT]], Awaitable[T_Retval] | T_Retval], - args: tuple[Unpack[PosArgsT]], - kwargs: dict[str, Any], - name: object, - future: Future[T_Retval], - ) -> None: - trio.from_thread.run_sync( - 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: int | None = 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: abc.ByteSendStream | None - _stdout: abc.ByteReceiveStream | None - _stderr: abc.ByteReceiveStream | None - - async def aclose(self) -> None: - with CancelScope(shield=True): - if self._stdin: - await self._stdin.aclose() - if self._stdout: - await self._stdout.aclose() - if self._stderr: - await self._stderr.aclose() - - try: - await self.wait() - except BaseException: - self.kill() - with CancelScope(shield=True): - await self.wait() - raise - - 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) -> int | None: - return self._process.returncode - - @property - def stdin(self) -> abc.ByteSendStream | None: - return self._stdin - - @property - def stdout(self) -> abc.ByteReceiveStream | None: - return self._stdout - - @property - def stderr(self) -> abc.ByteReceiveStream | None: - return self._stderr - - -class _ProcessPoolShutdownInstrument(trio.abc.Instrument): - def after_run(self) -> None: - super().after_run() - - -current_default_worker_process_limiter: trio.lowlevel.RunVar = RunVar( - "current_default_worker_process_limiter" -) - - -async def _shutdown_process_pool(workers: set[abc.Process]) -> None: - try: - await trio.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() - - -# -# 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 trio.lowlevel.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[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 trio.lowlevel.checkpoint() - with self._send_guard: - while True: - try: - await self._trio_socket.sendmsg( - [message], - [ - ( - socket.SOL_SOCKET, - socket.SCM_RIGHTS, - 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) - - -class UNIXDatagramSocket(_TrioSocketMixin[str], abc.UNIXDatagramSocket): - 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) -> UNIXDatagramPacketType: - with self._receive_guard: - try: - data, addr = await self._trio_socket.recvfrom(65536) - return data, addr - except BaseException as exc: - self._convert_socket_error(exc) - - async def send(self, item: UNIXDatagramPacketType) -> None: - with self._send_guard: - try: - await self._trio_socket.sendto(*item) - except BaseException as exc: - self._convert_socket_error(exc) - - -class ConnectedUNIXDatagramSocket( - _TrioSocketMixin[str], abc.ConnectedUNIXDatagramSocket -): - 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) - - -# -# 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) -> None: - self.__original.set() - - -class CapacityLimiter(BaseCapacityLimiter): - def __new__( - cls, - total_tokens: float | None = None, - *, - original: trio.CapacityLimiter | None = None, - ) -> CapacityLimiter: - return object.__new__(cls) - - def __init__( - self, - total_tokens: float | None = None, - *, - original: trio.CapacityLimiter | None = None, - ) -> None: - if original is not None: - self.__original = original - else: - assert total_tokens is not None - self.__original = trio.CapacityLimiter(total_tokens) - - async def __aenter__(self) -> None: - return await self.__original.__aenter__() - - async def __aexit__( - self, - exc_type: type[BaseException] | None, - exc_val: BaseException | None, - exc_tb: TracebackType | None, - ) -> None: - 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) -> None: - self.__original.acquire_nowait() - - def acquire_on_behalf_of_nowait(self, borrower: object) -> None: - self.__original.acquire_on_behalf_of_nowait(borrower) - - 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=tuple(orig.borrowers), - tasks_waiting=orig.tasks_waiting, - ) - - -_capacity_limiter_wrapper: trio.lowlevel.RunVar = RunVar("_capacity_limiter_wrapper") - - -# -# Signal handling -# - - -class _SignalReceiver: - _iterator: AsyncIterator[int] - - def __init__(self, signals: tuple[Signals, ...]): - self._signals = signals - - def __enter__(self) -> _SignalReceiver: - self._cm = trio.open_signal_receiver(*self._signals) - self._iterator = self._cm.__enter__() - return self - - def __exit__( - self, - exc_type: type[BaseException] | None, - exc_val: BaseException | None, - exc_tb: TracebackType | None, - ) -> bool | None: - return self._cm.__exit__(exc_type, exc_val, exc_tb) - - def __aiter__(self) -> _SignalReceiver: - return self - - async def __anext__(self) -> Signals: - signum = await self._iterator.__anext__() - return Signals(signum) - - -# -# Testing and debugging -# - - -class TestRunner(abc.TestRunner): - def __init__(self, **options: Any) -> None: - from queue import Queue - - self._call_queue: Queue[Callable[[], object]] = Queue() - self._send_stream: MemoryObjectSendStream | None = None - self._options = options - - def __exit__( - self, - exc_type: type[BaseException] | None, - exc_val: BaseException | None, - exc_tb: types.TracebackType | None, - ) -> None: - if self._send_stream: - self._send_stream.close() - while self._send_stream is not None: - self._call_queue.get()() - - async def _run_tests_and_fixtures(self) -> None: - self._send_stream, receive_stream = create_memory_object_stream(1) - with receive_stream: - async for coro, outcome_holder in receive_stream: - try: - retval = await coro - except BaseException as exc: - outcome_holder.append(Error(exc)) - else: - outcome_holder.append(Value(retval)) - - def _main_task_finished(self, outcome: object) -> None: - self._send_stream = None - - def _call_in_runner_task( - self, - func: Callable[P, Awaitable[T_Retval]], - *args: P.args, - **kwargs: P.kwargs, - ) -> T_Retval: - if self._send_stream is None: - trio.lowlevel.start_guest_run( - self._run_tests_and_fixtures, - run_sync_soon_threadsafe=self._call_queue.put, - done_callback=self._main_task_finished, - **self._options, - ) - while self._send_stream is None: - self._call_queue.get()() - - outcome_holder: list[Outcome] = [] - self._send_stream.send_nowait((func(*args, **kwargs), outcome_holder)) - while not outcome_holder: - self._call_queue.get()() - - return outcome_holder[0].unwrap() - - def run_asyncgen_fixture( - self, - fixture_func: Callable[..., AsyncGenerator[T_Retval, Any]], - kwargs: dict[str, Any], - ) -> Iterable[T_Retval]: - asyncgen = fixture_func(**kwargs) - fixturevalue: T_Retval = self._call_in_runner_task(asyncgen.asend, None) - - yield fixturevalue - - try: - self._call_in_runner_task(asyncgen.asend, None) - except StopAsyncIteration: - pass - else: - self._call_in_runner_task(asyncgen.aclose) - raise RuntimeError("Async generator fixture did not stop") - - def run_fixture( - self, - fixture_func: Callable[..., Coroutine[Any, Any, T_Retval]], - kwargs: dict[str, Any], - ) -> T_Retval: - return self._call_in_runner_task(fixture_func, **kwargs) - - def run_test( - self, test_func: Callable[..., Coroutine[Any, Any, Any]], kwargs: dict[str, Any] - ) -> None: - self._call_in_runner_task(test_func, **kwargs) - - -class TrioBackend(AsyncBackend): - @classmethod - def run( - cls, - func: Callable[[Unpack[PosArgsT]], Awaitable[T_Retval]], - args: tuple[Unpack[PosArgsT]], - kwargs: dict[str, Any], - options: dict[str, Any], - ) -> T_Retval: - return trio.run(func, *args) - - @classmethod - def current_token(cls) -> object: - return trio.lowlevel.current_trio_token() - - @classmethod - def current_time(cls) -> float: - return trio.current_time() - - @classmethod - def cancelled_exception_class(cls) -> type[BaseException]: - return trio.Cancelled - - @classmethod - async def checkpoint(cls) -> None: - await trio.lowlevel.checkpoint() - - @classmethod - async def checkpoint_if_cancelled(cls) -> None: - await trio.lowlevel.checkpoint_if_cancelled() - - @classmethod - async def cancel_shielded_checkpoint(cls) -> None: - await trio.lowlevel.cancel_shielded_checkpoint() - - @classmethod - async def sleep(cls, delay: float) -> None: - await trio.sleep(delay) - - @classmethod - def create_cancel_scope( - cls, *, deadline: float = math.inf, shield: bool = False - ) -> abc.CancelScope: - return CancelScope(deadline=deadline, shield=shield) - - @classmethod - def current_effective_deadline(cls) -> float: - return trio.current_effective_deadline() - - @classmethod - def create_task_group(cls) -> abc.TaskGroup: - return TaskGroup() - - @classmethod - def create_event(cls) -> abc.Event: - return Event() - - @classmethod - def create_capacity_limiter(cls, total_tokens: float) -> CapacityLimiter: - return CapacityLimiter(total_tokens) - - @classmethod - async def run_sync_in_worker_thread( - cls, - func: Callable[[Unpack[PosArgsT]], T_Retval], - args: tuple[Unpack[PosArgsT]], - abandon_on_cancel: bool = False, - limiter: abc.CapacityLimiter | None = None, - ) -> T_Retval: - def wrapper() -> T_Retval: - with claim_worker_thread(TrioBackend, token): - return func(*args) - - token = TrioBackend.current_token() - return await run_sync( - wrapper, - abandon_on_cancel=abandon_on_cancel, - limiter=cast(trio.CapacityLimiter, limiter), - ) - - @classmethod - def check_cancelled(cls) -> None: - trio.from_thread.check_cancelled() - - @classmethod - def run_async_from_thread( - cls, - func: Callable[[Unpack[PosArgsT]], Awaitable[T_Retval]], - args: tuple[Unpack[PosArgsT]], - token: object, - ) -> T_Retval: - return trio.from_thread.run(func, *args) - - @classmethod - def run_sync_from_thread( - cls, - func: Callable[[Unpack[PosArgsT]], T_Retval], - args: tuple[Unpack[PosArgsT]], - token: object, - ) -> T_Retval: - return trio.from_thread.run_sync(func, *args) - - @classmethod - def create_blocking_portal(cls) -> abc.BlockingPortal: - return BlockingPortal() - - @classmethod - async def open_process( - cls, - command: str | bytes | Sequence[str | bytes], - *, - shell: bool, - stdin: int | IO[Any] | None, - stdout: int | IO[Any] | None, - stderr: int | IO[Any] | None, - cwd: str | bytes | PathLike | None = None, - env: Mapping[str, str] | None = None, - start_new_session: bool = False, - ) -> Process: - process = await trio.lowlevel.open_process( # type: ignore[misc] - command, # type: ignore[arg-type] - 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) - - @classmethod - def setup_process_pool_exit_at_shutdown(cls, workers: set[abc.Process]) -> None: - trio.lowlevel.spawn_system_task(_shutdown_process_pool, workers) - - @classmethod - async def connect_tcp( - cls, host: str, port: int, local_address: IPSockAddrType | None = 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) - - @classmethod - async def connect_unix(cls, path: str | bytes) -> abc.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) - - @classmethod - def create_tcp_listener(cls, sock: socket.socket) -> abc.SocketListener: - return TCPSocketListener(sock) - - @classmethod - def create_unix_listener(cls, sock: socket.socket) -> abc.SocketListener: - return UNIXSocketListener(sock) - - @classmethod - async def create_udp_socket( - cls, - family: socket.AddressFamily, - local_address: IPSockAddrType | None, - remote_address: IPSockAddrType | None, - reuse_port: bool, - ) -> 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) - - @classmethod - @overload - async def create_unix_datagram_socket( - cls, raw_socket: socket.socket, remote_path: None - ) -> abc.UNIXDatagramSocket: - ... - - @classmethod - @overload - async def create_unix_datagram_socket( - cls, raw_socket: socket.socket, remote_path: str | bytes - ) -> abc.ConnectedUNIXDatagramSocket: - ... - - @classmethod - async def create_unix_datagram_socket( - cls, raw_socket: socket.socket, remote_path: str | bytes | None - ) -> abc.UNIXDatagramSocket | abc.ConnectedUNIXDatagramSocket: - trio_socket = trio.socket.from_stdlib_socket(raw_socket) - - if remote_path: - await trio_socket.connect(remote_path) - return ConnectedUNIXDatagramSocket(trio_socket) - else: - return UNIXDatagramSocket(trio_socket) - - @classmethod - 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, - ) -> list[ - tuple[ - AddressFamily, - SocketKind, - int, - str, - tuple[str, int] | tuple[str, int, int, int], - ] - ]: - return await trio.socket.getaddrinfo(host, port, family, type, proto, flags) - - @classmethod - async def getnameinfo( - cls, sockaddr: IPSockAddrType, flags: int = 0 - ) -> tuple[str, str]: - return await trio.socket.getnameinfo(sockaddr, flags) - - @classmethod - async def wait_socket_readable(cls, 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 - - @classmethod - async def wait_socket_writable(cls, 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 - - @classmethod - def current_default_thread_limiter(cls) -> 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 - - @classmethod - def open_signal_receiver( - cls, *signals: Signals - ) -> ContextManager[AsyncIterator[Signals]]: - return _SignalReceiver(signals) - - @classmethod - def get_current_task(cls) -> TaskInfo: - task = 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) - - @classmethod - def get_running_tasks(cls) -> list[TaskInfo]: - root_task = current_root_task() - assert 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 - - @classmethod - async def wait_all_tasks_blocked(cls) -> None: - from trio.testing import wait_all_tasks_blocked - - await wait_all_tasks_blocked() - - @classmethod - def create_test_runner(cls, options: dict[str, Any]) -> TestRunner: - return TestRunner(**options) - - -backend_class = TrioBackend -- cgit v1.2.3