import enum from types import TracebackType from typing import final, Optional, Type from . import events from . import exceptions from . import tasks __all__ = ( "Timeout", "timeout", "timeout_at", ) class _State(enum.Enum): CREATED = "created" ENTERED = "active" EXPIRING = "expiring" EXPIRED = "expired" EXITED = "finished" @final class Timeout: def __init__(self, when: Optional[float]) -> None: self._state = _State.CREATED self._timeout_handler: Optional[events.TimerHandle] = None self._task: Optional[tasks.Task] = None self._when = when def when(self) -> Optional[float]: return self._when def reschedule(self, when: Optional[float]) -> None: assert self._state is not _State.CREATED if self._state is not _State.ENTERED: raise RuntimeError( f"Cannot change state of {self._state.value} Timeout", ) self._when = when if self._timeout_handler is not None: self._timeout_handler.cancel() if when is None: self._timeout_handler = None else: loop = events.get_running_loop() self._timeout_handler = loop.call_at( when, self._on_timeout, ) def expired(self) -> bool: """Is timeout expired during execution?""" return self._state in (_State.EXPIRING, _State.EXPIRED) def __repr__(self) -> str: info = [''] if self._state is _State.ENTERED: when = round(self._when, 3) if self._when is not None else None info.append(f"when={when}") info_str = ' '.join(info) return f"" async def __aenter__(self) -> "Timeout": self._state = _State.ENTERED self._task = tasks.current_task() if self._task is None: raise RuntimeError("Timeout should be used inside a task") self.reschedule(self._when) return self async def __aexit__( self, exc_type: Optional[Type[BaseException]], exc_val: Optional[BaseException], exc_tb: Optional[TracebackType], ) -> Optional[bool]: assert self._state in (_State.ENTERED, _State.EXPIRING) if self._timeout_handler is not None: self._timeout_handler.cancel() self._timeout_handler = None if self._state is _State.EXPIRING: self._state = _State.EXPIRED if self._task.uncancel() == 0 and exc_type is exceptions.CancelledError: # Since there are no outstanding cancel requests, we're # handling this. raise TimeoutError elif self._state is _State.ENTERED: self._state = _State.EXITED return None def _on_timeout(self) -> None: assert self._state is _State.ENTERED self._task.cancel() self._state = _State.EXPIRING # drop the reference early self._timeout_handler = None def timeout(delay: Optional[float]) -> Timeout: """Timeout async context manager. Useful in cases when you want to apply timeout logic around block of code or in cases when asyncio.wait_for is not suitable. For example: >>> async with asyncio.timeout(10): # 10 seconds timeout ... await long_running_task() delay - value in seconds or None to disable timeout logic long_running_task() is interrupted by raising asyncio.CancelledError, the top-most affected timeout() context manager converts CancelledError into TimeoutError. """ loop = events.get_running_loop() return Timeout(loop.time() + delay if delay is not None else None) def timeout_at(when: Optional[float]) -> Timeout: """Schedule the timeout at absolute time. Like timeout() but argument gives absolute time in the same clock system as loop.time(). Please note: it is not POSIX time but a time with undefined starting base, e.g. the time of the system power on. >>> async with asyncio.timeout_at(loop.time() + 10): ... await long_running_task() when - a deadline when timeout occurs or None to disable timeout logic long_running_task() is interrupted by raising asyncio.CancelledError, the top-most affected timeout() context manager converts CancelledError into TimeoutError. """ return Timeout(when)