mirror of
https://github.com/blakeblackshear/frigate.git
synced 2024-11-26 19:06:11 +01:00
151 lines
5.6 KiB
Python
151 lines
5.6 KiB
Python
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import asyncio
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import functools
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import logging
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import multiprocessing as mp
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import queue
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import threading
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from multiprocessing.connection import Connection
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from multiprocessing.connection import wait as mp_wait
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from socket import socket
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from typing import Any, Optional, Union
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logger = logging.getLogger(__name__)
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class MultiprocessingWaiter(threading.Thread):
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"""A background thread that manages futures for the multiprocessing.connection.wait() method."""
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def __init__(self) -> None:
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super().__init__(daemon=True)
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# Queue of objects to wait for and futures to set results for.
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self._queue: queue.Queue[tuple[Any, asyncio.Future[None]]] = queue.Queue()
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# This is required to get mp_wait() to wake up when new objects to wait for are received.
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receive, send = mp.Pipe(duplex=False)
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self._receive_connection = receive
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self._send_connection = send
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def wait_for_sentinel(self, sentinel: Any) -> asyncio.Future[None]:
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"""Create an asyncio.Future tracking a sentinel for multiprocessing.connection.wait()
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Warning: This method is NOT thread-safe.
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"""
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# This would be incredibly stupid, but you never know.
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assert sentinel != self._receive_connection
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# Send the future to the background thread for processing.
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future = asyncio.get_running_loop().create_future()
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self._queue.put((sentinel, future))
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# Notify the background thread.
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#
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# This is the non-thread-safe part, but since this method is not really meant to be called
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# by users, we can get away with not adding a lock at this point (to avoid adding 2 locks).
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self._send_connection.send_bytes(b".")
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return future
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def run(self) -> None:
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logger.debug("Started background thread")
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wait_dict: dict[Any, set[asyncio.Future[None]]] = {
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self._receive_connection: set()
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}
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while True:
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for ready_obj in mp_wait(wait_dict.keys()):
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# Make sure we never remove the receive connection from the wait dict
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if ready_obj is self._receive_connection:
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continue
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logger.debug(
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f"Sentinel {ready_obj!r} is ready. "
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f"Notifying {len(wait_dict[ready_obj])} future(s)."
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)
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# Go over all the futures attached to this object and mark them as ready.
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for fut in wait_dict.pop(ready_obj):
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if fut.cancelled():
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logger.debug(
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f"A future for sentinel {ready_obj!r} is ready, "
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"but the future is cancelled. Skipping."
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)
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else:
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fut.get_loop().call_soon_threadsafe(
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# Note: We need to check fut.cancelled() again, since it might
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# have been set before the event loop's definition of "soon".
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functools.partial(
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lambda fut: fut.cancelled() or fut.set_result(None), fut
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)
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)
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# Check for cancellations in the remaining futures.
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done_objects = []
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for obj, fut_set in wait_dict.items():
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if obj is self._receive_connection:
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continue
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# Find any cancelled futures and remove them.
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cancelled = [fut for fut in fut_set if fut.cancelled()]
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fut_set.difference_update(cancelled)
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logger.debug(
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f"Removing {len(cancelled)} future(s) from sentinel: {obj!r}"
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)
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# Mark objects with no remaining futures for removal.
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if len(fut_set) == 0:
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done_objects.append(obj)
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# Remove any objects that are done after removing cancelled futures.
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for obj in done_objects:
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logger.debug(
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f"Sentinel {obj!r} no longer has any futures waiting for it."
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)
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del wait_dict[obj]
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# Get new objects to wait for from the queue.
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while True:
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try:
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obj, fut = self._queue.get_nowait()
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self._receive_connection.recv_bytes(maxlength=1)
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self._queue.task_done()
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logger.debug(f"Received new sentinel: {obj!r}")
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wait_dict.setdefault(obj, set()).add(fut)
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except queue.Empty:
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break
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waiter_lock = threading.Lock()
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waiter_thread: Optional[MultiprocessingWaiter] = None
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async def wait(object: Union[mp.Process, Connection, socket]) -> None:
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"""Wait for the supplied object to be ready.
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Under the hood, this uses multiprocessing.connection.wait() and a background thread manage the
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returned futures.
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"""
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global waiter_thread, waiter_lock
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sentinel: Union[Connection, socket, int]
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if isinstance(object, mp.Process):
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sentinel = object.sentinel
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elif isinstance(object, Connection) or isinstance(object, socket):
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sentinel = object
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else:
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raise ValueError(f"Cannot wait for object of type {type(object).__qualname__}")
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with waiter_lock:
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if waiter_thread is None:
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# Start a new waiter thread.
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waiter_thread = MultiprocessingWaiter()
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waiter_thread.start()
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# Create the future while still holding the lock,
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# since wait_for_sentinel() is not thread safe.
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fut = waiter_thread.wait_for_sentinel(sentinel)
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await fut
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