mirror of
https://github.com/blakeblackshear/frigate.git
synced 2024-11-26 19:06:11 +01:00
447 lines
14 KiB
Python
447 lines
14 KiB
Python
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from __future__ import annotations
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import asyncio
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import atexit
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import logging
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import threading
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from abc import ABC, abstractmethod
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from contextvars import ContextVar
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from dataclasses import dataclass
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from functools import partial
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from typing import Coroutine, Optional, Union, cast
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from typing_extensions import Self
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class Service(ABC):
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"""An abstract service instance."""
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def __init__(
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self,
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*,
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name: Optional[str] = None,
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manager: Optional[ServiceManager] = None,
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):
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if name:
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self.__dict__["name"] = name
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self.__manager = manager or ServiceManager.current()
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self.__lock = asyncio.Lock(loop=self.__manager._event_loop)
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self.__manager._register(self)
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@property
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def name(self) -> str:
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try:
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return cast(str, self.__dict__["name"])
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except KeyError:
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return type(self).__qualname__
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@property
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def manager(self) -> ServiceManager:
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"""The service manager this service is registered with."""
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try:
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return self.__manager
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except AttributeError:
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raise RuntimeError("Cannot access associated service manager")
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def start(
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self,
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*,
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wait: bool = False,
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wait_timeout: Optional[float] = None,
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) -> Self:
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"""Start this service.
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:param wait: If set, this function will block until the task is complete.
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:param wait_timeout: If set, this function will not return until the task is complete or the
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specified timeout has elapsed.
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"""
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self.manager.run_task(
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self.on_start(),
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wait=wait,
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wait_timeout=wait_timeout,
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lock=self.__lock,
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)
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return self
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def stop(
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self,
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*,
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force: bool = False,
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timeout: Optional[float] = None,
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wait: bool = False,
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wait_timeout: Optional[float] = None,
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) -> Self:
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"""Stop this service.
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:param force: If set, the service will be killed immediately.
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:param timeout: Maximum amount of time to wait before force-killing the service.
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:param wait: If set, this function will block until the task is complete.
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:param wait_timeout: If set, this function will not return until the task is complete or the
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specified timeout has elapsed.
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"""
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self.manager.run_task(
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self.on_stop(force=force, timeout=timeout),
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wait=wait,
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wait_timeout=wait_timeout,
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lock=self.__lock,
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)
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return self
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def restart(
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self,
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*,
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force: bool = False,
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stop_timeout: Optional[float] = None,
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wait: bool = False,
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wait_timeout: Optional[float] = None,
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) -> Self:
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"""Restart this service.
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:param force: If set, the service will be killed immediately.
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:param timeout: Maximum amount of time to wait before force-killing the service.
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:param wait: If set, this function will block until the task is complete.
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:param wait_timeout: If set, this function will not return until the task is complete or the
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specified timeout has elapsed.
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"""
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self.manager.run_task(
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self.on_restart(force=force, stop_timeout=stop_timeout),
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wait=wait,
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wait_timeout=wait_timeout,
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lock=self.__lock,
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)
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return self
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@abstractmethod
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async def on_start(self) -> None:
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pass
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@abstractmethod
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async def on_stop(
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self,
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*,
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force: bool = False,
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timeout: Optional[float] = None,
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) -> None:
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pass
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async def on_restart(
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self,
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*,
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force: bool = False,
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stop_timeout: Optional[float] = None,
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) -> None:
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await self.on_stop(force=force, timeout=stop_timeout)
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await self.on_start()
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default_service_manager_lock = threading.Lock()
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default_service_manager: Optional[ServiceManager] = None
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current_service_manager: ContextVar[ServiceManager] = ContextVar(
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"current_service_manager"
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)
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@dataclass
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class Command:
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"""A coroutine to execute in the service manager thread.
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Attributes:
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coro: The coroutine to execute.
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lock: An async lock to acquire before calling the coroutine.
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done: If specified, the service manager will set this event after the command completes.
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"""
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coro: Coroutine
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lock: Optional[asyncio.Lock] = None
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done: Optional[threading.Event] = None
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class ServiceManager:
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"""A set of services, along with the global state required to manage them efficiently.
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Typically users of the service infrastructure will not interact with a service manager directly,
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but rather through individual Service subclasses that will automatically manage a service
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manager instance.
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Each service manager instance has a background thread in which service lifecycle tasks are
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executed in an async executor. This is done to avoid head-of-line blocking in the business logic
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that spins up individual services. This thread is automatically started when the service manager
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is created and stopped either manually, or on application exit.
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All (public) service manager methods are thread-safe.
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"""
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_name: str
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_logger: logging.Logger
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# The set of services this service manager knows about.
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_services: dict[str, Service]
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_services_lock: threading.Lock
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# Commands will be queued with associated event loop. Queueing `None` signals shutdown.
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_command_queue: asyncio.Queue[Union[Command, None]]
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_event_loop: asyncio.AbstractEventLoop
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# The pending command counter is used to ensure all commands have been queued before shutdown.
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_pending_commands: AtomicCounter
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# The set of pending tasks after they have been received by the background thread and spawned.
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_tasks: set
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# Fired after the async runtime starts. Object initialization completes after this is set.
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_setup_event: threading.Event
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# Will be acquired to ensure the shutdown sentinel is sent only once. Never released.
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_shutdown_lock: threading.Lock
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def __init__(self, *, name: Optional[str] = None):
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self._name = name if name is not None else (__package__ or __name__)
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self._logger = logging.getLogger(self.name)
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self._services = dict()
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self._services_lock = threading.Lock()
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self._pending_commands = AtomicCounter()
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self._tasks = set()
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self._shutdown_lock = threading.Lock()
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# --- Start the manager thread and wait for it to be ready. ---
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self._setup_event = threading.Event()
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async def start_manager() -> None:
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self._event_loop = asyncio.get_running_loop()
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self._command_queue = asyncio.Queue()
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self._setup_event.set()
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await self._monitor_command_queue()
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self._manager_thread = threading.Thread(
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name=self.name,
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target=lambda: asyncio.run(start_manager()),
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daemon=True,
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)
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self._manager_thread.start()
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atexit.register(partial(self.shutdown, wait=True))
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self._setup_event.wait()
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@property
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def name(self) -> str:
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"""The name of this service manager. Primarily intended for logging purposes."""
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return self._name
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@property
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def logger(self) -> logging.Logger:
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"""The logger used by this service manager."""
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return self._logger
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@classmethod
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def current(cls) -> ServiceManager:
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"""The service manager set in the current context (async task or thread).
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A global default service manager will be automatically created on first access."""
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global default_service_manager
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current = current_service_manager.get(None)
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if current is None:
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with default_service_manager_lock:
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if default_service_manager is None:
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default_service_manager = cls()
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current = default_service_manager
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current_service_manager.set(current)
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return current
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def make_current(self) -> None:
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"""Make this the current service manager."""
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current_service_manager.set(self)
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def run_task(
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self,
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coro: Coroutine,
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*,
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wait: bool = False,
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wait_timeout: Optional[float] = None,
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lock: Optional[asyncio.Lock] = None,
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) -> None:
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"""Run an async task in the service manager thread.
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:param wait: If set, this function will block until the task is complete.
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:param wait_timeout: If set, this function will not return until the task is complete or the
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specified timeout has elapsed.
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"""
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if not isinstance(coro, Coroutine):
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raise TypeError(f"Cannot schedule task for object of type {type(coro)}")
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cmd = Command(coro=coro, lock=lock)
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if wait or wait_timeout is not None:
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cmd.done = threading.Event()
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self._send_command(cmd)
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if cmd.done is not None:
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cmd.done.wait(timeout=wait_timeout)
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def shutdown(
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self, *, wait: bool = False, wait_timeout: Optional[float] = None
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) -> None:
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"""Shutdown the service manager thread.
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After the shutdown process completes, any subsequent calls to the service manager will
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produce an error.
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:param wait: If set, this function will block until the shutdown process is complete.
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:param wait_timeout: If set, this function will not return until the shutdown process is
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complete or the specified timeout has elapsed.
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"""
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if self._shutdown_lock.acquire(blocking=False):
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self._send_command(None)
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if wait:
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self._manager_thread.join(timeout=wait_timeout)
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def _ensure_running(self) -> None:
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self._setup_event.wait()
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if not self._manager_thread.is_alive():
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raise RuntimeError(f"ServiceManager {self.name} is not running")
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def _send_command(self, command: Union[Command, None]) -> None:
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self._ensure_running()
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async def queue_command() -> None:
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await self._command_queue.put(command)
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self._pending_commands.sub()
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self._pending_commands.add()
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asyncio.run_coroutine_threadsafe(queue_command(), self._event_loop)
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def _register(self, service: Service) -> None:
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"""Register a service with the service manager. This is done by the service constructor."""
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self._ensure_running()
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with self._services_lock:
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name_conflict: Optional[Service] = next(
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(
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existing
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for name, existing in self._services.items()
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if name == service.name
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),
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None,
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)
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if name_conflict is service:
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raise RuntimeError(f"Attempt to re-register service: {service.name}")
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elif name_conflict is not None:
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raise RuntimeError(f"Duplicate service name: {service.name}")
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self.logger.debug(f"Registering service: {service.name}")
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self._services[service.name] = service
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def _run_command(self, command: Command) -> None:
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"""Execute a command and add it to the tasks set."""
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def task_done(task: asyncio.Task) -> None:
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exc = task.exception()
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if exc:
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self.logger.exception("Exception in service manager task", exc_info=exc)
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self._tasks.discard(task)
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if command.done is not None:
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command.done.set()
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async def task_harness() -> None:
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if command.lock is not None:
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async with command.lock:
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await command.coro
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else:
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await command.coro
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task = asyncio.create_task(task_harness())
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task.add_done_callback(task_done)
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self._tasks.add(task)
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async def _monitor_command_queue(self) -> None:
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"""The main function of the background thread."""
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self.logger.info("Started service manager")
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# Main command processing loop.
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while (command := await self._command_queue.get()) is not None:
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self._run_command(command)
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# Send a stop command to all services. We don't have a status command yet, so we can just
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# stop everything and be done with it.
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with self._services_lock:
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self.logger.debug(f"Stopping {len(self._services)} services")
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for service in self._services.values():
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service.stop()
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# Wait for all commands to finish executing.
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await self._shutdown()
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self.logger.info("Exiting service manager")
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async def _shutdown(self) -> None:
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"""Ensure all commands have been queued & executed."""
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while True:
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command = None
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try:
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# Try and get a command from the queue.
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command = self._command_queue.get_nowait()
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except asyncio.QueueEmpty:
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if self._pending_commands.value > 0:
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# If there are pending commands to queue, await them.
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command = await self._command_queue.get()
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elif self._tasks:
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# If there are still pending tasks, wait for them. These tasks might queue
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# commands though, so we have to loop again.
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await asyncio.wait(self._tasks)
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else:
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# Nothing is pending at this point, so we're done here.
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break
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# If we got a command, run it.
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if command is not None:
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self._run_command(command)
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class AtomicCounter:
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"""A lock-protected atomic counter."""
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# Modern CPUs have atomics, but python doesn't seem to include them in the standard library.
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# Besides, the performance penalty is negligible compared to, well, using python.
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# So this will do just fine.
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def __init__(self, initial: int = 0):
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self._lock = threading.Lock()
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self._value = initial
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def add(self, value: int = 1) -> None:
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with self._lock:
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self._value += value
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def sub(self, value: int = 1) -> None:
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with self._lock:
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self._value -= value
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@property
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def value(self) -> int:
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with self._lock:
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return self._value
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