app/liteyuki/core/manager.py

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# -*- coding: utf-8 -*-
"""
Copyright (C) 2020-2024 LiteyukiStudio. All Rights Reserved
@Time : 2024/7/27 上午11:12
@Author : snowykami
@Email : snowykami@outlook.com
@File : manager.py
@Software: PyCharm
"""
import threading
from multiprocessing import Process
from typing import Any, Callable, TYPE_CHECKING, TypeAlias
from liteyuki.comm.channel import Channel, get_channel, set_channels
from liteyuki.comm.storage import shared_memory
from liteyuki.log import logger
from liteyuki.utils import IS_MAIN_PROCESS
if TYPE_CHECKING:
from liteyuki.bot.lifespan import Lifespan
from liteyuki.comm.storage import KeyValueStore
if IS_MAIN_PROCESS:
from liteyuki.comm.channel import channel_deliver_active_channel, channel_deliver_passive_channel
else:
from liteyuki.comm import channel
TARGET_FUNC: TypeAlias = Callable[..., Any]
TIMEOUT = 10
__all__ = [
"ProcessManager"
]
class ChannelDeliver:
def __init__(
self,
active: Channel[Any],
passive: Channel[Any],
channel_deliver_active: Channel[Channel[Any]],
channel_deliver_passive: Channel[tuple[str, dict]]
):
self.active = active
self.passive = passive
self.channel_deliver_active = channel_deliver_active
self.channel_deliver_passive = channel_deliver_passive
# 函数处理一些跨进程通道的
def _delivery_channel_wrapper(func: TARGET_FUNC, cd: ChannelDeliver, sm: "KeyValueStore", *args, **kwargs):
"""
子进程入口函数
处理一些操作
"""
# 给子进程设置通道
if IS_MAIN_PROCESS:
raise RuntimeError("Function should only be called in a sub process.")
channel.active_channel = cd.active # 子进程主动通道
channel.passive_channel = cd.passive # 子进程被动通道
channel.channel_deliver_active_channel = cd.channel_deliver_active # 子进程通道传递主动通道
channel.channel_deliver_passive_channel = cd.channel_deliver_passive # 子进程通道传递被动通道
# 给子进程创建共享内存实例
from liteyuki.comm import storage
storage.shared_memory = sm
func(*args, **kwargs)
class ProcessManager:
"""
进程管理器
"""
def __init__(self, lifespan: "Lifespan"):
self.lifespan = lifespan
self.targets: dict[str, tuple[Callable, tuple, dict]] = {}
self.processes: dict[str, Process] = {}
def start(self, name: str):
"""
开启后自动监控进程并添加到进程字典中
Args:
name:
Returns:
"""
if name not in self.targets:
raise KeyError(f"Process {name} not found.")
chan_active = get_channel(f"{name}-active")
def _start_process():
process = Process(target=self.targets[name][0], args=self.targets[name][1],
kwargs=self.targets[name][2], daemon=True)
self.processes[name] = process
process.start()
# 启动进程并监听信号
_start_process()
while True:
data = chan_active.receive()
if data == 0:
# 停止
logger.info(f"Stopping process {name}")
self.lifespan.before_process_shutdown()
self.terminate(name)
break
elif data == 1:
# 重启
logger.info(f"Restarting process {name}")
self.lifespan.before_process_shutdown()
self.lifespan.before_process_restart()
self.terminate(name)
_start_process()
continue
else:
logger.warning("Unknown data received, ignored.")
def start_all(self):
"""
启动所有进程
"""
for name in self.targets:
threading.Thread(target=self.start, args=(name,), daemon=True).start()
def add_target(self, name: str, target: TARGET_FUNC, args: tuple = (), kwargs=None):
"""
添加进程
Args:
name: 进程名用于获取和唯一标识
target: 进程函数
args: 进程函数参数
kwargs: 进程函数关键字参数通常会默认传入chan_active和chan_passive
"""
if kwargs is None:
kwargs = {}
chan_active: Channel = Channel(_id=f"{name}-active")
chan_passive: Channel = Channel(_id=f"{name}-passive")
channel_deliver = ChannelDeliver(
active=chan_active,
passive=chan_passive,
channel_deliver_active=channel_deliver_active_channel,
channel_deliver_passive=channel_deliver_passive_channel
)
self.targets[name] = (_delivery_channel_wrapper, (target, channel_deliver, shared_memory, *args), kwargs)
# 主进程通道
set_channels(
{
f"{name}-active" : chan_active,
f"{name}-passive": chan_passive
}
)
def join_all(self):
for name, process in self.targets:
process.join()
def terminate(self, name: str):
"""
终止进程并从进程字典中删除
Args:
name:
Returns:
"""
if name not in self.processes:
logger.warning(f"Process {name} not found.")
return
process = self.processes[name]
process.terminate()
process.join(TIMEOUT)
if process.is_alive():
process.kill()
logger.success(f"Process {name} terminated.")
def terminate_all(self):
for name in self.targets:
self.terminate(name)
def is_process_alive(self, name: str) -> bool:
"""
检查进程是否存活
Args:
name:
Returns:
"""
if name not in self.targets:
logger.warning(f"Process {name} not found.")
return self.processes[name].is_alive()