forked from MirrorHub/synapse
235 lines
8.3 KiB
Python
235 lines
8.3 KiB
Python
# Copyright 2022 The Matrix.org Foundation C.I.C.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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#
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# ## What this script does
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#
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# This script spawns multiple workers, whilst only going through the code loading
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# process once. The net effect is that start-up time for a swarm of workers is
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# reduced, particularly in CPU-constrained environments.
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#
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# Before the workers are spawned, the database is prepared in order to avoid the
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# workers racing.
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#
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# ## Stability
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#
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# This script is only intended for use within the Synapse images for the
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# Complement test suite.
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# There are currently no stability guarantees whatsoever; especially not about:
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# - whether it will continue to exist in future versions;
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# - the format of its command-line arguments; or
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# - any details about its behaviour or principles of operation.
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#
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# ## Usage
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#
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# The first argument should be the path to the database configuration, used to
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# set up the database. The rest of the arguments are used as follows:
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# Each worker is specified as an argument group (each argument group is
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# separated by '--').
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# The first argument in each argument group is the Python module name of the application
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# to start. Further arguments are then passed to that module as-is.
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#
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# ## Example
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#
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# python -m synapse.app.complement_fork_starter path_to_db_config.yaml \
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# synapse.app.homeserver [args..] -- \
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# synapse.app.generic_worker [args..] -- \
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# ...
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# synapse.app.generic_worker [args..]
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#
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import argparse
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import importlib
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import itertools
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import multiprocessing
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import os
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import signal
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import sys
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from types import FrameType
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from typing import Any, Callable, Dict, List, Optional
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from twisted.internet.main import installReactor
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# a list of the original signal handlers, before we installed our custom ones.
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# We restore these in our child processes.
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_original_signal_handlers: Dict[int, Any] = {}
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class ProxiedReactor:
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"""
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Twisted tracks the 'installed' reactor as a global variable.
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(Actually, it does some module trickery, but the effect is similar.)
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The default EpollReactor is buggy if it's created before a process is
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forked, then used in the child.
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See https://twistedmatrix.com/trac/ticket/4759#comment:17.
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However, importing certain Twisted modules will automatically create and
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install a reactor if one hasn't already been installed.
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It's not normally possible to re-install a reactor.
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Given the goal of launching workers with fork() to only import the code once,
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this presents a conflict.
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Our work around is to 'install' this ProxiedReactor which prevents Twisted
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from creating and installing one, but which lets us replace the actual reactor
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in use later on.
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"""
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def __init__(self) -> None:
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self.___reactor_target: Any = None
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def _install_real_reactor(self, new_reactor: Any) -> None:
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"""
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Install a real reactor for this ProxiedReactor to forward lookups onto.
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This method is specific to our ProxiedReactor and should not clash with
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any names used on an actual Twisted reactor.
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"""
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self.___reactor_target = new_reactor
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def __getattr__(self, attr_name: str) -> Any:
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return getattr(self.___reactor_target, attr_name)
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def _worker_entrypoint(
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func: Callable[[], None], proxy_reactor: ProxiedReactor, args: List[str]
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) -> None:
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"""
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Entrypoint for a forked worker process.
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We just need to set up the command-line arguments, create our real reactor
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and then kick off the worker's main() function.
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"""
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from synapse.util.stringutils import strtobool
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sys.argv = args
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# reset the custom signal handlers that we installed, so that the children start
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# from a clean slate.
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for sig, handler in _original_signal_handlers.items():
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signal.signal(sig, handler)
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# Install the asyncio reactor if the
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# SYNAPSE_COMPLEMENT_FORKING_LAUNCHER_ASYNC_IO_REACTOR is set to 1. The
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# SYNAPSE_ASYNC_IO_REACTOR variable would be used, but then causes
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# synapse/__init__.py to also try to install an asyncio reactor.
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if strtobool(
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os.environ.get("SYNAPSE_COMPLEMENT_FORKING_LAUNCHER_ASYNC_IO_REACTOR", "0")
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):
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import asyncio
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from twisted.internet.asyncioreactor import AsyncioSelectorReactor
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reactor = AsyncioSelectorReactor(asyncio.get_event_loop())
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proxy_reactor._install_real_reactor(reactor)
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else:
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from twisted.internet.epollreactor import EPollReactor
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proxy_reactor._install_real_reactor(EPollReactor())
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func()
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def main() -> None:
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"""
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Entrypoint for the forking launcher.
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"""
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parser = argparse.ArgumentParser()
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parser.add_argument("db_config", help="Path to database config file")
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parser.add_argument(
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"args",
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nargs="...",
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help="Argument groups separated by `--`. "
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"The first argument of each group is a Synapse app name. "
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"Subsequent arguments are passed through.",
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)
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ns = parser.parse_args()
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# Split up the subsequent arguments into each workers' arguments;
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# `--` is our delimiter of choice.
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args_by_worker: List[List[str]] = [
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list(args)
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for cond, args in itertools.groupby(ns.args, lambda ele: ele != "--")
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if cond and args
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]
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# Prevent Twisted from installing a shared reactor that all the workers will
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# inherit when we fork(), by installing our own beforehand.
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proxy_reactor = ProxiedReactor()
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installReactor(proxy_reactor)
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# Import the entrypoints for all the workers.
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worker_functions = []
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for worker_args in args_by_worker:
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worker_module = importlib.import_module(worker_args[0])
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worker_functions.append(worker_module.main)
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# We need to prepare the database first as otherwise all the workers will
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# try to create a schema version table and some will crash out.
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from synapse._scripts import update_synapse_database
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update_proc = multiprocessing.Process(
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target=_worker_entrypoint,
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args=(
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update_synapse_database.main,
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proxy_reactor,
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[
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"update_synapse_database",
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"--database-config",
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ns.db_config,
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"--run-background-updates",
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],
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),
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)
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print("===== PREPARING DATABASE =====", file=sys.stderr)
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update_proc.start()
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update_proc.join()
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print("===== PREPARED DATABASE =====", file=sys.stderr)
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processes: List[multiprocessing.Process] = []
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# Install signal handlers to propagate signals to all our children, so that they
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# shut down cleanly. This also inhibits our own exit, but that's good: we want to
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# wait until the children have exited.
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def handle_signal(signum: int, frame: Optional[FrameType]) -> None:
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print(
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f"complement_fork_starter: Caught signal {signum}. Stopping children.",
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file=sys.stderr,
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)
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for p in processes:
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if p.pid:
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os.kill(p.pid, signum)
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for sig in (signal.SIGINT, signal.SIGTERM):
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_original_signal_handlers[sig] = signal.signal(sig, handle_signal)
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# At this point, we've imported all the main entrypoints for all the workers.
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# Now we basically just fork() out to create the workers we need.
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# Because we're using fork(), all the workers get a clone of this launcher's
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# memory space and don't need to repeat the work of loading the code!
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# Instead of using fork() directly, we use the multiprocessing library,
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# which uses fork() on Unix platforms.
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for func, worker_args in zip(worker_functions, args_by_worker):
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process = multiprocessing.Process(
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target=_worker_entrypoint, args=(func, proxy_reactor, worker_args)
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)
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process.start()
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processes.append(process)
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# Be a good parent and wait for our children to die before exiting.
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for process in processes:
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process.join()
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if __name__ == "__main__":
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main()
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