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- import resource
- from contextlib import contextmanager
- import multiprocessing as mp
- import argparse
- import torch
- import tesseract
- from .layers import name_to_block
- def make_dummy_server(host='0.0.0.0', port=None, num_experts=1, expert_cls='ffn', hidden_dim=1024, num_handlers=None,
- expert_prefix='expert', expert_offset=0, max_batch_size=16384, device=None, no_optimizer=False,
- no_network=False, initial_peers=(), network_port=None, root_port=None, verbose=True, start=False,
- UID_DELIMETER=tesseract.TesseractNetwork.UID_DELIMETER, **kwargs) -> tesseract.TesseractServer:
- """ A context manager that creates server in a background thread, awaits .ready on entry and shutdowns on exit """
- if verbose and len(kwargs) != 0:
- print("Ignored kwargs:", kwargs)
- assert expert_cls in name_to_block
- num_handlers = num_handlers if num_handlers is not None else num_experts * 8
- device = device or ('cuda' if torch.cuda.is_available() else 'cpu')
- # initialize network
- network = None
- if not no_network:
- if not len(initial_peers):
- print("No initial peers provided. Starting additional network as an initial peer.")
- dht_root = tesseract.TesseractNetwork(
- *initial_peers, port=root_port or tesseract.find_open_port(), start=True)
- print(f"Initializing DHT with port {dht_root.port}")
- initial_peers = (('localhost', dht_root.port), )
- else:
- print("Bootstrapping dht with peers:", initial_peers)
- if root_port is not None:
- print(f"Warning: root_port={root_port} will not be used since we already have peers.")
- network = tesseract.TesseractNetwork(
- *initial_peers, port=network_port or tesseract.find_open_port(), start=True)
- if verbose:
- print(f"Running network node on port {network.port}")
- # initialize experts
- experts = {}
- for i in range(num_experts):
- expert = torch.jit.script(name_to_block[expert_cls](hidden_dim))
- opt = torch.optim.SGD(expert.parameters(), 0.0) if no_optimizer else torch.optim.Adam(expert.parameters())
- expert_uid = f'{expert_prefix}{UID_DELIMETER}{i + expert_offset}'
- experts[expert_uid] = tesseract.ExpertBackend(name=expert_uid, expert=expert, opt=opt,
- args_schema=(tesseract.BatchTensorProto(hidden_dim),),
- outputs_schema=tesseract.BatchTensorProto(hidden_dim),
- max_batch_size=max_batch_size,
- )
- # actually start server
- server = tesseract.TesseractServer(
- network, experts, addr=host, port=port or tesseract.find_open_port(),
- conn_handler_processes=num_handlers, device=device)
- if start:
- server.run_in_background(await_ready=True)
- if verbose:
- print(f"Server started at {server.addr}:{server.port}")
- print(f"Got {num_experts} active experts of type {expert_cls}: {list(experts.keys())}")
- return server
- @contextmanager
- def background_server(*args, verbose=True, **kwargs):
- """ Runs server in a background process and returns a reference to it. """
- recv_addr, send_addr = mp.Pipe(duplex=True)
- trigger_shutdown = mp.Event()
- def server_runner():
- try:
- server = make_dummy_server(*args, verbose=verbose, start=True, **kwargs)
- network_port = server.network.port if server.network is not None else None
- send_addr.send((server.addr, server.port, network_port))
- trigger_shutdown.wait()
- finally:
- if verbose:
- print("Shutting down server...")
- trigger_shutdown.set() # if server failed internally, set the shutdown trigger anyway
- server.shutdown()
- if verbose:
- print("Server shut down successfully.")
- try:
- runner = mp.Process(target=server_runner)
- runner.start()
- yield recv_addr.recv() # yield tuple(hostname, port)
- finally:
- trigger_shutdown.set()
- runner.terminate()
- runner.join()
- if __name__ == '__main__':
- parser = argparse.ArgumentParser()
- parser.add_argument('--host', type=str, default='0.0.0.0', required=False)
- parser.add_argument('--port', type=int, default=None, required=False)
- parser.add_argument('--num_experts', type=int, default=1, required=False)
- parser.add_argument('--expert_cls', type=str, default='ffn', required=False)
- parser.add_argument('--hidden_dim', type=int, default=1024, required=False)
- parser.add_argument('--num_handlers', type=int, default=None, required=False)
- parser.add_argument('--expert_prefix', type=str, default='expert', required=False)
- parser.add_argument('--expert_offset', type=int, default=0, required=False)
- parser.add_argument('--max_batch_size', type=int, default=16384, required=False)
- parser.add_argument('--device', type=str, default=None, required=False)
- parser.add_argument('--no_optimizer', action='store_true')
- parser.add_argument('--no_network', action='store_true')
- parser.add_argument('--initial_peers', type=str, default="[]", required=False)
- parser.add_argument('--network_port', type=int, default=None, required=False)
- parser.add_argument('--root_port', type=int, default=None, required=False)
- parser.add_argument('--increase_file_limit', action='store_true')
- args = vars(parser.parse_args())
- if args.pop('increase_file_limit'):
- soft, hard = resource.getrlimit(resource.RLIMIT_NOFILE)
- try:
- print("Setting open file limit to soft={}, hard={}".format(max(soft, 2 ** 15), max(hard, 2 ** 15)))
- resource.setrlimit(resource.RLIMIT_NOFILE, (max(soft, 2 ** 15), max(hard, 2 ** 15)))
- except:
- print("Could not increase open file limit, currently at soft={}, hard={}".format(soft, hard))
- args['initial_peers'] = eval(args['initial_peers'])
- try:
- server = make_dummy_server(**args, start=True, verbose=True)
- server.join()
- finally:
- server.shutdown()
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