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- import argparse
- import asyncio
- import signal
- import json
- import time
- import traceback
- from exo.orchestration.standard_node import StandardNode
- from exo.networking.grpc.grpc_server import GRPCServer
- from exo.networking.grpc.grpc_discovery import GRPCDiscovery
- from exo.topology.ring_memory_weighted_partitioning_strategy import RingMemoryWeightedPartitioningStrategy
- from exo.api import ChatGPTAPI
- from exo.download.shard_download import ShardDownloader, RepoProgressEvent
- from exo.download.hf.hf_shard_download import HFShardDownloader
- from exo.helpers import print_yellow_exo, find_available_port, DEBUG, get_inference_engine, get_system_info, get_or_create_node_id
- from exo.inference.shard import Shard
- # parse args
- parser = argparse.ArgumentParser(description="Initialize GRPC Discovery")
- parser.add_argument("--node-id", type=str, default=None, help="Node ID")
- parser.add_argument("--node-host", type=str, default="0.0.0.0", help="Node host")
- parser.add_argument("--node-port", type=int, default=None, help="Node port")
- parser.add_argument("--listen-port", type=int, default=5678, help="Listening port for discovery")
- parser.add_argument("--prometheus-client-port", type=int, default=None, help="Prometheus client port")
- parser.add_argument("--broadcast-port", type=int, default=5678, help="Broadcast port for discovery")
- parser.add_argument("--discovery-timeout", type=int, default=30, help="Discovery timeout in seconds")
- parser.add_argument("--wait-for-peers", type=int, default=0, help="Number of peers to wait to connect to before starting")
- parser.add_argument("--chatgpt-api-port", type=int, default=8000, help="ChatGPT API port")
- parser.add_argument("--chatgpt-api-response-timeout-secs", type=int, default=90, help="ChatGPT API response timeout in seconds")
- parser.add_argument("--max-generate-tokens", type=int, default=1024, help="Max tokens to generate in each request")
- parser.add_argument("--inference-engine", type=str, default=None, help="Inference engine to use")
- parser.add_argument("--disable-tui", action=argparse.BooleanOptionalAction, help="Disable TUI")
- args = parser.parse_args()
- print_yellow_exo()
- system_info = get_system_info()
- print(f"Detected system: {system_info}")
- shard_downloader: ShardDownloader = HFShardDownloader()
- inference_engine_name = args.inference_engine or ("mlx" if system_info == "Apple Silicon Mac" else "tinygrad")
- inference_engine = get_inference_engine(inference_engine_name, shard_downloader)
- print(f"Using inference engine: {inference_engine.__class__.__name__} with shard downloader: {shard_downloader.__class__.__name__}")
- if args.node_port is None:
- args.node_port = find_available_port(args.node_host)
- if DEBUG >= 1: print(f"Using available port: {args.node_port}")
- args.node_id = args.node_id or get_or_create_node_id()
- discovery = GRPCDiscovery(args.node_id, args.node_port, args.listen_port, args.broadcast_port, discovery_timeout=args.discovery_timeout)
- node = StandardNode(
- args.node_id,
- None,
- inference_engine,
- discovery,
- partitioning_strategy=RingMemoryWeightedPartitioningStrategy(),
- chatgpt_api_endpoint=f"http://localhost:{args.chatgpt_api_port}/v1/chat/completions",
- web_chat_url=f"http://localhost:{args.chatgpt_api_port}",
- disable_tui=args.disable_tui,
- max_generate_tokens=args.max_generate_tokens,
- )
- server = GRPCServer(node, args.node_host, args.node_port)
- node.server = server
- api = ChatGPTAPI(node, inference_engine.__class__.__name__, response_timeout_secs=args.chatgpt_api_response_timeout_secs)
- node.on_token.register("main_log").on_next(lambda _, tokens, __: print(inference_engine.tokenizer.decode(tokens) if hasattr(inference_engine, "tokenizer") else tokens))
- def preemptively_start_download(request_id: str, opaque_status: str):
- try:
- status = json.loads(opaque_status)
- if status.get("type") == "node_status" and status.get("status") == "start_process_prompt":
- current_shard = node.get_current_shard(Shard.from_dict(status.get("shard")))
- if DEBUG >= 2: print(f"Preemptively starting download for {current_shard}")
- asyncio.create_task(shard_downloader.ensure_shard(current_shard))
- except Exception as e:
- if DEBUG >= 2:
- print(f"Failed to preemptively start download: {e}")
- traceback.print_exc()
- node.on_opaque_status.register("start_download").on_next(preemptively_start_download)
- if args.prometheus_client_port:
- from exo.stats.metrics import start_metrics_server
- start_metrics_server(node, args.prometheus_client_port)
- last_broadcast_time = 0
- def throttled_broadcast(shard: Shard, event: RepoProgressEvent):
- global last_broadcast_time
- current_time = time.time()
- if event.status == "complete" or current_time - last_broadcast_time >= 0.1:
- last_broadcast_time = current_time
- asyncio.create_task(node.broadcast_opaque_status("", json.dumps({"type": "download_progress", "node_id": node.id, "progress": event.to_dict()})))
- shard_downloader.on_progress.register("broadcast").on_next(throttled_broadcast)
- async def shutdown(signal, loop):
- """Gracefully shutdown the server and close the asyncio loop."""
- print(f"Received exit signal {signal.name}...")
- print("Thank you for using exo.")
- print_yellow_exo()
- server_tasks = [t for t in asyncio.all_tasks() if t is not asyncio.current_task()]
- [task.cancel() for task in server_tasks]
- print(f"Cancelling {len(server_tasks)} outstanding tasks")
- await asyncio.gather(*server_tasks, return_exceptions=True)
- await server.stop()
- loop.stop()
- async def main():
- loop = asyncio.get_running_loop()
- # Use a more direct approach to handle signals
- def handle_exit():
- asyncio.ensure_future(shutdown(signal.SIGTERM, loop))
- for s in [signal.SIGINT, signal.SIGTERM]:
- loop.add_signal_handler(s, handle_exit)
- await node.start(wait_for_peers=args.wait_for_peers)
- asyncio.create_task(api.run(port=args.chatgpt_api_port)) # Start the API server as a non-blocking task
- await asyncio.Event().wait()
- if __name__ == "__main__":
- loop = asyncio.new_event_loop()
- asyncio.set_event_loop(loop)
- try:
- loop.run_until_complete(main())
- except KeyboardInterrupt:
- print("Received keyboard interrupt. Shutting down...")
- finally:
- loop.run_until_complete(shutdown(signal.SIGTERM, loop))
- loop.close()
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