# SPDX-License-Identifier: Apache-2.0 import random from typing import Optional, Union import msgspec import msgspec.msgpack import pytest import zmq from vllm.config import KVEventsConfig from vllm.distributed.kv_events import EventPublisherFactory from .test_events import SampleBatch @pytest.fixture def random_port(): """Generate a random port number for testing""" return random.randint(10000, 60000) @pytest.fixture def publisher_config(random_port, request): """Create a publisher config with inproc transport""" how = request.param if hasattr(request, "param") else "inproc" if how == "inproc": endpoint = f"inproc://test-{random_port}" replay_endpoint = endpoint + "-replay" else: endpoint = f"tcp://*:{random_port}" replay_endpoint = f"tcp://*:{random_port + 1}" return KVEventsConfig(enable_kv_cache_events=True, publisher="zmq", endpoint=endpoint, replay_endpoint=replay_endpoint, buffer_steps=100, hwm=1000, topic="test") @pytest.fixture def publisher(publisher_config): """Create and return a publisher instance""" pub = EventPublisherFactory.create(publisher_config) yield pub pub.shutdown() @pytest.fixture def subscriber(publisher_config): """Create and return a subscriber for testing""" endpoint = publisher_config.endpoint replay_endpoint = publisher_config.replay_endpoint if endpoint.startswith("tcp://*"): endpoint = endpoint.replace("*", "127.0.0.1") if replay_endpoint and replay_endpoint.startswith("tcp://*"): replay_endpoint = replay_endpoint.replace("*", "127.0.0.1") sub = MockSubscriber(endpoint, replay_endpoint, publisher_config.topic) yield sub sub.close() class MockSubscriber: """Helper class to receive and verify published events""" def __init__(self, pub_endpoint: str, replay_endpoint: Optional[str] = None, topic: str = "", decode_type=SampleBatch): self.ctx = zmq.Context.instance() # Set up subscriber socket self.sub = self.ctx.socket(zmq.SUB) self.sub.setsockopt(zmq.SUBSCRIBE, topic.encode('utf-8')) self.sub.connect(pub_endpoint) # Set up replay socket if provided self.replay = None if replay_endpoint: self.replay = self.ctx.socket(zmq.REQ) self.replay.connect(replay_endpoint) self.topic = topic self.topic_bytes = topic.encode('utf-8') self.received_msgs: list[tuple[int, SampleBatch]] = [] self.last_seq = -1 self.decoder = msgspec.msgpack.Decoder(type=decode_type) def receive_one(self, timeout=1000) -> Union[tuple[int, SampleBatch], None]: """Receive a single message with timeout""" if not self.sub.poll(timeout): return None topic_bytes, seq_bytes, payload = self.sub.recv_multipart() assert topic_bytes == self.topic_bytes seq = int.from_bytes(seq_bytes, "big") data = self.decoder.decode(payload) self.last_seq = seq self.received_msgs.append((seq, data)) return seq, data def request_replay(self, start_seq: int) -> None: """Request replay of messages starting from start_seq""" if not self.replay: raise ValueError("Replay socket not initialized") self.replay.send(start_seq.to_bytes(8, "big")) def receive_replay(self) -> list[tuple[int, SampleBatch]]: """Receive replayed messages""" if not self.replay: raise ValueError("Replay socket not initialized") replayed: list[tuple[int, SampleBatch]] = [] while True: try: if not self.replay.poll(1000): break frames = self.replay.recv_multipart() if not frames or not frames[-1]: # End of replay marker break seq_bytes, payload = frames seq = int.from_bytes(seq_bytes, "big") data = self.decoder.decode(payload) replayed.append((seq, data)) except zmq.ZMQError as _: break return replayed def close(self): """Clean up resources""" self.sub.close() if self.replay: self.replay.close()