160 lines
5.7 KiB
Python
160 lines
5.7 KiB
Python
import asyncio
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import multiaddr
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from timeit import default_timer as timer
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from tests.utils import cleanup
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from tests.pubsub.utils import generate_RPC_packet, message_id_generator
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from libp2p import new_node
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from libp2p.pubsub.pubsub import Pubsub
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from libp2p.pubsub.floodsub import FloodSub
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SUPPORTED_PUBSUB_PROTOCOLS = ["/floodsub/1.0.0"]
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TOPIC = "eth"
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class SenderNode():
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"""
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SenderNode which pings ReceiverNodes continuously to perform benchmarking
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"""
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def __init__(self):
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self.next_msg_id_func = message_id_generator(0)
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self.ack_queue = asyncio.Queue()
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@classmethod
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async def create(cls, ack_protocol):
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"""
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Create a new DummyAccountNode and attach a libp2p node, a floodsub, and a pubsub
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instance to this new node
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We use create as this serves as a factory function and allows us
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to use async await, unlike the init function
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"""
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self = SenderNode()
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libp2p_node = await new_node(transport_opt=["/ip4/127.0.0.1/tcp/0"])
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await libp2p_node.get_network().listen(multiaddr.Multiaddr("/ip4/127.0.0.1/tcp/0"))
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self.libp2p_node = libp2p_node
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self.floodsub = FloodSub(SUPPORTED_PUBSUB_PROTOCOLS)
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self.pubsub = Pubsub(self.libp2p_node, self.floodsub, "a")
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await self.pubsub.subscribe(TOPIC)
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self.test_being_performed = True
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self.all_streams = []
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async def ack_stream_handler(stream):
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self.all_streams.append(stream)
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while self.test_being_performed:
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# This Ack is what times out when multi-topic tests finish
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ack = await stream.read()
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if ack is not None:
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await self.ack_queue.put(ack)
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else:
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print("FUCK")
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break
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# Reached once test_being_performed is False
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# Notify receivers test is over
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print("Writing end")
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await stream.write("end".encode())
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# Set handler for acks
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self.ack_protocol = ack_protocol
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self.libp2p_node.set_stream_handler(self.ack_protocol, ack_stream_handler)
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return self
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async def perform_test(self, num_receivers_in_each_topic, topics, time_length):
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# Time and loop
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my_id = str(self.libp2p_node.get_id())
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msg_contents = "transaction"
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num_sent_in_each_topic = {}
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num_acks_in_each_topic = {}
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for topic in topics:
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num_sent_in_each_topic[topic] = 0
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num_acks_in_each_topic[topic] = 0
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self.topic_ack_queues = {}
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for topic in topics:
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self.topic_ack_queues[topic] = asyncio.Queue()
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completed_topics_count = 0
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num_topics = len(topics)
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async def handle_ack_queues():
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start = timer()
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curr_time = timer()
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print("Handling ack queues")
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nonlocal completed_topics_count, num_topics
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while completed_topics_count < num_topics:
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ack = await self.ack_queue.get()
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decoded_ack = ack.decode()
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await self.topic_ack_queues[decoded_ack].put(decoded_ack)
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curr_time = timer()
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async def end_all_async():
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# Add None to ack_queue to break out of the loop.
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# Note: This is necessary given the current code or the code will never
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# terminate
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await self.ack_queue.put(None)
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# This is not necessary but is useful for turning off the receivers gracefully
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for stream in self.all_streams:
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await stream.write("end".encode())
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async def perform_test_on_topic(topic):
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print("Performing test on topic " + topic)
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start = timer()
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curr_time = timer()
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# Perform test while time is not up here AND
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# while time is not up in handle_ack_queues, which is checked with the
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# self.test_being_performed boolean
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while (curr_time - start) < time_length:
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# Send message on single topic
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packet = generate_RPC_packet(my_id, [topic], msg_contents, self.next_msg_id_func())
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await self.floodsub.publish(my_id, packet.SerializeToString())
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num_sent_in_each_topic[topic] += 1
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# Wait for acks
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num_acks = 0
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# While number of acks is below threshold AND
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# while time is not up in handle_ack_queues, which is checked with the
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# self.test_being_performed boolean
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# TODO: Check safety of this. Does this make sense in the asyncio
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# event-driven setting?
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while num_acks < num_receivers_in_each_topic[topic]:
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ack = await self.topic_ack_queues[topic].get()
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num_acks += 1
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num_acks_in_each_topic[topic] += 1
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curr_time = timer()
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nonlocal completed_topics_count, num_topics
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print("Test completed " + topic)
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completed_topics_count += 1
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if completed_topics_count == num_topics:
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self.test_being_performed = False
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print("End all async")
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await end_all_async()
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tasks = [asyncio.ensure_future(handle_ack_queues())]
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for topic in topics:
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tasks.append(asyncio.ensure_future(perform_test_on_topic(topic)))
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gathered = await asyncio.gather(*tasks, return_exceptions=True)
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# Do something interesting with test results
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print("Num sent: " + str(num_sent_in_each_topic))
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print("Num fully ack: " + str(num_acks_in_each_topic))
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# End test
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self.test_being_performed = False
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