nomos-specs/mixnet/test_node.py

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import asyncio
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from datetime import datetime
from unittest import IsolatedAsyncioTestCase
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import numpy
from pysphinx.sphinx import SphinxPacket
from mixnet.node import MixNode, NodeAddress, PacketQueue
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from mixnet.packet import PacketBuilder
from mixnet.poisson import poisson_interval_sec, poisson_mean_interval_sec
from mixnet.test_utils import (
init_mixnet_config,
with_test_timeout,
)
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class TestMixNodeRunner(IsolatedAsyncioTestCase):
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@with_test_timeout(180)
async def test_mixnode_emission_rate(self):
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"""
Test if MixNodeRunner works as a M/M/inf queue.
If inputs are arrived at Poisson rate `lambda`,
and if processing is delayed according to an exponential distribution with a rate `mu`,
the rate of outputs should be `lambda`.
"""
config = init_mixnet_config()
config.mixclient_config.emission_rate_per_min = 120 # lambda (= 2msg/sec)
config.mixnode_config.delay_rate_per_min = 30 # mu (= 2s delay on average)
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packet, route = PacketBuilder.build_real_packets(
b"msg", config.mixclient_config.topology
)[0]
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# Start only the first mix node for testing
config.mixnode_config.encryption_private_key = route[0].encryption_private_key
mixnode = await MixNode.new(config.mixnode_config)
try:
# Send packets to the first mix node in a Poisson distribution
packet_count = 100
# This queue is just for counting how many packets have been sent so far.
sent_packet_queue: PacketQueue = asyncio.Queue()
sender_task = asyncio.create_task(
self.send_packets(
mixnode.inbound_socket,
packet,
route[0].addr,
packet_count,
config.mixclient_config.emission_rate_per_min,
sent_packet_queue,
)
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)
try:
# Calculate intervals between outputs and gather num_jobs in the first mix node.
intervals = []
num_jobs = []
ts = datetime.now()
for _ in range(packet_count):
_ = await mixnode.outbound_socket.get()
now = datetime.now()
intervals.append((now - ts).total_seconds())
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# Calculate the current # of jobs staying in the mix node
num_packets_emitted_from_mixnode = len(intervals)
num_packets_sent_to_mixnode = sent_packet_queue.qsize()
num_jobs.append(
num_packets_sent_to_mixnode - num_packets_emitted_from_mixnode
)
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ts = now
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# Remove the first interval that would be much larger than other intervals,
# because of the delay in mix node.
intervals = intervals[1:]
num_jobs = num_jobs[1:]
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# Check if the emission rate of the first mix node is the same as
# the emission rate of the message sender, but with a delay.
# If outputs follow the Poisson distribution with a rate `lambda`,
# a mean interval between outputs must be `1/lambda`.
self.assertAlmostEqual(
float(numpy.mean(intervals)),
poisson_mean_interval_sec(
config.mixclient_config.emission_rate_per_min
),
delta=1.0,
)
# If runner is a M/M/inf queue,
# a mean number of jobs being processed/scheduled in the runner must be `lambda/mu`.
self.assertAlmostEqual(
float(numpy.mean(num_jobs)),
round(
config.mixclient_config.emission_rate_per_min
/ config.mixnode_config.delay_rate_per_min
),
delta=1.5,
)
finally:
await sender_task
finally:
await mixnode.cancel()
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@staticmethod
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async def send_packets(
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inbound_socket: PacketQueue,
packet: SphinxPacket,
node_addr: NodeAddress,
cnt: int,
rate_per_min: int,
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# For testing purpose, to inform the caller how many packets have been sent to the inbound_socket
sent_packet_queue: PacketQueue,
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):
for _ in range(cnt):
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# Since the task is not heavy, just sleep for seconds instead of using emission_notifier
await asyncio.sleep(poisson_interval_sec(rate_per_min))
await inbound_socket.put((node_addr, packet))
await sent_packet_queue.put((node_addr, packet))