296 lines
17 KiB
Python
296 lines
17 KiB
Python
import pytest
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from src.env_vars import NODE_1, NODE_2, STRESS_ENABLED
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from src.libs.common import delay
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from src.libs.custom_logger import get_custom_logger
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from src.node.waku_node import WakuNode
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from src.steps.filter import StepsFilter
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from src.steps.light_push import StepsLightPush
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from src.steps.relay import StepsRelay
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from src.steps.store import StepsStore
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logger = get_custom_logger(__name__)
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"""
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In those tests we aim to combine multiple protocols/node types and create a more end-to-end scenario
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"""
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class TestE2E(StepsFilter, StepsStore, StepsRelay, StepsLightPush):
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@pytest.fixture(scope="function", autouse=True)
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def nodes(self):
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self.node1 = WakuNode(NODE_2, f"node1_{self.test_id}")
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self.node2 = WakuNode(NODE_1, f"node2_{self.test_id}")
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self.node3 = WakuNode(NODE_2, f"node3_{self.test_id}")
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def test_relay_receiving_node_not_connected_directly_to_relaying_node(self):
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self.node1.start(relay="true")
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self.node2.start(relay="true", discv5_bootstrap_node=self.node1.get_enr_uri())
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self.node3.start(relay="true", discv5_bootstrap_node=self.node2.get_enr_uri())
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self.node1.set_relay_subscriptions([self.test_pubsub_topic])
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self.node2.set_relay_subscriptions([self.test_pubsub_topic])
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self.node3.set_relay_subscriptions([self.test_pubsub_topic])
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# for e2e scenarios I think waiting for autoconnection is important instead of forcing connection via API calls
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# that's why the bellow code is commented to showcase this difference. In case we uncomment it, the connection will be faster
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# self.add_node_peer(self.node2, [self.node1.get_multiaddr_with_id()])
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# self.add_node_peer(self.node3, [self.node2.get_multiaddr_with_id()])
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self.wait_for_autoconnection([self.node1, self.node2, self.node3], hard_wait=30)
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# self.node1 relays and we check that self.node3 receives the message
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self.check_published_message_reaches_relay_peer(sender=self.node1, peer_list=[self.node3], message_propagation_delay=1)
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def test_filter_node_not_connected_directly_to_relaying_node(self):
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self.node1.start(filter="true", relay="true")
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self.node2.start(filter="true", relay="true", discv5_bootstrap_node=self.node1.get_enr_uri())
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self.node3.start(relay="false", filternode=self.node2.get_multiaddr_with_id(), discv5_bootstrap_node=self.node2.get_enr_uri())
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self.node1.set_relay_subscriptions([self.test_pubsub_topic])
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self.node2.set_relay_subscriptions([self.test_pubsub_topic])
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self.node3.set_filter_subscriptions({"requestId": "1", "contentFilters": [self.test_content_topic], "pubsubTopic": self.test_pubsub_topic})
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# for e2e scenarios I think waiting for autoconnection is important instead of forcing connection via API calls
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# that's why the bellow code is commented to showcase this difference. In case we uncomment it, the connection will be faster
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# self.add_node_peer(self.node2, [self.node1.get_multiaddr_with_id()])
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# self.add_node_peer(self.node3, [self.node2.get_multiaddr_with_id()])
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self.wait_for_autoconnection([self.node1, self.node2, self.node3], hard_wait=30)
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# self.node1 relays and we check that self.node3 receives the message
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self.check_published_message_reaches_filter_peer(sender=self.node1, peer_list=[self.node3], message_propagation_delay=1)
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def test_store_node_not_connected_directly_to_relaying_node(self):
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self.node1.start(relay="true")
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self.node2.start(store="true", relay="true", discv5_bootstrap_node=self.node1.get_enr_uri())
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self.node3.start(relay="false", storenode=self.node2.get_multiaddr_with_id(), discv5_bootstrap_node=self.node2.get_enr_uri())
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self.node1.set_relay_subscriptions([self.test_pubsub_topic])
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self.node2.set_relay_subscriptions([self.test_pubsub_topic])
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# self.node1 relays and we check that self.node3 receives the message
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# for e2e scenarios I think waiting for autoconnection is important instead of forcing connection via API calls
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# that's why the bellow code is commented to showcase this difference. In case we uncomment it, the connection will be faster
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# self.add_node_peer(self.node2, [self.node1.get_multiaddr_with_id()])
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# self.add_node_peer(self.node3, [self.node2.get_multiaddr_with_id()])
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self.wait_for_autoconnection([self.node1, self.node2], hard_wait=30)
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self.publish_message(sender=self.node1)
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self.check_published_message_is_stored(page_size=50, ascending="true", store_node=self.node3)
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def test_relay_receiving_node_not_connected_directly_to_lightpushing_node(self):
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self.node1.start(lightpush="true", relay="true")
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self.node2.start(
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lightpush="true", relay="true", discv5_bootstrap_node=self.node1.get_enr_uri(), lightpushnode=self.node1.get_multiaddr_with_id()
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)
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self.node3.start(relay="true", discv5_bootstrap_node=self.node2.get_enr_uri())
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self.node1.set_relay_subscriptions([self.test_pubsub_topic])
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self.node2.set_relay_subscriptions([self.test_pubsub_topic])
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self.node3.set_relay_subscriptions([self.test_pubsub_topic])
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# for e2e scenarios I think waiting for autoconnection is important instead of forcing connection via API calls
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# that's why the bellow code is commented to showcase this difference. In case we uncomment it, the connection will be faster
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# self.add_node_peer(self.node2, [self.node1.get_multiaddr_with_id()])
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# self.add_node_peer(self.node3, [self.node2.get_multiaddr_with_id()])
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self.wait_for_autoconnection([self.node1, self.node2, self.node3], hard_wait=30)
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# self.node1 light pushed and we check that self.node3 receives the message
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self.check_light_pushed_message_reaches_receiving_peer(sender=self.node1, peer_list=[self.node3])
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def test_filter_node_not_connected_directly_to_lightpushing_node(self):
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self.node1.start(lightpush="true")
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self.node2.start(
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lightpush="true",
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filter="true",
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relay="true",
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discv5_bootstrap_node=self.node1.get_enr_uri(),
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lightpushnode=self.node1.get_multiaddr_with_id(),
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)
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self.node3.start(relay="false", filternode=self.node2.get_multiaddr_with_id(), discv5_bootstrap_node=self.node2.get_enr_uri())
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self.node1.set_relay_subscriptions([self.test_pubsub_topic])
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self.node2.set_relay_subscriptions([self.test_pubsub_topic])
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self.node3.set_filter_subscriptions({"requestId": "1", "contentFilters": [self.test_content_topic], "pubsubTopic": self.test_pubsub_topic})
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# for e2e scenarios I think waiting for autoconnection is important instead of forcing connection via API calls
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# that's why the bellow code is commented to showcase this difference. In case we uncomment it, the connection will be faster
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# self.add_node_peer(self.node2, [self.node1.get_multiaddr_with_id()])
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# self.add_node_peer(self.node3, [self.node2.get_multiaddr_with_id()])
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self.wait_for_autoconnection([self.node1, self.node2, self.node3], hard_wait=30)
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# self.node1 light pushed and we check that self.node3 receives the message
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self.node1.send_light_push_message(self.create_payload())
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delay(1)
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get_messages_response = self.get_filter_messages(self.test_content_topic, pubsub_topic=self.test_pubsub_topic, node=self.node3)
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assert len(get_messages_response) == 1, f"Expected 1 message but got {len(get_messages_response)}"
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def test_store_node_not_connected_directly_to_lightpushing_node(self):
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self.node1.start(lightpush="true")
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self.node2.start(
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lightpush="true",
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store="true",
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relay="true",
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discv5_bootstrap_node=self.node1.get_enr_uri(),
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lightpushnode=self.node1.get_multiaddr_with_id(),
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)
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self.node3.start(relay="false", storenode=self.node2.get_multiaddr_with_id(), discv5_bootstrap_node=self.node2.get_enr_uri())
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self.node1.set_relay_subscriptions([self.test_pubsub_topic])
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self.node2.set_relay_subscriptions([self.test_pubsub_topic])
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# for e2e scenarios I think waiting for autoconnection is important instead of forcing connection via API calls
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# that's why the bellow code is commented to showcase this difference. In case we uncomment it, the connection will be faster
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# self.add_node_peer(self.node2, [self.node1.get_multiaddr_with_id()])
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# self.add_node_peer(self.node3, [self.node2.get_multiaddr_with_id()])
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self.wait_for_autoconnection([self.node1, self.node2], hard_wait=30)
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# self.node1 light pushed and we check that self.node3 receives the message
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message = self.create_message()
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self.node1.send_light_push_message(self.create_payload(message=message))
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delay(1)
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self.check_published_message_is_stored(page_size=50, ascending="true", store_node=self.node3, messages_to_check=[message])
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def test_chain_of_relay_nodes(self):
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self.node4 = WakuNode(NODE_2, f"node4_{self.test_id}")
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self.node5 = WakuNode(NODE_2, f"node5_{self.test_id}")
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self.node6 = WakuNode(NODE_2, f"node6_{self.test_id}")
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self.node7 = WakuNode(NODE_2, f"node7_{self.test_id}")
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self.node8 = WakuNode(NODE_2, f"node8_{self.test_id}")
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self.node9 = WakuNode(NODE_2, f"node9_{self.test_id}")
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self.node10 = WakuNode(NODE_2, f"node10_{self.test_id}")
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self.node1.start(relay="true")
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self.node2.start(relay="true", discv5_bootstrap_node=self.node1.get_enr_uri())
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self.node3.start(relay="true", discv5_bootstrap_node=self.node2.get_enr_uri())
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self.node4.start(relay="true", discv5_bootstrap_node=self.node3.get_enr_uri())
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self.node5.start(relay="true", discv5_bootstrap_node=self.node4.get_enr_uri())
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self.node6.start(relay="true", discv5_bootstrap_node=self.node5.get_enr_uri())
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self.node7.start(relay="true", discv5_bootstrap_node=self.node6.get_enr_uri())
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self.node8.start(relay="true", discv5_bootstrap_node=self.node7.get_enr_uri())
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self.node9.start(relay="true", discv5_bootstrap_node=self.node8.get_enr_uri())
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self.node10.start(relay="true", discv5_bootstrap_node=self.node9.get_enr_uri())
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node_list = [self.node1, self.node2, self.node3, self.node4, self.node5, self.node6, self.node7, self.node8, self.node9, self.node10]
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for node in node_list:
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node.set_relay_subscriptions([self.test_pubsub_topic])
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self.wait_for_autoconnection(node_list, hard_wait=30)
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# self.node1 relays and we check that self.node10 receives the message
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self.check_published_message_reaches_relay_peer(sender=self.node1, peer_list=[self.node10], message_propagation_delay=1)
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@pytest.mark.timeout(60 * 5)
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def test_filter_30_senders_1_receiver(self):
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total_senders = 30
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node_list = []
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logger.debug(f"Start {total_senders} nodes to publish messages ")
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self.node1.start(relay="true")
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node_list.append(self.node1)
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for i in range(total_senders - 1):
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node_list.append(WakuNode(NODE_1, f"node{i + 1}_{self.test_id}"))
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delay(0.1)
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node_list[i + 1].start(relay="true", discv5_bootstrap_node=node_list[i].get_enr_uri())
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delay(2)
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logger.debug(f"Start filter node and subscribed filter node ")
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self.node31 = WakuNode(NODE_2, f"node31_{self.test_id}")
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self.node32 = WakuNode(NODE_2, f"node32_{self.test_id}")
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self.node31.start(relay="true", filter="true", store="false", discv5_bootstrap_node=node_list[total_senders - 1].get_enr_uri())
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self.node32.start(relay="false", filter="true", filternode=self.node31.get_multiaddr_with_id(), store="false")
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node_list.append(self.node31)
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logger.debug(f"Subscribe nodes to relay pubsub topic {self.test_pubsub_topic}")
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for node in node_list:
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node.set_relay_subscriptions([self.test_pubsub_topic])
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self.wait_for_autoconnection(node_list, hard_wait=50)
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logger.debug(f"Node32 make filter request to pubsubtopic {self.test_pubsub_topic} and content topic {self.test_content_topic}")
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self.node32.set_filter_subscriptions({"requestId": "1", "contentFilters": [self.test_content_topic], "pubsubTopic": self.test_pubsub_topic})
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delay(1)
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logger.debug(f"{total_senders} Nodes publish {total_senders} messages")
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for node in node_list[:-1]:
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self.publish_message(sender=node, pubsub_topic=self.test_pubsub_topic, message=self.create_message())
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delay(1)
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logger.debug("Node 32 requests messages of subscribed filter topic")
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messages_response = self.get_filter_messages(self.test_content_topic, pubsub_topic=self.test_pubsub_topic, node=self.node32)
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logger.debug(f"Total number received messages for node 32 is {len(messages_response)}")
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assert len(messages_response) == total_senders, f"Received messages != published which is {total_senders} !!"
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def test_filter_3_senders_45_msg_1_receiver(self):
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messages_num = 45
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total_senders = 3
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self.node4 = WakuNode(NODE_2, f"node3_{self.test_id}")
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self.node5 = WakuNode(NODE_2, f"node3_{self.test_id}")
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node_list = []
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logger.debug("Start 5 nodes")
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self.node1.start(relay="true", store="true")
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self.node2.start(relay="true", store="false", discv5_bootstrap_node=self.node1.get_enr_uri())
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self.node3.start(relay="true", store="true", filter="true", discv5_bootstrap_node=self.node2.get_enr_uri())
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self.node4.start(relay="true", filter="true", store="false", discv5_bootstrap_node=self.node1.get_enr_uri())
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self.node5.start(
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relay="false", filter="true", filternode=self.node4.get_multiaddr_with_id(), store="false", discv5_bootstrap_node=self.node3.get_enr_uri()
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)
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logger.debug(f"Subscribe nodes to relay pubsub topic {self.test_pubsub_topic}")
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node_list = [self.node1, self.node2, self.node3, self.node4]
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for node in node_list:
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node.set_relay_subscriptions([self.test_pubsub_topic])
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self.wait_for_autoconnection(node_list, hard_wait=30)
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logger.debug(f"Node5 makes filter request pubsubtopic {self.test_pubsub_topic} and content topic {self.test_content_topic}")
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self.node5.set_filter_subscriptions({"requestId": "1", "contentFilters": [self.test_content_topic], "pubsubTopic": self.test_pubsub_topic})
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delay(1)
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logger.debug(f" {total_senders} Nodes publish {messages_num} message")
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for node in node_list[:-1]:
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for i in range(messages_num // total_senders):
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self.publish_message(sender=node, pubsub_topic=self.test_pubsub_topic, message=self.create_message())
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delay(0.2)
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logger.debug(f"Node5 requests messages of subscribed filter topic {self.test_pubsub_topic}")
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messages_response = self.get_filter_messages(self.test_content_topic, pubsub_topic=self.test_pubsub_topic, node=self.node5)
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logger.debug(f"Response for node 5 is {messages_response}")
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assert len(messages_response) == messages_num, f"Received messages != published which is{messages_num} !!"
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@pytest.mark.timeout(60 * 3)
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def test_filter_many_subscribed_nodes(self):
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max_subscribed_nodes = 30
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if STRESS_ENABLED:
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max_subscribed_nodes = 500
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node_list = []
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logger.debug("Start 2 nodes")
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self.node1.start(relay="true", store="true")
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self.node2.start(relay="true", filter="true", store="false", discv5_bootstrap_node=self.node1.get_enr_uri())
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logger.debug(f"Subscribe nodes to relay pubsub topic {self.test_pubsub_topic}")
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node_list_relay = [self.node1, self.node2]
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for node in node_list_relay:
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node.set_relay_subscriptions([self.test_pubsub_topic])
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self.wait_for_autoconnection(node_list_relay, hard_wait=30)
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logger.debug(f"{max_subscribed_nodes} Node start and making filter requests to node2")
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for i in range(max_subscribed_nodes):
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node_list.append(WakuNode(NODE_2, f"node{i}_{self.test_id}"))
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delay(0.1)
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node_list[i].start(relay="false", filter="true", filternode=self.node2.get_multiaddr_with_id(), store="false")
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delay(1)
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node_list[i].set_filter_subscriptions(
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{"requestId": "1", "contentFilters": [self.test_content_topic], "pubsubTopic": self.test_pubsub_topic}
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)
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delay(1)
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logger.debug("Node1 publish message")
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self.publish_message(sender=self.node1, pubsub_topic=self.test_pubsub_topic, message=self.create_message())
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delay(2)
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logger.debug(f"{max_subscribed_nodes} Node requests the published message of subscribed filter topic")
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for i in range(max_subscribed_nodes):
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messages_response = self.get_filter_messages(self.test_content_topic, pubsub_topic=self.test_pubsub_topic, node=node_list[i])
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logger.debug(f"Response for node {i} is {messages_response}")
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assert len(messages_response) == 1, "Received message count doesn't match sent "
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