import math import random from time import time import pytest from src.env_vars import NODE_1, NODE_2, ADDITIONAL_NODES from src.libs.common import delay, to_base64 from src.libs.custom_logger import get_custom_logger from src.steps.relay import StepsRelay from src.steps.rln import StepsRLN from src.test_data import SAMPLE_INPUTS logger = get_custom_logger(__name__) @pytest.mark.xdist_group(name="RLN serial tests") @pytest.mark.usefixtures("register_main_rln_relay_nodes") @pytest.mark.skipif("go-waku" in (NODE_1 + NODE_2), reason="Test works only with nwaku") @pytest.mark.skip(reason="waiting to resolve registration https://github.com/waku-org/nwaku/issues/2837") class TestRelayRLN(StepsRLN, StepsRelay): def test_valid_payloads_at_slow_rate(self): self.setup_main_rln_relay_nodes() self.subscribe_main_relay_nodes() failed_payloads = [] for payload in SAMPLE_INPUTS: logger.debug(f'Running test with payload {payload["description"]}') message = self.create_message(payload=to_base64(payload["value"])) try: self.check_published_message_reaches_relay_peer(message, message_propagation_delay=0.2) except Exception as e: logger.error(f'Payload {payload["description"]} failed: {str(e)}') failed_payloads.append(payload["description"]) delay(1) assert not failed_payloads, f"Payloads failed: {failed_payloads}" def test_valid_payloads_at_spam_rate(self): self.setup_main_rln_relay_nodes() self.subscribe_main_relay_nodes() previous = math.trunc(time()) for i, payload in enumerate(SAMPLE_INPUTS[:5]): logger.debug(f'Running test with payload {payload["description"]}') message = self.create_message(payload=to_base64(payload["value"])) try: now = math.trunc(time()) self.publish_message(message) # Skip for the first message (i > 0) - previous could be too apart from now if i > 0 and (now - previous) == 0: raise AssertionError("Publish with RLN enabled at spam rate worked!!!") else: previous = now except Exception as e: assert "RLN validation failed" in str(e) def test_valid_payload_at_variable_rate(self): self.setup_main_rln_relay_nodes() self.subscribe_main_relay_nodes() payload_desc = SAMPLE_INPUTS[0]["description"] payload = to_base64(SAMPLE_INPUTS[0]["value"]) previous = math.trunc(time()) for i in range(0, 10): logger.debug(f"Running test with payload {payload_desc}") message = self.create_message(payload=payload) try: if i % 2 == 1: # every odd iteration is sent slowly delay(1 + 1) now = math.trunc(time()) logger.debug(f"Message sent at timestamp {now}") self.publish_message(message) if i > 0 and (now - previous) == 0: raise AssertionError("Publish with RLN enabled at spam rate worked!!!") else: previous = now except Exception as e: assert "RLN validation failed" in str(e) def test_valid_payloads_random_epoch_at_slow_rate(self): epoch_sec = random.randint(2, 5) self.setup_main_rln_relay_nodes(rln_relay_epoch_sec=epoch_sec) self.subscribe_main_relay_nodes() failed_payloads = [] for payload in SAMPLE_INPUTS[:5]: logger.debug(f'Running test with payload {payload["description"]}') message = self.create_message(payload=to_base64(payload["value"])) try: self.check_published_message_reaches_relay_peer(message, message_propagation_delay=0.2) except Exception as e: logger.error(f'Payload {payload["description"]} failed: {str(e)}') failed_payloads.append(payload["description"]) delay(epoch_sec) assert not failed_payloads, f"Payloads failed: {failed_payloads}" @pytest.mark.skip(reason="waiting for RLN v2 implementation") def test_valid_payloads_random_user_message_limit(self): user_message_limit = random.randint(2, 4) self.setup_main_rln_relay_nodes(rln_relay_user_message_limit=user_message_limit) self.subscribe_main_relay_nodes() failed_payloads = [] for payload in SAMPLE_INPUTS[:user_message_limit]: logger.debug(f'Running test with payload {payload["description"]}') message = self.create_message(payload=to_base64(payload["value"])) try: self.publish_message(message) except Exception as e: logger.error(f'Payload {payload["description"]} failed: {str(e)}') failed_payloads.append(payload["description"]) assert not failed_payloads, f"Payloads failed: {failed_payloads}" @pytest.mark.skip(reason="exceeding timeout, waiting for https://github.com/waku-org/nwaku/pull/2612 to be part of the release") @pytest.mark.timeout(600) def test_valid_payloads_dynamic_at_slow_rate(self): self.setup_main_rln_relay_nodes(rln_relay_dynamic="true", wait_for_node_sec=600) self.subscribe_main_relay_nodes() failed_payloads = [] for payload in SAMPLE_INPUTS: logger.debug(f'Running test with payload {payload["description"]}') message = self.create_message(payload=to_base64(payload["value"])) try: self.check_published_message_reaches_relay_peer(message, message_propagation_delay=0.2) except Exception as e: logger.error(f'Payload {payload["description"]} failed: {str(e)}') failed_payloads.append(payload["description"]) delay(1) assert not failed_payloads, f"Payloads failed: {failed_payloads}" @pytest.mark.skip(reason="exceeding timeout, waiting for https://github.com/waku-org/nwaku/pull/2612 to be part of the release") @pytest.mark.timeout(600) def test_valid_payloads_dynamic_at_spam_rate(self): self.setup_main_rln_relay_nodes(rln_relay_dynamic="true", wait_for_node_sec=600) self.subscribe_main_relay_nodes() previous = math.trunc(time()) for i, payload in enumerate(SAMPLE_INPUTS[:5]): logger.debug(f'Running test with payload {payload["description"]}') message = self.create_message(payload=to_base64(payload["value"])) try: now = math.trunc(time()) self.publish_message(message) if i > 0 and (now - previous) == 0: raise AssertionError("Publish with RLN enabled at spam rate worked!!!") else: previous = now except Exception as e: assert "RLN validation failed" in str(e) def test_valid_payloads_n1_with_rln_n2_without_rln_at_spam_rate(self): self.setup_first_rln_relay_node() self.setup_second_relay_node() self.subscribe_main_relay_nodes() previous = math.trunc(time()) for i, payload in enumerate(SAMPLE_INPUTS[:5]): logger.debug(f'Running test with payload {payload["description"]}') message = self.create_message(payload=to_base64(payload["value"])) try: now = math.trunc(time()) self.publish_message(message) if i > 0 and (now - previous) == 0: raise AssertionError("Publish with RLN enabled at spam rate worked!!!") else: previous = now except Exception as e: assert "RLN validation failed" in str(e) @pytest.mark.skip(reason="Epoch settings aren't compatible across nodes") def test_valid_payloads_mixed_epoch_at_slow_rate(self): n1_epoch_sec = 5 n2_epoch_sec = 1 self.setup_first_rln_relay_node(rln_relay_epoch_sec=n1_epoch_sec) self.setup_second_rln_relay_node(rln_relay_epoch_sec=n2_epoch_sec) self.subscribe_main_relay_nodes() failed_payloads = [] for payload in SAMPLE_INPUTS[:5]: logger.debug(f'Running test with payload {payload["description"]}') message = self.create_message(payload=to_base64(payload["value"])) try: self.check_published_message_reaches_relay_peer(message, message_propagation_delay=0.2) except Exception as e: logger.error(f'Payload {payload["description"]} failed: {str(e)}') failed_payloads.append(payload["description"]) delay(n1_epoch_sec) assert not failed_payloads, f"Payloads failed: {failed_payloads}" @pytest.mark.skip(reason="waiting for NWAKU lightpush + RLN node implementation") def test_valid_payloads_lightpush_at_spam_rate(self): self.setup_first_rln_relay_node(lightpush="true") self.setup_second_lightpush_node() self.subscribe_main_relay_nodes() previous = math.trunc(time()) for i, payload in enumerate(SAMPLE_INPUTS[:5]): logger.debug(f'Running test with payload {payload["description"]}') message = self.create_message(payload=to_base64(payload["value"])) try: now = math.trunc(time()) self.publish_message(message=message, sender=self.light_push_node2, use_lightpush=True) if i > 0 and (now - previous) == 0: raise AssertionError("Publish with RLN enabled at spam rate worked!!!") else: previous = now except Exception as e: assert "RLN validation failed" in str(e) @pytest.mark.skipif("go-waku" in ADDITIONAL_NODES, reason="Test works only with nwaku") @pytest.mark.usefixtures("register_main_rln_relay_nodes", "register_optional_rln_relay_nodes") def test_valid_payloads_with_optional_nodes_at_slow_rate(self): self.setup_main_rln_relay_nodes() self.setup_optional_rln_relay_nodes() self.subscribe_main_relay_nodes() self.subscribe_optional_relay_nodes() failed_payloads = [] for payload in SAMPLE_INPUTS: logger.debug(f'Running test with payload {payload["description"]}') message = self.create_message(payload=to_base64(payload["value"])) try: self.check_published_message_reaches_relay_peer(message, message_propagation_delay=0.2) except Exception as e: logger.error(f'Payload {payload["description"]} failed: {str(e)}') failed_payloads.append(payload["description"]) delay(1) assert not failed_payloads, f"Payloads failed: {failed_payloads}" @pytest.mark.skipif("go-waku" in ADDITIONAL_NODES, reason="Test works only with nwaku") @pytest.mark.usefixtures("register_main_rln_relay_nodes", "register_optional_rln_relay_nodes") def test_valid_payloads_with_optional_nodes_at_spam_rate(self): self.setup_main_rln_relay_nodes() self.setup_optional_rln_relay_nodes() self.subscribe_main_relay_nodes() self.subscribe_optional_relay_nodes() previous = math.trunc(time()) for i, payload in enumerate(SAMPLE_INPUTS[:5]): logger.debug(f'Running test with payload {payload["description"]}') message = self.create_message(payload=to_base64(payload["value"])) try: now = math.trunc(time()) self.publish_message(message) if i > 0 and (now - previous) == 0: raise AssertionError("Publish with RLN enabled at spam rate worked!!!") else: previous = now except Exception as e: assert "RLN validation failed" in str(e)