""" Unit test file for rpc/external_message_consumer.py """ import asyncio import logging from datetime import datetime, timezone from unittest.mock import MagicMock import pytest import websockets from freqtrade.data.dataprovider import DataProvider from freqtrade.rpc.external_message_consumer import ExternalMessageConsumer from tests.conftest import log_has, log_has_re, log_has_when _TEST_WS_TOKEN = "secret_Ws_t0ken" _TEST_WS_HOST = "127.0.0.1" _TEST_WS_PORT = 9989 @pytest.fixture def patched_emc(default_conf, mocker): default_conf.update({ "external_message_consumer": { "enabled": True, "producers": [ { "name": "default", "host": "null", "port": 9891, "ws_token": _TEST_WS_TOKEN } ] } }) dataprovider = DataProvider(default_conf, None, None, None) emc = ExternalMessageConsumer(default_conf, dataprovider) try: yield emc finally: emc.shutdown() def test_emc_start(patched_emc, caplog): # Test if the message was printed assert log_has_when("Starting ExternalMessageConsumer", caplog, "setup") # Test if the thread and loop objects were created assert patched_emc._thread and patched_emc._loop # Test we call start again nothing happens prev_thread = patched_emc._thread patched_emc.start() assert prev_thread == patched_emc._thread def test_emc_shutdown(patched_emc, caplog): patched_emc.shutdown() assert log_has("Stopping ExternalMessageConsumer", caplog) # Test the loop has stopped assert patched_emc._loop is None # Test if the thread has stopped assert patched_emc._thread is None caplog.clear() patched_emc.shutdown() # Test func didn't run again as it was called once already assert not log_has("Stopping ExternalMessageConsumer", caplog) def test_emc_init(patched_emc): # Test the settings were set correctly assert patched_emc.initial_candle_limit <= 1500 assert patched_emc.wait_timeout > 0 assert patched_emc.sleep_time > 0 # Parametrize this? def test_emc_handle_producer_message(patched_emc, caplog, ohlcv_history): test_producer = {"name": "test", "url": "ws://test", "ws_token": "test"} producer_name = test_producer['name'] invalid_msg = r"Invalid message .+" caplog.set_level(logging.DEBUG) # Test handle whitelist message whitelist_message = {"type": "whitelist", "data": ["BTC/USDT"]} patched_emc.handle_producer_message(test_producer, whitelist_message) assert log_has(f"Received message of type `whitelist` from `{producer_name}`", caplog) assert log_has( f"Consumed message from `{producer_name}` of type `RPCMessageType.WHITELIST`", caplog) # Test handle analyzed_df single candle message df_message = { "type": "analyzed_df", "data": { "key": ("BTC/USDT", "5m", "spot"), "df": ohlcv_history, "la": datetime.now(timezone.utc) } } patched_emc.handle_producer_message(test_producer, df_message) assert log_has(f"Received message of type `analyzed_df` from `{producer_name}`", caplog) assert log_has_re(r"Holes in data or no existing df,.+", caplog) # Test unhandled message unhandled_message = {"type": "status", "data": "RUNNING"} patched_emc.handle_producer_message(test_producer, unhandled_message) assert log_has_re(r"Received unhandled message\: .*", caplog) # Test malformed messages caplog.clear() malformed_message = {"type": "whitelist", "data": {"pair": "BTC/USDT"}} patched_emc.handle_producer_message(test_producer, malformed_message) assert log_has_re(invalid_msg, caplog) caplog.clear() malformed_message = { "type": "analyzed_df", "data": { "key": "BTC/USDT", "df": ohlcv_history, "la": datetime.now(timezone.utc) } } patched_emc.handle_producer_message(test_producer, malformed_message) assert log_has(f"Received message of type `analyzed_df` from `{producer_name}`", caplog) assert log_has_re(invalid_msg, caplog) caplog.clear() # Empty dataframe malformed_message = { "type": "analyzed_df", "data": { "key": ("BTC/USDT", "5m", "spot"), "df": ohlcv_history.loc[ohlcv_history['open'] < 0], "la": datetime.now(timezone.utc) } } patched_emc.handle_producer_message(test_producer, malformed_message) assert log_has(f"Received message of type `analyzed_df` from `{producer_name}`", caplog) assert not log_has_re(invalid_msg, caplog) assert log_has_re(r"Received Empty Dataframe for.+", caplog) caplog.clear() malformed_message = {"some": "stuff"} patched_emc.handle_producer_message(test_producer, malformed_message) assert log_has_re(invalid_msg, caplog) caplog.clear() caplog.clear() malformed_message = {"type": "whitelist", "data": None} patched_emc.handle_producer_message(test_producer, malformed_message) assert log_has_re(r"Empty message .+", caplog) async def test_emc_create_connection_success(default_conf, caplog, mocker): default_conf.update({ "external_message_consumer": { "enabled": True, "producers": [ { "name": "default", "host": _TEST_WS_HOST, "port": _TEST_WS_PORT, "ws_token": _TEST_WS_TOKEN } ], "wait_timeout": 60, "ping_timeout": 60, "sleep_timeout": 60 } }) mocker.patch('freqtrade.rpc.external_message_consumer.ExternalMessageConsumer.start', MagicMock()) dp = DataProvider(default_conf, None, None, None) emc = ExternalMessageConsumer(default_conf, dp) test_producer = default_conf['external_message_consumer']['producers'][0] lock = asyncio.Lock() emc._running = True async def eat(websocket): emc._running = False try: async with websockets.serve(eat, _TEST_WS_HOST, _TEST_WS_PORT): await emc._create_connection(test_producer, lock) assert log_has_re(r"Connected to channel.+", caplog) finally: emc.shutdown() @pytest.mark.parametrize('host,port', [ (_TEST_WS_HOST, -1), ("10000.1241..2121/", _TEST_WS_PORT), ]) async def test_emc_create_connection_invalid_url(default_conf, caplog, mocker, host, port): default_conf.update({ "external_message_consumer": { "enabled": True, "producers": [ { "name": "default", "host": host, "port": port, "ws_token": _TEST_WS_TOKEN } ], "wait_timeout": 60, "ping_timeout": 60, "sleep_timeout": 60 } }) dp = DataProvider(default_conf, None, None, None) # Handle start explicitly to avoid messing with threading in tests mocker.patch("freqtrade.rpc.external_message_consumer.ExternalMessageConsumer.start") mocker.patch("freqtrade.rpc.api_server.ws.channel.create_channel") emc = ExternalMessageConsumer(default_conf, dp) try: emc._running = True await emc._create_connection(emc.producers[0], asyncio.Lock()) assert log_has_re(r".+ is an invalid WebSocket URL .+", caplog) finally: emc.shutdown() async def test_emc_create_connection_error(default_conf, caplog, mocker): default_conf.update({ "external_message_consumer": { "enabled": True, "producers": [ { "name": "default", "host": _TEST_WS_HOST, "port": _TEST_WS_PORT, "ws_token": _TEST_WS_TOKEN } ], "wait_timeout": 60, "ping_timeout": 60, "sleep_timeout": 60 } }) # Test unexpected error mocker.patch('websockets.connect', side_effect=RuntimeError) dp = DataProvider(default_conf, None, None, None) emc = ExternalMessageConsumer(default_conf, dp) try: await asyncio.sleep(0.05) assert log_has("Unexpected error has occurred:", caplog) finally: emc.shutdown() async def test_emc_receive_messages_valid(default_conf, caplog, mocker): caplog.set_level(logging.DEBUG) default_conf.update({ "external_message_consumer": { "enabled": True, "producers": [ { "name": "default", "host": _TEST_WS_HOST, "port": _TEST_WS_PORT, "ws_token": _TEST_WS_TOKEN } ], "wait_timeout": 1, "ping_timeout": 60, "sleep_time": 60 } }) mocker.patch('freqtrade.rpc.external_message_consumer.ExternalMessageConsumer.start', MagicMock()) lock = asyncio.Lock() test_producer = default_conf['external_message_consumer']['producers'][0] dp = DataProvider(default_conf, None, None, None) emc = ExternalMessageConsumer(default_conf, dp) class TestChannel: async def recv(self, *args, **kwargs): emc._running = False return {"type": "whitelist", "data": ["BTC/USDT"]} async def ping(self, *args, **kwargs): return asyncio.Future() try: emc._running = True await emc._receive_messages(TestChannel(), test_producer, lock) assert log_has_re(r"Received message of type `whitelist`.+", caplog) finally: emc.shutdown() async def test_emc_receive_messages_invalid(default_conf, caplog, mocker): default_conf.update({ "external_message_consumer": { "enabled": True, "producers": [ { "name": "default", "host": _TEST_WS_HOST, "port": _TEST_WS_PORT, "ws_token": _TEST_WS_TOKEN } ], "wait_timeout": 1, "ping_timeout": 60, "sleep_time": 60 } }) mocker.patch('freqtrade.rpc.external_message_consumer.ExternalMessageConsumer.start', MagicMock()) lock = asyncio.Lock() test_producer = default_conf['external_message_consumer']['producers'][0] dp = DataProvider(default_conf, None, None, None) emc = ExternalMessageConsumer(default_conf, dp) class TestChannel: async def recv(self, *args, **kwargs): emc._running = False return {"type": ["BTC/USDT"]} async def ping(self, *args, **kwargs): return asyncio.Future() try: emc._running = True await emc._receive_messages(TestChannel(), test_producer, lock) assert log_has_re(r"Invalid message from.+", caplog) finally: emc.shutdown() async def test_emc_receive_messages_timeout(default_conf, caplog, mocker): default_conf.update({ "external_message_consumer": { "enabled": True, "producers": [ { "name": "default", "host": _TEST_WS_HOST, "port": _TEST_WS_PORT, "ws_token": _TEST_WS_TOKEN } ], "wait_timeout": 0.1, "ping_timeout": 1, "sleep_time": 1 } }) mocker.patch('freqtrade.rpc.external_message_consumer.ExternalMessageConsumer.start', MagicMock()) lock = asyncio.Lock() test_producer = default_conf['external_message_consumer']['producers'][0] dp = DataProvider(default_conf, None, None, None) emc = ExternalMessageConsumer(default_conf, dp) def change_running(): emc._running = not emc._running class TestChannel: async def recv(self, *args, **kwargs): await asyncio.sleep(0.2) async def ping(self, *args, **kwargs): return asyncio.Future() try: change_running() with pytest.raises(asyncio.TimeoutError): await emc._receive_messages(TestChannel(), test_producer, lock) assert log_has_re(r"Ping error.+", caplog) finally: emc.shutdown() async def test_emc_receive_messages_handle_error(default_conf, caplog, mocker): default_conf.update({ "external_message_consumer": { "enabled": True, "producers": [ { "name": "default", "host": _TEST_WS_HOST, "port": _TEST_WS_PORT, "ws_token": _TEST_WS_TOKEN } ], "wait_timeout": 1, "ping_timeout": 1, "sleep_time": 1 } }) mocker.patch('freqtrade.rpc.external_message_consumer.ExternalMessageConsumer.start', MagicMock()) lock = asyncio.Lock() test_producer = default_conf['external_message_consumer']['producers'][0] dp = DataProvider(default_conf, None, None, None) emc = ExternalMessageConsumer(default_conf, dp) emc.handle_producer_message = MagicMock(side_effect=Exception) class TestChannel: async def recv(self, *args, **kwargs): emc._running = False return {"type": "whitelist", "data": ["BTC/USDT"]} async def ping(self, *args, **kwargs): return asyncio.Future() try: emc._running = True await emc._receive_messages(TestChannel(), test_producer, lock) assert log_has_re(r"Error handling producer message.+", caplog) finally: emc.shutdown()