import asyncio import io import logging import re from asyncio import Protocol from collections.abc import AsyncGenerator, Callable, Generator from queue import Queue from typing import Any from unittest.mock import AsyncMock, Mock, patch import pytest from aioresponses import aioresponses from roborock import HomeData, UserData from roborock.containers import DeviceData from roborock.roborock_message import RoborockMessage from roborock.version_1_apis.roborock_local_client_v1 import RoborockLocalClientV1 from roborock.version_1_apis.roborock_mqtt_client_v1 import RoborockMqttClientV1 from tests.mock_data import HOME_DATA_RAW, HOME_DATA_SCENES_RAW, TEST_LOCAL_API_HOST, USER_DATA _LOGGER = logging.getLogger(__name__) # Used by fixtures to handle incoming requests and prepare responses RequestHandler = Callable[[bytes], bytes | None] QUEUE_TIMEOUT = 10 class FakeSocketHandler: """Fake socket used by the test to simulate a connection to the broker. The socket handler is used to intercept the socket send and recv calls and populate the response buffer with data to be sent back to the client. The handle request callback handles the incoming requests and prepares the responses. """ def __init__(self, handle_request: RequestHandler, response_queue: Queue[bytes]) -> None: self.response_buf = io.BytesIO() self.handle_request = handle_request self.response_queue = response_queue def pending(self) -> int: """Return the number of bytes in the response buffer.""" return len(self.response_buf.getvalue()) def handle_socket_recv(self, read_size: int) -> bytes: """Intercept a client recv() and populate the buffer.""" if self.pending() == 0: raise BlockingIOError("No response queued") self.response_buf.seek(0) data = self.response_buf.read(read_size) _LOGGER.debug("Response: 0x%s", data.hex()) # Consume the rest of the data in the buffer remaining_data = self.response_buf.read() self.response_buf = io.BytesIO(remaining_data) return data def handle_socket_send(self, client_request: bytes) -> int: """Receive an incoming request from the client.""" _LOGGER.debug("Request: 0x%s", client_request.hex()) if (response := self.handle_request(client_request)) is not None: # Enqueue a response to be sent back to the client in the buffer. # The buffer will be emptied when the client calls recv() on the socket _LOGGER.debug("Queued: 0x%s", response.hex()) self.response_buf.write(response) return len(client_request) def push_response(self) -> None: """Push a response to the client.""" if not self.response_queue.empty(): response = self.response_queue.get() # Enqueue a response to be sent back to the client in the buffer. # The buffer will be emptied when the client calls recv() on the socket _LOGGER.debug("Queued: 0x%s", response.hex()) self.response_buf.write(response) @pytest.fixture(name="received_requests") def received_requests_fixture() -> Queue[bytes]: """Fixture that provides access to the received requests.""" return Queue() @pytest.fixture(name="response_queue") def response_queue_fixture() -> Generator[Queue[bytes], None, None]: """Fixture that provides access to the received requests.""" response_queue: Queue[bytes] = Queue() yield response_queue assert response_queue.empty(), "Not all fake responses were consumed" @pytest.fixture(name="request_handler") def request_handler_fixture(received_requests: Queue[bytes], response_queue: Queue[bytes]) -> RequestHandler: """Fixture records incoming requests and replies with responses from the queue.""" def handle_request(client_request: bytes) -> bytes | None: """Handle an incoming request from the client.""" received_requests.put(client_request) # Insert a prepared response into the response buffer if not response_queue.empty(): return response_queue.get() return None return handle_request @pytest.fixture(name="fake_socket_handler") def fake_socket_handler_fixture(request_handler: RequestHandler, response_queue: Queue[bytes]) -> FakeSocketHandler: """Fixture that creates a fake MQTT broker.""" return FakeSocketHandler(request_handler, response_queue) @pytest.fixture(name="mock_sock") def mock_sock_fixture(fake_socket_handler: FakeSocketHandler) -> Mock: """Fixture that creates a mock socket connection and wires it to the handler.""" mock_sock = Mock() mock_sock.recv = fake_socket_handler.handle_socket_recv mock_sock.send = fake_socket_handler.handle_socket_send mock_sock.pending = fake_socket_handler.pending return mock_sock @pytest.fixture(name="mock_create_connection") def create_connection_fixture(mock_sock: Mock) -> Generator[None, None, None]: """Fixture that overrides the MQTT socket creation to wire it up to the mock socket.""" with patch("paho.mqtt.client.socket.create_connection", return_value=mock_sock): yield @pytest.fixture(name="mock_select") def select_fixture(mock_sock: Mock, fake_socket_handler: FakeSocketHandler) -> Generator[None, None, None]: """Fixture that overrides the MQTT client select calls to make select work on the mock socket. This patch select to activate our mock socket when ready with data. Internal mqtt sockets are always ready since they are used internally to wake the select loop. Ours is ready if there is data in the buffer. """ def is_ready(sock: Any) -> bool: return sock is not mock_sock or (fake_socket_handler.pending() > 0) def handle_select(rlist: list, wlist: list, *args: Any) -> list: return [list(filter(is_ready, rlist)), list(filter(is_ready, wlist))] with patch("paho.mqtt.client.select.select", side_effect=handle_select): yield @pytest.fixture(name="mqtt_client") async def mqtt_client(mock_create_connection: None, mock_select: None) -> AsyncGenerator[RoborockMqttClientV1, None]: user_data = UserData.from_dict(USER_DATA) home_data = HomeData.from_dict(HOME_DATA_RAW) device_info = DeviceData( device=home_data.devices[0], model=home_data.products[0].model, ) client = RoborockMqttClientV1(user_data, device_info, queue_timeout=QUEUE_TIMEOUT) try: yield client finally: if not client.is_connected(): try: await client.async_release() except Exception: pass @pytest.fixture(name="mock_rest", autouse=True) def mock_rest() -> aioresponses: """Mock all rest endpoints so they won't hit real endpoints""" with aioresponses() as mocked: # Match the base URL and allow any query params mocked.post( re.compile(r"https://euiot\.roborock\.com/api/v1/getUrlByEmail.*"), status=200, payload={ "code": 200, "data": {"country": "US", "countrycode": "1", "url": "https://usiot.roborock.com"}, "msg": "success", }, ) mocked.post( re.compile(r"https://.*iot\.roborock\.com/api/v1/login.*"), status=200, payload={"code": 200, "data": USER_DATA, "msg": "success"}, ) mocked.post( re.compile(r"https://.*iot\.roborock\.com/api/v1/loginWithCode.*"), status=200, payload={"code": 200, "data": USER_DATA, "msg": "success"}, ) mocked.post( re.compile(r"https://.*iot\.roborock\.com/api/v1/sendEmailCode.*"), status=200, payload={"code": 200, "data": None, "msg": "success"}, ) mocked.get( re.compile(r"https://.*iot\.roborock\.com/api/v1/getHomeDetail.*"), status=200, payload={ "code": 200, "data": {"deviceListOrder": None, "id": 123456, "name": "My Home", "rrHomeId": 123456, "tuyaHomeId": 0}, "msg": "success", }, ) mocked.get( re.compile(r"https://api-.*\.roborock\.com/v2/user/homes*"), status=200, payload={"api": None, "code": 200, "result": HOME_DATA_RAW, "status": "ok", "success": True}, ) mocked.post( re.compile(r"https://api-.*\.roborock\.com/nc/prepare"), status=200, payload={ "api": None, "result": {"r": "US", "s": "ffffff", "t": "eOf6d2BBBB"}, "status": "ok", "success": True, }, ) mocked.get( re.compile(r"https://api-.*\.roborock\.com/user/devices/newadd/*"), status=200, payload={ "api": "获取新增设备信息", "result": { "activeTime": 1737724598, "attribute": None, "cid": None, "createTime": 0, "deviceStatus": None, "duid": "rand_duid", "extra": "{}", "f": False, "featureSet": "0", "fv": "02.16.12", "iconUrl": "", "lat": None, "localKey": "random_lk", "lon": None, "name": "S7", "newFeatureSet": "0000000000002000", "online": True, "productId": "rand_prod_id", "pv": "1.0", "roomId": None, "runtimeEnv": None, "setting": None, "share": False, "shareTime": None, "silentOtaSwitch": False, "sn": "Rand_sn", "timeZoneId": "America/New_York", "tuyaMigrated": False, "tuyaUuid": None, }, "status": "ok", "success": True, }, ) mocked.get( re.compile(r"https://api-.*\.roborock\.com/user/scene/device/.*"), status=200, payload={"api": None, "code": 200, "result": HOME_DATA_SCENES_RAW, "status": "ok", "success": True}, ) mocked.post( re.compile(r"https://api-.*\.roborock\.com/user/scene/.*/execute"), status=200, payload={"api": None, "code": 200, "result": None, "status": "ok", "success": True}, ) yield mocked @pytest.fixture(autouse=True) def skip_rate_limit(): """Don't rate limit tests as they aren't actually hitting the api.""" with ( patch("roborock.web_api.RoborockApiClient._login_limiter.try_acquire"), patch("roborock.web_api.RoborockApiClient._home_data_limiter.try_acquire"), ): yield @pytest.fixture(name="mock_create_local_connection") def create_local_connection_fixture(request_handler: RequestHandler) -> Generator[None, None, None]: """Fixture that overrides the transport creation to wire it up to the mock socket.""" async def create_connection(protocol_factory: Callable[[], Protocol], *args) -> tuple[Any, Any]: protocol = protocol_factory() def handle_write(data: bytes) -> None: _LOGGER.debug("Received: %s", data) response = request_handler(data) if response is not None: _LOGGER.debug("Replying with %s", response) loop = asyncio.get_running_loop() loop.call_soon(protocol.data_received, response) closed = asyncio.Event() mock_transport = Mock() mock_transport.write = handle_write mock_transport.close = closed.set mock_transport.is_reading = lambda: not closed.is_set() return (mock_transport, "proto") with patch("roborock.version_1_apis.roborock_local_client_v1.get_running_loop") as mock_loop: mock_loop.return_value.create_connection.side_effect = create_connection yield @pytest.fixture(name="local_client") async def local_client_fixture(mock_create_local_connection: None) -> AsyncGenerator[RoborockLocalClientV1, None]: home_data = HomeData.from_dict(HOME_DATA_RAW) device_info = DeviceData( device=home_data.devices[0], model=home_data.products[0].model, host=TEST_LOCAL_API_HOST, ) client = RoborockLocalClientV1(device_info, queue_timeout=QUEUE_TIMEOUT) try: yield client finally: if not client.is_connected(): try: await client.async_release() except Exception: pass class FakeChannel: """A fake channel that handles publish and subscribe calls.""" def __init__(self): """Initialize the fake channel.""" self.subscribers: list[Callable[[RoborockMessage], None]] = [] self.published_messages: list[RoborockMessage] = [] self.response_queue: list[RoborockMessage] = [] self._is_connected = False self.publish_side_effect: Exception | None = None self.publish = AsyncMock(side_effect=self._publish) self.subscribe = AsyncMock(side_effect=self._subscribe) self.connect = AsyncMock(side_effect=self._connect) self.close = AsyncMock(side_effect=self._close) async def _connect(self) -> None: self._is_connected = True async def _close(self) -> None: self._is_connected = False @property def is_connected(self) -> bool: """Return true if connected.""" return self._is_connected async def _publish(self, message: RoborockMessage) -> None: """Simulate publishing a message and triggering a response.""" self.published_messages.append(message) if self.publish_side_effect: raise self.publish_side_effect # When a message is published, simulate a response if self.response_queue: response = self.response_queue.pop(0) # Give a chance for the subscriber to be registered for subscriber in list(self.subscribers): subscriber(response) async def _subscribe(self, callback: Callable[[RoborockMessage], None]) -> Callable[[], None]: """Simulate subscribing to messages.""" self.subscribers.append(callback) return lambda: self.subscribers.remove(callback)