"""Test for DSMR components. Tests setup of the DSMR component and ensure incoming telegrams cause Entity to be updated with new values. """ import asyncio import datetime from decimal import Decimal from unittest.mock import Mock import asynctest from homeassistant.bootstrap import async_setup_component from homeassistant.components.dsmr.sensor import DerivativeDSMREntity import pytest from tests.common import assert_setup_component @pytest.fixture def mock_connection_factory(monkeypatch): """Mock the create functions for serial and TCP Asyncio connections.""" from dsmr_parser.clients.protocol import DSMRProtocol transport = asynctest.Mock(spec=asyncio.Transport) protocol = asynctest.Mock(spec=DSMRProtocol) @asyncio.coroutine def connection_factory(*args, **kwargs): """Return mocked out Asyncio classes.""" return (transport, protocol) connection_factory = Mock(wraps=connection_factory) # apply the mock to both connection factories monkeypatch.setattr( "dsmr_parser.clients.protocol.create_dsmr_reader", connection_factory ) monkeypatch.setattr( "dsmr_parser.clients.protocol.create_tcp_dsmr_reader", connection_factory ) return connection_factory, transport, protocol @asyncio.coroutine def test_default_setup(hass, mock_connection_factory): """Test the default setup.""" (connection_factory, transport, protocol) = mock_connection_factory from dsmr_parser.obis_references import ( CURRENT_ELECTRICITY_USAGE, ELECTRICITY_ACTIVE_TARIFF, ) from dsmr_parser.objects import CosemObject config = {"platform": "dsmr"} telegram = { CURRENT_ELECTRICITY_USAGE: CosemObject( [{"value": Decimal("0.0"), "unit": "kWh"}] ), ELECTRICITY_ACTIVE_TARIFF: CosemObject([{"value": "0001", "unit": ""}]), } with assert_setup_component(1): yield from async_setup_component(hass, "sensor", {"sensor": config}) telegram_callback = connection_factory.call_args_list[0][0][2] # make sure entities have been created and return 'unknown' state power_consumption = hass.states.get("sensor.power_consumption") assert power_consumption.state == "unknown" assert power_consumption.attributes.get("unit_of_measurement") is None # simulate a telegram pushed from the smartmeter and parsed by dsmr_parser telegram_callback(telegram) # after receiving telegram entities need to have the chance to update yield from asyncio.sleep(0) # ensure entities have new state value after incoming telegram power_consumption = hass.states.get("sensor.power_consumption") assert power_consumption.state == "0.0" assert power_consumption.attributes.get("unit_of_measurement") == "kWh" # tariff should be translated in human readable and have no unit power_tariff = hass.states.get("sensor.power_tariff") assert power_tariff.state == "low" assert power_tariff.attributes.get("unit_of_measurement") == "" @asyncio.coroutine def test_derivative(): """Test calculation of derivative value.""" from dsmr_parser.objects import MBusObject config = {"platform": "dsmr"} entity = DerivativeDSMREntity("test", "1.0.0", config) yield from entity.async_update() assert entity.state is None, "initial state not unknown" entity.telegram = { "1.0.0": MBusObject( [ {"value": datetime.datetime.fromtimestamp(1551642213)}, {"value": Decimal(745.695), "unit": "m3"}, ] ) } yield from entity.async_update() assert entity.state is None, "state after first update should still be unknown" entity.telegram = { "1.0.0": MBusObject( [ {"value": datetime.datetime.fromtimestamp(1551642543)}, {"value": Decimal(745.698), "unit": "m3"}, ] ) } yield from entity.async_update() assert ( abs(entity.state - 0.033) < 0.00001 ), "state should be hourly usage calculated from first and second update" assert entity.unit_of_measurement == "m3/h" @asyncio.coroutine def test_tcp(hass, mock_connection_factory): """If proper config provided TCP connection should be made.""" (connection_factory, transport, protocol) = mock_connection_factory config = {"platform": "dsmr", "host": "localhost", "port": 1234} with assert_setup_component(1): yield from async_setup_component(hass, "sensor", {"sensor": config}) assert connection_factory.call_args_list[0][0][0] == "localhost" assert connection_factory.call_args_list[0][0][1] == "1234" @asyncio.coroutine def test_connection_errors_retry(hass, monkeypatch, mock_connection_factory): """Connection should be retried on error during setup.""" (connection_factory, transport, protocol) = mock_connection_factory config = {"platform": "dsmr", "reconnect_interval": 0} # override the mock to have it fail the first time first_fail_connection_factory = Mock( wraps=connection_factory, side_effect=[TimeoutError] ) monkeypatch.setattr( "dsmr_parser.clients.protocol.create_dsmr_reader", first_fail_connection_factory ) yield from async_setup_component(hass, "sensor", {"sensor": config}) # wait for sleep to resolve yield from hass.async_block_till_done() assert first_fail_connection_factory.call_count == 2, "connecting not retried" @asyncio.coroutine def test_reconnect(hass, monkeypatch, mock_connection_factory): """If transport disconnects, the connection should be retried.""" (connection_factory, transport, protocol) = mock_connection_factory config = {"platform": "dsmr", "reconnect_interval": 0} # mock waiting coroutine while connection lasts closed = asyncio.Event() # Handshake so that `hass.async_block_till_done()` doesn't cycle forever closed2 = asyncio.Event() @asyncio.coroutine def wait_closed(): yield from closed.wait() closed2.set() closed.clear() protocol.wait_closed = wait_closed yield from async_setup_component(hass, "sensor", {"sensor": config}) assert connection_factory.call_count == 1 # indicate disconnect, release wait lock and allow reconnect to happen closed.set() # wait for lock set to resolve yield from closed2.wait() closed2.clear() assert not closed.is_set() closed.set() yield from hass.async_block_till_done() assert connection_factory.call_count >= 2, "connecting not retried"