"""Test for RFLink cover components.
Test setup of RFLink covers component/platform. State tracking and
control of RFLink cover devices.
"""
import pytest
from homeassistant.components.rflink import EVENT_BUTTON_PRESSED
from homeassistant.const import (
ATTR_ENTITY_ID,
SERVICE_CLOSE_COVER,
SERVICE_OPEN_COVER,
STATE_CLOSED,
STATE_OPEN,
)
from homeassistant.core import CoreState, HomeAssistant, State, callback
from .test_init import mock_rflink
from tests.common import mock_restore_cache
DOMAIN = "cover"
CONFIG = {
"rflink": {
"port": "/dev/ttyABC0",
"ignore_devices": ["ignore_wildcard_*", "ignore_cover"],
},
DOMAIN: {
"platform": "rflink",
"devices": {
"protocol_0_0": {"name": "test", "aliases": ["test_alias_0_0"]},
"cover_0_0": {"name": "dim_test"},
"cover_0_1": {"name": "cover_test"},
},
},
}
async def test_default_setup(
hass: HomeAssistant, monkeypatch: pytest.MonkeyPatch
) -> None:
"""Test all basic functionality of the RFLink cover component."""
# setup mocking rflink module
event_callback, create, protocol, _ = await mock_rflink(
hass, CONFIG, DOMAIN, monkeypatch
)
# make sure arguments are passed
assert create.call_args_list[0][1]["ignore"]
# test default state of cover loaded from config
cover_initial = hass.states.get(f"{DOMAIN}.test")
assert cover_initial.state == STATE_CLOSED
assert cover_initial.attributes["assumed_state"]
# cover should follow state of the hardware device by interpreting
# incoming events for its name and aliases
# mock incoming command event for this device
event_callback({"id": "protocol_0_0", "command": "up"})
await hass.async_block_till_done()
cover_after_first_command = hass.states.get(f"{DOMAIN}.test")
assert cover_after_first_command.state == STATE_OPEN
# not sure why, but cover have always assumed_state=true
assert cover_after_first_command.attributes.get("assumed_state")
# mock incoming command event for this device
event_callback({"id": "protocol_0_0", "command": "down"})
await hass.async_block_till_done()
assert hass.states.get(f"{DOMAIN}.test").state == STATE_CLOSED
# should respond to group command
event_callback({"id": "protocol_0_0", "command": "allon"})
await hass.async_block_till_done()
cover_after_first_command = hass.states.get(f"{DOMAIN}.test")
assert cover_after_first_command.state == STATE_OPEN
# should respond to group command
event_callback({"id": "protocol_0_0", "command": "alloff"})
await hass.async_block_till_done()
assert hass.states.get(f"{DOMAIN}.test").state == STATE_CLOSED
# test following aliases
# mock incoming command event for this device alias
event_callback({"id": "test_alias_0_0", "command": "up"})
await hass.async_block_till_done()
assert hass.states.get(f"{DOMAIN}.test").state == STATE_OPEN
# test changing state from HA propagates to RFLink
await hass.services.async_call(
DOMAIN, SERVICE_CLOSE_COVER, {ATTR_ENTITY_ID: f"{DOMAIN}.test"}
)
await hass.async_block_till_done()
assert hass.states.get(f"{DOMAIN}.test").state == STATE_CLOSED
assert protocol.send_command_ack.call_args_list[0][0][0] == "protocol_0_0"
assert protocol.send_command_ack.call_args_list[0][0][1] == "DOWN"
await hass.services.async_call(
DOMAIN, SERVICE_OPEN_COVER, {ATTR_ENTITY_ID: f"{DOMAIN}.test"}
)
await hass.async_block_till_done()
assert hass.states.get(f"{DOMAIN}.test").state == STATE_OPEN
assert protocol.send_command_ack.call_args_list[1][0][1] == "UP"
async def test_firing_bus_event(
hass: HomeAssistant, monkeypatch: pytest.MonkeyPatch
) -> None:
"""Incoming RFLink command events should be put on the HA event bus."""
config = {
"rflink": {"port": "/dev/ttyABC0"},
DOMAIN: {
"platform": "rflink",
"devices": {
"protocol_0_0": {
"name": "test",
"aliases": ["test_alias_0_0"],
"fire_event": True,
}
},
},
}
# setup mocking rflink module
event_callback, _, _, _ = await mock_rflink(hass, config, DOMAIN, monkeypatch)
calls = []
@callback
def listener(event):
calls.append(event)
hass.bus.async_listen_once(EVENT_BUTTON_PRESSED, listener)
# test event for new unconfigured sensor
event_callback({"id": "protocol_0_0", "command": "down"})
await hass.async_block_till_done()
await hass.async_block_till_done()
assert calls[0].data == {"state": "down", "entity_id": f"{DOMAIN}.test"}
async def test_signal_repetitions(
hass: HomeAssistant, monkeypatch: pytest.MonkeyPatch
) -> None:
"""Command should be sent amount of configured repetitions."""
config = {
"rflink": {"port": "/dev/ttyABC0"},
DOMAIN: {
"platform": "rflink",
"device_defaults": {"signal_repetitions": 3},
"devices": {
"protocol_0_0": {"name": "test", "signal_repetitions": 2},
"protocol_0_1": {"name": "test1"},
},
},
}
# setup mocking rflink module
_, _, protocol, _ = await mock_rflink(hass, config, DOMAIN, monkeypatch)
# test if signal repetition is performed according to configuration
await hass.services.async_call(
DOMAIN, SERVICE_OPEN_COVER, {ATTR_ENTITY_ID: f"{DOMAIN}.test"}
)
# wait for commands and repetitions to finish
await hass.async_block_till_done()
assert protocol.send_command_ack.call_count == 2
# test if default apply to configured devices
await hass.services.async_call(
DOMAIN, SERVICE_OPEN_COVER, {ATTR_ENTITY_ID: f"{DOMAIN}.test1"}
)
# wait for commands and repetitions to finish
await hass.async_block_till_done()
assert protocol.send_command_ack.call_count == 5
async def test_signal_repetitions_alternation(
hass: HomeAssistant, monkeypatch: pytest.MonkeyPatch
) -> None:
"""Simultaneously switching entities must alternate repetitions."""
config = {
"rflink": {"port": "/dev/ttyABC0"},
DOMAIN: {
"platform": "rflink",
"devices": {
"protocol_0_0": {"name": "test", "signal_repetitions": 2},
"protocol_0_1": {"name": "test1", "signal_repetitions": 2},
},
},
}
# setup mocking rflink module
_, _, protocol, _ = await mock_rflink(hass, config, DOMAIN, monkeypatch)
await hass.services.async_call(
DOMAIN, SERVICE_CLOSE_COVER, {ATTR_ENTITY_ID: f"{DOMAIN}.test"}
)
await hass.services.async_call(
DOMAIN, SERVICE_CLOSE_COVER, {ATTR_ENTITY_ID: f"{DOMAIN}.test1"}
)
await hass.async_block_till_done()
assert protocol.send_command_ack.call_args_list[0][0][0] == "protocol_0_0"
assert protocol.send_command_ack.call_args_list[1][0][0] == "protocol_0_1"
assert protocol.send_command_ack.call_args_list[2][0][0] == "protocol_0_0"
assert protocol.send_command_ack.call_args_list[3][0][0] == "protocol_0_1"
async def test_signal_repetitions_cancelling(
hass: HomeAssistant, monkeypatch: pytest.MonkeyPatch
) -> None:
"""Cancel outstanding repetitions when state changed."""
config = {
"rflink": {"port": "/dev/ttyABC0"},
DOMAIN: {
"platform": "rflink",
"devices": {"protocol_0_0": {"name": "test", "signal_repetitions": 3}},
},
}
# setup mocking rflink module
_, _, protocol, _ = await mock_rflink(hass, config, DOMAIN, monkeypatch)
await hass.services.async_call(
DOMAIN, SERVICE_CLOSE_COVER, {ATTR_ENTITY_ID: f"{DOMAIN}.test"}
)
await hass.services.async_call(
DOMAIN, SERVICE_OPEN_COVER, {ATTR_ENTITY_ID: f"{DOMAIN}.test"}
)
await hass.async_block_till_done()
assert protocol.send_command_ack.call_args_list[0][0][1] == "DOWN"
assert protocol.send_command_ack.call_args_list[1][0][1] == "UP"
assert protocol.send_command_ack.call_args_list[2][0][1] == "UP"
assert protocol.send_command_ack.call_args_list[3][0][1] == "UP"
async def test_group_alias(
hass: HomeAssistant, monkeypatch: pytest.MonkeyPatch
) -> None:
"""Group aliases should only respond to group commands (allon/alloff)."""
config = {
"rflink": {"port": "/dev/ttyABC0"},
DOMAIN: {
"platform": "rflink",
"devices": {
"protocol_0_0": {"name": "test", "group_aliases": ["test_group_0_0"]}
},
},
}
# setup mocking rflink module
event_callback, _, _, _ = await mock_rflink(hass, config, DOMAIN, monkeypatch)
assert hass.states.get(f"{DOMAIN}.test").state == STATE_CLOSED
# test sending group command to group alias
event_callback({"id": "test_group_0_0", "command": "allon"})
await hass.async_block_till_done()
assert hass.states.get(f"{DOMAIN}.test").state == STATE_OPEN
# test sending group command to group alias
event_callback({"id": "test_group_0_0", "command": "down"})
await hass.async_block_till_done()
assert hass.states.get(f"{DOMAIN}.test").state == STATE_OPEN
async def test_nogroup_alias(
hass: HomeAssistant, monkeypatch: pytest.MonkeyPatch
) -> None:
"""Non group aliases should not respond to group commands."""
config = {
"rflink": {"port": "/dev/ttyABC0"},
DOMAIN: {
"platform": "rflink",
"devices": {
"protocol_0_0": {
"name": "test",
"nogroup_aliases": ["test_nogroup_0_0"],
}
},
},
}
# setup mocking rflink module
event_callback, _, _, _ = await mock_rflink(hass, config, DOMAIN, monkeypatch)
assert hass.states.get(f"{DOMAIN}.test").state == STATE_CLOSED
# test sending group command to nogroup alias
event_callback({"id": "test_nogroup_0_0", "command": "allon"})
await hass.async_block_till_done()
# should not affect state
assert hass.states.get(f"{DOMAIN}.test").state == STATE_CLOSED
# test sending group command to nogroup alias
event_callback({"id": "test_nogroup_0_0", "command": "up"})
await hass.async_block_till_done()
# should affect state
assert hass.states.get(f"{DOMAIN}.test").state == STATE_OPEN
async def test_nogroup_device_id(
hass: HomeAssistant, monkeypatch: pytest.MonkeyPatch
) -> None:
"""Device id that do not respond to group commands (allon/alloff)."""
config = {
"rflink": {"port": "/dev/ttyABC0"},
DOMAIN: {
"platform": "rflink",
"devices": {"test_nogroup_0_0": {"name": "test", "group": False}},
},
}
# setup mocking rflink module
event_callback, _, _, _ = await mock_rflink(hass, config, DOMAIN, monkeypatch)
assert hass.states.get(f"{DOMAIN}.test").state == STATE_CLOSED
# test sending group command to nogroup
event_callback({"id": "test_nogroup_0_0", "command": "allon"})
await hass.async_block_till_done()
# should not affect state
assert hass.states.get(f"{DOMAIN}.test").state == STATE_CLOSED
# test sending group command to nogroup
event_callback({"id": "test_nogroup_0_0", "command": "up"})
await hass.async_block_till_done()
# should affect state
assert hass.states.get(f"{DOMAIN}.test").state == STATE_OPEN
async def test_restore_state(
hass: HomeAssistant, monkeypatch: pytest.MonkeyPatch
) -> None:
"""Ensure states are restored on startup."""
config = {
"rflink": {"port": "/dev/ttyABC0"},
DOMAIN: {
"platform": "rflink",
"devices": {
"RTS_12345678_0": {"name": "c1"},
"test_restore_2": {"name": "c2"},
"test_restore_3": {"name": "c3"},
"test_restore_4": {"name": "c4"},
},
},
}
mock_restore_cache(
hass, (State(f"{DOMAIN}.c1", STATE_OPEN), State(f"{DOMAIN}.c2", STATE_CLOSED))
)
hass.set_state(CoreState.starting)
# setup mocking rflink module
_, _, _, _ = await mock_rflink(hass, config, DOMAIN, monkeypatch)
state = hass.states.get(f"{DOMAIN}.c1")
assert state
assert state.state == STATE_OPEN
state = hass.states.get(f"{DOMAIN}.c2")
assert state
assert state.state == STATE_CLOSED
state = hass.states.get(f"{DOMAIN}.c3")
assert state
assert state.state == STATE_CLOSED
# not cached cover must default values
state = hass.states.get(f"{DOMAIN}.c4")
assert state
assert state.state == STATE_CLOSED
assert state.attributes["assumed_state"]
# The code checks the ID, it will use the
# 'inverted' class when the name starts with
# 'newkaku'
async def test_inverted_cover(
hass: HomeAssistant, monkeypatch: pytest.MonkeyPatch
) -> None:
"""Ensure states are restored on startup."""
config = {
"rflink": {"port": "/dev/ttyABC0"},
DOMAIN: {
"platform": "rflink",
"devices": {
"nonkaku_device_1": {
"name": "nonkaku_type_standard",
"type": "standard",
},
"nonkaku_device_2": {"name": "nonkaku_type_none"},
"nonkaku_device_3": {
"name": "nonkaku_type_inverted",
"type": "inverted",
},
"newkaku_device_4": {
"name": "newkaku_type_standard",
"type": "standard",
},
"newkaku_device_5": {"name": "newkaku_type_none"},
"newkaku_device_6": {
"name": "newkaku_type_inverted",
"type": "inverted",
},
},
},
}
# setup mocking rflink module
event_callback, _, protocol, _ = await mock_rflink(
hass, config, DOMAIN, monkeypatch
)
# test default state of cover loaded from config
standard_cover = hass.states.get(f"{DOMAIN}.nonkaku_type_standard")
assert standard_cover.state == STATE_CLOSED
assert standard_cover.attributes["assumed_state"]
# mock incoming up command event for nonkaku_device_1
event_callback({"id": "nonkaku_device_1", "command": "up"})
await hass.async_block_till_done()
standard_cover = hass.states.get(f"{DOMAIN}.nonkaku_type_standard")
assert standard_cover.state == STATE_OPEN
assert standard_cover.attributes.get("assumed_state")
# mock incoming up command event for nonkaku_device_2
event_callback({"id": "nonkaku_device_2", "command": "up"})
await hass.async_block_till_done()
standard_cover = hass.states.get(f"{DOMAIN}.nonkaku_type_none")
assert standard_cover.state == STATE_OPEN
assert standard_cover.attributes.get("assumed_state")
# mock incoming up command event for nonkaku_device_3
event_callback({"id": "nonkaku_device_3", "command": "up"})
await hass.async_block_till_done()
inverted_cover = hass.states.get(f"{DOMAIN}.nonkaku_type_inverted")
assert inverted_cover.state == STATE_OPEN
assert inverted_cover.attributes.get("assumed_state")
# mock incoming up command event for newkaku_device_4
event_callback({"id": "newkaku_device_4", "command": "up"})
await hass.async_block_till_done()
inverted_cover = hass.states.get(f"{DOMAIN}.newkaku_type_standard")
assert inverted_cover.state == STATE_OPEN
assert inverted_cover.attributes.get("assumed_state")
# mock incoming up command event for newkaku_device_5
event_callback({"id": "newkaku_device_5", "command": "up"})
await hass.async_block_till_done()
inverted_cover = hass.states.get(f"{DOMAIN}.newkaku_type_none")
assert inverted_cover.state == STATE_OPEN
assert inverted_cover.attributes.get("assumed_state")
# mock incoming up command event for newkaku_device_6
event_callback({"id": "newkaku_device_6", "command": "up"})
await hass.async_block_till_done()
inverted_cover = hass.states.get(f"{DOMAIN}.newkaku_type_inverted")
assert inverted_cover.state == STATE_OPEN
assert inverted_cover.attributes.get("assumed_state")
# mock incoming down command event for nonkaku_device_1
event_callback({"id": "nonkaku_device_1", "command": "down"})
await hass.async_block_till_done()
standard_cover = hass.states.get(f"{DOMAIN}.nonkaku_type_standard")
assert standard_cover.state == STATE_CLOSED
assert standard_cover.attributes.get("assumed_state")
# mock incoming down command event for nonkaku_device_2
event_callback({"id": "nonkaku_device_2", "command": "down"})
await hass.async_block_till_done()
standard_cover = hass.states.get(f"{DOMAIN}.nonkaku_type_none")
assert standard_cover.state == STATE_CLOSED
assert standard_cover.attributes.get("assumed_state")
# mock incoming down command event for nonkaku_device_3
event_callback({"id": "nonkaku_device_3", "command": "down"})
await hass.async_block_till_done()
inverted_cover = hass.states.get(f"{DOMAIN}.nonkaku_type_inverted")
assert inverted_cover.state == STATE_CLOSED
assert inverted_cover.attributes.get("assumed_state")
# mock incoming down command event for newkaku_device_4
event_callback({"id": "newkaku_device_4", "command": "down"})
await hass.async_block_till_done()
inverted_cover = hass.states.get(f"{DOMAIN}.newkaku_type_standard")
assert inverted_cover.state == STATE_CLOSED
assert inverted_cover.attributes.get("assumed_state")
# mock incoming down command event for newkaku_device_5
event_callback({"id": "newkaku_device_5", "command": "down"})
await hass.async_block_till_done()
inverted_cover = hass.states.get(f"{DOMAIN}.newkaku_type_none")
assert inverted_cover.state == STATE_CLOSED
assert inverted_cover.attributes.get("assumed_state")
# mock incoming down command event for newkaku_device_6
event_callback({"id": "newkaku_device_6", "command": "down"})
await hass.async_block_till_done()
inverted_cover = hass.states.get(f"{DOMAIN}.newkaku_type_inverted")
assert inverted_cover.state == STATE_CLOSED
assert inverted_cover.attributes.get("assumed_state")
# We are only testing the 'inverted' devices, the 'standard' devices
# are already covered by other test cases.
# should respond to group command
event_callback({"id": "nonkaku_device_3", "command": "alloff"})
await hass.async_block_till_done()
inverted_cover = hass.states.get(f"{DOMAIN}.nonkaku_type_inverted")
assert inverted_cover.state == STATE_CLOSED
# should respond to group command
event_callback({"id": "nonkaku_device_3", "command": "allon"})
await hass.async_block_till_done()
inverted_cover = hass.states.get(f"{DOMAIN}.nonkaku_type_inverted")
assert inverted_cover.state == STATE_OPEN
# should respond to group command
event_callback({"id": "newkaku_device_4", "command": "alloff"})
await hass.async_block_till_done()
inverted_cover = hass.states.get(f"{DOMAIN}.newkaku_type_standard")
assert inverted_cover.state == STATE_CLOSED
# should respond to group command
event_callback({"id": "newkaku_device_4", "command": "allon"})
await hass.async_block_till_done()
inverted_cover = hass.states.get(f"{DOMAIN}.newkaku_type_standard")
assert inverted_cover.state == STATE_OPEN
# should respond to group command
event_callback({"id": "newkaku_device_5", "command": "alloff"})
await hass.async_block_till_done()
inverted_cover = hass.states.get(f"{DOMAIN}.newkaku_type_none")
assert inverted_cover.state == STATE_CLOSED
# should respond to group command
event_callback({"id": "newkaku_device_5", "command": "allon"})
await hass.async_block_till_done()
inverted_cover = hass.states.get(f"{DOMAIN}.newkaku_type_none")
assert inverted_cover.state == STATE_OPEN
# should respond to group command
event_callback({"id": "newkaku_device_6", "command": "alloff"})
await hass.async_block_till_done()
inverted_cover = hass.states.get(f"{DOMAIN}.newkaku_type_inverted")
assert inverted_cover.state == STATE_CLOSED
# should respond to group command
event_callback({"id": "newkaku_device_6", "command": "allon"})
await hass.async_block_till_done()
inverted_cover = hass.states.get(f"{DOMAIN}.newkaku_type_inverted")
assert inverted_cover.state == STATE_OPEN
# Sending the close command from HA should result
# in an 'DOWN' command sent to a non-newkaku device
# that has its type set to 'standard'.
await hass.services.async_call(
DOMAIN,
SERVICE_CLOSE_COVER,
{ATTR_ENTITY_ID: f"{DOMAIN}.nonkaku_type_standard"},
)
await hass.async_block_till_done()
assert hass.states.get(f"{DOMAIN}.nonkaku_type_standard").state == STATE_CLOSED
assert protocol.send_command_ack.call_args_list[0][0][0] == "nonkaku_device_1"
assert protocol.send_command_ack.call_args_list[0][0][1] == "DOWN"
# Sending the open command from HA should result
# in an 'UP' command sent to a non-newkaku device
# that has its type set to 'standard'.
await hass.services.async_call(
DOMAIN,
SERVICE_OPEN_COVER,
{ATTR_ENTITY_ID: f"{DOMAIN}.nonkaku_type_standard"},
)
await hass.async_block_till_done()
assert hass.states.get(f"{DOMAIN}.nonkaku_type_standard").state == STATE_OPEN
assert protocol.send_command_ack.call_args_list[1][0][0] == "nonkaku_device_1"
assert protocol.send_command_ack.call_args_list[1][0][1] == "UP"
# Sending the close command from HA should result
# in an 'DOWN' command sent to a non-newkaku device
# that has its type not specified.
await hass.services.async_call(
DOMAIN, SERVICE_CLOSE_COVER, {ATTR_ENTITY_ID: f"{DOMAIN}.nonkaku_type_none"}
)
await hass.async_block_till_done()
assert hass.states.get(f"{DOMAIN}.nonkaku_type_none").state == STATE_CLOSED
assert protocol.send_command_ack.call_args_list[2][0][0] == "nonkaku_device_2"
assert protocol.send_command_ack.call_args_list[2][0][1] == "DOWN"
# Sending the open command from HA should result
# in an 'UP' command sent to a non-newkaku device
# that has its type not specified.
await hass.services.async_call(
DOMAIN, SERVICE_OPEN_COVER, {ATTR_ENTITY_ID: f"{DOMAIN}.nonkaku_type_none"}
)
await hass.async_block_till_done()
assert hass.states.get(f"{DOMAIN}.nonkaku_type_none").state == STATE_OPEN
assert protocol.send_command_ack.call_args_list[3][0][0] == "nonkaku_device_2"
assert protocol.send_command_ack.call_args_list[3][0][1] == "UP"
# Sending the close command from HA should result
# in an 'UP' command sent to a non-newkaku device
# that has its type set to 'inverted'.
await hass.services.async_call(
DOMAIN,
SERVICE_CLOSE_COVER,
{ATTR_ENTITY_ID: f"{DOMAIN}.nonkaku_type_inverted"},
)
await hass.async_block_till_done()
assert hass.states.get(f"{DOMAIN}.nonkaku_type_inverted").state == STATE_CLOSED
assert protocol.send_command_ack.call_args_list[4][0][0] == "nonkaku_device_3"
assert protocol.send_command_ack.call_args_list[4][0][1] == "UP"
# Sending the open command from HA should result
# in an 'DOWN' command sent to a non-newkaku device
# that has its type set to 'inverted'.
await hass.services.async_call(
DOMAIN,
SERVICE_OPEN_COVER,
{ATTR_ENTITY_ID: f"{DOMAIN}.nonkaku_type_inverted"},
)
await hass.async_block_till_done()
assert hass.states.get(f"{DOMAIN}.nonkaku_type_inverted").state == STATE_OPEN
assert protocol.send_command_ack.call_args_list[5][0][0] == "nonkaku_device_3"
assert protocol.send_command_ack.call_args_list[5][0][1] == "DOWN"
# Sending the close command from HA should result
# in an 'DOWN' command sent to a newkaku device
# that has its type set to 'standard'.
await hass.services.async_call(
DOMAIN,
SERVICE_CLOSE_COVER,
{ATTR_ENTITY_ID: f"{DOMAIN}.newkaku_type_standard"},
)
await hass.async_block_till_done()
assert hass.states.get(f"{DOMAIN}.newkaku_type_standard").state == STATE_CLOSED
assert protocol.send_command_ack.call_args_list[6][0][0] == "newkaku_device_4"
assert protocol.send_command_ack.call_args_list[6][0][1] == "DOWN"
# Sending the open command from HA should result
# in an 'UP' command sent to a newkaku device
# that has its type set to 'standard'.
await hass.services.async_call(
DOMAIN,
SERVICE_OPEN_COVER,
{ATTR_ENTITY_ID: f"{DOMAIN}.newkaku_type_standard"},
)
await hass.async_block_till_done()
assert hass.states.get(f"{DOMAIN}.newkaku_type_standard").state == STATE_OPEN
assert protocol.send_command_ack.call_args_list[7][0][0] == "newkaku_device_4"
assert protocol.send_command_ack.call_args_list[7][0][1] == "UP"
# Sending the close command from HA should result
# in an 'UP' command sent to a newkaku device
# that has its type not specified.
await hass.services.async_call(
DOMAIN, SERVICE_CLOSE_COVER, {ATTR_ENTITY_ID: f"{DOMAIN}.newkaku_type_none"}
)
await hass.async_block_till_done()
assert hass.states.get(f"{DOMAIN}.newkaku_type_none").state == STATE_CLOSED
assert protocol.send_command_ack.call_args_list[8][0][0] == "newkaku_device_5"
assert protocol.send_command_ack.call_args_list[8][0][1] == "UP"
# Sending the open command from HA should result
# in an 'DOWN' command sent to a newkaku device
# that has its type not specified.
await hass.services.async_call(
DOMAIN, SERVICE_OPEN_COVER, {ATTR_ENTITY_ID: f"{DOMAIN}.newkaku_type_none"}
)
await hass.async_block_till_done()
assert hass.states.get(f"{DOMAIN}.newkaku_type_none").state == STATE_OPEN
assert protocol.send_command_ack.call_args_list[9][0][0] == "newkaku_device_5"
assert protocol.send_command_ack.call_args_list[9][0][1] == "DOWN"
# Sending the close command from HA should result
# in an 'UP' command sent to a newkaku device
# that has its type set to 'inverted'.
await hass.services.async_call(
DOMAIN,
SERVICE_CLOSE_COVER,
{ATTR_ENTITY_ID: f"{DOMAIN}.newkaku_type_inverted"},
)
await hass.async_block_till_done()
assert hass.states.get(f"{DOMAIN}.newkaku_type_inverted").state == STATE_CLOSED
assert protocol.send_command_ack.call_args_list[10][0][0] == "newkaku_device_6"
assert protocol.send_command_ack.call_args_list[10][0][1] == "UP"
# Sending the open command from HA should result
# in an 'DOWN' command sent to a newkaku device
# that has its type set to 'inverted'.
await hass.services.async_call(
DOMAIN,
SERVICE_OPEN_COVER,
{ATTR_ENTITY_ID: f"{DOMAIN}.newkaku_type_inverted"},
)
await hass.async_block_till_done()
assert hass.states.get(f"{DOMAIN}.newkaku_type_inverted").state == STATE_OPEN
assert protocol.send_command_ack.call_args_list[11][0][0] == "newkaku_device_6"
assert protocol.send_command_ack.call_args_list[11][0][1] == "DOWN"