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python-kasa/kasa/tests/test_fixtures.py
Teemu R 3ef5086ffb mass rename to (python-)kasa (#1)
2019-12-18 09:11:18 +01:00

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import asyncio
import datetime
from unittest.mock import patch
import pytest
from kasa import DeviceType, SmartDeviceException, SmartStrip
from .conftest import (
bulb,
color_bulb,
dimmable,
handle_turn_on,
has_emeter,
no_emeter,
non_color_bulb,
non_dimmable,
non_variable_temp,
plug,
strip,
turn_on,
variable_temp,
)
from .newfakes import (
BULB_SCHEMA,
CURRENT_CONSUMPTION_SCHEMA,
PLUG_SCHEMA,
TZ_SCHEMA,
FakeTransportProtocol,
)
@plug
def test_plug_sysinfo(dev):
dev.sync.update()
assert dev.sys_info is not None
PLUG_SCHEMA(dev.sys_info)
assert dev.model is not None
assert dev.device_type == DeviceType.Plug or dev.device_type == DeviceType.Strip
assert dev.is_plug or dev.is_strip
@bulb
def test_bulb_sysinfo(dev):
dev.sync.update()
assert dev.sys_info is not None
BULB_SCHEMA(dev.sys_info)
assert dev.model is not None
assert dev.device_type == DeviceType.Bulb
assert dev.is_bulb
def test_state_info(dev):
dev.sync.update()
assert isinstance(dev.sync.state_information, dict)
def test_invalid_connection(dev):
with patch.object(FakeTransportProtocol, "query", side_effect=SmartDeviceException):
with pytest.raises(SmartDeviceException):
dev.sync.update()
dev.is_on
def test_query_helper(dev):
with pytest.raises(SmartDeviceException):
dev.sync._query_helper("test", "testcmd", {})
# TODO check for unwrapping?
@turn_on
def test_state(dev, turn_on):
handle_turn_on(dev, turn_on)
dev.sync.update()
orig_state = dev.is_on
if orig_state:
dev.sync.turn_off()
assert not dev.is_on
assert dev.is_off
dev.sync.turn_on()
assert dev.is_on
assert not dev.is_off
else:
dev.sync.turn_on()
assert dev.is_on
assert not dev.is_off
dev.sync.turn_off()
assert not dev.is_on
assert dev.is_off
@no_emeter
def test_no_emeter(dev):
dev.sync.update()
assert not dev.has_emeter
with pytest.raises(SmartDeviceException):
dev.sync.get_emeter_realtime()
with pytest.raises(SmartDeviceException):
dev.sync.get_emeter_daily()
with pytest.raises(SmartDeviceException):
dev.sync.get_emeter_monthly()
with pytest.raises(SmartDeviceException):
dev.sync.erase_emeter_stats()
@has_emeter
def test_get_emeter_realtime(dev):
dev.sync.update()
if dev.is_strip:
pytest.skip("Disabled for HS300 temporarily")
assert dev.has_emeter
current_emeter = dev.sync.get_emeter_realtime()
CURRENT_CONSUMPTION_SCHEMA(current_emeter)
@has_emeter
def test_get_emeter_daily(dev):
dev.sync.update()
if dev.is_strip:
pytest.skip("Disabled for HS300 temporarily")
assert dev.has_emeter
assert dev.sync.get_emeter_daily(year=1900, month=1) == {}
d = dev.sync.get_emeter_daily()
assert len(d) > 0
k, v = d.popitem()
assert isinstance(k, int)
assert isinstance(v, float)
# Test kwh (energy, energy_wh)
d = dev.sync.get_emeter_daily(kwh=False)
k2, v2 = d.popitem()
assert v * 1000 == v2
@has_emeter
def test_get_emeter_monthly(dev):
dev.sync.update()
if dev.is_strip:
pytest.skip("Disabled for HS300 temporarily")
assert dev.has_emeter
assert dev.sync.get_emeter_monthly(year=1900) == {}
d = dev.sync.get_emeter_monthly()
assert len(d) > 0
k, v = d.popitem()
assert isinstance(k, int)
assert isinstance(v, float)
# Test kwh (energy, energy_wh)
d = dev.sync.get_emeter_monthly(kwh=False)
k2, v2 = d.popitem()
assert v * 1000 == v2
@has_emeter
def test_emeter_status(dev):
dev.sync.update()
if dev.is_strip:
pytest.skip("Disabled for HS300 temporarily")
assert dev.has_emeter
d = dev.sync.get_emeter_realtime()
with pytest.raises(KeyError):
assert d["foo"]
assert d["power_mw"] == d["power"] * 1000
# bulbs have only power according to tplink simulator.
if not dev.is_bulb:
assert d["voltage_mv"] == d["voltage"] * 1000
assert d["current_ma"] == d["current"] * 1000
assert d["total_wh"] == d["total"] * 1000
@pytest.mark.skip("not clearing your stats..")
@has_emeter
def test_erase_emeter_stats(dev):
dev.sync.update()
assert dev.has_emeter
dev.sync.erase_emeter()
@has_emeter
def test_current_consumption(dev):
dev.sync.update()
if dev.is_strip:
pytest.skip("Disabled for HS300 temporarily")
if dev.has_emeter:
x = dev.sync.current_consumption()
assert isinstance(x, float)
assert x >= 0.0
else:
assert dev.sync.current_consumption() is None
def test_alias(dev):
dev.sync.update()
test_alias = "TEST1234"
original = dev.sync.alias
assert isinstance(original, str)
dev.sync.set_alias(test_alias)
assert dev.sync.alias == test_alias
dev.sync.set_alias(original)
assert dev.sync.alias == original
@plug
def test_led(dev):
dev.sync.update()
original = dev.led
dev.sync.set_led(False)
assert not dev.led
dev.sync.set_led(True)
assert dev.led
dev.sync.set_led(original)
@plug
def test_on_since(dev):
dev.sync.update()
assert isinstance(dev.on_since, datetime.datetime)
def test_icon(dev):
assert set(dev.sync.get_icon().keys()), {"icon", "hash"}
def test_time(dev):
assert isinstance(dev.sync.get_time(), datetime.datetime)
# TODO check setting?
def test_timezone(dev):
TZ_SCHEMA(dev.sync.get_timezone())
def test_hw_info(dev):
dev.sync.update()
PLUG_SCHEMA(dev.hw_info)
def test_location(dev):
dev.sync.update()
PLUG_SCHEMA(dev.location)
def test_rssi(dev):
dev.sync.update()
PLUG_SCHEMA({"rssi": dev.rssi}) # wrapping for vol
def test_mac(dev):
dev.sync.update()
PLUG_SCHEMA({"mac": dev.mac}) # wrapping for val
# TODO check setting?
@non_variable_temp
def test_temperature_on_nonsupporting(dev):
dev.sync.update()
assert dev.valid_temperature_range == (0, 0)
# TODO test when device does not support temperature range
with pytest.raises(SmartDeviceException):
dev.sync.set_color_temp(2700)
with pytest.raises(SmartDeviceException):
print(dev.sync.color_temp)
@variable_temp
def test_out_of_range_temperature(dev):
dev.sync.update()
with pytest.raises(ValueError):
dev.sync.set_color_temp(1000)
with pytest.raises(ValueError):
dev.sync.set_color_temp(10000)
@non_dimmable
def test_non_dimmable(dev):
dev.sync.update()
assert not dev.is_dimmable
with pytest.raises(SmartDeviceException):
assert dev.brightness == 0
with pytest.raises(SmartDeviceException):
dev.sync.set_brightness(100)
@dimmable
@turn_on
def test_dimmable_brightness(dev, turn_on):
handle_turn_on(dev, turn_on)
dev.sync.update()
assert dev.is_dimmable
dev.sync.set_brightness(50)
assert dev.brightness == 50
dev.sync.set_brightness(10)
assert dev.brightness == 10
with pytest.raises(ValueError):
dev.sync.set_brightness("foo")
@dimmable
def test_invalid_brightness(dev):
dev.sync.update()
assert dev.is_dimmable
with pytest.raises(ValueError):
dev.sync.set_brightness(110)
with pytest.raises(ValueError):
dev.sync.set_brightness(-100)
@color_bulb
@turn_on
def test_hsv(dev, turn_on):
handle_turn_on(dev, turn_on)
dev.sync.update()
assert dev.is_color
hue, saturation, brightness = dev.hsv
assert 0 <= hue <= 255
assert 0 <= saturation <= 100
assert 0 <= brightness <= 100
dev.sync.set_hsv(hue=1, saturation=1, value=1)
hue, saturation, brightness = dev.hsv
assert hue == 1
assert saturation == 1
assert brightness == 1
@color_bulb
@turn_on
def test_invalid_hsv(dev, turn_on):
handle_turn_on(dev, turn_on)
dev.sync.update()
assert dev.is_color
for invalid_hue in [-1, 361, 0.5]:
with pytest.raises(ValueError):
dev.sync.set_hsv(invalid_hue, 0, 0)
for invalid_saturation in [-1, 101, 0.5]:
with pytest.raises(ValueError):
dev.sync.set_hsv(0, invalid_saturation, 0)
for invalid_brightness in [-1, 101, 0.5]:
with pytest.raises(ValueError):
dev.sync.set_hsv(0, 0, invalid_brightness)
@non_color_bulb
def test_hsv_on_non_color(dev):
dev.sync.update()
assert not dev.is_color
with pytest.raises(SmartDeviceException):
dev.sync.set_hsv(0, 0, 0)
with pytest.raises(SmartDeviceException):
print(dev.hsv)
@variable_temp
@turn_on
def test_try_set_colortemp(dev, turn_on):
dev.sync.update()
handle_turn_on(dev, turn_on)
dev.sync.set_color_temp(2700)
assert dev.sync.color_temp == 2700
@non_variable_temp
def test_non_variable_temp(dev):
with pytest.raises(SmartDeviceException):
dev.sync.update()
dev.sync.set_color_temp(2700)
@strip
@turn_on
def test_children_change_state(dev, turn_on):
dev.sync.update()
handle_turn_on(dev, turn_on)
for plug in dev.plugs:
plug.sync.update()
orig_state = plug.is_on
if orig_state:
plug.turn_off()
plug.sync.update()
assert not plug.is_on
assert plug.is_off
plug.sync.turn_on()
plug.sync.update()
assert plug.is_on
assert not plug.is_off
else:
plug.sync.turn_on()
plug.sync.update()
assert plug.is_on
assert not plug.is_off
plug.sync.turn_off()
plug.sync.update()
assert not plug.is_on
assert plug.is_off
@strip
def test_children_alias(dev):
test_alias = "TEST1234"
for plug in dev.plugs:
plug.sync.update()
original = plug.alias
plug.sync.set_alias(alias=test_alias)
plug.sync.update()
assert plug.alias == test_alias
plug.sync.set_alias(alias=original)
plug.sync.update()
assert plug.alias == original
@strip
def test_children_on_since(dev):
for plug in dev.plugs:
plug.sync.update()
assert plug.on_since
@pytest.mark.skip("this test will wear out your relays")
def test_all_binary_states(dev):
# test every binary state
for state in range(2 ** dev.num_children):
# create binary state map
state_map = {}
for plug_index in range(dev.num_children):
state_map[plug_index] = bool((state >> plug_index) & 1)
if state_map[plug_index]:
dev.sync.turn_on(index=plug_index)
else:
dev.sync.turn_off(index=plug_index)
# check state map applied
for index, state in dev.is_on.items():
assert state_map[index] == state
# toggle each outlet with state map applied
for plug_index in range(dev.num_children):
# toggle state
if state_map[plug_index]:
dev.sync.turn_off(index=plug_index)
else:
dev.sync.turn_on(index=plug_index)
# only target outlet should have state changed
for index, state in dev.is_on.items():
if index == plug_index:
assert state != state_map[index]
else:
assert state == state_map[index]
# reset state
if state_map[plug_index]:
dev.sync.turn_on(index=plug_index)
else:
dev.sync.turn_off(index=plug_index)
# original state map should be restored
for index, state in dev.is_on.items():
assert state == state_map[index]
@strip
def test_children_get_emeter_realtime(dev):
dev.sync.update()
assert dev.has_emeter
# test with index
for plug in dev.plugs:
plug.sync.update()
emeter = plug.sync.get_emeter_realtime()
CURRENT_CONSUMPTION_SCHEMA(emeter)
# test without index
# TODO test that sum matches the sum of individiaul plugs.
# for index, emeter in dev.sync.get_emeter_realtime().items():
# CURRENT_CONSUMPTION_SCHEMA(emeter)
@strip
def test_children_get_emeter_daily(dev):
dev.sync.update()
assert dev.has_emeter
# test individual emeters
for plug in dev.plugs:
plug.sync.update()
emeter = plug.sync.get_emeter_daily(year=1900, month=1)
assert emeter == {}
emeter = plug.sync.get_emeter_daily()
assert len(emeter) > 0
k, v = emeter.popitem()
assert isinstance(k, int)
assert isinstance(v, float)
# test sum of emeters
all_emeter = dev.sync.get_emeter_daily(year=1900, month=1)
k, v = all_emeter.popitem()
assert isinstance(k, int)
assert isinstance(v, float)
@strip
def test_children_get_emeter_monthly(dev):
dev.sync.update()
assert dev.has_emeter
# test individual emeters
for plug in dev.plugs:
plug.sync.update()
emeter = plug.sync.get_emeter_monthly(year=1900)
assert emeter == {}
emeter = plug.sync.get_emeter_monthly()
assert len(emeter) > 0
k, v = emeter.popitem()
assert isinstance(k, int)
assert isinstance(v, float)
# test sum of emeters
all_emeter = dev.sync.get_emeter_monthly(year=1900)
k, v = all_emeter.popitem()
assert isinstance(k, int)
assert isinstance(v, float)
# def test_cache(dev):
# from datetime import timedelta
# dev.sync.cache_ttl = timedelta(seconds=3)
# with patch.object(
# FakeTransportProtocol, "query", wraps=dev.protocol.query
# ) as query_mock:
# CHECK_COUNT = 1
# # Smartstrip calls sysinfo in its __init__ to request children, so
# # the even first get call here will get its results from the cache.
# if dev.is_strip:
# CHECK_COUNT = 0
# dev.sys_info
# assert query_mock.call_count == CHECK_COUNT
# dev.sys_info
# assert query_mock.call_count == CHECK_COUNT
# def test_cache_invalidates(dev):
# from datetime import timedelta
# dev.sync.cache_ttl = timedelta(seconds=0)
# with patch.object(
# FakeTransportProtocol, "query", wraps=dev.protocol.query
# ) as query_mock:
# dev.sys_info
# assert query_mock.call_count == 1
# dev.sys_info
# assert query_mock.call_count == 2
# # assert query_mock.called_once()
def test_representation(dev):
import re
pattern = re.compile("<.* model .* at .* (.*), is_on: .* - dev specific: .*>")
assert pattern.match(str(dev))
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