python-kasa/pyHS100/tests/test_bulb.py
Annika Jacobs 4cb28a3b25 Updated valid range to 360 (with passing tests) (#153)
* Updated valid range to 360

with it set to 359 it will not show the color red. Just tested this with a buddies bulb - same model/fw
https://imgur.com/a/kSNZIuL

* Updated valid range to 360

with it set to 359 it will not show the color red. Just tested this with a buddies bulb - same model/fw
https://imgur.com/a/kSNZIuL

* Update valid range to 360

* Fix tests
2019-01-16 21:50:48 +01:00

239 lines
8.0 KiB
Python

from unittest import TestCase, skip, skipIf
from voluptuous import Schema, Invalid, All, Range
from functools import partial
from typing import Any, Dict # noqa: F401
from .. import SmartBulb, SmartDeviceException
from .fakes import (FakeTransportProtocol,
sysinfo_lb100, sysinfo_lb110,
sysinfo_lb120, sysinfo_lb130)
BULB_IP = '192.168.250.186'
SKIP_STATE_TESTS = False
def check_int_bool(x):
if x != 0 and x != 1:
raise Invalid(x)
return x
def check_mode(x):
if x in ['schedule', 'none']:
return x
raise Invalid("invalid mode {}".format(x))
class TestSmartBulb(TestCase):
SYSINFO = sysinfo_lb130 # type: Dict[str, Any]
# these schemas should go to the mainlib as
# they can be useful when adding support for new features/devices
# as well as to check that faked devices are operating properly.
sysinfo_schema = Schema({
'active_mode': check_mode,
'alias': str,
'ctrl_protocols': {
'name': str,
'version': str,
},
'description': str,
'dev_state': str,
'deviceId': str,
'disco_ver': str,
'heapsize': int,
'hwId': str,
'hw_ver': str,
'is_color': check_int_bool,
'is_dimmable': check_int_bool,
'is_factory': bool,
'is_variable_color_temp': check_int_bool,
'light_state': {
'brightness': All(int, Range(min=0, max=100)),
'color_temp': int,
'hue': All(int, Range(min=0, max=360)),
'mode': str,
'on_off': check_int_bool,
'saturation': All(int, Range(min=0, max=255)),
},
'mic_mac': str,
'mic_type': str,
'model': str,
'oemId': str,
'preferred_state': [{
'brightness': All(int, Range(min=0, max=100)),
'color_temp': int,
'hue': All(int, Range(min=0, max=360)),
'index': int,
'saturation': All(int, Range(min=0, max=255)),
}],
'rssi': All(int, Range(max=0)),
'sw_ver': str,
})
current_consumption_schema = Schema({
'power_mw': int,
})
tz_schema = Schema({
'zone_str': str,
'dst_offset': int,
'index': All(int, Range(min=0)),
'tz_str': str,
})
def setUp(self):
self.bulb = SmartBulb(BULB_IP,
protocol=FakeTransportProtocol(self.SYSINFO))
def tearDown(self):
self.bulb = None
def test_initialize(self):
self.assertIsNotNone(self.bulb.sys_info)
self.sysinfo_schema(self.bulb.sys_info)
def test_initialize_invalid_connection(self):
bulb = SmartBulb('127.0.0.1',
protocol=FakeTransportProtocol(self.SYSINFO,
invalid=True))
with self.assertRaises(SmartDeviceException):
bulb.sys_info['model']
def test_query_helper(self):
with self.assertRaises(SmartDeviceException):
self.bulb._query_helper("test", "testcmd", {})
# TODO check for unwrapping?
@skipIf(SKIP_STATE_TESTS, "SKIP_STATE_TESTS is True, skipping")
def test_state(self):
def set_invalid(x):
self.bulb.state = x
set_invalid_int = partial(set_invalid, 1234)
self.assertRaises(ValueError, set_invalid_int)
set_invalid_str = partial(set_invalid, "1234")
self.assertRaises(ValueError, set_invalid_str)
set_invalid_bool = partial(set_invalid, True)
self.assertRaises(ValueError, set_invalid_bool)
orig_state = self.bulb.state
if orig_state == SmartBulb.BULB_STATE_OFF:
self.bulb.state = SmartBulb.BULB_STATE_ON
self.assertTrue(self.bulb.state == SmartBulb.BULB_STATE_ON)
self.bulb.state = SmartBulb.BULB_STATE_OFF
self.assertTrue(self.bulb.state == SmartBulb.BULB_STATE_OFF)
elif orig_state == SmartBulb.BULB_STATE_ON:
self.bulb.state = SmartBulb.BULB_STATE_OFF
self.assertTrue(self.bulb.state == SmartBulb.BULB_STATE_OFF)
self.bulb.state = SmartBulb.BULB_STATE_ON
self.assertTrue(self.bulb.state == SmartBulb.BULB_STATE_ON)
def test_get_sysinfo(self):
# initialize checks for this already, but just to be sure
self.sysinfo_schema(self.bulb.get_sysinfo())
@skipIf(SKIP_STATE_TESTS, "SKIP_STATE_TESTS is True, skipping")
def test_turns_and_isses(self):
orig_state = self.bulb.state
if orig_state == SmartBulb.BULB_STATE_ON:
self.bulb.state = SmartBulb.BULB_STATE_OFF
self.assertTrue(self.bulb.state == SmartBulb.BULB_STATE_OFF)
self.bulb.state = SmartBulb.BULB_STATE_ON
self.assertTrue(self.bulb.state == SmartBulb.BULB_STATE_ON)
else:
self.bulb.state = SmartBulb.BULB_STATE_ON
self.assertTrue(self.bulb.state == SmartBulb.BULB_STATE_ON)
self.bulb.state = SmartBulb.BULB_STATE_OFF
self.assertTrue(self.bulb.state == SmartBulb.BULB_STATE_OFF)
def test_get_emeter_realtime(self):
self.current_consumption_schema((self.bulb.get_emeter_realtime()))
def test_get_emeter_daily(self):
self.assertEqual(self.bulb.get_emeter_daily(year=1900, month=1), {})
k, v = self.bulb.get_emeter_daily(kwh=False).popitem()
self.assertTrue(isinstance(k, int))
self.assertTrue(isinstance(v, int))
k, v = self.bulb.get_emeter_daily(kwh=True).popitem()
self.assertTrue(isinstance(k, int))
self.assertTrue(isinstance(v, float))
def test_get_emeter_monthly(self):
self.assertEqual(self.bulb.get_emeter_monthly(year=1900), {})
d = self.bulb.get_emeter_monthly(kwh=False)
k, v = d.popitem()
self.assertTrue(isinstance(k, int))
self.assertTrue(isinstance(v, int))
d = self.bulb.get_emeter_monthly(kwh=True)
k, v = d.popitem()
self.assertTrue(isinstance(k, int))
self.assertTrue(isinstance(v, float))
@skip("not clearing your stats..")
def test_erase_emeter_stats(self):
self.fail()
def test_current_consumption(self):
x = self.bulb.current_consumption()
self.assertTrue(isinstance(x, float))
self.assertTrue(x >= 0.0)
def test_alias(self):
test_alias = "TEST1234"
original = self.bulb.alias
self.assertTrue(isinstance(original, str))
self.bulb.alias = test_alias
self.assertEqual(self.bulb.alias, test_alias)
self.bulb.alias = original
self.assertEqual(self.bulb.alias, original)
def test_icon(self):
self.assertEqual(set(self.bulb.icon.keys()), {'icon', 'hash'})
def test_rssi(self):
self.sysinfo_schema({'rssi': self.bulb.rssi}) # wrapping for vol
def test_temperature_range(self):
self.assertEqual(self.bulb.valid_temperature_range, (2500, 9000))
with self.assertRaises(ValueError):
self.bulb.color_temp = 1000
with self.assertRaises(ValueError):
self.bulb.color_temp = 10000
def test_hsv(self):
hue, saturation, brightness = self.bulb.hsv
self.assertTrue(0 <= hue <= 360)
self.assertTrue(0 <= saturation <= 100)
self.assertTrue(0 <= brightness <= 100)
for invalid_hue in [-1, 361, 0.5]:
with self.assertRaises(SmartDeviceException):
self.bulb.hsv = (invalid_hue, 0, 0)
for invalid_saturation in [-1, 101, 0.5]:
with self.assertRaises(SmartDeviceException):
self.bulb.hsv = (0, invalid_saturation, 0)
for invalid_brightness in [-1, 101, 0.5]:
with self.assertRaises(SmartDeviceException):
self.bulb.hsv = (0, 0, invalid_brightness)
class TestSmartBulbLB100(TestSmartBulb):
SYSINFO = sysinfo_lb100
class TestSmartBulbLB110(TestSmartBulb):
SYSINFO = sysinfo_lb110
class TestSmartBulbLB120(TestSmartBulb):
SYSINFO = sysinfo_lb120