from __future__ import absolute_import from __future__ import unicode_literals from unittest import TestCase, skip, skipIf from voluptuous import Schema, Invalid, All, Range from functools import partial import datetime import re from pyHS100 import SmartPlug, SmartPlugException PLUG_IP = '192.168.250.186' SKIP_STATE_TESTS = True # python2 compatibility try: basestring except NameError: basestring = str def check_int_bool(x): if x != 0 and x != 1: raise Invalid(x) return x def check_mac(x): if re.match("[0-9a-f]{2}([-:])[0-9a-f]{2}(\\1[0-9a-f]{2}){4}$", x.lower()): return x raise Invalid(x) def check_mode(x): if x in ['schedule']: return x raise Invalid("invalid mode {}".format(x)) class TestSmartPlug(TestCase): sysinfo_schema = Schema({ 'active_mode': check_mode, 'alias': basestring, 'dev_name': basestring, 'deviceId': basestring, 'feature': basestring, 'fwId': basestring, 'hwId': basestring, 'hw_ver': basestring, 'icon_hash': basestring, 'latitude': All(float, Range(min=-90, max=90)), 'led_off': check_int_bool, 'longitude': All(float, Range(min=-180, max=180)), 'mac': check_mac, 'model': basestring, 'oemId': basestring, 'on_time': int, 'relay_state': int, 'rssi': All(int, Range(max=0)), 'sw_ver': basestring, 'type': basestring, 'updating': check_int_bool, }) current_consumption_schema = Schema({ 'voltage': All(float, Range(min=0, max=300)), 'power': All(float, Range(min=0)), 'total': All(float, Range(min=0)), 'current': All(float, Range(min=0)), }) tz_schema = Schema({ 'zone_str': basestring, 'dst_offset': int, 'index': All(int, Range(min=0)), 'tz_str': basestring, }) def setUp(self): self.plug = SmartPlug(PLUG_IP) def tearDown(self): self.plug = None def test_initialize(self): self.assertIsNotNone(self.plug.sys_info) self.sysinfo_schema(self.plug.sys_info) def test_initialize_invalid_connection(self): plug = SmartPlug('127.0.0.1') with self.assertRaises(SmartPlugException): plug.sys_info['model'] def test_query_helper(self): with self.assertRaises(SmartPlugException): self.plug._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.plug.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.plug.state if orig_state == SmartPlug.SWITCH_STATE_OFF: self.plug.state = "ON" self.assertTrue(self.plug.state == SmartPlug.SWITCH_STATE_ON) self.plug.state = "OFF" self.assertTrue(self.plug.state == SmartPlug.SWITCH_STATE_OFF) elif orig_state == SmartPlug.SWITCH_STATE_ON: self.plug.state = "OFF" self.assertTrue(self.plug.state == SmartPlug.SWITCH_STATE_OFF) self.plug.state = "ON" self.assertTrue(self.plug.state == SmartPlug.SWITCH_STATE_ON) elif orig_state == SmartPlug.SWITCH_STATE_UNKNOWN: self.fail("can't test for unknown state") def test_get_sysinfo(self): # initialize checks for this already, but just to be sure self.sysinfo_schema(self.plug.get_sysinfo()) @skipIf(SKIP_STATE_TESTS, "SKIP_STATE_TESTS is True, skipping") def test_turns_and_isses(self): orig_state = self.plug.is_on if orig_state: self.plug.turn_off() self.assertFalse(self.plug.is_on) self.assertTrue(self.plug.is_off) self.plug.turn_on() self.assertTrue(self.plug.is_on) else: self.plug.turn_on() self.assertFalse(self.plug.is_off) self.assertTrue(self.plug.is_on) self.plug.turn_off() self.assertTrue(self.plug.is_off) def test_has_emeter(self): # a not so nice way for checking for emeter availability.. if "110" in self.plug.sys_info["model"]: self.assertTrue(self.plug.has_emeter) else: self.assertFalse(self.plug.has_emeter) def test_get_emeter_realtime(self): self.current_consumption_schema((self.plug.get_emeter_realtime())) def test_get_emeter_daily(self): self.assertEqual(self.plug.get_emeter_daily(year=1900, month=1), {}) k, v = self.plug.get_emeter_daily().popitem() self.assertTrue(isinstance(k, int)) self.assertTrue(isinstance(v, float)) def test_get_emeter_monthly(self): self.assertEqual(self.plug.get_emeter_monthly(year=1900), {}) d = self.plug.get_emeter_monthly() 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.plug.current_consumption() self.assertTrue(isinstance(x, float)) self.assertTrue(x >= 0.0) def test_identify(self): ident = self.plug.identify() self.assertTrue(isinstance(ident, tuple)) self.assertTrue(len(ident) == 3) def test_alias(self): test_alias = "TEST1234" original = self.plug.alias self.assertTrue(isinstance(original, basestring)) self.plug.alias = test_alias self.assertEqual(self.plug.alias, test_alias) self.plug.alias = original self.assertEqual(self.plug.alias, original) def test_led(self): original = self.plug.led self.plug.led = False self.assertFalse(self.plug.led) self.plug.led = True self.assertTrue(self.plug.led) self.plug.led = original def test_icon(self): self.assertEqual(set(self.plug.icon.keys()), {'icon', 'hash'}) def test_time(self): self.assertTrue(isinstance(self.plug.time, datetime.datetime)) # TODO check setting? def test_timezone(self): self.tz_schema(self.plug.timezone) def test_hw_info(self): self.sysinfo_schema(self.plug.hw_info) def test_on_since(self): self.assertTrue(isinstance(self.plug.on_since, datetime.datetime)) def test_location(self): self.sysinfo_schema(self.plug.location) def test_rssi(self): self.sysinfo_schema({'rssi': self.plug.rssi}) # wrapping for vol def test_mac(self): self.sysinfo_schema({'mac': self.plug.mac}) # wrapping for val # TODO check setting?