fix some issues with brightness after restart

fix dimmer_scale for PCA9685
fix patt
2025-12-12 01:24:29 +05:00 · 2021-07-29 21:30:41 +03:00 · 2021-07-25 08:36:12 +03:00 · 2021-04-21 10:08:28 +03:00 · 2021-04-20 17:00:31 +03:00 · 2021-04-20 09:23:36 +03:00
22 changed files with 1787 additions and 596 deletions
--- a/.experiment.py
+++ b/.experiment.py
@@ -1,32 +1,15 @@
-import asyncio
+order ='brg'
 rgb = 'rgb'
 map_to_order = [rgb.index(x) for x in order]
 map_from_order = [order.index(x) for x in rgb]
-async def handle_echo(reader: asyncio.StreamReader, writer: asyncio.StreamWriter):
+_rgb = [
-    data = await reader.read(100)
+        rgb[x] for x in map_to_order
-    message = data.decode()
+    ]
-    addr = writer.get_extra_info('peername')
+_order = [
        _rgb[x] for x in map_from_order
    ]
-    print(f"Received {message!r} from {addr!r}")
+print(_rgb, _order)
    print(f"Send: {message!r}")
    ans = '''HTTP/1.1 200 OK\nContent-Length: 6\n\nhello\n'''.encode()
    writer.write(ans)
    await writer.drain()
    print("Close the connection")
    writer.transport.close()
    writer.close()
    await writer.wait_closed()
 async def main():
    server = await asyncio.start_server(
        handle_echo, '127.0.0.1', 8888)
    addr = server.sockets[0].getsockname()
    print(f'Serving on {addr}')
    async with server:
        await server.serve_forever()
 asyncio.run(main())
--- a/.github/ISSUE_TEMPLATE/bug-report.md
+++ b/.github/ISSUE_TEMPLATE/bug-report.md
@@ -24,10 +24,4 @@ megad firmware version:
 If applicable, add screenshots to help explain your problem.
 **LOG**
-Просьба прикладывать детальный лог, который можно включить в конфиге так:
+Просьба прикладывать детальный лог, подробная инструкция как включать отладку по [ссылке](https://github.com/andvikt/mega_hacs/wiki/Отладка)
 ```yaml
 logger:
  default: info
  logs:
    custom_components.mega: debug
 ```
--- a/custom_components/mega/init.py
+++ b/custom_components/mega/init.py
@@ -6,48 +6,111 @@ from functools import partial
 import voluptuous as vol
 from homeassistant.const import (
-    CONF_SCAN_INTERVAL, CONF_ID, CONF_NAME, CONF_DOMAIN,
+    CONF_NAME, CONF_DOMAIN,
-    CONF_UNIT_OF_MEASUREMENT, CONF_HOST
+    CONF_UNIT_OF_MEASUREMENT, CONF_VALUE_TEMPLATE, CONF_DEVICE_CLASS, CONF_PORT
 )
 from homeassistant.core import HomeAssistant, ServiceCall
 from homeassistant.helpers.service import bind_hass
 from homeassistant.helpers.template import Template
 from homeassistant.helpers import config_validation as cv
 from homeassistant.components import mqtt
 from homeassistant.config_entries import ConfigEntry
 from .const import DOMAIN, CONF_INVERT, CONF_RELOAD, PLATFORMS, CONF_PORTS, CONF_CUSTOM, CONF_SKIP, CONF_PORT_TO_SCAN, \
    CONF_MQTT_INPUTS, CONF_HTTP, CONF_RESPONSE_TEMPLATE, CONF_ACTION, CONF_GET_VALUE, CONF_ALLOW_HOSTS, \
-    CONF_CONV_TEMPLATE, CONF_ALL
+    CONF_CONV_TEMPLATE, CONF_ALL, CONF_FORCE_D, CONF_DEF_RESPONSE, CONF_FORCE_I2C_SCAN, CONF_HEX_TO_FLOAT, \
    RGB_COMBINATIONS, CONF_WS28XX, CONF_ORDER, CONF_SMOOTH, CONF_LED, CONF_WHITE_SEP, CONF_CHIP, CONF_RANGE
 from .hub import MegaD
 from .config_flow import ConfigFlow
 from .http import MegaView
 _LOGGER = logging.getLogger(__name__)
 _port_n = vol.Any(int, str)
 LED_LIGHT = \
    {
        str: vol.Any(
            {
                vol.Required(CONF_PORTS): vol.Any(
                    vol.ExactSequence([_port_n, _port_n, _port_n]),
                    vol.ExactSequence([_port_n, _port_n, _port_n, _port_n]),
                    msg='ports must be [R, G, B] or [R, G, B, W] of integers 0..255'
                ),
                vol.Optional(CONF_NAME): str,
                vol.Optional(CONF_WHITE_SEP, default=True): bool,
                vol.Optional(CONF_SMOOTH, default=1): cv.time_period_seconds,
            },
            {
                vol.Required(CONF_PORT): int,
                vol.Required(CONF_WS28XX): True,
                vol.Optional(CONF_CHIP, default=100): int,
                vol.Optional(CONF_ORDER, default='rgb'): vol.Any(*RGB_COMBINATIONS, msg=f'order must be one of {RGB_COMBINATIONS}'),
                vol.Optional(CONF_SMOOTH, default=1): cv.time_period_seconds,
                vol.Optional(CONF_NAME): str,
            },
        )
    }
 CUSTOMIZE_PORT = {
    vol.Optional(CONF_SKIP, description='исключить порт из сканирования', default=False): bool,
    vol.Optional(CONF_INVERT, default=False): bool,
    vol.Optional(CONF_NAME): vol.Any(str, {
        vol.Required(str): str
    }),
    vol.Optional(CONF_DOMAIN): vol.Any('light', 'switch'),
    vol.Optional(CONF_UNIT_OF_MEASUREMENT, description='единицы измерений, либо строка либо мепинг'):
        vol.Any(str, {
            vol.Required(str): str
        }),
    vol.Optional(CONF_DEVICE_CLASS):
        vol.Any(str, {
            vol.Required(str): str
        }),
    vol.Optional(
        CONF_RESPONSE_TEMPLATE,
        description='шаблон ответа когда на этот порт приходит'
                    'сообщение из меги '): cv.template,
    vol.Optional(CONF_ACTION): cv.script_action, # пока не реализовано
    vol.Optional(CONF_GET_VALUE, default=True): bool,
    vol.Optional(CONF_CONV_TEMPLATE): cv.template,
    vol.Optional(CONF_VALUE_TEMPLATE): cv.template,
    vol.Optional(CONF_FORCE_I2C_SCAN): bool,
    vol.Optional(CONF_HEX_TO_FLOAT): bool,
    vol.Optional(CONF_SMOOTH): cv.time_period_seconds,
    # vol.Optional(CONF_RANGE): vol.ExactSequence([int, int]), TODO: сделать отбрасывание "плохих" значений
    vol.Optional(str): {
        vol.Optional(CONF_NAME): str,
        vol.Optional(CONF_DEVICE_CLASS): str,
        vol.Optional(CONF_UNIT_OF_MEASUREMENT): str,
        vol.Optional(CONF_VALUE_TEMPLATE): cv.template,
    }
 }
 CUSTOMIZE_DS2413 = {
    vol.Optional(str.lower, description='адрес и индекс устройства'): CUSTOMIZE_PORT
 }
 def extender(x):
    if isinstance(x, str) and 'e' in x:
        return x
    else:
        raise ValueError('must has "e" in port name')
 CONFIG_SCHEMA = vol.Schema(
    {
        DOMAIN: {
            vol.Optional(CONF_ALLOW_HOSTS): [str],
-            vol.Required(str, description='id меги из веб-интерфейса'): {
+            vol.Optional(vol.Any(str, int), description='id меги из веб-интерфейса'): {
-                vol.Optional(int, description='номер порта'): {
+                vol.Optional(CONF_FORCE_D, description='Принудительно слать d после срабатывания входа', default=False): bool,
-                    vol.Optional(CONF_SKIP, description='исключить порт из сканирования', default=False): bool,
+                vol.Optional(
-                    vol.Optional(CONF_INVERT, default=False): bool,
+                    CONF_DEF_RESPONSE,
-                    vol.Optional(CONF_NAME): vol.Any(str, {
+                    description='Ответ по умолчанию',
-                        vol.Required(str): str
+                    default=None
-                    }),
+                ): vol.Any(cv.template, None),
-                    vol.Optional(CONF_DOMAIN): vol.Any('light', 'switch'),
+                vol.Optional(CONF_LED): LED_LIGHT,
-                    vol.Optional(CONF_UNIT_OF_MEASUREMENT, description='единицы измерений, либо строка либо мепинг'):
+                vol.Optional(vol.Any(int, extender), description='номер порта'): vol.Any(
-                        vol.Any(str, {
+                    CUSTOMIZE_PORT,
-                            vol.Required(str): str
+                    CUSTOMIZE_DS2413,
-                        }),
+                ),
                    vol.Optional(
                        CONF_RESPONSE_TEMPLATE,
                        description='шаблон ответа когда на этот порт приходит'
                                    'сообщение из меги '): cv.template,
                    vol.Optional(CONF_ACTION): cv.script_action,
                    vol.Optional(CONF_GET_VALUE, default=True): bool,
                    vol.Optional(CONF_CONV_TEMPLATE): cv.template
                }
            }
        }
    },
@@ -95,18 +158,7 @@ async def get_hub(hass, entry):
    data = dict(entry.data)
    data.update(entry.options or {})
    data.update(id=id)
-    use_mqtt = data.get(CONF_MQTT_INPUTS, True)
+    hub = MegaD(hass, config=entry, **data, lg=_LOGGER, loop=asyncio.get_event_loop())
    _mqtt = hass.data.get(mqtt.DOMAIN) if use_mqtt else None
    if _mqtt is None and use_mqtt:
        for x in range(5):
            await asyncio.sleep(5)
            _mqtt = hass.data.get(mqtt.DOMAIN)
            if _mqtt is not None:
                break
        if _mqtt is None:
            raise Exception('mqtt not configured, please configure mqtt first')
    hub = MegaD(hass, **data, mqtt=_mqtt, lg=_LOGGER, loop=asyncio.get_event_loop())
    hub.mqtt_id = await hub.get_mqtt_id()
    return hub
@@ -114,8 +166,8 @@ async def get_hub(hass, entry):
 async def _add_mega(hass: HomeAssistant, entry: ConfigEntry):
    id = entry.data.get('id', entry.entry_id)
    hub = await get_hub(hass, entry)
-    hass.data[DOMAIN][id] = hass.data[DOMAIN]['__def'] = hub
+    hub.fw = await hub.get_fw()
-    hass.data[DOMAIN][entry.data.get(CONF_HOST)] = hub
+    hass.data[DOMAIN][id] = hub
    hass.data[DOMAIN][CONF_ALL][id] = hub
    if not await hub.authenticate():
        raise Exception("not authentificated")
@@ -146,33 +198,34 @@ async def updater(hass: HomeAssistant, entry: ConfigEntry):
    :param entry:
    :return:
    """
-    hub: MegaD = hass.data[DOMAIN][entry.data[CONF_ID]]
+    # hub: MegaD = hass.data[DOMAIN][entry.data[CONF_ID]]
-    hub.poll_interval = entry.options[CONF_SCAN_INTERVAL]
+    # hub.poll_interval = entry.options[CONF_SCAN_INTERVAL]
-    hub.port_to_scan = entry.options.get(CONF_PORT_TO_SCAN, 0)
+    # hub.port_to_scan = entry.options.get(CONF_PORT_TO_SCAN, 0)
-    entry.data = entry.options
+    await hass.config_entries.async_reload(entry.entry_id)
    for platform in PLATFORMS:
        await hass.config_entries.async_forward_entry_unload(entry, platform)
    await async_remove_entry(hass, entry)
    await async_setup_entry(hass, entry)
    return True
-async def async_remove_entry(hass, entry) -> None:
+async def async_remove_entry(hass: HomeAssistant, entry: ConfigEntry) -> None:
    """Handle removal of an entry."""
    id = entry.data.get('id', entry.entry_id)
-    hub: MegaD = hass.data[DOMAIN][id]
+    hub: MegaD = hass.data[DOMAIN].get(id)
    if hub is None:
        return
    _LOGGER.debug(f'remove {id}')
    _hubs.pop(id, None)
    hass.data[DOMAIN].pop(id, None)
    hass.data[DOMAIN][CONF_ALL].pop(id, None)
    for platform in PLATFORMS:
        await hass.config_entries.async_forward_entry_unload(entry, platform)
    task: asyncio.Task = _POLL_TASKS.pop(id, None)
    if task is not None:
        task.cancel()
    if hub is None:
        return
    await hub.stop()
    return True
 async_unload_entry = async_remove_entry
 async def async_migrate_entry(hass, config_entry: ConfigEntry):
--- a/custom_components/mega/binary_sensor.py
+++ b/custom_components/mega/binary_sensor.py
@@ -16,10 +16,11 @@ from homeassistant.const import (
    CONF_ENTITY_ID,
 )
 from homeassistant.core import HomeAssistant
-from .const import EVENT_BINARY_SENSOR, DOMAIN, CONF_CUSTOM, CONF_SKIP, CONF_INVERT
+from homeassistant.helpers.template import Template
 from .const import EVENT_BINARY_SENSOR, DOMAIN, CONF_CUSTOM, CONF_SKIP, CONF_INVERT, CONF_RESPONSE_TEMPLATE
 from .entities import  MegaPushEntity
 from .hub import MegaD
-
+from .tools import int_ignore
 lg = logging.getLogger(__name__)
@@ -50,12 +51,14 @@ async def async_setup_entry(hass: HomeAssistant, config_entry: ConfigEntry, asyn
    devices = []
    customize = hass.data.get(DOMAIN, {}).get(CONF_CUSTOM, {})
    for port, cfg in config_entry.data.get('binary_sensor', {}).items():
-        port = int(port)
+        port = int_ignore(port)
        c = customize.get(mid, {}).get(port, {})
        if c.get(CONF_SKIP, False):
            continue
        hub.lg.debug(f'add binary_sensor on port %s', port)
        sensor = MegaBinarySensor(mega=hub, port=port, config_entry=config_entry)
        if '<' in sensor.name:
            continue
        devices.append(sensor)
    async_add_devices(devices)
@@ -66,6 +69,10 @@ class MegaBinarySensor(BinarySensorEntity, MegaPushEntity):
        super().__init__(*args, **kwargs)
        self._is_on = None
        self._attrs = None
        self._click_task = None
    async def _click(self):
        await self.customize.get
    @property
    def state_attributes(self):
@@ -77,14 +84,15 @@ class MegaBinarySensor(BinarySensorEntity, MegaPushEntity):
    @property
    def is_on(self) -> bool:
-        val = self.mega.values.get(self.port, {}).get("value") \
+        val = self.mega.values.get(self.port, {})
-              or self.mega.values.get(self.port, {}).get('m')
+        if isinstance(val, dict):
            val = val.get("value", val.get('m'))
        if val is None and self._state is not None:
            return self._state == 'ON'
        elif val is not None:
-            if val in ['ON', 'OFF']:
+            if val in ['ON', 'OFF', '1', '0']:
-                return val == 'ON' if not self.invert else val == 'OFF'
+                return val in ['ON', '1'] if not self.invert else val in ['OFF', '0']
-            else:
+            elif isinstance(val, int):
                return val != 1 if not self.invert else val == 1
    def _update(self, payload: dict):
--- a/custom_components/mega/config_flow.py
+++ b/custom_components/mega/config_flow.py
@@ -5,12 +5,12 @@ import logging
 import voluptuous as vol
 from homeassistant import config_entries, core
 from homeassistant.components import mqtt
 from homeassistant.config_entries import ConfigEntry
 from homeassistant.const import CONF_HOST, CONF_ID, CONF_PASSWORD, CONF_SCAN_INTERVAL
 from homeassistant.core import callback, HomeAssistant
-from .const import DOMAIN, CONF_PORT_TO_SCAN, CONF_RELOAD, PLATFORMS, CONF_MQTT_INPUTS, \
+from .const import DOMAIN, CONF_RELOAD, \
-    CONF_NPORTS, CONF_UPDATE_ALL, CONF_POLL_OUTS  # pylint:disable=unused-import
+    CONF_NPORTS, CONF_UPDATE_ALL, CONF_POLL_OUTS, CONF_FAKE_RESPONSE, CONF_FORCE_D, \
    CONF_ALLOW_HOSTS, CONF_PROTECTED, CONF_RESTORE_ON_RESTART, CONF_UPDATE_TIME
 from .hub import MegaD
 from . import exceptions
@@ -21,21 +21,27 @@ STEP_USER_DATA_SCHEMA = vol.Schema(
        vol.Required(CONF_ID, default='mega'): str,
        vol.Required(CONF_HOST, default="192.168.0.14"): str,
        vol.Required(CONF_PASSWORD, default="sec"): str,
-        vol.Optional(CONF_SCAN_INTERVAL, default=0): int,
+        vol.Optional(CONF_SCAN_INTERVAL, default=30): int,
        vol.Optional(CONF_POLL_OUTS, default=False): bool,
-        vol.Optional(CONF_PORT_TO_SCAN, default=0): int,
+        # vol.Optional(CONF_PORT_TO_SCAN, default=0): int,
-        vol.Optional(CONF_MQTT_INPUTS, default=True): bool,
+        # vol.Optional(CONF_MQTT_INPUTS, default=False): bool,
        vol.Optional(CONF_NPORTS, default=37): int,
        vol.Optional(CONF_UPDATE_ALL, default=True): bool,
        vol.Optional(CONF_FAKE_RESPONSE, default=True): bool,
        vol.Optional(CONF_FORCE_D, default=True): bool,
        vol.Optional(CONF_RESTORE_ON_RESTART, default=True): bool,
        vol.Optional(CONF_PROTECTED, default=True): bool,
        vol.Optional(CONF_ALLOW_HOSTS, default='::1;127.0.0.1'): str,
        vol.Optional(CONF_UPDATE_TIME, default=True): bool,
    },
 )
 async def get_hub(hass: HomeAssistant, data):
-    _mqtt = hass.data.get(mqtt.DOMAIN)
+    # _mqtt = hass.data.get(mqtt.DOMAIN)
    # if not isinstance(_mqtt, mqtt.MQTT):
    #     raise exceptions.MqttNotConfigured("mqtt must be configured first")
-    hub = MegaD(hass, **data, lg=_LOGGER, mqtt=_mqtt, loop=asyncio.get_event_loop())
+    hub = MegaD(hass, **data, lg=_LOGGER, loop=asyncio.get_event_loop()) #mqtt=_mqtt,
    hub.mqtt_id = await hub.get_mqtt_id()
    if not await hub.authenticate():
        raise exceptions.InvalidAuth
@@ -57,7 +63,7 @@ async def validate_input(hass: core.HomeAssistant, data):
 class ConfigFlow(config_entries.ConfigFlow, domain=DOMAIN):
    """Handle a config flow for mega."""
-    VERSION = 4
+    VERSION = 24
    CONNECTION_CLASS = config_entries.CONN_CLASS_ASSUMED
    async def async_step_user(self, user_input=None):
@@ -72,10 +78,12 @@ class ConfigFlow(config_entries.ConfigFlow, domain=DOMAIN):
        try:
            hub = await validate_input(self.hass, user_input)
            await hub.start()
            hub.new_naming=True
            config = await hub.get_config(nports=user_input.get(CONF_NPORTS, 37))
            await hub.stop()
            hub.lg.debug(f'config loaded: %s', config)
            config.update(user_input)
            config['new_naming'] = True
            return self.async_create_entry(
                title=user_input.get(CONF_ID, user_input[CONF_HOST]),
                data=config,
@@ -107,22 +115,20 @@ class OptionsFlowHandler(config_entries.OptionsFlow):
    async def async_step_init(self, user_input=None):
        """Manage the options."""
-
+        new_naming = self.config_entry.data.get('new_naming', False)
        if user_input is not None:
            reload = user_input.pop(CONF_RELOAD)
            cfg = dict(self.config_entry.data)
            cfg.update(user_input)
-            hub = await get_hub(self.hass, self.config_entry.data)
+            cfg['new_naming'] = new_naming
-            if reload:
+            self.config_entry.data = cfg
-                await hub.start()
+            await get_hub(self.hass, cfg)
-                new = await hub.get_config(nports=user_input.get(CONF_NPORTS, 37))
+
-                await hub.stop()
+            if reload:
                id = self.config_entry.data.get('id', self.config_entry.entry_id)
                hub: MegaD = self.hass.data[DOMAIN].get(id)
                cfg = await hub.reload(reload_entry=False)
                _LOGGER.debug(f'new config: %s', new)
                cfg = dict(self.config_entry.data)
                for x in PLATFORMS:
                    cfg.pop(x, None)
                cfg.update(new)
            return self.async_create_entry(
                title='',
                data=cfg,
@@ -133,11 +139,17 @@ class OptionsFlowHandler(config_entries.OptionsFlow):
            data_schema=vol.Schema({
                vol.Optional(CONF_SCAN_INTERVAL, default=e.get(CONF_SCAN_INTERVAL, 0)): int,
                vol.Optional(CONF_POLL_OUTS, default=e.get(CONF_POLL_OUTS, False)): bool,
-                vol.Optional(CONF_PORT_TO_SCAN, default=e.get(CONF_PORT_TO_SCAN, 0)): int,
+                # vol.Optional(CONF_PORT_TO_SCAN, default=e.get(CONF_PORT_TO_SCAN, 0)): int,
-                vol.Optional(CONF_MQTT_INPUTS, default=e.get(CONF_MQTT_INPUTS, True)): bool,
+                # vol.Optional(CONF_MQTT_INPUTS, default=e.get(CONF_MQTT_INPUTS, True)): bool,
                vol.Optional(CONF_NPORTS, default=e.get(CONF_NPORTS, 37)): int,
                vol.Optional(CONF_RELOAD, default=False): bool,
                vol.Optional(CONF_UPDATE_ALL, default=e.get(CONF_UPDATE_ALL, True)): bool,
                vol.Optional(CONF_FAKE_RESPONSE, default=e.get(CONF_FAKE_RESPONSE, True)): bool,
                vol.Optional(CONF_FORCE_D, default=e.get(CONF_FORCE_D, False)): bool,
                vol.Optional(CONF_RESTORE_ON_RESTART, default=e.get(CONF_RESTORE_ON_RESTART, False)): bool,
                vol.Optional(CONF_PROTECTED, default=e.get(CONF_PROTECTED, True)): bool,
                vol.Optional(CONF_ALLOW_HOSTS, default='::1;127.0.0.1'): str,
                vol.Optional(CONF_UPDATE_TIME, default=e.get(CONF_UPDATE_TIME, False)): bool,
                # vol.Optional(CONF_INVERT, default=''): str,
            }),
        )
--- a/custom_components/mega/config_parser.py
+++ b/custom_components/mega/config_parser.py
@@ -0,0 +1,62 @@
 from dataclasses import dataclass, field
 from bs4 import BeautifulSoup
 inputs = [
    'eact',
    'inta',
    'misc',
 ]
 selectors = [
    'pty',
    'm',
    'gr',
    'd',
    'ety',
 ]
@dataclass(frozen=True, eq=True)
 class Config:
    pty: str = None
    m: str = None
    gr: str = None
    d: str = None
    ety: str = None
    inta: str = field(compare=False, hash=False, default=None)
    misc: str = field(compare=False, hash=False, default=None)
    eact: str = field(compare=False, hash=False, default=None)
    src: BeautifulSoup = field(compare=False, hash=False, default=None)
 def parse_config(page: str):
    page = BeautifulSoup(page, features="lxml")
    ret = {}
    for x in selectors:
        v = page.find('select', attrs={'name': x})
        if v is None:
            continue
        else:
            v = v.find(selected=True)
            if v:
                v = v['value']
                ret[x] = v
    for x in inputs:
        v = page.find('input', attrs={'name': x})
        if v:
            ret[x] = v['value']
    smooth = page.find('input', attrs={'name': 'misc'})
    if smooth is None or smooth.get('checked') is None:
        ret['misc'] = None
    return Config(**ret, src=page)
 DIGITAL_IN = Config(pty="0")
 RELAY_OUT = Config(pty="1", m="0")
 PWM_OUT = Config(pty="1", m="1")
 DS2413 = Config(pty="1", m="2")
 MCP230 = Config(pty="4", m="1", gr="3", d="20")
 MCP230_OUT = Config(ety="1")
 MCP230_IN = Config(ety="0")
 PCA9685 = Config(pty="4", m="1", gr="3", d="21")
 OWIRE_BUS = Config(pty="3", d="5")
--- a/custom_components/mega/const.py
+++ b/custom_components/mega/const.py
@@ -1,5 +1,6 @@
 """Constants for the mega integration."""
 import re
 from itertools import permutations
 DOMAIN = "mega"
 CONF_MEGA_ID = "mega_id"
@@ -23,10 +24,27 @@ CONF_NPORTS = 'nports'
 CONF_RESPONSE_TEMPLATE = 'response_template'
 CONF_ACTION = 'action'
 CONF_UPDATE_ALL = 'update_all'
 CONF_FAKE_RESPONSE = 'fake_response'
 CONF_GET_VALUE = 'get_value'
 CONF_ALLOW_HOSTS = 'allow_hosts'
 CONF_PROTECTED = 'protected'
 CONF_CONV_TEMPLATE = 'conv_template'
 CONF_POLL_OUTS = 'poll_outs'
 CONF_FORCE_D = 'force_d'
 CONF_DEF_RESPONSE = 'def_response'
 CONF_RESTORE_ON_RESTART = 'restore_on_restart'
 CONF_CLICK_TIME = 'click_time'
 CONF_LONG_TIME = 'long_time'
 CONF_FORCE_I2C_SCAN = 'force_i2c_scan'
 CONF_UPDATE_TIME = 'update_time'
 CONF_HEX_TO_FLOAT = 'hex_to_float'
 CONF_LED = 'led'
 CONF_WS28XX = 'ws28xx'
 CONF_ORDER = 'order'
 CONF_SMOOTH = 'smooth'
 CONF_WHITE_SEP = 'white_sep'
 CONF_CHIP = 'chip'
 CONF_RANGE = 'range'
 PLATFORMS = [
    "light",
    "switch",
@@ -45,3 +63,19 @@ PRESS = 'press'
 LUX = 'lux'
 SINGLE_CLICK = 'single'
 DOUBLE_CLICK = 'double'
 PATT_FW = re.compile(r'fw:\s(.+?)\)')
 REMOVE_CONFIG = [
    'extenders',
    'ext_in',
    'ext_acts',
    'i2c_sensors',
    'binary_sensor',
    'light',
    'i2c',
    'sensor',
    'smooth',
 ]
 RGB_COMBINATIONS = [''.join(x) for x in permutations('rgb')]
 RGB = 'rgb'
--- a/custom_components/mega/entities.py
+++ b/custom_components/mega/entities.py
@@ -1,5 +1,9 @@
 import logging
 import asyncio
 import time
 import typing
 from datetime import timedelta
 from functools import partial
 from homeassistant.config_entries import ConfigEntry
 from homeassistant.const import CONF_NAME
@@ -8,7 +12,7 @@ from homeassistant.helpers.update_coordinator import CoordinatorEntity
 from homeassistant.helpers.restore_state import RestoreEntity
 from . import hub as h
 from .const import DOMAIN, CONF_CUSTOM, CONF_INVERT, EVENT_BINARY_SENSOR, LONG, \
-    LONG_RELEASE, RELEASE, PRESS, SINGLE_CLICK, DOUBLE_CLICK, EVENT_BINARY
+    LONG_RELEASE, RELEASE, PRESS, SINGLE_CLICK, DOUBLE_CLICK, EVENT_BINARY, CONF_SMOOTH
 _events_on = False
 _LOGGER = logging.getLogger(__name__)
@@ -38,13 +42,21 @@ class BaseMegaEntity(CoordinatorEntity, RestoreEntity):
    def __init__(
            self,
            mega: 'h.MegaD',
-            port: int,
+            port: typing.Union[int, str, typing.List[int]],
            config_entry: ConfigEntry = None,
            id_suffix=None,
            name=None,
            unique_id=None,
            http_cmd='get',
            addr: str=None,
            index=None,
            customize=None,
            smooth=None,
            **kwargs,
    ):
        super().__init__(mega.updater)
        self._smooth = smooth
        self.http_cmd = http_cmd
        self._state: State = None
        self.port = port
        self.config_entry = config_entry
@@ -52,37 +64,103 @@ class BaseMegaEntity(CoordinatorEntity, RestoreEntity):
        mega.entities.append(self)
        self._mega_id = mega.id
        self._lg = None
-        self._unique_id = unique_id or f"mega_{mega.id}_{port}" + \
+        if not isinstance(port, list):
-                                       (f"_{id_suffix}" if id_suffix else "")
+            self._unique_id = unique_id or f"mega_{mega.id}_{port}" + \
-        self._name = name or f"{mega.id}_{port}" + \
+                                           (f"_{id_suffix}" if id_suffix else "")
-                            (f"_{id_suffix}" if id_suffix else "")
+            _pt = port if not mega.new_naming else f'{port:02}' if isinstance(port, int) else port
-        self._customize: dict = None
+            self._name = name or f"{mega.id}_{_pt}" + \
                         (f"_{id_suffix}" if id_suffix else "")
            self._customize: dict = None
        else:
            assert id_suffix is not None
            assert name is not None
            assert isinstance(customize, dict)
            self._unique_id = unique_id or f"mega_{mega.id}_{id_suffix}"
            self._name = name
            self._customize = customize
        self.index = index
        self.addr = addr
        self.id_suffix = id_suffix
        self._can_smooth_hard = None
        if self.http_cmd == 'ds2413':
            self.mega.ds2413_ports |= {self.port}
    @property
    def is_ws(self):
        return False
    def get_attribute(self, name, default=None):
        attr = getattr(self, f'_{name}', None)
        if attr is None and self._state is not None:
            if name == 'is_on':
                attr = self._state.state
            else:
                attr = self._state.attributes.get(f'{name}', default)
        return attr if attr is not None else default
    @property
    def can_smooth_hardware(self):
        if self._can_smooth_hard is None:
            if self.is_ws:
                self._can_smooth_hard = False
            if not isinstance(self.port, list):
                self._can_smooth_hard = self.port in self.mega.smooth
            else:
                for x in self.port:
                    if isinstance(x, str):
                        self._can_smooth_hard = False
                        break
                    else:
                        self._can_smooth_hard = self.port in self.mega.smooth
        return self._can_smooth_hard
    @property
    def enabled(self):
        if '<' in self.name:
            return False
        else:
            return super().enabled
    @property
    def customize(self):
        if self._customize is not None:
            return self._customize
        if self.hass is None:
            return {}
        if self._customize is None:
            c = self.hass.data.get(DOMAIN, {}).get(CONF_CUSTOM) or {}
            c = c.get(self._mega_id) or {}
            c = c.get(self.port) or {}
            if self.addr is not None and self.index is not None and isinstance(c, dict):
                idx = self.addr.lower() + f'_a' if self.index == 0 else '_b'
                c = c.get(idx, {})
            self._customize = c
        return self._customize
    @property
    def device_info(self):
        if isinstance(self.port, list):
            pt_idx = self.id_suffix
        else:
            _pt = self.port if not self.mega.new_naming else f'{self.port:02}' if isinstance(self.port, int) else self.port
            if isinstance(_pt, str) and 'e' in _pt:
                pt_idx, _ = _pt.split('e')
            else:
                pt_idx = _pt
        return {
            "identifiers": {
                # Serial numbers are unique identifiers within a specific domain
-                (DOMAIN, f'{self._mega_id}', self.port),
+                (DOMAIN, f'{self._mega_id}', pt_idx),
            },
            "config_entries": [
                self.config_entry,
            ],
-            "name": f'{self._mega_id} port {self.port}',
+            "name": f'{self._mega_id} port {pt_idx}' if not isinstance(self.port, list) else f'{self._mega_id} {pt_idx}',
            "manufacturer": 'ab-log.ru',
            # "model": self.light.productname,
-            # "sw_version": self.light.swversion,
+            "sw_version": self.mega.fw,
            "via_device": (DOMAIN, self._mega_id),
        }
@@ -100,7 +178,11 @@ class BaseMegaEntity(CoordinatorEntity, RestoreEntity):
    def name(self):
        c = self.customize.get(CONF_NAME)
        if not isinstance(c, str):
-            c = self._name or f"{self.mega.id}_p{self.port}"
+            if not isinstance(self.port, list):
                _pt = self.port if not self.mega.new_naming else f'{self.port:02}' if isinstance(self.port, int) else self.port
                c = self._name or f"{self.mega.id}_p{_pt}"
            else:
                c = self.id_suffix
        return c
    @property
@@ -111,12 +193,10 @@ class BaseMegaEntity(CoordinatorEntity, RestoreEntity):
        global _task_set_ev_on
        await super().async_added_to_hass()
        self._state = await self.async_get_last_state()
        if self.mega.mqtt_inputs and _task_set_ev_on is None:
            _task_set_ev_on = asyncio.create_task(_set_events_on())
    async def get_state(self):
-        if self.mega.mqtt is None:
+        self.lg.debug(f'state is %s', self.state)
-            self.async_write_ha_state()
+        self.async_write_ha_state()
 class MegaPushEntity(BaseMegaEntity):
@@ -132,11 +212,10 @@ class MegaPushEntity(BaseMegaEntity):
    def __update(self, value: dict):
        self._update(value)
        if self.hass is None:
            return
        self.async_write_ha_state()
        self.lg.debug(f'state after update %s', self.state)
        if self.mega.mqtt_inputs and not _events_on:
            _LOGGER.debug('skip event because events are off')
            return
        if not self.entity_id.startswith('binary_sensor'):
            _LOGGER.debug('skip event because not a bnary sens')
            return
@@ -188,17 +267,13 @@ class MegaPushEntity(BaseMegaEntity):
    def _update(self, payload: dict):
        pass
    async def async_added_to_hass(self) -> None:
        await super().async_added_to_hass()
        if self.mega.mqtt is not None:
            asyncio.create_task(self.mega.get_port(self.port))
 class MegaOutPort(MegaPushEntity):
    def __init__(
            self,
            dimmer=False,
            dimmer_scale=1,
            *args, **kwargs
    ):
        super().__init__(
@@ -207,6 +282,24 @@ class MegaOutPort(MegaPushEntity):
        self._brightness = None
        self._is_on = None
        self.dimmer = dimmer
        self.dimmer_scale = dimmer_scale
        self.is_extender = isinstance(self.port, str) and 'e' in self.port
        self.task: asyncio.Task = None
        self._restore_brightness = None
        self._last_called: float = 0
    # @property
    # def assumed_state(self) -> bool:
    #     return True if self.index is not None or self.mega.mqtt is None else False
    @property
    def max_dim(self):
        if self.dimmer_scale == 1:
            return 255
        elif self.dimmer_scale == 16:
            return 4095
        else:
            return 255
    @property
    def invert(self):
@@ -214,10 +307,24 @@ class MegaOutPort(MegaPushEntity):
    @property
    def brightness(self):
-        val = self.mega.values.get(self.port, {}).get("value")
+        if not self.dimmer:
-        if val is None and self._state is not None:
+            return
        val = self.mega.values.get(self.port, {})
        if isinstance(val, dict) and len(val) == 0 and self._state is not None:
            return self._state.attributes.get("brightness")
        elif isinstance(self.port, str) and 'e' in self.port:
            if isinstance(val, str):
                val = safe_int(val)
            else:
                val = 0
            if val == 0:
                return self._brightness
            elif isinstance(val, (int, float)):
                return int(val / self.dimmer_scale)
        elif val is not None:
            val = val.get("value")
            if val is None:
                return
            try:
                val = int(val)
                return val
@@ -227,41 +334,180 @@ class MegaOutPort(MegaPushEntity):
    @property
    def is_on(self) -> bool:
        val = self.mega.values.get(self.port, {})
-
+        if isinstance(val, dict) and len(val) == 0 and self._state is not None:
        if val is None and self._state is not None:
            return self._state == 'ON'
        elif isinstance(self.port, str) and 'e' in self.port and val:
            if val is None:
                return
            if self.dimmer:
                val = safe_int(val)
                if val is not None:
                    return val > 0 if not self.invert else val == 0
            else:
                return val == 'ON' if not self.invert else val == 'OFF'
        elif val is not None:
            val = val.get("value")
            if not isinstance(val, str) and self.index is not None and self.addr is not None:
                if not isinstance(val, dict):
                    self.mega.lg.warning(f'{self.entity_id}: {val} is not a dict')
                    return
                _val = val.get(self.addr, val.get(self.addr.lower(), val.get(self.addr.upper())))
                if not isinstance(_val, str):
                    self.mega.lg.warning(f'{self.entity_id}: can not get {self.addr} from {val}, recieved {_val}')
                    return
                _val = _val.split('/')
                if len(_val) >= 2:
                    self.mega.lg.debug('%s parsed values: %s[%s]="%s"', self.entity_id, _val, self.index, _val)
                    val = _val[self.index]
                else:
                    self.mega.lg.warning(f'{self.entity_id}: {_val} has wrong length')
                    return
            elif self.index is not None and self.addr is None:
                self.mega.lg.warning(f'{self.entity_id} does not has addr')
                return
            self.mega.lg.debug('%s.state = %s', self.entity_id, val)
            if not self.invert:
                return val == 'ON' or str(val) == '1' or (safe_int(val) is not None and safe_int(val) > 0)
            else:
                return val == 'OFF' or str(val) == '0' or (safe_int(val) is not None and safe_int(val) == 0)
-    async def async_turn_on(self, brightness=None, **kwargs) -> None:
+    @property
-        brightness = brightness or self.brightness or 255
+    def cmd_port(self):
        if self.index is not None:
            return f'{self.port}A' if self.index == 0 else f'{self.port}B'
        else:
            return self.port
    @property
    def smooth(self) -> timedelta:
        ret = self.customize.get(CONF_SMOOTH)
        if ret is None and self._smooth:
            ret = timedelta(seconds=self._smooth)
        return ret
    @property
    def smooth_dim(self):
        if not self.dimmer:
            return False
        return self.smooth or self.can_smooth_hardware
    def update_from_smooth(self, value, update_state=False):
        if isinstance(self.port, str):
            self.mega.values[self.port] = value[0]
        else:
            self.mega.values[self.port] = {
                'value': value[0]
            }
        if update_state:
            self.async_write_ha_state()
    def _set_dim_brightness(self, from_, to_, transition):
        pct = abs(to_ - from_) / (255 if self.dimmer_scale == 1 else 4095)
        update_state = transition is not None and transition > 3
        tm = (self.smooth.total_seconds() * pct) if transition is None else transition
        if self.task is not None:
            self.task.cancel()
        self.task = asyncio.create_task(self.mega.smooth_dim(
            (self.cmd_port, from_, to_),
            time=tm,
            can_smooth_hardware=self.can_smooth_hardware,
            max_values=[255 if self.dimmer_scale == 1 else 4095],
            updater=partial(self.update_from_smooth, update_state=update_state),
        ))
    async def async_turn_on(self, brightness=None, transition=None, **kwargs):
        if (time.time() - self._last_called) < 0.1:
            return
        self._last_called = time.time()
        if not self.dimmer:
            transition = None
        if not self.is_on and (brightness is None or brightness == 0):
            brightness = self._restore_brightness
        brightness = brightness or self.brightness or 255
        _prev = safe_int(self.brightness) or 0
        self._brightness = brightness
        if self.dimmer and brightness == 0:
-            cmd = 255
+            cmd = self.max_dim
        elif self.dimmer:
-            cmd = brightness
+            cmd = min((brightness * self.dimmer_scale, self.max_dim))
            if self.smooth_dim or transition:
                self._set_dim_brightness(from_=_prev, to_=cmd, transition=transition)
        else:
            cmd = 1 if not self.invert else 0
-        await self.mega.request(cmd=f"{self.port}:{cmd}")
+        if transition is None:
-        self.mega.values[self.port] = {'value': cmd}
+            _cmd = {"cmd": f"{self.cmd_port}:{cmd}"}
        else:
            _cmd = {
                "pt": f"{self.cmd_port}",
                "pwm": cmd,
                "cnt": round(transition / (abs(_prev - brightness) / 255)),
            }
        if self.addr:
            _cmd['addr'] = self.addr
        if not (self.smooth_dim or transition):
            await self.mega.request(**_cmd, priority=-1)
        if self.index is not None:
            # обновление текущего стейта для ds2413
            await self.mega.get_port(
                port=self.port,
                force_http=True,
                conv=False,
                http_cmd='list',
            )
        elif isinstance(self.port, str) and 'e' in self.port:
            if not self.dimmer:
                self.mega.values[self.port] = 'ON' if not self.invert else 'OFF'
            else:
                self.mega.values[self.port] = cmd
        else:
            self.mega.values[self.port] = {'value': cmd}
        await self.get_state()
-    async def async_turn_off(self, **kwargs) -> None:
+    async def async_turn_off(self, transition=None, **kwargs) -> None:
-
+        if (time.time() - self._last_called) < 0.1:
            return
        self._last_called = time.time()
        self._restore_brightness = safe_int(self._brightness)
        if not self.dimmer:
            transition = None
        cmd = "0" if not self.invert else "1"
-
+        _cmd = {"cmd": f"{self.cmd_port}:{cmd}"}
-        await self.mega.request(cmd=f"{self.port}:{cmd}")
+        _prev = safe_int(self.brightness) or 0
-        self.mega.values[self.port] = {'value': cmd}
+        if self.addr:
            _cmd['addr'] = self.addr
        if not (self.smooth_dim or transition):
            await self.mega.request(**_cmd, priority=-1)
        else:
            self._set_dim_brightness(
                from_=_prev,
                to_=0,
                transition=transition,
            )
        if self.index is not None:
            # обновление текущего стейта для ds2413
            await self.mega.get_port(
                port=self.port,
                force_http=True,
                conv=False,
                http_cmd='list',
            )
        elif isinstance(self.port, str) and 'e' in self.port:
            self.mega.values[self.port] = 'OFF' if not self.invert else 'ON'
        else:
            self.mega.values[self.port] = {'value': cmd}
        await self.get_state()
    async def async_will_remove_from_hass(self) -> None:
        if self.task is not None:
            self.task.cancel()
 def safe_int(v):
-    if v in ['ON', 'OFF']:
+    if v == 'ON':
-        return None
+        return 1
    elif v == 'OFF':
        return 0
    try:
        return int(v)
    except (ValueError, TypeError):
--- a/custom_components/mega/exceptions.py
+++ b/custom_components/mega/exceptions.py
@@ -5,13 +5,13 @@ class CannotConnect(exceptions.HomeAssistantError):
    """Error to indicate we cannot connect."""
 class MqttNotConfigured(exceptions.HomeAssistantError):
    """Error to indicate mqtt is not configured"""
 class DuplicateId(exceptions.HomeAssistantError):
    """Error to indicate duplicate id"""
 class InvalidAuth(exceptions.HomeAssistantError):
    """Error to indicate there is invalid auth."""
 class NoPort(Exception):
    pass
--- a/custom_components/mega/http.py
+++ b/custom_components/mega/http.py
@@ -8,16 +8,21 @@ from aiohttp.web_request import Request
 from aiohttp.web_response import Response
 from homeassistant.helpers.template import Template
 from .const import EVENT_BINARY_SENSOR, DOMAIN, CONF_RESPONSE_TEMPLATE
 from homeassistant.components.http import HomeAssistantView
 from homeassistant.core import HomeAssistant
 from .const import EVENT_BINARY_SENSOR, DOMAIN, CONF_RESPONSE_TEMPLATE
 from .tools import make_ints
 from . import hub as h
 _LOGGER = logging.getLogger(__name__).getChild('http')
 def is_ext(data: typing.Dict[str, typing.Any]):
    for x in data:
        if x.startswith('ext'):
            return True
 class MegaView(HomeAssistantView):
    """Handle Yandex Smart Home unauthorized requests."""
    url = '/mega'
    name = 'mega'
@@ -25,33 +30,59 @@ class MegaView(HomeAssistantView):
    def __init__(self, cfg: dict):
        self._try = 0
-        self.allowed_hosts = {'::1'}
+        self.protected = True
        self.allowed_hosts = {'::1', '127.0.0.1'}
        self.notified_attempts = defaultdict(lambda : False)
        self.callbacks = defaultdict(lambda: defaultdict(list))
        self.templates: typing.Dict[str, typing.Dict[str, Template]] = {
            mid: {
                pt: cfg[mid][pt][CONF_RESPONSE_TEMPLATE]
                for pt in cfg[mid]
-                if CONF_RESPONSE_TEMPLATE in cfg[mid][pt]
+                if isinstance(pt, int) and CONF_RESPONSE_TEMPLATE in cfg[mid][pt]
-            } for mid in cfg
+            } for mid in cfg if isinstance(cfg[mid], dict)
        }
        _LOGGER.debug('templates: %s', self.templates)
        self.hubs = {}
    async def get(self, request: Request) -> Response:
-
+        _LOGGER.debug('request from %s %s', request.remote, request.headers)
        auth = False
        for x in self.allowed_hosts:
            if request.remote.startswith(x):
                auth = True
                break
        if not auth:
            _LOGGER.warning(f'unauthorised attempt to connect from {request.remote}')
            return Response(status=401)
        hass: HomeAssistant = request.app['hass']
-        hub: 'h.MegaD' = hass.data.get(DOMAIN).get(request.remote)  # TODO: проверить какой remote
+        if self.protected:
-        if hub is None and request.remote == '::1':
+            auth = False
-            hub = hass.data.get(DOMAIN).get('__def')
+            for x in self.allowed_hosts:
-        if hub is None:
+                if request.remote.startswith(x):
                    auth = True
                    break
            if not auth:
                msg = f"Non-authorised request from {request.remote} to `/mega`. "\
                      f"If you want to accept requests from this host "\
                      f"please add it to allowed hosts in `mega` UI-configuration"
                if not self.notified_attempts[request.remote]:
                    await hass.services.async_call(
                        'persistent_notification',
                        'create',
                        {
                            "notification_id": request.remote,
                            "title": "Non-authorised request",
                            "message": msg
                        }
                    )
                _LOGGER.warning(msg)
                return Response(status=401)
        remote = request.headers.get('X-Real-IP', request.remote)
        hub: 'h.MegaD' = self.hubs.get(remote)
        if hub is None and 'mdid' in request.query:
            hub = self.hubs.get(request.query['mdid'])
            if hub is None:
                _LOGGER.warning(f'can not find mdid={request.query["mdid"]} in {list(self.hubs)}')
        if hub is None and request.remote in ['::1', '127.0.0.1']:
            try:
                hub = list(self.hubs.values())[0]
            except IndexError:
                _LOGGER.warning(f'can not find mdid={request.query["mdid"]} in {list(self.hubs)}')
                return Response(status=400)
        elif hub is None:
            return Response(status=400)
        data = dict(request.query)
        hass.bus.async_fire(
@@ -60,26 +91,82 @@ class MegaView(HomeAssistantView):
        )
        _LOGGER.debug(f"Request: %s from '%s'", data, request.remote)
        make_ints(data)
        if data.get('st') == '1':
            hass.async_create_task(self.later_restore(hub))
            return Response(status=200)
        port = data.get('pt')
        data = data.copy()
        update_all = True
        if 'v' in data:
            update_all = False
            data['value'] = data.pop('v')
        data['mega_id'] = hub.id
-        ret = 'd'
+        ret = 'd' if hub.force_d else ''
        if port is not None:
-            hub.values[port] = data
+            if is_ext(data):
-            for cb in self.callbacks[hub.id][port]:
+                # ret = ''  # пока ответ всегда пустой, неясно какая будет реакция на непустой ответ
-                cb(data)
+                if port in hub.extenders:
-            template: Template = self.templates.get(hub.id, {}).get(port)
+                    pt_orig = port
-            if hub.update_all:
+                else:
                    pt_orig = hub.ext_in.get(port, hub.ext_in.get(str(port)))
                if pt_orig is None:
                    hub.lg.warning(f'can not find extender for int port {port}, '
                                   f'have ext_int: {hub.ext_in}, ext: {hub.extenders}')
                    return Response(status=200)
                for e, v in data.items():
                    _data = data.copy()
                    if e.startswith('ext'):
                        idx = e[3:]
                        pt = f'{pt_orig}e{idx}'
                        _data['pt_orig'] = pt_orig
                        _data['value'] = 'ON' if v == '1' else 'OFF'
                        _data['m'] = 1 if _data[e] == '0' else 0  # имитация поведения обычного входа, чтобы события обрабатывались аналогично
                        hub.values[pt] = _data
                        for cb in self.callbacks[hub.id][pt]:
                            cb(_data)
                        act = hub.ext_act.get(pt)
                        hub.lg.debug(f'act on port {pt}: {act}, all acts are: {hub.ext_act}')
                        template: Template = self.templates.get(hub.id, {}).get(port, hub.def_response)
                        if template is not None:
                            template.hass = hass
                            ret = template.async_render(_data)
                        hub.lg.debug(f'response={ret}, template={template}')
                        if ret == 'd' and act:
                            await hub.request(cmd=act.replace(':3', f':{v}'))
                        ret = 'd' if hub.force_d else ''
            else:
                hub.values[port] = data
                for cb in self.callbacks[hub.id][port]:
                    cb(data)
                template: Template = self.templates.get(hub.id, {}).get(port, hub.def_response)
                if template is not None:
                    template.hass = hass
                    ret = template.async_render(data)
            if hub.update_all and update_all:
                asyncio.create_task(self.later_update(hub))
            if template is not None:
                template.hass = hass
                ret = template.async_render(data)
        _LOGGER.debug('response %s', ret)
-        ret = Response(body=ret or 'd', content_type='text/plain', headers={'Server': 's', 'Date': 'n'})
+        Response(body='' if hub.fake_response else ret, content_type='text/plain')
        if hub.fake_response and 'value' not in data and 'pt' in data:
            if 'd' in ret:
                await hub.request(pt=port, cmd=ret)
            else:
                await hub.request(cmd=ret)
        return ret
-    async def later_update(self, hub):
+    async def later_restore(self, hub):
-        _LOGGER.debug('force update')
+        """
-        await asyncio.sleep(1)
+        Восстановление всех выходов с небольшой задержкой. Задержка нужна чтобы ответ прошел успешно
        await hub.updater.async_refresh()
        :param hub:
        :return:
        """
        await asyncio.sleep(0.2)
        if hub.restore_on_restart:
            await hub.restore_states()
        await hub.reload()
    async def later_update(self, hub):
        await asyncio.sleep(1)
        _LOGGER.debug('force update')
        await hub.updater.async_refresh()
--- a/custom_components/mega/hub.py
+++ b/custom_components/mega/hub.py
@@ -9,16 +9,24 @@ import re
 import json
 from bs4 import BeautifulSoup
-from homeassistant.components import mqtt
+from homeassistant.config_entries import ConfigEntry
-from homeassistant.const import (DEVICE_CLASS_TEMPERATURE, DEVICE_CLASS_HUMIDITY, DEVICE_CLASS_PRESSURE, 
+from homeassistant.const import (
-        DEVICE_CLASS_ILLUMINANCE, TEMP_CELSIUS, PERCENTAGE, LIGHT_LUX)
+    DEVICE_CLASS_TEMPERATURE, DEVICE_CLASS_HUMIDITY, DEVICE_CLASS_PRESSURE,
    DEVICE_CLASS_ILLUMINANCE, TEMP_CELSIUS, PERCENTAGE, LIGHT_LUX
 )
 from homeassistant.core import HomeAssistant
 from homeassistant.helpers.entity import Entity
 from homeassistant.helpers.update_coordinator import DataUpdateCoordinator
-from .const import TEMP, HUM, PRESS, LUX, PATT_SPLIT, DOMAIN, CONF_HTTP, EVENT_BINARY_SENSOR, CONF_CUSTOM, CONF_SKIP
+from .config_parser import parse_config, DS2413, MCP230, MCP230_OUT, MCP230_IN, PCA9685
-from .entities import set_events_off, BaseMegaEntity
+from .const import (
-from .exceptions import CannotConnect
+    TEMP, HUM, PRESS,
-from .tools import make_ints
+    LUX, PATT_SPLIT, DOMAIN,
    CONF_HTTP, EVENT_BINARY_SENSOR, CONF_CUSTOM, CONF_FORCE_D, CONF_DEF_RESPONSE, PATT_FW, CONF_FORCE_I2C_SCAN,
    REMOVE_CONFIG
 )
 from .entities import set_events_off, BaseMegaEntity, MegaOutPort, safe_int
 from .exceptions import CannotConnect, NoPort
 from .i2c import parse_scan_page
 from .tools import make_ints, int_ignore, PriorityLock
 TEMP_PATT = re.compile(r'temp:([01234567890\.]+)')
 HUM_PATT = re.compile(r'hum:([01234567890\.]+)')
@@ -43,13 +51,11 @@ CLASSES = {
    LUX: DEVICE_CLASS_ILLUMINANCE
 }
 I2C_DEVICE_TYPES = {
-    "2":  LUX, # BH1750
+    "2":  LUX,  # BH1750
-    "3":  LUX, # TSL2591
+    "3":  LUX,  # TSL2591
-    "7":  LUX, # MAX44009
+    "7":  LUX,  # MAX44009
-    "70": LUX, # OPT3001
+    "70": LUX,  # OPT3001
 }
 class NoPort(Exception):
    pass
 class MegaD:
@@ -61,43 +67,66 @@ class MegaD:
            loop: asyncio.AbstractEventLoop,
            host: str,
            password: str,
            mqtt: mqtt.MQTT,
            lg: logging.Logger,
            id: str,
-            mqtt_inputs: bool = True,
+            config: ConfigEntry = None,
            mqtt_id: str = None,
            scan_interval=60,
            port_to_scan=0,
            nports=38,
-            inverted: typing.List[int] = None,
+            update_all: bool=True,
-            update_all=True,
+            poll_outs: bool=False,
-            poll_outs=False,
+            fake_response: bool=True,
            force_d: bool=None,
            allow_hosts: str=None,
            protected=True,
            restore_on_restart=False,
            extenders=None,
            ext_in=None,
            ext_acts=None,
            i2c_sensors=None,
            new_naming=False,
            update_time=False,
            smooth: list=None,
            **kwargs,
    ):
        """Initialize."""
-        if mqtt_inputs is None or mqtt_inputs == 'None' or mqtt_inputs is False:
+        self.skip_ports = set()
-            self.http = hass.data.get(DOMAIN, {}).get(CONF_HTTP)
+        if config is not None:
-            if not self.http is None:
+            lg.debug(f'load config: %s', config.data)
-                self.http.allowed_hosts |= {host}
+        self.config = config
-        else:
+        self.http = hass.data.get(DOMAIN, {}).get(CONF_HTTP)
-            self.http = None
+        if not self.http is None:
            self.http.allowed_hosts |= {host}
            self.http.hubs[host] = self
            if len(self.http.hubs) == 1:
                self.http.hubs['__def'] = self
            if mqtt_id:
                self.http.hubs[mqtt_id] = self
        self.smooth = smooth or []
        self.new_naming = new_naming
        self.extenders = extenders or []
        self.ext_in = ext_in or {}
        self.ext_act = ext_acts or {}
        self.i2c_sensors = i2c_sensors or []
        self._update_time = update_time
        self.poll_outs = poll_outs
        self.update_all = update_all if update_all is not None else True
        self.nports = nports
-        self.mqtt_inputs = mqtt_inputs
+        self.fake_response = fake_response
        self.loop: asyncio.AbstractEventLoop = None
        self.hass = hass
        self.host = host
        self.sec = password
        self.mqtt = mqtt
        self.id = id
        self.lck = asyncio.Lock()
        self.last_long = {}
-        self._http_lck = asyncio.Lock()
+        self._http_lck = PriorityLock()
        self._notif_lck = asyncio.Lock()
        self.cnd = asyncio.Condition()
        self.online = True
        self.entities: typing.List[BaseMegaEntity] = []
        self.ds2413_ports = set()
        self.poll_interval = scan_interval
        self.subs = None
        self.lg: logging.Logger = lg.getChild(self.id)
@@ -113,26 +142,31 @@ class MegaD:
        self.updater = DataUpdateCoordinator(
            hass,
            self.lg,
-            name="sensors",
+            name="megad",
            update_method=self.poll,
            update_interval=timedelta(seconds=self.poll_interval) if self.poll_interval else None,
        )
        self.updaters = []
        self.fw = ''
        self.notifiers = defaultdict(asyncio.Condition)
        if not mqtt_id:
            _id = host.split(".")[-1]
            self.mqtt_id = f"megad/{_id}"
        else:
            self.mqtt_id = mqtt_id
        self.restore_on_restart = restore_on_restart
        if force_d is not None:
            self.customize[CONF_FORCE_D] = force_d
        try:
            if allow_hosts is not None and DOMAIN in hass.data:
                allow_hosts = set(allow_hosts.split(';'))
                hass.data[DOMAIN][CONF_HTTP].allowed_hosts |= allow_hosts
            hass.data[DOMAIN][CONF_HTTP].protected = protected
        except Exception:
            self.lg.exception('while setting allowed hosts')
    async def start(self):
-        self.loop = asyncio.get_event_loop()
+        pass
        if self.mqtt is not None:
            set_events_off()
            self.subs = await self.mqtt.async_subscribe(
                topic=f"{self.mqtt_id}/+",
                msg_callback=self._process_msg,
                qos=0,
            )
    async def stop(self):
        if self.subs is not None:
@@ -152,7 +186,10 @@ class MegaD:
                continue
            if x.port in ports:
                continue
-            await self.get_port(x.port, force_http=True, http_cmd=x.http_cmd)
+            try:
                await self.get_port(x.port, force_http=True, http_cmd=x.http_cmd)
            except asyncio.TimeoutError:
                continue
            ports.append(x.port)
    @property
@@ -163,6 +200,14 @@ class MegaD:
            self._customize = c
        return self._customize
    @property
    def force_d(self):
        return self.customize.get(CONF_FORCE_D, False)
    @property
    def def_response(self):
        return self.customize.get(CONF_DEF_RESPONSE, None)
    @property
    def is_online(self):
        return (datetime.now() - self.last_update).total_seconds() < (self.poll_interval + 10)
@@ -184,21 +229,47 @@ class MegaD:
            )
            self.online = True
    async def _get_ds2413(self):
        """
        обновление ds2413 устройств
        :return:
        """
        for x in self.ds2413_ports:
            self.lg.debug(f'poll ds2413 for %s', x)
            try:
                await self.get_port(
                    port=x,
                    force_http=True,
                    http_cmd='list',
                    conv=False
                )
            except asyncio.TimeoutError:
                continue
    async def poll(self):
        """
-        Send get port 0 every poll_interval. When answer is received, mega.<id> becomes online else mega.<id> becomes
+        Polling ports
        offline
        """
        self.lg.debug('poll')
-        if self.mqtt is None:
+        if self._update_time:
-            await self.get_all_ports()
+            await self.update_time()
-            await self.get_sensors(only_list=True)
+        for x in self.i2c_sensors:
-        elif self.poll_outs:
+            if not isinstance(x, dict):
-            await self.get_all_ports(check_skip=True)
+                continue
-        elif len(self.sensors) > 0:
+            ret = await self._update_i2c(x)
-            await self.get_sensors()
+            if isinstance(ret, dict):
-        else:
+                self.values.update(ret)
-            await self.get_port(self.port_to_scan)
+
        for x in self.extenders:
            ret = await self._update_extender(x)
            if not isinstance(ret, dict):
                self.lg.warning(f'wrong updater result: {ret} from extender {x}')
                continue
            self.values.update(ret)
        await self.get_all_ports()
        await self.get_sensors(only_list=True)
        await self._get_ds2413()
        return self.values
    async def get_mqtt_id(self):
@@ -212,33 +283,51 @@ class MegaD:
                _id = _id['value']
            return _id or 'megad/' + self.host.split('.')[-1]
    async def get_fw(self):
        data = await self.request()
        return PATT_FW.search(data).groups()[0]
    async def send_command(self, port=None, cmd=None):
        return await self.request(pt=port, cmd=cmd)
-    async def request(self, **kwargs):
+    async def request(self, priority=0, **kwargs):
        cmd = '&'.join([f'{k}={v}' for k, v in kwargs.items() if v is not None])
-        url = f"http://{self.host}/{self.sec}/?{cmd}"
+        url = f"http://{self.host}/{self.sec}"
        if cmd:
            url = f"{url}/?{cmd}"
        self.lg.debug('request: %s', url)
-        async with self._http_lck:
+        async with self._http_lck(priority):
-            async with aiohttp.request("get", url=url) as req:
+            for _ntry in range(3):
-                if req.status != 200:
+                try:
-                    self.lg.warning('%s returned %s (%s)', url, req.status, await req.text())
+                    async with aiohttp.request("get", url=url, timeout=aiohttp.ClientTimeout(total=5)) as req:
-                    return None
+                        if req.status != 200:
-                else:
+                            self.lg.warning('%s returned %s (%s)', url, req.status, await req.text())
-                    ret = await req.text()
+                            return None
-                    self.lg.debug('response %s', ret)
+                        else:
-                    return ret
+                            ret = await req.text()
                            self.lg.debug('response %s', ret)
                            return ret
                except asyncio.TimeoutError:
                    self.lg.warning(f'timeout while requesting {url}')
                    raise
                    # await asyncio.sleep(1)
            raise asyncio.TimeoutError('after 3 tries')
    async def save(self):
        await self.send_command(cmd='s')
-    def parse_response(self, ret):
+    def parse_response(self, ret, cmd='get'):
        if ret is None:
            raise NoPort()
        if 'busy' in ret:
            return None
        if ':' in ret:
-            ret = PATT_SPLIT.split(ret)
+            if ';' in ret:
                ret = ret.split(';')
            elif '/' in ret and not cmd == 'list':
                ret = ret.split('/')
            else:
                ret = [ret]
            ret = {'value': dict([
                x.split(':') for x in ret if x.count(':') == 1
            ])}
@@ -250,59 +339,42 @@ class MegaD:
            ret = {'value': ret}
        return ret
-    async def get_port(self, port, force_http=False, http_cmd='get'):
+    async def get_port(self, port, force_http=False, http_cmd='get', conv=True):
        """
        Запрос состояния порта. Состояние всегда возвращается в виде объекта, всегда сохраняется в центральное
        хранилище values
        """
        self.lg.debug(f'get port %s', port)
-        if self.mqtt is None or force_http:
+        if http_cmd == 'list' and conv:
-            if http_cmd == 'list':
+            await self.request(pt=port, cmd='conv')
-                await self.request(pt=port, cmd='conv')
+            await asyncio.sleep(1)
-                await asyncio.sleep(1)
+        ret = self.parse_response(await self.request(pt=port, cmd=http_cmd), cmd=http_cmd)
        ntry = 0
        while http_cmd == 'list' and ret is None and ntry < 3:
            await asyncio.sleep(1)
            ret = self.parse_response(await self.request(pt=port, cmd=http_cmd))
-            ntry = 0
+            ntry += 1
-            while http_cmd == 'list' and ret is None and ntry < 3:
+        self.lg.debug('parsed: %s', ret)
-                await asyncio.sleep(1)
+        self.values[port] = ret
-                ret = self.parse_response(await self.request(pt=port, cmd=http_cmd))
+        return ret
                ntry += 1
            self.lg.debug('parsed: %s', ret)
            self.values[port] = ret
            return ret
        async with self._notif_lck:
            async with self.notifiers[port]:
                cnd = self.notifiers[port]
                await self.mqtt.async_publish(
                    topic=f'{self.mqtt_id}/cmd',
                    payload=f'get:{port}',
                    qos=2,
                    retain=False,
                )
                try:
                    await asyncio.wait_for(cnd.wait(), timeout=10)
                    return self.values.get(port)
                except asyncio.TimeoutError:
                    self.lg.error(f'timeout when getting port {port}')
    @property
    def ports(self):
        return {e.port for e in self.entities}
    async def get_all_ports(self, only_out=False, check_skip=False):
-        if not self.mqtt_inputs:
+        try:
            ret = await self.request(cmd='all')
-            for port, x in enumerate(ret.split(';')):
+        except asyncio.TimeoutError:
-                if check_skip and not port in self.ports:
+            return
-                    continue
+        for port, x in enumerate(ret.split(';')):
-                ret = self.parse_response(x)
+            if port in self.ds2413_ports:
-                self.values[port] = ret
+                continue
-        elif not check_skip:
+            if check_skip and not port in self.ports:
-            for x in range(self.nports + 1):
+                continue
-                await self.get_port(x)
+            ret = self.parse_response(x)
-        else:
+            self.values[port] = ret
            for x in self.ports:
                await self.get_port(x)
    async def reboot(self, save=True):
        await self.save()
@@ -323,7 +395,7 @@ class MegaD:
        if port == 'cmd':
            return
        try:
-            port = int(port)
+            port = int_ignore(port)
        except:
            self.lg.warning('can not process %s', msg)
            return
@@ -352,14 +424,11 @@ class MegaD:
            asyncio.run_coroutine_threadsafe(self._notify(port, value), self.loop)
    def subscribe(self, port, callback):
-        port = int(port)
+        port = int_ignore(port)
        self.lg.debug(
            f'subscribe %s %s', port, callback
        )
-        if self.mqtt_inputs:
+        self.http.callbacks[self.id][port].append(callback)
            self._callbacks[port].append(callback)
        else:
            self.http.callbacks[self.id][port].append(callback)
    async def authenticate(self) -> bool:
        """Test if we can authenticate with the host."""
@@ -378,70 +447,136 @@ class MegaD:
            return await req.text()
    async def scan_port(self, port):
-        async with self.lck:
+        data = await self.request(pt=port)
-            if port in self._scanned:
+        return parse_config(data)
                return self._scanned[port]
            url = f'http://{self.host}/{self.sec}/?pt={port}'
            self.lg.debug(
                f'scan port %s: %s', port, url
            )
            async with aiohttp.request('get', url) as req:
                html = await req.text()
                if req.status != 200:
                    return
            tree = BeautifulSoup(html, features="lxml")
            pty = tree.find('select', attrs={'name': 'pty'})
            if pty is None:
                return
            else:
                pty = pty.find(selected=True)
                if pty:
                    pty = pty['value']
                else:
                    return
            if pty in ['0', '1']:
                m = tree.find('select', attrs={'name': 'm'})
                if m:
                    m = m.find(selected=True)['value']
                self._scanned[port] = (pty, m)
                return pty, m
            elif pty == '3':
                m = tree.find('select', attrs={'name': 'd'})
                if m:
                    m = m.find(selected=True)['value']
                self._scanned[port] = (pty, m)
                return pty, m
            elif pty in ('2', '4'):  # эта часть не очень проработана, тут есть i2c который может работать неправильно
                m = tree.find('select', attrs={'name': 'd'})
                if m:
                    m = m.find(selected=True)['value']
                self._scanned[port] = (pty, m or '0')
                return pty, m or '0'
    async def scan_ports(self, nports=37):
        for x in range(0, nports+1):
            ret = await self.scan_port(x)
            if ret:
-                yield [x, *ret]
+                yield x, ret
        self.nports = nports+1
    async def _update_extender(self, port):
        """
        Обновление mcp230, так же подходит для PCA9685
        :param port:
        :return:
        """
        try:
            values = await self.request(pt=port, cmd='get')
        except asyncio.TimeoutError:
            return
        ret = {}
        for i, x in enumerate(values.split(';')):
            ret[f'{port}e{i}'] = x
        return ret
    async def _update_i2c(self, params):
        """
        Обновление портов i2c
        :param params: параметры url
        :return:
        """
        pt = params.get('pt')
        if pt in self.skip_ports:
            return
        if pt is not None:
            pass
        _params = tuple(params.items())
        delay = None
        if 'delay' in params:
            delay = params.pop('delay')
        try:
            ret = {
                _params: await self.request(**params)
            }
        except asyncio.TimeoutError:
            return
        self.lg.debug('i2c response: %s', ret)
        if delay:
            self.lg.debug('delay %s', delay)
            await asyncio.sleep(delay)
        return ret
    async def get_config(self, nports=37):
        ret = defaultdict(lambda: defaultdict(list))
-        async for port, pty, m in self.scan_ports(nports):
+        ret['mqtt_id'] = await self.get_mqtt_id()
-            if pty == "0":
+        ret['extenders'] = extenders = []
        ret['ext_in'] = ext_int = {}
        ret['ext_acts'] = ext_acts = {}
        ret['i2c_sensors'] = i2c_sensors = []
        ret['smooth'] = smooth = []
        async for port, cfg in self.scan_ports(nports):
            _cust = self.customize.get(port)
            if not isinstance(_cust, dict):
                _cust = {}
            if cfg.pty == "0":
                ret['binary_sensor'][port].append({})
-            elif pty == "1" and (m in ['0', '1', '3'] or m is None):
+            elif cfg.pty == "1" and (cfg.m in ['0', '1', '3'] or cfg.m is None):
-                ret['light'][port].append({'dimmer': m == '1'})
+                if cfg.misc is not None:
-            elif pty in ('3', '2', '4'):
+                    smooth.append(port)
-                try:
+                ret['light'][port].append({'dimmer': cfg.m == '1', 'smooth': safe_int(cfg.misc)})
-                    http_cmd = 'get'
+            elif cfg == DS2413:
                # ds2413
                _data = await self.get_port(port=port, force_http=True, http_cmd='list', conv=False)
                data = _data.get('value', {})
                if not isinstance(data, dict):
                    self.lg.warning(f'can not add ds2413 on port {port}, it has wrong data: {_data}')
                    continue
                for addr, state in data.items():
                    ret['light'][port].extend([
                        {"index": 0, "addr": addr, "id_suffix": f'{addr}_a', "http_cmd": 'ds2413'},
                        {"index": 1, "addr": addr, "id_suffix": f'{addr}_b', "http_cmd": 'ds2413'},
                    ])
            elif cfg == MCP230:
                extenders.append(port)
                if cfg.inta:
                    ext_int[int_ignore(cfg.inta)] = port
                values = await self.request(pt=port, cmd='get')
                values = values.split(';')
                for n in range(len(values)):
                    ext_page = await self.request(pt=port, ext=n)
                    ext_cfg = parse_config(ext_page)
                    pt = f'{port}e{n}' if not self.new_naming else f'{port:02}e{n:02}'
                    if ext_cfg.ety == '1':
                        ret['light'][pt].append({})
                    elif ext_cfg.ety == '0':
                        if ext_cfg.eact:
                            ext_acts[pt] = ext_cfg.eact
                        ret['binary_sensor'][pt].append({})
            elif cfg == PCA9685:
                extenders.append(port)
                values = await self.request(pt=port, cmd='get')
                values = values.split(';')
                for n in range(len(values)):
                    pt = f'{port}e{n}'
                    name = pt if not self.new_naming else f'{port:02}e{n:02}'
                    ret['light'][pt].append({'dimmer': True, 'dimmer_scale': 16, 'name': f'{self.id}_{name}'})
            if cfg.pty == '4':  # and (cfg.gr == '0' or _cust.get(CONF_FORCE_I2C_SCAN))
                # i2c в режиме ANY
                scan = cfg.src.find('a', text='I2C Scan')
                self.lg.debug(f'find scan link: %s', scan)
                if scan is not None:
                    page = await self.request(pt=port, cmd='scan')
                    req, parsed = parse_scan_page(page)
                    self.lg.debug(f'scan results: %s', (req, parsed))
                    ret['i2c'][port].extend(parsed)
                    i2c_sensors.extend(req)
            elif cfg.pty == '4' and cfg.m == '2':
                # scl исключаем из сканирования
                continue
            elif cfg.pty in ('3', '2', '4'):
                http_cmd = 'get'
                if cfg.d == '5' and cfg.pty == '3':
                    # 1-wire bus
                    values = await self.get_port(port, force_http=True, http_cmd='list')
                    http_cmd = 'list'
                else:
                    values = await self.get_port(port, force_http=True)
                    if values is None or (isinstance(values, dict) and str(values.get('value')) in ('', 'None')):
                        values = await self.get_port(port, force_http=True, http_cmd='list')
                        http_cmd = 'list'
                except asyncio.TimeoutError:
                    self.lg.warning(f'timout on port {port}')
                    continue
                self.lg.debug(f'values: %s', values)
                if values is None:
                    self.lg.warning(f'port {port} is of type sensor but response is None, skipping it')
@@ -451,8 +586,8 @@ class MegaD:
                if isinstance(values, str) and TEMP_PATT.search(values):
                    values = {TEMP: values}
                elif not isinstance(values, dict):
-                    if pty == '4' and m in I2C_DEVICE_TYPES:
+                    if cfg.pty == '4' and cfg.d in I2C_DEVICE_TYPES:
-                        values = {I2C_DEVICE_TYPES[m]: values}
+                        values = {I2C_DEVICE_TYPES.get(cfg.m): values}
                    else:
                        values = {None: values}
                for key in values:
@@ -466,4 +601,110 @@ class MegaD:
                    ))
        return ret
    async def restore_states(self):
        for x in self.entities:
            if isinstance(x, MegaOutPort):
                if x.is_on:
                    await x.async_turn_on(brightness=x.brightness)
                else:
                    await x.async_turn_off()
    async def update_time(self):
        await self.request(
            cf=7,
            stime=datetime.now().strftime('%H:%M:%S')
        )
    async def reload(self, reload_entry=True):
        new = await self.get_config(nports=self.nports)
        cfg = dict(self.config.data)
        for x in REMOVE_CONFIG:
            cfg.pop(x, None)
        cfg.update(new)
        self.lg.debug(f'new config: %s', cfg)
        self.config.data = cfg
        if reload_entry:
            await self.hass.config_entries.async_reload(self.config.entry_id)
        return cfg
    def _wrap_port_smooth(self, from_, to_, time):
        self.lg.debug('dim from %s to %s for %s seconds', from_, to_, time)
        if time <= 0:
            return
        beg = datetime.now()
        diff = to_ - from_
        while True:
            _pct = (datetime.now() - beg).total_seconds() / time
            if _pct > 1:
                return
            val = from_ + round(diff * _pct)
            yield val
    async def smooth_dim(
            self,
            *config: typing.Tuple[typing.Any, int, int],
            time: float,
            jitter: int = 50,
            ws=False,
            updater=None,
            can_smooth_hardware=False,
            max_values=None,
            chip=None,
    ):
        """
        Плавное диммирование силами сервера, сразу нескольких портов (одной командой)
        :param config: [(port, from, to), (port, from, to)]
        :param time: время на диммирование
        :param jitter: дополнительное замедление между командами в милисекундах
        :param ws: если True, используется режим ws21xx
        :param updater: функция, в которую передается текущее состояние
        :param can_smooth_hardware: если True, используется аппаратная реализация smooth
        :param max_values: максимальные значения (необходимы для расчета тайминга аппаратного smooth)
        :param chip: кол-во чипов для ws-лент
        :return:
        """
        if can_smooth_hardware:
            for i, (pt, from_, to_) in enumerate(config):
                pct = abs(from_ - to_) / max_values[i]
                tm = max([round(time / pct), 1])
                await self.request(pt=pt, pwm=to_, cnt=tm)
        last_step = tuple([to_ for (_, _, to_) in config])
        gen = [self._wrap_port_smooth(f, t, time) for (_, f, t) in config]
        c = None
        stop = False
        while True:
            if stop:
                return
            await asyncio.sleep(jitter / 1000)
            try:
                _next_val = tuple([next(x) for x in gen])
            except StopIteration:
                _next_val = last_step
                stop = True
            if _next_val == c:
                continue
            if updater is not None:
                updater(_next_val)
            if can_smooth_hardware:
                if _next_val == last_step:
                    return
                continue
            if not ws:
                cmd = dict(
                    cmd=';'.join([f'{pt}:{_next_val[i]}' for i, (pt, _, _) in enumerate(config)])
                )
                await self.request(**cmd)
            else:
                # для адресных лент
                cmd = dict(
                    pt=config[0][0],
                    chip=chip,
                    ws=''.join([hex(x).split('x')[1].rjust(2, '0').upper() for x in _next_val])
                )
                await self.request(**cmd)
            if _next_val == last_step:
                return
            c = _next_val
--- a/custom_components/mega/i2c.py
+++ b/custom_components/mega/i2c.py
@@ -0,0 +1,144 @@
 from dataclasses import dataclass, field
 from urllib.parse import parse_qsl, urlparse
 from bs4 import BeautifulSoup
 from homeassistant.const import (
    DEVICE_CLASS_HUMIDITY,
    DEVICE_CLASS_TEMPERATURE,
    DEVICE_CLASS_ILLUMINANCE,
    DEVICE_CLASS_PRESSURE,
    DEVICE_CLASS_CO2,
    PERCENTAGE,
    LIGHT_LUX,
    TEMP_CELSIUS,
    CONCENTRATION_PARTS_PER_MILLION,
    PRESSURE_BAR,
 )
 from collections import namedtuple
 DeviceType = namedtuple('DeviceType', 'device_class,unit_of_measurement,suffix')
 def parse_scan_page(page: str):
    ret = []
    req = []
    page = BeautifulSoup(page, features="lxml")
    for x in page.find_all('a'):
        params = x.get('href')
        if params is None:
            continue
        params = dict(parse_qsl(urlparse(params).query))
        dev = params.get('i2c_dev')
        if dev is None:
            continue
        classes = i2c_classes.get(dev, [])
        for i, c in enumerate(classes):
            if c is Skip:
                continue
            elif c is Request:
                req.append(params)
                continue
            elif isinstance(c, Request):
                if c.delay:
                    params = params.copy()
                    params['delay'] = c.delay
                req.append(params)
                continue
            elif isinstance(c, DeviceType):
                c, m, suffix = c
            else:
                continue
            suffix = suffix or c
            if 'addr' in params:
                suffix += f"_{params['addr']}" if suffix else str(params['addr'])
            if suffix:
                _dev = f'{dev}_{suffix}'
            else:
                _dev = dev
            params = params.copy()
            if i > 0:
                params['i2c_par'] = i
            ret.append({
                'id_suffix': _dev,
                'device_class': c,
                'params': params,
                'unit_of_measurement': m,
            })
            req.append(params)
    return req, ret
 class Skip:
    pass
@dataclass
 class Request:
    delay: float = None
 i2c_classes = {
    'htu21d': [
        DeviceType(DEVICE_CLASS_HUMIDITY, PERCENTAGE, None),
        DeviceType(DEVICE_CLASS_TEMPERATURE, TEMP_CELSIUS, None),
    ],
    'sht31': [
        DeviceType(DEVICE_CLASS_HUMIDITY, PERCENTAGE, None),
        DeviceType(DEVICE_CLASS_TEMPERATURE, TEMP_CELSIUS, None),
    ],
    'max44009': [
        DeviceType(DEVICE_CLASS_ILLUMINANCE, LIGHT_LUX, None)
    ],
    'bh1750': [
        DeviceType(DEVICE_CLASS_ILLUMINANCE, LIGHT_LUX, None)
    ],
    'tsl2591': [
        DeviceType(DEVICE_CLASS_ILLUMINANCE, LIGHT_LUX, None)
    ],
    'bmp180': [
        DeviceType(DEVICE_CLASS_PRESSURE, PRESSURE_BAR, None),
        DeviceType(DEVICE_CLASS_TEMPERATURE, TEMP_CELSIUS, None),
    ],
    'bmx280': [
        DeviceType(DEVICE_CLASS_PRESSURE, PRESSURE_BAR, None),
        DeviceType(DEVICE_CLASS_TEMPERATURE, TEMP_CELSIUS, None),
        DeviceType(DEVICE_CLASS_HUMIDITY, PERCENTAGE, None)
    ],
    'dps368': [
        DeviceType(DEVICE_CLASS_PRESSURE, PRESSURE_BAR, None),
        DeviceType(DEVICE_CLASS_TEMPERATURE, TEMP_CELSIUS, None),
    ],
    'mlx90614': [
        Skip,
        DeviceType(DEVICE_CLASS_TEMPERATURE, TEMP_CELSIUS, 'temp'),
        DeviceType(DEVICE_CLASS_TEMPERATURE, TEMP_CELSIUS, 'object'),
    ],
    'ptsensor': [
        Skip,
        Request(delay=1),  # запрос на измерение
        DeviceType(DEVICE_CLASS_PRESSURE, PRESSURE_BAR, None),
        DeviceType(DEVICE_CLASS_TEMPERATURE, TEMP_CELSIUS, None),
    ],
    'mcp9600': [
        DeviceType(DEVICE_CLASS_TEMPERATURE, TEMP_CELSIUS, None),  # термопара
        DeviceType(DEVICE_CLASS_TEMPERATURE, TEMP_CELSIUS, None),  # сенсор встроенный в микросхему
    ],
    't67xx': [
        DeviceType(DEVICE_CLASS_CO2, CONCENTRATION_PARTS_PER_MILLION, None)
    ],
    'tmp117': [
        DeviceType(DEVICE_CLASS_TEMPERATURE, TEMP_CELSIUS, None),
    ],
    'ads1115': [
        DeviceType(None, None, 'ch0'),
        DeviceType(None, None, 'ch1'),
        DeviceType(None, None, 'ch2'),
        DeviceType(None, None, 'ch3'),
    ],
    'ads1015': [
        DeviceType(None, None, 'ch0'),
        DeviceType(None, None, 'ch1'),
        DeviceType(None, None, 'ch2'),
        DeviceType(None, None, 'ch3'),
    ],
 }
--- a/custom_components/mega/light.py
+++ b/custom_components/mega/light.py
@@ -1,11 +1,20 @@
 """Platform for light integration."""
 import asyncio
 import logging
 from datetime import timedelta, datetime
 from functools import partial
 import voluptuous as vol
 import colorsys
 import time
 from homeassistant.components.light import (
    PLATFORM_SCHEMA as LIGHT_SCHEMA,
    SUPPORT_BRIGHTNESS,
    LightEntity,
    SUPPORT_TRANSITION,
    SUPPORT_COLOR,
    SUPPORT_WHITE_VALUE
 )
 from homeassistant.config_entries import ConfigEntry
 from homeassistant.const import (
@@ -16,7 +25,7 @@ from homeassistant.const import (
    CONF_DOMAIN,
 )
 from homeassistant.core import HomeAssistant
-from .entities import MegaOutPort
+from .entities import MegaOutPort, BaseMegaEntity, safe_int
 from .hub import MegaD
 from .const import (
@@ -24,11 +33,12 @@ from .const import (
    CONF_SWITCH,
    DOMAIN,
    CONF_CUSTOM,
-    CONF_SKIP,
+    CONF_SKIP, CONF_LED, CONF_WS28XX, CONF_PORTS, CONF_WHITE_SEP, CONF_SMOOTH, CONF_ORDER, CONF_CHIP, RGB,
 )
 from .tools import int_ignore, map_reorder_rgb
 lg = logging.getLogger(__name__)
-
+SCAN_INTERVAL = timedelta(seconds=5)
 # Validation of the user's configuration
 _EXTENDED = {
@@ -59,16 +69,32 @@ async def async_setup_entry(hass: HomeAssistant, config_entry: ConfigEntry, asyn
    mid = config_entry.data[CONF_ID]
    hub: MegaD = hass.data['mega'][mid]
    devices = []
-    customize = hass.data.get(DOMAIN, {}).get(CONF_CUSTOM, {})
+    customize = hass.data.get(DOMAIN, {}).get(CONF_CUSTOM, {}).get(mid, {})
    skip = []
    if CONF_LED in customize:
        for entity_id, conf in customize[CONF_LED].items():
            ports = conf.get(CONF_PORTS) or [conf.get(CONF_PORT)]
            skip.extend(ports)
            devices.append(MegaRGBW(
                mega=hub,
                port=ports,
                name=entity_id,
                customize=conf,
                id_suffix=entity_id,
                config_entry=config_entry
            ))
    for port, cfg in config_entry.data.get('light', {}).items():
-        port = int(port)
+        port = int_ignore(port)
-        c = customize.get(mid, {}).get(port, {})
+        c = customize.get(port, {})
-        if c.get(CONF_SKIP, False) or c.get(CONF_DOMAIN, 'light') != 'light':
+        if c.get(CONF_SKIP, False) or port in skip or c.get(CONF_DOMAIN, 'light') != 'light':
            continue
        for data in cfg:
            hub.lg.debug(f'add light on port %s with data %s', port, data)
            light = MegaLight(mega=hub, port=port, config_entry=config_entry, **data)
            if '<' in light.name:
                continue
            devices.append(light)
    async_add_devices(devices)
@@ -76,5 +102,216 @@ class MegaLight(MegaOutPort, LightEntity):
    @property
    def supported_features(self):
-        return SUPPORT_BRIGHTNESS if self.dimmer else 0
+        return (
            (SUPPORT_BRIGHTNESS if self.dimmer else 0) |
            (SUPPORT_TRANSITION if self.dimmer else 0)
        )
 class MegaRGBW(LightEntity, BaseMegaEntity):
    def __init__(self, *args, **kwargs):
        super().__init__(*args, **kwargs)
        self._is_on = None
        self._brightness = None
        self._hs_color = None
        self._white_value = None
        self._task: asyncio.Task = None
        self._restore = None
        self.smooth: timedelta = self.customize[CONF_SMOOTH]
        self._color_order = self.customize.get(CONF_ORDER, 'rgb')
        self._last_called: float = 0
        self._max_values = None
    @property
    def max_values(self) -> list:
        if self._max_values is None:
            if self.is_ws:
                self._max_values = [255] * 3
            else:
                self._max_values = [
                    255 if isinstance(x, int) else 4095 for x in self.port
                ]
        return self._max_values
    @property
    def chip(self) -> int:
        return self.customize.get(CONF_CHIP, 100)
    @property
    def is_ws(self):
        return self.customize.get(CONF_WS28XX)
    @property
    def white_value(self):
        if self.supported_features & SUPPORT_WHITE_VALUE:
            return float(self.get_attribute('white_value', 0))
    @property
    def brightness(self):
        return float(self.get_attribute('brightness', 0))
    @property
    def hs_color(self):
        return self.get_attribute('hs_color', [0, 0])
    @property
    def is_on(self):
        return self.get_attribute('is_on', False)
    @property
    def supported_features(self):
        return (
            SUPPORT_BRIGHTNESS |
            SUPPORT_TRANSITION |
            SUPPORT_COLOR |
            (SUPPORT_WHITE_VALUE if len(self.port) == 4 else 0)
        )
    def get_rgbw(self):
        if not self.is_on:
            return [0 for x in range(len(self.port))] if not self.is_ws else [0] * 3
        rgb = colorsys.hsv_to_rgb(
            self.hs_color[0]/360, self.hs_color[1]/100, self.brightness / 255
        )
        rgb = [x for x in rgb]
        if self.white_value is not None:
            white = self.white_value
            if not self.customize.get(CONF_WHITE_SEP):
                white = white * (self.brightness / 255)
            rgb.append(white / 255)
        rgb = [
            round(x * self.max_values[i]) for i, x in enumerate(rgb)
        ]
        if self.is_ws:
            # восстанавливаем мэпинг
            rgb = map_reorder_rgb(rgb, RGB, self._color_order)
        return rgb
    async def async_turn_on(self, **kwargs):
        if (time.time() - self._last_called) < 0.1:
            return
        self._last_called = time.time()
        self.lg.debug(f'turn on %s with kwargs %s', self.entity_id, kwargs)
        if self._restore is not None:
            self._restore.update(kwargs)
            kwargs = self._restore
            self._restore = None
        _before = self.get_rgbw()
        self._is_on = True
        if self._task is not None:
            self._task.cancel()
        self._task = asyncio.create_task(self.set_color(_before, **kwargs))
    async def async_turn_off(self, **kwargs):
        if (time.time() - self._last_called) < 0.1:
            return
        self._last_called = time.time()
        self._restore = {
            'hs_color': self.hs_color,
            'brightness': self.brightness,
            'white_value': self.white_value,
        }
        _before = self.get_rgbw()
        self._is_on = False
        if self._task is not None:
            self._task.cancel()
        self._task = asyncio.create_task(self.set_color(_before, **kwargs))
    async def set_color(self, _before, **kwargs):
        transition = kwargs.get('transition')
        update_state = transition is not None and transition > 3
        for item, value in kwargs.items():
            setattr(self, f'_{item}', value)
        _after = self.get_rgbw()
        if transition is None:
            transition = self.smooth.total_seconds()
            ratio = self.calc_speed_ratio(_before, _after)
            transition = transition * ratio
        self.async_write_ha_state()
        ports = self.port if not self.is_ws else self.port*3
        config = [(port, _before[i], _after[i]) for i, port in enumerate(ports)]
        try:
            await self.mega.smooth_dim(
                *config,
                time=transition,
                ws=self.is_ws,
                jitter=50,
                updater=partial(self._update_from_rgb, update_state=update_state),
                can_smooth_hardware=self.can_smooth_hardware,
                max_values=self.max_values,
                chip=self.chip,
            )
        except asyncio.CancelledError:
            return
        except:
            self.lg.exception('while dimming')
    async def async_will_remove_from_hass(self) -> None:
        await super().async_will_remove_from_hass()
        if self._task is not None:
            self._task.cancel()
    def _update_from_rgb(self, rgbw, update_state=False):
        if len(self.port) == 4:
            w = rgbw[-1]
            rgb = rgbw[:3]
        else:
            w = None
            rgb = rgbw
        if self.is_ws:
            rgb = map_reorder_rgb(
                rgb, self._color_order, RGB
            )
        h, s, v = colorsys.rgb_to_hsv(*[x/self.max_values[i] for i, x in enumerate(rgb)])
        h *= 360
        s *= 100
        v *= 255
        self._hs_color = [h, s]
        if self.is_on:
            self._brightness = v
        if w is not None:
            if not self.customize.get(CONF_WHITE_SEP):
                w = w/(self._brightness / 255)
            else:
                w = w
            w = w / (self.max_values[-1] / 255)
            self._white_value = w
        # print(f'updated state {self.hs_color=} {self.brightness=}')
        if update_state:
            self.async_write_ha_state()
    async def async_update(self):
        """
        Эта штука нужна для синхронизации статуса вкл/выкл с реальностью. Если все цвета сброшены в ноль, значит мега
        рестартнулась и не запомнила настройки, поэтому извещаем HA о выключении
        Если вручную править цвет на стороне меги, тут изменения отражаться не будут
        :return:
        """
        if not self.enabled:
            return
        rgbw = []
        for x in self.port:
            data = self.coordinator.data
            if not isinstance(data, dict):
                return
            data = data.get(x, None)
            if isinstance(data, dict):
                data = data.get('value')
            data = safe_int(data)
            if data is None:
                return
            rgbw.append(data)
        if sum(rgbw) == 0:
            self._is_on = False
        self.async_write_ha_state()
    def calc_speed_ratio(self, _before, _after):
        ret = None
        for i, x in enumerate(_before):
            r = abs(x - _after[i]) / self.max_values[i]
            if ret is None:
                ret = r
            else:
                ret = max([r, ret])
        return ret
--- a/custom_components/mega/manifest.json
+++ b/custom_components/mega/manifest.json
@@ -2,7 +2,7 @@
  "domain": "mega",
  "name": "mega",
  "config_flow": true,
-  "documentation": "https://www.home-assistant.io/integrations/mega_hacs",
+  "documentation": "https://github.com/andvikt/mega_hacs",
  "requirements": [
    "beautifulsoup4",
    "lxml"
@@ -15,5 +15,5 @@
    "@andvikt"
  ],
  "issue_tracker": "https://github.com/andvikt/mega_hacs/issues",
-  "version": "v0.3.13"
+  "version": "v1.0.8"
 }
--- a/custom_components/mega/sensor.py
+++ b/custom_components/mega/sensor.py
@@ -1,6 +1,7 @@
 """Platform for light integration."""
 import logging
 import voluptuous as vol
 import struct
 from homeassistant.components.sensor import (
    PLATFORM_SCHEMA as SENSOR_SCHEMA,
@@ -13,15 +14,18 @@ from homeassistant.const import (
    CONF_PORT,
    CONF_UNIQUE_ID,
    CONF_ID,
-    CONF_TYPE, CONF_UNIT_OF_MEASUREMENT,
+    CONF_TYPE, CONF_UNIT_OF_MEASUREMENT, CONF_VALUE_TEMPLATE,
    CONF_DEVICE_CLASS,
 )
 from homeassistant.core import HomeAssistant
 from homeassistant.helpers.template import Template
 from .entities import MegaPushEntity
-from .const import CONF_KEY, TEMP, HUM, W1, W1BUS, CONF_CONV_TEMPLATE
+from .const import CONF_KEY, TEMP, HUM, W1, W1BUS, CONF_CONV_TEMPLATE, CONF_HEX_TO_FLOAT, DOMAIN, CONF_CUSTOM, CONF_SKIP
 from .hub import MegaD
 import re
 from .tools import int_ignore
 lg = logging.getLogger(__name__)
 TEMP_PATT = re.compile(r'temp:([01234567890\.]+)')
 HUM_PATT = re.compile(r'hum:([01234567890\.]+)')
@@ -80,21 +84,80 @@ async def async_setup_entry(hass: HomeAssistant, config_entry: ConfigEntry, asyn
    mid = config_entry.data[CONF_ID]
    hub: MegaD = hass.data['mega'][mid]
    devices = []
-    for port, cfg in config_entry.data.get('sensor', {}).items():
+    customize = hass.data.get(DOMAIN, {}).get(CONF_CUSTOM, {}).get(mid, {})
-        port = int(port)
+    for tp in ['sensor', 'i2c']:
-        for data in cfg:
+        for port, cfg in config_entry.data.get(tp, {}).items():
-            hub.lg.debug(f'add sensor on port %s with data %s', port, data)
+            port = int_ignore(port)
-            sensor = Mega1WSensor(
+            c = customize.get(port, {})
-                mega=hub,
+            if c.get(CONF_SKIP):
-                port=port,
+                hub.skip_ports |= {port}
-                config_entry=config_entry,
+                continue
-                **data,
+            for data in cfg:
-            )
+                hub.lg.debug(f'add sensor on port %s with data %s', port, data)
-            devices.append(sensor)
+                sensor = _constructors[tp](
                    mega=hub,
                    port=port,
                    config_entry=config_entry,
                    **data,
                )
                if '<' in sensor.name:
                    continue
                devices.append(sensor)
    async_add_devices(devices)
 class MegaI2C(MegaPushEntity):
    def __init__(
            self,
            *args,
            device_class: str,
            params: dict,
            unit_of_measurement: str = None,
            **kwargs
    ):
        self._device_class = device_class
        self._params = tuple(params.items())
        self._unit_of_measurement = unit_of_measurement
        super().__init__(*args, **kwargs)
    @property
    def customize(self):
        return super().customize.get(self.id_suffix, {}) or {}
    @property
    def device_class(self):
        return self._device_class
    @property
    def unit_of_measurement(self):
        return self._unit_of_measurement
    @property
    def state(self):
        # self.lg.debug(f'get % all states: %', self._params, self.mega.values)
        ret = self.mega.values.get(self._params)
        if self.customize.get(CONF_HEX_TO_FLOAT):
            try:
                ret = struct.unpack('!f', bytes.fromhex('41973333'))[0]
            except:
                self.lg.warning(f'could not convert {ret} form hex to float')
        tmpl: Template = self.customize.get(CONF_CONV_TEMPLATE, self.customize.get(CONF_VALUE_TEMPLATE))
        try:
            ret = float(ret)
            if tmpl is not None and self.hass is not None:
                tmpl.hass = self.hass
                ret = tmpl.async_render({'value': ret})
        except:
            ret = ret
        return str(ret)
    @property
    def device_class(self):
        return self._device_class
 class Mega1WSensor(MegaPushEntity):
    def __init__(
@@ -102,7 +165,6 @@ class Mega1WSensor(MegaPushEntity):
            unit_of_measurement,
            device_class,
            key=None,
            http_cmd='get',
            *args,
            **kwargs
    ):
@@ -118,7 +180,6 @@ class Mega1WSensor(MegaPushEntity):
        self._device_class = device_class
        self._unit_of_measurement = unit_of_measurement
        self.mega.sensors.append(self)
        self.http_cmd = http_cmd
    @property
    def unit_of_measurement(self):
@@ -141,7 +202,15 @@ class Mega1WSensor(MegaPushEntity):
    @property
    def device_class(self):
-        return self._device_class
+        _u = self.customize.get(CONF_DEVICE_CLASS, None)
        if _u is None:
            return self._device_class
        elif isinstance(_u, str):
            return _u
        elif isinstance(_u, dict) and self.key in _u:
            return _u[self.key]
        else:
            return self._device_class
    @property
    def state(self):
@@ -165,11 +234,20 @@ class Mega1WSensor(MegaPushEntity):
            ret = str(ret)
        except:
            ret = None
-        tmpl: Template = self.customize.get(CONF_CONV_TEMPLATE)
+        if self.customize.get(CONF_HEX_TO_FLOAT):
-        if tmpl is not None and self.hass is not None:
+            try:
-            tmpl.hass = self.hass
+                ret = struct.unpack('!f', bytes.fromhex(ret))[0]
-            ret = tmpl.async_render({'value': ret})
+            except:
-        return ret
+                self.lg.warning(f'could not convert {ret} form hex to float')
        tmpl: Template = self.customize.get(CONF_CONV_TEMPLATE, self.customize.get(CONF_VALUE_TEMPLATE))
        try:
            ret = float(ret)
            if tmpl is not None and self.hass is not None:
                tmpl.hass = self.hass
                ret = tmpl.async_render({'value': ret})
        except:
            pass
        return str(ret)
    @property
    def name(self):
@@ -177,4 +255,10 @@ class Mega1WSensor(MegaPushEntity):
        c = self.customize.get(CONF_NAME, {})
        if isinstance(c, dict):
            c = c.get(self.key)
-        return c or n
+        return c or n
 _constructors = {
    'sensor': Mega1WSensor,
    'i2c': MegaI2C,
 }
--- a/custom_components/mega/strings.json
+++ b/custom_components/mega/strings.json
@@ -15,7 +15,14 @@
          "mqtt_inputs": "[%key:common::config_flow::data::mqtt_inputs%]",
          "nports": "[%key:common::config_flow::data::nports%]",
          "update_all": "[%key:common::config_flow::data::update_all%]",
-          "poll_outs": "[%key:common::config_flow::data::poll_outs%]"
+          "fake_response": "[%key:common::config_flow::data::fake_response%]",
          "force_d": "[%key:common::config_flow::data::force_d%]",
          "protected": "[%key:common::config_flow::data::protected%]",
          "allow_hosts": "[%key:common::config_flow::data::allow_hosts%]",
          "restore_on_restart": "[%key:common::config_flow::data::restore_on_restart%]",
          "poll_outs": "[%key:common::config_flow::data::poll_outs%]",
          "update_time": "[%key:common::config_flow::data::update_time%]"
        }
      }
    },
--- a/custom_components/mega/switch.py
+++ b/custom_components/mega/switch.py
@@ -18,6 +18,7 @@ from homeassistant.core import HomeAssistant
 from . import hub as h
 from .entities import MegaOutPort
 from .const import CONF_DIMMER, CONF_SWITCH, DOMAIN, CONF_CUSTOM, CONF_SKIP
 from .tools import int_ignore
 _LOGGER = lg = logging.getLogger(__name__)
@@ -50,13 +51,15 @@ async def async_setup_entry(hass: HomeAssistant, config_entry: ConfigEntry, asyn
    customize = hass.data.get(DOMAIN, {}).get(CONF_CUSTOM, {})
    for port, cfg in config_entry.data.get('light', {}).items():
-        port = int(port)
+        port = int_ignore(port)
        c = customize.get(mid, {}).get(port, {})
        if c.get(CONF_SKIP, False) or c.get(CONF_DOMAIN, 'light') != 'switch':
            continue
        for data in cfg:
            hub.lg.debug(f'add switch on port %s with data %s', port, data)
            light = MegaSwitch(mega=hub, port=port, config_entry=config_entry, **data)
            if '<' in light.name:
                continue
            devices.append(light)
    async_add_devices(devices)
--- a/custom_components/mega/tools.py
+++ b/custom_components/mega/tools.py
@@ -1,5 +1,12 @@
 import asyncio
 import itertools
 from heapq import heappush
 from contextlib import asynccontextmanager
 _params = ['m', 'click', 'cnt', 'pt']
 def make_ints(d: dict):
    for x in _params:
        try:
@@ -9,4 +16,109 @@ def make_ints(d: dict):
    if 'm' not in d:
        d['m'] = 0
    if 'click' not in d:
-        d['click'] = 0
+        d['click'] = 0
 def int_ignore(x):
    try:
        return int(x)
    except (TypeError, ValueError):
        return x
 class PriorityLock(asyncio.Lock):
    """
    You can acquire lock with some kind of priority in mind, so that locks with higher priority will be released first.
    priority can be set with lck.acquire(1)
    or by using context manager:
    >>> lck = PriorityLock()
    ... async with lck(1):
    ...     # do something
    """
    def __init__(self, *args, **kwargs):
        super().__init__(*args, **kwargs)
        self._cnt = itertools.count()
    def __call__(self, priority=0):
        return self._with_priority(priority)
    @asynccontextmanager
    async def _with_priority(self, p):
        await self.acquire(p)
        try:
            yield
        finally:
            self.release()
    async def acquire(self, priority=0) -> bool:
        """Acquire a lock.
                This method blocks until the lock is unlocked, then sets it to
                locked and returns True.
                """
        if (not self._locked and (self._waiters is None or
                                  all(w.cancelled() for _, _, w in self._waiters))):
            self._locked = True
            return True
        if self._waiters is None:
            self._waiters = []
        fut = self._loop.create_future()
        cnt = next(self._cnt)
        heappush(self._waiters, (priority, cnt, fut))
        # Finally block should be called before the CancelledError
        # handling as we don't want CancelledError to call
        # _wake_up_first() and attempt to wake up itself.
        try:
            try:
                await fut
            finally:
                self._waiters.remove((priority, cnt, fut))
        except asyncio.exceptions.CancelledError:
            if not self._locked:
                self._wake_up_first()
            raise
        self._locked = True
        return True
    def release(self):
        """Release a lock.
        When the lock is locked, reset it to unlocked, and return.
        If any other coroutines are blocked waiting for the lock to become
        unlocked, allow exactly one of them to proceed.
        When invoked on an unlocked lock, a RuntimeError is raised.
        There is no return value.
        """
        if self._locked:
            self._locked = False
            self._wake_up_first()
        else:
            raise RuntimeError('Lock is not acquired.')
    def _wake_up_first(self):
        """Wake up the first waiter if it isn't done."""
        if not self._waiters:
            return
        try:
            _, _, fut = self._waiters[0]
        except IndexError:
            return
        # .done() necessarily means that a waiter will wake up later on and
        # either take the lock, or, if it was cancelled and lock wasn't
        # taken already, will hit this again and wake up a new waiter.
        if not fut.done():
            fut.set_result(True)
 def map_reorder_rgb(rgb: list, from_: str, to_: str):
    if from_ == to_:
        return rgb
    mapping = [from_.index(x) for x in to_]
    return [rgb[x] for x in mapping]
--- a/custom_components/mega/translations/en.json
+++ b/custom_components/mega/translations/en.json
@@ -22,8 +22,14 @@
                    "port_to_scan": "Port to poll aliveness (needed only if no sensors used)",
                    "nports": "Number of ports",
                    "update_all": "Update all outs when input",
-                    "mqtt_inputs": "Use MQTT",
+                    "mqtt_inputs": "Use MQTT (Deprecated)",
-                    "poll_outs": "Poll outs"
+                    "fake_response": "Fake response",
                    "force_d": "Force 'd' response",
                    "protected": "Protected",
                    "allow_hosts": "Allowed hosts",
                    "restore_on_restart": "Restore outs on restart",
                    "poll_outs": "Poll outs",
                    "update_time": "Sync time"
                }
            }
        }
@@ -35,9 +41,15 @@
                  "scan_interval": "Scan interval (sec), 0 - don't update",
                  "port_to_scan": "Port to poll aliveness (needed only if no sensors used)",
                  "reload": "Reload objects",
-                  "mqtt_inputs": "Use MQTT",
+                  "mqtt_inputs": "Use MQTT (Deprecated)",
                  "update_all": "Update all outs when input",
-                  "poll_outs": "Poll outs"
+                  "fake_response": "Fake response",
                  "force_d": "Force 'd' response",
                  "protected": "Protected",
                  "allow_hosts": "Allowed hosts",
                  "restore_on_restart": "Restore outs on restart",
                  "poll_outs": "Poll outs",
                  "update_time": "Sync time"
                }
            }
        }
--- a/custom_components/mega/translations/ru.json
+++ b/custom_components/mega/translations/ru.json
@@ -19,10 +19,16 @@
                    "mqtt_id": "MQTT id",
                    "scan_interval": "Периодичность обновлений (сек.), 0 - не обновлять",
                    "port_to_scan": "Порт, который сканируется когда нет датчиков",
-                    "mqtt_inputs": "Использовать MQTT",
+                    "mqtt_inputs": "Использовать MQTT (Не рекомендуется)",
                    "nports": "Кол-во портов",
                    "update_all": "Обновить все выходы когда срабатывает вход",
-                    "poll_outs": "Обновлять выходы (регулярно)"
+                    "fake_response": "Имитация http-ответа",
                    "force_d": "Ответ 'd' по умолчанию",
                    "protected": "Блокировать неразрешенные соединения",
                    "restore_on_restart": "Восстанавливать выходы при перезагрузке",
                    "allow_hosts": "Разрешенные ip (через ;)",
                    "poll_outs": "Обновлять выходы (регулярно)",
                    "update_time": "Синхронизировать время"
                }
            }
        }
@@ -35,10 +41,16 @@
                  "port_to_scan": "Порт, который сканируется когда нет датчиков",
                  "reload": "Обновить объекты",
                  "invert": "Список портов (через ,) с инвертированной логикой",
-                  "mqtt_inputs": "Использовать MQTT",
+                  "mqtt_inputs": "Использовать MQTT (Не рекомендуется)",
-                    "nports": "Кол-во портов",
+                  "fake_response": "Имитация http-ответа",
-                    "update_all": "Обновить все выходы когда срабатывает вход",
+                  "force_d": "Ответ 'd' по умолчанию",
-                    "poll_outs": "Обновлять выходы (регулярно)"
+                  "nports": "Кол-во портов",
                  "update_all": "Обновить все выходы когда срабатывает вход",
                  "protected": "Блокировать неразрешенные соединения",
                  "allow_hosts": "Разрешенные ip (через ;)",
                  "restore_on_restart": "Восстанавливать выходы при перезагрузке",
                  "poll_outs": "Обновлять выходы (регулярно)",
                  "update_time": "Синхронизировать время"
                }
            }
        }
--- a/custom_components/mega/translations/uk.json
+++ b/custom_components/mega/translations/uk.json
@@ -19,10 +19,16 @@
                    "mqtt_id": "MQTT id",
                    "scan_interval": "Період оновлення (сек.), 0 - не оновлювати",
                    "port_to_scan": "Порт для сканування при відсутності датчиків",
-                    "mqtt_inputs": "Використовувати MQTT",
+                    "mqtt_inputs": "Використовувати MQTT (Deprecated)",
                    "nports": "Кількість портів",
                    "update_all": "Оновити всі виходи коли спрацьовує вхід",
-                    "poll_outs": "Оновити виходи"
+                    "fake_response": "Імітація http-відповіді",
                    "force_d": "Неявно відповідати 'd'",
                    "protected": "Блокувати недозволені з'єднання",
                    "allow_hosts": "Дозволені ip (через ;)",
                    "restore_on_restart": "Відновлювати виходи при перезавантаженні",
                    "poll_outs": "Оновити виходи",
                    "update_time": "Осинхронізувати час"
                }
            }
        }
@@ -31,13 +37,18 @@
        "step": {
            "init": {
                "data": {
-                  "scan_interval": "Період оновлення (сек.)",
+                    "scan_interval": "Період оновлення (сек.)",
-                  "port_to_scan": "Порт для сканування при відсутності датчиків",
+                    "port_to_scan": "Порт для сканування при відсутності датчиків",
-                  "reload": "Оновити об'єкти",
+                    "reload": "Оновити об'єкти",
-                  "invert": "Список портів з інвертованою логікою (через ,)",
+                    "invert": "Список портів з інвертованою логікою (через ,)",
-                  "mqtt_inputs": "Використовувати MQTT",
+                    "mqtt_inputs": "Використовувати MQTT (Deprecated)",
-                  "nports": "Кількість портів",
+                    "nports": "Кількість портів",
-                  "update_all": "Оновити всі виходи коли спрацьовує вхід",
+                    "fake_response": "Імітація http-відповіді",
                    "force_d": "Неявно відповідати 'd'",
                    "update_all": "Оновити всі виходи коли спрацьовує вхід",
                    "protected": "Блокувати недозволені з'єднання",
                    "allow_hosts": "Дозволені ip (через ;)",
                    "restore_on_restart": "Відновлювати виходи при перезавантаженні",
                    "poll_outs": "Оновити виходи"
                }
            }
--- a/readme.md
+++ b/readme.md
@@ -4,25 +4,51 @@
 [![hacs_badge](https://img.shields.io/badge/HACS-Custom-orange.svg)](https://github.com/custom-components/hacs)
 [![Donate](https://img.shields.io/badge/donate-Yandex-red.svg)](https://yoomoney.ru/to/410013955329136)
-Интеграция с [MegaD-2561](https://www.ab-log.ru/smart-house/ethernet/megad-2561)
+Интеграция с [MegaD-2561, MegaD-328](https://www.ab-log.ru/smart-house/ethernet/megad-2561)
 Если вам понравилась интеграция, не забудьте поставить звезду на гитхабе - вам не сложно, а мне приятно ) А если
 интеграция очень понравилась - еще приятнее, если вы воспользуетесь кнопкой доната )
 Обновление прошивки MegaD можно делать прямо из HA с помощью [аддона](https://github.com/andvikt/mega_addon.git)
 Подробная документация по [ссылке](https://github.com/andvikt/mega_hacs/wiki)
 Предложения по доработкам просьба писать в [discussions](https://github.com/andvikt/mega_hacs/discussions), о проблемах
 создавать [issue](https://github.com/andvikt/mega_hacs/issues/new/choose)
 ## Основные особенности:
- Настройка в веб-интерфейсе + yaml
+- Настройка в веб-интерфейсе + [yaml](https://github.com/andvikt/mega_hacs/wiki/Кастомизация)
 - Все порты автоматически добавляются как устройства (для обычных релейных выходов создается 
  `light`, для шим - `light` с поддержкой яркости, для цифровых входов `binary_sensor`, для датчиков
  `sensor`)
 - Поддержка rgb+w лент как с использованием диммеров, так и адресных лент на чипах ws28xx и подобных, 
  [подробнее про rgbw](https://github.com/andvikt/mega_hacs/wiki/rgbw)
 - Плавное диммирование для любых диммируемых объектов (в том числе с аппаратной поддержкой и без),
  [подробнее про smooth](https://github.com/andvikt/mega_hacs/wiki/smooth)
 - Возможность работы с несколькими megad
- Обратная связь по mqtt или http (на выбор)
+- Обратная связь по [http](https://github.com/andvikt/mega_hacs/wiki/http)
- События на двойные/долгие нажатия
+- Автоматическое восстановление состояний выходов после перезагрузки контроллера
 - Автоматическое добавление/изменение объектов после перезагрузки контроллера
 - [События](https://github.com/andvikt/mega_hacs/wiki/События) на двойные/долгие нажатия
 - Команды выполняются друг за другом без конкурентного доступа к ресурсам megad, это дает гарантии надежного исполнения
  большого кол-ва команд (например в сценах). Каждая следующая команда отправляется только после получения ответа о
  выполнении предыдущей.
 - поддержка [ds2413](https://www.ab-log.ru/smart-house/ethernet/megad-2w) в том числе несколько шиной (начиная с версии 0.4.1)
 - поддержка расширителей MegaD-16I-XT, MegaD-16R-XT, MegaD-16PWM (начиная с версии 0.5.1)
 - поддержка всех возможных датчиков в режиме I2C-ANY, полный список поддерживаемых датчиков 
  [по ссылке](https://github.com/andvikt/mega_hacs/wiki/i2c) (начиная с версии 0.6.1)
 ## Установка
 Рекомендованный способ с поддержкой обновлений - [HACS](https://hacs.xyz/docs/installation/installation):
 HACS - Integrations - Explore, в поиске ищем MegaD. 
 Чтобы включить возможность использования бета-версий, зайдите в HACS, найдите интеграцию MegaD, нажмите три точки, 
 там кнопка "переустановить" или reinstall, дальше нужно нажать галку "показывать бета-версии"
 Обновления выполняются так же в меню HACS. 
 Информация об обновлениях приходит с некоторым интервалом, чтобы вручную проверить наличие обновлений
 нажмите три точки возле интеграции в меню HACS и нажмите `обновить информацию`
 Альтернативный способ установки:
 ```shell
 # из папки с конфигом
@@ -35,200 +61,23 @@ wget -q -O - https://raw.githubusercontent.com/andvikt/mega_hacs/master/install.
 Все имеющиеся у вас порты будут настроены автоматически. Вы можете менять названия, иконки и entity_id так же из интерфейса.
 #### Кастомизация устройств с помощью yaml:
 ```yaml
 # configuration.yaml
 mega:
  hello: # ID меги, как в UI 
    7: # номер порта
      domain: switch # тип устройства (switch или light, по умолчанию для цифровых выходов используется light)
      invert: true # инвертировать или нет (по умолчанию false)
      name: Насос # имя устройства
    8:
      # исключить из сканирования
      skip: true
    33:
      # для датчиков можно кастомизировать только имя и unit_of_measurement
      # для температуры и влажность unit определяется автоматически, для остальных юнита нет 
      name:
        hum: "влажность"
        temp: "температура"
      unit_of_measurement:
        hum: "%" # если датчиков несколько, то можно указывать юниты по их ключам
        temp: "°C"
      # можно так же указать шаблон для конвертации значения, может быть полезно для ацп-входа
      # текущее значение порта передается в шаблон в переменной "value"
      conv_template: "{{(value|float)/100}}"
    14:
      name: какой-то датчик
      unit_of_measurement: "°C" # если датчик один, то просто строчкой
 ```
 ## Зависимости
 Для совместимости c mqtt необходимо настроить интеграцию [mqtt](https://www.home-assistant.io/integrations/mqtt/) 
 в HomeAssistant, а так же обновить ваш контроллер до последней версии, тк были важные обновления в части mqtt
 ## HTTP in
 Начиная с версии `0.3.1` интеграция стала поддерживать обратную связь без mqtt, используя http-сервер. Для этого в настройках
 интеграции необходимо снять галку с `использовать mqtt`
 **Внимание!** Не используйте srv loop на контроллере, это может приводить к ложным срабатываниям входов. Вместо srv loop 
 интеграция будет сама обновлять все состояния портов с заданным интервалом
 В самой меге необходимо прописать настройки:
 ```yaml
 srv: "192.168.1.4:8123" # ip:port вашего HA
 script: "mega" # это api интеграции, к которому будет обращаться контроллер
 ```
 Так же необходимо настроить Mega-ID в настройках контроллера, для каждой меги id должен быть разным.
-#### Ответ на входящие события от контроллера
+При любых изменениях настроек контроллера (типы входов, id и тд) необходимо в настройках интеграции нажать `Обновить 
-Контроллер ожидает ответ от сервера, который может быть сценарием (по умолчанию интеграция отвечает `d`, что означает 
+объекты`
 запустить то что прописано в поле act в настройках порта).
-Поддерживаются шаблоны HA. Это может быть использовано, например, для запоминания яркости (тк сам контроллер этого не 
+## Зависимости
-умеет). В шаблоне можно использовать параметры, которые передает контроллер (m, click, pt, mdid, mega_id)
+Для максимальной скорости реакции на команды сервера, рекомендуется выключить `имитацию http-ответа` в 
 настройках интеграции и настроить proxy_pass к HA, самый простой способ сделать это - воспользоваться 
 [специальным аддоном](https://github.com/andvikt/mega_addon/tree/master/mega-proxy)
-Примеры:
+Обновить ваш контроллер до последней версии, обновление прошивки MegaD можно делать 
-```yaml
+из HA с помощью [аддона](https://github.com/andvikt/mega_addon.git)
 mega:
  mega1: # id меги, который вы сами придумываете в конфиге в UI
    4: # номер порта, с которого ожидаются события
      response_template: "5:2" # простейший пример без шаблона. Каждый раз когда будет приходить сообщение на этот порт, 
                             # будем менять состояние на противоположное
    5:
      # пример с использованием шаблона, порт 1 будет выключен если он сейчас включен и включен с последней сохраненной 
      # яркостью если он сейчас выключен     
      response_template: >-
        {% if is_state('light.some_port_1', 'on') %}
        1:0
        {% else %}
        1:{{state_attr('light.some_port_1', 'brightness')}}
        {% endif %}
    6:
      # в шаблон так же передаются все параметры, которые передает контроллер (pt, cnt, m, click)
      # эти параметры можно использовать в условиях или непосредственно в шаблоне в виде {{pt}}
      response_template: >-
        {% if m==2 %}1:0{% else %}d{% endif %}
 ```
 ## binary_sensor и события
-Входы будут доступны как binary_sensor, а так же в виде событий `mega.sensor` и `mega.binary`.
+Подробная документация по [ссылке](https://github.com/andvikt/mega_hacs/wiki)
 Для корректной работы binary_sensor имеет смысл использовать режим P&R, для остальных режимов - лучше пользоваться 
 событиями.
 События можно использовать в автоматизациях, например так:
 ```yaml
 # Пример события с полями как есть прямо из меги
 - alias: some double click
  trigger:
    - platform: event
      event_type: mega.sensor
      event_data:
        pt: 1
        click: 2
  action:
    - service: light.toggle
      entity_id: light.some_light
 ```
 События могут содержать следующие поля: 
 - `mega_id`: id как в конфиге HA
 - `pt`: номер порта
 - `cnt`: счетчик срабатываний
 - `mdid`: if как в конфиге контроллера
 - `click`: клик (подробнее в документации меги)
 - `value`: текущее значение (только для mqtt)
 - `port`: номер порта
 Начиная с версии 0.3.7 появилось так же событие типа `mega.binary`:
 ```yaml
 # Пример события с полями как есть прямо из меги
 - alias: some long click
  trigger:
    - platform: event
      event_type: mega.binary
      event_data:
        entity_id: binary_sensor.some_id
        type: long
  action:
    - service: light.toggle
      entity_id: light.some_light
 ```
 Возможные варианты поля `type`:
 - `long`: долгое нажатие
 - `release`: размыкание (с гарантией** что не было долгого нажатия)
 - `long_release`: размыкание после долгого нажатия
 - `press`: замыкание
 - `single`: одинарный клик (в режиме кликов)
 - `double`: двойной клик
 **гарантия есть только при использовании http-метода синхронизации, mqtt не гарантирует порядок доставки сообщений, хотя 
 маловероятно, что порядок будет нарушен, но все же сам протокол не дает таких гарантий.
 Чтобы понять, какие события происходят, лучше всего воспользоваться панелью разработчика и подписаться
 на вкладке события на событие `mega.sensor`, понажимать кнопки.
 ## Сервисы
 Все сервисы доступны в меню разработчика с описанием и примерами использования
 ```yaml
 mega.save:
  description: Сохраняет текущее состояние портов (?cmd=s)
  fields:
    mega_id:
      description: ID меги, можно оставить пустым, тогда будут сохранены все зарегистрированные меги
      example: "mega"
 mega.get_port:
  description: Запросить текущий статус порта (или всех)
  fields:
    mega_id:
      description: ID меги, можно оставить пустым, тогда будут порты всех зарегистрированных мег
      example: "mega"
    port:
      description: Номер порта (если не заполнять, будут запрошены все порты сразу)
      example: 1
 mega.run_cmd:
  description: Выполнить любую произвольную команду
  fields:
    mega_id:
      description: ID меги
      example: "mega"
    port:
      description: Номер порта (это не порт, которым мы управляем, а порт с которого шлем команду)
      example: 1
    cmd:
      description: Любая поддерживаемая мегой команда
      example: "1:0"
 ```
 ## Отладка
 Интеграция находится в активной разработке, при возникновении проблем [заводите issue](https://github.com/andvikt/mega_hacs/issues/new/choose)
 Просьба прикладывать детальный лог, который можно включить в конфиге так:
 ```yaml
 logger:
  default: info
  logs:
    custom_components.mega: debug
 ```
 #### Отладка ответов http-сервера
 Для отладки ответов сервера можно самим имитировать запросы контроллера, если у вас есть доступ к консоли
 HA:
 ```shell
 curl -v -X GET 'http://localhost:8123/mega?pt=5&m=1'
 ```
 Если доступа нет, нужно в файл конфигурации добавить ip, с которого вы хотите делать запросы, например:
 ```yaml
 mega:
  allow_hosts:
    - 192.168.1.1
 ```
 И тогда можно с локальной машины делать запросы на ваш сервер HA:
 ```shell
 curl -v -X GET 'http://192.168.88.1.4:8123/mega?pt=5&m=1'
 ```
 В ответ будет приходить либо `d`, либо скрипт, который вы настроили
Author	SHA1	Message	Date
Andrey	54f1ebeda3	fix some issues with brightness after restart	2021-07-29 21:30:41 +03:00
Andrey	87492be38f	fix dimmer_scale for PCA9685	2021-07-25 08:36:12 +03:00
Andrey	0fab2384b0	fix patt	2021-04-21 10:08:28 +03:00
Andrey	70a2e5bbb0	fix patt	2021-04-20 17:00:31 +03:00
Andrey	83c843d722	fix validation error	2021-04-20 09:23:36 +03:00
Andrey	af684a6c00	fix validation error	2021-04-20 09:19:37 +03:00
Andrey	d94efbe1a7	add ADS1115 add DEVICE_CLASS_CO2	2021-04-20 09:11:00 +03:00
Andrey	eaa46a99ae	fix fw pattern add dps368 support fix docs url	2021-04-20 07:37:39 +03:00
Andrey	e65598fe63	fix int mega id	2021-04-20 07:35:59 +03:00
Andrey	e12ab45c04	fix int mega id	2021-04-20 07:35:06 +03:00
Andrey	7fb72be646	add skip sensors	2021-04-19 22:03:30 +03:00
Andrey	f9f97a91b6	add timeouts	2021-04-19 21:46:12 +03:00
Andrey	ad1210d5cc	fix some timeouts	2021-03-29 21:43:25 +03:00
Andrey Viktorov	687e80f729	fix empty config while first setup	2021-03-29 19:54:48 +03:00
Andrey Viktorov	7d777c9e82	fix sensors	2021-03-24 18:14:15 +03:00
Andrey Viktorov	c9f0e85f6a	edit readme	2021-03-24 17:04:37 +03:00
andvikt	e75f8b91ef	Update sensor.py	2021-03-24 12:40:39 +03:00
andvikt	bf15d4f3f9	Update hub.py	2021-03-24 10:57:42 +03:00
Andrey Viktorov	124ef36564	- fix order for ws28xx	2021-03-24 08:09:09 +03:00
Andrey Viktorov	9e73191a91	- add rgbw support - add ws28 support - add transitions to pwm - add units of measurement for all i2c sensors - remove mqtt support	2021-03-23 15:30:34 +03:00
Andrey Viktorov	1270ea2ee2	- add rgbw support - add ws28 support - add transitions to pwm - add units of measurement for all i2c sensors - remove mqtt support	2021-03-23 15:10:50 +03:00
andvikt	36433a7fdd	Update readme.md	2021-03-11 15:46:44 +03:00
Andrey	5edf000ce8	tune restore	2021-03-05 12:38:14 +03:00
Andrey	b821d182b2	edit readme	2021-03-05 12:25:42 +03:00
Andrey	149d30e921	add hex_to_float option add auto config reload on megad restart fix reloading issues	2021-03-05 11:45:41 +03:00
Andrey	84f677656a	add hex_to_float option add auto config reload on megad restart fix reloading issues	2021-03-05 11:02:49 +03:00
Andrey	a0900052dc	fix bugs	2021-03-05 00:02:43 +03:00
Andrey	b8d355f412	fix bugs	2021-03-04 22:54:21 +03:00
Andrey	d3f76a88df	fix bugs	2021-03-04 22:52:15 +03:00
Andrey	fa2bb2674e	fix updater	2021-03-04 21:52:25 +03:00
Andrey	a1ae4e294b	fix pop	2021-03-04 21:28:01 +03:00
Andrey	81d85ba1ed	remove crap entities	2021-03-04 20:45:42 +03:00
Andrey	7135bb273e	add sync_time	2021-03-04 20:25:59 +03:00
Andrey	7d8554a7aa	add force_i2c, add new port namings	2021-03-04 19:45:37 +03:00
Andrey	40dcadc109	fix ptsensor	2021-03-04 16:52:07 +03:00
Andrey	35f99877ca	add delay on ptsensor	2021-03-04 16:49:02 +03:00
Andrey	6c50b81bff	remove scl	2021-03-04 16:22:33 +03:00
Andrey	c810693ba5	remove scl	2021-03-04 16:21:59 +03:00
Andrey	1fd321d4c1	fix errors	2021-03-04 15:01:00 +03:00
Andrey	6732e1b7a2	add more logs on i2c update process	2021-03-03 13:55:35 +03:00
Andrey	f784c1c261	edit readme	2021-03-03 13:15:05 +03:00
Andrey	ab572c4db5	edit readme	2021-03-03 12:34:08 +03:00
Andrey	e55184f565	edit readme	2021-03-03 12:20:44 +03:00
Andrey	3f74f9739c	edit readme	2021-03-03 12:20:09 +03:00
Andrey	49fcf880d9	add i2c sensors	2021-03-03 12:01:02 +03:00
Andrey	289f52ef73	fix errors	2021-02-28 22:27:57 +03:00
Andrey	ce589c97b9	fix errors	2021-02-28 22:22:17 +03:00
Andrey	22a6f8f444	fix errors	2021-02-28 22:06:36 +03:00
Andrey	9a53de1d5d	fix errors	2021-02-28 22:02:22 +03:00
Andrey	bd8b07dd90	fix errors	2021-02-28 21:52:34 +03:00
Andrey	d9b6ba3a50	fix errors	2021-02-28 21:52:06 +03:00
Andrey	1042592a31	fix errors	2021-02-28 21:33:26 +03:00
Andrey	137eb8b6ba	fix errors	2021-02-28 21:15:48 +03:00
Andrey	a2f412b89e	fix errors	2021-02-28 20:16:04 +03:00
Andrey	8fa14cdbc5	fix errors	2021-02-28 20:15:47 +03:00
Andrey	fc17b82021	support response for extenders	2021-02-28 15:01:39 +03:00
Andrey	1aeaabfb3c	fix errors	2021-02-28 14:50:47 +03:00
Andrey	a0bd8acac0	fix errors	2021-02-28 14:49:38 +03:00
andvikt	c48a3632d2	Update http.py	2021-02-28 13:04:00 +03:00
Andrey	e06ba65ead	fix errors	2021-02-28 09:49:16 +03:00
Andrey	22720a27bd	fix errors	2021-02-28 09:46:06 +03:00
Andrey	d0769b5b02	fix errors	2021-02-27 17:39:54 +03:00
Andrey	9ae093dd91	fix errors	2021-02-27 14:44:20 +03:00
Andrey	f88109c3a6	fix int(port)	2021-02-26 16:18:05 +03:00
Andrey	8742bb975f	поддержка PCA9685 и MCP230	2021-02-25 12:11:05 +03:00
Andrey	97da209cf0	поддержка PCA9685 и MCP230	2021-02-25 11:52:11 +03:00
Andrey	2c0894356c	добавлена возможность восстановления состояний выходов после перезагрузки меги	2021-02-24 10:56:11 +03:00
andvikt	cdc38f2200	Merge pull request #16 from Foroxon/master UA translation update	2021-02-22 16:15:16 +03:00
Vladyslav Heneraliuk	bab1eab64a	updated UA translation	2021-02-22 10:28:17 +02:00
Vladyslav Heneraliuk	c5d8ece77f	Repo Sync (#2 ) Repo Sync	2021-02-22 10:18:26 +02:00
Andrey	e4c5a4a712	find mega by mdid	2021-02-22 09:53:58 +03:00
Andrey	c60c088795	add allow hosts to web-ui	2021-02-20 18:10:36 +03:00
Andrey	eb3813843c	edit readme	2021-02-19 12:46:10 +03:00
Andrey	804a6ad333	add proxy support	2021-02-19 11:10:34 +03:00
Andrey	a3398d0f2a	add proxy support	2021-02-19 10:47:08 +03:00
Andrey	1e8777ca6d	add proxy support	2021-02-19 10:39:15 +03:00
Andrey	ad2501ca8c	add proxy support	2021-02-19 10:32:28 +03:00
Andrey	5681f7315c	add proxy support	2021-02-19 10:06:56 +03:00
Andrey	da87c24db9	add proxy support	2021-02-19 09:50:31 +03:00
Andrey	a0dcfa4b9c	fix force_d	2021-02-18 20:09:45 +03:00
Andrey	80e43888b9	fix force_d	2021-02-18 15:45:13 +03:00
Andrey	ba41cbb100	fix 1wire bus	2021-02-18 15:41:12 +03:00
Andrey	0b5b9744ba	fix 1wire bus	2021-02-18 15:40:59 +03:00
Andrey	9746311f38	fix 1wire bus	2021-02-18 15:40:31 +03:00
Andrey	38a525f2f5	fix	2021-02-18 15:16:43 +03:00
Andrey	6503d6bddd	fix 1wire	2021-02-18 15:02:21 +03:00
Andrey	4af40c29a7	fix d	2021-02-18 14:10:04 +03:00
Andrey	75a41c9667	fix i2c	2021-02-18 12:36:43 +03:00
Andrey	4f8f38fde6	fix http response and ds2413 bugs	2021-02-18 12:07:55 +03:00
Andrey	7e02797be8	fix http response	2021-02-18 11:58:33 +03:00
Andrey	035bdebf64	fix ds2413	2021-02-18 11:42:23 +03:00
Andrey	8d92bbdfb3	ad more logging	2021-02-18 11:23:44 +03:00
Andrey	0c43e61c59	make fake http response	2021-02-18 11:11:30 +03:00
Andrey	0a71be693e	fix bugs	2021-02-18 11:00:41 +03:00
Andrey	8146148d0c	fix bugs	2021-02-18 10:46:17 +03:00
Andrey	e0eaafd0fa	fix bugs	2021-02-18 10:40:09 +03:00
Andrey	51f3eb3b19	fix bugs	2021-02-18 10:23:27 +03:00
Andrey	1716651497	fix bugs	2021-02-18 10:12:01 +03:00
Andrey	a87e8139a7	fix bugs	2021-02-18 09:53:30 +03:00
Andrey	358d29f8fd	fix bugs	2021-02-18 09:27:40 +03:00
Andrey	fcce9dcfc1	fix bugs	2021-02-17 22:01:33 +03:00
Andrey	4fe2469a01	fix bugs	2021-02-17 19:10:58 +03:00
Andrey	9fab4fce62	fix config scan for ds2413	2021-02-17 18:08:53 +03:00
Andrey	3c28cf4598	Merge remote-tracking branch 'origin/master'	2021-02-17 18:04:53 +03:00
Andrey	af2360b0a0	edit	2021-02-17 18:04:09 +03:00
andvikt	8f7604c9f6	Update bug-report.md	2021-02-17 17:44:56 +03:00
andvikt	f70d72bf39	Update bug-report.md	2021-02-17 17:44:37 +03:00
Andrey	896e02a457	edit readme	2021-02-17 17:40:26 +03:00
Andrey	bb95c9d312	edit readme	2021-02-17 17:23:23 +03:00
Andrey	7ba1562f12	fix assumed state	2021-02-17 17:11:00 +03:00
Andrey	ec505ac2ef	edit readme	2021-02-17 16:50:00 +03:00
Andrey	9544f562ba	do not update all if "v" parametr	2021-02-15 21:54:21 +03:00
Andrey	c2422cac9c	fix manifest	2021-02-15 21:51:31 +03:00
Andrey	0adba7fc0f	add http v parsing	2021-02-15 21:50:49 +03:00
Andrey	39642700ca	fix force_d	2021-02-15 19:05:00 +03:00
Andrey	07589e8e3a	edit readme	2021-02-11 17:35:58 +03:00
Andrey	5a6903c67e	fix config bug	2021-02-11 16:03:10 +03:00
Andrey	6758fd8d8e	add server response in mqtt mode	2021-02-11 12:19:17 +03:00
Andrey	a9896c82fe	add server response in mqtt mode	2021-02-11 12:00:01 +03:00
Andrey	5ed0b74eff	add server response in mqtt mode	2021-02-11 11:57:17 +03:00