:return: str """ json_dict = self.to_json_basic() json_dict["dark"] = self.dark json_dict["light"] = self.light json_dict["motion1"] = self.motion1 json_dict["light_motion1"] = self.light_motion1 json_dict["motion2"] = self.motion2 json_dict["light_motion2"] = self.light_motion2 json_dict["lowtempalarm"] = self.low_temp_alarm json_dict["hightempalarm"] = self.high_temp_alarm json_dict["lightvalue"] = self.light_value return json.dumps(json_dict) register_command(COMMAND_CODE, ModuleStatusMessage) register_command(COMMAND_CODE, ModuleStatusMessage2, "VMB8PBU") register_command(COMMAND_CODE, ModuleStatusMessage2, "VMB6PBN") register_command(COMMAND_CODE, ModuleStatusMessage2, "VMB2PBN") register_command(COMMAND_CODE, ModuleStatusMessage2, "VMB6PBB") register_command(COMMAND_CODE, ModuleStatusMessage2, "VMBGP1") register_command(COMMAND_CODE, ModuleStatusMessage2, "VMBEL1") register_command(COMMAND_CODE, ModuleStatusMessage2, "VMBGP1-2") register_command(COMMAND_CODE, ModuleStatusMessage2, "VMBGP2") register_command(COMMAND_CODE, ModuleStatusMessage2, "VMBEL2") register_command(COMMAND_CODE, ModuleStatusMessage2, "VMBGP2-2") register_command(COMMAND_CODE, ModuleStatusMessage2, "VMBGP4") register_command(COMMAND_CODE, ModuleStatusMessage2, "VMBEL4") register_command(COMMAND_CODE, ModuleStatusMessage2, "VMBGP4-2") register_command(COMMAND_CODE, ModuleStatusMessage2, "VMBGPO") register_command(COMMAND_CODE, ModuleStatusMessage2, "SUB_VMBGPO")
return self.disable_inhibit_forced == CHANNEL_FORCED_ON def is_disabled(self): """ :return: bool """ return self.disable_inhibit_forced == CHANNEL_DISABLED def cur_dimmer_state(self): """ :return: int """ return self.dimmer_state def data_to_binary(self): """ :return: bytes """ return (bytes([ COMMAND_CODE, self.channels_to_byte([self.channel]), self.disable_inhibit_forced, self.dimmer_state, self.led_status, ]) + struct.pack(">L", self.delay_time)[-3:]) register_command(COMMAND_CODE, DimmerChannelStatusMessage, "VMB4DC") register_command(COMMAND_CODE, DimmerChannelStatusMessage, "VMBDMI") register_command(COMMAND_CODE, DimmerChannelStatusMessage, "VMBDMI-R")
byteorder="big", signed=False) def to_json(self): """ :return: str """ json_dict = self.to_json_basic() json_dict["channels"] = self.dimmer_channels json_dict["state"] = self.dimmer_state json_dict["transitiontime"] = self.dimmer_transitiontime return json.dumps(json_dict) def data_to_binary(self): """ :return: bytes """ return (bytes([ COMMAND_CODE, self.channels_to_byte(self.dimmer_channels), self.dimmer_state, ]) + self.dimmer_transitiontime.to_bytes( 2, byteorder="big", signed=False)) register_command(COMMAND_CODE, SetDimmerMessage, "VMBDME") register_command(COMMAND_CODE, SetDimmerMessage, "VMB4DC") register_command(COMMAND_CODE, SetDimmerMessage, "VMBDMI") register_command(COMMAND_CODE, SetDimmerMessage, "VMBDMI-R") register_command(COMMAND_CODE, SetDimmerMessage, "VMB1LED")
return self.cur def populate(self, priority, address, rtr, data): """ data bytes (high + low) 1 + 2 = current temp 3 + 4 = min temp 5 + 6 = max temp :return: None """ assert isinstance(data, bytes) self.needs_no_rtr(rtr) self.needs_data(data, 6) self.set_attributes(priority, address, rtr) self.cur = (((data[0] << 8) | data[1]) / 32) * 0.0625 self.min = (((data[2] << 8) | data[3]) / 32) * 0.0625 self.max = (((data[4] << 8) | data[5]) / 32) * 0.0625 def to_json(self): """ :return: str """ json_dict = self.to_json_basic() json_dict["cur"] = self.cur json_dict["min"] = self.min json_dict["max"] = self.max return json.dumps(json_dict) register_command(COMMAND_CODE, SensorTemperatureMessage)
""" send by: received by: VMB2BL """ def populate(self, priority, address, rtr, data): """ :return: None """ assert isinstance(data, bytes) self.needs_low_priority(priority) self.needs_no_rtr(rtr) self.needs_data(data, 1) self.set_attributes(priority, address, rtr) tmp = (data[0] >> 1) & 0x03 self.channels = self.byte_to_channels(tmp) def data_to_binary(self): """ :return: bytes """ tmp = 0x00 if 1 in self.channels: tmp += 0x03 if 2 in self.channels: tmp += 0x0C return bytes([COMMAND_CODE, tmp]) register_command(COMMAND_CODE, ChannelNameRequestMessage)
class SlowBlinkingLedMessage(Message): """ send by: VMB4RYLD received by: VMB6IN """ def __init__(self, address=None): Message.__init__(self) self.leds = [] self.set_defaults(address) def populate(self, priority, address, rtr, data): """ :return: None """ assert isinstance(data, bytes) self.needs_low_priority(priority) self.needs_no_rtr(rtr) self.needs_data(data, 1) self.set_attributes(priority, address, rtr) self.leds = self.byte_to_channels(data[0]) def data_to_binary(self): """ :return: bytes """ return bytes([COMMAND_CODE, self.channels_to_byte(self.leds)]) register_command(COMMAND_CODE, SlowBlinkingLedMessage)
received by: """ def populate(self, priority, address, rtr, data): """ :return: None """ assert isinstance(data, bytes) self.needs_low_priority(priority) self.needs_no_rtr(rtr) self.needs_data(data, 5) self.set_attributes(priority, address, rtr) self.channel = (data[0] >> 1) & 0x03 self.name = "".join([chr(x) for x in data[1:]]) register_command(COMMAND_CODE, ChannelNamePart2Message) register_command(COMMAND_CODE, ChannelNamePart2Message2, "VMBGP1") register_command(COMMAND_CODE, ChannelNamePart2Message2, "VMBEL1") register_command(COMMAND_CODE, ChannelNamePart2Message2, "VMBGP1-2") register_command(COMMAND_CODE, ChannelNamePart2Message2, "VMBGP2") register_command(COMMAND_CODE, ChannelNamePart2Message2, "VMBEL2") register_command(COMMAND_CODE, ChannelNamePart2Message2, "VMBGP2-2") register_command(COMMAND_CODE, ChannelNamePart2Message2, "VMBGP4") register_command(COMMAND_CODE, ChannelNamePart2Message2, "VMBEL4") register_command(COMMAND_CODE, ChannelNamePart2Message2, "VMBGP4-2") register_command(COMMAND_CODE, ChannelNamePart2Message2, "VMBGPO") register_command(COMMAND_CODE, ChannelNamePart2Message2, "VMBGPOD") register_command(COMMAND_CODE, ChannelNamePart2Message2, "VMBELO") register_command(COMMAND_CODE, ChannelNamePart2Message2, "VMBGP4PIR") register_command(COMMAND_CODE, ChannelNamePart2Message2, "VMBDMI") register_command(COMMAND_CODE, ChannelNamePart2Message2, "VMBDMI-R")
self.needs_no_rtr(rtr) self.needs_data(data, 7) self.set_attributes(priority, address, rtr) self.channel = (data[0] & 0x03) + 1 self.pulses = (data[0] >> 2) * 100 self.counter = (data[1] << 24) + (data[2] << 16) + ( data[3] << 8) + data[4] self.delay = (data[5] << 8) + data[6] def to_json(self): """ :return: str """ json_dict = self.to_json_basic() json_dict["pulses"] = self.pulses json_dict["counter"] = self.counter json_dict["kwh"] = self.kwh json_dict["delay"] = self.delay json_dict["watt"] = self.watt json_dict["channel"] = self.channel return json.dumps(json_dict) def get_channels(self): """ :return: list """ return self.channel register_command(COMMAND_CODE, CounterStatusMessage, "VMB7IN")
""" def __init__(self, address=None): Message.__init__(self) self.start = 0x00 self.memo_text = "" self.set_defaults(address) def populate(self, priority, address, rtr, data): """ :return: None """ assert isinstance(data, bytes) self.needs_low_priority(priority) self.needs_no_rtr(rtr) self.needs_data(data, 7) self.set_attributes(priority, address, rtr) self.start = data[1] self.name = "".join([chr(x) for x in data[2:]]) def data_to_binary(self): """ :return: bytes """ while len(self.memo_text) < 5: self.memo_text += chr(0) return bytes([COMMAND_CODE, 0x00, self.start]) + bytes(self.memo_text, "utf-8") register_command(COMMAND_CODE, MemoTextMessage)
class SetLedMessage(Message): """ send by: VMB4RYLD received by: VMB6IN """ def __init__(self, address=None): Message.__init__(self) self.leds = [] self.set_defaults(address) def populate(self, priority, address, rtr, data): """ :return: None """ assert isinstance(data, bytes) self.needs_low_priority(priority) self.needs_no_rtr(rtr) self.needs_data(data, 1) self.set_attributes(priority, address, rtr) self.leds = self.byte_to_channels(data[0]) def data_to_binary(self): """ :return: bytes """ return bytes([COMMAND_CODE, self.channels_to_byte(self.leds)]) register_command(COMMAND_CODE, SetLedMessage)
:author: Thomas Delaet <*****@*****.**> """ from velbus.message import Message from velbus.command_registry import register_command COMMAND_CODE = 0x09 class BusOffMessage(Message): """ send by: received by: VMB1USB """ def populate(self, priority, address, rtr, data): """ :return: None """ self.needs_low_priority(priority) self.needs_no_rtr(rtr) self.set_attributes(priority, address, rtr) self.needs_no_data(data) def data_to_binary(self): """ :return: bytes """ return bytes([COMMAND_CODE]) register_command(COMMAND_CODE, BusOffMessage)
""" def __init__(self, address=None, sleep=0): Message.__init__(self) self.sleep = sleep self.set_defaults(address) def populate(self, priority, address, rtr, data): """ :return: None """ self.needs_no_rtr(rtr) self.set_attributes(priority, address, rtr) def to_json(self): """ :return: str """ json_dict = self.to_json_basic() json_dict["sleep_time"] = self.sleep return json.dumps(json_dict) def data_to_binary(self): """ :return: bytes """ return bytes([COMMAND_CODE, 0x00, 0x00]) register_command(COMMAND_CODE, SwitchToNightMessage)
COMMAND_CODE = 0x0A class BusActiveMessage(Message): """ send by: received by: VMB1USB """ def set_defaults(self, address): if address is not None: self.set_address(address) self.set_high_priority() self.set_no_rtr() def populate(self, priority, address, rtr, data): assert isinstance(data, bytes) self.needs_high_priority(priority) self.needs_no_rtr(rtr) self.set_attributes(priority, address, rtr) self.needs_no_data(data) def data_to_binary(self): """ :return: bytes """ return bytes([COMMAND_CODE]) register_command(COMMAND_CODE, BusActiveMessage)
def to_json(self): """ :return: str """ json_dict = self.to_json_basic() json_dict["channel"] = self.channel json_dict["delay_time"] = self.delay_time return json.dumps(json_dict) def set_defaults(self, address): if address is not None: self.set_address(address) self.set_high_priority() self.set_no_rtr() def data_to_binary(self): """ :return: bytes """ if self.channel == 0x01: tmp = 0x03 else: tmp = 0x0C return bytes([COMMAND_CODE, tmp]) + struct.pack(">L", self.delay_time)[-3:] register_command(COMMAND_CODE, CoverPosMessage, "VMB1BLE") register_command(COMMAND_CODE, CoverPosMessage, "VMB2BLE") register_command(COMMAND_CODE, CoverPosMessage, "VMB1BLS")
""" def __init__(self, address=None): Message.__init__(self) self.high_address = 0x00 self.low_address = 0x00 self.data = bytes([]) self.set_defaults(address) def populate(self, priority, address, rtr, data): """ :return None """ assert isinstance(data, bytes) self.needs_low_priority(priority) self.needs_no_rtr(rtr) self.needs_data(data, 6) self.set_attributes(priority, address, rtr) self.high_address = data[0] self.low_address = data[1] self.data = data[2:] def data_to_binary(self): """ :return: bytes """ return bytes([COMMAND_CODE, self.high_address, self.low_address ]) + self.data register_command(COMMAND_CODE, MemoryDataBlockMessage)
def populate(self, priority, address, rtr, data): """ :return: None """ assert isinstance(data, bytes) self.needs_low_priority(priority) self.needs_no_rtr(rtr) # self.needs_data(data, 6) self.set_attributes(priority, address, rtr) self.module_type = data[0] (self.serial, ) = struct.unpack(">L", bytes([0, 0, data[1], data[2]])) self.sub_address_1 = data[3] self.sub_address_2 = data[4] self.sub_address_3 = data[5] self.sub_address_4 = data[6] def to_json(self): """ :return: str """ json_dict = self.to_json_basic() json_dict["sub_1"] = self.sub_address_1 json_dict["sub_2"] = self.sub_address_2 json_dict["sub_3"] = self.sub_address_3 json_dict["sub_4"] = self.sub_address_4 return json.dumps(json_dict) register_command(COMMAND_CODE, ModuleSubTypeMessage)
self.dimmer_transitiontime = int.from_bytes( data[[2, 3]], byteorder="big", signed=False ) def to_json(self): """ :return: str """ json_dict = self.to_json_basic() json_dict["channels"] = self.dimmer_channels json_dict["transitiontime"] = self.dimmer_transitiontime return json.dumps(json_dict) def data_to_binary(self): """ :return: bytes """ return ( bytes( [ COMMAND_CODE, self.channels_to_byte(self.dimmer_channels), 0, ] ) + self.dimmer_transitiontime.to_bytes(2, byteorder="big", signed=False) ) register_command(COMMAND_CODE, RestoreDimmerMessage)
self.status = data[2] >> ((self.channel - 1) * 2) def to_json(self): """ :return: str """ json_dict = self.to_json_basic() json_dict["channel"] = self.channel json_dict["timeout"] = self.timeout json_dict["status"] = DSTATUS[self.status] return json.dumps(json_dict) def is_up(self): """ :return: bool """ return self.status == 0x01 def is_down(self): """ :return: bool """ return self.status == 0x02 register_command(COMMAND_CODE, BlindStatusNgMessage, "VMB1BLE") register_command(COMMAND_CODE, BlindStatusNgMessage, "VMB2BLE") register_command(COMMAND_CODE, BlindStatusNgMessage, "VMB1BLS") register_command(COMMAND_CODE, BlindStatusMessage, "VMB1BL") register_command(COMMAND_CODE, BlindStatusMessage, "VMB2BL")
""" send by: received by: VMB4RYLD """ def __init__(self, address=None): Message.__init__(self) self.set_defaults(address) def populate(self, priority, address, rtr, data): """ :return: None """ self.needs_no_rtr(rtr) self.set_attributes(priority, address, rtr) def to_json(self): """ :return: str """ json_dict = self.to_json_basic() return json.dumps(json_dict) def data_to_binary(self): """ :return: bytes """ return bytes([COMMAND_CODE, 0xAA]) register_command(COMMAND_CODE, TempSetHeatingMessage)
""" json_dict = self.to_json_basic() json_dict["channel"] = self.channel json_dict["delay_time"] = self.delay_time return json.dumps(json_dict) def set_defaults(self, address): if address is not None: self.set_address(address) self.set_high_priority() self.set_no_rtr() def data_to_binary(self): """ :return: bytes """ if self.channel == 0x01: tmp = 0x03 else: tmp = 0x0C return bytes([COMMAND_CODE, tmp]) + struct.pack(">L", self.delay_time)[-3:] register_command(COMMAND_CODE, CoverOffMessage2, "VMB1BL") register_command(COMMAND_CODE, CoverOffMessage2, "VMB2BL") register_command(COMMAND_CODE, CoverOffMessage, "VMB1BLE") register_command(COMMAND_CODE, CoverOffMessage, "VMB2BLE") register_command(COMMAND_CODE, CoverOffMessage, "VMB1BLS")
def populate(self, priority, address, rtr, data): """ :return: None """ assert isinstance(data, bytes) self.needs_high_priority(priority) self.needs_no_rtr(rtr) self.needs_data(data, 1) self.set_attributes(priority, address, rtr) self.relay_channels = self.byte_to_channels(data[0]) def to_json(self): """ :return: str """ json_dict = self.to_json_basic() json_dict["channels"] = self.relay_channels return json.dumps(json_dict) def data_to_binary(self): """ :return: bytes """ return bytes( [COMMAND_CODE, self.channels_to_byte(self.relay_channels)]) register_command(COMMAND_CODE, SwitchRelayOnMessage)
""" from velbus.message import Message from velbus.command_registry import register_command COMMAND_CODE = 0xD9 class BusErrorStatusRequestMessage(Message): """ send by: received by: VMB6IN, VMB4RYLD """ def populate(self, priority, address, rtr, data): """ :return: None """ assert isinstance(data, bytes) self.needs_low_priority(priority) self.needs_no_rtr(rtr) self.needs_no_data(data) self.set_attributes(priority, address, rtr) def data_to_binary(self): """ :return: bytes """ return bytes([COMMAND_CODE]) register_command(COMMAND_CODE, BusErrorStatusRequestMessage)
if (self.status >> (self.channel - 1)) & 1 != 0: return True else: return False def has_interval_timer_on(self): """ :return: bool """ return self.status == INTERVAL_TIMER_ON def data_to_binary(self): """ :return: bytes """ return ( bytes( [ COMMAND_CODE, self.channels_to_byte([self.channel]), self.disable_inhibit_forced, self.status, self.led_status, ] ) + struct.pack(">L", self.delay_time)[-3:] ) register_command(COMMAND_CODE, RelayStatusMessage)
self.led_slow_blinking = [] self.led_fast_blinking = [] self.set_defaults(address) def populate(self, priority, address, rtr, data): """ :return: None """ assert isinstance(data, bytes) self.needs_low_priority(priority) self.needs_no_rtr(rtr) self.needs_data(data, 3) self.set_attributes(priority, address, rtr) self.led_on = self.byte_to_channels(data[0]) self.led_slow_blinking = self.byte_to_channels(data[1]) self.led_fast_blinking = self.byte_to_channels(data[2]) def data_to_binary(self): """ :return: bytes """ return bytes([ COMMAND_CODE, self.channels_to_byte(self.led_on), self.channels_to_byte(self.led_slow_blinking), self.channels_to_byte(self.led_fast_blinking), ]) register_command(COMMAND_CODE, UpdateLedStatusMessage)
received by: VMB4RYLD """ def __init__(self, address=None, sleep=0): Message.__init__(self) self.sleep = sleep self.set_defaults(address) def populate(self, priority, address, rtr, data): """ :return: None """ self.needs_no_rtr(rtr) self.set_attributes(priority, address, rtr) def to_json(self): """ :return: str """ json_dict = self.to_json_basic() json_dict["sleep_time"] = self.sleep return json.dumps(json_dict) def data_to_binary(self): """ :return: bytes """ return bytes([COMMAND_CODE, 0x00, 0x00]) register_command(COMMAND_CODE, SwitchToComfortMessage)
def to_json(self): """ :return: str """ json_dict = self.to_json_basic() json_dict["closed_channels"] = self.closed json_dict["opened_channels"] = self.opened json_dict["closed_long_channels"] = self.closed_long return json.dumps(json_dict) def get_channels(self): """ :return: list """ return self.closed + self.opened def data_to_binary(self): """ :return: bytes """ return bytes([ COMMAND_CODE, self.channels_to_byte(self.closed), self.channels_to_byte(self.opened), self.channels_to_byte(self.closed_long), ]) register_command(COMMAND_CODE, PushButtonStatusMessage)
return self.dimmer_mode == MODE_SLOW def is_slow_on(self): """ :return: bool """ return self.dimmer_mode == MODE_SLOW_ON def is_slow_off(self): """ :return: bool """ return self.dimmer_mode == MODE_SLOW_OFF def cur_dimmer_state(self): """ :return: int """ return self.dimmer_state def data_to_binary(self): """ :return: bytes """ return (bytes([ COMMAND_CODE, self.dimmer_mode, self.dimmer_state, self.led_status ]) + struct.pack(">L", self.delay_time)[-3:]) register_command(COMMAND_CODE, DimmerStatusMessage, "VMBDME")
received by: VMB4RYLD """ def __init__(self, address=None, sleep=0): Message.__init__(self) self.sleep = sleep self.set_defaults(address) def populate(self, priority, address, rtr, data): """ :return: None """ self.needs_no_rtr(rtr) self.set_attributes(priority, address, rtr) def to_json(self): """ :return: str """ json_dict = self.to_json_basic() json_dict["sleep_time"] = self.sleep return json.dumps(json_dict) def data_to_binary(self): """ :return: bytes """ return bytes([COMMAND_CODE, 0x00, 0x00]) register_command(COMMAND_CODE, SwitchToDayMessage)
json_dict = self.to_json_basic() json_dict["channel"] = self.channel json_dict["slider_state"] = self.slider_state json_dict["slider_long_pressed"] = self.slider_long_pressed return json.dumps(json_dict) def cur_slider_state(self): """ :return: int """ return self.slider_state def data_to_binary(self): """ :return: bytes """ return bytes( [ COMMAND_CODE, self.channels_to_byte([self.channel]), self.slider_state, self.slider_long_pressed, ] ) register_command(COMMAND_CODE, SliderStatusMessage, "VMBDME") register_command(COMMAND_CODE, SliderStatusMessage, "VMB4DC") register_command(COMMAND_CODE, SliderStatusMessage, "VMBDMI") register_command(COMMAND_CODE, SliderStatusMessage, "VMBDMI-R")
""" from velbus.message import Message from velbus.command_registry import register_command COMMAND_CODE = 0x0C class ReceiveReadyMessage(Message): """ send by: received by: VMB1USB """ def populate(self, priority, address, rtr, data): """ :return: None """ # self.needs_low_priority(priority) self.needs_no_rtr(rtr) self.needs_no_data(data) self.set_attributes(priority, address, rtr) def data_to_binary(self): """ :return: bytes """ return bytes([COMMAND_CODE]) register_command(COMMAND_CODE, ReceiveReadyMessage)