import struct from .base_payload import MqttPayload, bit_field from typing import Tuple _mult_10 = lambda n: int(n*10) _div_10 = lambda n: n/10 class Status(MqttPayload): # 46 bytes FORMAT = 'IHHHHHHBHHHHHBHHHHHHHH' PACKER = { 'grid_voltage': _mult_10, 'grid_freq': _mult_10, 'ac_output_voltage': _mult_10, 'ac_output_freq': _mult_10, 'battery_voltage': _mult_10, 'battery_voltage_scc': _mult_10, 'battery_voltage_scc2': _mult_10, 'pv1_input_voltage': _mult_10, 'pv2_input_voltage': _mult_10 } UNPACKER = { 'grid_voltage': _div_10, 'grid_freq': _div_10, 'ac_output_voltage': _div_10, 'ac_output_freq': _div_10, 'battery_voltage': _div_10, 'battery_voltage_scc': _div_10, 'battery_voltage_scc2': _div_10, 'pv1_input_voltage': _div_10, 'pv2_input_voltage': _div_10 } time: int grid_voltage: float grid_freq: float ac_output_voltage: float ac_output_freq: float ac_output_apparent_power: int ac_output_active_power: int output_load_percent: int battery_voltage: float battery_voltage_scc: float battery_voltage_scc2: float battery_discharge_current: int battery_charge_current: int battery_capacity: int inverter_heat_sink_temp: int mppt1_charger_temp: int mppt2_charger_temp: int pv1_input_power: int pv2_input_power: int pv1_input_voltage: float pv2_input_voltage: float # H mppt1_charger_status: bit_field(0, 16, 2) mppt2_charger_status: bit_field(0, 16, 2) battery_power_direction: bit_field(0, 16, 2) dc_ac_power_direction: bit_field(0, 16, 2) line_power_direction: bit_field(0, 16, 2) load_connected: bit_field(0, 16, 1) class Generation(MqttPayload): # 8 bytes FORMAT = 'II' time: int wh: int