mirror of
https://github.com/suaveolent/hoymiles-wifi.git
synced 2024-09-20 11:20:11 +00:00
124 lines
6.9 KiB
Protocol Buffer
Executable File
124 lines
6.9 KiB
Protocol Buffer
Executable File
syntax = "proto3";
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message MeterMO {
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int32 device_type = 1; // Device type identifier
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int64 serial_number = 2; // Serial number of the meter
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int32 phase_total_power = 3; // Total power across all phases (Watts)
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int32 phase_A_power = 4; // Power in phase A (Watts)
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int32 phase_B_power = 5; // Power in phase B (Watts)
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int32 phase_C_power = 6; // Power in phase C (Watts)
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int32 power_factor_total = 7; // Total power factor
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int32 energy_total_power = 8; // Total energy generated (Watt-hours)
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int32 energy_phase_A = 9; // Energy generated in phase A (Watt-hours)
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int32 energy_phase_B = 10; // Energy generated in phase B (Watt-hours)
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int32 energy_phase_C = 11; // Energy generated in phase C (Watt-hours)
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int32 energy_total_consumed = 12; // Total energy consumed (Watt-hours)
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int32 energy_phase_A_consumed = 13; // Energy consumed in phase A (Watt-hours)
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int32 energy_phase_B_consumed = 14; // Energy consumed in phase B (Watt-hours)
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int32 energy_phase_C_consumed = 15; // Energy consumed in phase C (Watt-hours)
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int32 fault_code = 16; // Fault code indicator
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int32 voltage_phase_A = 17; // Voltage in phase A (Volts)
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int32 voltage_phase_B = 18; // Voltage in phase B (Volts)
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int32 voltage_phase_C = 19; // Voltage in phase C (Volts)
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int32 current_phase_A = 20; // Current in phase A (Amperes)
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int32 current_phase_B = 21; // Current in phase B (Amperes)
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int32 current_phase_C = 22; // Current in phase C (Amperes)
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int32 power_factor_phase_A = 23; // Power factor in phase A
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int32 power_factor_phase_B = 24; // Power factor in phase B
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int32 power_factor_phase_C = 25; // Power factor in phase C
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}
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message RpMO {
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int64 serial_number = 1; // Serial number of the device
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int32 signature = 2; // Signature value
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int32 channel = 3; // Channel number
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int32 pv_number = 4; // Photovoltaic (PV) number
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int32 link_status = 5; // Link status indicator
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}
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message RSDMO {
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int64 serial_number = 1; // Serial number of the device
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int32 firmware_version = 2; // Firmware version
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int32 voltage = 3; // Voltage value
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int32 power = 4; // Power value
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int32 temperature = 5; // Temperature value
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int32 warning_number = 6; // Warning number
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int32 crc_checksum = 7; // CRC checksum
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int32 link_status = 8; // Link status indicator
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}
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message SGSMO {
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int64 serial_number = 1; // Serial number of the device
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int32 firmware_version = 2; // Firmware version
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int32 voltage = 3; // Grid voltage (Volts)
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int32 frequency = 4; // Grid frequency (Hertz)
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int32 active_power = 5; // Active power (Watts)
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int32 reactive_power = 6; // Reactive power (VAR)
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int32 current = 7; // Current (Amperes)
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int32 power_factor = 8; // Power factor
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int32 temperature = 9; // Temperature value
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int32 warning_number = 10; // Warning number
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int32 crc_checksum = 11; // CRC checksum
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int32 link_status = 12; // Link status indicator
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int32 power_limit = 13; // Power limit (Watts)
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int32 modulation_index_signal = 20; // Modulation index signal
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}
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message TGSMO {
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int64 serial_number = 1; // Serial number of the device
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int32 firmware_version = 2; // Firmware version
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int32 voltage_phase_A = 3; // Voltage in phase A (Volts)
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int32 voltage_phase_B = 4; // Voltage in phase B (Volts)
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int32 voltage_phase_C = 5; // Voltage in phase C (Volts)
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int32 voltage_line_AB = 6; // Voltage between lines A and B (Volts)
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int32 voltage_line_BC = 7; // Voltage between lines B and C (Volts)
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int32 voltage_line_CA = 8; // Voltage between lines C and A (Volts)
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int32 frequency = 9; // Frequency (Hertz)
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int32 active_power = 10; // Active power (Watts)
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int32 reactive_power = 11; // Reactive power (VAR)
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int32 current_phase_A = 12; // Current in phase A (Amperes)
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int32 current_phase_B = 13; // Current in phase B (Amperes)
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int32 current_phase_C = 14; // Current in phase C (Amperes)
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int32 power_factor = 15; // Power factor
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int32 temperature = 16; // Temperature value
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int32 warning_number = 17; // Warning number
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int32 crc_checksum = 18; // CRC checksum
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int32 link_status = 19; // Link status indicator
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int32 modulation_index_signal = 20; // Modulation index signal
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}
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message PvMO {
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int64 serial_number = 1; // Serial number of the device
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int32 port_number = 2; // Port number
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int32 voltage = 3; // Voltage (Volts)
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int32 current = 4; // Current (Amperes)
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int32 power = 5; // Power (Watts)
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int32 energy_total = 6; // Total energy generated (Watt-hours)
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int32 energy_daily = 7; // Daily energy generated (Watt-hours)
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int32 error_code = 8; // Error code indicator
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}
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message RealDataNewReqDTO {
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string device_serial_number = 1; // Serial number of the device
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int32 timestamp = 2; // Timestamp of the data
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int32 active_power = 3; // Active power (Watts)
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int32 cumulative_power = 4; // Cumulative power (Watt-hours)
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int32 firmware_version = 5; // Firmware version
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repeated MeterMO meter_data = 6; // Meter data array
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repeated RpMO rp_data = 7; // RpMO data array
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repeated RSDMO rsd_data = 8; // RSDMO data array
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repeated SGSMO sgs_data = 9; // SGSMO data array
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repeated TGSMO tgs_data = 10; // TGSMO data array
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repeated PvMO pv_data = 11; // PvMO data array
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uint64 dtu_power = 12; // Power of the DTU (Watts)
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uint64 dtu_daily_energy = 13; // Daily energy of the DTU (Watt-hours)
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}
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message RealDataNewResDTO {
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string time_ymd_hms = 1; // Timestamp in the format YMD_HMS
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int32 cumulative_power = 2; // Cumulative power (Watt-hours)
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int32 error_code = 3; // Error code indicator
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int32 offset = 4; // Offset value
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int32 time = 5; // Timestamp value
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}
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