From 3aed59276c2b7275603f6da18377b77718948667 Mon Sep 17 00:00:00 2001 From: Evgeny Zinoviev Date: Mon, 7 Jun 2021 01:40:32 +0300 Subject: wip --- src/protocol_18/response.cc.orig | 812 +++++++++++++++++++++++++++++++++++++++ 1 file changed, 812 insertions(+) create mode 100644 src/protocol_18/response.cc.orig (limited to 'src/protocol_18/response.cc.orig') diff --git a/src/protocol_18/response.cc.orig b/src/protocol_18/response.cc.orig new file mode 100644 index 0000000..902fb95 --- /dev/null +++ b/src/protocol_18/response.cc.orig @@ -0,0 +1,812 @@ +// SPDX-License-Identifier: BSD-3-Clause + +#include +#include +#include +#include +#include + +#include "response.h" +<<<<<<< HEAD:src/p18/response.cc +#include "exceptions.h" +======= +#include "../protocol/exceptions.h" +#include "../logging.h" +>>>>>>> bf1b75a (wip):src/protocol_18/response.cc + +#define RETURN_TABLE(...) \ + return std::shared_ptr>( \ + new formatter::Table(format, __VA_ARGS__) \ + ); + +#define RETURN_STATUS(...) \ + return std::shared_ptr( \ + new formatter::Status(format, __VA_ARGS__) \ + ); + + +namespace p18::response_type { + +typedef formatter::TableItem LINE; + +using formatter::Unit; + + +/** + * Helpers + */ +std::ostream& operator<<(std::ostream& os, FieldLength fl) { + if (fl.min_ == fl.max_) + os << fl.min_; + else + os << "[" << fl.min_ << ", " << fl.max_ << "]"; + return os; +} + + +/** + * Base responses + */ + + +bool GetResponse::validate() { + if (rawSize_ < 5) + return false; + + const char* raw = raw_.get(); + if (raw[0] != '^' || raw[1] != 'D') + return false; + + char lenbuf[4]; + memcpy(lenbuf, &raw[2], 3); + lenbuf[3] = '\0'; + + auto len = static_cast(std::stoul(lenbuf)); + return rawSize_ >= len-5 /* exclude ^Dxxx*/; +} + +const char* GetResponse::getData() const { + return raw_.get() + 5; +} + +size_t GetResponse::getDataSize() const { + return rawSize_ - 5; +} + +std::vector GetResponse::getList(std::vector itemLengths, int expectAtLeast) const { + std::string buf(getData(), getDataSize()); + auto list = ::split(buf, ','); + + if (expectAtLeast == -1) + expectAtLeast = (int)itemLengths.size(); + + if (!itemLengths.empty()) { + // check list length + if (list.size() < expectAtLeast) { + std::ostringstream error; + error << "while parsing " << demangle_type_name(typeid(*this).name()); + error << ": list is expected to be " << expectAtLeast << " items long, "; + error << "got only " << list.size() << " items"; + throw protocol::ParseError(error.str()); + } + + // check each item's length + for (int i = 0; i < list.size(); i++) { + if (!itemLengths[i].validate(list[i].size())) { + std::ostringstream error; + error << "while parsing " << demangle_type_name(typeid(*this).name()); + error << ": item " << i << " is expected to be " << itemLengths[i] << " characters long, "; + error << "got " << list[i].size() << " characters"; + throw protocol::ParseError(error.str()); + } + } + } + + return list; +} + +bool SetResponse::validate() { + if (rawSize_ < 2) + return false; + + const char* raw = raw_.get(); + return raw[0] == '^' && (raw[1] == '0' || raw[1] == '1'); +} + +bool SetResponse::get() { + return raw_.get()[1] == '1'; +} + +void SetResponse::unpack() {} + +formattable_ptr SetResponse::format(formatter::Format format) { + RETURN_STATUS(get(), ""); +} + + +/** + * Actual typed responses + */ + +void ProtocolID::unpack() { + auto data = getData(); + + char s[4]; + strncpy(s, data, 2); + s[2] = '\0'; + + id = stou(s); +} + +formattable_ptr ProtocolID::format(formatter::Format format) { + RETURN_TABLE({ + LINE("id", "Protocol ID", id), + }); +} + + +void CurrentTime::unpack() { + auto data = getData(); + + std::string buf; + buf = std::string(data, 4); + + year = stou(buf); + + for (int i = 0; i < 5; i++) { + buf = std::string(data + 4 + (i * 2), 2); + auto n = stou(buf); + + switch (i) { + case 0: + month = n; + break; + + case 1: + day = n; + break; + + case 2: + hour = n; + break; + + case 3: + minute = n; + break; + + case 4: + second = n; + break; + + default: + std::ostringstream error; + error << "unexpected value while parsing CurrentTime (i = " << i << ")"; + throw protocol::ParseError(error.str()); + } + } +} + +formattable_ptr CurrentTime::format(formatter::Format format) { + RETURN_TABLE({ + LINE("year", "Year", year), + LINE("month", "Month", month), + LINE("day", "Day", day), + LINE("hour", "Hour", hour), + LINE("minute", "Minute", minute), + LINE("second", "Second", second), + }); +} + + +void TotalGenerated::unpack() { + auto data = getData(); + + std::string buf(data, 8); + wh = stou(buf); +} + +formattable_ptr TotalGenerated::format(formatter::Format format) { + RETURN_TABLE({ + LINE("wh", "Wh", wh) + }); +} + + +void SeriesNumber::unpack() { + auto data = getData(); + + std::string buf(data, 2); + size_t len = std::stoul(buf); + + id = std::string(data+2, len); +} + +formattable_ptr SeriesNumber::format(formatter::Format format) { + RETURN_TABLE({ + LINE("sn", "Series number", id) + }); +} + + +void CPUVersion::unpack() { + auto list = getList({5, 5, 5}); + + main_cpu_version = list[0]; + slave1_cpu_version = list[1]; + slave2_cpu_version = list[2]; +} + +formattable_ptr CPUVersion::format(formatter::Format format) { + RETURN_TABLE({ + LINE("main_v", "Main CPU version", main_cpu_version), + LINE("slave1_v", "Slave 1 CPU version", slave1_cpu_version), + LINE("slave2_v", "Slave 2 CPU version", slave2_cpu_version) + }); +} + + +void RatedInformation::unpack() { + auto list = getList({ + 4, // AAAA + 3, // BBB + 4, // CCCC + 3, // DDD + 3, // EEE + 4, // FFFF + 4, // GGGG + 3, // HHH + 3, // III + 3, // JJJ + 3, // KKK + 3, // LLL + 3, // MMM + 1, // N + 2, // OO + 3, // PPP + 1, // O + 1, // R + 1, // S + 1, // T + 1, // U + 1, // V + 1, // W + 1, // Z + 1, // a + }); + + ac_input_rating_voltage = stou(list[0]); + ac_input_rating_current = stou(list[1]); + ac_output_rating_voltage = stou(list[2]); + ac_output_rating_freq = stou(list[3]); + ac_output_rating_current = stou(list[4]); + ac_output_rating_apparent_power = stou(list[5]); + ac_output_rating_active_power = stou(list[6]); + battery_rating_voltage = stou(list[7]); + battery_recharge_voltage = stou(list[8]); + battery_redischarge_voltage = stou(list[9]); + battery_under_voltage = stou(list[10]); + battery_bulk_voltage = stou(list[11]); + battery_float_voltage = stou(list[12]); + battery_type = static_cast(stou(list[13])); + max_ac_charging_current = stou(list[14]); + max_charging_current = stou(list[15]); + input_voltage_range = static_cast(stou(list[16])); + output_source_priority = static_cast(stou(list[17])); + charger_source_priority = static_cast(stou(list[18])); + parallel_max_num = stou(list[19]); + machine_type = static_cast(stou(list[20])); + topology = static_cast(stou(list[21])); + output_model_setting = static_cast(stou(list[22])); + solar_power_priority = static_cast(stou(list[23])); + mppt = list[24]; +} + +formattable_ptr RatedInformation::format(formatter::Format format) { + RETURN_TABLE({ + LINE("ac_input_rating_voltage", "AC input rating voltage", ac_input_rating_voltage / 10.0, Unit::V), + LINE("ac_input_rating_current", "AC input rating current", ac_input_rating_current / 10.0, Unit::A), + LINE("ac_output_rating_voltage", "AC output rating voltage", ac_output_rating_voltage / 10.0, Unit::V), + LINE("ac_output_rating_freq", "AC output rating frequency", ac_output_rating_freq / 10.0, Unit::Hz), + LINE("ac_output_rating_current", "AC output rating current", ac_output_rating_current / 10.0, Unit::A), + LINE("ac_output_rating_apparent_power", "AC output rating apparent power", ac_output_rating_apparent_power, Unit::VA), + LINE("ac_output_rating_active_power", "AC output rating active power", ac_output_rating_active_power, Unit::Wh), + LINE("battery_rating_voltage", "Battery rating voltage", battery_rating_voltage / 10.0, Unit::V), + LINE("battery_recharge_voltage", "Battery re-charge voltage", battery_recharge_voltage / 10.0, Unit::V), + LINE("battery_redischarge_voltage", "Battery re-discharge voltage", battery_redischarge_voltage / 10.0, Unit::V), + LINE("battery_under_voltage", "Battery under voltage", battery_under_voltage / 10.0, Unit::V), + LINE("battery_bulk_voltage", "Battery bulk voltage", battery_bulk_voltage / 10.0, Unit::V), + LINE("battery_float_voltage", "Battery float voltage", battery_float_voltage / 10.0, Unit::V), + LINE("battery_type", "Battery type", battery_type), + LINE("max_charging_current", "Max charging current", max_charging_current, Unit::A), + LINE("max_ac_charging_current", "Max AC charging current", max_ac_charging_current, Unit::A), + LINE("input_voltage_range", "Input voltage range", input_voltage_range), + LINE("output_source_priority", "Output source priority", output_source_priority), + LINE("charge_source_priority", "Charge source priority", charger_source_priority), + LINE("parallel_max_num", "Parallel max num", parallel_max_num), + LINE("machine_type", "Machine type", machine_type), + LINE("topology", "Topology", topology), + LINE("output_model_setting", "Output model setting", output_model_setting), + LINE("solar_power_priority", "Solar power priority", solar_power_priority), + LINE("mppt", "MPPT string", mppt) + }); +} + + +void GeneralStatus::unpack() { + auto list = getList({ + 4, // AAAA + 3, // BBB + 4, // CCCC + 3, // DDD + 4, // EEEE + 4, // FFFF + 3, // GGG + 3, // HHH + 3, // III + 3, // JJJ + 3, // KKK + 3, // LLL + 3, // MMM + 3, // NNN + 3, // OOO + 3, // PPP + 4, // QQQQ + 4, // RRRR + 4, // SSSS + 4, // TTTT + 1, // U + 1, // V + 1, // W + 1, // X + 1, // Y + 1, // Z + 1, // a + 1, // b + }); + + grid_voltage = stou(list[0]); + grid_freq = stou(list[1]); + ac_output_voltage = stou(list[2]); + ac_output_freq = stou(list[3]); + ac_output_apparent_power = stou(list[4]); + ac_output_active_power = stou(list[5]); + output_load_percent = stou(list[6]); + battery_voltage = stou(list[7]); + battery_voltage_scc = stou(list[8]); + battery_voltage_scc2 = stou(list[9]); + battery_discharge_current = stou(list[10]); + battery_charging_current = stou(list[11]); + battery_capacity = stou(list[12]); + inverter_heat_sink_temp = stou(list[13]); + mppt1_charger_temp = stou(list[14]); + mppt2_charger_temp = stou(list[15]); + pv1_input_power = stou(list[16]); + pv2_input_power = stou(list[17]); + pv1_input_voltage = stou(list[18]); + pv2_input_voltage = stou(list[19]); + configuration_status = static_cast(stou(list[20])); + mppt1_charger_status = static_cast(stou(list[21])); + mppt2_charger_status = static_cast(stou(list[22])); + load_connected = static_cast(stou(list[23])); + battery_power_direction = static_cast(stou(list[24])); + dc_ac_power_direction = static_cast(stou(list[25])); + line_power_direction = static_cast(stou(list[26])); + local_parallel_id = stou(list[27]); +} + +formattable_ptr GeneralStatus::format(formatter::Format format) { + RETURN_TABLE({ + LINE("grid_voltage", "Grid voltage", grid_voltage / 10.0, Unit::V), + LINE("grid_freq", "Grid frequency", grid_freq / 10.0, Unit::Hz), + LINE("ac_output_voltage", "AC output voltage", ac_output_voltage / 10.0, Unit::V), + LINE("ac_output_freq", "AC output frequency", ac_output_freq / 10.0, Unit::Hz), + LINE("ac_output_apparent_power", "AC output apparent power", ac_output_apparent_power, Unit::VA), + LINE("ac_output_active_power", "AC output active power", ac_output_active_power, Unit::Wh), + LINE("output_load_percent", "Output load percent", output_load_percent, Unit::Percentage), + LINE("battery_voltage", "Battery voltage", battery_voltage / 10.0, Unit::V), + LINE("battery_voltage_scc", "Battery voltage from SCC", battery_voltage_scc / 10.0, Unit::V), + LINE("battery_voltage_scc2", "Battery voltage from SCC2", battery_voltage_scc2 / 10.0, Unit::V), + LINE("battery_discharging_current", "Battery discharging current", battery_discharge_current, Unit::A), + LINE("battery_charging_current", "Battery charging current", battery_charging_current, Unit::A), + LINE("battery_capacity", "Battery capacity", battery_capacity, Unit::Percentage), + LINE("inverter_heat_sink_temp", "Inverter heat sink temperature", inverter_heat_sink_temp, Unit::Celsius), + LINE("mppt1_charger_temp", "MPPT1 charger temperature", mppt1_charger_temp, Unit::Celsius), + LINE("mppt2_charger_temp", "MPPT2 charger temperature", mppt2_charger_temp, Unit::Celsius), + LINE("pv1_input_power", "PV1 input power", pv1_input_power, Unit::Wh), + LINE("pv2_input_power", "PV2 input power", pv2_input_power, Unit::Wh), + LINE("pv1_input_voltage", "PV1 input voltage", pv1_input_voltage / 10.0, Unit::V), + LINE("pv2_input_voltage", "PV2 input voltage", pv2_input_voltage / 10.0, Unit::V), + LINE("configuration_status", "Configuration state", configuration_status), + LINE("mppt1_charger_status", "MPPT1 charger status", mppt1_charger_status), + LINE("mppt2_charger_status", "MPPT2 charger status", mppt2_charger_status), + LINE("load_connected", "Load connection", load_connected), + LINE("battery_power_direction", "Battery power direction", battery_power_direction), + LINE("dc_ac_power_direction", "DC/AC power direction", dc_ac_power_direction), + LINE("line_power_direction", "Line power direction", line_power_direction), + LINE("local_parallel_id", "Local parallel ID", local_parallel_id), + }); +} + + +void WorkingMode::unpack() { + auto data = getData(); + mode = static_cast(stou(std::string(data, 2))); +} + +formattable_ptr WorkingMode::format(formatter::Format format) { + RETURN_TABLE({ + LINE("mode", "Working mode", mode) + }) +} + + +void FaultsAndWarnings::unpack() { + auto list = getList({2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1}); + + fault_code = stou(list[0]); + line_fail = stou(list[1]) > 0; + output_circuit_short = stou(list[2]) > 0; + inverter_over_temperature = stou(list[3]) > 0; + fan_lock = stou(list[4]) > 0; + battery_voltage_high = stou(list[5]) > 0; + battery_low = stou(list[6]) > 0; + battery_under = stou(list[7]) > 0; + over_load = stou(list[8]) > 0; + eeprom_fail = stou(list[9]) > 0; + power_limit = stou(list[10]) > 0; + pv1_voltage_high = stou(list[11]) > 0; + pv2_voltage_high = stou(list[12]) > 0; + mppt1_overload_warning = stou(list[13]) > 0; + mppt2_overload_warning = stou(list[14]) > 0; + battery_too_low_to_charge_for_scc1 = stou(list[15]) > 0; + battery_too_low_to_charge_for_scc2 = stou(list[16]) > 0; +} + +formattable_ptr FaultsAndWarnings::format(formatter::Format format) { + RETURN_TABLE({ + LINE("fault_code", "Fault code", fault_code), + LINE("line_fail", "Line fail", line_fail), + LINE("output_circuit_short", "Output circuit short", output_circuit_short), + LINE("inverter_over_temperature", "Inverter over temperature", inverter_over_temperature), + LINE("fan_lock", "Fan lock", fan_lock), + LINE("battery_voltage_high", "Battery voltage high", battery_voltage_high), + LINE("battery_low", "Battery low", battery_low), + LINE("battery_under", "Battery under", battery_under), + LINE("over_load", "Over load", over_load), + LINE("eeprom_fail", "EEPROM fail", eeprom_fail), + LINE("power_limit", "Power limit", power_limit), + LINE("pv1_voltage_high", "PV1 voltage high", pv1_voltage_high), + LINE("pv2_voltage_high", "PV2 voltage high", pv2_voltage_high), + LINE("mppt1_overload_warning", "MPPT1 overload warning", mppt1_overload_warning), + LINE("mppt2_overload_warning", "MPPT2 overload warning", mppt2_overload_warning), + LINE("battery_too_low_to_charge_for_scc1", "Battery too low to charge for SCC1", battery_too_low_to_charge_for_scc1), + LINE("battery_too_low_to_charge_for_scc2", "Battery too low to charge for SCC2", battery_too_low_to_charge_for_scc2), + }) +} + + +void FlagsAndStatuses::unpack() { + auto list = getList({1, 1, 1, 1, 1, 1, 1, 1, 1}); + + buzzer = stou(list[0]) > 0; + overload_bypass = stou(list[1]) > 0; + lcd_escape_to_default_page_after_1min_timeout = stou(list[2]) > 0; + overload_restart = stou(list[3]) > 0; + over_temp_restart = stou(list[4]) > 0; + backlight_on = stou(list[5]) > 0; + alarm_on_primary_source_interrupt = stou(list[6]) > 0; + fault_code_record = stou(list[7]) > 0; + reserved = *list[8].c_str(); +} + +formattable_ptr FlagsAndStatuses::format(formatter::Format format) { + RETURN_TABLE({ + LINE("buzzer", + "Buzzer", + buzzer), + + LINE("overload_bypass", + "Overload bypass function", + overload_bypass), + + LINE("escape_to_default_screen_after_1min_timeout", + "Escape to default screen after 1min timeout", + lcd_escape_to_default_page_after_1min_timeout), + + LINE("overload_restart", + "Overload restart", + overload_restart), + + LINE("over_temp_restart", + "Over temperature restart", + over_temp_restart), + + LINE("backlight_on", + "Backlight on", + backlight_on), + + LINE("alarm_on_on_primary_source_interrupt", + "Alarm on on primary source interrupt", + alarm_on_primary_source_interrupt), + + LINE("fault_code_record", + "Fault code record", + fault_code_record) + }) +} + + +void Defaults::unpack() { + auto list = getList({ + 4, // AAAA + 3, // BBB + 1, // C + 3, // DDD + 3, // EEE + 3, // FFF + 3, // GGG + 3, // HHH + 3, // III + 2, // JJ + 1, // K + 1, // L + 1, // M + 1, // N + 1, // O + 1, // P + 1, // S + 1, // T + 1, // U + 1, // V + 1, // W + 1, // X + 1, // Y + 1, // Z + }); + + ac_output_voltage = stou(list[0]); + ac_output_freq = stou(list[1]); + ac_input_voltage_range = static_cast(stou(list[2])); + battery_under_voltage = stou(list[3]); + charging_float_voltage = stou(list[4]); + charging_bulk_voltage = stou(list[5]); + battery_recharge_voltage = stou(list[6]); + battery_redischarge_voltage = stou(list[7]); + max_charging_current = stou(list[8]); + max_ac_charging_current = stou(list[9]); + battery_type = static_cast(stou(list[10])); + output_source_priority = static_cast(stou(list[11])); + charger_source_priority = static_cast(stou(list[12])); + solar_power_priority = static_cast(stou(list[13])); + machine_type = static_cast(stou(list[14])); + output_model_setting = static_cast(stou(list[15])); + flag_buzzer = stou(list[16]) > 0; + flag_overload_restart = stou(list[17]) > 0; + flag_over_temp_restart = stou(list[18]) > 0; + flag_backlight_on = stou(list[19]) > 0; + flag_alarm_on_primary_source_interrupt = stou(list[20]) > 0; + flag_fault_code_record = stou(list[21]) > 0; + flag_overload_bypass = stou(list[22]) > 0; + flag_lcd_escape_to_default_page_after_1min_timeout = stou(list[23]) > 0; +} + +formattable_ptr Defaults::format(formatter::Format format) { + RETURN_TABLE({ + LINE("ac_output_voltage", "AC output voltage", ac_output_voltage / 10.0, Unit::V), + LINE("ac_output_freq", "AC output frequency", ac_output_freq / 10.0, Unit::Hz), + LINE("ac_input_voltage_range", "AC input voltage range", ac_input_voltage_range), + LINE("battery_under_voltage", "Battery under voltage", battery_under_voltage / 10.0, Unit::V), + LINE("battery_bulk_voltage", "Charging bulk voltage", charging_bulk_voltage / 10.0, Unit::V), + LINE("battery_float_voltage", "Charging float voltage", charging_float_voltage / 10.0, Unit::V), + LINE("battery_recharging_voltage", "Battery re-charging voltage", battery_recharge_voltage / 10.0, Unit::V), + LINE("battery_redischarging_voltage", "Battery re-discharging voltage", battery_redischarge_voltage / 10.0, Unit::V), + LINE("max_charging_current", "Max charging current", max_charging_current, Unit::A), + LINE("max_ac_charging_current", "Max AC charging current", max_ac_charging_current, Unit::A), + LINE("battery_type", "Battery type", battery_type), + LINE("output_source_priority", "Output source priority", output_source_priority), + LINE("charger_source_priority", "Charger source priority", charger_source_priority), + LINE("solar_power_priority", "Solar power priority", solar_power_priority), + LINE("machine_type", "Machine type", machine_type), + LINE("output_model_setting", "Output model setting", output_model_setting), + LINE("buzzer_flag", "Buzzer flag", flag_buzzer), + LINE("overload_bypass_flag", "Overload bypass function flag", flag_overload_bypass), + LINE("escape_to_default_screen_after_1min_timeout_flag", "Escape to default screen after 1min timeout flag", flag_lcd_escape_to_default_page_after_1min_timeout), + LINE("overload_restart_flag", "Overload restart flag", flag_overload_restart), + LINE("over_temp_restart_flag", "Over temperature restart flag", flag_over_temp_restart), + LINE("backlight_on_flag", "Backlight on flag", flag_backlight_on), + LINE("alarm_on_on_primary_source_interrupt_flag", "Alarm on on primary source interrupt flag", flag_alarm_on_primary_source_interrupt), + LINE("fault_code_record_flag", "Fault code record flag", flag_fault_code_record), + }) +} + +void AllowedChargingCurrents::unpack() { + auto list = getList({}); + for (const std::string& i: list) { + amps.emplace_back(stou(i)); + } +} + +formattable_ptr AllowedChargingCurrents::format(formatter::Format format) { + std::vector> v; + for (const auto& n: amps) + v.emplace_back(n); + + return std::shared_ptr>( + new formatter::List(format, v) + ); +} + + +void ParallelRatedInformation::unpack() { + auto list = getList({ + 1, // A + 2, // BB + 20, // CCCCCCCCCCCCCCCCCCCC + 1, // D + 3, // EEE + + // FF + // note: protocol documentation says that the following field is 2 bytes long, + // but actual tests of the 6kw unit shows it can be 3 bytes long + FieldLength(2, 3), + + 1 // G + }); + + parallel_id_connection_status = static_cast(stou(list[0])); + serial_number_valid_length = stou(list[1]); + serial_number = std::string(list[2], 0, serial_number_valid_length); + charger_source_priority = static_cast(stou(list[3])); + max_charging_current = stou(list[4]); + max_ac_charging_current = stou(list[5]); + output_model_setting = static_cast(stou(list[6])); +} + +formattable_ptr ParallelRatedInformation::format(formatter::Format format) { + RETURN_TABLE({ + LINE("parallel_id_connection_status", "Parallel ID connection status", parallel_id_connection_status), + LINE("serial_number", "Serial number", serial_number), + LINE("charger_source_priority", "Charger source priority", charger_source_priority), + LINE("max_charging_current", "Max charging current", max_charging_current, Unit::A), + LINE("max_ac_charging_current", "Max AC charging current", max_ac_charging_current, Unit::A), + LINE("output_model_setting", "Output model setting", output_model_setting), + }) +} + + +void ParallelGeneralStatus::unpack() { + auto list = getList({ + 1, // A + 1, // B + 2, // CC + 4, // DDDD + 3, // EEE + 4, // FFFF + 3, // GGG + 4, // HHHH + 4, // IIII + 5, // JJJJJ + 5, // KKKKK + 3, // LLL + 3, // MMM + 3, // NNN + 3, // OOO + 3, // PPP + 3, // QQQ + 3, // MMM. It's not my mistake, it's per the doc. + 4, // RRRR + 4, // SSSS + 4, // TTTT + 4, // UUUU + 1, // V + // FIXME: marked red in the docs + 1, // W + // FIXME: marked red in the docs + 1, // X + 1, // Y + 1, // Z + 1, // a + 3, // bbb. Note: this one is marked in red in the doc. Apparently it means + // that it may be missing on some models, see + // https://github.com/gch1p/inverter-tools/issues/1#issuecomment-981158688 + }, 28); + + parallel_id_connection_status = static_cast(stou(list[0])); + work_mode = static_cast(stou(list[1])); + fault_code = stou(list[2]); + grid_voltage = stou(list[3]); + grid_freq = stou(list[4]); + ac_output_voltage = stou(list[5]); + ac_output_freq = stou(list[6]); + ac_output_apparent_power = stou(list[7]); + ac_output_active_power = stou(list[8]); + total_ac_output_apparent_power = stou(list[9]); + total_ac_output_active_power = stou(list[10]); + output_load_percent = stou(list[11]); + total_output_load_percent = stou(list[12]); + battery_voltage = stou(list[13]); + battery_discharge_current = stou(list[14]); + battery_charging_current = stou(list[15]); + total_battery_charging_current = stou(list[16]); + battery_capacity = stou(list[17]); + pv1_input_power = stou(list[18]); + pv2_input_power = stou(list[19]); + pv1_input_voltage = stou(list[20]); + pv2_input_voltage = stou(list[21]); + mppt1_charger_status = static_cast(stou(list[22])); + mppt2_charger_status = static_cast(stou(list[23])); + load_connected = static_cast(stou(list[24])); + battery_power_direction = static_cast(stou(list[25])); + dc_ac_power_direction = static_cast(stou(list[26])); + line_power_direction = static_cast(stou(list[27])); + if (list.size() >= 29) { + max_temp_present = true; + max_temp = stou(list[28]); + } +} + +formattable_ptr ParallelGeneralStatus::format(formatter::Format format) { + auto table = new formatter::Table(format, { + LINE("parallel_id_connection_status", "Parallel ID connection status", parallel_id_connection_status), + LINE("mode", "Working mode", work_mode), + LINE("fault_code", "Fault code", fault_code), + LINE("grid_voltage", "Grid voltage", grid_voltage / 10.0, Unit::V), + LINE("grid_freq", "Grid frequency", grid_freq / 10.0, Unit::Hz), + LINE("ac_output_voltage", "AC output voltage", ac_output_voltage / 10.0, Unit::V), + LINE("ac_output_freq", "AC output frequency", ac_output_freq / 10.0, Unit::Hz), + LINE("ac_output_apparent_power", "AC output apparent power", ac_output_apparent_power, Unit::VA), + LINE("ac_output_active_power", "AC output active power", ac_output_active_power, Unit::Wh), + LINE("total_ac_output_apparent_power", "Total AC output apparent power", total_ac_output_apparent_power, Unit::VA), + LINE("total_ac_output_active_power", "Total AC output active power", total_ac_output_active_power, Unit::Wh), + LINE("output_load_percent", "Output load percent", output_load_percent, Unit::Percentage), + LINE("total_output_load_percent", "Total output load percent", total_output_load_percent, Unit::Percentage), + LINE("battery_voltage", "Battery voltage", battery_voltage / 10.0, Unit::V), + LINE("battery_discharge_current", "Battery discharge current", battery_discharge_current, Unit::A), + LINE("battery_charging_current", "Battery charging current", battery_charging_current, Unit::A), + LINE("pv1_input_power", "PV1 Input power", pv1_input_power, Unit::Wh), + LINE("pv2_input_power", "PV2 Input power", pv2_input_power, Unit::Wh), + LINE("pv1_input_voltage", "PV1 Input voltage", pv1_input_voltage / 10.0, Unit::V), + LINE("pv2_input_voltage", "PV2 Input voltage", pv2_input_voltage / 10.0, Unit::V), + LINE("mppt1_charger_status", "MPPT1 charger status", mppt1_charger_status), + LINE("mppt2_charger_status", "MPPT2 charger status", mppt2_charger_status), + LINE("load_connected", "Load connection", load_connected), + LINE("battery_power_direction", "Battery power direction", battery_power_direction), + LINE("dc_ac_power_direction", "DC/AC power direction", dc_ac_power_direction), + LINE("line_power_direction", "Line power direction", line_power_direction), + }); + + if (max_temp_present) { + table->push( + LINE("max_temp", "Max. temperature", max_temp) + ); + } + + return std::shared_ptr>(table); +} + + +void ACChargingTimeBucket::unpack() { + auto list = getList({4 /* AAAA */, 4 /* BBBB */}); + + start_h = stouh(list[0].substr(0, 2)); + start_m = stouh(list[0].substr(2, 2)); + + end_h = stouh(list[1].substr(0, 2)); + end_m = stouh(list[1].substr(2, 2)); +} + +static inline std::string get_time(unsigned short h, unsigned short m) { + std::ostringstream buf; + buf << std::setfill('0'); + buf << std::setw(2) << h << ":" << std::setw(2) << m; + return buf.str(); +} + +formattable_ptr ACChargingTimeBucket::format(formatter::Format format) { + RETURN_TABLE({ + LINE("start_time", "Start time", get_time(start_h, start_m)), + LINE("end_time", "End time", get_time(end_h, end_m)), + }) +} + +} \ No newline at end of file -- cgit v1.2.3