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powersync-plugins-modbus/huawei/huaweifusionsolar.cpp
Simon Stürz bf53a742a3 Update license text and add SPDX identifier
2025-11-18 12:02:13 +01:00

784 lines
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// SPDX-License-Identifier: GPL-3.0-or-later
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
*
* Copyright (C) 2013 - 2024, nymea GmbH
* Copyright (C) 2024 - 2025, chargebyte austria GmbH
*
* This file is part of nymea-plugins-modbus.
*
* nymea-plugins-modbus is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* nymea-plugins-modbus is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with nymea-plugins-modbus. If not, see <https://www.gnu.org/licenses/>.
*
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
#include "huaweifusionsolar.h"
#include "extern-plugininfo.h"
#include "loggingcategories.h"
NYMEA_LOGGING_CATEGORY(dcHuaweiFusionSolar, "HuaweiFusionSolar")
HuaweiFusionSolar::HuaweiFusionSolar(const QHostAddress &hostAddress, uint port, quint16 slaveId, QObject *parent) :
HuaweiFusionModbusTcpConnection(hostAddress, port, slaveId, parent),
m_slaveId(slaveId)
{
// Note: sometimes right after the discovery / setup the check fails the first time due to server busy error,
// this is a very slow or busy device since it returns quiet often that error. Don't faile with the first busy error...
setCheckReachableRetries(3);
connect(modbusTcpMaster(), &ModbusTcpMaster::connectionStateChanged, this, [=](bool connected){
if (!connected) {
m_registersQueue.clear();
}
});
connect(this, &HuaweiFusionModbusTcpConnection::initializationFinished, this, [=](bool success) {
if (success) {
qCDebug(dcHuawei()) << "Huawei init finished successfully:" << model() << serialNumber() << productNumber();
}
});
}
bool HuaweiFusionSolar::update()
{
// Make sure there is not an update still running
if (!m_registersQueue.isEmpty())
return true;
// Add the requests to queue, begin with power values, since they are most important
m_registersQueue.enqueue(HuaweiFusionModbusTcpConnection::RegisterInverterActivePower);
m_registersQueue.enqueue(HuaweiFusionModbusTcpConnection::RegisterInverterInputPower);
if (m_battery1Available)
m_registersQueue.enqueue(HuaweiFusionModbusTcpConnection::RegisterLunaBattery1Power);
if (m_battery2Available)
m_registersQueue.enqueue(HuaweiFusionModbusTcpConnection::RegisterLunaBattery2Power);
m_registersQueue.enqueue(HuaweiFusionModbusTcpConnection::RegisterPowerMeterActivePower);
m_registersQueue.enqueue(HuaweiFusionModbusTcpConnection::RegisterPowerMeterEnergyReturned);
m_registersQueue.enqueue(HuaweiFusionModbusTcpConnection::RegisterPowerMeterEnergyAquired);
m_registersQueue.enqueue(HuaweiFusionModbusTcpConnection::RegisterInverterEnergyProduced);
m_registersQueue.enqueue(HuaweiFusionModbusTcpConnection::RegisterInverterDeviceStatus);
// Note: we constantly read the status in any case so we detect if a battery came online
m_registersQueue.enqueue(HuaweiFusionModbusTcpConnection::RegisterLunaBattery1Status);
m_registersQueue.enqueue(HuaweiFusionModbusTcpConnection::RegisterLunaBattery2Status);
if (m_battery1Available)
m_registersQueue.enqueue(HuaweiFusionModbusTcpConnection::RegisterLunaBattery1Soc);
if (m_battery2Available)
m_registersQueue.enqueue(HuaweiFusionModbusTcpConnection::RegisterLunaBattery2Soc);
// Note: since huawei can only process one request at the time, we need to queue the requests and have some time between requests...
m_currentRegisterRequest = -1;
readNextRegister();
return true;
}
quint16 HuaweiFusionSolar::slaveId() const
{
return m_slaveId;
}
void HuaweiFusionSolar::readNextRegister()
{
// Check if currently a reply is pending
if (m_currentRegisterRequest >= 0)
return;
// Check if there is still a register to read
if (m_registersQueue.isEmpty())
return;
m_currentRegisterRequest = m_registersQueue.dequeue();
switch (m_currentRegisterRequest) {
case HuaweiFusionModbusTcpConnection::RegisterInverterActivePower: {
// Update registers from Inverter active power
qCDebug(dcHuaweiFusionSolar()) << "--> Read \"Inverter active power\" register:" << 32080 << "size:" << 2;
QModbusReply *reply = readInverterActivePower();
if (!reply) {
qCWarning(dcHuaweiFusionSolar()) << "Error occurred while reading \"Inverter active power\" registers from" << modbusTcpMaster()->hostAddress().toString() << modbusTcpMaster()->errorString();
finishRequest();
return;
}
if (reply->isFinished()) {
reply->deleteLater(); // Broadcast reply returns immediatly
finishRequest();
return;
}
connect(reply, &QModbusReply::finished, reply, &QModbusReply::deleteLater);
connect(reply, &QModbusReply::finished, this, [this, reply](){
handleModbusError(reply->error());
if (reply->error() == QModbusDevice::NoError) {
const QModbusDataUnit unit = reply->result();
qCDebug(dcHuaweiFusionSolar()) << "<-- Response from \"Inverter active power\" register" << 32080 << "size:" << 2 << "valueCount:" << unit.valueCount() << unit.values() << unit.values().length();
if (!valuesAreVaild(unit.values(), 2)) {
qCWarning(dcHuaweiFusionSolar()) << "<-- Received invalid values. Requested" << 2 << "but received" << unit.values();
} else {
processInverterActivePowerRegisterValues(unit.values());
}
}
finishRequest();
});
connect(reply, &QModbusReply::errorOccurred, this, [this, reply] (QModbusDevice::Error error){
if (reply->error() == QModbusDevice::ProtocolError) {
QModbusResponse response = reply->rawResult();
if (response.isException()) {
qCDebug(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Inverter active power\" registers from" << modbusTcpMaster()->hostAddress().toString() << exceptionToString(response.exceptionCode());
}
} else {
qCWarning(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Inverter active power\" registers from" << modbusTcpMaster()->hostAddress().toString() << error << reply->errorString();
}
});
break;
}
case HuaweiFusionModbusTcpConnection::RegisterInverterInputPower: {
// Update registers from Inverter active power
qCDebug(dcHuaweiFusionSolar()) << "--> Read \"Inverter input power\" register:" << 32064 << "size:" << 2;
QModbusReply *reply = readInverterInputPower();
if (!reply) {
qCWarning(dcHuaweiFusionSolar()) << "Error occurred while reading \"Inverter input power\" registers from" << modbusTcpMaster()->hostAddress().toString() << modbusTcpMaster()->errorString();
finishRequest();
return;
}
if (reply->isFinished()) {
reply->deleteLater(); // Broadcast reply returns immediatly
finishRequest();
return;
}
connect(reply, &QModbusReply::finished, reply, &QModbusReply::deleteLater);
connect(reply, &QModbusReply::finished, this, [this, reply](){
handleModbusError(reply->error());
if (reply->error() == QModbusDevice::NoError) {
const QModbusDataUnit unit = reply->result();
qCDebug(dcHuaweiFusionSolar()) << "<-- Response from \"Inverter input power\" register" << 32064 << "size:" << 2 << "valueCount:" << unit.valueCount() << unit.values() << unit.values().length();
if (!valuesAreVaild(unit.values(), 2)) {
qCWarning(dcHuaweiFusionSolar()) << "<-- Received invalid values. Requested" << 2 << "but received" << unit.values();
} else {
processInverterInputPowerRegisterValues(unit.values());
}
}
finishRequest();
});
connect(reply, &QModbusReply::errorOccurred, this, [this, reply] (QModbusDevice::Error error){
if (reply->error() == QModbusDevice::ProtocolError) {
QModbusResponse response = reply->rawResult();
if (response.isException()) {
qCDebug(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Inverter input power\" registers from" << modbusTcpMaster()->hostAddress().toString() << exceptionToString(response.exceptionCode());
}
} else {
qCWarning(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Inverter input power\" registers from" << modbusTcpMaster()->hostAddress().toString() << error << reply->errorString();
}
});
break;
}
case HuaweiFusionModbusTcpConnection::RegisterInverterDeviceStatus: {
// Update registers from Inverter device status
qCDebug(dcHuaweiFusionSolar()) << "--> Read \"Inverter device status\" register:" << 32089 << "size:" << 1;
QModbusReply *reply = readInverterDeviceStatus();
if (!reply) {
qCWarning(dcHuaweiFusionSolar()) << "Error occurred while reading \"Inverter device status\" registers from" << modbusTcpMaster()->hostAddress().toString() << modbusTcpMaster()->errorString();
finishRequest();
return;
}
if (reply->isFinished()) {
reply->deleteLater(); // Broadcast reply returns immediatly
finishRequest();
return;
}
connect(reply, &QModbusReply::finished, reply, &QModbusReply::deleteLater);
connect(reply, &QModbusReply::finished, this, [this, reply](){
handleModbusError(reply->error());
if (reply->error() == QModbusDevice::NoError) {
const QModbusDataUnit unit = reply->result();
qCDebug(dcHuaweiFusionSolar()) << "<-- Response from \"Inverter device status\" register" << 32089 << "size:" << 1 << "valueCount:" << unit.valueCount() << unit.values() << unit.values().length();
if (!valuesAreVaild(unit.values(), 1)) {
qCWarning(dcHuaweiFusionSolar()) << "<-- Received invalid values. Requested" << 1 << "but received" << unit.values();
} else {
processInverterDeviceStatusRegisterValues(unit.values());
}
}
finishRequest();
});
connect(reply, &QModbusReply::errorOccurred, this, [this, reply] (QModbusDevice::Error error){
if (reply->error() == QModbusDevice::ProtocolError) {
QModbusResponse response = reply->rawResult();
if (response.isException()) {
qCDebug(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Inverter device status\" registers from" << modbusTcpMaster()->hostAddress().toString() << exceptionToString(response.exceptionCode());
}
} else {
qCWarning(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Inverter device status\" registers from" << modbusTcpMaster()->hostAddress().toString() << error << reply->errorString();
}
});
break;
}
case HuaweiFusionModbusTcpConnection::RegisterInverterEnergyProduced: {
// Update registers from Inverter energy produced
qCDebug(dcHuaweiFusionSolar()) << "--> Read \"Inverter energy produced\" register:" << 32106 << "size:" << 2;
QModbusReply *reply = readInverterEnergyProduced();
if (!reply) {
qCWarning(dcHuaweiFusionSolar()) << "Error occurred while reading \"Inverter energy produced\" registers from" << modbusTcpMaster()->hostAddress().toString() << modbusTcpMaster()->errorString();
finishRequest();
return;
}
if (reply->isFinished()) {
reply->deleteLater(); // Broadcast reply returns immediatly
finishRequest();
return;
}
connect(reply, &QModbusReply::finished, reply, &QModbusReply::deleteLater);
connect(reply, &QModbusReply::finished, this, [this, reply](){
handleModbusError(reply->error());
if (reply->error() == QModbusDevice::NoError) {
const QModbusDataUnit unit = reply->result();
qCDebug(dcHuaweiFusionSolar()) << "<-- Response from \"Inverter energy produced\" register" << 32106 << "size:" << 2 << "valueCount:" << unit.valueCount() << unit.values() << unit.values().length();
if (!valuesAreVaild(unit.values(), 2)) {
qCWarning(dcHuaweiFusionSolar()) << "<-- Received invalid values. Requested" << 2 << "but received" << unit.values();
} else {
processInverterEnergyProducedRegisterValues(unit.values());
}
}
finishRequest();
});
connect(reply, &QModbusReply::errorOccurred, this, [this, reply] (QModbusDevice::Error error){
if (reply->error() == QModbusDevice::ProtocolError) {
QModbusResponse response = reply->rawResult();
if (response.isException()) {
qCDebug(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Inverter energy produced\" registers from" << modbusTcpMaster()->hostAddress().toString() << exceptionToString(response.exceptionCode());
}
} else {
qCWarning(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Inverter energy produced\" registers from" << modbusTcpMaster()->hostAddress().toString() << error << reply->errorString();
}
});
break;
}
case HuaweiFusionModbusTcpConnection::RegisterPowerMeterActivePower: {
// Update registers from Power meter active power
qCDebug(dcHuaweiFusionSolar()) << "--> Read \"Power meter active power\" register:" << 37113 << "size:" << 2;
QModbusReply *reply = readPowerMeterActivePower();
if (!reply) {
qCWarning(dcHuaweiFusionSolar()) << "Error occurred while reading \"Power meter active power\" registers from" << modbusTcpMaster()->hostAddress().toString() << modbusTcpMaster()->errorString();
finishRequest();
return;
}
if (reply->isFinished()) {
reply->deleteLater(); // Broadcast reply returns immediatly
finishRequest();
return;
}
connect(reply, &QModbusReply::finished, reply, &QModbusReply::deleteLater);
connect(reply, &QModbusReply::finished, this, [this, reply](){
handleModbusError(reply->error());
if (reply->error() == QModbusDevice::NoError) {
const QModbusDataUnit unit = reply->result();
qCDebug(dcHuaweiFusionSolar()) << "<-- Response from \"Power meter active power\" register" << 37113 << "size:" << 2 << "valueCount:" << unit.valueCount() << unit.values() << unit.values().length();
if (!valuesAreVaild(unit.values(), 2)) {
qCWarning(dcHuaweiFusionSolar()) << "<-- Received invalid values. Requested" << 2 << "but received" << unit.values();
} else {
processPowerMeterActivePowerRegisterValues(unit.values());
}
}
finishRequest();
});
connect(reply, &QModbusReply::errorOccurred, this, [this, reply] (QModbusDevice::Error error){
if (reply->error() == QModbusDevice::ProtocolError) {
QModbusResponse response = reply->rawResult();
if (response.isException()) {
qCDebug(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Power meter active power\" registers from" << modbusTcpMaster()->hostAddress().toString() << exceptionToString(response.exceptionCode());
}
} else {
qCWarning(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Power meter active power\" registers from" << modbusTcpMaster()->hostAddress().toString() << error << reply->errorString();
}
});
break;
}
case HuaweiFusionModbusTcpConnection::RegisterPowerMeterEnergyReturned: {
// Update registers from Power meter active power
qCDebug(dcHuaweiFusionSolar()) << "--> Read \"Power meter Positive active electricity\" register:" << 37119 << "size:" << 2;
QModbusReply *reply = readPowerMeterEnergyReturned();
if (!reply) {
qCWarning(dcHuaweiFusionSolar()) << "Error occurred while reading \"Power meter Positive active electricity\" registers from" << modbusTcpMaster()->hostAddress().toString() << modbusTcpMaster()->errorString();
finishRequest();
return;
}
if (reply->isFinished()) {
reply->deleteLater(); // Broadcast reply returns immediatly
finishRequest();
return;
}
connect(reply, &QModbusReply::finished, reply, &QModbusReply::deleteLater);
connect(reply, &QModbusReply::finished, this, [this, reply](){
handleModbusError(reply->error());
if (reply->error() == QModbusDevice::NoError) {
const QModbusDataUnit unit = reply->result();
qCDebug(dcHuaweiFusionSolar()) << "<-- Response from \"Power meter Positive active electricity\" register" << 37119 << "size:" << 2 << "valueCount:" << unit.valueCount() << unit.values() << unit.values().length();
if (!valuesAreVaild(unit.values(), 2)) {
qCWarning(dcHuaweiFusionSolar()) << "<-- Received invalid values. Requested" << 2 << "but received" << unit.values();
} else {
processPowerMeterEnergyReturnedRegisterValues(unit.values());
}
}
finishRequest();
});
connect(reply, &QModbusReply::errorOccurred, this, [this, reply] (QModbusDevice::Error error){
if (reply->error() == QModbusDevice::ProtocolError) {
QModbusResponse response = reply->rawResult();
if (response.isException()) {
qCDebug(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Power meter Positive active electricity\" registers from" << modbusTcpMaster()->hostAddress().toString() << exceptionToString(response.exceptionCode());
}
} else {
qCWarning(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Power meter Positive active electricity\" registers from" << modbusTcpMaster()->hostAddress().toString() << error << reply->errorString();
}
});
break;
}
case HuaweiFusionModbusTcpConnection::RegisterPowerMeterEnergyAquired: {
// Update registers from Power meter active power
qCDebug(dcHuaweiFusionSolar()) << "--> Read \"Power meter Reverse active power\" register:" << 37121 << "size:" << 2;
QModbusReply *reply = readPowerMeterEnergyAquired();
if (!reply) {
qCWarning(dcHuaweiFusionSolar()) << "Error occurred while reading \"Power meter Reverse active power\" registers from" << modbusTcpMaster()->hostAddress().toString() << modbusTcpMaster()->errorString();
finishRequest();
return;
}
if (reply->isFinished()) {
reply->deleteLater(); // Broadcast reply returns immediatly
finishRequest();
return;
}
connect(reply, &QModbusReply::finished, reply, &QModbusReply::deleteLater);
connect(reply, &QModbusReply::finished, this, [this, reply](){
handleModbusError(reply->error());
if (reply->error() == QModbusDevice::NoError) {
const QModbusDataUnit unit = reply->result();
qCDebug(dcHuaweiFusionSolar()) << "<-- Response from \"Power meter Reverse active power\" register" << 37121 << "size:" << 2 << "valueCount:" << unit.valueCount() << unit.values() << unit.values().length();
if (!valuesAreVaild(unit.values(), 2)) {
qCWarning(dcHuaweiFusionSolar()) << "<-- Received invalid values. Requested" << 2 << "but received" << unit.values();
} else {
processPowerMeterEnergyAquiredRegisterValues(unit.values());
}
}
finishRequest();
});
connect(reply, &QModbusReply::errorOccurred, this, [this, reply] (QModbusDevice::Error error){
if (reply->error() == QModbusDevice::ProtocolError) {
QModbusResponse response = reply->rawResult();
if (response.isException()) {
qCDebug(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Power meter Reverse active power\" registers from" << modbusTcpMaster()->hostAddress().toString() << exceptionToString(response.exceptionCode());
}
} else {
qCWarning(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Power meter Reverse active power\" registers from" << modbusTcpMaster()->hostAddress().toString() << error << reply->errorString();
}
});
break;
}
case HuaweiFusionModbusTcpConnection::RegisterLunaBattery1Status: {
// Update registers from Luna 2000 Battery 1 status
qCDebug(dcHuaweiFusionSolar()) << "--> Read \"Luna 2000 Battery 1 status\" register:" << 37000 << "size:" << 1;
QModbusReply *reply = readLunaBattery1Status();
if (!reply) {
qCWarning(dcHuaweiFusionSolar()) << "Error occurred while reading \"Luna 2000 Battery 1 status\" registers from" << modbusTcpMaster()->hostAddress().toString() << modbusTcpMaster()->errorString();
finishRequest();
return;
}
if (reply->isFinished()) {
reply->deleteLater(); // Broadcast reply returns immediatly
finishRequest();
return;
}
connect(reply, &QModbusReply::finished, reply, &QModbusReply::deleteLater);
connect(reply, &QModbusReply::finished, this, [this, reply](){
handleModbusError(reply->error());
if (reply->error() == QModbusDevice::NoError) {
const QModbusDataUnit unit = reply->result();
qCDebug(dcHuaweiFusionSolar()) << "<-- Response from \"Luna 2000 Battery 1 status\" register" << 37000 << "size:" << 1 << "valueCount:" << unit.valueCount() << unit.values() << unit.values().length();
if (!valuesAreVaild(unit.values(), 1)) {
qCWarning(dcHuaweiFusionSolar()) << "<-- Received invalid values. Requested" << 1 << "but received" << unit.values();
} else {
processLunaBattery1StatusRegisterValues(unit.values());
switch (m_lunaBattery1Status) {
case HuaweiFusionSolar::BatteryDeviceStatusFault:
case HuaweiFusionSolar::BatteryDeviceStatusStandby:
case HuaweiFusionSolar::BatteryDeviceStatusOffline:
case HuaweiFusionSolar::BatteryDeviceStatusSleepMode:
m_battery1Available = false;
m_lunaBattery1Power = 0;
emit lunaBattery1PowerChanged(m_lunaBattery1Power);
break;
case HuaweiFusionSolar::BatteryDeviceStatusRunning:
m_battery1Available = true;
break;
}
}
}
finishRequest();
});
connect(reply, &QModbusReply::errorOccurred, this, [this, reply] (QModbusDevice::Error error){
if (reply->error() == QModbusDevice::ProtocolError) {
QModbusResponse response = reply->rawResult();
if (response.isException()) {
qCDebug(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Luna 2000 Battery 1 status\" registers from" << modbusTcpMaster()->hostAddress().toString() << exceptionToString(response.exceptionCode());
}
} else {
qCWarning(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Luna 2000 Battery 1 status\" registers from" << modbusTcpMaster()->hostAddress().toString() << error << reply->errorString();
}
});
break;
}
case HuaweiFusionModbusTcpConnection::RegisterLunaBattery1Power: {
// Update registers from Luna 2000 Battery 1 power
qCDebug(dcHuaweiFusionSolar()) << "--> Read \"Luna 2000 Battery 1 power\" register:" << 37001 << "size:" << 2;
QModbusReply *reply = readLunaBattery1Power();
if (!reply) {
qCWarning(dcHuaweiFusionSolar()) << "Error occurred while reading \"Luna 2000 Battery 1 power\" registers from" << modbusTcpMaster()->hostAddress().toString() << modbusTcpMaster()->errorString();
finishRequest();
return;
}
if (reply->isFinished()) {
reply->deleteLater(); // Broadcast reply returns immediatly
finishRequest();
return;
}
connect(reply, &QModbusReply::finished, reply, &QModbusReply::deleteLater);
connect(reply, &QModbusReply::finished, this, [this, reply](){
handleModbusError(reply->error());
if (reply->error() == QModbusDevice::NoError) {
const QModbusDataUnit unit = reply->result();
qCDebug(dcHuaweiFusionSolar()) << "<-- Response from \"Luna 2000 Battery 1 power\" register" << 37001 << "size:" << 2 << "valueCount:" << unit.valueCount() << unit.values() << unit.values().length();
if (!valuesAreVaild(unit.values(), 2)) {
qCWarning(dcHuaweiFusionSolar()) << "<-- Received invalid values. Requested" << 2 << "but received" << unit.values();
} else {
processLunaBattery1PowerRegisterValues(unit.values());
}
}
finishRequest();
});
connect(reply, &QModbusReply::errorOccurred, this, [this, reply] (QModbusDevice::Error error){
if (reply->error() == QModbusDevice::ProtocolError) {
QModbusResponse response = reply->rawResult();
if (response.isException()) {
qCDebug(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Luna 2000 Battery 1 power\" registers from" << modbusTcpMaster()->hostAddress().toString() << exceptionToString(response.exceptionCode());
}
} else {
qCWarning(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Luna 2000 Battery 1 power\" registers from" << modbusTcpMaster()->hostAddress().toString() << error << reply->errorString();
}
});
break;
}
case HuaweiFusionModbusTcpConnection::RegisterLunaBattery1Soc: {
// Update registers from Luna 2000 Battery 1 state of charge
qCDebug(dcHuaweiFusionSolar()) << "--> Read \"Luna 2000 Battery 1 state of charge\" register:" << 37004 << "size:" << 1;
QModbusReply *reply = readLunaBattery1Soc();
if (!reply) {
qCWarning(dcHuaweiFusionSolar()) << "Error occurred while reading \"Luna 2000 Battery 1 state of charge\" registers from" << modbusTcpMaster()->hostAddress().toString() << modbusTcpMaster()->errorString();
finishRequest();
return;
}
if (reply->isFinished()) {
reply->deleteLater(); // Broadcast reply returns immediatly
finishRequest();
return;
}
connect(reply, &QModbusReply::finished, reply, &QModbusReply::deleteLater);
connect(reply, &QModbusReply::finished, this, [this, reply](){
handleModbusError(reply->error());
if (reply->error() == QModbusDevice::NoError) {
const QModbusDataUnit unit = reply->result();
qCDebug(dcHuaweiFusionSolar()) << "<-- Response from \"Luna 2000 Battery 1 state of charge\" register" << 37004 << "size:" << 1 << "valueCount:" << unit.valueCount() << unit.values() << unit.values().length();
if (!valuesAreVaild(unit.values(), 1)) {
qCWarning(dcHuaweiFusionSolar()) << "<-- Received invalid values. Requested" << 1 << "but received" << unit.values();
} else {
processLunaBattery1SocRegisterValues(unit.values());
}
}
finishRequest();
});
connect(reply, &QModbusReply::errorOccurred, this, [this, reply] (QModbusDevice::Error error){
if (reply->error() == QModbusDevice::ProtocolError) {
QModbusResponse response = reply->rawResult();
if (response.isException()) {
qCDebug(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Luna 2000 Battery 1 state of charge\" registers from" << modbusTcpMaster()->hostAddress().toString() << exceptionToString(response.exceptionCode());
}
} else {
qCWarning(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Luna 2000 Battery 1 state of charge\" registers from" << modbusTcpMaster()->hostAddress().toString() << error << reply->errorString();
}
});
break;
}
case HuaweiFusionModbusTcpConnection::RegisterLunaBattery2Status: {
// Update registers from Luna 2000 Battery 2 status
qCDebug(dcHuaweiFusionSolar()) << "--> Read \"Luna 2000 Battery 2 status\" register:" << 37741 << "size:" << 1;
QModbusReply *reply = readLunaBattery2Status();
if (!reply) {
qCWarning(dcHuaweiFusionSolar()) << "Error occurred while reading \"Luna 2000 Battery 2 status\" registers from" << modbusTcpMaster()->hostAddress().toString() << modbusTcpMaster()->errorString();
finishRequest();
return;
}
if (reply->isFinished()) {
reply->deleteLater(); // Broadcast reply returns immediatly
finishRequest();
return;
}
connect(reply, &QModbusReply::finished, reply, &QModbusReply::deleteLater);
connect(reply, &QModbusReply::finished, this, [this, reply](){
handleModbusError(reply->error());
if (reply->error() == QModbusDevice::NoError) {
const QModbusDataUnit unit = reply->result();
qCDebug(dcHuaweiFusionSolar()) << "<-- Response from \"Luna 2000 Battery 2 status\" register" << 37741 << "size:" << 1 << "valueCount:" << unit.valueCount() << unit.values() << unit.values().length();
if (!valuesAreVaild(unit.values(), 1)) {
qCWarning(dcHuaweiFusionSolar()) << "<-- Received invalid values count. Requested" << 1 << "but received" << unit.values();
} else {
processLunaBattery2StatusRegisterValues(unit.values());
switch (m_lunaBattery2Status) {
case HuaweiFusionSolar::BatteryDeviceStatusFault:
case HuaweiFusionSolar::BatteryDeviceStatusStandby:
case HuaweiFusionSolar::BatteryDeviceStatusOffline:
case HuaweiFusionSolar::BatteryDeviceStatusSleepMode:
m_battery2Available = false;
m_lunaBattery2Power = 0;
emit lunaBattery2PowerChanged(m_lunaBattery2Power);
break;
case HuaweiFusionSolar::BatteryDeviceStatusRunning:
m_battery2Available = true;
break;
}
}
}
finishRequest();
});
connect(reply, &QModbusReply::errorOccurred, this, [this, reply] (QModbusDevice::Error error){
if (reply->error() == QModbusDevice::ProtocolError) {
QModbusResponse response = reply->rawResult();
if (response.isException()) {
qCDebug(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Luna 2000 Battery 2 status\" registers from" << modbusTcpMaster()->hostAddress().toString() << exceptionToString(response.exceptionCode());
}
} else {
qCWarning(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Luna 2000 Battery 2 status\" registers from" << modbusTcpMaster()->hostAddress().toString() << error << reply->errorString();
}
});
break;
}
case HuaweiFusionModbusTcpConnection::RegisterLunaBattery2Power: {
// Update registers from Luna 2000 Battery 2 power
qCDebug(dcHuaweiFusionSolar()) << "--> Read \"Luna 2000 Battery 2 power\" register:" << 37743 << "size:" << 2;
QModbusReply *reply = readLunaBattery2Power();
if (!reply) {
qCWarning(dcHuaweiFusionSolar()) << "Error occurred while reading \"Luna 2000 Battery 2 power\" registers from" << modbusTcpMaster()->hostAddress().toString() << modbusTcpMaster()->errorString();
finishRequest();
return;
}
if (reply->isFinished()) {
reply->deleteLater(); // Broadcast reply returns immediatly
finishRequest();
return;
}
connect(reply, &QModbusReply::finished, reply, &QModbusReply::deleteLater);
connect(reply, &QModbusReply::finished, this, [this, reply](){
handleModbusError(reply->error());
if (reply->error() == QModbusDevice::NoError) {
const QModbusDataUnit unit = reply->result();
qCDebug(dcHuaweiFusionSolar()) << "<-- Response from \"Luna 2000 Battery 2 power\" register" << 37743 << "size:" << 2 << "valueCount:" << unit.valueCount() << unit.values() << unit.values().length();
if (!valuesAreVaild(unit.values(), 2)) {
qCWarning(dcHuaweiFusionSolar()) << "<-- Received invalid values count. Requested" << 2 << "but received" << unit.values();
} else {
processLunaBattery2PowerRegisterValues(unit.values());
}
}
finishRequest();
});
connect(reply, &QModbusReply::errorOccurred, this, [this, reply] (QModbusDevice::Error error){
if (reply->error() == QModbusDevice::ProtocolError) {
QModbusResponse response = reply->rawResult();
if (response.isException()) {
qCDebug(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Luna 2000 Battery 2 power\" registers from" << modbusTcpMaster()->hostAddress().toString() << exceptionToString(response.exceptionCode());
}
} else {
qCWarning(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Luna 2000 Battery 2 power\" registers from" << modbusTcpMaster()->hostAddress().toString() << error << reply->errorString();
}
});
break;
}
case HuaweiFusionModbusTcpConnection::RegisterLunaBattery2Soc: {
// Update registers from Luna 2000 Battery 2 state of charge
qCDebug(dcHuaweiFusionSolar()) << "--> Read \"Luna 2000 Battery 2 state of charge\" register:" << 37738 << "size:" << 1;
QModbusReply *reply = readLunaBattery2Soc();
if (!reply) {
qCWarning(dcHuaweiFusionSolar()) << "Error occurred while reading \"Luna 2000 Battery 2 state of charge\" registers from" << modbusTcpMaster()->hostAddress().toString() << modbusTcpMaster()->errorString();
finishRequest();
return;
}
if (reply->isFinished()) {
reply->deleteLater(); // Broadcast reply returns immediatly
finishRequest();
return;
}
connect(reply, &QModbusReply::finished, reply, &QModbusReply::deleteLater);
connect(reply, &QModbusReply::finished, this, [this, reply](){
handleModbusError(reply->error());
if (reply->error() == QModbusDevice::NoError) {
const QModbusDataUnit unit = reply->result();
qCDebug(dcHuaweiFusionSolar()) << "<-- Response from \"Luna 2000 Battery 2 state of charge\" register" << 37738 << "size:" << 1 << "valueCount:" << unit.valueCount() << unit.values() << unit.values().length();
if (!valuesAreVaild(unit.values(), 1)) {
qCWarning(dcHuaweiFusionSolar()) << "<-- Received invalid values. Requested" << 1 << "but received" << unit.values();
} else {
processLunaBattery2SocRegisterValues(unit.values());
}
}
finishRequest();
});
connect(reply, &QModbusReply::errorOccurred, this, [this, reply] (QModbusDevice::Error error){
if (reply->error() == QModbusDevice::ProtocolError) {
QModbusResponse response = reply->rawResult();
if (response.isException()) {
qCDebug(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Luna 2000 Battery 2 state of charge\" registers from" << modbusTcpMaster()->hostAddress().toString() << exceptionToString(response.exceptionCode());
}
} else {
qCWarning(dcHuaweiFusionSolar()) << "Modbus reply error occurred while updating \"Luna 2000 Battery 2 state of charge\" registers from" << modbusTcpMaster()->hostAddress().toString() << error << reply->errorString();
}
});
break;
}
}
}
bool HuaweiFusionSolar::valuesAreVaild(const QVector<quint16> &values, int readSize)
{
if (values.length() != readSize) {
qCDebug(dcHuaweiFusionSolar()) << "Invalid values. The received values count does not match the requested" << readSize << "registers.";
return false;
}
// According to the documentation from 2016:
// 0x7FFF: invalid value of the floating point type returned by one register
// 0xFFFF: invalid value of a type other than the floating point type returned by one register
// 0xFFFFFFFF: invalid value returned by two registers
if (values.length() == 2) {
bool floatingPointValid = (values != QVector<quint16>() << 0x7fff << 0xffff);
if (!floatingPointValid)
qCDebug(dcHuaweiFusionSolar()) << "Invalid values. The received values match the invalid for floating pointer:" << values;
bool otherTypesValid = (values != QVector<quint16>(2, 0xffff));
if (!otherTypesValid)
qCDebug(dcHuaweiFusionSolar()) << "Invalid values. The received values match the invalid registers values:" << values;
return floatingPointValid && otherTypesValid;
}
if (values.length() == 1)
return values.at(0) != 0x7fff && values.at(0) != 0xffff;
return true;
}
void HuaweiFusionSolar::finishRequest()
{
m_currentRegisterRequest = -1;
QTimer::singleShot(1000, this, &HuaweiFusionSolar::readNextRegister);
}
QString HuaweiFusionSolar::exceptionToString(QModbusPdu::ExceptionCode exception)
{
QString exceptionString;
switch (exception) {
case QModbusPdu::IllegalFunction:
exceptionString = "Illegal function";
break;
case QModbusPdu::IllegalDataAddress:
exceptionString = "Illegal data address";
break;
case QModbusPdu::IllegalDataValue:
exceptionString = "Illegal data value";
break;
case QModbusPdu::ServerDeviceFailure:
exceptionString = "Server device failure";
break;
case QModbusPdu::Acknowledge:
exceptionString = "Acknowledge";
break;
case QModbusPdu::ServerDeviceBusy:
exceptionString = "Server device busy";
break;
case QModbusPdu::NegativeAcknowledge:
exceptionString = "Negative acknowledge";
break;
case QModbusPdu::MemoryParityError:
exceptionString = "Memory parity error";
break;
case QModbusPdu::GatewayPathUnavailable:
exceptionString = "Gateway path unavailable";
break;
case QModbusPdu::GatewayTargetDeviceFailedToRespond:
exceptionString = "Gateway target device failed to respond";
break;
case QModbusPdu::ExtendedException:
exceptionString = "Extended exception";
break;
}
return exceptionString;
}
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