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#include "sunspecstorage.h"
#include "extern-plugininfo.h"

SunSpecStorage::SunSpecStorage(SunSpec *sunspec, SunSpec::ModelId modelId, int modbusAddress) :
    QObject(sunspec),
    m_connection(sunspec),
    m_id(modelId),
    m_modelModbusStartRegister(modbusAddress)
{
    qCDebug(dcSunSpec()) << "SunSpecStorage: Setting up storage";
    connect(m_connection, &SunSpec::modelDataBlockReceived, this, &SunSpecStorage::onModelDataBlockReceived);
}

SunSpec::ModelId SunSpecStorage::modelId()
{
    return m_id;
}

void SunSpecStorage::init()
{
    qCDebug(dcSunSpec()) << "SunSpecStorage: Init";
    getStorageModelHeader();
    connect(m_connection, &SunSpec::modelHeaderReceived, this, [this] (uint modbusAddress, SunSpec::ModelId modelId, uint length) {
        if (modelId == m_id) {
            qCDebug(dcSunSpec()) << "SunSpecStorager: Model header received, modbus address:" << modbusAddress << "model Id:" << modelId << "length:" << length;
            m_modelLength = length;
            emit initFinished(true);
            m_initFinishedSuccess = true;
        }
    });
    QTimer::singleShot(10000, this, [this] {
        if (!m_initFinishedSuccess) {
            emit initFinished(false);
        }
    });
}

void SunSpecStorage::getStorageModelDataBlock()
{
    qCDebug(dcSunSpec()) << "SunSpecStorage: get storage model data block, modbus register" << m_modelModbusStartRegister << "length" << m_modelLength;
    m_connection->readModelDataBlock(m_modelModbusStartRegister, m_modelLength);
}

void SunSpecStorage::getStorageModelHeader()
{
    qCDebug(dcSunSpec()) << "SunSpecStorage: get storage model header, modbus register" << m_modelModbusStartRegister << "length" << m_modelLength;
    m_connection->readModelHeader(m_modelModbusStartRegister);
}

QUuid SunSpecStorage::setGridCharging(bool enabled)
{
    // Name ChaGriSet
    /* Setpoint to enable/dis-
    able charging from grid
    PV (charging from grid 0 disabled)
    GRID (charging from 1 grid enabled*/

    uint registerAddress = m_modelModbusStartRegister + Model124Optional::Model124ChargeGridSet;
    quint16 value = enabled;
    return m_connection->writeHoldingRegister(registerAddress, value);
}

QUuid SunSpecStorage::setStorageControlMode(bool chargingEnabled, bool dischargingEnabled)
{
    // Set charge bit to enable charge limit, set discharge bit to enable discharge limit, set both bits to enable both limits
    quint16 value = ((static_cast<quint16>(chargingEnabled)) |
                     (static_cast<quint16>(dischargingEnabled) << 1)) ;

    uint modbusRegister = m_modelModbusStartRegister + Model124::Model124ActivateStorageControlMode;
    return m_connection->writeHoldingRegister(modbusRegister, value);
}

QUuid SunSpecStorage::setChargingRate(int rate)
{
    //Register Name InWRte
    /* Defines the maximum charge rate (charge limit). Default is 100% */

    uint modbusRegister = m_modelModbusStartRegister + Model124::Model124SetpointMaximumChargingRate;
    int16_t value = rate * 100;
    return m_connection->writeHoldingRegister(modbusRegister, value);
}

QUuid SunSpecStorage::setDischargingRate(int charging)
{
    //Register Name OutWRte
    /* Defines the maximum discharge rate (discharge limit). Default is 100% */
    uint modbusRegister = m_modelModbusStartRegister + Model124::Model124SetpointMaximumDischargeRate;
    quint16 value = charging * 100;
    return m_connection->writeHoldingRegister(modbusRegister, value);
}

void SunSpecStorage::onModelDataBlockReceived(SunSpec::ModelId modelId, uint length, const QVector<quint16> &data)
{
    if (modelId != m_id) {
        return;
    }

    if (length < m_modelLength) {
        qCDebug(dcSunSpec()) << "SunSpecMeter: on model data block received, model length is too short" << length;
        return;
    }

    qCDebug(dcSunSpec()) << "SunSpecStorage: Received" << modelId;
    switch (modelId) {
    case SunSpec::ModelIdStorage: {
        StorageData mandatory;
        mandatory.maxCharge = m_connection->convertValueWithSSF(data[Model124SetpointMaximumCharge], data[Model124ScaleFactorMaximumChargeDischargeRate]);
        mandatory.maxChargeRate = m_connection->convertValueWithSSF(data[Model124SetpointMaximumChargingRate], data[Model124ScaleFactorPercentChargeDischargeRate]);
        mandatory.chargingEnabled = data[Model124ActivateStorageControlMode]&0x01;
        mandatory.dischargingEnabled = data[Model124ActivateStorageControlMode]&0x02;
        mandatory.maxDischargeRate = m_connection->convertValueWithSSF(data[Model124SetpointMaximumDischargeRate], data[Model124ScaleFactorPercentChargeDischargeRate]);

        StorageDataOptional optional;
        optional.chargeSatus = ChargingStatus(data[Model124ChargeStatus]);
        optional.batteryVoltage = m_connection->convertValueWithSSF(data[Model124InternalBatteryVoltage], data[Model124ScaleFactorBatteryVoltage]);
        optional.storageAvailable = m_connection->convertValueWithSSF(data[Model124StorageAvailableAH], data[Model124ScaleFactorMaximumChargingVA]);
        optional.gridChargingEnabled = (data[Model124ChargeGridSet] == 1);
        optional.currentlyAvailableEnergy = m_connection->convertValueWithSSF(data[Model124CurrentlyAvailableEnergyPercent], data[Model124ScaleFactorAvailableEnergyPercent]);
        emit storageDataReceived(mandatory, optional);

    } break;
    case SunSpec::ModelIdBatteryBaseModel:
    case SunSpec::ModelIdLithiumIonBatteryModel: {
        qCDebug(dcSunSpec()) << "Model not yet supported";
    }
    default:
        break;
    }
}